"""Prompt-diversity lane runner — contract pins. Pins the v1 contract surface so future composer changes (ADR-0085) and surface-vs-envelope work cannot silently break the measurement instrument the contract is built around. """ from __future__ import annotations import json from pathlib import Path import pytest from evals.framework import get_lane, run_lane from evals.prompt_diversity.runner import ( _classify_response_shape, _surface_has_audit_leak, ) _PUBLIC_V1 = Path(__file__).resolve().parents[1] / "evals" / "prompt_diversity" / "public" / "v1" / "cases.jsonl" def _load_public_cases() -> list[dict]: return [json.loads(line) for line in _PUBLIC_V1.read_text().splitlines() if line.strip()] # --------------------------------------------------------------------------- # # Shape classifier # --------------------------------------------------------------------------- # class TestShapeClassifier: @pytest.mark.parametrize( "surface,expected_shape,want", [ ("Knowledge is justified true belief.", "predicate_identity", True), ("light reveals truth, which grounds knowledge", "explanation", True), ("First, observe. Then, infer.", "sequence", True), ("wisdom contrasts with judgment", "two_subject_contrast", True), ("No session evidence yet.", "honest_disclosure", True), ("knowledge, evidence, inference", "narrative", True), # Mismatch direction — chain-walk shape miscast as definition ("light reveals truth, which grounds knowledge", "predicate_identity", False), ], ) def test_shape_classifier(self, surface: str, expected_shape: str, want: bool) -> None: assert _classify_response_shape(surface, expected_shape) is want def test_unknown_shape_defaults_pass(self) -> None: # Neutral pass for unknown shapes — protects against new # categories being penalised before the classifier is taught. assert _classify_response_shape("any text", "brand_new_shape") is True def test_empty_surface_fails(self) -> None: assert _classify_response_shape("", "predicate_identity") is False # --------------------------------------------------------------------------- # # Audit-leak detector # --------------------------------------------------------------------------- # class TestAuditLeak: @pytest.mark.parametrize( "surface,is_leak", [ ("light — teaching-grounded (cognition_chains_v1): ...", True), ("light — pack-grounded (en_core_cognition_v1): ...", True), ("No session evidence yet.", True), # Bare semantic-domain tag in user surface ("cognition.illumination", True), ("logos.core; cognition.truth.", True), # Clean user-facing surfaces ("Light is the medium by which what exists becomes visible.", False), ("Knowledge requires evidence.", False), ("", False), ], ) def test_leak_detection(self, surface: str, is_leak: bool) -> None: assert _surface_has_audit_leak(surface) is is_leak # --------------------------------------------------------------------------- # # Gloss-quote detector # --------------------------------------------------------------------------- # class TestGlossQuote: """The detector is exact-substring against the pack's gloss text, not a fuzzy window. The pack-grounded composer emits gloss text verbatim, so substring match is the right signal: zero false positives, zero false negatives on brief-style short glosses where a 4-token window would be impossible (e.g. ``person`` → ``"person with a child"`` has only 3 tokens ≥4 chars). """ def _make(self, surface: str, terms: tuple[str, ...]) -> bool: from evals.prompt_diversity.runner import _surface_quotes_gloss return _surface_quotes_gloss(surface, terms) def test_quoted_short_gloss_detected(self) -> None: # ``light`` gloss is ``"a visible medium that reveals truth"`` — # 6 tokens, only 4 are ≥4 chars; the old 4-token window would # barely fit. ``parent`` gloss is ``"person with a child"`` — # 4 tokens, 3 are ≥4 chars; the old window could never match. # Substring match handles both natively. assert self._make( "Parent is person with a child. pack-grounded (en_core_relations_v1).", ("parent",), ) is True assert self._make( "Light is a visible medium that reveals truth. pack-grounded (en_core_cognition_v1).", ("light",), ) is True def test_unquoted_surface_returns_false(self) -> None: # Chain-walk surface for the same lemma must NOT count as # gloss-quoted — it shares vocabulary but doesn't quote the # gloss itself. assert self._make( "light — teaching-grounded (cognition_chains_v1): cognition.illumination; logos.core.", ("light",), ) is False def test_unknown_term_returns_false(self) -> None: assert self._make("anything", ("nonsense_lemma_42",)) is False def test_empty_terms_returns_false(self) -> None: assert self._make("anything", ()) is False # --------------------------------------------------------------------------- # # End-to-end run on the v1 public split # --------------------------------------------------------------------------- # class TestPublicV1: """Pins the v1 contract surface against the public split. The lane has NO numeric pass thresholds at v1 by design (the contract is explicit about this). The ONLY hard gate is ``versor_closure_rate == 1.00``. Everything else is baseline distribution we measure against, not score for. """ @pytest.fixture(scope="class") def lane_result(self) -> object: lane = get_lane("prompt_diversity") return run_lane(lane, version="v1", split="public") def test_lane_discoverable(self) -> None: lane = get_lane("prompt_diversity") assert "v1" in lane.versions def test_all_cases_run(self, lane_result) -> None: # type: ignore[no-untyped-def] cases = _load_public_cases() assert lane_result.metrics["total"] == len(cases) assert len(lane_result.case_details) == len(cases) def test_versor_closure_invariant(self, lane_result) -> None: # type: ignore[no-untyped-def] # The only numeric pass threshold at v1. Per ADR / contract: # the algebra invariant must hold for every case the pipeline # accepts. assert lane_result.metrics["versor_closure_rate"] == 1.0 def test_all_metrics_in_unit_interval(self, lane_result) -> None: # type: ignore[no-untyped-def] for key in ( "intent_accuracy", "versor_closure_rate", "response_shape_fit", "audit_in_surface_rate", "gloss_quote_rate", ): value = lane_result.metrics[key] assert 0.0 <= value <= 1.0, f"{key} out of unit interval: {value}" def test_breakdown_groups_present(self, lane_result) -> None: # type: ignore[no-untyped-def] # Per-cell breakdown by (question_shape, sophistication, domain) # — the contract's "how to read the output" instructs callers # to look at distributions, not just aggregates. breakdown = lane_result.metrics["breakdown"] assert isinstance(breakdown, dict) assert breakdown, "breakdown is empty — runner did not aggregate cells" # Every cell must carry the four moveable per-cell metrics. for shape_cells in breakdown.values(): for soph_cells in shape_cells.values(): for cell in soph_cells.values(): assert {"n", "intent_accuracy", "response_shape_fit", "audit_in_surface_rate", "gloss_quote_rate"} <= cell.keys() def test_baseline_diversity(self, lane_result) -> None: # type: ignore[no-untyped-def] # The lane's STATED failure mode (contract §When it has failed # and why): "if the distribution looks identical to the # cognition lane (i.e. the suite isn't actually diverse)". # Concretely: at least 5 distinct question_shape values and # at least 3 distinct domain values must appear in the case # details — otherwise the suite is overfitting the same way # the cognition lane does. details = lane_result.case_details shapes = {d["question_shape"] for d in details} domains = {d["domain"] for d in details} assert len(shapes) >= 5, f"only {len(shapes)} question shapes — suite is not diverse" assert len(domains) >= 3, f"only {len(domains)} domains — suite is not diverse"