The first capability slice on the R1 arc, gated by the setup-oracle: turn the
"twice / N times as many" reading from REFUSED into a correct setup, without a single
misread. Builds on the typed IR (PR-4) and the R1 gold (PR-5b).
- IR: a Mul(symbol, literal-factor) node — to_canonical_string "ref * factor",
operation_kind "multiply", dependencies {ref}, to_relation -> times_as_many. The
product keeps the symbol's unit (count * scalar = count), admitted by the REAL
check_admissibility multiply path (the literal factor is dimensionless, not a dep).
- Reader: a multiplicative template "Y has <factor> as many <unit> as X" (factor word:
twice/double/triple/quadruple) and "Y has <N> times as many <unit> as X", checked
BEFORE the digit gate (the factor may be a word). 'half' (a /2) is deliberately
deferred — divide-by-literal is a separate admissibility path.
- setup-oracle: relation_signature now canonicalizes times_as_many.
Setup-oracle R1 result: 2 setup_correct (r1-01 twice; r1-05 the multi-step chain
ivy/jon=3*ivy/kim=jon+2), 0 setup_WRONG, 8 setup_refused. Every hard negative stays a
safe refusal: missing-base (Rosa ungrounded), ambiguous referent, distractor, inverse,
partition, 'altogether'/'in total' phrasings, and 'half' (divide). wrong=0 held through
the first capability addition.
Gates green: setup-oracle R1 setup_wrong=0; 15-case setup gate 15/15 setup_wrong=0;
relational_metric answer lane 15/15 wrong=0; binding-graph admissibility + realize +
architectural invariants + chat-runtime + pipeline (122+). No serving path touched (this
reader feeds the relational_metric / setup-oracle lanes, not the candidate-graph serving).
169 lines
7.3 KiB
Python
169 lines
7.3 KiB
Python
"""Setup-oracle lane — grade the reading (structure), not the answer.
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Two obligations:
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1. The current reader reads all 15 relational_metric cases with the gold STRUCTURE
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(``setup_wrong == 0``) — the gate the milestone rests on.
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2. The oracle MEANINGFULLY FAILS — a reading that lands on the right number via the
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WRONG structure is ``setup_wrong``. Without this, structure-grading would be
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decoration; with it, "did we read it right?" is falsifiable.
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"""
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from __future__ import annotations
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from evals.setup_oracle import (
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gold_unknown_signature,
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reader_symbol_units,
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reader_unknown_signature,
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relation_signature,
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run,
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symbol_unit_signature,
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)
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from generate.binding_graph.model import (
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BoundFact,
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BoundUnknown,
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SemanticSymbolicBindingGraph,
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SourceSpanLink,
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SymbolBinding,
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)
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def _span() -> SourceSpanLink:
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return SourceSpanLink(source_id="t", start=0, end=1, text="x")
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# --------------------------------------------------------------------------- #
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# Obligation 1 — the reader reads the gold structure on every case
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# --------------------------------------------------------------------------- #
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def test_all_cases_setup_correct_wrong_zero() -> None:
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report = run()
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assert report["total"] == 15
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assert report["setup_correct"] == 15
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assert report["setup_wrong"] == 0 # the load-bearing count
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assert report["setup_refused"] == 0
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# --------------------------------------------------------------------------- #
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# Obligation 2 — the oracle is not decoration (it catches wrong readings)
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# --------------------------------------------------------------------------- #
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def test_right_answer_wrong_structure_is_caught() -> None:
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# Gold: mia = liam + 4 over liam = 6 (answer 10, read as a relation).
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gold = [
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{"kind": "fact", "entity": "liam", "value": 6},
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{"kind": "more_than", "entity": "mia", "ref": "liam", "delta": 4},
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]
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# A reading that lands on the SAME answer (mia = 10) but flattens the relation
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# into a bare fact — the right number, the wrong reading.
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wrong_structure = [{"kind": "fact", "entity": "mia", "value": 10}]
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assert relation_signature(gold) != relation_signature(wrong_structure)
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def test_signature_catches_wrong_operation() -> None:
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more = [{"kind": "more_than", "entity": "y", "ref": "x", "delta": 6}]
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fewer = [{"kind": "fewer_than", "entity": "y", "ref": "x", "delta": 6}]
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assert relation_signature(more) != relation_signature(fewer)
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def test_signature_is_order_independent() -> None:
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a = [
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{"kind": "fact", "entity": "x", "value": 1},
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{"kind": "more_than", "entity": "y", "ref": "x", "delta": 2},
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]
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assert relation_signature(a) == relation_signature(list(reversed(a)))
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def test_wrong_question_target_is_caught() -> None:
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rels = [
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{"kind": "fact", "entity": "dan", "value": 7},
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{"kind": "more_than", "entity": "eva", "ref": "dan", "delta": 9},
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{"kind": "sum_of", "entity": "total", "parts": ["dan", "eva"]},
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]
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# Gold asks the total; a reader that targeted "eva" instead is a different reading.
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units = {"total": "item"}
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assert gold_unknown_signature(rels, {"entity": "total"}, units) == ("total", "terminal", "total", "item")
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assert gold_unknown_signature(rels, {"entity": "total"}, units) != ("eva", "terminal", "count", "item")
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def test_malformed_graph_target_never_matches_gold() -> None:
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# A graph carrying no question target (pre-PR-1 shape) must report MALFORMED and
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# never silently compare equal to a well-formed gold target.
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graph = SemanticSymbolicBindingGraph(
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symbols=(SymbolBinding(symbol_id="x", name="x", semantic_role="count",
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source_span=_span(), introduced_by="t", entity="x", unit="item"),),
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facts=(BoundFact(symbol_id="x", value="1", source_span=_span(), unit="item"),),
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equations=(),
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unknowns=(),
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)
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sig = reader_unknown_signature(graph)
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assert sig[0] == "MALFORMED"
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assert sig != ("x", "terminal", "count", "item")
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# --------------------------------------------------------------------------- #
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# PR-5a — the ruler is now UNIT-AWARE (structure can match while units diverge)
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# --------------------------------------------------------------------------- #
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def test_unit_mismatch_is_caught_even_when_structure_matches() -> None:
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# Same structure (a single fact about x), but the reader modelled a different unit.
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# The setup-oracle must FAIL — a unit-wrong reading is not a correct setup.
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gold_units = symbol_unit_signature({"x": "item"})
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reader_units_wrong = symbol_unit_signature({"x": "meter"})
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assert gold_units != reader_units_wrong
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assert symbol_unit_signature({"x": "item"}) == symbol_unit_signature({"x": "item"})
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def test_target_unit_mismatch_is_caught() -> None:
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# Structure + symbol + state + form all agree, but the target's expected unit differs.
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rels = [{"kind": "fact", "entity": "x", "value": 1}]
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assert gold_unknown_signature(rels, {"entity": "x"}, {"x": "item"}) != gold_unknown_signature(
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rels, {"entity": "x"}, {"x": "dollars"}
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)
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def test_reader_units_read_from_the_binding_graph() -> None:
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# The reader's unit signature comes from the GRAPH's symbols, not the answer projection.
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graph = SemanticSymbolicBindingGraph(
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symbols=(
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SymbolBinding(symbol_id="iris", name="iris", semantic_role="count",
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source_span=_span(), introduced_by="t", entity="iris", unit="dollars"),
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SymbolBinding(symbol_id="jack", name="jack", semantic_role="count",
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source_span=_span(), introduced_by="t", entity="jack", unit="dollars"),
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),
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facts=(BoundFact(symbol_id="iris", value="100", source_span=_span(), unit="dollars"),),
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equations=(),
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unknowns=(BoundUnknown(symbol_id="jack", question_span=_span(), state_index="terminal",
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question_form="count", expected_unit="dollars"),),
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)
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assert reader_symbol_units(graph) == (("iris", "dollars"), ("jack", "dollars"))
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assert reader_unknown_signature(graph) == ("jack", "terminal", "count", "dollars")
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# --------------------------------------------------------------------------- #
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# PR-5b — independent R1 gold: the reader must REFUSE, never MISREAD
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# --------------------------------------------------------------------------- #
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def test_r1_multiplicative_supported_rest_refused_wrong_zero() -> None:
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from evals.setup_oracle import run_r1
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r = run_r1()
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assert r["total"] == 10
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# THE invariant through the first capability slice: NO R1 case is misread. Adding the
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# multiplicative frame turned refusals into correct readings without any setup_wrong.
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assert r["setup_wrong"] == 0
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# The multiplicative frame (PR-5c) reads "twice as many" (r1-01) and the multi-step
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# chain whose middle step is "N times as many" (r1-05); the rest stay safe refusals.
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by_id = {d["id"]: d["outcome"] for d in r["details"]}
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assert by_id["r1-01-twice"] == "correct"
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assert by_id["r1-05-chain"] == "correct"
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assert r["setup_correct"] == 2
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assert r["setup_refused"] == 8
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# No detail is ever WRONG, and every non-correct one is a typed refusal.
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for d in r["details"]:
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assert d["outcome"] in ("correct", "refused")
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if d["outcome"] == "refused":
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assert d.get("reason")
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