feat(evolution): validate.py — pure block validation decision functions (#7)

This commit is contained in:
2026-07-07 09:47:45 -04:00
parent 3005f24577
commit f7193551dd
2 changed files with 190 additions and 0 deletions
+85
View File
@@ -0,0 +1,85 @@
"""core/evolution/validate.py — 块验证纯决策函数。
算法 #7(块顺序验证)的局部实现:pair_block 逐题比对基线与候选、
classify_quadrants 四象限分类、compute_accuracy 纯算术准确率。
三个函数均为纯函数,无副作用、无外部依赖。
"""
from core.evolution.types import PairResult, QuadrantClassification
def pair_block(
baseline: dict[str, bool],
candidate: dict[str, bool],
question_ids: list[str],
) -> PairResult:
"""逐题比对基线与候选对错,统计翻转。
参数:
baseline: 基线臂每题正确性映射。
candidate: 候选臂每题正确性映射。
question_ids: 参与比对的题目 ID 列表。
返回:
PairResult,包含 w(基线错→候选对翻转数)、l(基线对→候选错翻转数)
和 observed(每题的 (基线, 候选) 对错记录)。
"""
w = l = 0 # noqa: E741 — 数学记号 W/Lwin/loss),与 gate.py 一致
observed: dict[str, tuple[bool, bool]] = {}
for qid in question_ids:
b, c = baseline[qid], candidate[qid]
observed[qid] = (b, c)
if not b and c:
w += 1
elif b and not c:
l += 1 # noqa: E741
return PairResult(w=w, l=l, observed=observed)
def classify_quadrants(
observed: dict[str, tuple[bool, bool]],
) -> QuadrantClassification:
"""按 (baseline, candidate) 四组分类,各组内 sorted。
参数:
observed: 每题的 (基线是否正确, 候选是否正确) 记录。
返回:
QuadrantClassification,四个象限各含排序后的题目 ID 列表。
"""
improvements: list[str] = []
regressions: list[str] = []
persistent_fails: list[str] = []
stable_successes: list[str] = []
for qid, (prev, curr) in observed.items():
if not prev and curr:
improvements.append(qid)
elif prev and not curr:
regressions.append(qid)
elif not prev and not curr:
persistent_fails.append(qid)
else:
stable_successes.append(qid)
return QuadrantClassification(
improvements=sorted(improvements),
regressions=sorted(regressions),
persistent_fails=sorted(persistent_fails),
stable_successes=sorted(stable_successes),
)
def compute_accuracy(
correctness: dict[str, bool],
question_ids: list[str],
) -> float:
"""纯算术:sum(correct) / len(ids)。
参数:
correctness: 每题正确性映射。
question_ids: 参与计算的题目 ID 列表。
返回:
准确率浮点数。question_ids 为空时抛出 ZeroDivisionError。
"""
return sum(correctness[qid] for qid in question_ids) / len(question_ids)
+105
View File
@@ -0,0 +1,105 @@
"""tests/unit/test_validate.py — 块验证纯决策函数的单元测试。"""
import pytest
from core.evolution.validate import classify_quadrants, compute_accuracy, pair_block
class TestPairBlock:
"""pair_block 逐题比对基线与候选的翻转统计测试。"""
def test_basic_flips(self) -> None:
"""基本翻转:一题从错到对(w)、一题从对到错(l)、一题不变。"""
baseline = {"q1": False, "q2": True, "q3": True}
candidate = {"q1": True, "q2": False, "q3": True}
result = pair_block(baseline, candidate, ["q1", "q2", "q3"])
assert result.w == 1
assert result.l == 1
assert result.observed == {
"q1": (False, True),
"q2": (True, False),
"q3": (True, True),
}
def test_empty(self) -> None:
"""空输入应返回零翻转。"""
result = pair_block({}, {}, [])
assert result.w == 0 and result.l == 0
def test_all_wins(self) -> None:
"""全部从错到对的极端情况。"""
baseline = {"q1": False, "q2": False}
candidate = {"q1": True, "q2": True}
result = pair_block(baseline, candidate, ["q1", "q2"])
assert result.w == 2
assert result.l == 0
def test_all_losses(self) -> None:
"""全部从对到错的极端情况。"""
baseline = {"q1": True, "q2": True}
candidate = {"q1": False, "q2": False}
result = pair_block(baseline, candidate, ["q1", "q2"])
assert result.w == 0
assert result.l == 2
def test_subset_of_questions(self) -> None:
"""只对 question_ids 中指定的子集进行比对。"""
baseline = {"q1": False, "q2": True, "q3": True}
candidate = {"q1": True, "q2": False, "q3": True}
result = pair_block(baseline, candidate, ["q1"])
assert result.w == 1
assert result.l == 0
assert "q2" not in result.observed
class TestClassifyQuadrants:
"""classify_quadrants 四象限分类测试。"""
def test_all_four(self) -> None:
"""四个象限各有一题。"""
observed = {
"q1": (False, True),
"q2": (True, False),
"q3": (False, False),
"q4": (True, True),
}
qc = classify_quadrants(observed)
assert qc.improvements == ["q1"]
assert qc.regressions == ["q2"]
assert qc.persistent_fails == ["q3"]
assert qc.stable_successes == ["q4"]
def test_sorted_within_quadrant(self) -> None:
"""同象限内题目 ID 应按字典序排列。"""
observed = {"z": (False, True), "a": (False, True)}
qc = classify_quadrants(observed)
assert qc.improvements == ["a", "z"]
def test_empty_observed(self) -> None:
"""空输入应返回全空象限。"""
qc = classify_quadrants({})
assert qc.improvements == []
assert qc.regressions == []
assert qc.persistent_fails == []
assert qc.stable_successes == []
class TestComputeAccuracy:
"""compute_accuracy 准确率计算测试。"""
def test_basic(self) -> None:
"""一对一错,准确率 0.5。"""
assert compute_accuracy({"q1": True, "q2": False}, ["q1", "q2"]) == 0.5
def test_all_correct(self) -> None:
"""全部正确,准确率 1.0。"""
assert compute_accuracy({"q1": True, "q2": True}, ["q1", "q2"]) == 1.0
def test_all_wrong(self) -> None:
"""全部错误,准确率 0.0。"""
assert compute_accuracy({"q1": False, "q2": False}, ["q1", "q2"]) == 0.0
def test_empty_raises(self) -> None:
"""空题目列表应抛出 ZeroDivisionError。"""
with pytest.raises(ZeroDivisionError):
compute_accuracy({}, [])