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2026-07-13 12:42:18 +08:00

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Python

"""Tests for graph visualization export."""
import json
import pytest
from code_review_graph.graph import GraphStore
from code_review_graph.parser import EdgeInfo, NodeInfo
@pytest.fixture
def store_with_data(tmp_path):
db_path = tmp_path / "test.db"
store = GraphStore(db_path)
file_node = NodeInfo(
kind="File",
name="auth.py",
file_path="src/auth.py",
line_start=1,
line_end=50,
language="python",
parent_name=None,
params=None,
return_type=None,
modifiers=None,
is_test=False,
extra={},
)
class_node = NodeInfo(
kind="Class",
name="AuthService",
file_path="src/auth.py",
line_start=5,
line_end=45,
language="python",
parent_name=None,
params=None,
return_type=None,
modifiers=None,
is_test=False,
extra={},
)
func_node = NodeInfo(
kind="Function",
name="login",
file_path="src/auth.py",
line_start=10,
line_end=20,
language="python",
parent_name="AuthService",
params="username, password",
return_type="bool",
modifiers=None,
is_test=False,
extra={},
)
test_file = NodeInfo(
kind="File",
name="test_auth.py",
file_path="tests/test_auth.py",
line_start=1,
line_end=10,
language="python",
parent_name=None,
params=None,
return_type=None,
modifiers=None,
is_test=False,
extra={},
)
test_node = NodeInfo(
kind="Test",
name="test_login",
file_path="tests/test_auth.py",
line_start=1,
line_end=10,
language="python",
parent_name=None,
params=None,
return_type=None,
modifiers=None,
is_test=True,
extra={},
)
store.upsert_node(file_node)
store.upsert_node(class_node)
store.upsert_node(func_node)
store.upsert_node(test_file)
store.upsert_node(test_node)
contains_edge = EdgeInfo(
kind="CONTAINS",
source="src/auth.py",
target="src/auth.py::AuthService",
file_path="src/auth.py",
line=5,
extra={},
)
calls_edge = EdgeInfo(
kind="CALLS",
source="tests/test_auth.py::test_login",
target="src/auth.py::AuthService.login",
file_path="tests/test_auth.py",
line=5,
extra={},
)
store.upsert_edge(contains_edge)
store.upsert_edge(calls_edge)
store.commit()
return store
def test_export_graph_data(store_with_data):
from code_review_graph.visualization import export_graph_data
data = export_graph_data(store_with_data)
assert "nodes" in data
assert "edges" in data
assert "stats" in data
assert len(data["nodes"]) == 5
assert len(data["edges"]) == 2
node_names = {n["name"] for n in data["nodes"]}
assert "auth.py" in node_names
assert "AuthService" in node_names
assert "login" in node_names
edge_kinds = {e["kind"] for e in data["edges"]}
assert "CONTAINS" in edge_kinds
assert "CALLS" in edge_kinds
json.dumps(data) # must be serializable
def test_generate_html(store_with_data, tmp_path):
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
assert output_path.exists()
content = output_path.read_text()
assert "d3js.org" in content or "d3.v7" in content
assert "auth.py" in content
assert "AuthService" in content
assert "<!DOCTYPE html>" in content
assert "</html>" in content
def test_cpp_include_resolution(tmp_path):
"""IMPORTS_FROM edges with bare C++ include paths should resolve to File nodes
stored under absolute paths — previously these were dropped, leaving the
graph almost entirely disconnected for C/C++ projects."""
from code_review_graph.visualization import export_graph_data
db_path = tmp_path / "test.db"
store = GraphStore(db_path)
def _file(name, path, lang="cpp"):
return NodeInfo(
kind="File", name=name, file_path=path,
line_start=1, line_end=10, language=lang,
parent_name=None, params=None, return_type=None,
modifiers=None, is_test=False, extra={},
)
store.upsert_node(_file("main.cpp", "/abs/src/main.cpp"))
store.upsert_node(_file("Renderer.hpp", "/abs/libs/rendering/Renderer.hpp"))
store.upsert_node(_file("Utils.hpp", "/abs/libs/utils/Utils.hpp"))
# Parser emits bare include paths as targets — exactly what Tree-sitter sees
store.upsert_edge(EdgeInfo(
kind="IMPORTS_FROM",
source="/abs/src/main.cpp",
target="rendering/Renderer.hpp", # relative, one directory level
file_path="/abs/src/main.cpp", line=1, extra={},
))
store.upsert_edge(EdgeInfo(
kind="IMPORTS_FROM",
source="/abs/src/main.cpp",
target="Utils.hpp", # bare filename only
file_path="/abs/src/main.cpp", line=2, extra={},
))
store.commit()
data = export_graph_data(store)
resolved_targets = {e["target"] for e in data["edges"] if e["kind"] == "IMPORTS_FROM"}
assert "/abs/libs/rendering/Renderer.hpp" in resolved_targets, (
"bare relative include 'rendering/Renderer.hpp' was not resolved to its absolute path"
)
assert "/abs/libs/utils/Utils.hpp" in resolved_targets, (
"bare filename include 'Utils.hpp' was not resolved to its absolute path"
)
def test_generate_html_overwrites(store_with_data, tmp_path):
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
output_path.write_text("old content")
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert "old content" not in content
assert "<!DOCTYPE html>" in content
def test_export_includes_flows(store_with_data):
"""Export data should include a 'flows' key (list, possibly empty)."""
from code_review_graph.visualization import export_graph_data
data = export_graph_data(store_with_data)
assert "flows" in data
assert isinstance(data["flows"], list)
def test_export_includes_communities(store_with_data):
"""Export data should include a 'communities' key (list, possibly empty)."""
from code_review_graph.visualization import export_graph_data
data = export_graph_data(store_with_data)
assert "communities" in data
assert isinstance(data["communities"], list)
def test_generate_html_includes_all_edge_types(store_with_data, tmp_path):
"""Generated HTML should define colors and legend entries for all 7 edge types."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
for edge_kind in ["CALLS", "IMPORTS_FROM", "INHERITS", "CONTAINS",
"IMPLEMENTS", "TESTED_BY", "DEPENDS_ON"]:
assert edge_kind in content, f"Edge type {edge_kind} missing from HTML"
def test_generate_html_includes_interactive_features(store_with_data, tmp_path):
"""Generated HTML should include new interactive features."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
# Detail panel
assert "detail-panel" in content
# Community coloring button
assert "btn-community" in content
# Flow dropdown
assert "flow-select" in content
# Filter panel
assert "filter-panel" in content
# Search results dropdown
assert "search-results" in content
# Accessibility: skip link
assert "skip-link" in content
# Accessibility: live region
assert 'aria-live="polite"' in content
# Node shapes mapping
assert "KIND_SHAPE" in content
def test_generate_html_includes_node_shapes(store_with_data, tmp_path):
"""Generated HTML should use d3.symbol() for distinct node shapes."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert "d3.symbol()" in content or "symbolCircle" in content
assert "symbolSquare" in content
assert "symbolTriangle" in content
assert "symbolDiamond" in content
assert "symbolCross" in content
def test_generate_html_includes_help_overlay(store_with_data, tmp_path):
"""Generated HTML should include a help overlay for onboarding."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert "help-overlay" in content
assert "btn-help" in content
assert "Click a file" in content
def test_generate_html_includes_aria_attributes(store_with_data, tmp_path):
"""Generated HTML should include key ARIA attributes for accessibility."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert 'role="tooltip"' in content
assert 'role="dialog"' in content
assert 'role="listbox"' in content
assert 'aria-pressed="false"' in content # community button
assert 'aria-modal="false"' in content # detail panel
def test_generate_html_includes_loading_and_empty_state(store_with_data, tmp_path):
"""Generated HTML should include loading overlay and empty state markup."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert "loading-overlay" in content
assert "empty-state" in content
assert "No nodes to display" in content
def test_generate_html_includes_focus_visible(store_with_data, tmp_path):
"""Generated HTML should include :focus-visible styles."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "graph.html"
generate_html(store_with_data, output_path)
content = output_path.read_text()
assert ":focus-visible" in content
# ---------------------------------------------------------------------------
# Phase 9: Visualization Aggregation
# ---------------------------------------------------------------------------
@pytest.fixture
def large_store(tmp_path):
"""Store with enough nodes/communities to test aggregation."""
db_path = tmp_path / "large.db"
store = GraphStore(db_path)
# Create nodes across multiple files (simulates a larger codebase)
files = [f"src/mod{i}.py" for i in range(5)]
for fp in files:
file_node = NodeInfo(
kind="File", name=fp.split("/")[-1], file_path=fp,
line_start=1, line_end=100, language="python",
parent_name=None, params=None, return_type=None,
modifiers=None, is_test=False, extra={},
)
store.upsert_node(file_node)
# Add some functions per file
for j in range(3):
func_node = NodeInfo(
kind="Function", name=f"func_{j}",
file_path=fp, line_start=10 + j * 10, line_end=20 + j * 10,
language="python", parent_name=None,
params="x", return_type="int",
modifiers=None, is_test=False, extra={},
)
store.upsert_node(func_node)
# CONTAINS edge from file to function
store.upsert_edge(EdgeInfo(
kind="CONTAINS", source=fp,
target=f"{fp}::func_{j}",
file_path=fp, line=10 + j * 10, extra={},
))
# Add some cross-file CALLS edges
store.upsert_edge(EdgeInfo(
kind="CALLS",
source="src/mod0.py::func_0",
target="src/mod1.py::func_1",
file_path="src/mod0.py", line=15, extra={},
))
store.upsert_edge(EdgeInfo(
kind="CALLS",
source="src/mod2.py::func_0",
target="src/mod3.py::func_2",
file_path="src/mod2.py", line=12, extra={},
))
store.upsert_edge(EdgeInfo(
kind="CALLS",
source="src/mod1.py::func_2",
target="src/mod4.py::func_0",
file_path="src/mod1.py", line=35, extra={},
))
# Set community_id on nodes (simulate community detection)
store._conn.execute(
"UPDATE nodes SET community_id = 0 WHERE file_path IN ('src/mod0.py', 'src/mod1.py')"
)
store._conn.execute(
"UPDATE nodes SET community_id = 1 WHERE file_path IN ('src/mod2.py', 'src/mod3.py')"
)
store._conn.execute(
"UPDATE nodes SET community_id = 2 WHERE file_path = 'src/mod4.py'"
)
# Create communities table and insert communities
store._conn.execute("""
CREATE TABLE IF NOT EXISTS communities (
id INTEGER PRIMARY KEY,
name TEXT NOT NULL,
level INTEGER DEFAULT 0,
cohesion REAL DEFAULT 0.0,
size INTEGER DEFAULT 0,
dominant_language TEXT DEFAULT '',
description TEXT DEFAULT ''
)
""")
store._conn.execute("""
CREATE TABLE IF NOT EXISTS community_members (
community_id INTEGER, node_id INTEGER,
FOREIGN KEY (community_id) REFERENCES communities(id)
)
""")
store._conn.execute(
"INSERT INTO communities (id, name, level, cohesion, size, dominant_language, description) "
"VALUES (0, 'Core Module', 0, 0.8, 8, 'python', 'Core functionality')"
)
store._conn.execute(
"INSERT INTO communities (id, name, level, cohesion, size, dominant_language, description) "
"VALUES (1, 'Data Module', 0, 0.7, 8, 'python', 'Data processing')"
)
store._conn.execute(
"INSERT INTO communities (id, name, level, cohesion, size, dominant_language, description) "
"VALUES (2, 'Utils', 0, 0.5, 4, 'python', 'Utility functions')"
)
# Insert community_members so get_communities works
for row in store._conn.execute(
"SELECT id, qualified_name, community_id FROM nodes WHERE community_id IS NOT NULL"
).fetchall():
store._conn.execute(
"INSERT INTO community_members (community_id, node_id) VALUES (?, ?)",
(row["community_id"], row["id"]),
)
store.commit()
return store
def test_community_mode_fewer_nodes(large_store, tmp_path):
"""Community mode should produce fewer nodes than full mode."""
from code_review_graph.visualization import (
_aggregate_community,
export_graph_data,
)
data = export_graph_data(large_store)
full_node_count = len(data["nodes"])
agg = _aggregate_community(data)
community_node_count = len(agg["nodes"])
assert community_node_count < full_node_count, (
f"Community mode ({community_node_count} nodes) should have fewer nodes "
f"than full mode ({full_node_count} nodes)"
)
# All aggregated nodes should be of kind "Community"
for n in agg["nodes"]:
assert n["kind"] == "Community"
# Edges should be CROSS_COMMUNITY type
for e in agg["edges"]:
assert e["kind"] == "CROSS_COMMUNITY"
# Should have community_details for drill-down
assert "community_details" in agg
assert len(agg["community_details"]) > 0
def test_file_mode_aggregation(large_store, tmp_path):
"""File mode should produce one node per file."""
from code_review_graph.visualization import (
_aggregate_file,
export_graph_data,
)
data = export_graph_data(large_store)
full_node_count = len(data["nodes"])
agg = _aggregate_file(data)
file_node_count = len(agg["nodes"])
assert file_node_count < full_node_count, (
f"File mode ({file_node_count} nodes) should have fewer nodes "
f"than full mode ({full_node_count} nodes)"
)
# All nodes should be of kind "File"
for n in agg["nodes"]:
assert n["kind"] == "File"
# Edges should be DEPENDS_ON type
for e in agg["edges"]:
assert e["kind"] == "DEPENDS_ON"
# Mode should be set
assert agg["mode"] == "file"
def test_auto_mode_switches_at_threshold(large_store, tmp_path):
"""Auto mode should switch to community when nodes exceed threshold."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "auto_low.html"
# Threshold higher than node count -> should use full template
generate_html(large_store, output_path, mode="auto", max_full_nodes=100000)
content = output_path.read_text()
# Full template has btn-community and flow-select
assert "btn-community" in content
assert "flow-select" in content
output_path2 = tmp_path / "auto_high.html"
# Threshold of 1 -> should switch to community mode
generate_html(large_store, output_path2, mode="auto", max_full_nodes=1)
content2 = output_path2.read_text()
# Aggregated template has btn-back and community_details
assert "btn-back" in content2
assert "community_details" in content2
def test_community_mode_html_generation(large_store, tmp_path):
"""Community mode generates valid HTML with aggregated data."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "community.html"
generate_html(large_store, output_path, mode="community")
content = output_path.read_text()
assert "<!DOCTYPE html>" in content
assert "</html>" in content
assert "btn-back" in content
assert "community_details" in content
assert "drillIntoCommunity" in content
def test_file_mode_html_generation(large_store, tmp_path):
"""File mode generates valid HTML with file-level data."""
from code_review_graph.visualization import generate_html
output_path = tmp_path / "file.html"
generate_html(large_store, output_path, mode="file")
content = output_path.read_text()
assert "<!DOCTYPE html>" in content
assert "</html>" in content
assert "DEPENDS_ON" in content
def test_full_mode_backward_compatible(store_with_data, tmp_path):
"""Full mode should produce identical output to the original 2-arg call."""
from code_review_graph.visualization import generate_html
# Original 2-arg call (backward compat)
output1 = tmp_path / "compat.html"
generate_html(store_with_data, output1)
content1 = output1.read_text()
assert "btn-community" in content1
assert "flow-select" in content1
# Explicit full mode
output2 = tmp_path / "full.html"
generate_html(store_with_data, output2, mode="full")
content2 = output2.read_text()
assert "btn-community" in content2
assert "flow-select" in content2
def test_community_detail_data_complete(large_store):
"""Each community's detail data should contain its member nodes."""
from code_review_graph.visualization import (
_aggregate_community,
export_graph_data,
)
data = export_graph_data(large_store)
agg = _aggregate_community(data)
for cid_str, detail in agg["community_details"].items():
assert "nodes" in detail
assert "edges" in detail
# Detail nodes should exist
assert isinstance(detail["nodes"], list)
assert isinstance(detail["edges"], list)
# All original nodes should appear in exactly one community detail
all_detail_qns = set()
for detail in agg["community_details"].values():
for n in detail["nodes"]:
all_detail_qns.add(n["qualified_name"])
original_qns = {n["qualified_name"] for n in data["nodes"]}
assert original_qns == all_detail_qns, (
"All original nodes should be accounted for in community details"
)