[INFO] cloning repository https://github.com/DINGDANGMAOUP/rocket-app
[INFO] running `Command { std: "git" "-c" "credential.helper=" "-c" "credential.helper=/workspace/cargo-home/bin/git-credential-null" "clone" "--bare" "https://github.com/DINGDANGMAOUP/rocket-app" "/workspace/cache/git-repos/https%3A%2F%2Fgithub.com%2FDINGDANGMAOUP%2Frocket-app", kill_on_drop: false }`
[INFO] [stderr] Cloning into bare repository '/workspace/cache/git-repos/https%3A%2F%2Fgithub.com%2FDINGDANGMAOUP%2Frocket-app'...
[INFO] running `Command { std: "git" "rev-parse" "HEAD", kill_on_drop: false }`
[INFO] [stdout] 71dfc88897d8570cc2f160eed63b0d0324af13ab
[INFO] testing DINGDANGMAOUP/rocket-app against master#1ef7943ee607160a564655b6596f83670ef95df5 for pr-146098-6
[INFO] running `Command { std: "git" "clone" "/workspace/cache/git-repos/https%3A%2F%2Fgithub.com%2FDINGDANGMAOUP%2Frocket-app" "/workspace/builds/worker-7-tc1/source", kill_on_drop: false }`
[INFO] [stderr] Cloning into '/workspace/builds/worker-7-tc1/source'...
[INFO] [stderr] done.
[INFO] removed /workspace/builds/worker-7-tc1/source/.cargo/config.toml
[INFO] started tweaking git repo https://github.com/DINGDANGMAOUP/rocket-app
[INFO] finished tweaking git repo https://github.com/DINGDANGMAOUP/rocket-app
[INFO] tweaked toml for git repo https://github.com/DINGDANGMAOUP/rocket-app written to /workspace/builds/worker-7-tc1/source/Cargo.toml
[INFO] validating manifest of git repo https://github.com/DINGDANGMAOUP/rocket-app on toolchain 1ef7943ee607160a564655b6596f83670ef95df5
[INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "metadata" "--manifest-path" "Cargo.toml" "--no-deps", kill_on_drop: false }`
[INFO] crate git repo https://github.com/DINGDANGMAOUP/rocket-app already has a lockfile, it will not be regenerated
[INFO] running `Command { std: CARGO_HOME="/workspace/cargo-home" RUSTUP_HOME="/workspace/rustup-home" "/workspace/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "fetch" "--manifest-path" "Cargo.toml", kill_on_drop: false }`
[INFO] [stderr]     Blocking waiting for file lock on package cache
[INFO] [stderr]     Updating crates.io index
[INFO] [stderr]  Downloading crates ...
[INFO] [stderr]   Downloaded rust-embed-utils v8.5.0
[INFO] [stderr]   Downloaded rust-embed-impl v8.5.0
[INFO] [stderr]   Downloaded validator_derive v0.18.2
[INFO] [stderr]   Downloaded rbatis-macro-driver v4.5.6
[INFO] [stderr]   Downloaded rbdc-pool-fast v4.5.9
[INFO] [stderr]   Downloaded lru v0.12.4
[INFO] [stderr]   Downloaded anyhow v1.0.89
[INFO] [stderr]   Downloaded pest_generator v2.7.12
[INFO] [stderr]   Downloaded fast_log v1.7.4
[INFO] [stderr]   Downloaded impl-more v0.1.6
[INFO] [stderr]   Downloaded rbatis-codegen v4.5.20
[INFO] [stderr]   Downloaded actix-files v0.6.6
[INFO] [stderr]   Downloaded pest_meta v2.7.12
[INFO] [stderr]   Downloaded html_parser v0.6.3
[INFO] [stderr]   Downloaded pest v2.7.12
[INFO] [stderr]   Downloaded serde_yml v0.0.12
[INFO] [stderr]   Downloaded bigdecimal v0.4.5
[INFO] [stderr]   Downloaded cc v1.1.20
[INFO] [stderr]   Downloaded libyml v0.0.5
[INFO] [stderr]   Downloaded pest_derive v2.7.12
[INFO] [stderr]   Downloaded webpki-roots v0.26.5
[INFO] [stderr]   Downloaded whoami v1.5.2
[INFO] [stderr]   Downloaded dark-std v0.2.16
[INFO] [stderr]   Downloaded rustls-pki-types v1.8.0
[INFO] [stderr]   Downloaded rust-embed v8.5.0
[INFO] [stderr]   Downloaded rbdc v4.5.35
[INFO] [stderr]   Downloaded fast_pool v0.2.0
[INFO] [stderr]   Downloaded rbatis v4.5.30
[INFO] [stderr]   Downloaded rbs v4.5.18
[INFO] [stderr]   Downloaded fastdate v0.3.33
[INFO] [stderr]   Downloaded rbdc-pg v4.5.13
[INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:4848fb76d95f26979359cc7e45710b1dbc8f3acb7aeedee7c460d7702230f228" "/opt/rustwide/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "metadata" "--no-deps" "--format-version=1", kill_on_drop: false }`
[INFO] [stdout] 33b319c545112065e33258baba9e2d7b3d094de3807ce792ce30673ff08ba4d1
[INFO] running `Command { std: "docker" "start" "-a" "33b319c545112065e33258baba9e2d7b3d094de3807ce792ce30673ff08ba4d1", kill_on_drop: false }`
[INFO] running `Command { std: "docker" "inspect" "33b319c545112065e33258baba9e2d7b3d094de3807ce792ce30673ff08ba4d1", kill_on_drop: false }`
[INFO] running `Command { std: "docker" "rm" "-f" "33b319c545112065e33258baba9e2d7b3d094de3807ce792ce30673ff08ba4d1", kill_on_drop: false }`
[INFO] [stdout] 33b319c545112065e33258baba9e2d7b3d094de3807ce792ce30673ff08ba4d1
[INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "RUSTDOCFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:4848fb76d95f26979359cc7e45710b1dbc8f3acb7aeedee7c460d7702230f228" "/opt/rustwide/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "build" "--frozen" "--message-format=json", kill_on_drop: false }`
[INFO] [stdout] 1e4e40d418303a6bcdf336471fb55432b643017cec0f6bd618b3ce8f3f1b47fa
[INFO] running `Command { std: "docker" "start" "-a" "1e4e40d418303a6bcdf336471fb55432b643017cec0f6bd618b3ce8f3f1b47fa", kill_on_drop: false }`
[INFO] [stderr]    Compiling proc-macro2 v1.0.86
[INFO] [stderr]    Compiling unicode-ident v1.0.13
[INFO] [stderr]    Compiling serde v1.0.210
[INFO] [stderr]    Compiling log v0.4.22
[INFO] [stderr]    Compiling bytes v1.7.1
[INFO] [stderr]    Compiling jobserver v0.1.32
[INFO] [stderr]    Compiling futures-channel v0.3.30
[INFO] [stderr]    Compiling time-macros v0.2.18
[INFO] [stderr]    Compiling num-traits v0.2.19
[INFO] [stderr]    Compiling ucd-trie v0.1.6
[INFO] [stderr]    Compiling rustls-pki-types v1.8.0
[INFO] [stderr]    Compiling miniz_oxide v0.8.0
[INFO] [stderr]    Compiling rustls v0.23.13
[INFO] [stderr]    Compiling unicase v2.7.0
[INFO] [stderr]    Compiling bigdecimal v0.4.5
[INFO] [stderr]    Compiling regex-syntax v0.8.4
[INFO] [stderr]    Compiling sha1 v0.10.6
[INFO] [stderr]    Compiling flume v0.11.0
[INFO] [stderr]    Compiling mio v1.0.2
[INFO] [stderr]    Compiling tracing v0.1.40
[INFO] [stderr]    Compiling unicode-normalization v0.1.24
[INFO] [stderr]    Compiling proc-macro-error-attr v1.0.4
[INFO] [stderr]    Compiling zstd-safe v5.0.2+zstd.1.5.2
[INFO] [stderr]    Compiling tracing-core v0.1.32
[INFO] [stderr]    Compiling unicode-bidi v0.3.15
[INFO] [stderr]    Compiling indexmap v2.5.0
[INFO] [stderr]    Compiling cc v1.1.20
[INFO] [stderr]    Compiling http v0.2.12
[INFO] [stderr]    Compiling bytestring v1.3.1
[INFO] [stderr]    Compiling quote v1.0.37
[INFO] [stderr]    Compiling rustls-pemfile v2.1.3
[INFO] [stderr]    Compiling webpki-roots v0.26.5
[INFO] [stderr]    Compiling actix-service v2.0.2
[INFO] [stderr]    Compiling flate2 v1.0.33
[INFO] [stderr]    Compiling actix-utils v3.0.1
[INFO] [stderr]    Compiling hmac v0.12.1
[INFO] [stderr]    Compiling idna v0.5.0
[INFO] [stderr]    Compiling syn v2.0.77
[INFO] [stderr]    Compiling num-integer v0.1.46
[INFO] [stderr]    Compiling syn v1.0.109
[INFO] [stderr]    Compiling digest v0.10.7
[INFO] [stderr]    Compiling uuid v1.10.0
[INFO] [stderr]    Compiling inout v0.1.3
[INFO] [stderr]    Compiling num-bigint v0.4.6
[INFO] [stderr]    Compiling proc-macro-error v1.0.4
[INFO] [stderr]    Compiling base64ct v1.6.0
[INFO] [stderr]    Compiling anyhow v1.0.89
[INFO] [stderr]    Compiling sha2 v0.10.8
[INFO] [stderr]    Compiling cipher v0.4.4
[INFO] [stderr]    Compiling mime_guess v2.0.5
[INFO] [stderr]    Compiling local-channel v0.1.5
[INFO] [stderr]    Compiling url v2.5.2
[INFO] [stderr]    Compiling password-hash v0.4.2
[INFO] [stderr]    Compiling num_cpus v1.16.0
[INFO] [stderr]    Compiling v_htmlescape v0.15.8
[INFO] [stderr]    Compiling failure_derive v0.1.8
[INFO] [stderr]    Compiling unicode-xid v0.2.5
[INFO] [stderr]    Compiling gimli v0.31.0
[INFO] [stderr]    Compiling rust-embed-utils v8.5.0
[INFO] [stderr]    Compiling dirs-sys v0.4.1
[INFO] [stderr]    Compiling crossbeam-deque v0.8.5
[INFO] [stderr]    Compiling aes v0.8.4
[INFO] [stderr]    Compiling pbkdf2 v0.11.0
[INFO] [stderr]    Compiling crossbeam-queue v0.3.11
[INFO] [stderr]    Compiling crossbeam-channel v0.5.13
[INFO] [stderr]    Compiling serde_yml v0.0.12
[INFO] [stderr]    Compiling object v0.36.4
[INFO] [stderr]    Compiling regex-automata v0.4.7
[INFO] [stderr]    Compiling zstd-sys v2.0.13+zstd.1.5.6
[INFO] [stderr]    Compiling ring v0.17.8
[INFO] [stderr]    Compiling bzip2-sys v0.1.11+1.0.8
[INFO] [stderr]    Compiling rust-format v0.3.4
[INFO] [stderr]    Compiling impl-more v0.1.6
[INFO] [stderr]    Compiling constant_time_eq v0.1.5
[INFO] [stderr]    Compiling rustc-demangle v0.1.24
[INFO] [stderr]    Compiling libyml v0.0.5
[INFO] [stderr]    Compiling dirs v5.0.1
[INFO] [stderr]    Compiling crossbeam v0.8.4
[INFO] [stderr]    Compiling lz4_flex v0.11.3
[INFO] [stderr]    Compiling atoi v2.0.0
[INFO] [stderr]    Compiling whoami v1.5.2
[INFO] [stderr]    Compiling synstructure v0.12.6
[INFO] [stderr]    Compiling either v1.13.0
[INFO] [stderr]    Compiling http-range v0.1.5
[INFO] [stderr]    Compiling chrono v0.4.38
[INFO] [stderr]    Compiling bzip2 v0.4.4
[INFO] [stderr]    Compiling addr2line v0.24.1
[INFO] [stderr]    Compiling darling_core v0.20.10
[INFO] [stderr]    Compiling regex v1.10.6
[INFO] [stderr]    Compiling serde_derive v1.0.210
[INFO] [stderr]    Compiling zerocopy-derive v0.7.35
[INFO] [stderr]    Compiling tokio-macros v2.4.0
[INFO] [stderr]    Compiling futures-macro v0.3.30
[INFO] [stderr]    Compiling thiserror-impl v1.0.63
[INFO] [stderr]    Compiling async-trait v0.1.82
[INFO] [stderr]    Compiling derive_more v0.99.18
[INFO] [stderr]    Compiling actix-macros v0.2.4
[INFO] [stderr]    Compiling rustls-webpki v0.102.8
[INFO] [stderr]    Compiling rust-embed-impl v8.5.0
[INFO] [stderr]    Compiling tokio v1.40.0
[INFO] [stderr]    Compiling backtrace v0.3.74
[INFO] [stderr]    Compiling futures-util v0.3.30
[INFO] [stderr]    Compiling thiserror v1.0.63
[INFO] [stderr]    Compiling rust-embed v8.5.0
[INFO] [stderr]    Compiling zerocopy v0.7.35
[INFO] [stderr]    Compiling pest v2.7.12
[INFO] [stderr]    Compiling darling_macro v0.20.10
[INFO] [stderr]    Compiling zstd-safe v7.2.1
[INFO] [stderr]    Compiling darling v0.20.10
[INFO] [stderr]    Compiling failure v0.1.8
[INFO] [stderr]    Compiling validator_derive v0.18.2
[INFO] [stderr]    Compiling zstd v0.11.2+zstd.1.5.2
[INFO] [stderr]    Compiling zstd v0.13.2
[INFO] [stderr]    Compiling ahash v0.8.11
[INFO] [stderr]    Compiling ppv-lite86 v0.2.20
[INFO] [stderr]    Compiling hashbrown v0.14.5
[INFO] [stderr]    Compiling rand_chacha v0.3.1
[INFO] [stderr]    Compiling rand v0.8.5
[INFO] [stderr]    Compiling pest_meta v2.7.12
[INFO] [stderr]    Compiling lru v0.12.4
[INFO] [stderr]    Compiling pest_generator v2.7.12
[INFO] [stderr]    Compiling futures-executor v0.3.30
[INFO] [stderr]    Compiling futures v0.3.30
[INFO] [stderr]    Compiling pest_derive v2.7.12
[INFO] [stderr]    Compiling deranged v0.3.11
[INFO] [stderr]    Compiling serde_json v1.0.128
[INFO] [stderr]    Compiling serde_bytes v0.11.15
[INFO] [stderr]    Compiling serde_urlencoded v0.7.1
[INFO] [stderr]    Compiling actix-router v0.5.3
[INFO] [stderr]    Compiling rbs v4.5.18
[INFO] [stderr]    Compiling actix-web-codegen v4.3.0
[INFO] [stderr]    Compiling html_parser v0.6.3
[INFO] [stderr]    Compiling validator v0.18.1
[INFO] [stderr]    Compiling dark-std v0.2.16
[INFO] [stderr]    Compiling time v0.3.36
[INFO] [stderr]    Compiling tokio-util v0.7.12
[INFO] [stderr]    Compiling actix-rt v2.10.0
[INFO] [stderr]    Compiling tokio-rustls v0.26.0
[INFO] [stderr]    Compiling fast_pool v0.2.0
[INFO] [stderr]    Compiling rbatis-codegen v4.5.20
[INFO] [stderr]    Compiling actix-server v2.5.0
[INFO] [stderr]    Compiling h2 v0.3.26
[INFO] [stderr]    Compiling actix-codec v0.5.2
[INFO] [stderr]    Compiling fastdate v0.3.33
[INFO] [stderr]    Compiling cookie v0.16.2
[INFO] [stderr]    Compiling zip v0.6.6
[INFO] [stderr]    Compiling rbdc v4.5.35
[INFO] [stderr]    Compiling rbatis-macro-driver v4.5.6
[INFO] [stderr]    Compiling fast_log v1.7.4
[INFO] [stderr]    Compiling rbdc-pool-fast v4.5.9
[INFO] [stderr]    Compiling rbdc-pg v4.5.13
[INFO] [stderr]    Compiling rbatis v4.5.30
[INFO] [stderr]    Compiling actix-http v3.9.0
[INFO] [stderr]    Compiling actix-web v4.9.0
[INFO] [stderr]    Compiling actix-files v0.6.6
[INFO] [stderr]    Compiling rust-platform v1.0.0 (/opt/rustwide/workdir)
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Dict], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Dict > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Dict > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Dict > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [DictDetail], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < DictDetail > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < DictDetail > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < DictDetail > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Menu], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Menu > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Menu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Menu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Role], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Role > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Role > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Role > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [RoleMenu], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < RoleMenu > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < RoleMenu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < RoleMenu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [User], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < User > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < User > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < User > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [UserRole], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < UserRole > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < UserRole > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < UserRole > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[html_sql] 'select_page_by_params'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_page_by_params(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] do_count : bool, page_no : u64, page_size : u64, params : & & UserPageQuery,)
[INFO] [stdout] -> std :: result :: Result < rbs :: Value, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let _ = include_bytes! ("/opt/rustwide/workdir/sql/html/user.html"); let
[INFO] [stdout]     mut rb_arg_map = rbs :: value :: map :: ValueMap :: with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("do_count".to_string().into(), rbs :: to_value(do_count)
[INFO] [stdout]     ?);
[INFO] [stdout]     rb_arg_map.insert("page_no".to_string().into(), rbs :: to_value(page_no)
[INFO] [stdout]     ?);
[INFO] [stdout]     rb_arg_map.insert("page_size".to_string().into(), rbs ::
[INFO] [stdout]     to_value(page_size) ?);
[INFO] [stdout]     rb_arg_map.insert("params".to_string().into(), rbs :: to_value(params) ?);
[INFO] [stdout]     {} use rbatis :: executor :: { RBatisRef }; let driver_type =
[INFO] [stdout]     executor.rb_ref().driver_type() ? ; use rbatis :: rbatis_codegen; pub fn
[INFO] [stdout]     impl_html_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1260usize); let mut args = Vec :: with_capacity(4usize);
[INFO] [stdout]         sql.push_str("select "); if
[INFO] [stdout]         { (& arg ["do_count"]).op_eq(& true) }.to_owned().into()
[INFO] [stdout]         { sql.push_str("count(1)"); } if
[INFO] [stdout]         { (& arg ["do_count"]).op_eq(& false) }.to_owned().into()
[INFO] [stdout]         { sql.push_str("*"); } sql.push_str(" from t_user");
[INFO] [stdout]         sql.push_str(" where ");
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(224usize); if
[INFO] [stdout]             {
[INFO] [stdout]                 (& arg ["params"]).op_ne(& rbs :: Value :: Null)
[INFO] [stdout]             }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["id"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["id"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["id"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and id = ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["username"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["username"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["username"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and username ~* ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["nickName"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["nickName"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["nickName"])
[INFO] [stdout]                     }).unwrap_or_default());
[INFO] [stdout]                     sql.push_str(" and nick_name ~* ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["enable"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["enable"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["enable"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and enable = ?");
[INFO] [stdout]                 }
[INFO] [stdout]             } if
[INFO] [stdout]             {
[INFO] [stdout]                 bool ::
[INFO] [stdout]                 op_from(bool ::
[INFO] [stdout]                 op_from(bool ::
[INFO] [stdout]                 op_from(bool :: op_from((& arg ["do_count"]).op_eq(& false))
[INFO] [stdout]                 && bool ::
[INFO] [stdout]                 op_from(((& arg ["params"]
[INFO] [stdout]                 ["orderBy"])).op_ne(& rbs :: Value :: Null))) && bool ::
[INFO] [stdout]                 op_from(((& arg ["params"] ["orderBy"])).op_ne(& ""))) && bool
[INFO] [stdout]                 ::
[INFO] [stdout]                 op_from(((& arg ["params"]
[INFO] [stdout]                 ["orderDirection"])).op_ne(& rbs :: Value :: Null))) && bool
[INFO] [stdout]                 ::
[INFO] [stdout]                 op_from(((& arg ["params"] ["orderDirection"])).op_ne(& ""))
[INFO] [stdout]             }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 sql.push_str(& format!
[INFO] [stdout]                 (" order by {} {}", &
[INFO] [stdout]                 { (& arg ["params"] ["orderBy"]) }.string(), &
[INFO] [stdout]                 { (& arg ["params"] ["orderDirection"]) }.string()));
[INFO] [stdout]             } if { (& arg ["do_count"]).op_eq(& false) }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 sql.push_str(& format!
[INFO] [stdout]                 (" limit {} offset {}", & { & arg ["page_size"] }.string(), &
[INFO] [stdout]                 { & arg ["page_no"] }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(" ").trim_start_matches("and ").trim_start_matches("or ").trim_end_matches(" ").trim_end_matches(" and").trim_end_matches(" or").to_string();
[INFO] [stdout]             sql
[INFO] [stdout]         }); sql.push_str(" "); sql =
[INFO] [stdout]         sql.trim_end_matches(" where  ").to_string(); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     impl_html_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis ::
[INFO] [stdout]     executor :: { Executor }; let r = executor.query(& sql, rb_args).await ? ;
[INFO] [stdout]     rbatis :: decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Fail` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_Fail_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: `#[warn(non_local_definitions)]` on by default
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Display` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_core_fmt_Display_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stderr]     Finished `dev` profile [unoptimized + debuginfo] target(s) in 2m 09s
[INFO] running `Command { std: "docker" "inspect" "1e4e40d418303a6bcdf336471fb55432b643017cec0f6bd618b3ce8f3f1b47fa", kill_on_drop: false }`
[INFO] running `Command { std: "docker" "rm" "-f" "1e4e40d418303a6bcdf336471fb55432b643017cec0f6bd618b3ce8f3f1b47fa", kill_on_drop: false }`
[INFO] [stdout] 1e4e40d418303a6bcdf336471fb55432b643017cec0f6bd618b3ce8f3f1b47fa
[INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "RUSTDOCFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:4848fb76d95f26979359cc7e45710b1dbc8f3acb7aeedee7c460d7702230f228" "/opt/rustwide/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "test" "--frozen" "--no-run" "--message-format=json", kill_on_drop: false }`
[INFO] [stdout] 9c5de510078c70ca2315072114431ee03f1f0210d06c330c4212ecb972dca97a
[INFO] running `Command { std: "docker" "start" "-a" "9c5de510078c70ca2315072114431ee03f1f0210d06c330c4212ecb972dca97a", kill_on_drop: false }`
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Fail` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_Fail_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: `#[warn(non_local_definitions)]` on by default
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Display` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_core_fmt_Display_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stderr]    Compiling rust-platform v1.0.0 (/opt/rustwide/workdir)
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Dict], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Dict > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Dict > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Dict > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [DictDetail], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < DictDetail > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < DictDetail > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < DictDetail > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Menu], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Menu > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Menu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Menu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [Role], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < Role > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < Role > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < Role > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [RoleMenu], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < RoleMenu > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < RoleMenu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < RoleMenu > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [User], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < User > , rbatis
[INFO] [stdout] :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < User > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < User > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'insert_batch'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] insert_batch(executor : & dyn rbatis :: executor :: Executor, tables : &
[INFO] [stdout] [UserRole], table_name : & str,) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("tables".to_string().into(), rbs :: to_value(tables) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1072usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("insert into {} ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(42usize); if arg ["columns"]
[INFO] [stdout]             == rbs :: Value :: Null
[INFO] [stdout]             {
[INFO] [stdout]                 arg.insert(rbs :: Value :: String("columns".to_string()), rbs
[INFO] [stdout]                 :: Value :: Null);
[INFO] [stdout]             } arg ["columns"] = rbs ::
[INFO] [stdout]             to_value({
[INFO] [stdout]                 (& arg ["tables"]).column_sets()
[INFO] [stdout]             }).unwrap_or_default(); for (ref idx, table) in
[INFO] [stdout]             { & arg ["tables"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (idx).op_eq(& 0i64) }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     sql.push_str("(");
[INFO] [stdout]                     sql.push_str(&
[INFO] [stdout]                     {
[INFO] [stdout]                         let mut sql = String :: with_capacity(7usize); for
[INFO] [stdout]                         (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                         { sql.push_str(& format! ("{},", & { v }.string())); } sql =
[INFO] [stdout]                         sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                         sql
[INFO] [stdout]                     }); sql.push_str(") VALUES ");
[INFO] [stdout]                 } sql.push_str("(");
[INFO] [stdout]                 sql.push_str(&
[INFO] [stdout]                 {
[INFO] [stdout]                     let mut sql = String :: with_capacity(14usize); for
[INFO] [stdout]                     (ref index, v) in { & arg ["columns"] }
[INFO] [stdout]                     {
[INFO] [stdout]                         args.push(rbs ::
[INFO] [stdout]                         to_value({ & table [v] }).unwrap_or_default());
[INFO] [stdout]                         sql.push_str("?,");
[INFO] [stdout]                     } sql =
[INFO] [stdout]                     sql.trim_start_matches(",").trim_end_matches(",").to_string();
[INFO] [stdout]                     sql
[INFO] [stdout]                 }); sql.push_str("),");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_all'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_all(executor : & dyn rbatis :: executor :: Executor, table_column : &
[INFO] [stdout] str, table_name : & str,) -> std :: result :: Result < Vec < UserRole > ,
[INFO] [stdout] rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(2usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1044usize); let mut args = Vec :: with_capacity(0usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {} ", & { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_by_column'............
[INFO] [stdout]  pub async fn select_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_value : V,) -> std :: result ::
[INFO] [stdout] Result < Vec < UserRole > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} = ?", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'select_in_column'............
[INFO] [stdout]  pub async fn select_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_column : & str,
[INFO] [stdout] table_name : & str, column : & str, column_values : & [V],) -> std :: result
[INFO] [stdout] :: Result < Vec < UserRole > , rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("table_column".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_column) ?);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1080usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("select {} from {}  where {} in (", &
[INFO] [stdout]         { & arg ["table_column"] }.string(), &
[INFO] [stdout]         { & arg ["table_name"] }.string(), & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; let r = executor.query(& sql, rb_args).await ? ; rbatis ::
[INFO] [stdout]     decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'update_by_column_value'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] update_by_column_value(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] table_name : String, table : & rbs :: Value, skip_null : bool, column : & str,
[INFO] [stdout] column_value : & rbs :: Value, skip_null : bool,) -> std :: result :: Result <
[INFO] [stdout] rbatis :: rbdc :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(6usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("table".to_string().into(), rbs :: to_value(table) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?);
[INFO] [stdout]     rb_arg_map.insert("skip_null".to_string().into(), rbs ::
[INFO] [stdout]     to_value(skip_null) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1077usize); let mut args = Vec :: with_capacity(2usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("update {} set ", & { & arg ["table_name"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(12usize); for (ref k, v) in
[INFO] [stdout]             { & arg ["table"] }
[INFO] [stdout]             {
[INFO] [stdout]                 if { (k).op_eq(& & arg ["column"]) }.to_owned().into()
[INFO] [stdout]                 { continue } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool :: op_from((& arg ["skip_null"]).op_eq(& true)) && bool
[INFO] [stdout]                     :: op_from((v).op_eq(& rbs :: Value :: Null))
[INFO] [stdout]                 }.to_owned().into() { continue }
[INFO] [stdout]                 args.push(rbs :: to_value({ v }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str(& format! ("{}=?,", & { k }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         });
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         (" where {} = ?", & { & arg ["column"] }.string())); return
[INFO] [stdout]         (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_by_column'............
[INFO] [stdout]  pub async fn delete_by_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_value : V,) -> std :: result :: Result < rbatis :: rbdc :: db
[INFO] [stdout] :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_value".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_value) ?); {} use rbatis :: executor :: { RBatisRef }; let
[INFO] [stdout]     driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         args.push(rbs ::
[INFO] [stdout]         to_value({ & arg ["column_value"] }).unwrap_or_default());
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} = ?", & { & arg ["table_name"] }.string(), &
[INFO] [stdout]         { & arg ["column"] }.string())); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[py_sql] 'delete_in_column'............
[INFO] [stdout]  pub async fn delete_in_column < V : serde :: Serialize, >
[INFO] [stdout] (executor : & dyn rbatis :: executor :: Executor, table_name : String, column
[INFO] [stdout] : & str, column_values : & [V],) -> std :: result :: Result < rbatis :: rbdc
[INFO] [stdout] :: db :: ExecResult, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let mut rb_arg_map = rbs :: value :: map :: ValueMap ::
[INFO] [stdout]     with_capacity(3usize);
[INFO] [stdout]     rb_arg_map.insert("table_name".to_string().into(), rbs ::
[INFO] [stdout]     to_value(table_name) ?);
[INFO] [stdout]     rb_arg_map.insert("column".to_string().into(), rbs :: to_value(column) ?);
[INFO] [stdout]     rb_arg_map.insert("column_values".to_string().into(), rbs ::
[INFO] [stdout]     to_value(column_values) ?); {} use rbatis :: executor :: { RBatisRef };
[INFO] [stdout]     let driver_type = executor.rb_ref().driver_type() ? ; use rbatis ::
[INFO] [stdout]     rbatis_codegen; pub fn do_py_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1063usize); let mut args = Vec :: with_capacity(1usize);
[INFO] [stdout]         sql.push_str(& format!
[INFO] [stdout]         ("delete from {} where {} in (", & { & arg ["table_name"] }.string(),
[INFO] [stdout]         & { & arg ["column"] }.string()));
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(10usize); for
[INFO] [stdout]             (ref index, item) in { & arg ["column_values"] }
[INFO] [stdout]             {
[INFO] [stdout]                 args.push(rbs :: to_value({ item }).unwrap_or_default());
[INFO] [stdout]                 sql.push_str("?,");
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(",").trim_end_matches(",").to_string(); sql
[INFO] [stdout]         }); sql.push_str(")"); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     do_py_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis :: executor ::
[INFO] [stdout]     { Executor }; executor.exec(& sql, rb_args).await
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] ............#[html_sql] 'select_page_by_params'............
[INFO] [stdout]  pub async fn
[INFO] [stdout] select_page_by_params(executor : & dyn rbatis :: executor :: Executor,
[INFO] [stdout] do_count : bool, page_no : u64, page_size : u64, params : & & UserPageQuery,)
[INFO] [stdout] -> std :: result :: Result < rbs :: Value, rbatis :: rbdc :: Error >
[INFO] [stdout] {
[INFO] [stdout]     let _ = include_bytes! ("/opt/rustwide/workdir/sql/html/user.html"); let
[INFO] [stdout]     mut rb_arg_map = rbs :: value :: map :: ValueMap :: with_capacity(4usize);
[INFO] [stdout]     rb_arg_map.insert("do_count".to_string().into(), rbs :: to_value(do_count)
[INFO] [stdout]     ?);
[INFO] [stdout]     rb_arg_map.insert("page_no".to_string().into(), rbs :: to_value(page_no)
[INFO] [stdout]     ?);
[INFO] [stdout]     rb_arg_map.insert("page_size".to_string().into(), rbs ::
[INFO] [stdout]     to_value(page_size) ?);
[INFO] [stdout]     rb_arg_map.insert("params".to_string().into(), rbs :: to_value(params) ?);
[INFO] [stdout]     {} use rbatis :: executor :: { RBatisRef }; let driver_type =
[INFO] [stdout]     executor.rb_ref().driver_type() ? ; use rbatis :: rbatis_codegen; pub fn
[INFO] [stdout]     impl_html_sql(mut arg : rbs :: Value, _tag : char) ->
[INFO] [stdout]     (String, Vec < rbs :: Value >)
[INFO] [stdout]     {
[INFO] [stdout]         use rbatis_codegen :: ops :: * ; let mut sql = String ::
[INFO] [stdout]         with_capacity(1260usize); let mut args = Vec :: with_capacity(4usize);
[INFO] [stdout]         sql.push_str("select "); if
[INFO] [stdout]         { (& arg ["do_count"]).op_eq(& true) }.to_owned().into()
[INFO] [stdout]         { sql.push_str("count(1)"); } if
[INFO] [stdout]         { (& arg ["do_count"]).op_eq(& false) }.to_owned().into()
[INFO] [stdout]         { sql.push_str("*"); } sql.push_str(" from t_user");
[INFO] [stdout]         sql.push_str(" where ");
[INFO] [stdout]         sql.push_str(&
[INFO] [stdout]         {
[INFO] [stdout]             let mut sql = String :: with_capacity(224usize); if
[INFO] [stdout]             {
[INFO] [stdout]                 (& arg ["params"]).op_ne(& rbs :: Value :: Null)
[INFO] [stdout]             }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["id"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["id"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["id"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and id = ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["username"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["username"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["username"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and username ~* ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["nickName"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["nickName"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["nickName"])
[INFO] [stdout]                     }).unwrap_or_default());
[INFO] [stdout]                     sql.push_str(" and nick_name ~* ?");
[INFO] [stdout]                 } if
[INFO] [stdout]                 {
[INFO] [stdout]                     bool ::
[INFO] [stdout]                     op_from(((& arg ["params"]
[INFO] [stdout]                     ["enable"])).op_ne(& rbs :: Value :: Null)) && bool ::
[INFO] [stdout]                     op_from(((& arg ["params"] ["enable"])).op_ne(& ""))
[INFO] [stdout]                 }.to_owned().into()
[INFO] [stdout]                 {
[INFO] [stdout]                     args.push(rbs ::
[INFO] [stdout]                     to_value({
[INFO] [stdout]                         (& arg ["params"] ["enable"])
[INFO] [stdout]                     }).unwrap_or_default()); sql.push_str(" and enable = ?");
[INFO] [stdout]                 }
[INFO] [stdout]             } if
[INFO] [stdout]             {
[INFO] [stdout]                 bool ::
[INFO] [stdout]                 op_from(bool ::
[INFO] [stdout]                 op_from(bool ::
[INFO] [stdout]                 op_from(bool :: op_from((& arg ["do_count"]).op_eq(& false))
[INFO] [stdout]                 && bool ::
[INFO] [stdout]                 op_from(((& arg ["params"]
[INFO] [stdout]                 ["orderBy"])).op_ne(& rbs :: Value :: Null))) && bool ::
[INFO] [stdout]                 op_from(((& arg ["params"] ["orderBy"])).op_ne(& ""))) && bool
[INFO] [stdout]                 ::
[INFO] [stdout]                 op_from(((& arg ["params"]
[INFO] [stdout]                 ["orderDirection"])).op_ne(& rbs :: Value :: Null))) && bool
[INFO] [stdout]                 ::
[INFO] [stdout]                 op_from(((& arg ["params"] ["orderDirection"])).op_ne(& ""))
[INFO] [stdout]             }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 sql.push_str(& format!
[INFO] [stdout]                 (" order by {} {}", &
[INFO] [stdout]                 { (& arg ["params"] ["orderBy"]) }.string(), &
[INFO] [stdout]                 { (& arg ["params"] ["orderDirection"]) }.string()));
[INFO] [stdout]             } if { (& arg ["do_count"]).op_eq(& false) }.to_owned().into()
[INFO] [stdout]             {
[INFO] [stdout]                 sql.push_str(& format!
[INFO] [stdout]                 (" limit {} offset {}", & { & arg ["page_size"] }.string(), &
[INFO] [stdout]                 { & arg ["page_no"] }.string()));
[INFO] [stdout]             } sql =
[INFO] [stdout]             sql.trim_start_matches(" ").trim_start_matches("and ").trim_start_matches("or ").trim_end_matches(" ").trim_end_matches(" and").trim_end_matches(" or").to_string();
[INFO] [stdout]             sql
[INFO] [stdout]         }); sql.push_str(" "); sql =
[INFO] [stdout]         sql.trim_end_matches(" where  ").to_string(); return (sql, args);
[INFO] [stdout]     } let (mut sql, rb_args) =
[INFO] [stdout]     impl_html_sql(rbs :: Value :: Map(rb_arg_map), '?'); use rbatis ::
[INFO] [stdout]     executor :: { Executor }; let r = executor.query(& sql, rb_args).await ? ;
[INFO] [stdout]     rbatis :: decode :: decode(r)
[INFO] [stdout] }
[INFO] [stdout] .......................................................
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Fail` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_Fail_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: `#[warn(non_local_definitions)]` on by default
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stdout] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stdout]   --> src/error.rs:9:17
[INFO] [stdout]    |
[INFO] [stdout]  9 | #[derive(Debug, Fail)]
[INFO] [stdout]    |                 ^---
[INFO] [stdout]    |                 |
[INFO] [stdout]    |                 `Display` is not local
[INFO] [stdout]    |                 move the `impl` block outside of this constant `_DERIVE_failure_core_fmt_Display_FOR_Error`
[INFO] [stdout] 10 | pub enum Error {
[INFO] [stdout]    |          ----- `Error` is not local
[INFO] [stdout]    |
[INFO] [stdout]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stdout]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stdout]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stdout]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stdout]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stderr]     Finished `test` profile [unoptimized + debuginfo] target(s) in 34.01s
[INFO] running `Command { std: "docker" "inspect" "9c5de510078c70ca2315072114431ee03f1f0210d06c330c4212ecb972dca97a", kill_on_drop: false }`
[INFO] running `Command { std: "docker" "rm" "-f" "9c5de510078c70ca2315072114431ee03f1f0210d06c330c4212ecb972dca97a", kill_on_drop: false }`
[INFO] [stdout] 9c5de510078c70ca2315072114431ee03f1f0210d06c330c4212ecb972dca97a
[INFO] running `Command { std: "docker" "create" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/target:/opt/rustwide/target:rw,Z" "-v" "/var/lib/crater-agent-workspace/builds/worker-7-tc1/source:/opt/rustwide/workdir:ro,Z" "-v" "/var/lib/crater-agent-workspace/cargo-home:/opt/rustwide/cargo-home:ro,Z" "-v" "/var/lib/crater-agent-workspace/rustup-home:/opt/rustwide/rustup-home:ro,Z" "-e" "SOURCE_DIR=/opt/rustwide/workdir" "-e" "CARGO_TARGET_DIR=/opt/rustwide/target" "-e" "CARGO_INCREMENTAL=0" "-e" "RUST_BACKTRACE=full" "-e" "RUSTFLAGS=--cap-lints=forbid" "-e" "RUSTDOCFLAGS=--cap-lints=forbid" "-e" "CARGO_HOME=/opt/rustwide/cargo-home" "-e" "RUSTUP_HOME=/opt/rustwide/rustup-home" "-w" "/opt/rustwide/workdir" "-m" "1610612736" "--user" "0:0" "--network" "none" "ghcr.io/rust-lang/crates-build-env/linux@sha256:4848fb76d95f26979359cc7e45710b1dbc8f3acb7aeedee7c460d7702230f228" "/opt/rustwide/cargo-home/bin/cargo" "+1ef7943ee607160a564655b6596f83670ef95df5" "test" "--frozen", kill_on_drop: false }`
[INFO] [stdout] fd9a12afdd85b1c1a44e24b2005d32f27212dfbd73051221b2ae50169bf10fac
[INFO] running `Command { std: "docker" "start" "-a" "fd9a12afdd85b1c1a44e24b2005d32f27212dfbd73051221b2ae50169bf10fac", kill_on_drop: false }`
[INFO] [stderr] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stderr]   --> src/error.rs:9:17
[INFO] [stderr]    |
[INFO] [stderr]  9 | #[derive(Debug, Fail)]
[INFO] [stderr]    |                 ^---
[INFO] [stderr]    |                 |
[INFO] [stderr]    |                 `Fail` is not local
[INFO] [stderr]    |                 move the `impl` block outside of this constant `_DERIVE_failure_Fail_FOR_Error`
[INFO] [stderr] 10 | pub enum Error {
[INFO] [stderr]    |          ----- `Error` is not local
[INFO] [stderr]    |
[INFO] [stderr]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stderr]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stderr]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stderr]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stderr]    = note: `#[warn(non_local_definitions)]` on by default
[INFO] [stderr]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stderr] 
[INFO] [stderr] warning: non-local `impl` definition, `impl` blocks should be written at the same level as their item
[INFO] [stderr]   --> src/error.rs:9:17
[INFO] [stderr]    |
[INFO] [stderr]  9 | #[derive(Debug, Fail)]
[INFO] [stderr]    |                 ^---
[INFO] [stderr]    |                 |
[INFO] [stderr]    |                 `Display` is not local
[INFO] [stderr]    |                 move the `impl` block outside of this constant `_DERIVE_failure_core_fmt_Display_FOR_Error`
[INFO] [stderr] 10 | pub enum Error {
[INFO] [stderr]    |          ----- `Error` is not local
[INFO] [stderr]    |
[INFO] [stderr]    = note: the derive macro `Fail` defines the non-local `impl`, and may need to be changed
[INFO] [stderr]    = note: the derive macro `Fail` may come from an old version of the `failure_derive` crate, try updating your dependency with `cargo update -p failure_derive`
[INFO] [stderr]    = note: an `impl` is never scoped, even when it is nested inside an item, as it may impact type checking outside of that item, which can be the case if neither the trait or the self type are at the same nesting level as the `impl`
[INFO] [stderr]    = note: items in an anonymous const item (`const _: () = { ... }`) are treated as in the same scope as the anonymous const's declaration for the purpose of this lint
[INFO] [stderr]    = note: this warning originates in the derive macro `Fail` (in Nightly builds, run with -Z macro-backtrace for more info)
[INFO] [stderr] 
[INFO] [stderr] warning: `rust-platform` (lib) generated 2 warnings
[INFO] [stderr] warning: `rust-platform` (lib test) generated 2 warnings (2 duplicates)
[INFO] [stderr]     Finished `test` profile [unoptimized + debuginfo] target(s) in 0.43s
[INFO] [stderr]      Running unittests src/lib.rs (/opt/rustwide/target/debug/deps/rust_platform-e685e7f34275dff5)
[INFO] [stdout] 
[INFO] [stdout] running 2 tests
[INFO] [stdout] test config::config::test::test_config ... ok
[INFO] [stdout] test config::log::test::test_config ... FAILED
[INFO] [stdout] 
[INFO] [stdout] failures:
[INFO] [stdout] 
[INFO] [stdout] ---- config::log::test::test_config stdout ----
[INFO] [stdout] 
[INFO] [stdout] thread 'config::log::test::test_config' (26) panicked at /opt/rustwide/cargo-home/registry/src/index.crates.io-1949cf8c6b5b557f/fast_log-1.7.4/src/config.rs:94:63:
[INFO] [stdout] called `Result::unwrap()` on an `Err` value: E("No such file or directory (os error 2)")
[INFO] [stdout] stack backtrace:
[INFO] [stdout]    0:     0x5da1256509d2 - std::backtrace_rs::backtrace::libunwind::trace::h786de35fecf3582f
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/../../backtrace/src/backtrace/libunwind.rs:117:9
[INFO] [stdout]    1:     0x5da1256509d2 - std::backtrace_rs::backtrace::trace_unsynchronized::h4a7da1a2a64387f1
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/../../backtrace/src/backtrace/mod.rs:66:14
[INFO] [stdout]    2:     0x5da1256509d2 - std::sys::backtrace::_print_fmt::h6bd7d500070c788c
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/backtrace.rs:66:9
[INFO] [stdout]    3:     0x5da1256509d2 - <std::sys::backtrace::BacktraceLock::print::DisplayBacktrace as core::fmt::Display>::fmt::h6d82c1afff976903
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/backtrace.rs:39:26
[INFO] [stdout]    4:     0x5da1256611cf - core::fmt::rt::Argument::fmt::hc4ce6d643d397690
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/fmt/rt.rs:173:76
[INFO] [stdout]    5:     0x5da1256611cf - core::fmt::write::hb1e7ca88b6a3936e
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/fmt/mod.rs:1469:25
[INFO] [stdout]    6:     0x5da12561dd83 - std::io::default_write_fmt::haffd49d96f1984a8
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/io/mod.rs:639:11
[INFO] [stdout]    7:     0x5da12561dd83 - std::io::Write::write_fmt::h027871c57cf57c01
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/io/mod.rs:1954:13
[INFO] [stdout]    8:     0x5da125629e12 - std::sys::backtrace::BacktraceLock::print::ha2430613ee79d059
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/backtrace.rs:42:9
[INFO] [stdout]    9:     0x5da12562ecaf - std::panicking::default_hook::{{closure}}::hdbd2db9e5c303cf6
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:301:27
[INFO] [stdout]   10:     0x5da12562eb41 - std::panicking::default_hook::hed93c70cba5fdcf0
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:325:9
[INFO] [stdout]   11:     0x5da125586cfe - <alloc::boxed::Box<F,A> as core::ops::function::Fn<Args>>::call::hd0ee8b569efc6a07
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/alloc/src/boxed.rs:2099:9
[INFO] [stdout]   12:     0x5da125586cfe - test::test_main_with_exit_callback::{{closure}}::hf10864b576ecd15d
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:145:21
[INFO] [stdout]   13:     0x5da12562f2bf - <alloc::boxed::Box<F,A> as core::ops::function::Fn<Args>>::call::h3a55ca34534c0d00
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/alloc/src/boxed.rs:2099:9
[INFO] [stdout]   14:     0x5da12562f2bf - std::panicking::panic_with_hook::h3862d766c2cec19b
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:842:13
[INFO] [stdout]   15:     0x5da12562f11a - std::panicking::panic_handler::{{closure}}::hb95eb402b5e28ee1
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:707:13
[INFO] [stdout]   16:     0x5da125629f49 - std::sys::backtrace::__rust_end_short_backtrace::hf73a26dc1835d85a
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/backtrace.rs:174:18
[INFO] [stdout]   17:     0x5da12561214d - __rustc[6ed5915ee467787]::rust_begin_unwind
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:698:5
[INFO] [stdout]   18:     0x5da12566a560 - core::panicking::panic_fmt::h3454303eb8e6f7cd
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/panicking.rs:80:14
[INFO] [stdout]   19:     0x5da125669a96 - core::result::unwrap_failed::h2380020e6daeb464
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/result.rs:1862:5
[INFO] [stdout]   20:     0x5da1255cdd11 - core::result::Result<T,E>::unwrap::h99b90880e7a0644f
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/result.rs:1233:23
[INFO] [stdout]   21:     0x5da1255cdd11 - fast_log::config::Config::file::h0bd23b70f1b7df00
[INFO] [stdout]                                at /opt/rustwide/cargo-home/registry/src/index.crates.io-1949cf8c6b5b557f/fast_log-1.7.4/src/config.rs:94:63
[INFO] [stdout]   22:     0x5da125517bd7 - rust_platform::config::log::test::test_config::h767fc463490bf858
[INFO] [stdout]                                at /opt/rustwide/workdir/src/config/log.rs:158:38
[INFO] [stdout]   23:     0x5da125517e17 - rust_platform::config::log::test::test_config::{{closure}}::he59f8ca91a7c0e8c
[INFO] [stdout]                                at /opt/rustwide/workdir/src/config/log.rs:154:21
[INFO] [stdout]   24:     0x5da125517e66 - core::ops::function::FnOnce::call_once::h0a823c2d2f605e27
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/ops/function.rs:250:5
[INFO] [stdout]   25:     0x5da125586adb - core::ops::function::FnOnce::call_once::ha729ee35d2fab541
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/ops/function.rs:250:5
[INFO] [stdout]   26:     0x5da125586adb - test::__rust_begin_short_backtrace::ha40f4db8207e1111
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:663:18
[INFO] [stdout]   27:     0x5da12559ab5d - test::run_test_in_process::{{closure}}::hc1b77cda5d44f0f3
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:686:74
[INFO] [stdout]   28:     0x5da12559ab5d - <core::panic::unwind_safe::AssertUnwindSafe<F> as core::ops::function::FnOnce<()>>::call_once::h1dbea1de64785521
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/panic/unwind_safe.rs:274:9
[INFO] [stdout]   29:     0x5da12559ab5d - std::panicking::catch_unwind::do_call::hd5febe9affd5a1b3
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:590:40
[INFO] [stdout]   30:     0x5da12559ab5d - std::panicking::catch_unwind::h51ea89627559b6f4
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:553:19
[INFO] [stdout]   31:     0x5da12559ab5d - std::panic::catch_unwind::hb8b8c2367cae3d66
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panic.rs:359:14
[INFO] [stdout]   32:     0x5da12559ab5d - test::run_test_in_process::ha5b55801407ea100
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:686:27
[INFO] [stdout]   33:     0x5da12559ab5d - test::run_test::{{closure}}::h0b9d4072b527abf5
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:607:43
[INFO] [stdout]   34:     0x5da125574074 - test::run_test::{{closure}}::hb1056b5731205822
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/test/src/lib.rs:637:41
[INFO] [stdout]   35:     0x5da125574074 - std::sys::backtrace::__rust_begin_short_backtrace::hb61ff5a34023c7ef
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/backtrace.rs:158:18
[INFO] [stdout]   36:     0x5da1255779aa - std::thread::Builder::spawn_unchecked_::{{closure}}::{{closure}}::hb0a83c0e8b353cff
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/thread/mod.rs:562:17
[INFO] [stdout]   37:     0x5da1255779aa - <core::panic::unwind_safe::AssertUnwindSafe<F> as core::ops::function::FnOnce<()>>::call_once::hb4f32cb008535298
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/panic/unwind_safe.rs:274:9
[INFO] [stdout]   38:     0x5da1255779aa - std::panicking::catch_unwind::do_call::h16d110e4fc35789a
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:590:40
[INFO] [stdout]   39:     0x5da1255779aa - std::panicking::catch_unwind::hea9118f355699c4b
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panicking.rs:553:19
[INFO] [stdout]   40:     0x5da1255779aa - std::panic::catch_unwind::hf4b3c2a06d3f42f5
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/panic.rs:359:14
[INFO] [stdout]   41:     0x5da1255779aa - std::thread::Builder::spawn_unchecked_::{{closure}}::h3f4cb733a52d53d5
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/thread/mod.rs:560:30
[INFO] [stdout]   42:     0x5da1255779aa - core::ops::function::FnOnce::call_once{{vtable.shim}}::h4052f0967b37caeb
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/core/src/ops/function.rs:250:5
[INFO] [stdout]   43:     0x5da12562534f - <alloc::boxed::Box<F,A> as core::ops::function::FnOnce<Args>>::call_once::h7ec433abd3f148b4
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/alloc/src/boxed.rs:2085:9
[INFO] [stdout]   44:     0x5da12562534f - std::sys::thread::unix::Thread::new::thread_start::he514622d3d7ba65c
[INFO] [stdout]                                at /rustc/1ef7943ee607160a564655b6596f83670ef95df5/library/std/src/sys/thread/unix.rs:124:17
[INFO] [stdout]   45:     0x7cae20868aa4 - <unknown>
[INFO] [stdout]   46:     0x7cae208f5a64 - clone
[INFO] [stdout]   47:                0x0 - <unknown>
[INFO] [stdout] 
[INFO] [stdout] 
[INFO] [stdout] failures:
[INFO] [stdout]     config::log::test::test_config
[INFO] [stdout] 
[INFO] [stdout] test result: FAILED. 1 passed; 1 failed; 0 ignored; 0 measured; 0 filtered out; finished in 0.15s
[INFO] [stdout] 
[INFO] [stderr] error: test failed, to rerun pass `--lib`
[INFO] running `Command { std: "docker" "inspect" "fd9a12afdd85b1c1a44e24b2005d32f27212dfbd73051221b2ae50169bf10fac", kill_on_drop: false }`
[INFO] running `Command { std: "docker" "rm" "-f" "fd9a12afdd85b1c1a44e24b2005d32f27212dfbd73051221b2ae50169bf10fac", kill_on_drop: false }`
[INFO] [stdout] fd9a12afdd85b1c1a44e24b2005d32f27212dfbd73051221b2ae50169bf10fac
