core/tests/test_reasoning_evidence.py
Shay 568face63e feat(reasoning): field-wedge foundation — f64 embedding, lineage firewall, INV-27
Phase 0 of the field-reasoner wedge — net hardening regardless of the
experiment's outcome.

- algebra/cga.py: embed_point gains a dtype kwarg (f32 default byte-unchanged;
  cl41.geometric_product already preserves f64) + read_scalar_e1 projective
  dehomogenization read-back (weight-invariant; correct for dilations, where a
  raw distance-from-origin is wrong) + EMBED_EXACT_MAX pinned magnitude ceiling.
  f32 silently collapsed integer coordinates past ~1e4.
- core/reasoning/evidence.py: verify_tier2_agreement now keys independence on a
  reader_lineage pathway token (refuses SAME_READER_LINEAGE), replacing the
  label-only len(set(signatures))<2 check a single reader could satisfy by
  relabeling. reader_lineage is excluded from canonical serialization, so the
  entailment trace_hash is unchanged.
- tests INV-27: transitive reader-disjointness over TIER2_READER_PATHWAYS makes
  the lineage check load-bearing (distinct lineage => proven import-disjoint
  pathway). The two seeded readers share zero transitive first-party modules.

Green: smoke 87, algebra 82, cognition 121, 53 architectural invariants,
reasoning/deductive/r1 50; 16 new f64-exactness tests; zero regressions.
2026-06-04 19:22:16 -07:00

147 lines
4.8 KiB
Python

"""Tier-2 reasoning evidence spine tests."""
from __future__ import annotations
import dataclasses
import json
import pytest
from core.contemplation.miners.learning_arena import mine_learning_arena_report
from core.reasoning import (
COMMITMENT_DISAGREEMENT,
DUPLICATE_STRUCTURAL_SIGNATURE,
MISSING_COMMITMENT,
SAME_READER_LINEAGE,
TIER2_VERIFIED,
EvidenceBundle,
OperatorEvidence,
verify_tier2_agreement,
)
def _ev(
*,
signature: str = "shape-a",
commitment: str = "answer:42",
outcome: str = "verified",
lineage: str = "reader-a",
) -> OperatorEvidence:
return OperatorEvidence(
domain="mathematics_logic",
operator="unit_test_operator",
outcome=outcome,
reason="test",
input_keys=("input-a",),
check_keys=("check-a",),
commitment_key=commitment,
structural_signature=signature,
reader_lineage=lineage,
payload={"nested": {"values": [1, 2, "x"]}},
)
def test_operator_evidence_is_frozen_and_payload_is_immutable() -> None:
ev = _ev()
with pytest.raises(dataclasses.FrozenInstanceError):
ev.domain = "mutated" # type: ignore[misc]
with pytest.raises(TypeError):
ev.payload["nested"] = {} # type: ignore[index]
def test_canonical_json_and_hash_are_deterministic() -> None:
ev1 = _ev()
ev2 = _ev()
assert ev1.canonical_json() == ev2.canonical_json()
assert ev1.evidence_hash == ev2.evidence_hash
assert json.loads(ev1.canonical_json())["payload"]["nested"]["values"] == [1, 2, "x"]
def test_evidence_bundle_hash_is_ordered_and_stable() -> None:
bundle = EvidenceBundle((_ev(signature="a"), _ev(signature="b")))
same = EvidenceBundle((_ev(signature="a"), _ev(signature="b")))
swapped = EvidenceBundle((_ev(signature="b"), _ev(signature="a")))
assert bundle.evidence_hash == same.evidence_hash
assert bundle.evidence_hash != swapped.evidence_hash
def test_tier2_verifies_two_distinct_structures_same_commitment() -> None:
verdict = verify_tier2_agreement((
_ev(signature="shape-a", lineage="reader-a"),
_ev(signature="shape-b", lineage="reader-b"),
))
assert verdict.verified is True
assert verdict.reason == TIER2_VERIFIED
assert verdict.commitment_key == "answer:42"
assert verdict.structural_signatures == ("shape-a", "shape-b")
assert verdict.reader_lineages == ("reader-a", "reader-b")
def test_tier2_refuses_same_reader_lineage() -> None:
"""The decoration firewall: one reader cannot self-verify by relabeling its
structural signature. Two evidences from the SAME decoding pathway are refused
even when their structural_signatures differ and the commitment agrees.
Meaningfully-failing guard: under the old label-only check this admitted.
"""
verdict = verify_tier2_agreement((
_ev(signature="shape-a", lineage="one-reader"),
_ev(signature="shape-b", lineage="one-reader"),
))
assert verdict.verified is False
assert verdict.reason == SAME_READER_LINEAGE
def test_tier2_refuses_duplicate_signature() -> None:
verdict = verify_tier2_agreement((
_ev(signature="same", lineage="reader-a"),
_ev(signature="same", lineage="reader-b"),
))
assert verdict.verified is False
assert verdict.reason == DUPLICATE_STRUCTURAL_SIGNATURE
def test_tier2_refuses_disagreeing_commitments() -> None:
verdict = verify_tier2_agreement((
_ev(signature="shape-a", commitment="answer:42", lineage="reader-a"),
_ev(signature="shape-b", commitment="answer:41", lineage="reader-b"),
))
assert verdict.verified is False
assert verdict.reason == COMMITMENT_DISAGREEMENT
def test_tier2_refuses_missing_commitment() -> None:
verdict = verify_tier2_agreement((
_ev(signature="shape-a", commitment=""),
_ev(signature="shape-b", commitment="answer:42"),
))
assert verdict.verified is False
assert verdict.reason == MISSING_COMMITMENT
def test_learning_arena_miner_emits_speculative_findings(tmp_path) -> None:
report = {
"per_class": {
"alpha": {
"committed": 2,
"coverage": 0.2,
"t2_verified": 0,
}
},
"elimination_records": [
{
"case_id": "c-wrong",
"class_name": "alpha",
"gold": 10.0,
"reason": "answer mismatch",
}
],
}
path = tmp_path / "learning_report.json"
path.write_text(json.dumps(report), encoding="utf-8")
findings = mine_learning_arena_report(path, substrate_hash="substrate")
predicates = {finding.predicate for finding in findings}
assert predicates == {"weak_coverage", "missing_tier2_evidence", "wrong_attempt"}
assert all(finding.epistemic_status.value == "speculative" for finding in findings)