ms-ai-architect/tests/kb-eval/test-eval.test.mjs
Kjell Tore Guttormsen e87289d929 feat(ms-ai-architect): Spor D N1–N5 — Anthropic-deterministiske skill-sjekker (TDD) [skip-docs]
Legger de fem deterministiske sjekkene fra Anthropics «Skill authoring best
practices» som K1–K10-rubrikken manglet, i begge lag av score-motoren:

- eval.mjs (disk-laget): extractName + checkN1..checkN5
  - N1 name-validitet (≤64, a-z0-9-, ingen «claude»/«anthropic»; gerund rapporteres, gater ikke)
  - N2 description ikke-tom + ≤1024 tegn
  - N3 refs én nivå dypt (ref-fil lenker ikke til annen ref-fil)
  - N4 TOC i ref-filer >100 linjer (delpoeng = andel store filer med TOC)
  - N5 forward-slash-stier (ingen Windows-backslash-stier i body)
  wiret inn i evalSkill.deterministic (leser nå ref-fil-innhold for N3/N4)
- lib/skill-score.mjs (ren): N1–N5 i CRITERIA (vekt 1, ikke-gulv, det)

Live-sanity mot de 5 skills: N1/N2/N5 rene, N3 fanger ekte nøstet ref i
advisor (licensing-matrix.md → 3 andre ref-filer), N4 avdekker 387 store
ref-filer uten TOC (primær forbedringsspak for oppgraderingsfasen).

Tester: kb-eval 110→134 (+24). validate 239, kb-update 316 uendret grønt.
[skip-docs]: N1–N5 alt spesifisert i docs/skill-quality-scoring-plan.md §2.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-23 17:09:29 +02:00

231 lines
8.1 KiB
JavaScript

// tests/kb-eval/test-eval.test.mjs
// Unit tests for the deterministic scoring functions in scripts/kb-eval/eval.mjs
import { test } from 'node:test';
import assert from 'node:assert/strict';
import {
splitFrontmatter,
extractDescription,
extractName,
checkK2,
checkK3,
checkK5K6,
checkRefConsistency,
checkN1,
checkN2,
checkN3,
checkN4,
checkN5,
} from '../../scripts/kb-eval/eval.mjs';
test('splitFrontmatter — separates frontmatter from body', () => {
const c = '---\nname: x\ndescription: hi\n---\n# Body\nline2\n';
const { body } = splitFrontmatter(c);
assert.ok(body.startsWith('# Body'), `body was: ${JSON.stringify(body)}`);
assert.ok(!body.includes('name: x'));
});
test('splitFrontmatter — no frontmatter returns full content as body', () => {
const { frontmatter, body } = splitFrontmatter('# No frontmatter\ntext');
assert.equal(frontmatter, '');
assert.equal(body, '# No frontmatter\ntext');
});
test('extractDescription — extracts folded description value', () => {
const fm = '---\nname: x\ndescription: >-\n Deep guidance. Triggers on: "a", "b".\nother: y\n---\n';
const desc = extractDescription(fm);
assert.match(desc, /Deep guidance/);
assert.match(desc, /Triggers on/);
assert.ok(!desc.includes('other: y'));
});
test('checkK2 — >=3 quoted phrases passes', () => {
const r = checkK2('Some guidance. "alpha" and "beta" and "gamma".');
assert.equal(r.quotedPhrases, 3);
assert.equal(r.pass, true);
});
test('checkK2 — use-when form passes even without quotes', () => {
const r = checkK2('This skill should be used when designing X.');
assert.equal(r.useWhenForm, true);
assert.equal(r.pass, true);
});
test('checkK2 — plain description without quotes or use-when fails', () => {
const r = checkK2('A plain description of the domain.');
assert.equal(r.quotedPhrases, 0);
assert.equal(r.useWhenForm, false);
assert.equal(r.pass, false);
});
test('checkK3 — body within 500 lines passes', () => {
const r = checkK3('line1\nline2\nline3\n');
assert.equal(r.bodyLines, 3);
assert.equal(r.pass, true);
});
test('checkK3 — body over 500 lines fails', () => {
const r = checkK3('x\n'.repeat(501));
assert.equal(r.pass, false);
assert.ok(r.bodyLines > 500);
});
test('checkK5K6 — named file links count toward progressive disclosure', () => {
const body = 'See references/foo/bar.md and references/foo/baz.md for detail.';
const { K5, K6 } = checkK5K6(body, 10);
assert.equal(K5.namedFileLinks, 2);
assert.equal(K5.namedRatio, 0.2);
assert.equal(K5.pass, true); // 0.2 >= 0.20
assert.equal(K6.pass, true); // >=1 named start file
});
test('checkK5K6 — folder-only references fail K5 and K6', () => {
const body = 'For detailed guidance, see references/foo/ (28 files).';
const { K5, K6 } = checkK5K6(body, 10);
assert.equal(K5.namedFileLinks, 0);
assert.equal(K5.pass, false);
assert.equal(K6.pass, false);
});
test('checkRefConsistency — cited count differing from actual is a mismatch', () => {
const body = '| `references/foo/` | 20 | desc |';
const r = checkRefConsistency(body, { foo: 24 });
assert.equal(r.consistent, false);
assert.ok(r.mismatches.some((m) => m.folder === 'foo' && m.cited === 20 && m.actual === 24));
});
test('checkRefConsistency — matching count is consistent', () => {
const body = '| `references/foo/` | 24 | desc |';
const r = checkRefConsistency(body, { foo: 24 });
assert.equal(r.consistent, true);
assert.deepEqual(r.mismatches, []);
});
test('checkRefConsistency — same folder cited with two different numbers flags inconsistency', () => {
const body = 'prose says references/foo/ (24 files) but table `references/foo/` | 20 |';
const r = checkRefConsistency(body, { foo: 24 });
assert.equal(r.consistent, false);
});
// --- N1-N5: deterministic checks added from Anthropic best-practices ---------
test('extractName — pulls the name scalar from frontmatter', () => {
const fm = '---\nname: ms-ai-advisor\ndescription: x\n---\n';
assert.equal(extractName(fm), 'ms-ai-advisor');
});
test('extractName — missing name returns empty string', () => {
assert.equal(extractName('---\ndescription: x\n---\n'), '');
});
test('checkN1 — valid lowercase-hyphen name passes', () => {
const r = checkN1('ms-ai-advisor');
assert.equal(r.pass, true);
assert.equal(r.withinLength, true);
assert.equal(r.validChars, true);
assert.equal(r.noReserved, true);
});
test('checkN1 — name over 64 chars fails on length', () => {
const r = checkN1('a'.repeat(65));
assert.equal(r.withinLength, false);
assert.equal(r.pass, false);
});
test('checkN1 — uppercase, spaces or underscores are invalid chars', () => {
assert.equal(checkN1('Ms-AI Advisor').validChars, false);
assert.equal(checkN1('ms_ai_advisor').pass, false);
});
test('checkN1 — reserved words claude/anthropic fail', () => {
assert.equal(checkN1('claude-helper').noReserved, false);
assert.equal(checkN1('claude-helper').pass, false);
assert.equal(checkN1('anthropic-tool').pass, false);
});
test('checkN1 — gerund is reported but does not gate pass (real skills are non-gerund)', () => {
const r = checkN1('ms-ai-advisor');
assert.equal(r.gerund, false);
assert.equal(r.pass, true); // non-gerund still passes
});
test('checkN2 — non-empty description within 1024 chars passes', () => {
const r = checkN2('A normal, useful description.');
assert.equal(r.nonEmpty, true);
assert.equal(r.withinLimit, true);
assert.equal(r.pass, true);
});
test('checkN2 — empty/whitespace description fails', () => {
const r = checkN2(' ');
assert.equal(r.nonEmpty, false);
assert.equal(r.pass, false);
});
test('checkN2 — description over 1024 chars fails', () => {
const r = checkN2('x'.repeat(1025));
assert.equal(r.withinLimit, false);
assert.equal(r.pass, false);
});
test('checkN3 — a ref file linking to another .md flags nesting', () => {
const refs = [{ path: 'references/a.md', content: 'see [b](b.md) for more' }];
const r = checkN3(refs);
assert.equal(r.pass, false);
assert.equal(r.nested.length, 1);
assert.equal(r.nested[0].file, 'references/a.md');
});
test('checkN3 — ref files with only external (http) links pass', () => {
const refs = [{ path: 'references/a.md', content: 'see [docs](https://x.com/y) and [t](#anchor)' }];
assert.equal(checkN3(refs).pass, true);
});
test('checkN3 — a ref file with no links passes', () => {
assert.equal(checkN3([{ path: 'references/a.md', content: 'plain prose only' }]).pass, true);
});
test('checkN4 — large file without TOC fails and ratio reflects coverage', () => {
const big = '# T\n' + 'line\n'.repeat(150);
const r = checkN4([{ path: 'references/a.md', content: big }]);
assert.equal(r.largeFiles, 1);
assert.equal(r.withToc, 0);
assert.equal(r.ratio, 0);
assert.equal(r.pass, false);
});
test('checkN4 — large file with an explicit TOC heading passes', () => {
const big = '# T\n\n## Innhold\n- [A](#a)\n- [B](#b)\n' + 'body\n'.repeat(150);
const r = checkN4([{ path: 'references/a.md', content: big }]);
assert.equal(r.withToc, 1);
assert.equal(r.ratio, 1);
assert.equal(r.pass, true);
});
test('checkN4 — large file with an in-page anchor-link cluster near the top passes', () => {
const big = '# T\n- [A](#a)\n- [B](#b)\n- [C](#c)\n' + 'body\n'.repeat(150);
const r = checkN4([{ path: 'references/a.md', content: big }]);
assert.equal(r.withToc, 1);
assert.equal(r.pass, true);
});
test('checkN4 — files at or under 100 lines are not required to have a TOC (vacuous pass)', () => {
const r = checkN4([{ path: 'references/a.md', content: 'short\nfile\n' }]);
assert.equal(r.largeFiles, 0);
assert.equal(r.ratio, 1);
assert.equal(r.pass, true);
});
test('checkN5 — forward-slash paths pass', () => {
assert.equal(checkN5('See references/foo/bar.md for detail.').pass, true);
});
test('checkN5 — Windows backslash path fails', () => {
const r = checkN5('Open references\\foo\\bar.md now.');
assert.equal(r.pass, false);
assert.ok(r.windowsPaths.length >= 1);
});
test('checkN5 — drive-letter path fails', () => {
assert.equal(checkN5('Save to C:\\Users\\x\\file.md').pass, false);
});