CP-2a populates the CP-1 ledger from gold-labelled candidate readings and reports
per-pattern reliability — the measurement the cue-precision thesis rests on. Plus
the function-word unit filter, whose value this measurement makes concrete (clean
unit_shape labelling).
What landed (all sealed; serving 3/47/0 byte-identical):
- generate/cue_precision/trainer.py — train_from_cases(cases, enumerators): folds
gold-labelled candidate chains into the ledger via record_case. Decoupled (the
candidate enumerators are injected, so the package still imports nothing from
search). candidates_for dedupes a reading shared by two enumerators.
- generate/derivation/multistep.py — extracted the enumeration half of search_chain
into public candidate_chains(problem_text); search_chain now delegates (verified
byte-identical: ms3 tests + practice counts unchanged). CP-2 needs the readings
the search weighs, not just the one it resolves.
- generate/derivation/extract.py — function-word unit filter (_NON_UNIT_WORDS):
blanks spurious function-word units ($0.75 each -> "", 3/4 of -> "") that
corrupt same-unit detection and unit_shape. Closed lexeme set, ADR-0165-safe.
- evals/gsm8k_math/practice/v1/cue_precision_report.py — trains over 200 sealed
cases (50 train_sample + 150 ADR-0163-F additive) with the real enumerators and
prints the per-pattern reliability table.
- tests/test_adr_0177_cp2a_training.py — trainer obligations (credit/dedupe/
determinism/empty) via synthetic enumerators; real-measurement well-formedness;
search_chain parity.
Load-bearing finding (recorded in ADR-0177): over 200 cases EVERY (cue,op,unit_shape)
pattern floors at ~0.0 reliability (best: for-multiply-cross_unit 0.0116 at 2/34).
The blunt product/sum-of-all readings are almost always wrong vs gold, so the
conservative floor correctly trusts nothing. => CP-2b (trust reliable cues) is
blocked on candidate GENERATION, not the ledger: candidate readings must get less
crude (clause/referent structure, ADR-0178 GB-3b) before any cue earns reliability.
Cue-precision and compositional structure are coupled; structure comes first.
Verification: 107 targeted tests green (CP-2a/CP-1/extract/ms3/GB-1/2/3/MS-1/2) +
architectural invariants; serving CLAIMS.md sha unchanged; practice 4/1/45 and
0/1/149 unchanged. Inert: trains/reports only, consulted by no search/gate.
The lever MS-1->MS-3 proved: learn which (cue->op) readings are reliable from
practice eliminations, closing ADR-0175's self-verification 'necessary-not-
sufficient' gap before Phase 5.
Mechanism: per-(cue, op, unit_shape) reliability ledger (reuses ADR-0175 ClassTally
+ conservative_floor), fed by gold-labelling search candidate chains. Three uses:
U1 self-verification TRUST (near-term value: makes the Phase 5 proposal gate honest;
cold ledger => refuse, no junk proposals), U2 search guidance, U3 disagreement
resolution (coverage lever, hard-gated: margin+theta, ties refuse).
Load-bearing honesty (the bottleneck): a pattern earns POSITIVE signal only from a
gold-MATCHING chain; current blunt shapes match gold for ~4/50 cases, so the ledger
is starved (all-blame) AND structure failures (Gap B) pollute cue->op credit (a
correct op penalised for a product-of-ALL structure error). Plus data starvation
(50 cases << N_min). So cue-precision is COUPLED to richer guided shapes (Gap B) +
scale; it co-evolves (Gap B supplies gold-matching candidates -> cue-precision earns
signal -> prunes Gap B's search). It is the TRUST substrate + pruning engine, NOT
the coverage unlock by itself.
Recommended sequencing: CP-1/CP-2 (mechanism + self-verification trust, near-term
correctness value) now; richer guided shapes (Gap B) next as the flip lever; scale
makes it compound. wrong=0 obligations: cold=>no regression, ties refuse, theta-gated
serving, credit-noise can't flip serving (floor+N_min+margin+ratification+gold-tether),
determinism. Sub-phases CP-1..CP-4.