testing_conventions/coverage.rs
1//! Coverage rule (Python — issue #26; TypeScript — issue #31; Rust — issue #37; exemptions — issue #32).
2//!
3//! Enforces the README's Coverage rule: a library's unit suite must meet the
4//! configured floor, with test files excluded from the denominator. This module
5//! is the deterministic core — given a parsed coverage report and the thresholds
6//! from config, an `evaluate` function decides pass/fail. Producing the report
7//! (shelling out to the language's coverage tool) is a thin layer on top, kept
8//! separate so the guarantee is testable without that toolchain installed.
9//!
10//! Python (#26) uses coverage.py: a single total, branch coverage on. Given a
11//! [`CoverageReport`] and [`Thresholds`], [`evaluate`] decides pass/fail, and
12//! [`measure`] shells out to `coverage`. TypeScript (#31) is the twin: vitest
13//! reports four independent metrics (lines / branches / functions / statements),
14//! so it carries its own [`TypeScriptThresholds`], [`VitestReport`], and
15//! [`evaluate_typescript`] / [`measure_typescript`] pair — sharing only the
16//! [`Outcome`] type. Its subprocess layer shells out to `vitest`. Rust (#37) is
17//! the third twin: `cargo llvm-cov` reports regions/lines (branch coverage is
18//! experimental), so it carries [`RustThresholds`], [`LlvmCovReport`], and
19//! [`evaluate_rust`] / [`measure_rust`]; its subprocess layer shells out to
20//! `cargo llvm-cov`.
21//!
22//! Files exempted from coverage in config (issue #32) are omitted from the
23//! denominator alongside the test files; the caller resolves them
24//! ([`crate::config::resolve_exempt`]) and passes their paths to [`measure`] /
25//! [`measure_typescript`] / [`measure_rust`].
26
27use std::collections::{BTreeMap, BTreeSet};
28use std::path::{Path, PathBuf};
29use std::process::Command;
30use std::sync::atomic::{AtomicU64, Ordering};
31
32use anyhow::{bail, Context, Result};
33use serde::Deserialize;
34
35/// Always omitted from the coverage denominator: colocated unit tests are the
36/// suite, never a subject of it.
37const TEST_OMIT: &str = "*_test.py";
38
39/// Also always omitted: `conftest.py` holds pytest fixtures (test support), never
40/// a coverage subject. `*conftest.py` matches it at any depth, mirroring the
41/// `*_test.py` glob. (#112)
42const SUPPORT_OMIT: &str = "*conftest.py";
43
44/// The coverage floor to enforce, from a `[<language>].coverage` table.
45#[derive(Debug, Clone, Copy, PartialEq, Eq)]
46pub struct Thresholds {
47 /// Minimum total coverage percent the unit suite must meet.
48 pub fail_under: u8,
49 /// Whether branch coverage must be measured (and folded into the total).
50 pub branch: bool,
51}
52
53/// A coverage.py JSON report (`coverage json`), pared to what the checks need:
54/// the `totals` (the floor) and the per-file `files` block (patch
55/// coverage, #132). Unmodeled fields (metadata, per-function/class data) are
56/// ignored.
57#[derive(Debug, Clone, Deserialize)]
58pub struct CoverageReport {
59 pub totals: Totals,
60 /// Per-file line/branch detail, keyed by the path coverage.py reports
61 /// (relative to the measured root). Additive: `#[serde(default)]`, so a report
62 /// parsed for the floor alone (the inline tests) needs no `files`.
63 #[serde(default)]
64 pub files: BTreeMap<String, FileCoverage>,
65}
66
67/// Per-file coverage detail from a coverage.py report (one `files` entry) — what
68/// patch coverage (#132) reads to decide whether a changed line is covered.
69/// Unmodeled fields (the summary, per-function/class data) are ignored.
70#[derive(Debug, Clone, Default, Deserialize)]
71pub struct FileCoverage {
72 /// Executable lines the suite ran.
73 #[serde(default)]
74 pub executed_lines: Vec<u64>,
75 /// Executable lines the suite never ran — an uncovered changed line is one of
76 /// these.
77 #[serde(default)]
78 pub missing_lines: Vec<u64>,
79 /// Lines excluded from coverage (e.g. `# pragma: no cover`); never a miss.
80 #[serde(default)]
81 pub excluded_lines: Vec<u64>,
82 /// `[source_line, dest_line]` pairs for branches the suite never took; `dest`
83 /// may be negative (a function / loop exit). Only the source line matters to
84 /// patch coverage. Empty when branch coverage was off.
85 #[serde(default)]
86 pub missing_branches: Vec<Vec<i64>>,
87 /// `[source_line, dest_line]` pairs for branches the suite DID take (coverage.py
88 /// emits these alongside `missing_branches` under `--branch`). The diff-scoped
89 /// floor (#162) counts an arc toward changed-line branch coverage when its source
90 /// line is in the diff; with `missing_branches` it gives branch coverage over the
91 /// changed lines. Empty when branch coverage was off.
92 #[serde(default)]
93 pub executed_branches: Vec<Vec<i64>>,
94}
95
96/// The `totals` block of a coverage.py report.
97#[derive(Debug, Clone, Deserialize)]
98pub struct Totals {
99 /// Total covered percent — line coverage, plus branch when measured.
100 pub percent_covered: f64,
101 /// Branches measured; `0` when branch coverage was not enabled.
102 #[serde(default)]
103 pub num_branches: u64,
104}
105
106/// The result of checking a report against the thresholds.
107#[derive(Debug, Clone, PartialEq)]
108pub enum Outcome {
109 /// The floor is met.
110 Pass,
111 /// The floor is not met; the message explains why (actual vs. required).
112 Fail(String),
113}
114
115/// Parse a coverage.py JSON report (the output of `coverage json`).
116pub fn parse_report(json: &str) -> Result<CoverageReport> {
117 serde_json::from_str(json).context("parsing coverage.py JSON report")
118}
119
120/// Decide whether `report` meets `thresholds`.
121///
122/// Fails when total coverage is below `fail_under`, or when branch coverage was
123/// required but the report measured no branches (a misconfigured run).
124pub fn evaluate(report: &CoverageReport, thresholds: Thresholds) -> Outcome {
125 if thresholds.branch && report.totals.num_branches == 0 {
126 return Outcome::Fail(
127 "branch coverage is required but the report measured no branches".to_string(),
128 );
129 }
130 let actual = report.totals.percent_covered;
131 let required = f64::from(thresholds.fail_under);
132 // A hair of tolerance so a report that rounds to the floor (e.g. 99.999…%
133 // for a 100% target) isn't failed by float noise.
134 if actual + 1e-9 >= required {
135 Outcome::Pass
136 } else {
137 Outcome::Fail(format!(
138 "coverage {actual:.2}% is below the required {}%",
139 thresholds.fail_under
140 ))
141 }
142}
143
144/// Run the unit suite under coverage.py in `root` and check it against
145/// `thresholds`.
146///
147/// Shells out to `coverage run --branch` (omitting `*_test.py` and every path in
148/// `omit` from the denominator) then `coverage json`, and evaluates the report.
149/// `omit` holds the `coverage`-rule exemptions resolved from config, as
150/// `root`-relative paths. The `coverage` CLI — with `pytest` importable — must be
151/// on `PATH`.
152pub fn measure(root: &Path, thresholds: Thresholds, omit: &[String]) -> Result<Outcome> {
153 let report = run_coverage(root, omit, false)?;
154 Ok(evaluate(&report, thresholds))
155}
156
157/// Run the Python unit suite under coverage.py in `root` with **every** source
158/// under `root` measured (`coverage run --source=.`) and return the parsed report
159/// — so an untested source shows in the `files` block as wholly uncovered rather
160/// than vanishing. The per-file detail is what patch coverage (#132) reads; `omit`
161/// is as in [`measure`] (an exempt file stays out of the run, so its changed
162/// lines are lifted).
163pub fn measure_patch_report(root: &Path, omit: &[String]) -> Result<CoverageReport> {
164 run_coverage(root, omit, true)
165}
166
167/// Run the Python unit suite under coverage.py in `root` and return the parsed report
168/// with its per-file `files` detail — measuring only the files the suite imports (no
169/// `--source=.`), exactly as the whole-tree floor [`measure`] does. The line-scoped
170/// exemption path (#226) reads this: it recomputes the floor over the measured lines
171/// minus the exempt ones, so it must see the same file set [`measure`] does (an
172/// untested-but-unimported file is out of scope for both), not the wider `--source=.`
173/// set [`measure_patch_report`] uses for the diff. `omit` is as in [`measure`].
174pub fn measure_report(root: &Path, omit: &[String]) -> Result<CoverageReport> {
175 run_coverage(root, omit, false)
176}
177
178/// A coverage.py data file under the temp dir — unique per call (so checks
179/// running in parallel don't collide) and removed on drop (so nothing leaks
180/// into the scanned tree).
181struct DataFile(PathBuf);
182
183impl DataFile {
184 fn new() -> Self {
185 static COUNTER: AtomicU64 = AtomicU64::new(0);
186 let name = format!(
187 "testing-conventions-{}-{}.coverage",
188 std::process::id(),
189 COUNTER.fetch_add(1, Ordering::Relaxed),
190 );
191 DataFile(std::env::temp_dir().join(name))
192 }
193}
194
195impl Drop for DataFile {
196 fn drop(&mut self) {
197 let _ = std::fs::remove_file(&self.0);
198 }
199}
200
201/// Run coverage.py over the unit suite in `root` and return the parsed report.
202///
203/// `include_all_sources` adds `--source=.` so coverage measures every source
204/// under `root` — even one no test imports, which then appears in the `files`
205/// block as wholly uncovered. The floor passes `false` (measuring only imported
206/// files, so its total is unchanged); patch coverage passes `true`.
207fn run_coverage(root: &Path, omit: &[String], include_all_sources: bool) -> Result<CoverageReport> {
208 let data = DataFile::new();
209 let omit = build_omit(omit);
210
211 // Branch coverage on; measure the sources in `root` with the test files —
212 // and any `coverage`-waived files — omitted from the denominator. Byte-code
213 // and the pytest cache are suppressed so the scanned tree stays pristine.
214 let mut command = Command::new("coverage");
215 command
216 .current_dir(root)
217 .args(["run", "--branch"])
218 .arg(format!("--omit={omit}"));
219 if include_all_sources {
220 command.arg("--source=.");
221 }
222 let run = command
223 .args(["-m", "pytest", "-q", "-p", "no:cacheprovider", "."])
224 .env("COVERAGE_FILE", &data.0)
225 .env("PYTHONDONTWRITEBYTECODE", "1")
226 .output()
227 .context("running `coverage run -m pytest` (is coverage.py installed?)")?;
228 if !run.status.success() {
229 bail!(
230 "the unit suite did not run cleanly under coverage in `{}`:\n{}{}",
231 root.display(),
232 String::from_utf8_lossy(&run.stdout),
233 String::from_utf8_lossy(&run.stderr),
234 );
235 }
236
237 // Emit the report to stdout and parse it.
238 let json = Command::new("coverage")
239 .current_dir(root)
240 .args(["json", "-o", "-"])
241 .env("COVERAGE_FILE", &data.0)
242 .output()
243 .context("running `coverage json`")?;
244 if !json.status.success() {
245 bail!(
246 "`coverage json` failed:\n{}",
247 String::from_utf8_lossy(&json.stderr),
248 );
249 }
250
251 parse_report(&String::from_utf8_lossy(&json.stdout))
252}
253
254/// The single comma-joined `--omit` value for the coverage run: always the test
255/// glob `*_test.py` and the support glob `*conftest.py`, plus every
256/// `coverage`-exempt path from config. (coverage.py takes one `--omit` — repeated
257/// flags don't accumulate, so the patterns must be joined.) An exempt file leaves
258/// the denominator with its reason recorded in config — an auditable omission, not
259/// a silent ignore-glob.
260fn build_omit(omit: &[String]) -> String {
261 [TEST_OMIT.to_string(), SUPPORT_OMIT.to_string()]
262 .into_iter()
263 .chain(omit.iter().cloned())
264 .collect::<Vec<_>>()
265 .join(",")
266}
267
268// ---------------------------------------------------------------------------
269// TypeScript (vitest) — issue #31.
270//
271// The TypeScript twin of the Python rule above. vitest reports four independent
272// metrics rather than Python's single total-plus-branch, so it carries its own
273// thresholds, report shape, and evaluate/measure pair; only `Outcome` is shared.
274// The split is the same: a pure `evaluate_typescript` over a parsed json-summary
275// report, and a thin `measure_typescript` that shells out to vitest to produce
276// one — so the enforcement core is testable without a Node toolchain.
277// ---------------------------------------------------------------------------
278
279/// What vitest measures: every TypeScript source under the scanned root. The
280/// braces are a vitest (picomatch) glob, expanded by vitest, not the shell.
281const TS_INCLUDE: &str = "**/*.{ts,tsx,mts,cts}";
282/// Always excluded from the denominator: the colocated unit tests are the suite,
283/// never a subject of it (`*.test.*`), and declaration files carry no runtime
284/// code (`*.d.ts` / `*.d.mts` / `*.d.cts`).
285const TS_TEST_EXCLUDE: &str = "**/*.test.*";
286const TS_DECL_EXCLUDE: &str = "**/*.d.{ts,mts,cts}";
287
288/// The four vitest coverage floors, from a `[typescript].coverage` table. Each
289/// is an independent percent the unit suite must meet — vitest measures all four.
290#[derive(Debug, Clone, Copy, PartialEq, Eq)]
291pub struct TypeScriptThresholds {
292 pub lines: u8,
293 pub branches: u8,
294 pub functions: u8,
295 pub statements: u8,
296}
297
298/// A vitest `coverage-summary.json` report, pared to the `total` block the check
299/// needs. Per-file entries and unmodeled fields are ignored.
300#[derive(Debug, Clone, Copy, Deserialize)]
301pub struct VitestReport {
302 pub total: VitestTotals,
303}
304
305/// The `total` block of a vitest json-summary report — the four metrics this
306/// rule enforces. vitest also emits `branchesTrue`, which the check ignores.
307#[derive(Debug, Clone, Copy, Deserialize)]
308pub struct VitestTotals {
309 pub lines: VitestMetric,
310 pub branches: VitestMetric,
311 pub functions: VitestMetric,
312 pub statements: VitestMetric,
313}
314
315/// One metric's totals from a vitest json-summary block, pared to what the check
316/// needs: the covered percent and the denominator size.
317#[derive(Debug, Clone, Copy, Deserialize)]
318pub struct VitestMetric {
319 /// Percent covered — `None` when nothing was measured, which vitest writes as
320 /// the string `"Unknown"` (and `total` is then `0`).
321 #[serde(deserialize_with = "deserialize_pct")]
322 pub pct: Option<f64>,
323 /// Size of the denominator (statements/branches/functions/lines counted).
324 pub total: u64,
325}
326
327/// Deserialize a json-summary `pct`: a number for a measured metric (vitest
328/// emits whole percents as JSON integers and fractional ones as floats), or the
329/// string `"Unknown"` (→ `None`) when the denominator is empty.
330fn deserialize_pct<'de, D>(deserializer: D) -> std::result::Result<Option<f64>, D::Error>
331where
332 D: serde::Deserializer<'de>,
333{
334 struct PctVisitor;
335 impl serde::de::Visitor<'_> for PctVisitor {
336 type Value = Option<f64>;
337
338 fn expecting(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
339 f.write_str("a coverage percent number or the string \"Unknown\"")
340 }
341
342 fn visit_f64<E>(self, value: f64) -> std::result::Result<Self::Value, E> {
343 Ok(Some(value))
344 }
345
346 // serde_json hands a whole-number percent (e.g. `100`) to `visit_u64`;
347 // percents are never negative, so `visit_i64` is not needed.
348 fn visit_u64<E>(self, value: u64) -> std::result::Result<Self::Value, E> {
349 Ok(Some(value as f64))
350 }
351
352 // Any non-numeric percent (vitest writes the literal "Unknown") means the
353 // metric had nothing to measure.
354 fn visit_str<E>(self, _value: &str) -> std::result::Result<Self::Value, E> {
355 Ok(None)
356 }
357 }
358 deserializer.deserialize_any(PctVisitor)
359}
360
361/// Parse a vitest json-summary report (`coverage-summary.json`).
362pub fn parse_vitest_report(json: &str) -> Result<VitestReport> {
363 serde_json::from_str(json).context("parsing vitest coverage-summary JSON report")
364}
365
366/// Decide whether `report` meets every threshold in `thresholds`.
367///
368/// Fails when the run measured no code at all (an empty line denominator — a
369/// wrong path, or a suite that touched nothing — is never a silent pass),
370/// otherwise checks each of the four metrics and fails listing every one below
371/// its floor. A metric whose denominator is empty *amid* a non-empty run (e.g.
372/// branch-free code measured alongside real code) has nothing to miss and is
373/// vacuously satisfied.
374pub fn evaluate_typescript(report: &VitestReport, thresholds: TypeScriptThresholds) -> Outcome {
375 let total = &report.total;
376 // Vacuous-run guard: every source file has lines, so a zero line-denominator
377 // means nothing was measured — a misconfigured run (wrong path, or every file
378 // excluded), failed rather than passed on an empty measurement.
379 if total.lines.total == 0 {
380 return Outcome::Fail(
381 "the unit suite measured no code — check the path and that the suite runs".to_string(),
382 );
383 }
384 let checks = [
385 ("lines", total.lines, thresholds.lines),
386 ("branches", total.branches, thresholds.branches),
387 ("functions", total.functions, thresholds.functions),
388 ("statements", total.statements, thresholds.statements),
389 ];
390 let mut shortfalls = Vec::new();
391 for (name, metric, required) in checks {
392 // A metric with an empty denominator (e.g. branch-free code) has nothing
393 // to cover and is vacuously full; a measured one compares its percent.
394 let actual = metric.pct.unwrap_or(100.0);
395 // A hair of tolerance so a percent that rounds to the floor isn't failed
396 // by float noise (matches the Python path).
397 if actual + 1e-9 < f64::from(required) {
398 shortfalls.push(format!("{name} {actual:.2}% < {required}%"));
399 }
400 }
401 if shortfalls.is_empty() {
402 Outcome::Pass
403 } else {
404 Outcome::Fail(format!(
405 "coverage below thresholds: {}",
406 shortfalls.join(", ")
407 ))
408 }
409}
410
411/// Run the unit suite under vitest coverage in `root` and check it against
412/// `thresholds`.
413///
414/// Shells out to `npx vitest run` with v8 coverage and the json-summary reporter,
415/// excluding `*.test.*`, declaration files, and every path in `exclude` from the
416/// denominator, then evaluates the report. `exclude` holds the `coverage`-rule
417/// exemptions resolved from config, as `root`-relative paths. `npx` resolves the
418/// project-local `vitest`, so it and `@vitest/coverage-v8` must be installed
419/// under `root`.
420pub fn measure_typescript(
421 root: &Path,
422 thresholds: TypeScriptThresholds,
423 exclude: &[String],
424) -> Result<Outcome> {
425 let report = run_vitest(root, exclude)?;
426 Ok(evaluate_typescript(&report, thresholds))
427}
428
429/// A vitest reports directory under the temp dir — unique per call (so checks
430/// running in parallel don't collide) and removed on drop (so the report never
431/// leaks into the scanned tree). vitest writes `coverage-summary.json` here.
432struct ReportDir(PathBuf);
433
434impl ReportDir {
435 fn new() -> Self {
436 static COUNTER: AtomicU64 = AtomicU64::new(0);
437 let name = format!(
438 "testing-conventions-vitest-{}-{}",
439 std::process::id(),
440 COUNTER.fetch_add(1, Ordering::Relaxed),
441 );
442 ReportDir(std::env::temp_dir().join(name))
443 }
444}
445
446impl Drop for ReportDir {
447 fn drop(&mut self) {
448 let _ = std::fs::remove_dir_all(&self.0);
449 }
450}
451
452/// Run vitest over the unit suite in `root` and return the parsed floor report.
453fn run_vitest(root: &Path, exclude: &[String]) -> Result<VitestReport> {
454 let json = run_vitest_coverage(root, exclude, "json-summary", "coverage-summary.json")?;
455 parse_vitest_report(&json)
456}
457
458/// Run vitest coverage over the unit suite in `root` and return the raw contents
459/// of the `report_file` the `reporter` wrote. Shared by the floor (#31, the
460/// `json-summary` → `coverage-summary.json` pair) and patch coverage (#135, the
461/// detailed `json` → `coverage-final.json` Istanbul pair) — the two differ only in
462/// the reporter and how they parse it.
463///
464/// v8 coverage is written to an out-of-tree temp dir so the scanned tree stays
465/// pristine. `include` scopes measurement to the sources under `root`; the test
466/// glob, declaration files, and the config `exclude` paths are excluded from the
467/// denominator. `all=true` counts source files the suite never imported, so an
468/// untested file is measured (lowering the floor / showing as uncovered) rather
469/// than vanishing. `--no-cache` keeps vitest from writing a cache into the tree.
470fn run_vitest_coverage(
471 root: &Path,
472 exclude: &[String],
473 reporter: &str,
474 report_file: &str,
475) -> Result<String> {
476 let reports = ReportDir::new();
477
478 let mut command = Command::new("npx");
479 command
480 .current_dir(root)
481 .args(["--yes", "vitest", "run", "--no-cache"])
482 .args(["--coverage.enabled", "--coverage.provider=v8"])
483 .arg(format!("--coverage.reporter={reporter}"))
484 .arg("--coverage.all=true")
485 .arg(format!(
486 "--coverage.reportsDirectory={}",
487 reports.0.display()
488 ))
489 .arg(format!("--coverage.include={TS_INCLUDE}"))
490 .arg(format!("--coverage.exclude={TS_TEST_EXCLUDE}"))
491 .arg(format!("--coverage.exclude={TS_DECL_EXCLUDE}"));
492 for path in exclude {
493 command.arg(format!("--coverage.exclude={path}"));
494 }
495 // CI=1 keeps vitest non-interactive (no watch prompt, plain output).
496 let run = command.env("CI", "1").output().context(
497 "running `npx vitest run --coverage` (are vitest and @vitest/coverage-v8 installed?)",
498 )?;
499 if !run.status.success() {
500 bail!(
501 "the unit suite did not run cleanly under vitest in `{}`:\n{}{}",
502 root.display(),
503 String::from_utf8_lossy(&run.stdout),
504 String::from_utf8_lossy(&run.stderr),
505 );
506 }
507
508 let path = reports.0.join(report_file);
509 std::fs::read_to_string(&path).with_context(|| {
510 format!(
511 "reading vitest coverage report `{}` (did the run produce a {reporter} report?)",
512 path.display()
513 )
514 })
515}
516
517// ---------------------------------------------------------------------------
518// TypeScript diff-scoped coverage detail — issues #135, #162.
519//
520// What the diff-scoped floor (`crate::patch_coverage::measure_typescript`) reads:
521// per-file coverage detail for the four vitest metrics. vitest's `json-summary`
522// gives only per-file totals, so this measures with the detailed `json` (Istanbul
523// `coverage-final.json`) reporter and reduces each file to the per-statement /
524// per-branch-arm / per-function `(line, covered)` counts the floor's ratio needs.
525// ---------------------------------------------------------------------------
526
527/// One file's entry in a vitest v8 `coverage-final.json` (Istanbul) report, pared
528/// to what patch coverage reads: the statement / branch / function maps and their
529/// hit counts. Unmodeled fields (`path`, per-node metadata) are ignored.
530#[derive(Debug, Clone, Deserialize)]
531struct IstanbulFile {
532 /// Statement id → source span. A statement whose hit count in `s` is `0` was
533 /// never executed, so its lines are uncovered.
534 #[serde(rename = "statementMap", default)]
535 statement_map: BTreeMap<String, IstanbulSpan>,
536 /// Statement id → execution count.
537 #[serde(default)]
538 s: BTreeMap<String, u64>,
539 /// Branch id → branch location. A branch with a `0` among its `b` counts had a
540 /// path the suite never took, so its source line is uncovered.
541 #[serde(rename = "branchMap", default)]
542 branch_map: BTreeMap<String, IstanbulBranch>,
543 /// Branch id → per-arm execution counts (one count per branch arm).
544 #[serde(default)]
545 b: BTreeMap<String, Vec<u64>>,
546 /// Function id → declaration location. A function whose hit count in `f` is `0`
547 /// was never called. The diff-scoped floor (#162) reads this via
548 /// [`istanbul_patch_detail`].
549 #[serde(rename = "fnMap", default)]
550 fn_map: BTreeMap<String, IstanbulFn>,
551 /// Function id → execution count.
552 #[serde(default)]
553 f: BTreeMap<String, u64>,
554}
555
556/// A source span — only the 1-based line numbers matter to patch coverage.
557#[derive(Debug, Clone, Deserialize)]
558struct IstanbulSpan {
559 start: IstanbulPos,
560 end: IstanbulPos,
561}
562
563/// A position in a source span; the `column` is ignored.
564#[derive(Debug, Clone, Deserialize)]
565struct IstanbulPos {
566 line: u64,
567}
568
569/// A branch entry — only its location (whose start line is the branch's source
570/// line) matters; the `type` and per-path `locations` are ignored.
571#[derive(Debug, Clone, Deserialize)]
572struct IstanbulBranch {
573 loc: IstanbulSpan,
574}
575
576/// A function entry — only its declaration's start line (the function's source
577/// line) matters; the `name`, `loc`, and top-level `line` are ignored. vitest's
578/// v8 export shapes this as `{"name":.., "decl":{"start":{"line":N,..},..}, ..}`.
579#[derive(Debug, Clone, Deserialize)]
580struct IstanbulFn {
581 decl: IstanbulSpan,
582}
583
584/// Per-file coverage detail from a vitest v8 `coverage-final.json` (Istanbul)
585/// report — the counts the diff-scoped floor (#162) needs. Each entry carries the
586/// Istanbul maps reduced to `(line, …, covered)` tuples, so the pure
587/// [`crate::patch_coverage::evaluate_patch_typescript`] can restrict each of the
588/// four metrics to the changed lines.
589#[derive(Debug, Clone, Default)]
590pub struct TsPatchCoverage {
591 /// One per `statementMap` entry: `(start_line, end_line, covered)` — `covered`
592 /// is `s[id] > 0`. A statement counts toward the diff when any line it spans is
593 /// a changed line.
594 pub statements: Vec<(u64, u64, bool)>,
595 /// One per branch **arm**: `(source_line, covered)` — `source_line` is the
596 /// branch's `loc.start.line` (shared by every arm) and `covered` is that arm's
597 /// count `> 0`. An arm counts toward the diff when its source line is changed.
598 pub branch_arms: Vec<(u64, bool)>,
599 /// One per `fnMap` entry: `(decl_line, covered)` — `decl_line` is `decl.start.line`
600 /// and `covered` is `f[id] > 0`. A function counts toward the diff when its
601 /// declaration line is changed.
602 pub functions: Vec<(u64, bool)>,
603}
604
605/// Run the TypeScript unit suite under vitest in `root` and return the per-file
606/// coverage detail for the four metrics — keyed by the absolute path vitest
607/// reports, the caller re-keying to `root`-relative to match the diff. Reads the
608/// Istanbul report for the diff-scoped floor (#162): the per-statement /
609/// per-branch-arm / per-function `(line, covered)` detail the floor's ratio needs.
610/// `exclude` is the `coverage`-rule exemptions,
611/// dropped from the run so an exempt file's changed lines are lifted. `npx`
612/// resolves the project-local `vitest`, so it and `@vitest/coverage-v8` must be
613/// installed under `root`.
614pub fn measure_patch_typescript_detail(
615 root: &Path,
616 exclude: &[String],
617) -> Result<BTreeMap<String, TsPatchCoverage>> {
618 let json = run_vitest_coverage(root, exclude, "json", "coverage-final.json")?;
619 istanbul_patch_detail(&json)
620}
621
622/// Pure: per-file [`TsPatchCoverage`] from a vitest v8 `coverage-final.json`
623/// (Istanbul) report. Keyed by the path vitest reports (absolute). A file present
624/// but with no statements/branches/functions maps to an empty `TsPatchCoverage`.
625fn istanbul_patch_detail(json: &str) -> Result<BTreeMap<String, TsPatchCoverage>> {
626 let files: BTreeMap<String, IstanbulFile> = serde_json::from_str(json)
627 .context("parsing vitest coverage-final (Istanbul) JSON report")?;
628 let mut out = BTreeMap::new();
629 for (path, file) in files {
630 let mut detail = TsPatchCoverage::default();
631 // Each statement → (start, end, covered): covered when its count is > 0.
632 for (id, span) in &file.statement_map {
633 let covered = file.s.get(id).is_some_and(|&count| count > 0);
634 detail
635 .statements
636 .push((span.start.line, span.end.line, covered));
637 }
638 // Each branch arm → (source_line, covered): the branch's location start line
639 // (shared by every arm) with that arm's count > 0. v8 may model a branch as
640 // a single arm (a `[count]` array) or several (`[arm0, arm1, …]`); one tuple
641 // per arm either way.
642 for (id, branch) in &file.branch_map {
643 let line = branch.loc.start.line;
644 if let Some(counts) = file.b.get(id) {
645 for &count in counts {
646 detail.branch_arms.push((line, count > 0));
647 }
648 }
649 }
650 // Each function → (decl_line, covered): the declaration's start line with
651 // its call count > 0.
652 for (id, function) in &file.fn_map {
653 let covered = file.f.get(id).is_some_and(|&count| count > 0);
654 detail.functions.push((function.decl.start.line, covered));
655 }
656 out.insert(path, detail);
657 }
658 Ok(out)
659}
660
661// ---------------------------------------------------------------------------
662// Rust (cargo llvm-cov) — issue #37.
663//
664// The Rust twin of the rules above. `cargo llvm-cov` reports LLVM source-based
665// coverage as regions + lines (branch coverage is still experimental), so the
666// Rust rule carries its own thresholds and `measure_rust` entry point; only the
667// `Outcome` type is shared. Mirroring the Python/TypeScript split, a pure
668// `evaluate_rust` over a parsed llvm-cov export and the thin subprocess layer
669// that produces one land with the implementation (#37).
670// ---------------------------------------------------------------------------
671
672/// The `cargo llvm-cov` coverage floors, from a `[rust].coverage` table (or the
673/// zero-config default). Branch coverage is still experimental, so only regions
674/// and lines are enforced, and `regions` is opt-in — `None` skips the region check
675/// (the zero-config default floors lines only, #206).
676#[derive(Debug, Clone, Copy, PartialEq, Eq)]
677pub struct RustThresholds {
678 pub regions: Option<u8>,
679 pub lines: u8,
680}
681
682/// A `cargo llvm-cov --json` export (LLVM's `llvm.coverage.json.export`), pared to
683/// the totals the check needs. A single run produces one `data` entry; unmodeled
684/// fields (per-file/per-function detail, `type`, `version`) are ignored.
685#[derive(Debug, Clone, Deserialize)]
686pub struct LlvmCovReport {
687 pub data: Vec<LlvmCovData>,
688}
689
690/// One export entry — only its `totals` are needed (`--summary-only` omits the
691/// per-file and per-function detail).
692#[derive(Debug, Clone, Copy, Deserialize)]
693pub struct LlvmCovData {
694 pub totals: LlvmCovTotals,
695}
696
697/// The `totals` block of an llvm-cov export — the two metrics this rule enforces.
698/// llvm-cov also reports `functions`, `instantiations`, and (experimental)
699/// `branches`, which the check ignores.
700#[derive(Debug, Clone, Copy, Deserialize)]
701pub struct LlvmCovTotals {
702 pub regions: LlvmCovMetric,
703 pub lines: LlvmCovMetric,
704}
705
706/// One metric's totals from an llvm-cov export, pared to what the check needs: the
707/// denominator size and the covered percent.
708#[derive(Debug, Clone, Copy, Deserialize)]
709pub struct LlvmCovMetric {
710 /// Size of the denominator (regions or lines counted).
711 pub count: u64,
712 /// How many were covered.
713 pub covered: u64,
714 /// Covered percent — llvm-cov computes `100 * covered / count`.
715 pub percent: f64,
716}
717
718/// Parse a `cargo llvm-cov --json` export.
719pub fn parse_llvm_cov_report(json: &str) -> Result<LlvmCovReport> {
720 serde_json::from_str(json).context("parsing cargo llvm-cov JSON report")
721}
722
723/// Decide whether `report` meets both thresholds.
724///
725/// Fails when the run measured no regions at all (an empty denominator — a wrong
726/// path, or a crate that compiled nothing — is never a silent pass), otherwise
727/// checks regions and lines and fails listing each below its floor.
728pub fn evaluate_rust(report: &LlvmCovReport, thresholds: RustThresholds) -> Outcome {
729 let Some(totals) = report.data.first().map(|entry| &entry.totals) else {
730 return Outcome::Fail("the cargo llvm-cov report contained no data".to_string());
731 };
732 // Vacuous-run guard: every compiled crate has regions, so a zero region
733 // denominator means nothing was measured — failed rather than passed on an
734 // empty measurement (mirrors the TypeScript path).
735 if totals.regions.count == 0 {
736 return Outcome::Fail(
737 "the unit suite measured no code — check the path and that the suite runs".to_string(),
738 );
739 }
740 // `regions` is opt-in (#206): the zero-config default floors lines only, so the
741 // region check is skipped unless a config set a `regions` floor.
742 let mut checks: Vec<(&str, f64, u8)> = Vec::new();
743 if let Some(regions) = thresholds.regions {
744 checks.push(("regions", totals.regions.percent, regions));
745 }
746 checks.push(("lines", totals.lines.percent, thresholds.lines));
747 let mut shortfalls = Vec::new();
748 for (name, actual, required) in checks {
749 // A hair of tolerance so a percent that rounds to the floor isn't failed by
750 // float noise (matches the Python / TypeScript paths).
751 if actual + 1e-9 < f64::from(required) {
752 shortfalls.push(format!("{name} {actual:.2}% < {required}%"));
753 }
754 }
755 if shortfalls.is_empty() {
756 Outcome::Pass
757 } else {
758 Outcome::Fail(format!(
759 "coverage below thresholds: {}",
760 shortfalls.join(", ")
761 ))
762 }
763}
764
765/// Run the unit suite under `cargo llvm-cov` in `root` and check it against
766/// `thresholds`.
767///
768/// Shells out to `cargo llvm-cov --json --summary-only`, omitting every path in
769/// `ignore` from the denominator (a single `--ignore-filename-regex`), then
770/// evaluates the export. `ignore` holds the `coverage`-rule exemptions resolved
771/// from config, as `root`-relative paths. `cargo-llvm-cov` must be installed.
772pub fn measure_rust(root: &Path, thresholds: RustThresholds, ignore: &[String]) -> Result<Outcome> {
773 let report = run_llvm_cov(root, ignore)?;
774 Ok(evaluate_rust(&report, thresholds))
775}
776
777/// A `cargo llvm-cov` target directory under the temp dir — unique per call (so
778/// checks running in parallel don't collide) and removed on drop (so the build
779/// never leaks into the scanned tree). Passed to the run as `CARGO_TARGET_DIR`.
780struct TargetDir(PathBuf);
781
782impl TargetDir {
783 fn new() -> Self {
784 static COUNTER: AtomicU64 = AtomicU64::new(0);
785 let name = format!(
786 "testing-conventions-llvm-cov-{}-{}",
787 std::process::id(),
788 COUNTER.fetch_add(1, Ordering::Relaxed),
789 );
790 TargetDir(std::env::temp_dir().join(name))
791 }
792}
793
794impl Drop for TargetDir {
795 fn drop(&mut self) {
796 let _ = std::fs::remove_dir_all(&self.0);
797 }
798}
799
800/// Run cargo llvm-cov over the unit suite in `root` and return the parsed
801/// `--summary-only` export — the totals the floor checks.
802fn run_llvm_cov(root: &Path, ignore: &[String]) -> Result<LlvmCovReport> {
803 parse_llvm_cov_report(&run_cargo_llvm_cov(
804 root,
805 ignore,
806 &["--json", "--summary-only"],
807 )?)
808}
809
810/// Run `cargo llvm-cov` over the unit suite in `root` with the given coverage
811/// `format` args (`["--json", "--summary-only"]` for the whole-tree floor's totals,
812/// `["--json"]` for the diff-scoped floor's per-region detail) and return its
813/// stdout. Shared by the whole-tree floor (#37) and the diff-scoped floor (#162).
814///
815/// The build goes to an out-of-tree target dir (via `CARGO_TARGET_DIR`) so the
816/// scanned crate stays pristine; the `coverage`-rule exemptions become one
817/// `--ignore-filename-regex`; and the outer run's instrumentation env is stripped
818/// for nested-run hygiene (the loop below explains why).
819fn run_cargo_llvm_cov(root: &Path, ignore: &[String], format: &[&str]) -> Result<String> {
820 let target = TargetDir::new();
821
822 let mut command = Command::new("cargo");
823 command
824 .current_dir(root)
825 .arg("llvm-cov")
826 .args(format)
827 .env("CARGO_TARGET_DIR", &target.0);
828 if let Some(regex) = ignore_filename_regex(ignore) {
829 command.arg("--ignore-filename-regex").arg(regex);
830 }
831 // Nested-run hygiene: when this check itself runs under `cargo llvm-cov` (the
832 // package's own coverage job), the outer run exports its instrumentation state
833 // into our environment — the coverage flags and profile path, and (because
834 // cargo-llvm-cov drives instrumentation through a rustc wrapper) a
835 // `RUSTC_WRAPPER` pointing back at `cargo-llvm-cov`. Inherited, that wrapper
836 // makes the inner run re-enter cargo-llvm-cov on every rustc invocation and
837 // never finish — it hangs compiling the scanned crate until the runner is
838 // OOM-killed. Strip the lot so the inner run instruments from a clean slate.
839 for var in [
840 "RUSTFLAGS",
841 "CARGO_ENCODED_RUSTFLAGS",
842 "RUSTDOCFLAGS",
843 "CARGO_ENCODED_RUSTDOCFLAGS",
844 "LLVM_PROFILE_FILE",
845 "CARGO_LLVM_COV",
846 "CARGO_LLVM_COV_SHOW_ENV",
847 "CARGO_LLVM_COV_TARGET_DIR",
848 "CARGO_LLVM_COV_BUILD_DIR",
849 "RUSTC_WRAPPER",
850 "RUSTC_WORKSPACE_WRAPPER",
851 "__CARGO_LLVM_COV_RUSTC_WRAPPER",
852 "__CARGO_LLVM_COV_RUSTC_WRAPPER_RUSTFLAGS",
853 "__CARGO_LLVM_COV_RUSTC_WRAPPER_CRATE_NAMES",
854 ] {
855 command.env_remove(var);
856 }
857 let output = command
858 .output()
859 .context("running `cargo llvm-cov` (is cargo-llvm-cov installed?)")?;
860 if !output.status.success() {
861 bail!(
862 "the unit suite did not run cleanly under cargo llvm-cov in `{}`:\n{}{}",
863 root.display(),
864 String::from_utf8_lossy(&output.stdout),
865 String::from_utf8_lossy(&output.stderr),
866 );
867 }
868 Ok(String::from_utf8_lossy(&output.stdout).into_owned())
869}
870
871/// Per-file region detail from a `cargo llvm-cov --json` export — the per-region
872/// counts the diff-scoped floor (#162) needs. Each entry carries one
873/// `(start_line, end_line, covered)` tuple per code region, so the pure
874/// [`crate::patch_coverage::evaluate_patch_rust`] can restrict both the regions and
875/// lines metrics to the changed lines.
876#[derive(Debug, Clone, Default)]
877pub struct RustPatchCoverage {
878 /// One per code region (a `kind == 0` region of the LLVM export):
879 /// `(start_line, end_line, covered)` — `covered` is the region's
880 /// `executionCount > 0`. A region counts toward the diff when any line it spans
881 /// is a changed line.
882 pub regions: Vec<(u64, u64, bool)>,
883}
884
885/// A full `cargo llvm-cov --json` export (LLVM's `llvm.coverage.json.export`),
886/// modeling the per-function region detail the diff-scoped floor needs — separate
887/// from [`LlvmCovReport`], which keeps only the `totals` the whole-tree floor
888/// reads. A single run produces one `data` entry; unmodeled fields (`totals`,
889/// `type`, `version`) are ignored.
890#[derive(Debug, Clone, Deserialize)]
891struct LlvmCovExport {
892 data: Vec<LlvmCovExportData>,
893}
894
895/// One export entry — its per-function `functions` block carries the regions (the
896/// `--summary-only` runs that feed [`LlvmCovReport`] omit it), and its `files` block
897/// names the measured files. `--ignore-filename-regex` drops an exempt file from
898/// `files` but *not* from `functions` (the regions array is unfiltered), so the
899/// `files` list is the allowlist [`llvm_cov_patch_detail`] restricts the regions to.
900#[derive(Debug, Clone, Deserialize)]
901struct LlvmCovExportData {
902 files: Vec<LlvmCovExportFile>,
903 functions: Vec<LlvmCovFunction>,
904}
905
906/// One measured file in the export's `files` block — only its `filename` (the
907/// absolute path) is needed, to build the not-ignored allowlist. The per-file
908/// `segments` / `summary` detail is ignored (the regions come from `functions`).
909#[derive(Debug, Clone, Deserialize)]
910struct LlvmCovExportFile {
911 filename: String,
912}
913
914/// One function's coverage in the export: the source files it spans (`filenames`,
915/// indexed by a region's `fileID`) and its regions. Each region is a flat array
916/// `[lineStart, colStart, lineEnd, colEnd, executionCount, fileID, expandedFileID,
917/// kind]`; the fields are read positionally in [`llvm_cov_patch_detail`].
918#[derive(Debug, Clone, Deserialize)]
919struct LlvmCovFunction {
920 filenames: Vec<String>,
921 regions: Vec<Vec<i64>>,
922}
923
924/// Run the Rust unit suite under `cargo llvm-cov` in `root` and return the per-file
925/// region detail — keyed by the absolute path llvm-cov reports, the caller re-keying
926/// to `root`-relative to match the diff. Reads the full `--json` export for the
927/// diff-scoped floor (#162): the per-region `(line, covered)` detail the floor's
928/// regions metric needs. `ignore` is the `coverage`-rule exemptions, dropped
929/// from the run so an exempt file's changed lines are lifted. `cargo-llvm-cov` must
930/// be installed.
931pub fn measure_patch_rust_detail(
932 root: &Path,
933 ignore: &[String],
934) -> Result<BTreeMap<String, RustPatchCoverage>> {
935 llvm_cov_patch_detail(&run_cargo_llvm_cov(root, ignore, &["--json"])?)
936}
937
938/// Pure: per-file [`RustPatchCoverage`] from a `cargo llvm-cov --json` export.
939/// Keyed by the path llvm-cov reports (absolute). Walks every function's regions;
940/// for each region:
941/// - **skips** any region whose file is not in the export's `files` allowlist —
942/// `--ignore-filename-regex` drops an exempt file from `files` (and the totals)
943/// but leaves it in the unfiltered `functions` regions, so honoring the
944/// exemption means intersecting with `files`. A run with nothing exempt lists
945/// every measured file, so this is a no-op there.
946/// - **skips** any region whose `kind` (index 7) is not `0` — only `kind == 0`
947/// code regions count toward coverage (gap / expansion / skipped / branch
948/// regions carry no line-coverage signal). The kept count (with nothing
949/// ignored) matches the `totals.regions.count` a `--summary-only` run reports.
950/// - reads `start_line = region[0]`, `end_line = region[2]`,
951/// `covered = region[4] > 0`, and the file `filenames[region[5]]` (the
952/// `fileID`), pushing `(start_line, end_line, covered)` under that file.
953///
954/// A region array with fewer than 8 elements (malformed — never seen from
955/// llvm-cov) is skipped rather than panicking on an index, as is one whose `fileID`
956/// is out of range for its `filenames`.
957fn llvm_cov_patch_detail(json: &str) -> Result<BTreeMap<String, RustPatchCoverage>> {
958 let export: LlvmCovExport =
959 serde_json::from_str(json).context("parsing cargo llvm-cov JSON export")?;
960 let mut out: BTreeMap<String, RustPatchCoverage> = BTreeMap::new();
961 for data in &export.data {
962 // The `files` block honors `--ignore-filename-regex`; the `functions` regions
963 // do not, so restrict to the measured (not-ignored) files.
964 let measured: BTreeSet<&str> = data.files.iter().map(|f| f.filename.as_str()).collect();
965 for function in &data.functions {
966 for region in &function.regions {
967 // A code region carries eight fields; anything shorter is malformed
968 // (never emitted by llvm-cov) and skipped rather than indexed.
969 if region.len() < 8 {
970 continue;
971 }
972 // Only `kind == 0` (a code region) contributes to line coverage;
973 // gap (1) / expansion (2) / skipped / branch regions are ignored.
974 if region[7] != 0 {
975 continue;
976 }
977 let file_id = region[5];
978 let Ok(file_id) = usize::try_from(file_id) else {
979 continue;
980 };
981 let Some(file) = function.filenames.get(file_id) else {
982 continue;
983 };
984 // Skip a file the run ignored (absent from `files`) so a `coverage`
985 // exemption drops its regions, lifting its changed lines.
986 if !measured.contains(file.as_str()) {
987 continue;
988 }
989 let start = region[0].max(0) as u64;
990 let end = region[2].max(0) as u64;
991 let covered = region[4] > 0;
992 out.entry(file.clone())
993 .or_default()
994 .regions
995 .push((start, end, covered));
996 }
997 }
998 }
999 Ok(out)
1000}
1001
1002/// The single `--ignore-filename-regex` value for the run, or `None` when nothing
1003/// is exempt. `cargo llvm-cov` takes one regex, so the `coverage`-exempt paths are
1004/// each regex-escaped (matched literally, not as a pattern) and joined with `|`. An
1005/// exempt file leaves the denominator with its reason recorded in config — an
1006/// auditable omission, not a silent ignore-glob.
1007fn ignore_filename_regex(ignore: &[String]) -> Option<String> {
1008 if ignore.is_empty() {
1009 return None;
1010 }
1011 Some(
1012 ignore
1013 .iter()
1014 .map(|path| regex_escape(path))
1015 .collect::<Vec<_>>()
1016 .join("|"),
1017 )
1018}
1019
1020/// Escape the regex metacharacters in `s` so it matches literally — an exempt path
1021/// carries `.` (and may carry other metacharacters) that must not read as regex.
1022fn regex_escape(s: &str) -> String {
1023 const META: &str = r"\.+*?()|[]{}^$";
1024 let mut out = String::with_capacity(s.len());
1025 for c in s.chars() {
1026 if META.contains(c) {
1027 out.push('\\');
1028 }
1029 out.push(c);
1030 }
1031 out
1032}
1033
1034#[cfg(test)]
1035mod tests {
1036 use super::*;
1037
1038 fn report(percent_covered: f64, num_branches: u64) -> CoverageReport {
1039 CoverageReport {
1040 totals: Totals {
1041 percent_covered,
1042 num_branches,
1043 },
1044 files: BTreeMap::new(),
1045 }
1046 }
1047
1048 #[test]
1049 fn passes_when_total_meets_the_floor() {
1050 assert_eq!(
1051 evaluate(
1052 &report(100.0, 12),
1053 Thresholds {
1054 fail_under: 100,
1055 branch: true
1056 }
1057 ),
1058 Outcome::Pass
1059 );
1060 }
1061
1062 #[test]
1063 fn fails_when_total_is_below_the_floor() {
1064 assert!(matches!(
1065 evaluate(
1066 &report(80.0, 12),
1067 Thresholds {
1068 fail_under: 100,
1069 branch: true
1070 }
1071 ),
1072 Outcome::Fail(_)
1073 ));
1074 }
1075
1076 #[test]
1077 fn fails_when_branch_required_but_unmeasured() {
1078 // branch=true but the report measured no branches → a misconfigured run.
1079 assert!(matches!(
1080 evaluate(
1081 &report(100.0, 0),
1082 Thresholds {
1083 fail_under: 90,
1084 branch: true
1085 }
1086 ),
1087 Outcome::Fail(_)
1088 ));
1089 }
1090
1091 #[test]
1092 fn parses_a_coverage_py_report() {
1093 let json = r#"{"totals":{"percent_covered":91.5,"num_branches":8,"covered_lines":91}}"#;
1094 let report = parse_report(json).expect("valid coverage.py json");
1095 assert_eq!(report.totals.percent_covered, 91.5);
1096 assert_eq!(report.totals.num_branches, 8);
1097 }
1098
1099 #[test]
1100 fn parses_the_per_file_block_for_patch_coverage() {
1101 // A realistic `coverage json` shape: a `files` map carrying the per-file
1102 // missing lines and `[src, dst]` branch pairs patch coverage (#132) reads.
1103 let json = r#"{
1104 "files": {
1105 "widget.py": {
1106 "executed_lines": [1, 2, 3, 4, 6],
1107 "summary": {"percent_covered": 85.0},
1108 "missing_lines": [5],
1109 "excluded_lines": [],
1110 "missing_branches": [[4, 5]]
1111 }
1112 },
1113 "totals": {"percent_covered": 85.0, "num_branches": 4}
1114 }"#;
1115 let report = parse_report(json).expect("valid coverage.py json with files");
1116 let widget = report.files.get("widget.py").expect("widget.py is present");
1117 assert_eq!(widget.missing_lines, vec![5]);
1118 assert_eq!(widget.missing_branches, vec![vec![4, 5]]);
1119 // The floor still reads totals from the same report.
1120 assert_eq!(report.totals.percent_covered, 85.0);
1121 }
1122
1123 #[test]
1124 fn a_report_without_a_files_block_parses_with_an_empty_map() {
1125 // The floor path parses totals only; `files` defaults to empty.
1126 let report = parse_report(r#"{"totals":{"percent_covered":100.0,"num_branches":2}}"#)
1127 .expect("valid coverage.py json");
1128 assert!(report.files.is_empty());
1129 }
1130
1131 #[test]
1132 fn omit_is_the_test_and_support_globs_when_nothing_is_exempt() {
1133 assert_eq!(build_omit(&[]), "*_test.py,*conftest.py");
1134 }
1135
1136 #[test]
1137 fn omit_folds_in_the_exempt_paths_after_the_test_glob() {
1138 // The caller passes already-resolved, sorted, `root`-relative paths.
1139 let exempt = vec!["pkg/gen.py".to_string(), "shim.py".to_string()];
1140 assert_eq!(
1141 build_omit(&exempt),
1142 "*_test.py,*conftest.py,pkg/gen.py,shim.py"
1143 );
1144 }
1145
1146 // --- TypeScript (vitest) — issue #31 ---
1147
1148 fn metric(pct: f64) -> VitestMetric {
1149 VitestMetric {
1150 pct: Some(pct),
1151 total: 10,
1152 }
1153 }
1154
1155 fn ts_report(lines: f64, branches: f64, functions: f64, statements: f64) -> VitestReport {
1156 VitestReport {
1157 total: VitestTotals {
1158 lines: metric(lines),
1159 branches: metric(branches),
1160 functions: metric(functions),
1161 statements: metric(statements),
1162 },
1163 }
1164 }
1165
1166 const TS_FULL: TypeScriptThresholds = TypeScriptThresholds {
1167 lines: 100,
1168 branches: 100,
1169 functions: 100,
1170 statements: 100,
1171 };
1172 const TS_MID: TypeScriptThresholds = TypeScriptThresholds {
1173 lines: 80,
1174 branches: 75,
1175 functions: 80,
1176 statements: 80,
1177 };
1178
1179 #[test]
1180 fn typescript_passes_when_every_metric_meets_its_floor() {
1181 assert_eq!(
1182 evaluate_typescript(&ts_report(100.0, 100.0, 100.0, 100.0), TS_FULL),
1183 Outcome::Pass
1184 );
1185 }
1186
1187 #[test]
1188 fn typescript_fails_on_the_one_metric_below_its_floor() {
1189 // 100% lines but only 66.66% branches (the `below` fixture's shape): the
1190 // branch floor catches what line coverage misses — and only `branches` is
1191 // named as a shortfall, not the metrics that met their floor.
1192 let outcome = evaluate_typescript(&ts_report(100.0, 66.66, 100.0, 100.0), TS_MID);
1193 assert!(
1194 matches!(&outcome, Outcome::Fail(message) if message.contains("branches") && !message.contains("lines")),
1195 "got: {outcome:?}"
1196 );
1197 }
1198
1199 #[test]
1200 fn typescript_fail_message_names_every_metric_below() {
1201 let outcome = evaluate_typescript(&ts_report(70.0, 70.0, 70.0, 70.0), TS_MID);
1202 assert!(
1203 matches!(&outcome, Outcome::Fail(message)
1204 if message.contains("lines")
1205 && message.contains("branches")
1206 && message.contains("functions")
1207 && message.contains("statements")),
1208 "got: {outcome:?}"
1209 );
1210 }
1211
1212 #[test]
1213 fn typescript_tolerates_float_noise_at_the_floor() {
1214 // A percent a hair under the floor from rounding still passes.
1215 assert_eq!(
1216 evaluate_typescript(&ts_report(99.999_999_999, 100.0, 100.0, 100.0), TS_FULL),
1217 Outcome::Pass
1218 );
1219 }
1220
1221 #[test]
1222 fn typescript_empty_denominator_metric_is_vacuously_satisfied() {
1223 // Branch-free code measured alongside real code: branches has nothing to
1224 // cover (pct "Unknown") but lines/etc. are real and pass → overall pass.
1225 let report = VitestReport {
1226 total: VitestTotals {
1227 lines: metric(100.0),
1228 branches: VitestMetric {
1229 pct: None,
1230 total: 0,
1231 },
1232 functions: metric(100.0),
1233 statements: metric(100.0),
1234 },
1235 };
1236 assert_eq!(evaluate_typescript(&report, TS_FULL), Outcome::Pass);
1237 }
1238
1239 #[test]
1240 fn typescript_fails_a_vacuous_run_that_measured_no_code() {
1241 // No lines in the denominator (everything excluded, or a wrong path): a
1242 // vacuous run is a failure, never a silent pass.
1243 let nothing = VitestMetric {
1244 pct: None,
1245 total: 0,
1246 };
1247 let report = VitestReport {
1248 total: VitestTotals {
1249 lines: nothing,
1250 branches: nothing,
1251 functions: nothing,
1252 statements: nothing,
1253 },
1254 };
1255 let outcome = evaluate_typescript(&report, TS_MID);
1256 assert!(
1257 matches!(&outcome, Outcome::Fail(message) if message.contains("measured no code")),
1258 "got: {outcome:?}"
1259 );
1260 }
1261
1262 #[test]
1263 fn parses_a_vitest_summary_report() {
1264 // A realistic `coverage-summary.json`: the four metrics plus the
1265 // `branchesTrue` block and a per-file entry the check ignores.
1266 let json = r#"{
1267 "total": {
1268 "lines": {"total": 5, "covered": 4, "skipped": 0, "pct": 80},
1269 "statements": {"total": 5, "covered": 4, "skipped": 0, "pct": 80},
1270 "functions": {"total": 2, "covered": 2, "skipped": 0, "pct": 100},
1271 "branches": {"total": 3, "covered": 2, "skipped": 0, "pct": 66.66},
1272 "branchesTrue": {"total": 0, "covered": 0, "skipped": 0, "pct": "Unknown"}
1273 },
1274 "/abs/widget.ts": {
1275 "lines": {"total": 5, "covered": 4, "skipped": 0, "pct": 80}
1276 }
1277 }"#;
1278 let report = parse_vitest_report(json).expect("valid vitest json-summary");
1279 // A whole-number percent (`visit_u64`) and a fractional one (`visit_f64`).
1280 assert_eq!(report.total.lines.pct, Some(80.0));
1281 assert_eq!(report.total.branches.pct, Some(66.66));
1282 assert_eq!(report.total.functions.total, 2);
1283 }
1284
1285 #[test]
1286 fn parses_an_unknown_pct_as_unmeasured() {
1287 let json = r#"{"total": {
1288 "lines": {"total": 0, "covered": 0, "skipped": 0, "pct": "Unknown"},
1289 "statements": {"total": 0, "covered": 0, "skipped": 0, "pct": "Unknown"},
1290 "functions": {"total": 0, "covered": 0, "skipped": 0, "pct": "Unknown"},
1291 "branches": {"total": 0, "covered": 0, "skipped": 0, "pct": "Unknown"}
1292 }}"#;
1293 let report = parse_vitest_report(json).expect("valid vitest json-summary");
1294 assert_eq!(report.total.lines.pct, None);
1295 assert_eq!(report.total.lines.total, 0);
1296 }
1297
1298 #[test]
1299 fn a_pct_that_is_neither_number_nor_string_is_a_parse_error() {
1300 // vitest only ever writes a number or "Unknown"; anything else (here a
1301 // bool) is a malformed report, surfaced as an error rather than guessed.
1302 let json = r#"{"total":{
1303 "lines": {"total": 1, "covered": 1, "skipped": 0, "pct": true},
1304 "statements": {"total": 1, "covered": 1, "skipped": 0, "pct": 100},
1305 "functions": {"total": 1, "covered": 1, "skipped": 0, "pct": 100},
1306 "branches": {"total": 1, "covered": 1, "skipped": 0, "pct": 100}
1307 }}"#;
1308 assert!(parse_vitest_report(json).is_err());
1309 }
1310
1311 // --- Rust (cargo llvm-cov) — issue #37 ---
1312
1313 fn rust_metric(percent: f64) -> LlvmCovMetric {
1314 LlvmCovMetric {
1315 count: 10,
1316 covered: 10,
1317 percent,
1318 }
1319 }
1320
1321 fn rust_report(regions: f64, lines: f64) -> LlvmCovReport {
1322 LlvmCovReport {
1323 data: vec![LlvmCovData {
1324 totals: LlvmCovTotals {
1325 regions: rust_metric(regions),
1326 lines: rust_metric(lines),
1327 },
1328 }],
1329 }
1330 }
1331
1332 const RUST_FULL: RustThresholds = RustThresholds {
1333 regions: Some(100),
1334 lines: 100,
1335 };
1336 const RUST_MID: RustThresholds = RustThresholds {
1337 regions: Some(80),
1338 lines: 85,
1339 };
1340
1341 #[test]
1342 fn rust_passes_when_both_metrics_meet_their_floor() {
1343 assert_eq!(
1344 evaluate_rust(&rust_report(100.0, 100.0), RUST_FULL),
1345 Outcome::Pass
1346 );
1347 }
1348
1349 #[test]
1350 fn rust_fails_on_the_one_metric_below_its_floor() {
1351 // 100% lines but only 70% regions: the regions floor catches what line
1352 // coverage misses — and only `regions` is named, not the metric that met
1353 // its floor.
1354 let outcome = evaluate_rust(&rust_report(70.0, 100.0), RUST_MID);
1355 assert!(
1356 matches!(&outcome, Outcome::Fail(message) if message.contains("regions") && !message.contains("lines")),
1357 "got: {outcome:?}"
1358 );
1359 }
1360
1361 #[test]
1362 fn rust_fail_message_names_every_metric_below() {
1363 let outcome = evaluate_rust(&rust_report(50.0, 50.0), RUST_MID);
1364 assert!(
1365 matches!(&outcome, Outcome::Fail(message)
1366 if message.contains("regions") && message.contains("lines")),
1367 "got: {outcome:?}"
1368 );
1369 }
1370
1371 #[test]
1372 fn rust_skips_the_region_check_when_regions_is_opt_out() {
1373 // The zero-config default (#206) sets `regions: None`, so only lines are
1374 // enforced: a crate at 100% lines clears the floor even with low regions.
1375 let thresholds = RustThresholds {
1376 regions: None,
1377 lines: 100,
1378 };
1379 assert_eq!(
1380 evaluate_rust(&rust_report(40.0, 100.0), thresholds),
1381 Outcome::Pass
1382 );
1383 }
1384
1385 #[test]
1386 fn rust_still_fails_lines_with_regions_opt_out() {
1387 // `regions: None` skips only the region check — the line floor still bites.
1388 let thresholds = RustThresholds {
1389 regions: None,
1390 lines: 100,
1391 };
1392 let outcome = evaluate_rust(&rust_report(100.0, 80.0), thresholds);
1393 assert!(
1394 matches!(&outcome, Outcome::Fail(message)
1395 if message.contains("lines") && !message.contains("regions")),
1396 "got: {outcome:?}"
1397 );
1398 }
1399
1400 #[test]
1401 fn rust_tolerates_float_noise_at_the_floor() {
1402 // A percent a hair under the floor from rounding still passes.
1403 assert_eq!(
1404 evaluate_rust(&rust_report(99.999_999_999, 100.0), RUST_FULL),
1405 Outcome::Pass
1406 );
1407 }
1408
1409 #[test]
1410 fn rust_fails_a_vacuous_run_that_measured_no_code() {
1411 // No regions in the denominator (a wrong path, or a crate that compiled
1412 // nothing): a vacuous run is a failure, never a silent pass.
1413 let nothing = LlvmCovMetric {
1414 count: 0,
1415 covered: 0,
1416 percent: 0.0,
1417 };
1418 let report = LlvmCovReport {
1419 data: vec![LlvmCovData {
1420 totals: LlvmCovTotals {
1421 regions: nothing,
1422 lines: nothing,
1423 },
1424 }],
1425 };
1426 let outcome = evaluate_rust(&report, RUST_MID);
1427 assert!(
1428 matches!(&outcome, Outcome::Fail(message) if message.contains("measured no code")),
1429 "got: {outcome:?}"
1430 );
1431 }
1432
1433 #[test]
1434 fn rust_fails_an_export_with_no_data() {
1435 // `cargo llvm-cov` always emits one `data` entry; an empty array is a
1436 // malformed run, failed rather than treated as a pass.
1437 let report = LlvmCovReport { data: vec![] };
1438 assert!(matches!(evaluate_rust(&report, RUST_MID), Outcome::Fail(_)));
1439 }
1440
1441 #[test]
1442 fn parses_a_cargo_llvm_cov_report() {
1443 // A realistic `--json --summary-only` export: regions/lines (enforced) plus
1444 // the functions block and the `type`/`version` the check ignores.
1445 let json = r#"{
1446 "data": [{"totals": {
1447 "regions": {"count": 12, "covered": 9, "notcovered": 3, "percent": 75.0},
1448 "lines": {"count": 20, "covered": 18, "percent": 90.0},
1449 "functions": {"count": 3, "covered": 3, "percent": 100.0}
1450 }}],
1451 "type": "llvm.coverage.json.export",
1452 "version": "2.0.1"
1453 }"#;
1454 let report = parse_llvm_cov_report(json).expect("valid llvm-cov json");
1455 assert_eq!(report.data[0].totals.regions.percent, 75.0);
1456 assert_eq!(report.data[0].totals.lines.count, 20);
1457 }
1458
1459 // --- Rust diff-scoped region detail (`cargo llvm-cov --json`) — issue #162 ---
1460
1461 #[test]
1462 fn llvm_cov_patch_detail_reads_code_regions_per_file() {
1463 // A realistic full `--json` export: one function spanning two regions on
1464 // `/abs/grade.rs` — line 6 covered (execCount 1), line 10 the uncovered
1465 // `else` arm (execCount 0). Both are `kind == 0` code regions, indexed back
1466 // to `filenames[0]`.
1467 let json = r#"{
1468 "data": [{
1469 "files": [{"filename": "/abs/grade.rs"}],
1470 "functions": [{
1471 "filenames": ["/abs/grade.rs"],
1472 "regions": [
1473 [6, 5, 6, 26, 1, 0, 0, 0],
1474 [10, 9, 10, 17, 0, 0, 0, 0]
1475 ]
1476 }],
1477 "totals": {}
1478 }],
1479 "type": "llvm.coverage.json.export",
1480 "version": "3.0.1"
1481 }"#;
1482 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1483 assert_eq!(
1484 out["/abs/grade.rs"].regions,
1485 vec![(6, 6, true), (10, 10, false)]
1486 );
1487 }
1488
1489 #[test]
1490 fn llvm_cov_patch_detail_skips_non_code_regions() {
1491 // Only `kind == 0` counts: a gap region (kind 1) and an expansion region
1492 // (kind 2) on the same function are ignored, leaving just the one code region.
1493 let json = r#"{
1494 "data": [{
1495 "files": [{"filename": "/abs/a.rs"}],
1496 "functions": [{
1497 "filenames": ["/abs/a.rs"],
1498 "regions": [
1499 [1, 1, 1, 10, 2, 0, 0, 0],
1500 [2, 1, 2, 10, 0, 0, 0, 1],
1501 [3, 1, 3, 10, 0, 0, 0, 2]
1502 ]
1503 }]
1504 }]
1505 }"#;
1506 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1507 assert_eq!(out["/abs/a.rs"].regions, vec![(1, 1, true)]);
1508 }
1509
1510 #[test]
1511 fn llvm_cov_patch_detail_groups_regions_by_filename_id() {
1512 // A region's `fileID` (index 5) selects its file from the function's
1513 // `filenames`; two regions under the same function land in different files.
1514 let json = r#"{
1515 "data": [{
1516 "files": [{"filename": "/abs/a.rs"}, {"filename": "/abs/b.rs"}],
1517 "functions": [{
1518 "filenames": ["/abs/a.rs", "/abs/b.rs"],
1519 "regions": [
1520 [1, 1, 1, 5, 1, 0, 0, 0],
1521 [9, 1, 9, 5, 0, 1, 1, 0]
1522 ]
1523 }]
1524 }]
1525 }"#;
1526 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1527 assert_eq!(out["/abs/a.rs"].regions, vec![(1, 1, true)]);
1528 assert_eq!(out["/abs/b.rs"].regions, vec![(9, 9, false)]);
1529 }
1530
1531 #[test]
1532 fn llvm_cov_patch_detail_skips_a_malformed_short_region() {
1533 // A region array shorter than the eight fields (never seen from llvm-cov) is
1534 // skipped rather than panicking on an index; the well-formed one survives.
1535 let json = r#"{
1536 "data": [{
1537 "files": [{"filename": "/abs/a.rs"}],
1538 "functions": [{
1539 "filenames": ["/abs/a.rs"],
1540 "regions": [
1541 [4, 1, 4],
1542 [5, 1, 5, 9, 1, 0, 0, 0]
1543 ]
1544 }]
1545 }]
1546 }"#;
1547 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1548 assert_eq!(out["/abs/a.rs"].regions, vec![(5, 5, true)]);
1549 }
1550
1551 #[test]
1552 fn llvm_cov_patch_detail_spans_a_multiline_region() {
1553 // A region spanning lines 3–5 keeps both endpoints, so a changed line
1554 // anywhere in 3..=5 can count it.
1555 let json = r#"{
1556 "data": [{
1557 "files": [{"filename": "/abs/a.rs"}],
1558 "functions": [{
1559 "filenames": ["/abs/a.rs"],
1560 "regions": [[3, 5, 5, 6, 0, 0, 0, 0]]
1561 }]
1562 }]
1563 }"#;
1564 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1565 assert_eq!(out["/abs/a.rs"].regions, vec![(3, 5, false)]);
1566 }
1567
1568 #[test]
1569 fn llvm_cov_patch_detail_drops_a_file_absent_from_the_files_allowlist() {
1570 // `--ignore-filename-regex` drops an exempt file from `files` but leaves its
1571 // regions in `functions`; restricting to the `files` allowlist lifts them, so
1572 // the ignored file contributes nothing while the kept file still does.
1573 let json = r#"{
1574 "data": [{
1575 "files": [{"filename": "/abs/kept.rs"}],
1576 "functions": [{
1577 "filenames": ["/abs/kept.rs", "/abs/ignored.rs"],
1578 "regions": [
1579 [1, 1, 1, 9, 1, 0, 0, 0],
1580 [2, 1, 2, 9, 0, 1, 0, 0]
1581 ]
1582 }]
1583 }]
1584 }"#;
1585 let out = llvm_cov_patch_detail(json).expect("valid llvm-cov export");
1586 assert_eq!(out["/abs/kept.rs"].regions, vec![(1, 1, true)]);
1587 assert!(!out.contains_key("/abs/ignored.rs"));
1588 }
1589
1590 #[test]
1591 fn llvm_cov_patch_detail_malformed_json_is_an_error() {
1592 assert!(llvm_cov_patch_detail("{ not json").is_err());
1593 }
1594
1595 #[test]
1596 fn rust_ignore_regex_is_none_when_nothing_is_exempt() {
1597 assert_eq!(ignore_filename_regex(&[]), None);
1598 }
1599
1600 #[test]
1601 fn rust_ignore_regex_escapes_and_joins_exempt_paths() {
1602 // The caller passes already-resolved, `root`-relative paths; each is
1603 // regex-escaped (the `.` becomes `\.`) and joined into one alternation.
1604 let exempt = vec!["src/shim.rs".to_string(), "src/gen.rs".to_string()];
1605 assert_eq!(
1606 ignore_filename_regex(&exempt).as_deref(),
1607 Some(r"src/shim\.rs|src/gen\.rs")
1608 );
1609 }
1610}