Architectural pivot from per-axis grammar expansion (ADR-0122/0123/0123a/ 0123b, all 0/1319 sealed lift) to candidate-graph topology with round-trip admissibility filter. Converts compound-gap failure from multiplicative p^k to parallel 1-(1-p)^k. Adds new invariant: round-trip admissibility (op slots must reconstruct to byte-equal source sentence under whitespace/case normalization). Preserves wrong==0, trace_hash byte-equality, pack-binding, replay determinism, no stochastic sampling. Exit criterion: 50-case GSM8K train-split sample (unsealed) must show correct >=10/50 with wrong==0 before any sealed-holdout run. If miss, escalate to Path B (benchmark re-selection). Supersedes ADR-0123b (never opened as PR).
10 KiB
ADR-0126 — Candidate-Graph Parser with Round-Trip Verifier-Filter
Status: Proposed Date: 2026-05-23 Author: CORE agents + reviewers Depends on:
- ADR-0115 (parser substrate),
- ADR-0116 (deterministic solver),
- ADR-0117 (
SolutionTraceverifier), - ADR-0118 (stepped realizer),
- ADR-0119 (+ all 8 sub-phases — GSM8K-math lane substrate),
- ADR-0119.7 (sealed GSM8K test),
- ADR-0120 (expert promotion contract),
- ADR-0121 (math expert promotion DEFERRED with named blocker
correct_rate = 0/1319on sealed holdout). Supersedes: ADR-0123b (feat/adr-0123b-upstream-shape-gaps, commit8c4070e, never opened as PR). Substrate of ADR-0122 / ADR-0123 / ADR-0123a remains in main and is consumed by this ADR.
Context
ADR-0121 deferred the mathematics_logic → expert promotion with
the named blocker correct_rate = 0/1319 on sealed GSM8K holdout
and proposed a parser-expansion arc of 4–8 construction classes.
Three ADRs of that arc landed (ADR-0122 rate / per-unit, ADR-0123
comparison-phrasing, ADR-0123a comparison-shape-expansion) and a
fourth was prepared (ADR-0123b upstream-shape-gaps). All four:
- preserved every invariant (
wrong == 0, byte-equal trace, pack-binding, replay determinism), - passed their author-drafted dev-set exit criteria,
- measured 0/1319 sealed-holdout lift (Gemini Tasks 6 and 8).
Two independent external assessments (Kimi K2.6, Grok 4.2) and an internal review converged on the same diagnosis:
-
The dev set is hermetically sealed from the real GSM8K distribution. It was authored by the people who authored the parser, against the parser's grammar. Dev-set success is uncorrelated (in expectation, anti-correlated) with sealed-holdout lift.
-
Per-axis vocabulary expansion is structurally optimistic. Each sealed case lives in the intersection of grammar gaps (verb × number-word × question-shape × ellipsis × multi-step), not the union. If each gap has independent coverage
p, joint pass rate isp^k. Adding one verb raisespinfinitesimally; joint pass rate barely moves. -
The current parser fails hard at the first unmatched construction. A single brittle regex (e.g., an ambiguous verb match that steals the slot from a correct one) refuses an entire problem with
ParseError. This makes vocabulary expansion adversarial against itself — adding new patterns can lose coverage on already-passing problems.
The architectural error is the topology of failure, not the size of vocabulary. Four zero-lift ADRs are the empirical evidence that more grammar in the same shape will not move the sealed-holdout score.
Decision
Replace the first-match-wins, single-graph, fail-hard parser
topology with a candidate-graph + verifier-filter topology
that preserves every existing invariant while converting
compound-gap failure from multiplicative (p^k) to parallel
(1 - (1-p)^k).
Pipeline change
OLD: surface → ONE graph → solve → verify(trace_replay)
NEW: surface → [graph_1, graph_2, … graph_n] → solve each
→ round-trip filter → admissibility filter → decision rule
Per-sentence change
Each sentence emits list[CandidateOperation] (possibly empty)
instead of one Operation or ParseError. Multiple matching
patterns no longer race for a single slot; they all emit
candidates and the verifier filters wrong ones downstream.
Hard bound: MAX_CANDIDATES_PER_SENTENCE = 4. Exceeding raises
ParseError (preserves determinism cost ceiling).
Graph assembly
Cartesian product of per-sentence candidate lists, enumerated
depth-first in canonical pattern-priority order
(most-specific-first). Hard bound: MAX_TOTAL_BRANCHES = 64.
Exceeding refuses the entire problem (preserves runtime ceiling).
Round-trip filter (load-bearing new invariant)
A candidate operation is round-trip admissible iff reconstructing the source sentence from its parsed slots produces a string byte-equal to the original sentence under normalization N (lowercase + collapse whitespace + strip terminal punctuation).
Formally, for source sentence s and candidate operation op:
admissible(op, s) ⟺ N(reconstruct(op)) == N(s)
This is the wrong-answer firewall. A regex that misreads
"gives" as subtract instead of transfer will reconstruct a
sentence that doesn't byte-equal the source; the candidate is
rejected before it can produce a wrong number.
Decision rule (final emit)
For the set A of admissible candidate graphs:
| |A| | answer distribution | decision |
|-------|--------------------|----------|
| 0 | — | refuse (preserves wrong == 0) |
| 1 | — | emit the single answer |
| ≥2 | all identical | emit the common answer |
| ≥2 | non-identical | refuse (genuine ambiguity) |
Invariant preservation
| Invariant | How preserved |
|---|---|
wrong == 0 |
Round-trip filter rejects mis-parses; ambiguity refuses. |
| Trace determinism | Candidate enumeration canonical (lexical pattern key); branch order canonical (depth-first by sentence). |
trace_hash byte-equality |
Selected graph alone enters SolutionTrace; non-selected branches are not hashed. |
| Pack-binding | Candidate generators consume the same pack lemmas as today. |
| Replay equivalence | Replay re-runs candidate enumeration + filter; same input → same selected graph. |
Adversarial wrong == 0 |
Adversarial suite gate runs unchanged; round-trip filter is stricter than today's gates. |
New invariant added
Round-trip admissibility: any operation that emits in a final
SolutionTrace must satisfy N(reconstruct(op)) == N(source_span)
for the source span it claims to parse. This is a stricter
contract than trace_hash byte-equality across runs (which only
guards determinism) — it guards against semantic mis-parse.
Exit criterion
Inner-loop signal (new): draw 50 cases from GSM8K train
split (deterministic seed, committed unsealed at
evals/gsm8k_math/train_sample/v1/cases.jsonl). Run candidate-graph
pipeline. The architecture is validated iff:
correct ≥ 10 / 50 (20% absolute)
wrong == 0
This is the first non-synthetic gradient signal in the GSM8K lane. If the architecture is structurally sound, ≥20% lift on a random sample is achievable without any new vocabulary work — the gain comes purely from converting fail-hard to filter-and-pick.
Path-B trigger: if 50-case train sample shows correct < 10
after the candidate-graph pipeline is integrated, the parser-by-rule
architecture (in any topology) is the wrong abstraction for GSM8K
coverage. ADR-0126 itself is deferred and the work pivots to
benchmark re-selection (see "Alternatives considered → Path B"
below).
Sealed-holdout protocol unchanged: if the train-sample gate
passes, the sealed holdout runs exactly once and the number is
frozen in ADR-0126-results. The sealed .age ciphertext is never
modified.
Alternatives considered
Path A.1 — More vocabulary (status-quo continuation)
Continue the ADR-0122/0123/0123a/0123b cadence: catalog refusal modes, add verbs/numbers/patterns, ship per-axis ADRs.
Rejected because four consecutive ADRs in this shape produced
0/1319 lift. The compound-gap math (p^k) explains why; no
amount of p improvement at the rate we can produce ADRs moves
joint pass rate meaningfully.
Path B — Benchmark re-selection
Demote GSM8K to a stress test we honestly refuse on; re-target the math-expert promotion to a benchmark where exact-recall, determinism, and provenance are the discriminators (formal-math symbolic equivalence, CORE-native teaching-corpus eval, MATH symbolic subset).
Held as fallback triggered by the Path-B condition above. Not chosen first because it forecloses the GSM8K target without having tried the architectural fix that the compound-gap diagnosis actually implies.
Path C — Learned (LLM-aided) parser
Replace the rule-based parser with an LLM-assisted candidate generator.
Rejected as a contract violation. ADR-0114a and the project-wide stance (CLAUDE.md "no opaque LLM fallbacks, no stochastic sampling, no hidden normalization") forbid this. The candidate-graph approach in this ADR is the deterministic analogue: parallel hypotheses with a verifier filter, no sampling, no learned scoring.
Implementation plan
| Phase | Module | Description |
|---|---|---|
| P1 | generate/math_roundtrip.py (new) |
Standalone roundtrip_matches(op, source) -> bool. Unit tests over every existing op kind. This is the load-bearing primitive; nothing else matters if it doesn't work. |
| P2 | generate/math_parser.py (refactor) |
_process_statement / _process_question return list[CandidateOperation]. Verb tables widened permissively. |
| P3 | generate/math_candidate_graph.py (new) |
Branch enumerator + filter + decision rule. |
| P4 | evals/gsm8k_math/runner.py (wire) |
Replace single-graph call with candidate-graph call. Preserve all current passing cases. |
| P5 | evals/gsm8k_math/train_sample/v1/cases.jsonl (new) |
50-case deterministic train-split sample (unsealed). |
| P6 | evals/gsm8k_math/train_sample_runner.py (new) |
Run candidate-graph on train sample; emit correct_rate, wrong_count. |
Regression gates (must remain green at every phase):
core test --suite smokecore test --suite math(existing 507/507)core test --suite algebra(82/82)- 150/150 public split
- 200/200 dev set
- adversarial suite (
wrong == 0)
PR checklist (when proposing for merge)
What capability did this add?
→ Candidate-graph parser topology + round-trip verifier-filter.
What invariant proves the field remains valid?
→ Round-trip admissibility (new); wrong == 0 (preserved);
trace_hash byte-equality (preserved).
Which CLI suite/eval proves the lane?
→ smoke + math + algebra + 200/200 dev + train_sample_runner.
Did this avoid hidden normalization, stochastic fallback,
approximate recall, unreviewed mutation?
→ Yes. Candidate enumeration is deterministic + bounded.
Round-trip filter is deterministic byte comparison.
No learned scoring, no sampling.
If it touches user input, what trust boundary was enforced?
→ No new user-input surfaces. Round-trip reconstruction does
not echo unvalidated user content into logs.