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chore: import upstream snapshot with attribution
2026-07-13 12:33:42 +08:00

207 lines
5.4 KiB
Go

package languages
import (
"testing"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"github.com/zzet/gortex/internal/graph"
)
func TestCppExtractor_Function(t *testing.T) {
src := []byte(`#include <iostream>
void greet(const std::string& name) {
std::cout << "Hello " << name << std::endl;
}
`)
e := NewCppExtractor()
result, err := e.Extract("main.cpp", src)
require.NoError(t, err)
funcs := nodesOfKind(result.Nodes, graph.KindFunction)
assert.GreaterOrEqual(t, len(funcs), 1)
assert.Equal(t, "greet", funcs[0].Name)
}
func TestCppExtractor_Class(t *testing.T) {
src := []byte(`class Point {
public:
int x, y;
Point(int x, int y) : x(x), y(y) {}
int distance() {
return x * x + y * y;
}
};
`)
e := NewCppExtractor()
result, err := e.Extract("point.cpp", src)
require.NoError(t, err)
types := nodesOfKind(result.Nodes, graph.KindType)
assert.GreaterOrEqual(t, len(types), 1)
assert.Equal(t, "Point", types[0].Name)
methods := nodesOfKind(result.Nodes, graph.KindMethod)
assert.GreaterOrEqual(t, len(methods), 1)
// Check MemberOf edges point to class.
memberEdges := edgesOfKind(result.Edges, graph.EdgeMemberOf)
assert.GreaterOrEqual(t, len(memberEdges), 1)
for _, edge := range memberEdges {
assert.Equal(t, "point.cpp::Point", edge.To)
}
}
func TestCppExtractor_Struct(t *testing.T) {
src := []byte(`struct Vec3 {
float x, y, z;
};
`)
e := NewCppExtractor()
result, err := e.Extract("vec.cpp", src)
require.NoError(t, err)
types := nodesOfKind(result.Nodes, graph.KindType)
require.Len(t, types, 1)
assert.Equal(t, "Vec3", types[0].Name)
}
func TestCppExtractor_Include(t *testing.T) {
src := []byte(`#include <iostream>
#include "mylib.h"
`)
e := NewCppExtractor()
result, err := e.Extract("main.cpp", src)
require.NoError(t, err)
imports := edgesOfKind(result.Edges, graph.EdgeImports)
assert.Len(t, imports, 2)
}
func TestCppExtractor_Namespace(t *testing.T) {
src := []byte(`namespace math {
int add(int a, int b) {
return a + b;
}
}
`)
e := NewCppExtractor()
result, err := e.Extract("math.cpp", src)
require.NoError(t, err)
pkgs := nodesOfKind(result.Nodes, graph.KindPackage)
require.Len(t, pkgs, 1)
assert.Equal(t, "math", pkgs[0].Name)
}
func TestCppExtractor_Enum(t *testing.T) {
src := []byte(`enum class Color {
Red,
Green,
Blue
};
`)
e := NewCppExtractor()
result, err := e.Extract("color.cpp", src)
require.NoError(t, err)
types := nodesOfKind(result.Nodes, graph.KindType)
require.Len(t, types, 1)
assert.Equal(t, "Color", types[0].Name)
}
func TestCppExtractor_Calls(t *testing.T) {
src := []byte(`void greet() {}
void run() {
greet();
}
`)
e := NewCppExtractor()
result, err := e.Extract("main.cpp", src)
require.NoError(t, err)
calls := edgesOfKind(result.Edges, graph.EdgeCalls)
assert.GreaterOrEqual(t, len(calls), 1)
}
func TestCppExtractor_Extensions(t *testing.T) {
e := NewCppExtractor()
assert.Equal(t, "cpp", e.Language())
exts := e.Extensions()
assert.Contains(t, exts, ".cpp")
assert.Contains(t, exts, ".cc")
assert.Contains(t, exts, ".cxx")
assert.Contains(t, exts, ".hpp")
assert.NotContains(t, exts, ".h")
}
func TestCppExtractor_FnValueAddressOf(t *testing.T) {
src := []byte("void handler() {}\n" +
"struct Foo { void method() {} };\n" +
"void run() {\n" +
" reg(&handler);\n" +
" bind(&Foo::method);\n" +
"}\n")
res, err := NewCppExtractor().Extract("s.cpp", src)
require.NoError(t, err)
forms := map[string]string{} // fn_value_name -> fn_ref_form
for _, e := range res.Edges {
if e.Meta == nil {
continue
}
if v, _ := e.Meta["via"].(string); v != "callback_candidate" {
continue
}
if name, _ := e.Meta["fn_value_name"].(string); name != "" {
form, _ := e.Meta["fn_ref_form"].(string)
forms[name] = form
assert.Equal(t, "s.cpp::run", e.From, "captured in the enclosing function")
}
}
if _, ok := forms["handler"]; !ok {
t.Errorf("register(&handler) should capture handler as a function value (got %v)", forms)
}
if _, ok := forms["Foo::method"]; !ok {
t.Errorf("bind(&Foo::method) should capture Foo::method as a function value (got %v)", forms)
}
assert.Equal(t, "address_of", forms["handler"], "&handler is an address-of form")
assert.Equal(t, "address_of", forms["Foo::method"], "&Foo::method is an address-of form")
}
func TestCppExtractor_FactoryChainReceiver(t *testing.T) {
src := []byte("struct Widget { Widget withX() { return *this; } };\n" +
"Widget builder() { return Widget(); }\n" +
"void run() {\n" +
" builder().withX().build();\n" +
"}\n")
res, err := NewCppExtractor().Extract("w.cpp", src)
require.NoError(t, err)
var withX, build *graph.Edge
for _, e := range res.Edges {
if e.Kind != graph.EdgeCalls {
continue
}
switch e.To {
case "unresolved::*.withX":
withX = e
case "unresolved::*.build":
build = e
}
}
require.NotNil(t, withX, "withX() call edge")
require.NotNil(t, build, "build() call edge")
// builder() is a typed factory, so withX()'s receiver resolves to Widget.
assert.Equal(t, "Widget", withX.Meta["receiver_type"], "factory base resolves the chained receiver type")
// build()'s hop (withX) is not a typed node here, so the chain receiver
// expression is preserved for the graph-aware resolver to complete.
if got, _ := build.Meta["receiver_expr"].(string); got != "builder().withX()" {
t.Errorf("receiver_expr = %q, want builder().withX()", got)
}
}