core/tests/test_lexeme_primitives.py
Shay b3dbde94b4
feat(comprehension/8.2): universal proper_noun_token primitive (#333)
ADR-0164.1 amendment: replace name-whitelist entity admission with a
universal lexeme primitive that recognizes any capitalized token as a
proper noun. The gender-coded name lists are demoted from admission
criterion to enrichment-only lookup. A name outside the curated lists
still admits cleanly with gender="unknown" — ADR-0164.2's pronoun
resolution rules handle the unknown case via single-salient fallback
or refuse with ambiguous_pronoun_referent.

Universal at the primitive layer: the new proper_noun_token primitive
is domain-agnostic. It sits in the shared PRIMITIVE_REGISTRY and is
available to every current and future reader (math, narrative,
code-comment, multi-lingual). The math reader is its first consumer.

Pattern: ^[A-Z][A-Za-z'-]*[a-z][A-Za-z'-]*$
- requires capitalized first letter
- requires ≥1 lowercase letter (rejects all-caps acronyms)
- allows internal apostrophes (O'Brien) and hyphens (Mary-Anne)
- matches "Tina", "Bob", "Marnie", "McDonald" — rejects "TINA",
  "123", "$5.00" (those go to their own primitives)

Sentence-initial lookup-first dispatch (lifecycle._classify):
- At token_index == 0: lookup() first, skipping proper_noun_gender_*
  categories (treated as not-found so the primitive can fire). If
  lookup misses, primitive scan picks up novel names. Inverts the
  question from "is this a name?" to "is this a known common word?"
- At token_index > 0: primitive-first with UNIT_CATEGORY_TOKEN ceding
  to operational lexicon for currency_unit_noun overrides.

Lexicon rename (per-category source files):
- proper_noun_entity_female.jsonl -> proper_noun_gender_female.jsonl
- proper_noun_entity_male.jsonl   -> proper_noun_gender_male.jsonl

Compiled lexicon.jsonl: rename the two semantic_domain tags; drop
"marnie" (was only in proper_noun_entity_female, now absent from
the gender-coded sources). Net: 208 -> 207 entries. New manifest
checksum: 1fb9b0d790258736267d528e8e8a2436ce88b9ce690805fe2813ba077861ba2a

New helper gender_of_proper_noun(surface, lexicon) returns
Literal["female","male","neuter","unknown"] — pure enrichment lookup,
never gates admission.

Measurement (reader_phase1_plus_proper_noun_delta.json):
- pre-primitive baseline: correct=3 refused=47 wrong=0
- post-primitive measurement: correct=3 refused=47 wrong=0
- No regression on wrong=0
- No net admission increase observed in this train-sample harness;
  the architectural value is for future text outside the curated
  gender lists (Sonnet's #332 expanded those to cover GSM8K names).

Tests:
- test_lexeme_primitives.py: registry count 8 -> 9, proper_noun_token
  fires + variants (Bob, Marnie, McDonald, O'Brien, Mary-Anne),
  numeric/all-caps refusals, numeric-literal still wins overlap on "123"
- test_reader_question_frame.py: 5 new tests for sentence-initial
  dispatch + unknown-gender pronoun resolution + novel-name admission
  via primitive (Zelda)
- test_en_core_math_v1_pack.py: category counts updated; mutual-exclusion
  between gender_female and gender_male preserved; total 208 -> 207
- test_lexicon.py: category list + lookup assertion updated to renamed
  proper_noun_gender_female
- test_proper_noun_primitive_universality.py: new test module asserting
  domain-agnostic property of the primitive

Validation:
- pack + lexicon + primitive tests: 147 passed
- reader + universality tests: 22 passed
- smoke lane: 67 passed

Closes the engine_state question by leaving those files untracked
(repo discipline: runtime artifacts never enter PRs).

Refs ADR-0164.1 amendment, ADR-0164.2 §EntityRegistry, ADR-0165
§Legitimate uses (the new primitive passes the three-question test).
2026-05-26 22:16:34 -07:00

324 lines
12 KiB
Python

"""Tests for generate.comprehension.lexeme_primitives (ADR-0164.1)."""
from __future__ import annotations
import re
import pytest
from generate.comprehension.lexeme_primitives import (
PRIMITIVE_REGISTRY,
LexemeMatch,
LexemePrimitive,
scan,
)
# ---------------------------------------------------------------------------
# Construction invariants
# ---------------------------------------------------------------------------
class TestRegistryConstruction:
def test_has_nine_primitives(self) -> None:
assert len(PRIMITIVE_REGISTRY) == 9
def test_sorted_by_priority_ascending(self) -> None:
priorities = [p.priority for p in PRIMITIVE_REGISTRY]
assert priorities == sorted(priorities)
def test_names_are_unique(self) -> None:
names = [p.name for p in PRIMITIVE_REGISTRY]
assert len(names) == len(set(names))
def test_all_patterns_compile(self) -> None:
for p in PRIMITIVE_REGISTRY:
assert isinstance(p.pattern, re.Pattern), f"{p.name}: pattern not compiled"
def test_all_priorities_non_negative(self) -> None:
for p in PRIMITIVE_REGISTRY:
assert p.priority >= 0, f"{p.name}: negative priority"
def test_all_fields_populated(self) -> None:
for p in PRIMITIVE_REGISTRY:
assert p.name, f"empty name: {p!r}"
assert p.emits, f"{p.name}: empty emits"
assert p.provenance, f"{p.name}: empty provenance"
# extracts may be empty tuple only for primitives with no capture groups
assert isinstance(p.extracts, tuple)
def test_all_names_kebab_case(self) -> None:
for p in PRIMITIVE_REGISTRY:
if p.name == "proper_noun_token":
continue # ADR-0164.1 amendment uses snake_case key
assert "_" not in p.name, f"{p.name}: use hyphens, not underscores"
def test_emits_valid_enum(self) -> None:
valid = {"QUANTITY", "ORDINAL", "UNIT_CATEGORY_TOKEN", "proper_noun_token"}
for p in PRIMITIVE_REGISTRY:
assert p.emits in valid, f"{p.name}: unknown emits={p.emits!r}"
def test_primitive_is_immutable(self) -> None:
p = PRIMITIVE_REGISTRY[0]
with pytest.raises((AttributeError, TypeError)):
p.name = "tampered" # type: ignore[misc]
def test_registry_is_tuple(self) -> None:
assert isinstance(PRIMITIVE_REGISTRY, tuple)
# ---------------------------------------------------------------------------
# Canonical fires — each primitive matches its canonical example
# ---------------------------------------------------------------------------
class TestCanonicalFires:
def test_decimal_currency_literal(self) -> None:
m = scan("$18.00")
assert m is not None
assert m.primitive_name == "decimal-currency-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["whole"] == "18"
assert m.extracted_values["cents"] == "00"
assert m.extracted_values["unit_class"] == "currency"
def test_currency_literal(self) -> None:
m = scan("$18")
assert m is not None
assert m.primitive_name == "currency-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["value"] == "18"
assert m.extracted_values["unit_class"] == "currency"
def test_currency_literal_decimal(self) -> None:
m = scan("$1.5")
assert m is not None
assert m.primitive_name == "currency-literal"
assert m.extracted_values["value"] == "1.5"
def test_percentage_literal(self) -> None:
m = scan("25%")
assert m is not None
assert m.primitive_name == "percentage-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["value"] == "25"
assert m.extracted_values["unit_class"] == "ratio"
def test_fraction_literal(self) -> None:
m = scan("1/2")
assert m is not None
assert m.primitive_name == "fraction-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["numerator"] == "1"
assert m.extracted_values["denominator"] == "2"
assert m.extracted_values["unit_class"] == "fraction"
def test_time_amount_literal(self) -> None:
m = scan("3hours")
assert m is not None
assert m.primitive_name == "time-amount-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["value"] == "3"
assert m.extracted_values["unit"] == "hour"
assert m.extracted_values["unit_class"] == "time"
def test_time_amount_literal_with_space(self) -> None:
m = scan("3 hours")
assert m is not None
assert m.primitive_name == "time-amount-literal"
assert m.extracted_values["value"] == "3"
assert m.extracted_values["unit"] == "hour"
def test_ordinal_literal(self) -> None:
m = scan("first")
assert m is not None
assert m.primitive_name == "ordinal-literal"
assert m.emit_category == "ORDINAL"
assert m.extracted_values["rank"] == "1"
def test_ordinal_literal_second(self) -> None:
m = scan("second")
assert m is not None
assert m.extracted_values["rank"] == "2"
def test_ordinal_literal_tenth(self) -> None:
m = scan("tenth")
assert m is not None
assert m.extracted_values["rank"] == "10"
def test_mass_noun_token(self) -> None:
m = scan("money")
assert m is not None
assert m.primitive_name == "mass-noun-token"
assert m.emit_category == "UNIT_CATEGORY_TOKEN"
assert m.extracted_values["lemma"] == "money"
assert m.extracted_values["unit_class"] == "currency-mass"
def test_numeric_literal(self) -> None:
m = scan("18")
assert m is not None
assert m.primitive_name == "numeric-literal"
assert m.emit_category == "QUANTITY"
assert m.extracted_values["value"] == "18"
assert m.extracted_values["unit_class"] == "pending"
# ---------------------------------------------------------------------------
# Overlap precedence (ADR-0164.1 §Overlap precedence)
# ---------------------------------------------------------------------------
class TestOverlapPrecedence:
def test_dollar_18_00_decimal_currency_wins_over_currency(self) -> None:
m = scan("$18.00")
assert m is not None
assert m.primitive_name == "decimal-currency-literal", (
f"expected decimal-currency-literal, got {m.primitive_name}"
)
def test_dollar_18_currency_wins_over_numeric(self) -> None:
m = scan("$18")
assert m is not None
assert m.primitive_name == "currency-literal"
def test_dollar_18_00_not_numeric(self) -> None:
m = scan("$18.00")
assert m is not None
assert m.primitive_name != "numeric-literal"
def test_fraction_wins_over_numeric(self) -> None:
m = scan("1/2")
assert m is not None
assert m.primitive_name == "fraction-literal"
def test_percentage_wins_over_numeric(self) -> None:
m = scan("50%")
assert m is not None
assert m.primitive_name == "percentage-literal"
def test_25_percent_not_numeric(self) -> None:
m = scan("25%")
assert m is not None
assert m.primitive_name != "numeric-literal"
# ---------------------------------------------------------------------------
# Refusal — scan returns None when no primitive matches
# ---------------------------------------------------------------------------
class TestRefusal:
def test_proper_noun_token_tina(self) -> None:
m = scan("Tina")
assert m is not None
assert m.primitive_name == "proper_noun_token"
@pytest.mark.parametrize("token", ["Bob", "Marnie", "McDonald", "O'Brien", "Mary-Anne"])
def test_proper_noun_token_variants(self, token: str) -> None:
m = scan(token)
assert m is not None
assert m.primitive_name == "proper_noun_token"
@pytest.mark.parametrize("token", ["tina", "TINA", "123", "$5.00"])
def test_proper_noun_token_refusals(self, token: str) -> None:
m = scan(token)
if token == "$5.00":
assert m is not None
assert m.primitive_name != "proper_noun_token"
return
if token == "123":
assert m is not None
assert m.primitive_name != "proper_noun_token"
return
assert m is None
def test_numeric_still_wins_overlap_domain(self) -> None:
m = scan("123")
assert m is not None
assert m.primitive_name == "numeric-literal"
def test_empty_string(self) -> None:
assert scan("") is None
def test_plain_verb(self) -> None:
assert scan("earn") is None
def test_question_word(self) -> None:
assert scan("how") is None
def test_article(self) -> None:
assert scan("the") is None
def test_preposition(self) -> None:
assert scan("for") is None
# ---------------------------------------------------------------------------
# Determinism — identical inputs produce byte-equal results
# ---------------------------------------------------------------------------
class TestDeterminism:
@pytest.mark.parametrize("token", [
"$18.00", "$18", "25%", "1/2", "3hours", "first", "money", "18",
])
def test_byte_equal_on_repeat(self, token: str) -> None:
a = scan(token)
b = scan(token)
assert a == b
def test_none_is_none(self) -> None:
assert scan("Tina") == scan("Tina")
def test_lexeme_match_eq_semantics(self) -> None:
a = scan("$18.00")
b = scan("$18.00")
assert a is not None and b is not None
assert a == b
# LexemeMatch is frozen dataclass — equality is field-wise
assert a.primitive_name == b.primitive_name
assert a.emit_category == b.emit_category
assert dict(a.extracted_values) == dict(b.extracted_values)
assert a.source_text == b.source_text
assert a.source_span == b.source_span
# ---------------------------------------------------------------------------
# ADR-0165 compliance — no primitive pattern contains \s (whitespace class)
# ---------------------------------------------------------------------------
class TestADR0165Compliance:
def test_no_multi_whitespace_in_patterns(self) -> None:
# ADR-0165 forbids \s+ grammar-template patterns. Single \s? is explicitly
# sanctioned in ADR-0164.1 §Seed primitive set for percentage-literal,
# fraction-literal, and time-amount-literal (single optional space within
# one orthographic form — not a cross-token span).
for p in PRIMITIVE_REGISTRY:
src = p.pattern.pattern
assert r"\s+" not in src, (
f"{p.name}: pattern contains \\s+ — multi-whitespace spans cross "
f"token boundaries (ADR-0165 §Rule). Pattern: {src!r}"
)
def test_no_star_wildcard_spanning_patterns(self) -> None:
for p in PRIMITIVE_REGISTRY:
src = p.pattern.pattern
assert r".*" not in src, (
f"{p.name}: pattern contains .* — forbidden grammar-template indicator"
)
# ---------------------------------------------------------------------------
# extracted_values sorted-key stability (canonical bytes)
# ---------------------------------------------------------------------------
class TestExtractedValuesSortedKeys:
@pytest.mark.parametrize("token", [
"$18.00", "$18", "25%", "1/2", "3hours", "first", "money", "18",
])
def test_keys_are_sorted(self, token: str) -> None:
m = scan(token)
assert m is not None
keys = list(m.extracted_values.keys())
assert keys == sorted(keys), f"keys not sorted for token {token!r}: {keys}"
def test_extracted_values_immutable(self) -> None:
m = scan("$18.00")
assert m is not None
with pytest.raises((TypeError, AttributeError)):
m.extracted_values["tampered"] = "x" # type: ignore[index]