Files
graphify/tests/test_affected_cli.py
T
balloon72 d885833112 fix node label lookup normalization (#1353)
Fixes #1338 (Unicode NFD/NFC): serve._find_node now matches tokenized labels; affected.resolve_seed NFC-normalizes + casefolds. Reviewed: full suite 2087 passed, CLI smoke clean, no regressions. Thanks @balloon72.
2026-06-17 10:29:43 +01:00

177 lines
6.5 KiB
Python

from __future__ import annotations
import json
import networkx as nx
from networkx.readwrite import json_graph
import graphify.__main__ as mainmod
def _write_graph(tmp_path):
graph = nx.DiGraph()
graph.add_node("target", label="Foo", source_file="pkg/foo.py", source_location="L1")
graph.add_node("caller", label="X()", source_file="app.py", source_location="L4")
graph.add_node("barrel", label="__init__.py", source_file="pkg/__init__.py", source_location=None)
graph.add_node("consumer", label="app.py", source_file="app.py", source_location=None)
graph.add_edge("caller", "target", relation="calls", context="call", confidence="EXTRACTED")
graph.add_edge("barrel", "target", relation="re_exports", context="export", confidence="EXTRACTED")
graph.add_edge("consumer", "target", relation="imports", context="import", confidence="EXTRACTED")
graph_path = tmp_path / "graph.json"
graph_path.write_text(json.dumps(json_graph.node_link_data(graph, edges="links")), encoding="utf-8")
return graph_path
def test_affected_cli_reverse_traverses_impact_edges(monkeypatch, tmp_path, capsys):
graph_path = _write_graph(tmp_path)
monkeypatch.setattr(mainmod, "_check_skill_version", lambda _: None)
monkeypatch.setattr(
mainmod.sys,
"argv",
["graphify", "affected", "Foo", "--graph", str(graph_path)],
)
mainmod.main()
out = capsys.readouterr().out
assert "Affected nodes for Foo" in out
assert "X()" in out
assert "calls" in out
assert "__init__.py" in out
assert "re_exports" in out
assert "app.py" in out
assert "imports" in out
def test_affected_cli_relation_filter_limits_reverse_traversal(monkeypatch, tmp_path, capsys):
graph_path = _write_graph(tmp_path)
monkeypatch.setattr(mainmod, "_check_skill_version", lambda _: None)
monkeypatch.setattr(
mainmod.sys,
"argv",
["graphify", "affected", "Foo", "--relation", "calls", "--graph", str(graph_path)],
)
mainmod.main()
out = capsys.readouterr().out
assert "Relations: calls" in out
assert "X()" in out
assert "__init__.py" not in out
def test_affected_cli_forces_directed_on_undirected_graph(monkeypatch, tmp_path, capsys):
"""A graph persisted with directed=false must still recover caller->callee
direction (#1174): affected on the callee returns the caller, not the callee
or nothing. Without forcing directed=True, node_link_graph builds an
undirected Graph, predecessors() collapses, and the reverse traversal breaks.
"""
graph = nx.DiGraph()
graph.add_node("A", label="caller_fn", source_file="a.py", source_location="L1")
graph.add_node("B", label="callee_fn", source_file="b.py", source_location="L2")
graph.add_edge("A", "B", relation="calls", context="call", confidence="EXTRACTED")
data = json_graph.node_link_data(graph, edges="links")
# Persist as undirected on disk to reproduce the bug condition.
data["directed"] = False
graph_path = tmp_path / "graph.json"
graph_path.write_text(json.dumps(data), encoding="utf-8")
monkeypatch.setattr(mainmod, "_check_skill_version", lambda _: None)
monkeypatch.setattr(
mainmod.sys,
"argv",
["graphify", "affected", "B", "--relation", "calls", "--graph", str(graph_path)],
)
mainmod.main()
out = capsys.readouterr().out
# A (the caller) is affected by a change to B (the callee).
assert "caller_fn" in out
assert "calls" in out
# B is the query node, not an affected node, and the result is not empty.
assert "No affected nodes found." not in out
def test_affected_cli_loads_edges_keyed_graph(monkeypatch, tmp_path, capsys):
"""graphify's `extract` writes graph.json with an "edges" key (not networkx's
default "links"). affected.load_graph must handle it; before the edges/links
normalization it raised an uncaught KeyError: 'links' (same class as #1198)."""
graph = nx.DiGraph()
graph.add_node("target", label="Foo", source_file="pkg/foo.py", source_location="L1")
graph.add_node("caller", label="X()", source_file="app.py", source_location="L4")
graph.add_edge("caller", "target", relation="calls", context="call", confidence="EXTRACTED")
# Emulate graphify extract output: top-level "edges" key instead of "links".
data = json_graph.node_link_data(graph, edges="links")
data["edges"] = data.pop("links")
graph_path = tmp_path / "graph.json"
graph_path.write_text(json.dumps(data), encoding="utf-8")
monkeypatch.setattr(mainmod, "_check_skill_version", lambda _: None)
monkeypatch.setattr(
mainmod.sys,
"argv",
["graphify", "affected", "Foo", "--graph", str(graph_path)],
)
mainmod.main()
out = capsys.readouterr().out
assert "Affected nodes for Foo" in out
assert "X()" in out
assert "calls" in out
def test_resolve_seed_bare_name_matches_callable_label():
from graphify.affected import resolve_seed
graph = nx.DiGraph()
graph.add_node("a", label="classifyProperty()", source_file="pkg/entity.py")
graph.add_node("b", label="classifyPropertySafe()", source_file="app/context.py")
assert resolve_seed(graph, "classifyProperty") == "a"
assert resolve_seed(graph, "classifyPropertySafe") == "b"
def test_resolve_seed_decorated_query_matches_bare_label():
from graphify.affected import resolve_seed
graph = nx.DiGraph()
graph.add_node("a", label="Foo", source_file="pkg/foo.py")
graph.add_node("b", label="FooBar", source_file="pkg/foobar.py")
assert resolve_seed(graph, "Foo()") == "a"
def test_resolve_seed_matches_unicode_normalized_label():
import unicodedata
from graphify.affected import resolve_seed
graph = nx.DiGraph()
graph.add_node("a", label="Auditoría", source_file="pkg/auditoria.py")
assert resolve_seed(graph, unicodedata.normalize("NFD", "Auditoría")) == "a"
def test_resolve_seed_preserves_distinct_accents():
from graphify.affected import resolve_seed
graph = nx.DiGraph()
graph.add_node("a", label="resume", source_file="pkg/resume.py")
graph.add_node("b", label="résumé", source_file="pkg/resume_accented.py")
assert resolve_seed(graph, "resume") == "a"
def test_resolve_seed_bare_name_tie_still_returns_none():
from graphify.affected import resolve_seed
graph = nx.DiGraph()
graph.add_node("a", label="dup()", source_file="pkg/one.py")
graph.add_node("b", label="dup()", source_file="pkg/two.py")
assert resolve_seed(graph, "dup") is None