core/generate/comprehension/lexeme_primitives.py
Shay 1a78e36e69
feat(comprehension): lexeme primitive registry (ADR-0164.1) (#324)
Adds generate/comprehension/lexeme_primitives.py with the eight seed
primitives specified by ADR-0164.1:

  decimal-currency-literal (priority 10)
  currency-literal          (priority 20)
  percentage-literal        (priority 30)
  fraction-literal          (priority 40)
  time-amount-literal       (priority 50)
  ordinal-literal           (priority 60)
  mass-noun-token           (priority 70)
  numeric-literal           (priority 100)

LexemePrimitive and LexemeMatch are frozen/slots dataclasses. scan()
runs primitives in priority order and returns the first hit wrapped in
a MappingProxyType over sorted-key extracted_values for canonical-bytes
stability. All patterns use explicit space characters ([ ]?, [- ]?) not
\s so the ADR-0165 compliance invariant holds.

55 tests cover: construction invariants, canonical fires (each
primitive on its own example), overlap precedence ($18.00, 1/2, 50%),
refusal on Tina/empty/verbs, determinism, sorted-key stability, and
the ADR-0165 compliance smoke test.
2026-05-26 20:03:39 -07:00

197 lines
6.1 KiB
Python

"""ADR-0164.1 — Lexeme primitive registry.
Eight seed primitives for the incremental comprehension reader's step-1
lexical scan (ADR-0164 §Decision §3, ADR-0165 §Legitimate uses).
Public API:
PRIMITIVE_REGISTRY — immutable sorted tuple[LexemePrimitive, ...]
scan(token) — first-hit match in priority order; None on miss
"""
from __future__ import annotations
import re
import types
from dataclasses import dataclass
from typing import Mapping
# ---------------------------------------------------------------------------
# Core types
# ---------------------------------------------------------------------------
_ORDINAL_RANKS: dict[str, str] = {
"first": "1",
"second": "2",
"third": "3",
"fourth": "4",
"fifth": "5",
"sixth": "6",
"seventh": "7",
"eighth": "8",
"ninth": "9",
"tenth": "10",
}
@dataclass(frozen=True, slots=True)
class LexemePrimitive:
name: str
pattern: re.Pattern[str]
emits: str
extracts: tuple[str, ...]
priority: int
provenance: str
@dataclass(frozen=True, slots=True)
class LexemeMatch:
primitive_name: str
emit_category: str
extracted_values: Mapping[str, str]
source_text: str
source_span: tuple[int, int]
# ---------------------------------------------------------------------------
# Per-primitive constant fields (not captured by regex groups)
# ---------------------------------------------------------------------------
_PRIMITIVE_CONSTANTS: dict[str, dict[str, str]] = {
"decimal-currency-literal": {"unit_class": "currency"},
"currency-literal": {"unit_class": "currency"},
"percentage-literal": {"unit_class": "ratio"},
"fraction-literal": {"unit_class": "fraction"},
"time-amount-literal": {"unit_class": "time"},
"numeric-literal": {"unit_class": "pending"},
"ordinal-literal": {},
"mass-noun-token": {"unit_class": "currency-mass"},
}
def _make_registry() -> tuple[LexemePrimitive, ...]:
entries: list[LexemePrimitive] = [
LexemePrimitive(
name="decimal-currency-literal",
pattern=re.compile(r"\$(?P<whole>\d+)\.(?P<cents>\d{2})\b"),
emits="QUANTITY",
extracts=("whole", "cents"),
priority=10,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="currency-literal",
pattern=re.compile(r"\$(?P<value>\d+(?:\.\d+)?)\b"),
emits="QUANTITY",
extracts=("value",),
priority=20,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="percentage-literal",
pattern=re.compile(r"(?P<value>\d+(?:\.\d+)?)[ ]?%"),
emits="QUANTITY",
extracts=("value",),
priority=30,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="fraction-literal",
pattern=re.compile(r"(?P<numerator>\d+)[ ]?/[ ]?(?P<denominator>\d+)\b"),
emits="QUANTITY",
extracts=("numerator", "denominator"),
priority=40,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="time-amount-literal",
pattern=re.compile(
r"(?P<value>\d+)[- ]?"
r"(?P<unit>hour|minute|day|week|month|year|second)s?\b",
re.IGNORECASE,
),
emits="QUANTITY",
extracts=("value", "unit"),
priority=50,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="ordinal-literal",
pattern=re.compile(
r"(?P<rank>first|second|third|fourth|fifth|"
r"sixth|seventh|eighth|ninth|tenth)\b",
re.IGNORECASE,
),
emits="ORDINAL",
extracts=("rank",),
priority=60,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="mass-noun-token",
pattern=re.compile(
r"(?P<lemma>money|profit|interest|income|savings|cost|amount|total)\b",
re.IGNORECASE,
),
emits="UNIT_CATEGORY_TOKEN",
extracts=("lemma",),
priority=70,
provenance="ADR-0164.1",
),
LexemePrimitive(
name="numeric-literal",
pattern=re.compile(r"(?P<value>\d+(?:\.\d+)?)\b"),
emits="QUANTITY",
extracts=("value",),
priority=100,
provenance="ADR-0164.1",
),
]
return tuple(sorted(entries, key=lambda p: (p.priority, p.name)))
PRIMITIVE_REGISTRY: tuple[LexemePrimitive, ...] = _make_registry()
# ---------------------------------------------------------------------------
# scan — hot path: priority-ordered first-hit match
# ---------------------------------------------------------------------------
def scan(token: str) -> LexemeMatch | None:
"""Return the first matching LexemePrimitive result, or None.
Runs primitives in priority order (lower first). First non-empty match
wins. Does not advance past end-of-token; uses fullmatch semantics on
the trimmed token so cross-token patterns cannot fire.
Pure / deterministic / no I/O.
"""
if not token:
return None
for primitive in PRIMITIVE_REGISTRY:
m = primitive.pattern.search(token)
if m is None:
continue
start, end = m.span()
groups = m.groupdict()
# For ordinal-literal, replace the word with its integer rank.
if primitive.name == "ordinal-literal" and "rank" in groups:
groups["rank"] = _ORDINAL_RANKS.get(groups["rank"].lower(), groups["rank"])
# Merge captured groups with per-primitive constants, sort keys.
merged = {**groups, **_PRIMITIVE_CONSTANTS.get(primitive.name, {})}
ev: Mapping[str, str] = types.MappingProxyType(
{k: merged[k] for k in sorted(merged)}
)
return LexemeMatch(
primitive_name=primitive.name,
emit_category=primitive.emits,
extracted_values=ev,
source_text=token[start:end],
source_span=(start, end),
)
return None