wangwei
e89695e490
- webapp/: FastAPI backend with runs/scenarios/evaluations API routers; services for run_reader, report_builder, scenario_scanner, task_manager (lazy ragas import — server boots even without ragas); Pydantic models - webapp/static/: single-page console (layout A: left-nav + main area); report detail with metric cards, Chart.js distribution histogram, grouping table, lowest-score sample review; trigger evaluation + log polling - webmain.py: uvicorn entry point (alongside existing main.py CLI) - start.bat: Windows one-click launcher with env checks and auto-browser open - rag_eval/datasets/: implement missing loader + normalizer modules (load_dataset_records, normalize_records) required by evaluator - scripts/seed_sample_run.py: generate realistic demo run artifacts - .gitignore: exclude datasets/ data files but keep rag_eval/datasets/ source Co-Authored-By: Claude Sonnet 4 <noreply@anthropic.com>
189 lines
6.6 KiB
Python
189 lines
6.6 KiB
Python
"""Aggregate a run's per-sample scores into the report payload for the UI.
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All aggregation reads only the standard scores.csv produced by the reporting
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layer, plus the metric list resolved by run_reader. The output mirrors the
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report detail page: metric means, per-metric distribution histograms, grouped
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means by difficulty / question_type, and the lowest-scoring samples for review.
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"""
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from __future__ import annotations
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import math
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from pathlib import Path
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import pandas as pd
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from webapp.services.text_utils import parse_contexts
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from webapp.models import (
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DistributionBin,
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GroupStat,
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ReportData,
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SampleScore,
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)
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from webapp.services import run_reader
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# Number of equal-width buckets used for metric score histograms.
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DISTRIBUTION_BIN_COUNT = 5
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# Metadata columns that we group samples by when present in the data.
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GROUPING_FIELDS = ("difficulty", "question_type", "language")
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# How many lowest-scoring samples to surface for manual review.
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LOWEST_SAMPLE_COUNT = 10
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def _round_or_none(value: float | None) -> float | None:
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"""Round a float to four places, mapping NaN/None to None for clean JSON."""
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if value is None:
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return None
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if isinstance(value, float) and (math.isnan(value) or math.isinf(value)):
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return None
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return round(float(value), 4)
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def _metric_means(frame: pd.DataFrame, metrics: list[str]) -> dict[str, float | None]:
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"""Compute the mean of each metric column across all scored samples."""
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means: dict[str, float | None] = {}
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for metric in metrics:
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if metric in frame.columns:
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means[metric] = _round_or_none(frame[metric].mean(numeric_only=True))
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else:
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means[metric] = None
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return means
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def _distribution(frame: pd.DataFrame, metric: str) -> list[DistributionBin]:
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"""Bucket one metric's scores into fixed-width [0,1] histogram bins."""
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bins: list[DistributionBin] = []
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if metric not in frame.columns:
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return bins
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series = pd.to_numeric(frame[metric], errors="coerce").dropna()
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width = 1.0 / DISTRIBUTION_BIN_COUNT
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for index in range(DISTRIBUTION_BIN_COUNT):
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lower = index * width
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upper = (index + 1) * width
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# Include the right edge in the final bin so 1.0 is counted.
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if index == DISTRIBUTION_BIN_COUNT - 1:
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mask = (series >= lower) & (series <= upper)
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else:
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mask = (series >= lower) & (series < upper)
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bins.append(
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DistributionBin(
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label=f"{lower:.1f}–{upper:.1f}",
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lower=round(lower, 2),
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upper=round(upper, 2),
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count=int(mask.sum()),
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)
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)
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return bins
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def _groupings(frame: pd.DataFrame, metrics: list[str]) -> dict[str, list[GroupStat]]:
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"""Compute per-group metric means for each available grouping field."""
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groupings: dict[str, list[GroupStat]] = {}
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for field in GROUPING_FIELDS:
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if field not in frame.columns:
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continue
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# Skip fields that are entirely empty so the UI does not render noise.
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non_empty = frame[field].astype(str).str.strip().replace("nan", "")
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if non_empty.eq("").all():
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continue
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stats: list[GroupStat] = []
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for key, group in frame.groupby(frame[field].astype(str)):
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key_text = str(key).strip()
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if not key_text or key_text == "nan":
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continue
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means = {
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metric: _round_or_none(group[metric].mean(numeric_only=True))
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for metric in metrics
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if metric in group.columns
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}
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stats.append(GroupStat(key=key_text, count=int(len(group)), means=means))
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if stats:
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stats.sort(key=lambda item: item.key)
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groupings[field] = stats
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return groupings
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def _sample_mean(row: pd.Series, metrics: list[str]) -> float | None:
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"""Average a single sample's available metric scores for ranking."""
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values = [
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float(row[metric])
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for metric in metrics
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if metric in row and pd.notna(row[metric])
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]
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if not values:
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return None
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return sum(values) / len(values)
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def _cell_text(row: pd.Series, column: str) -> str:
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"""Safely read a string cell, returning '' for missing or NaN values."""
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if column not in row or pd.isna(row[column]):
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return ""
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return str(row[column]).strip()
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def _lowest_samples(frame: pd.DataFrame, metrics: list[str]) -> list[SampleScore]:
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"""Select and shape the lowest-scoring samples for the review table."""
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if frame.empty:
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return []
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enriched: list[tuple[float, SampleScore]] = []
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for _, row in frame.iterrows():
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mean_score = _sample_mean(row, metrics)
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sample = SampleScore(
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sample_id=_cell_text(row, "sample_id") or "—",
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question=_cell_text(row, "question"),
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contexts=parse_contexts(row["contexts"]) if "contexts" in row else [],
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answer=_cell_text(row, "answer"),
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ground_truth=_cell_text(row, "ground_truth"),
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language=_cell_text(row, "language"),
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difficulty=_cell_text(row, "difficulty"),
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question_type=_cell_text(row, "question_type"),
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metrics={
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metric: _round_or_none(float(row[metric]))
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for metric in metrics
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if metric in row and pd.notna(row[metric])
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},
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mean_score=_round_or_none(mean_score),
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error=_cell_text(row, "error"),
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)
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# Samples without any score sort last (treated as worst for review).
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sort_key = mean_score if mean_score is not None else -1.0
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enriched.append((sort_key, sample))
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enriched.sort(key=lambda item: item[0])
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return [sample for _, sample in enriched[:LOWEST_SAMPLE_COUNT]]
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def build_report(run_dir: Path, metrics: list[str]) -> ReportData:
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"""Build the full aggregated report payload for one run directory."""
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frame = run_reader.read_scores_frame(run_dir)
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summary_markdown = run_reader.read_summary_markdown(run_dir)
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if frame.empty or not metrics:
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return ReportData(
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metrics=metrics,
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metric_means={metric: None for metric in metrics},
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summary_markdown=summary_markdown,
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)
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distributions = {
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metric: _distribution(frame, metric)
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for metric in metrics
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if metric in frame.columns
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}
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return ReportData(
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metrics=metrics,
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metric_means=_metric_means(frame, metrics),
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distributions=distributions,
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groupings=_groupings(frame, metrics),
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lowest_samples=_lowest_samples(frame, metrics),
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summary_markdown=summary_markdown,
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)
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