[INFO] crate newtype-ops 0.1.3 is already in cache [INFO] extracting crate newtype-ops 0.1.3 into work/ex/pr-60914/sources/master#39401465da4ce27aeeb2c2a26133ac35c63aa515/reg/newtype-ops/0.1.3 [INFO] extracting crate newtype-ops 0.1.3 into work/ex/pr-60914/sources/try#f45cc3094ee337acd688771b9234318046b0572d/reg/newtype-ops/0.1.3 [INFO] validating manifest of newtype-ops-0.1.3 on toolchain master#39401465da4ce27aeeb2c2a26133ac35c63aa515 [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+39401465da4ce27aeeb2c2a26133ac35c63aa515-alt" "read-manifest" "--manifest-path" "Cargo.toml"` [INFO] validating manifest of newtype-ops-0.1.3 on toolchain try#f45cc3094ee337acd688771b9234318046b0572d [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+f45cc3094ee337acd688771b9234318046b0572d-alt" "read-manifest" "--manifest-path" "Cargo.toml"` [INFO] started frobbing newtype-ops-0.1.3 [INFO] finished frobbing newtype-ops-0.1.3 [INFO] frobbed toml for newtype-ops-0.1.3 written to work/ex/pr-60914/sources/master#39401465da4ce27aeeb2c2a26133ac35c63aa515/reg/newtype-ops/0.1.3/Cargo.toml [INFO] started frobbing newtype-ops-0.1.3 [INFO] finished frobbing newtype-ops-0.1.3 [INFO] frobbed toml for newtype-ops-0.1.3 written to work/ex/pr-60914/sources/try#f45cc3094ee337acd688771b9234318046b0572d/reg/newtype-ops/0.1.3/Cargo.toml [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+39401465da4ce27aeeb2c2a26133ac35c63aa515-alt" "generate-lockfile" "--manifest-path" "Cargo.toml" "-Zno-index-update"` [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+f45cc3094ee337acd688771b9234318046b0572d-alt" "generate-lockfile" "--manifest-path" "Cargo.toml" "-Zno-index-update"` [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+39401465da4ce27aeeb2c2a26133ac35c63aa515-alt" "fetch" "--locked" "--manifest-path" "Cargo.toml"` [INFO] [stderr] Blocking waiting for file lock on package cache lock [INFO] running `"/mnt/crater-raid/crater/work/local/cargo-home/bin/cargo" "+f45cc3094ee337acd688771b9234318046b0572d-alt" "fetch" "--locked" "--manifest-path" "Cargo.toml"` [INFO] [stderr] Blocking waiting for file lock on package cache lock [INFO] checking newtype-ops-0.1.3 against master#39401465da4ce27aeeb2c2a26133ac35c63aa515 for pr-60914 [INFO] running `"docker" "create" "-v" "/mnt/crater-raid/crater/work/local/target-dirs/pr-60914/worker-7/master#39401465da4ce27aeeb2c2a26133ac35c63aa515:/opt/crater/target:rw,Z" "-v" "/mnt/crater-raid/crater/work/ex/pr-60914/sources/master#39401465da4ce27aeeb2c2a26133ac35c63aa515/reg/newtype-ops/0.1.3:/opt/crater/workdir:ro,Z" "-v" "/mnt/crater-raid/crater/work/local/cargo-home:/opt/crater/cargo-home:ro,Z" "-v" "/mnt/crater-raid/crater/work/local/rustup-home:/opt/crater/rustup-home:ro,Z" "-e" "USER_ID=1000" "-e" "SOURCE_DIR=/opt/crater/workdir" "-e" "MAP_USER_ID=1000" "-e" "CARGO_TARGET_DIR=/opt/crater/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/crater/cargo-home" "-e" "RUSTUP_HOME=/opt/crater/rustup-home" "-w" "/opt/crater/workdir" "-m" "1536M" "--network" "none" "rustops/crates-build-env" "/opt/crater/cargo-home/bin/cargo" "+39401465da4ce27aeeb2c2a26133ac35c63aa515-alt" "check" "--frozen" "--all" "--all-targets"` [INFO] [stdout] 4944966664fbb0220c0414e1fc2dc773bad4560227c5c24454899253efd07a66 [INFO] running `"docker" "start" "-a" "4944966664fbb0220c0414e1fc2dc773bad4560227c5c24454899253efd07a66"` [INFO] [stderr] Checking newtype-ops v0.1.3 (/opt/crater/workdir) [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:573:3 [INFO] [stderr] | [INFO] [stderr] 573 | assert_eq!(Foo(-3), -Foo(3)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( - 3 ) , - Foo ( 3 ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(-3) , & -Foo(3) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:569:3 [INFO] [stderr] | [INFO] [stderr] 569 | assert_eq!(Foo(4), &Foo(8) / 2); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 4 ) , & Foo ( 8 ) / 2 }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(4) , & &Foo(8) / 2 ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:565:3 [INFO] [stderr] | [INFO] [stderr] 565 | assert_eq!(Foo(5), &Foo(2) + Foo(3)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 5 ) , & Foo ( 2 ) + Foo ( 3 ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(5) , & &Foo(2) + Foo(3) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:584:3 [INFO] [stderr] | [INFO] [stderr] 584 | assert_eq!(Baz(4.), &Baz(8.) / &2.); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Baz ( 4. ) , & Baz ( 8. ) / & 2. }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Baz(4.) , & &Baz(8.) / &2. ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:576:3 [INFO] [stderr] | [INFO] [stderr] 576 | assert_eq!(Baz(5.), Baz(2.) + Baz(3.)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Baz ( 5. ) , Baz ( 2. ) + Baz ( 3. ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Baz(5.) , & Baz(2.) + Baz(3.) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:563:3 [INFO] [stderr] | [INFO] [stderr] 563 | assert_eq!(Foo(5), Foo(2) + Foo(3)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 5 ) , Foo ( 2 ) + Foo ( 3 ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(5) , & Foo(2) + Foo(3) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:579:3 [INFO] [stderr] | [INFO] [stderr] 579 | assert_eq!(Baz(5.), &Baz(2.) + &Baz(3.)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Baz ( 5. ) , & Baz ( 2. ) + & Baz ( 3. ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Baz(5.) , & &Baz(2.) + &Baz(3.) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:554:2 [INFO] [stderr] | [INFO] [stderr] 554 | newtype_ops!{ [Baz] {add sub div neg} {:=} {^&}Self {^&}Self } [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `newtype_ops! { [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } Self }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> [INFO] [stderr] ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) -> [INFO] [stderr] ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) [INFO] [stderr] -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { add sub div neg } { : = } { ^ & } Self { ^ & } Self ) [INFO] [stderr] -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( [INFO] [stderr] { add sub div neg } [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( [INFO] [stderr] { add sub div neg } [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( add [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( sub [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( div [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( neg [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( add [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( add { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( add { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] add ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Add < Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Add < &'b Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Add < Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Add < &'b Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: AddAssign < Baz > for Baz { [INFO] [stderr] fn add_assign ( & mut self , other : Baz ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . add_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( sub [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( sub { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( sub { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] sub ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Sub < Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Sub < &'b Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Sub < Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Sub < &'b Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: SubAssign < Baz > for Baz { [INFO] [stderr] fn sub_assign ( & mut self , other : Baz ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . sub_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( div [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( div { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( div { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] div ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Div < Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'b > ] } { [INFO] [stderr] recv : [ Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Div < &'b Baz > for Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Div < Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b Baz ] out : [ Baz ] forms : [ [ & x . 0 ] [ & x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Div < &'b Baz > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : &'b Baz ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `& other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: DivAssign < Baz > for Baz { [INFO] [stderr] fn div_assign ( & mut self , other : Baz ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . div_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # value ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ # ref ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( neg [ { : = } { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( neg { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( neg { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } Self ] ) -> ( [INFO] [stderr] [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] neg ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } { [INFO] [stderr] tpars : [ ] } { recv : [ Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } { [INFO] [stderr] tpars : [ ] } { recv : [ Baz ] } { arg : [ Baz ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: unary traits : [ [ :: std :: ops :: Neg ] ] methods : [ [ neg ] ] [INFO] [stderr] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz ] forms : [ [INFO] [stderr] [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: unary traits : [ [ :: std :: ops :: Neg ] ] methods : [ [ neg ] ] [INFO] [stderr] tpars : [ ] recv : [ Baz ] arg : [ Baz ] out : [ Baz ] forms : [ [INFO] [stderr] [ x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Neg for Baz { [INFO] [stderr] type Output = Baz ; fn neg ( self ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . neg ( ) ) [INFO] [stderr] } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { [INFO] [stderr] arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ Baz ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } { [INFO] [stderr] tpars : [ < 'a > ] } { recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } { kind : unary } { [INFO] [stderr] tpars : [ < 'a > ] } { recv : [ & 'a Baz ] } { arg : [ Baz ] } { out : [ Baz ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: unary traits : [ [ :: std :: ops :: Neg ] ] methods : [ [ neg ] ] [INFO] [stderr] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] out : [ Baz ] forms : [ [INFO] [stderr] [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: unary traits : [ [ :: std :: ops :: Neg ] ] methods : [ [ neg ] ] [INFO] [stderr] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ Baz ] out : [ Baz ] forms : [ [INFO] [stderr] [ & x . 0 ] [ x . 0 ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Neg for &'a Baz { [INFO] [stderr] type Output = Baz ; fn neg ( self ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . neg ( ) [INFO] [stderr] ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } { [INFO] [stderr] arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } Self ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = ^ Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = ^ Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = ^ Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = ^ Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = ^ Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = ^ Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = ^ Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = ^ Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = ^ Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = ^ Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } Self ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } Self ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } Self ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } Self ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = & Self ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = & Self ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = & Self ^ Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = & Self ^ Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = & Self ^ Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ # value ] } { [INFO] [stderr] arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x . 0 ] } { arg : [ # value ] } ] [ [INFO] [stderr] { arg : [ # value ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( Self ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( Self ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = & Self & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = & Self & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = & Self & Self ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = & Self & Self ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = & Self & Self ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & Self ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ # ref ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ & x . 0 ] } { arg : [ # ref ] } ] [ [INFO] [stderr] { arg : [ # ref ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:586:3 [INFO] [stderr] | [INFO] [stderr] 586 | assert_eq!(Baz(-3.), -Baz(3.)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Baz ( - 3. ) , - Baz ( 3. ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Baz(-3.) , & -Baz(3.) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:587:3 [INFO] [stderr] | [INFO] [stderr] 587 | assert_eq!(Baz(-3.), -&Baz(3.)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Baz ( - 3. ) , - & Baz ( 3. ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Baz(-3.) , & -&Baz(3.) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:555:2 [INFO] [stderr] | [INFO] [stderr] 555 | newtype_ops!{ [Baz] {add sub div neg} {:=} {^&}Self {^&}f32 } [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `newtype_ops! { [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } f32 }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( [INFO] [stderr] [ Baz ] { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> [INFO] [stderr] ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) -> [INFO] [stderr] ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) [INFO] [stderr] -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { add sub div neg } { : = } { ^ & } Self { ^ & } f32 ) [INFO] [stderr] -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( [INFO] [stderr] { add sub div neg } [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( [INFO] [stderr] { add sub div neg } [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( add [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( sub [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( div [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( neg [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( add [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( add { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( add { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] add ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Add < f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] add : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Add < &'b f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] add : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Add < f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] add : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Add < &'b f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn add ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: AddAssign < f32 > for Baz { [INFO] [stderr] fn add_assign ( & mut self , other : f32 ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . add_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] add = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] add = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] add = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] add = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] add = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] add = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] add = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] add = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] add = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] add = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] add = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( sub [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( sub { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( sub { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] sub ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Sub < f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] sub : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Sub < &'b f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] sub : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Sub < f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] sub : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Sub < &'b f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn sub ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: SubAssign < f32 > for Baz { [INFO] [stderr] fn sub_assign ( & mut self , other : f32 ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . sub_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] sub = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] sub = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] sub = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] sub = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] sub = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] sub = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] sub = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] sub = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] sub = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] sub = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] sub = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( div [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( div { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( div { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] div ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Div < f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] div : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'b > ] } { recv : [ Baz ] } [INFO] [stderr] { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'b > ] recv : [ Baz ] arg : [ & 'b f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'b > :: std :: ops :: Div < &'b f32 > for Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] div : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a > ] recv : [ & 'a Baz ] arg : [ f32 ] [INFO] [stderr] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a > :: std :: ops :: Div < f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] div : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ < 'a , 'b > ] } { [INFO] [stderr] recv : [ & 'a Baz ] } { arg : [ & 'b f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ < 'a , 'b > ] recv : [ & 'a Baz ] arg : [ [INFO] [stderr] & 'b f32 ] out : [ Baz ] forms : [ [ & x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl < 'a , 'b > :: std :: ops :: Div < &'b f32 > for &'a Baz { [INFO] [stderr] type Output = Baz ; fn div ( self , other : &'b f32 ) -> Baz { [INFO] [stderr] let this = self ; Baz ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } { arg : [ f32 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : assign } { tpars : [ ] } { recv : [ Baz ] } { [INFO] [stderr] arg : [ f32 ] } { out : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: assign traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ Baz ] arg : [ f32 ] out : [ Baz [INFO] [stderr] ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: DivAssign < f32 > for Baz { [INFO] [stderr] fn div_assign ( & mut self , other : f32 ) { [INFO] [stderr] let this = self ; newtype_ops__ ! ( [INFO] [stderr] @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] ) . div_assign ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ & mut x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `& mut this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] div = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] div = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] div = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] div = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] div = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] div = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] div = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] div = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] div = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] div = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] div = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : assign } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : binary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : assign } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( neg [ { : = } { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( neg { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( neg { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } f32 ] ) -> ( [INFO] [stderr] [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] neg ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] neg : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg : ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] neg : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg : & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg : & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg : & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] neg : & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg : & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg : & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg : & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg : & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg : & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ & x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } f32 ] ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( = { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg = ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg = ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = ^ Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = ^ Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = ^ Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = ^ Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ f32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] neg = ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg = ^ Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = ^ Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = ^ Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = ^ Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = ^ Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ Self { ^ & } f32 ] ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & Self { ^ & } f32 ) -> ( [ Baz ] neg = ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } f32 ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } f32 ) -> ( [ Baz ] neg = & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ f32 ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg = & Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ f32 ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg = & Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = & Self ^ f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = & Self ^ f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = & Self ^ f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = & Self ^ f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ f32 ] } ] [ [INFO] [stderr] { arg : [ f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( & [ f32 ] ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( & f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( & f32 ) -> ( [ Baz ] neg = & Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( f32 ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( f32 ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: single ( f32 ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( f32 ) -> ( [ Baz ] neg = & Self & ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ product :: next ( ) -> ( [ Baz ] neg = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ Baz ] neg = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ Baz ] neg = & Self & f32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ Baz ] neg = & Self & f32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret :: type ( [ Baz ] neg = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ Baz ] neg = & Self & f32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( neg = & Self & f32 ) -> ( { value_ty : [ Baz ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( = & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( & Self & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( & f32 ) -> ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ Baz ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] mode : assign } { recv_form : [ & x . 0 ] } { arg : [ & f32 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : assign } { kind : unary } { recv_form : [ & x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ & f32 ] } ] [ [INFO] [stderr] { arg : [ & f32 ] } { value_ty : [ Baz ] } { recv_form : [ & x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Neg ] ] } { methods : [ [ neg ] ] } { [INFO] [stderr] recv_form : [ & x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:566:3 [INFO] [stderr] | [INFO] [stderr] 566 | assert_eq!(Foo(5), &Foo(2) + &Foo(3)); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 5 ) , & Foo ( 2 ) + & Foo ( 3 ) }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(5) , & &Foo(2) + &Foo(3) ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:570:3 [INFO] [stderr] | [INFO] [stderr] 570 | assert_eq!(Foo(4), Foo(8) / &2); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 4 ) , Foo ( 8 ) / & 2 }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(4) , & Foo(8) / &2 ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:568:3 [INFO] [stderr] | [INFO] [stderr] 568 | assert_eq!(Foo(4), Foo(8) / 2); [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `assert_eq! { Foo ( 4 ) , Foo ( 8 ) / 2 }` [INFO] [stderr] = note: to `{ [INFO] [stderr] match ( & Foo(4) , & Foo(8) / 2 ) { [INFO] [stderr] ( left_val , right_val ) => { [INFO] [stderr] if ! ( * left_val == * right_val ) { [INFO] [stderr] panic ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) } } } }` [INFO] [stderr] = note: expanding `panic! { r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val }` [INFO] [stderr] = note: to `{ [INFO] [stderr] $crate :: rt :: begin_panic_fmt ( [INFO] [stderr] & format_args ! ( [INFO] [stderr] r#"assertion failed: `(left == right)` [INFO] [stderr] left: `{:?}`, [INFO] [stderr] right: `{:?}`"# , & * [INFO] [stderr] left_val , & * right_val ) , & ( [INFO] [stderr] file ! ( ) , line ! ( ) , __rust_unstable_column ! ( ) ) ) }` [INFO] [stderr] [INFO] [stderr] note: trace_macro [INFO] [stderr] --> src/lib.rs:550:2 [INFO] [stderr] | [INFO] [stderr] 550 | newtype_ops!{ {[foo::Foo][Bar]} integer {:=} {^&}Self {^&}i32 } [INFO] [stderr] | ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ [INFO] [stderr] | [INFO] [stderr] = note: expanding `newtype_ops! { { [ foo :: Foo ] [ Bar ] } integer { : = } { ^ & } Self { ^ & } i32 }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } integer { : = } { ^ & } Self { ^ & } i32 ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } integer { : = } { ^ & } Self { ^ & } i32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } integer { : = } { ^ & } Self { ^ & } i32 ) -> ( ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } integer { : = } { ^ & } Self { ^ & } i32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } [ integer { : = } { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( [INFO] [stderr] { [ foo :: Foo ] [ Bar ] } [ integer { : = } { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( [INFO] [stderr] [ foo :: Foo ] [ integer { : = } { ^ & } Self { ^ & } i32 ] ) -> ( ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( [ Bar ] [ integer { : = } { ^ & } Self { ^ & } i32 ] ) [INFO] [stderr] -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( [INFO] [stderr] [ foo :: Foo ] [ integer { : = } { ^ & } Self { ^ & } i32 ] ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( [ foo :: Foo ] integer { : = } { ^ & } Self { ^ & } i32 [INFO] [stderr] ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( [ foo :: Foo ] integer { : = } { ^ & } Self { ^ & } i32 [INFO] [stderr] ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( integer { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( integer { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( integer { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( integer { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { : = } { ^ & } Self { ^ & } i32 ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { : = } [ { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( = [ { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( : [ { ^ & } Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( : { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( : { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ) [INFO] [stderr] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ Self { ^ & } i32 ] ) -> ( [INFO] [stderr] [ foo :: Foo ] integer : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ Self { ^ & } i32 ] ) -> ( [ foo :: Foo ] integer : [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ Self { ^ & } i32 ] ) -> ( [ foo :: Foo ] integer : [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ Self { ^ & } i32 ] ) -> ( [ foo :: Foo ] integer : [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( Self { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack ( { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack ( { ^ & } i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_2 ( { ^ & } [ i32 ] ) -> ( [ foo :: Foo ] integer : ^ Self [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_2 ( { ^ & } [ i32 ] ) -> ( [ foo :: Foo ] integer : ^ Self [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( ^ [ i32 ] ) -> ( [ foo :: Foo ] integer : ^ Self ) } [INFO] [stderr] newtype_ops__ ! { [INFO] [stderr] @ product :: unpack_3 ( & [ i32 ] ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: unpack_3 ( ^ [ i32 ] ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( ^ i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( ^ i32 ) -> ( [ foo :: Foo ] integer : ^ Self ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( i32 ) -> ( [ foo :: Foo ] integer : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( i32 ) -> ( [ foo :: Foo ] integer : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: single ( i32 ) -> ( [ foo :: Foo ] integer : ^ Self ^ ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: single ( i32 ) -> ( [ foo :: Foo ] integer : ^ Self ^ ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ product :: next ( ) -> ( [ foo :: Foo ] integer : ^ Self ^ i32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ product :: next ( ) -> ( [ foo :: Foo ] integer : ^ Self ^ i32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { @ interpret ( [ foo :: Foo ] integer : ^ Self ^ i32 ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret ( [ foo :: Foo ] integer : ^ Self ^ i32 ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: type ( [ foo :: Foo ] integer : ^ Self ^ i32 ) -> ( ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: type ( [ foo :: Foo ] integer : ^ Self ^ i32 ) -> ( ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( integer : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( integer : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( bitand : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( bitor : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( bitxor : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( not : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( add : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( sub : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( mul : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( div : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( rem : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) } newtype_ops__ ! { [INFO] [stderr] @ interpret :: oper ( neg : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( bitand : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } { [INFO] [stderr] methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] } [INFO] [stderr] { methods : [ [ bitand ] [ bitand_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] methods : [ [INFO] [stderr] [ bitand ] [ bitand_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 [INFO] [stderr] ] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitAnd ] [ :: std :: ops :: BitAndAssign ] ] methods : [ [INFO] [stderr] [ bitand ] [ bitand_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 [INFO] [stderr] ] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: BitAnd < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn bitand ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . bitand ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( bitor : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] } { [INFO] [stderr] methods : [ [ bitor ] [ bitor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] methods : [ [INFO] [stderr] [ bitor ] [ bitor_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] [INFO] [stderr] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitOr ] [ :: std :: ops :: BitOrAssign ] ] methods : [ [INFO] [stderr] [ bitor ] [ bitor_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] [INFO] [stderr] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: BitOr < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn bitor ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . bitor ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( bitxor : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } { [INFO] [stderr] methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] } [INFO] [stderr] { methods : [ [ bitxor ] [ bitxor_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] methods : [ [INFO] [stderr] [ bitxor ] [ bitxor_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 [INFO] [stderr] ] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: BitXor ] [ :: std :: ops :: BitXorAssign ] ] methods : [ [INFO] [stderr] [ bitxor ] [ bitxor_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 [INFO] [stderr] ] out : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: BitXor < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn bitxor ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . bitxor ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( not : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : unary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] mode : normal } { recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] [INFO] [stderr] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : unary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : unary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Not ] ] } { methods : [ [ not ] ] } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( add : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] } { [INFO] [stderr] methods : [ [ add ] [ add_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Add ] [ :: std :: ops :: AddAssign ] ] methods : [ [INFO] [stderr] [ add ] [ add_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Add < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn add ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . add ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( sub : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] } { [INFO] [stderr] methods : [ [ sub ] [ sub_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Sub ] [ :: std :: ops :: SubAssign ] ] methods : [ [INFO] [stderr] [ sub ] [ sub_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Sub < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn sub ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . sub ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( mul : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] } { [INFO] [stderr] methods : [ [ mul ] [ mul_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] methods : [ [INFO] [stderr] [ mul ] [ mul_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Mul ] [ :: std :: ops :: MulAssign ] ] methods : [ [INFO] [stderr] [ mul ] [ mul_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Mul < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn mul ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . mul ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( div : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [INFO] [stderr] arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types ( [INFO] [stderr] [ { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: true_types :: 2 ( [INFO] [stderr] [ { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } { arg : [ i32 ] } ] [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: almost_there ( [INFO] [stderr] { traits : [ [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] } { [INFO] [stderr] methods : [ [ div ] [ div_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { kind : binary } { tpars : [ ] } { recv : [ foo :: Foo ] [INFO] [stderr] } { arg : [ i32 ] } { out : [ foo :: Foo ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ impl :: binary traits : [ [INFO] [stderr] [ :: std :: ops :: Div ] [ :: std :: ops :: DivAssign ] ] methods : [ [INFO] [stderr] [ div ] [ div_assign ] ] tpars : [ ] recv : [ foo :: Foo ] arg : [ i32 ] out [INFO] [stderr] : [ foo :: Foo ] forms : [ [ x . 0 ] [ x ] ] }` [INFO] [stderr] = note: to `impl :: std :: ops :: Div < i32 > for foo::Foo { [INFO] [stderr] type Output = foo::Foo ; fn div ( self , other : i32 ) -> foo::Foo { [INFO] [stderr] let this = self ; foo::Foo ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] ) . div ( [INFO] [stderr] newtype_ops__ ! ( @ helper :: delegate [ x ] [ other ] [ 0 ] ) ) ) } }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x . 0 ] [ this ] [ 0 ] }` [INFO] [stderr] = note: to `this . 0` [INFO] [stderr] = note: expanding `newtype_ops__! { @ helper :: delegate [ x ] [ other ] [ 0 ] }` [INFO] [stderr] = note: to `other` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: oper ( rem : ^ Self ^ i32 ) -> ( { value_ty : [ foo :: Foo ] } [INFO] [stderr] ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: mode ( : ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: self ( ^ Self ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ interpret :: other ( ^ i32 ) -> ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess ( [INFO] [stderr] { value_ty : [ foo :: Foo ] } { kind : binary } { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { mode : normal } { [INFO] [stderr] recv_form : [ x . 0 ] } { arg : [ i32 ] } { arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: expanding `newtype_ops__! { @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { mode : normal } { kind : binary } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } { arg : [ i32 ] } ] [ [INFO] [stderr] { arg : [ i32 ] } { value_ty : [ foo :: Foo ] } { recv_form : [ x . 0 ] } ] { [INFO] [stderr] traits : [ [ :: std :: ops :: Rem ] [ :: std :: ops :: RemAssign ] ] } { [INFO] [stderr] methods : [ [ rem ] [ rem_assign ] ] } { recv_form : [ x . 0 ] } { [INFO] [stderr] arg_form : [ x ] } ) }` [INFO] [stderr] = note: to `newtype_ops__ ! { [INFO] [stderr] @ postprocess :: blacklist ( [INFO] [stderr] [ [INFO] [stderr] { kind : binary } { recv_form : [ x . 0 ] } { arg_form : [ x ] } { [WARN] too many lines in the log, truncating it