Pure, advisory scan over an uploaded file or DataFrame that returns a list of
Finding objects naming each issue, the affected count, and which downstream
tool can fix it. The GUI uses this to badge tool nav items at upload; the CLI
will print findings as a table or JSON.
src/core/analyze.py:
Finding dataclass (id, severity, tool, count, description, column, samples)
analyze(source, *, sample_rows=1000, repair_result=None) -> list[Finding]
- source: DataFrame, path, or str. Path scans first 1000 rows.
- When source is a path, runs the same pre-parse repair the tool pages
will use; the resulting RepairResult is auto-surfaced as csv_*
findings. A caller-supplied repair_result wins so non-default repair
flags are respected.
Detectors (each independent, samples capped at 5):
- smart_punctuation_in_data -> 02
- nbsp_or_unicode_whitespace -> 02
- zero_width_or_invisible -> 02
- dirty_column_headers -> 02
- whitespace_padding -> 02
- null_like_sentinels -> 04
- suspected_mojibake -> 02 (Tier 2)
- mixed_case_email_column -> 02 case op
- leading_zero_ids -> informational, no tool
Helpers: findings_by_tool() for sidebar grouping, to_dict() for JSON.
Detectors are decoupled from the GUI display layer — they emit stable tool
ids ("02_text_cleaner") and the GUI maps those to display names.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
269 lines
9.9 KiB
Python
269 lines
9.9 KiB
Python
"""Tests for src.core.analyze — upload-time data quality detectors."""
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from __future__ import annotations
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from pathlib import Path
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import pandas as pd
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import pytest
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from src.core.analyze import (
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Finding,
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TOOL_DEDUPLICATOR,
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TOOL_MISSING_HANDLER,
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TOOL_TEXT_CLEANER,
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analyze,
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findings_by_tool,
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to_dict,
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)
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from src.core.io import RepairAction, RepairResult, repair_bytes
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def _ids(findings: list[Finding]) -> set[str]:
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return {f.id for f in findings}
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# ---------------------------------------------------------------------------
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# Smart punctuation
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# ---------------------------------------------------------------------------
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class TestSmartPunctuation:
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def test_finds_curly_quotes(self):
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df = pd.DataFrame({"note": ["plain", "“fancy”", "it’s"]})
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findings = analyze(df)
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assert "smart_punctuation_in_data" in _ids(findings)
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f = next(f for f in findings if f.id == "smart_punctuation_in_data")
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assert f.severity == "warn"
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assert f.tool == TOOL_TEXT_CLEANER
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assert f.count == 2
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def test_finds_dashes_and_ellipsis(self):
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df = pd.DataFrame({"note": ["a—b", "wait…"]})
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findings = analyze(df)
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assert "smart_punctuation_in_data" in _ids(findings)
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def test_clean_data_no_finding(self):
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df = pd.DataFrame({"note": ["plain", "ASCII only", "no smart chars"]})
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findings = analyze(df)
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assert "smart_punctuation_in_data" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Invisible / NBSP / dirty headers
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# ---------------------------------------------------------------------------
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class TestInvisibleChars:
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def test_finds_nbsp(self):
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df = pd.DataFrame({"name": ["Alice ", "Bob"]})
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findings = analyze(df)
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assert "nbsp_or_unicode_whitespace" in _ids(findings)
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f = next(f for f in findings if f.id == "nbsp_or_unicode_whitespace")
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assert f.count == 1
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def test_finds_zero_width(self):
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df = pd.DataFrame({"name": ["Alice", "Bob"]})
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findings = analyze(df)
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assert "zero_width_or_invisible" in _ids(findings)
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def test_flags_dirty_headers(self):
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df = pd.DataFrame({" id ": [1], "Email": ["a@b.com"]})
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findings = analyze(df)
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assert "dirty_column_headers" in _ids(findings)
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f = next(f for f in findings if f.id == "dirty_column_headers")
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assert f.count == 2
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def test_clean_headers_no_finding(self):
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df = pd.DataFrame({"id": [1], "email": ["a@b.com"]})
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findings = analyze(df)
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assert "dirty_column_headers" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Whitespace padding
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# ---------------------------------------------------------------------------
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class TestWhitespacePadding:
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def test_finds_leading_trailing_space(self):
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df = pd.DataFrame({"x": [" padded ", "clean"]})
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findings = analyze(df)
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assert "whitespace_padding" in _ids(findings)
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def test_finds_internal_double_space(self):
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df = pd.DataFrame({"x": ["double space", "single space"]})
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findings = analyze(df)
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assert "whitespace_padding" in _ids(findings)
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def test_no_finding_when_clean(self):
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df = pd.DataFrame({"x": ["clean", "also clean"]})
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findings = analyze(df)
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assert "whitespace_padding" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Null-like sentinels
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# ---------------------------------------------------------------------------
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class TestNullLikeSentinels:
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def test_finds_n_a_and_nan(self):
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df = pd.DataFrame({"x": ["valid", "N/A", "nan", "None", "-"]})
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findings = analyze(df)
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f = next(f for f in findings if f.id == "null_like_sentinels")
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assert f.count == 4
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assert f.tool == TOOL_MISSING_HANDLER
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assert f.severity == "info"
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def test_clean_data_no_finding(self):
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df = pd.DataFrame({"x": ["a", "b", "c"]})
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findings = analyze(df)
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assert "null_like_sentinels" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Mojibake
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# ---------------------------------------------------------------------------
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class TestMojibake:
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def test_finds_classic_pattern(self):
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df = pd.DataFrame({"name": ["café", "café", "Müller"]})
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findings = analyze(df)
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assert "suspected_mojibake" in _ids(findings)
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def test_clean_unicode_no_finding(self):
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df = pd.DataFrame({"name": ["café", "naïve", "München"]})
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findings = analyze(df)
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assert "suspected_mojibake" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Mixed-case email column
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# ---------------------------------------------------------------------------
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class TestMixedCaseEmail:
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def test_finds_mixed_case(self):
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df = pd.DataFrame({"email": ["Alice@Example.COM", "bob@example.com"]})
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findings = analyze(df)
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assert "mixed_case_email_column" in _ids(findings)
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def test_all_lower_no_finding(self):
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df = pd.DataFrame({"email": ["a@b.com", "c@d.com"]})
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findings = analyze(df)
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assert "mixed_case_email_column" not in _ids(findings)
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def test_non_email_column_ignored(self):
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df = pd.DataFrame({"name": ["Alice", "bob"]})
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findings = analyze(df)
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assert "mixed_case_email_column" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Leading-zero IDs
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# ---------------------------------------------------------------------------
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class TestLeadingZeroIds:
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def test_finds_zero_padded_ids(self):
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df = pd.DataFrame({
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"sku": ["0001234", "0005678", "0009999", "0001111", "0002222", "0003333"],
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})
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findings = analyze(df)
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assert "leading_zero_ids" in _ids(findings)
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def test_no_finding_when_no_leading_zero(self):
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df = pd.DataFrame({"id": [str(i) for i in range(1, 100)]})
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findings = analyze(df)
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assert "leading_zero_ids" not in _ids(findings)
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# ---------------------------------------------------------------------------
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# Findings synthesized from RepairResult
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# ---------------------------------------------------------------------------
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class TestFindingsFromRepair:
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def test_bom_strip_surfaces(self):
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repair = repair_bytes(b"\xef\xbb\xbfid,name\n1,Alice\n")
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findings = analyze(pd.DataFrame({"id": ["1"], "name": ["Alice"]}),
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repair_result=repair)
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assert "csv_bom_stripped" in _ids(findings)
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def test_nul_strip_surfaces(self):
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repair = repair_bytes(b"id,name\n1,Hel\x00lo\n")
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findings = analyze(pd.DataFrame({"id": ["1"], "name": ["Hello"]}),
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repair_result=repair)
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assert "csv_nul_stripped" in _ids(findings)
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def test_unrepairable_surfaces_as_error(self):
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# Synthesize a result with an unrepairable line.
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repair = RepairResult(
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repaired_bytes=b"id,a,b\n1,foo,bar\n",
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actions=[],
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unrepairable_lines=[3],
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)
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findings = analyze(pd.DataFrame({"id": ["1"], "a": ["foo"], "b": ["bar"]}),
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repair_result=repair)
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f = next(f for f in findings if f.id == "csv_unrepairable_rows")
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assert f.severity == "error"
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# ---------------------------------------------------------------------------
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# End-to-end on the corpus kitchen-sink fixture
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# ---------------------------------------------------------------------------
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class TestEndToEnd:
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def test_kitchen_sink_fixture_finds_pollution(self):
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path = Path("test-cases/text-cleaner-corpus/test_data/20_kitchen_sink.csv")
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if not path.exists():
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pytest.skip("corpus fixture not present")
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findings = analyze(path)
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ids = _ids(findings)
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# Kitchen-sink has BOM, smart quotes, NBSP, ZWSP, and dirty headers.
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# Pre-parse repair handles the file-level smart-quote/BOM, so they
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# show up as csv_* findings; the cell-level NBSP/ZW remain as
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# data findings.
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assert "csv_bom_stripped" in ids or "csv_smart_quotes_folded" in ids
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# NBSP-padded headers should still surface — pre-parse repair only
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# touches double-quote characters.
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assert any(i.startswith("dirty_") or i.startswith("nbsp") or i.startswith("zero_width")
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for i in ids)
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def test_clean_dataframe_returns_empty_findings(self):
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df = pd.DataFrame({
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"id": ["1", "2", "3"],
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"name": ["Alice", "Bob", "Carol"],
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"email": ["a@x.com", "b@x.com", "c@x.com"],
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})
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findings = analyze(df)
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assert findings == []
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# ---------------------------------------------------------------------------
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# Helpers
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# ---------------------------------------------------------------------------
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class TestHelpers:
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def test_findings_by_tool_groups_correctly(self):
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df = pd.DataFrame({
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"name": [" padded ", "“smart”"],
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"x": ["N/A", "valid"],
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})
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findings = analyze(df)
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grouped = findings_by_tool(findings)
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assert TOOL_TEXT_CLEANER in grouped
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assert TOOL_MISSING_HANDLER in grouped
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def test_findings_by_tool_skips_toolless(self):
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repair = RepairResult(
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repaired_bytes=b"", actions=[], unrepairable_lines=[5, 7],
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)
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findings = analyze(pd.DataFrame({"x": ["a"]}), repair_result=repair)
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grouped = findings_by_tool(findings)
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# csv_unrepairable_rows has tool="" and should not appear.
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assert all(t for t in grouped)
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def test_to_dict_is_json_serializable(self):
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df = pd.DataFrame({"x": [" padded "]})
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findings = analyze(df)
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d = to_dict(findings[0])
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import json
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json.dumps(d) # would raise on non-serializable values
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assert d["id"] == "whitespace_padding"
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assert "samples" in d
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