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testing_conventions/
lib.rs

1pub mod agents;
2pub mod co_change;
3pub mod colocated_test;
4pub mod config;
5pub mod coverage;
6pub mod e2e;
7pub mod isolation;
8pub mod lint;
9pub mod mutation;
10pub mod packaging;
11pub mod patch_coverage;
12pub mod ts;
13pub mod violation;
14pub mod workflow;
15
16use std::path::{Path, PathBuf};
17
18use clap::{CommandFactory, Parser, Subcommand};
19
20#[derive(Parser, Debug)]
21#[command(
22    name = "testing-conventions",
23    version,
24    about = "Enforce testing conventions in libraries (Python, TypeScript, and Rust).",
25    long_about = None,
26)]
27pub struct Cli {
28    #[command(subcommand)]
29    command: Option<Command>,
30}
31
32#[derive(Subcommand, Debug)]
33enum Command {
34    /// Check the repository against its testing-conventions config.
35    Check,
36    /// Write the testing contract into the repository's agent context file
37    /// (#232): a marker-delimited, hash-versioned block in `AGENTS.md` that a
38    /// coding agent reads before writing code. Idempotent — re-running
39    /// refreshes the owned region and touches nothing outside it.
40    Install {
41        /// The agent context file to manage.
42        #[arg(default_value = "AGENTS.md")]
43        path: PathBuf,
44    },
45    /// Unit-test conventions.
46    Unit {
47        #[command(subcommand)]
48        rule: UnitRule,
49    },
50    /// Integration-test conventions.
51    Integration {
52        #[command(subcommand)]
53        rule: IntegrationRule,
54    },
55    /// Packaging conventions: test files must not ship in the built artifact.
56    Packaging {
57        /// Root of the built artifact to inspect (e.g. an unpacked wheel or `dist/`).
58        path: PathBuf,
59        /// Language convention to enforce (required).
60        #[arg(long, value_enum)]
61        language: colocated_test::Language,
62    },
63    /// Workflow guard (private — hidden from `--help`, #191): every `testing-conventions`
64    /// invocation in a CI workflow must name a subcommand this binary still exposes
65    /// (guards the `@v0` path, #92). Run from our own CI, not a documented consumer command;
66    /// it stays in the binary because the guard needs the in-process command tree.
67    #[command(hide = true)]
68    Workflow {
69        /// Workflow file (or a directory of them) to scan.
70        path: PathBuf,
71    },
72    /// End-to-end-test conventions.
73    E2e {
74        #[command(subcommand)]
75        command: E2eCommand,
76    },
77}
78
79/// Rules enforced on the unit-test suite (the README's "Unit" taxonomy).
80#[derive(Subcommand, Debug)]
81enum UnitRule {
82    /// Check that every source file has a colocated, matching-named unit test
83    /// (tree-wide presence). With `--base`, additionally run the commit-scoped
84    /// `co-change` check over `<base>...HEAD` (#33): a modified or deleted source
85    /// whose colocated test is not in the diff fails. Presence always runs;
86    /// `--base` *adds* the diff-scoped check.
87    ColocatedTest {
88        /// Directory to scan recursively.
89        path: PathBuf,
90        /// Language convention to enforce (required).
91        #[arg(long, value_enum)]
92        language: colocated_test::Language,
93        /// Opt-in commit-scoped co-change check (#33): diff `<base>...HEAD` and
94        /// also flag a modified or deleted source whose colocated test didn't
95        /// co-change. Absent means presence-only — there is no default. Python /
96        /// TypeScript only: `--base --language rust` is rejected (inline
97        /// `#[cfg(test)]` units have no sibling test to go stale).
98        #[arg(long)]
99        base: Option<String>,
100        /// testing-conventions config file providing the `exempt` list. Optional:
101        /// if the file is absent, no files are exempt.
102        #[arg(long, default_value = "testing-conventions.toml")]
103        config: PathBuf,
104    },
105    /// Check that the unit suite meets the configured coverage floor. With
106    /// `--base`, the same configured floor is measured over the `<base>...HEAD`
107    /// diff (the changed lines) instead of the whole tree (#162) — a changed line
108    /// below the floor fails, no matter how small the diff.
109    Coverage {
110        /// Directory whose unit suite is run and measured.
111        path: PathBuf,
112        /// Language convention to enforce (required).
113        #[arg(long, value_enum)]
114        language: colocated_test::Language,
115        /// Opt-in diff-scoped coverage (#162): diff `<base>...HEAD` and measure the
116        /// configured floor over only the changed lines, instead of the whole tree.
117        /// Absent means whole-tree — there is no default. This is the patch-scoped
118        /// check the old `unit patch-coverage` command did, re-homed onto the floor
119        /// it shares.
120        #[arg(long)]
121        base: Option<String>,
122        /// testing-conventions config file with the coverage thresholds and
123        /// `exempt` list. Optional: if the file — or its `[<language>].coverage`
124        /// table — is absent, the language's sane default floor is used and
125        /// nothing is exempt.
126        #[arg(long, default_value = "testing-conventions.toml")]
127        config: PathBuf,
128    },
129    /// Lint unit test files for isolation: mock every collaborator (Python, TypeScript, Rust).
130    Lint {
131        /// Crate root / source dir to scan recursively.
132        path: PathBuf,
133        /// Language convention to enforce (required).
134        #[arg(long, value_enum)]
135        language: isolation::Language,
136        /// testing-conventions config file providing the `exempt` list (waivers).
137        /// Optional: if the file is absent, nothing is waived.
138        #[arg(long, default_value = "testing-conventions.toml")]
139        config: PathBuf,
140    },
141    /// Run mutation testing over the unit suite and fail on any surviving mutant not
142    /// lifted by a `mutation` exemption — the rung above coverage (#201). The gate is
143    /// on by default (no report-only mode). All three languages (Python, TypeScript,
144    /// Rust) are at parity and wired into the reusable workflow as a diff-scoped,
145    /// PR-only job (#204).
146    Mutation {
147        /// Crate whose unit suite is mutated.
148        path: PathBuf,
149        /// Language convention to enforce (required): `python`, `typescript`, or `rust`.
150        #[arg(long, value_enum)]
151        language: colocated_test::Language,
152        /// Opt-in diff-scoping (#201): restrict to mutants on lines a `<base>...HEAD`
153        /// diff added or modified, via cargo-mutants' `--in-diff`. Absent means the
154        /// whole crate (slower).
155        #[arg(long)]
156        base: Option<String>,
157        /// testing-conventions config file providing the `exempt` list. Optional:
158        /// absent means nothing is exempt (every survivor must be killed).
159        #[arg(long, default_value = "testing-conventions.toml")]
160        config: PathBuf,
161        /// Path to the bundled TypeScript mutation adapter (`dist/mutation/main.js`), used
162        /// only by `--language typescript`. The npm launcher appends it; hidden because a
163        /// consumer never sets it by hand.
164        #[arg(long = "ts-mutation-adapter", hide = true)]
165        ts_adapter: Option<PathBuf>,
166    },
167}
168
169/// Languages the integration-test lints support — its own set (Python,
170/// TypeScript, Rust), distinct from the file-pairing `colocated_test::Language`,
171/// so adding Rust here doesn't touch the colocated-test/coverage rules.
172#[derive(Debug, Clone, Copy, PartialEq, Eq, clap::ValueEnum)]
173pub enum IntegrationLintLanguage {
174    /// Python test files (`*_test.py`, `test_*.py`, `conftest.py`).
175    #[value(name = "python")]
176    Python,
177    /// TypeScript test files (`*.test.{ts,tsx,mts,cts}`).
178    #[value(name = "typescript")]
179    TypeScript,
180    /// Rust integration crates under `tests/`.
181    #[value(name = "rust")]
182    Rust,
183}
184
185/// Lints enforced on integration tests (mocking mechanism & style, and more to
186/// come). The README's "Integration" taxonomy.
187#[derive(Subcommand, Debug)]
188enum IntegrationRule {
189    /// Lint integration test files for mocking mechanism & style (Python, TypeScript, Rust).
190    Lint {
191        /// Directory to scan recursively for test files.
192        path: PathBuf,
193        /// Language convention to enforce (required).
194        #[arg(long, value_enum)]
195        language: IntegrationLintLanguage,
196        /// testing-conventions config file providing the `exempt` list (waivers).
197        /// Optional: if the file is absent, nothing is waived.
198        #[arg(long, default_value = "testing-conventions.toml")]
199        config: PathBuf,
200    },
201}
202
203/// E2E attestation commands (#17): record a local e2e run and (later, #68)
204/// verify in CI that the latest code commit is attested.
205#[derive(Subcommand, Debug)]
206enum E2eCommand {
207    /// Run the e2e suite and write a committed attestation naming the current commit.
208    Attest {
209        /// The e2e command to run (e.g. `pnpm run e2e`), executed via the shell.
210        command: String,
211    },
212    /// Verify the committed attestation names the latest code commit (the CI gate).
213    Verify {
214        /// Directory whose committed e2e-attestation.json is verified (default: current directory).
215        #[arg(default_value = ".")]
216        path: PathBuf,
217        /// Directory the "latest code commit" freshness walk is scoped to, if
218        /// narrower than `path` (default: `path` itself, byte-identical to before
219        /// this flag existed). Must be `path` or a descendant of it.
220        #[arg(long)]
221        scope: Option<PathBuf>,
222        /// Opt-in diff-scoping (#319): restrict freshness to the commits this
223        /// branch introduced (`<base>..HEAD`) rather than all reachable history.
224        /// A branch that didn't touch the scoped source passes with nothing to
225        /// re-attest — the way the changed-line coverage/mutation gates pass on an
226        /// empty diff, and what makes the gate safe for a squash-merging repo.
227        /// Absent means the whole history (byte-identical to before this flag).
228        #[arg(long)]
229        base: Option<String>,
230    },
231}
232
233pub fn run<I, T>(args: I) -> anyhow::Result<i32>
234where
235    I: IntoIterator<Item = T>,
236    T: Into<std::ffi::OsString> + Clone,
237{
238    let cli = Cli::try_parse_from(args)?;
239    match cli.command {
240        // The config-driven `check` umbrella isn't wired yet; the scaffold
241        // proves the wiring while individual rules land under their test-kind
242        // group (e.g. `unit colocated-test`).
243        Some(Command::Check) | None => Ok(0),
244        Some(Command::Unit { rule }) => match rule {
245            UnitRule::ColocatedTest {
246                path,
247                language,
248                base,
249                config,
250            } => run_unit_colocated_test(&path, language, base.as_deref(), &config),
251            UnitRule::Coverage {
252                path,
253                language,
254                base,
255                config,
256            } => run_unit_coverage(&path, language, base.as_deref(), &config),
257            UnitRule::Lint {
258                path,
259                language,
260                config,
261            } => run_unit_lint(&path, language, &config),
262            UnitRule::Mutation {
263                path,
264                language,
265                base,
266                config,
267                ts_adapter,
268            } => run_unit_mutation(
269                &path,
270                language,
271                base.as_deref(),
272                &config,
273                ts_adapter.as_deref(),
274            ),
275        },
276        Some(Command::Integration { rule }) => match rule {
277            IntegrationRule::Lint {
278                path,
279                language,
280                config,
281            } => run_integration_lint(&path, language, &config),
282        },
283        Some(Command::Packaging { path, language }) => run_packaging(&path, language),
284        Some(Command::Workflow { path }) => run_workflow(&path),
285        Some(Command::E2e { command }) => match command {
286            E2eCommand::Attest { command } => run_e2e_attest(&command),
287            E2eCommand::Verify { path, scope, base } => {
288                run_e2e_verify(&path, scope.as_deref(), base.as_deref())
289            }
290        },
291        Some(Command::Install { path }) => {
292            agents::install(&path)?;
293            Ok(0)
294        }
295    }
296}
297
298/// The binary's own clap command tree — the source of truth for which subcommands
299/// it exposes. The `workflow` guard (#92) checks a workflow's invocations against
300/// it, so a renamed or removed subcommand is caught the moment they diverge.
301pub fn command() -> clap::Command {
302    Cli::command()
303}
304
305/// Run the unit colocated-test check over `root` for `language`. Always runs the
306/// tree-wide **presence** check (every source file has its colocated test; Rust:
307/// an inline `#[cfg(test)]` module). When `base` is `Some`, *additionally* runs the
308/// commit-scoped **co-change** check (#33) over `<base>...HEAD` — a modified or
309/// deleted source whose colocated test didn't co-change — and the run fails if
310/// either check does. Returns `0` only when both pass.
311///
312/// Presence loads the `colocated-test`-rule exemptions and co-change the
313/// `co-change`-rule exemptions from the config at `config_path` (no config file →
314/// no exemptions). `--base` rejects `--language rust`: Rust units are inline
315/// `#[cfg(test)]` in the same file, so a sibling test can't go stale (presence,
316/// without `--base`, still supports Rust).
317fn run_unit_colocated_test(
318    root: &Path,
319    language: colocated_test::Language,
320    base: Option<&str>,
321    config_path: &Path,
322) -> anyhow::Result<i32> {
323    // `--base` carries the co-change check, which rejects Rust the same way the
324    // standalone `unit co-change` did — before any work, so the message matches.
325    if base.is_some() && language == colocated_test::Language::Rust {
326        anyhow::bail!(
327            "`unit colocated-test --base` supports `--language python` / `typescript`; Rust \
328             units are inline `#[cfg(test)]` in the same file, so a sibling test can't go stale"
329        );
330    }
331    let presence_clean = report_colocated_presence(root, language, config_path)?;
332    let co_change_clean = match base {
333        Some(base) => report_co_change(root, base, language, config_path)?,
334        None => true,
335    };
336    Ok(if presence_clean && co_change_clean {
337        0
338    } else {
339        1
340    })
341}
342
343/// The tree-wide colocated-test **presence** check: every source file under `root`
344/// has its colocated unit test (Rust: an inline `#[cfg(test)]` module). Prints each
345/// orphan to stderr and returns `Ok(false)` when any are found, `Ok(true)` when the
346/// tree is clean. The `colocated-test`-rule exemptions from the config at
347/// `config_path` lift a file (no config file → nothing exempt).
348fn report_colocated_presence(
349    root: &Path,
350    language: colocated_test::Language,
351    config_path: &Path,
352) -> anyhow::Result<bool> {
353    let exempt = colocated_test_exemptions(root, language, config_path)?;
354    let orphans = match language {
355        // Rust units are inline `#[cfg(test)]` modules, so "colocated" means a test
356        // module in the same file, not a sibling file (#40).
357        colocated_test::Language::Rust => colocated_test::missing_inline_tests(root, &exempt)?,
358        _ => colocated_test::missing_unit_tests(root, language, &exempt)?,
359    };
360    if orphans.is_empty() {
361        return Ok(true);
362    }
363    let (label, summary) = match language {
364        colocated_test::Language::Rust => (
365            "missing inline `#[cfg(test)]` tests",
366            "source file(s) with testable code but no inline `#[cfg(test)]` module \
367             (add an inline test module, or an `exempt` entry with a reason)",
368        ),
369        _ => (
370            "missing colocated unit test",
371            "source file(s) missing a colocated unit test \
372             (add a colocated test, or an `exempt` entry with a reason)",
373        ),
374    };
375    for orphan in &orphans {
376        eprintln!("{label}: {}", orphan.display());
377    }
378    eprintln!("error: {} {summary}", orphans.len());
379    Ok(false)
380}
381
382/// The `colocated-test`-rule exempt paths for `language`, resolved (and validated)
383/// from the config at `config_path`. A missing config file means no exemptions —
384/// the check still runs, just with nothing exempted.
385fn colocated_test_exemptions(
386    root: &Path,
387    language: colocated_test::Language,
388    config_path: &Path,
389) -> anyhow::Result<std::collections::BTreeSet<String>> {
390    if !config_path.exists() {
391        return Ok(std::collections::BTreeSet::new());
392    }
393    let config = config::load_config(config_path)?;
394    config::resolve_exempt(
395        root,
396        config.exemptions(language),
397        config::Rule::ColocatedTest,
398    )
399}
400
401/// The commit-scoped **co-change** check (#33) over `root`, diffing `<base>...HEAD`:
402/// every modified or deleted source whose colocated test didn't co-change. Prints
403/// each stale source to stderr and returns `Ok(false)` when any are found,
404/// `Ok(true)` when clean.
405///
406/// Loads the `co-change`-rule exemptions from the config at `config_path` (no
407/// config file → no exemptions); an exempt source needn't co-change. The caller
408/// rejects `--language rust` before this runs: Rust units are inline `#[cfg(test)]`
409/// in the same file, so a sibling test can't go stale.
410fn report_co_change(
411    root: &Path,
412    base: &str,
413    language: colocated_test::Language,
414    config_path: &Path,
415) -> anyhow::Result<bool> {
416    let exempt = co_change_exemptions(root, language, config_path)?;
417    let stale = co_change::stale_sources(root, base, language, &exempt)?;
418    if stale.is_empty() {
419        return Ok(true);
420    }
421    for source in &stale {
422        eprintln!(
423            "source changed without its colocated test: {}",
424            source.display()
425        );
426    }
427    eprintln!(
428        "error: {} source file(s) changed without their colocated test co-changing \
429         (update the test, or add an `exempt` entry with a reason)",
430        stale.len()
431    );
432    Ok(false)
433}
434
435/// The `co-change`-rule exempt paths for `language`, resolved (and validated)
436/// from the config at `config_path`. A missing config file means no exemptions —
437/// every changed source must co-change its test.
438fn co_change_exemptions(
439    root: &Path,
440    language: colocated_test::Language,
441    config_path: &Path,
442) -> anyhow::Result<std::collections::BTreeSet<String>> {
443    if !config_path.exists() {
444        return Ok(std::collections::BTreeSet::new());
445    }
446    let config = config::load_config(config_path)?;
447    config::resolve_exempt(root, config.exemptions(language), config::Rule::CoChange)
448}
449
450/// Split a resolved exempt-scope map (#226) into the whole-file paths and the
451/// line-scoped sets — the two shapes the `coverage` / `mutation` measure functions
452/// take. A [`config::LineScope::WholeFile`] becomes a path in the first vec; a
453/// [`config::LineScope::Lines`] a `path → lines` entry in the second map.
454fn split_scopes(
455    scopes: std::collections::BTreeMap<String, config::LineScope>,
456) -> (
457    Vec<String>,
458    std::collections::BTreeMap<String, std::collections::BTreeSet<u32>>,
459) {
460    let mut whole_file = Vec::new();
461    let mut line_scoped = std::collections::BTreeMap::new();
462    for (path, scope) in scopes {
463        match scope {
464            config::LineScope::WholeFile => whole_file.push(path),
465            config::LineScope::Lines(lines) => {
466                line_scoped.insert(path, lines);
467            }
468        }
469    }
470    (whole_file, line_scoped)
471}
472
473/// Run the unit-test coverage check over `root` for `language`, enforcing the
474/// floor from the config at `config_path`. Returns `0` when the floor is met,
475/// `1` otherwise.
476///
477/// With `base` set, the same configured floor is measured over the
478/// `<base>...HEAD` diff (the changed lines) rather than the whole tree (#162),
479/// via the diff-scoped [`patch_coverage::measure`] / `measure_typescript` /
480/// `measure_rust`; without it, the whole-tree [`coverage::measure`] family runs.
481///
482/// Coverage is zero-config by default for Python and TypeScript (#80): a missing
483/// config file — or a config with no `[<language>].coverage` table — falls back to
484/// the language's sane default floor ([`config::PythonCoverage::default`] /
485/// [`config::TypeScriptCoverage::default`]), the same way `unit colocated-test` and
486/// `integration lint` treat an absent config as "nothing exempt". A present
487/// `coverage` table overrides the default; `coverage`-rule exemptions still apply.
488/// Rust (#206) is zero-config too: a missing `[rust].coverage` table falls back to
489/// [`config::RustCoverage::default`] (`lines = 100`, `regions` opt-in, no branch).
490fn run_unit_coverage(
491    root: &Path,
492    language: colocated_test::Language,
493    base: Option<&str>,
494    config_path: &Path,
495) -> anyhow::Result<i32> {
496    let config = if config_path.exists() {
497        config::load_config(config_path)?
498    } else {
499        config::Config::default()
500    };
501    let outcome = match language {
502        colocated_test::Language::Python => {
503            let python = config.python.unwrap_or_default();
504            let coverage = python.coverage.unwrap_or_default();
505            let thresholds = coverage::Thresholds {
506                fail_under: coverage.fail_under,
507                branch: coverage.branch,
508            };
509            let (omit, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
510                root,
511                &python.exempt,
512                config::Rule::Coverage,
513            )?);
514            match base {
515                Some(base) => {
516                    patch_coverage::measure(root, base, thresholds, &omit, &exempt_lines)?
517                }
518                None if exempt_lines.is_empty() => coverage::measure(root, thresholds, &omit)?,
519                None => {
520                    patch_coverage::measure_line_exempt(root, thresholds, &omit, &exempt_lines)?
521                }
522            }
523        }
524        colocated_test::Language::TypeScript => {
525            let typescript = config.typescript.unwrap_or_default();
526            let coverage = typescript.coverage.unwrap_or_default();
527            let thresholds = coverage::TypeScriptThresholds {
528                lines: coverage.lines,
529                branches: coverage.branches,
530                functions: coverage.functions,
531                statements: coverage.statements,
532            };
533            let (exclude, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
534                root,
535                &typescript.exempt,
536                config::Rule::Coverage,
537            )?);
538            match base {
539                Some(base) => patch_coverage::measure_typescript(
540                    root,
541                    base,
542                    thresholds,
543                    &exclude,
544                    &exempt_lines,
545                )?,
546                None if exempt_lines.is_empty() => {
547                    coverage::measure_typescript(root, thresholds, &exclude)?
548                }
549                None => patch_coverage::measure_line_exempt_typescript(
550                    root,
551                    thresholds,
552                    &exclude,
553                    &exempt_lines,
554                )?,
555            }
556        }
557        colocated_test::Language::Rust => {
558            let rust = config.rust.unwrap_or_default();
559            // Zero-config (#206): a missing `[rust].coverage` table falls back to the
560            // default Rust floor (`lines = 100`, with `regions` opt-in and no branch
561            // component) — matching Python/TypeScript — rather than erroring for a
562            // required table. A present table overrides it.
563            let coverage = rust.coverage.unwrap_or_default();
564            let thresholds = coverage::RustThresholds {
565                regions: coverage.regions,
566                lines: coverage.lines,
567                functions: coverage.functions,
568                branch: coverage.branch,
569            };
570            let (ignore, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
571                root,
572                &rust.exempt,
573                config::Rule::Coverage,
574            )?);
575            match base {
576                Some(base) => patch_coverage::measure_rust(
577                    root,
578                    base,
579                    thresholds,
580                    &ignore,
581                    &exempt_lines,
582                    &rust.features,
583                )?,
584                None if exempt_lines.is_empty() => {
585                    coverage::measure_rust(root, thresholds, &ignore, &rust.features)?
586                }
587                None => patch_coverage::measure_line_exempt_rust(
588                    root,
589                    thresholds,
590                    &ignore,
591                    &exempt_lines,
592                    &rust.features,
593                )?,
594            }
595        }
596    };
597    match outcome {
598        coverage::Outcome::Pass => Ok(0),
599        coverage::Outcome::Fail(reason) => {
600            eprintln!("error: coverage check failed — {reason}");
601            Ok(1)
602        }
603    }
604}
605
606/// Run `unit mutation` over `root` (#201, #202): run the per-language engine and fail
607/// on any surviving mutant not lifted by a `mutation` exemption.
608///
609/// The gate is **on by default and binary** — "no *unexplained* surviving mutant":
610/// every survivor must be killed with an assertion, or lifted by a reason-required
611/// `[[<language>.exempt]] rules = ["mutation"]` for an equivalent / deliberately-defensive
612/// mutation. There is no percentage floor (equivalent mutants make one unreachable)
613/// and no report-only mode — the only loosening is a reasoned, per-file exemption.
614/// All three languages are wired: Rust (cargo-mutants), TypeScript (Stryker), and
615/// Python (cosmic-ray). `--base` scopes the run to the diff.
616fn run_unit_mutation(
617    root: &Path,
618    language: colocated_test::Language,
619    base: Option<&str>,
620    config_path: &Path,
621    ts_adapter: Option<&Path>,
622) -> anyhow::Result<i32> {
623    let config = if config_path.exists() {
624        config::load_config(config_path)?
625    } else {
626        config::Config::default()
627    };
628    let survivors = match language {
629        colocated_test::Language::Rust => {
630            let rust = config.rust.unwrap_or_default();
631            let (exempt, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
632                root,
633                &rust.exempt,
634                config::Rule::Mutation,
635            )?);
636            mutation::measure_rust(root, &exempt, &exempt_lines, base, &rust.features)?
637        }
638        colocated_test::Language::TypeScript => {
639            let typescript = config.typescript.unwrap_or_default();
640            let (exempt, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
641                root,
642                &typescript.exempt,
643                config::Rule::Mutation,
644            )?);
645            // The npm launcher appends `--ts-mutation-adapter`; its absence means the binary
646            // was run directly, not through the published CLI.
647            let adapter = ts_adapter.ok_or_else(|| {
648                anyhow::anyhow!(
649                    "the TypeScript mutation adapter path is required: pass \
650                     `--ts-mutation-adapter <path>`. The npm `testing-conventions` CLI appends it \
651                     automatically — run the rule through that CLI, not the raw binary."
652                )
653            })?;
654            mutation::measure_typescript(root, &exempt, &exempt_lines, base, adapter)?
655        }
656        colocated_test::Language::Python => {
657            let python = config.python.unwrap_or_default();
658            let (exempt, exempt_lines) = split_scopes(config::resolve_exempt_scoped(
659                root,
660                &python.exempt,
661                config::Rule::Mutation,
662            )?);
663            mutation::measure_python(root, &exempt, &exempt_lines, base)?
664        }
665    };
666    if survivors.is_empty() {
667        println!("unit mutation: no surviving mutants — every mutation was caught");
668        return Ok(0);
669    }
670
671    eprintln!(
672        "error: {} unexplained surviving mutant(s) — kill each with an assertion, or lift an \
673         equivalent/defensive one with a reason-required `[[<language>.exempt]] rules = [\"mutation\"]`:",
674        survivors.len()
675    );
676    for survivor in &survivors {
677        eprintln!(
678            "  {}:{}: {}",
679            survivor.file, survivor.line, survivor.description
680        );
681    }
682    Ok(1)
683}
684
685/// Run the `unit lint` check over `root` for `language` — the unit-suite
686/// isolation lints (`unmocked-collaborator`, `untyped-mock`, `no-out-of-module-call`,
687/// `no-out-of-module-import`) — printing each violation to stderr as
688/// `path:line: rule — message` and returning `1` when any are found, `0` otherwise.
689fn run_unit_lint(
690    root: &Path,
691    language: isolation::Language,
692    config_path: &Path,
693) -> anyhow::Result<i32> {
694    let (raw, select): (Vec<lint::Violation>, ExemptSelect) = match language {
695        isolation::Language::Rust => (isolation::find_violations(root)?, |c| c.rust_exemptions()),
696        isolation::Language::TypeScript => (ts::find_unit_violations(root)?, |c| {
697            c.exemptions(colocated_test::Language::TypeScript)
698        }),
699        isolation::Language::Python => (lint::find_unit_isolation_violations(root)?, |c| {
700            c.exemptions(colocated_test::Language::Python)
701        }),
702    };
703    let violations = apply_waivers(raw, root, config_path, select)?;
704    if violations.is_empty() {
705        return Ok(0);
706    }
707    for v in &violations {
708        eprintln!(
709            "{}:{}: {} — {}",
710            v.file.display(),
711            v.line,
712            v.rule,
713            v.message
714        );
715    }
716    eprintln!("error: {} isolation violation(s)", violations.len());
717    Ok(1)
718}
719
720/// Run the integration-test lints over `root` for `language`, printing each
721/// violation to stderr as `path:line: rule — message` and returning `1` when any
722/// are found, `0` otherwise.
723fn run_integration_lint(
724    root: &Path,
725    language: IntegrationLintLanguage,
726    config_path: &Path,
727) -> anyhow::Result<i32> {
728    let (raw, select): (Vec<lint::Violation>, ExemptSelect) = match language {
729        IntegrationLintLanguage::Python => (lint::find_violations(root)?, |c| {
730            c.exemptions(colocated_test::Language::Python)
731        }),
732        IntegrationLintLanguage::TypeScript => (ts::find_integration_violations(root)?, |c| {
733            c.exemptions(colocated_test::Language::TypeScript)
734        }),
735        IntegrationLintLanguage::Rust => (isolation::find_integration_violations(root)?, |c| {
736            c.rust_exemptions()
737        }),
738    };
739    let violations = apply_waivers(raw, root, config_path, select)?;
740    if violations.is_empty() {
741        return Ok(0);
742    }
743    for v in &violations {
744        eprintln!(
745            "{}:{}: {} — {}",
746            v.file.display(),
747            v.line,
748            v.rule,
749            v.message
750        );
751    }
752    eprintln!("error: {} lint violation(s)", violations.len());
753    Ok(1)
754}
755
756/// Selects a language's `[[<lang>.exempt]]` table from a loaded config — the one
757/// varying piece between the `unit lint` and `integration lint` waiver paths.
758type ExemptSelect = fn(&config::Config) -> &[config::Exemption];
759
760/// Drop the violations waived by the config's `exempt` list (#32/#102). A
761/// violation is waived when its `rule` is a known [`config::Rule`] and its
762/// `root`-relative path is exempt for that rule. `exemptions` selects the
763/// language's `[[<lang>.exempt]]` table from the loaded config. A missing config
764/// file waives nothing; a reason-less or stale entry errors (via `load_config` /
765/// `resolve_exempt`), so the escape hatch can't silently rot.
766fn apply_waivers(
767    violations: Vec<lint::Violation>,
768    root: &Path,
769    config_path: &Path,
770    exemptions: ExemptSelect,
771) -> anyhow::Result<Vec<lint::Violation>> {
772    use std::collections::hash_map::Entry;
773
774    if !config_path.exists() {
775        return Ok(violations);
776    }
777    let config = config::load_config(config_path)?;
778    let exempt = exemptions(&config);
779    // Resolve each rule's exempt set once (and surface a stale entry as an error).
780    let mut resolved: std::collections::HashMap<config::Rule, std::collections::BTreeSet<String>> =
781        std::collections::HashMap::new();
782    let mut kept = Vec::new();
783    for violation in violations {
784        let waived = match config::Rule::from_id(violation.rule) {
785            Some(rule) => {
786                let exempt_paths = match resolved.entry(rule) {
787                    Entry::Occupied(entry) => entry.into_mut(),
788                    Entry::Vacant(entry) => {
789                        entry.insert(config::resolve_exempt(root, exempt, rule)?)
790                    }
791                };
792                violation
793                    .file
794                    .strip_prefix(root)
795                    .ok()
796                    .map(|rel| rel.to_string_lossy().replace('\\', "/"))
797                    .is_some_and(|rel| exempt_paths.contains(&rel))
798            }
799            None => false,
800        };
801        if !waived {
802            kept.push(violation);
803        }
804    }
805    Ok(kept)
806}
807
808/// Run the packaging check: inspect the built artifact at `artifact` for test
809/// files that must not ship (README "Packaging"), per `language`'s test-file
810/// globs.
811///
812/// `artifact` is either an already-unpacked directory or a packed artifact the
813/// rule unpacks itself — a Python wheel (`.whl`) today; the TypeScript (#73) and
814/// Rust (#74) archives follow. Returns `0` when no test file is present, `1`
815/// otherwise (after printing each offending path, relative to the artifact root).
816fn run_packaging(artifact: &Path, language: colocated_test::Language) -> anyhow::Result<i32> {
817    let globs = match language {
818        colocated_test::Language::Python => vec!["*_test.py".to_string()],
819        colocated_test::Language::TypeScript => vec!["*.test.*".to_string()],
820        // `#[cfg(test)]` units compile out for free; the only thing to keep out of
821        // the `.crate` source tarball is the crate-root integration `tests/` dir.
822        colocated_test::Language::Rust => vec!["tests/".to_string()],
823    };
824    let offenders = packaging::inspect(artifact, &globs)?;
825    if offenders.is_empty() {
826        return Ok(0);
827    }
828    for offender in &offenders {
829        eprintln!("test file in built artifact: {}", offender.display());
830    }
831    eprintln!(
832        "error: {} test file(s) present in the built artifact \
833         (they must be excluded from packaging)",
834        offenders.len()
835    );
836    Ok(1)
837}
838
839/// Run the workflow guard over `path` (a workflow file or directory): flag every
840/// `testing-conventions` invocation that names a subcommand this binary no longer
841/// exposes, printing each as `path:line: rule — message` and returning `1` when any
842/// are found, `0` otherwise.
843fn run_workflow(path: &Path) -> anyhow::Result<i32> {
844    let violations = workflow::check(path, &command())?;
845    if violations.is_empty() {
846        return Ok(0);
847    }
848    for v in &violations {
849        eprintln!(
850            "{}:{}: {} — {}",
851            v.file.display(),
852            v.line,
853            v.rule,
854            v.message
855        );
856    }
857    eprintln!(
858        "error: {} workflow invocation(s) name a subcommand this binary no longer exposes",
859        violations.len()
860    );
861    Ok(1)
862}
863
864/// Run `command` as an e2e suite and write a committed attestation naming the
865/// current commit (#67). Force-runs: the attestation is written regardless of
866/// the command's exit code, so this exits `0` once the attestation is recorded.
867fn run_e2e_attest(command: &str) -> anyhow::Result<i32> {
868    let repo = std::env::current_dir()?;
869    let attestation = e2e::attest(&repo, command)?;
870    println!(
871        "e2e attestation recorded for commit {} (command exited {})",
872        attestation.commit, attestation.exit_code
873    );
874    Ok(0)
875}
876
877/// Verify the committed e2e attestation names the latest code commit (#68) — the
878/// CI side of the nudge. Exits `0` when fresh; otherwise prints the actionable
879/// hint and exits `1`. Never runs e2e, never judges the recorded run.
880///
881/// `path` is the directory whose committed `e2e-attestation.json` is checked
882/// (#281) — the default `.` resolves against the current directory, so a
883/// no-argument call behaves exactly like the pre-#281 `current_dir()` read.
884/// Passing a package subdirectory scopes discovery to it, matching a call made
885/// with that directory as cwd. `scope`, when set, narrows the "latest code
886/// commit" freshness walk to a directory under `path` instead of all of it
887/// (#294) — `None` behaves exactly like passing `path` itself. `base`, when set,
888/// restricts the walk to the commits this branch introduced (`<base>..HEAD`)
889/// instead of all history (#319) — `None` behaves exactly like before the flag.
890fn run_e2e_verify(path: &Path, scope: Option<&Path>, base: Option<&str>) -> anyhow::Result<i32> {
891    match e2e::verify_since(path, scope.unwrap_or(path), base)? {
892        e2e::Verification::Fresh => Ok(0),
893        e2e::Verification::Missing => {
894            eprintln!(
895                "e2e attestation missing — run `testing-conventions e2e attest '<your e2e command>'`"
896            );
897            Ok(1)
898        }
899        e2e::Verification::Stale { attested, latest } => {
900            eprintln!(
901                "e2e attestation out of date: attested {}, latest code commit {} — \
902                 run `testing-conventions e2e attest '<your e2e command>'`",
903                &attested[..attested.len().min(7)],
904                &latest[..latest.len().min(7)]
905            );
906            Ok(1)
907        }
908    }
909}
910
911#[cfg(test)]
912mod tests {
913    use super::*;
914
915    #[test]
916    fn no_args_returns_ok_zero() {
917        assert_eq!(run(["testing-conventions"]).unwrap(), 0);
918    }
919
920    #[test]
921    fn check_returns_ok_zero() {
922        assert_eq!(run(["testing-conventions", "check"]).unwrap(), 0);
923    }
924
925    #[test]
926    fn unknown_flag_errors() {
927        assert!(run(["testing-conventions", "--bogus"]).is_err());
928    }
929
930    #[test]
931    fn help_flag_returns_clap_display_help() {
932        let err = run(["testing-conventions", "--help"]).expect_err("--help should bubble");
933        let clap_err = err
934            .downcast_ref::<clap::Error>()
935            .expect("error should be a clap::Error");
936        assert_eq!(clap_err.kind(), clap::error::ErrorKind::DisplayHelp);
937    }
938
939    #[test]
940    fn version_flag_returns_clap_display_version() {
941        let err = run(["testing-conventions", "--version"]).expect_err("--version should bubble");
942        let clap_err = err
943            .downcast_ref::<clap::Error>()
944            .expect("error should be a clap::Error");
945        assert_eq!(clap_err.kind(), clap::error::ErrorKind::DisplayVersion);
946    }
947}