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archived-Reclass/tests/test_import_source.cpp
IChooseYou 70c7404556 fix: MSVC build support, modern theme, vergilius fnptr import 
- CMake: detect MSVC↔MinGW Qt ABI mismatch at configure time (#10)
- CMake: add /utf-8 /MP for MSVC builds
- CMake: fix theme/example deployment for multi-config generators (MSVC)
- Auto-run windeployqt post-build so correct Qt DLLs are always deployed
- Add Modern theme (dark blue with cyan/purple/amber accents)
- Vergilius import: handle function pointer typedefs
2026-03-07 11:31:04 -07:00

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#include <QtTest/QtTest>
#include "core.h"
#include "imports/import_source.h"
using namespace rcx;
class TestImportSource : public QObject {
Q_OBJECT
private slots:
// Basic type tests
void emptyInput();
void noStructs();
void singleEmptyStruct();
void stdintTypes();
void windowsTypes();
void platformPointerTypes();
void standardCTypes();
void multiWordTypes();
void floatDouble();
void boolType();
// Pointer tests
void voidPointer();
void typedPointer();
void selfReferencingPointer();
void doublePointer();
// Array tests
void primitiveArray();
void charArrayToUtf8();
void wcharArrayToUtf16();
void floatArrayToVec2();
void floatArrayToVec3();
void floatArrayToVec4();
void floatArray4x4ToMat4x4();
void genericFloatArray();
void structArray();
// Comment offset tests
void commentOffsets();
void computedOffsets();
void mixedOffsetsAutoDetect();
// Multi-struct tests
void multiStruct();
void pointerCrossRef();
// Forward declarations
void forwardDeclaration();
// Union handling
void unionContainer();
void unionWithCommentOffsets();
void namedUnion();
// Padding fields
void paddingFieldExpansion();
// static_assert
void staticAssertTailPadding();
// Embedded struct
void embeddedStruct();
// Typedef
void typedefBasic();
// Qualifiers
void constVolatileQualifiers();
void structPrefixOnType();
// Edge cases
void bitfieldSkipped();
void bitfieldWithOffsetsEmitsHex();
void hexArraySizes();
void windowsStylePEB();
void classKeyword();
void inheritanceSkipped();
// Enum tests
void enumBasic();
void enumAutoValues();
void enumHexValues();
void enumInStruct();
void enumClass();
// Round-trip test (requires generator.h)
void basicRoundTrip();
};
// ── Helper ──
static int countRoots(const NodeTree& tree) {
int n = 0;
for (const auto& node : tree.nodes)
if (node.parentId == 0 && node.kind == NodeKind::Struct) n++;
return n;
}
static QVector<int> childrenOf(const NodeTree& tree, uint64_t parentId) {
QVector<int> result;
for (int i = 0; i < tree.nodes.size(); i++)
if (tree.nodes[i].parentId == parentId) result.append(i);
return result;
}
// ── Tests ──
void TestImportSource::emptyInput() {
QString err;
NodeTree tree = importFromSource(QString(), &err);
QVERIFY(tree.nodes.isEmpty());
QVERIFY(!err.isEmpty());
}
void TestImportSource::noStructs() {
QString err;
NodeTree tree = importFromSource(QStringLiteral("int x = 42;"), &err);
QVERIFY(tree.nodes.isEmpty());
QVERIFY(!err.isEmpty());
}
void TestImportSource::singleEmptyStruct() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Empty {};\n"
));
QCOMPARE(countRoots(tree), 1);
QCOMPARE(tree.nodes[0].name, QStringLiteral("Empty"));
QCOMPARE(tree.nodes[0].kind, NodeKind::Struct);
}
void TestImportSource::stdintTypes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Test {\n"
" uint8_t a;\n"
" int8_t b;\n"
" uint16_t c;\n"
" int16_t d;\n"
" uint32_t e;\n"
" int32_t f;\n"
" uint64_t g;\n"
" int64_t h;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 1);
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 8);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt8);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Int8);
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::UInt16);
QCOMPARE(tree.nodes[kids[3]].kind, NodeKind::Int16);
QCOMPARE(tree.nodes[kids[4]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[kids[5]].kind, NodeKind::Int32);
QCOMPARE(tree.nodes[kids[6]].kind, NodeKind::UInt64);
QCOMPARE(tree.nodes[kids[7]].kind, NodeKind::Int64);
}
void TestImportSource::windowsTypes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct WinTypes {\n"
" BYTE a;\n"
" WORD b;\n"
" DWORD c;\n"
" QWORD d;\n"
" ULONG e;\n"
" LONG f;\n"
" USHORT g;\n"
" UCHAR h;\n"
" BOOLEAN i;\n"
" BOOL j;\n"
" CHAR k;\n"
" WCHAR l;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 12);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt8); // BYTE
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::UInt16); // WORD
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::UInt32); // DWORD
QCOMPARE(tree.nodes[kids[3]].kind, NodeKind::UInt64); // QWORD
QCOMPARE(tree.nodes[kids[4]].kind, NodeKind::UInt32); // ULONG
QCOMPARE(tree.nodes[kids[5]].kind, NodeKind::Int32); // LONG
QCOMPARE(tree.nodes[kids[6]].kind, NodeKind::UInt16); // USHORT
QCOMPARE(tree.nodes[kids[7]].kind, NodeKind::UInt8); // UCHAR
QCOMPARE(tree.nodes[kids[8]].kind, NodeKind::UInt8); // BOOLEAN
QCOMPARE(tree.nodes[kids[9]].kind, NodeKind::Int32); // BOOL
QCOMPARE(tree.nodes[kids[10]].kind, NodeKind::Int8); // CHAR
QCOMPARE(tree.nodes[kids[11]].kind, NodeKind::UInt16); // WCHAR
}
void TestImportSource::platformPointerTypes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct PtrTypes {\n"
" PVOID a;\n"
" HANDLE b;\n"
" SIZE_T c;\n"
" ULONG_PTR d;\n"
" uintptr_t e;\n"
" size_t f;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 6);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Pointer64);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Pointer64);
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::UInt64);
QCOMPARE(tree.nodes[kids[3]].kind, NodeKind::UInt64);
QCOMPARE(tree.nodes[kids[4]].kind, NodeKind::UInt64);
QCOMPARE(tree.nodes[kids[5]].kind, NodeKind::UInt64);
}
void TestImportSource::standardCTypes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct CTypes {\n"
" char a;\n"
" short b;\n"
" int c;\n"
" long d;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 4);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Int8); // char
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Int16); // short
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::Int32); // int
QCOMPARE(tree.nodes[kids[3]].kind, NodeKind::Int32); // long
}
void TestImportSource::multiWordTypes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct MultiWord {\n"
" unsigned char a;\n"
" unsigned short b;\n"
" unsigned int c;\n"
" unsigned long d;\n"
" long long e;\n"
" unsigned long long f;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 6);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt8);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::UInt16);
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[kids[3]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[kids[4]].kind, NodeKind::Int64);
QCOMPARE(tree.nodes[kids[5]].kind, NodeKind::UInt64);
}
void TestImportSource::floatDouble() {
NodeTree tree = importFromSource(QStringLiteral(
"struct FD {\n"
" float a;\n"
" double b;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 2);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Float);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Double);
}
void TestImportSource::boolType() {
NodeTree tree = importFromSource(QStringLiteral(
"struct B {\n"
" bool a;\n"
" _Bool b;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 2);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Bool);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Bool);
}
void TestImportSource::voidPointer() {
NodeTree tree = importFromSource(QStringLiteral(
"struct VP {\n"
" void* ptr;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Pointer64);
QCOMPARE(tree.nodes[kids[0]].name, QStringLiteral("ptr"));
QCOMPARE(tree.nodes[kids[0]].refId, uint64_t(0)); // void* has no target
}
void TestImportSource::typedPointer() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Target {\n"
" int x;\n"
"};\n"
"struct HasPtr {\n"
" Target* pTarget;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 2);
// Find HasPtr
int hasPtrIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("HasPtr") && tree.nodes[i].parentId == 0) {
hasPtrIdx = i; break;
}
}
QVERIFY(hasPtrIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[hasPtrIdx].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Pointer64);
QVERIFY(tree.nodes[kids[0]].refId != 0);
// refId should point to Target struct
int targetIdx = tree.indexOfId(tree.nodes[kids[0]].refId);
QVERIFY(targetIdx >= 0);
QCOMPARE(tree.nodes[targetIdx].name, QStringLiteral("Target"));
}
void TestImportSource::selfReferencingPointer() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Node {\n"
" int value;\n"
" Node* next;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 2);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Pointer64);
QCOMPARE(tree.nodes[kids[1]].refId, tree.nodes[0].id);
}
void TestImportSource::doublePointer() {
NodeTree tree = importFromSource(QStringLiteral(
"struct DP {\n"
" void** ppData;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Pointer64);
}
void TestImportSource::primitiveArray() {
NodeTree tree = importFromSource(QStringLiteral(
"struct PA {\n"
" int32_t values[10];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Array);
QCOMPARE(tree.nodes[kids[0]].arrayLen, 10);
QCOMPARE(tree.nodes[kids[0]].elementKind, NodeKind::Int32);
}
void TestImportSource::charArrayToUtf8() {
NodeTree tree = importFromSource(QStringLiteral(
"struct CA {\n"
" char name[64];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UTF8);
QCOMPARE(tree.nodes[kids[0]].strLen, 64);
}
void TestImportSource::wcharArrayToUtf16() {
NodeTree tree = importFromSource(QStringLiteral(
"struct WC {\n"
" wchar_t name[32];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UTF16);
QCOMPARE(tree.nodes[kids[0]].strLen, 32);
}
void TestImportSource::floatArrayToVec2() {
NodeTree tree = importFromSource(QStringLiteral(
"struct V {\n"
" float pos[2];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Vec2);
}
void TestImportSource::floatArrayToVec3() {
NodeTree tree = importFromSource(QStringLiteral(
"struct V {\n"
" float pos[3];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Vec3);
}
void TestImportSource::floatArrayToVec4() {
NodeTree tree = importFromSource(QStringLiteral(
"struct V {\n"
" float rot[4];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Vec4);
}
void TestImportSource::floatArray4x4ToMat4x4() {
NodeTree tree = importFromSource(QStringLiteral(
"struct M {\n"
" float matrix[4][4];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Mat4x4);
}
void TestImportSource::genericFloatArray() {
NodeTree tree = importFromSource(QStringLiteral(
"struct GF {\n"
" float values[8];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Array);
QCOMPARE(tree.nodes[kids[0]].arrayLen, 8);
QCOMPARE(tree.nodes[kids[0]].elementKind, NodeKind::Float);
}
void TestImportSource::structArray() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Item {\n"
" int id;\n"
"};\n"
"struct Container {\n"
" Item items[5];\n"
"};\n"
));
QCOMPARE(countRoots(tree), 2);
// Find Container
int contIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Container") && tree.nodes[i].parentId == 0) {
contIdx = i; break;
}
}
QVERIFY(contIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[contIdx].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Array);
QCOMPARE(tree.nodes[kids[0]].arrayLen, 5);
QCOMPARE(tree.nodes[kids[0]].elementKind, NodeKind::Struct);
}
void TestImportSource::commentOffsets() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Offsets {\n"
" uint64_t vtable; // 0x0\n"
" float health; // 0x8\n"
" uint8_t _pad000C[0x4]; // 0xC\n"
" double score; // 0x10\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
// vtable at 0x0
QCOMPARE(tree.nodes[kids[0]].offset, 0);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt64);
// health at 0x8
QCOMPARE(tree.nodes[kids[1]].offset, 8);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Float);
// _pad at 0xC -> hex nodes
// score at 0x10
// Find the double
bool foundDouble = false;
for (int k : kids) {
if (tree.nodes[k].kind == NodeKind::Double) {
QCOMPARE(tree.nodes[k].offset, 0x10);
foundDouble = true;
}
}
QVERIFY(foundDouble);
}
void TestImportSource::computedOffsets() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Computed {\n"
" uint8_t a;\n"
" uint16_t b;\n"
" uint32_t c;\n"
" uint64_t d;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 4);
QCOMPARE(tree.nodes[kids[0]].offset, 0); // uint8_t at 0
QCOMPARE(tree.nodes[kids[1]].offset, 2); // uint16_t at 2 (aligned)
QCOMPARE(tree.nodes[kids[2]].offset, 4); // uint32_t at 4 (aligned)
QCOMPARE(tree.nodes[kids[3]].offset, 8); // uint64_t at 8 (aligned)
}
void TestImportSource::mixedOffsetsAutoDetect() {
// If any field has a comment offset, all should use comment mode
NodeTree tree = importFromSource(QStringLiteral(
"struct Mixed {\n"
" uint32_t a; // 0x0\n"
" uint32_t b;\n"
" uint32_t c; // 0x10\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(tree.nodes[kids[0]].offset, 0);
// b has no comment offset, in comment mode it gets computed offset 4
QCOMPARE(tree.nodes[kids[1]].offset, 4);
// c has comment offset 0x10
QCOMPARE(tree.nodes[kids[2]].offset, 0x10);
}
void TestImportSource::multiStruct() {
NodeTree tree = importFromSource(QStringLiteral(
"struct A {\n"
" int x;\n"
"};\n"
"struct B {\n"
" float y;\n"
"};\n"
"struct C {\n"
" double z;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 3);
}
void TestImportSource::pointerCrossRef() {
NodeTree tree = importFromSource(QStringLiteral(
"struct A {\n"
" int value;\n"
"};\n"
"struct B {\n"
" A* ref;\n"
"};\n"
));
// Find B's pointer field
int bIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("B") && tree.nodes[i].parentId == 0) {
bIdx = i; break;
}
}
QVERIFY(bIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[bIdx].id);
QCOMPARE(kids.size(), 1);
QVERIFY(tree.nodes[kids[0]].refId != 0);
// Should point to A
int aIdx = tree.indexOfId(tree.nodes[kids[0]].refId);
QVERIFY(aIdx >= 0);
QCOMPARE(tree.nodes[aIdx].name, QStringLiteral("A"));
}
void TestImportSource::forwardDeclaration() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Bar;\n"
"struct Foo {\n"
" Bar* pBar;\n"
"};\n"
"struct Bar {\n"
" int val;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 2);
// Foo's pBar should resolve to Bar
int fooIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Foo") && tree.nodes[i].parentId == 0) {
fooIdx = i; break;
}
}
QVERIFY(fooIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[fooIdx].id);
QCOMPARE(kids.size(), 1);
QVERIFY(tree.nodes[kids[0]].refId != 0);
}
void TestImportSource::unionContainer() {
NodeTree tree = importFromSource(QStringLiteral(
"struct WithUnion {\n"
" union {\n"
" float asFloat;\n"
" uint32_t asInt;\n"
" };\n"
" int after;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
// Should have 2 direct children: union container + after
QCOMPARE(kids.size(), 2);
// First child is the union container
const auto& unionNode = tree.nodes[kids[0]];
QCOMPARE(unionNode.kind, NodeKind::Struct);
QCOMPARE(unionNode.classKeyword, QStringLiteral("union"));
QCOMPARE(unionNode.offset, 0);
// Union has 2 children, both at offset 0
auto unionKids = childrenOf(tree, unionNode.id);
QCOMPARE(unionKids.size(), 2);
QCOMPARE(tree.nodes[unionKids[0]].kind, NodeKind::Float);
QCOMPARE(tree.nodes[unionKids[0]].name, QStringLiteral("asFloat"));
QCOMPARE(tree.nodes[unionKids[0]].offset, 0);
QCOMPARE(tree.nodes[unionKids[1]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[unionKids[1]].name, QStringLiteral("asInt"));
QCOMPARE(tree.nodes[unionKids[1]].offset, 0);
// structSpan of union = max member size = 4
QCOMPARE(tree.structSpan(unionNode.id), 4);
// after field follows the union at offset 4
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Int32);
QCOMPARE(tree.nodes[kids[1]].name, QStringLiteral("after"));
QCOMPARE(tree.nodes[kids[1]].offset, 4);
}
void TestImportSource::unionWithCommentOffsets() {
NodeTree tree = importFromSource(QStringLiteral(
"struct S {\n"
" uint64_t a; // 0x0\n"
" union {\n"
" uint32_t x; // 0x8\n"
" float y; // 0x8\n"
" };\n"
" uint32_t b; // 0xC\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 3); // a + union + b
// Union at offset 0x8
const auto& unionNode = tree.nodes[kids[1]];
QCOMPARE(unionNode.kind, NodeKind::Struct);
QCOMPARE(unionNode.classKeyword, QStringLiteral("union"));
QCOMPARE(unionNode.offset, 0x8);
// Union members at offset 0 (relative to union)
auto unionKids = childrenOf(tree, unionNode.id);
QCOMPARE(unionKids.size(), 2);
QCOMPARE(tree.nodes[unionKids[0]].offset, 0);
QCOMPARE(tree.nodes[unionKids[1]].offset, 0);
// b at 0xC
QCOMPARE(tree.nodes[kids[2]].offset, 0xC);
}
void TestImportSource::namedUnion() {
NodeTree tree = importFromSource(QStringLiteral(
"struct S {\n"
" union {\n"
" uint16_t shortVal;\n"
" uint64_t longVal;\n"
" } u3;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
const auto& unionNode = tree.nodes[kids[0]];
QCOMPARE(unionNode.kind, NodeKind::Struct);
QCOMPARE(unionNode.classKeyword, QStringLiteral("union"));
QCOMPARE(unionNode.name, QStringLiteral("u3"));
auto unionKids = childrenOf(tree, unionNode.id);
QCOMPARE(unionKids.size(), 2);
// structSpan = max(2, 8) = 8
QCOMPARE(tree.structSpan(unionNode.id), 8);
}
void TestImportSource::paddingFieldExpansion() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Padded {\n"
" uint8_t _pad0000[0x10];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
// 0x10 = 16 bytes, should be 2x Hex64 (best fit)
QCOMPARE(kids.size(), 2);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Hex64);
QCOMPARE(tree.nodes[kids[0]].offset, 0);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Hex64);
QCOMPARE(tree.nodes[kids[1]].offset, 8);
}
void TestImportSource::staticAssertTailPadding() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Sized {\n"
" uint32_t x;\n"
"};\n"
"static_assert(sizeof(Sized) == 0x10, \"Size check\");\n"
));
// x is 4 bytes, static_assert says 0x10 = 16
// Should have tail padding from offset 4 to 16 (12 bytes)
int span = tree.structSpan(tree.nodes[0].id);
QCOMPARE(span, 0x10);
}
void TestImportSource::embeddedStruct() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Inner {\n"
" int a;\n"
"};\n"
"struct Outer {\n"
" Inner embedded;\n"
" float after;\n"
"};\n"
));
int outerIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Outer") && tree.nodes[i].parentId == 0) {
outerIdx = i; break;
}
}
QVERIFY(outerIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[outerIdx].id);
QCOMPARE(kids.size(), 2);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Struct);
QCOMPARE(tree.nodes[kids[0]].structTypeName, QStringLiteral("Inner"));
QVERIFY(tree.nodes[kids[0]].refId != 0);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Float);
}
void TestImportSource::typedefBasic() {
NodeTree tree = importFromSource(QStringLiteral(
"typedef uint32_t MyInt;\n"
"struct TD {\n"
" MyInt value;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt32);
}
void TestImportSource::constVolatileQualifiers() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Quals {\n"
" const uint32_t a;\n"
" volatile int32_t b;\n"
" const volatile uint8_t c;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 3);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Int32);
QCOMPARE(tree.nodes[kids[2]].kind, NodeKind::UInt8);
}
void TestImportSource::structPrefixOnType() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Inner {\n"
" int val;\n"
"};\n"
"struct Outer {\n"
" struct Inner member;\n"
"};\n"
));
int outerIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Outer") && tree.nodes[i].parentId == 0) {
outerIdx = i; break;
}
}
QVERIFY(outerIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[outerIdx].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Struct);
QCOMPARE(tree.nodes[kids[0]].structTypeName, QStringLiteral("Inner"));
}
void TestImportSource::bitfieldSkipped() {
// Bitfields emit a bitfield container with named members
NodeTree tree = importFromSource(QStringLiteral(
"struct BF {\n"
" uint32_t normal;\n"
" uint32_t bitA : 4;\n"
" uint32_t bitB : 12;\n"
" uint32_t after;\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
// normal + bitfield container (16 bits → 2 bytes) + after
QCOMPARE(kids.size(), 3);
QCOMPARE(tree.nodes[kids[0]].name, QStringLiteral("normal"));
QCOMPARE(tree.nodes[kids[0]].offset, 0);
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Struct);
QCOMPARE(tree.nodes[kids[1]].resolvedClassKeyword(), QStringLiteral("bitfield"));
QCOMPARE(tree.nodes[kids[1]].offset, 4);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers.size(), 2);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[0].name, QStringLiteral("bitA"));
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[0].bitWidth, (uint8_t)4);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[0].bitOffset, (uint8_t)0);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[1].name, QStringLiteral("bitB"));
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[1].bitWidth, (uint8_t)12);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[1].bitOffset, (uint8_t)4);
QCOMPARE(tree.nodes[kids[2]].name, QStringLiteral("after"));
QCOMPARE(tree.nodes[kids[2]].offset, 8); // aligned to uint32_t boundary
}
void TestImportSource::bitfieldWithOffsetsEmitsHex() {
NodeTree tree = importFromSource(QStringLiteral(
"struct BF2 {\n"
" uint32_t normal; // 0x0\n"
" ULONGLONG Valid : 1; // 0x4\n"
" ULONGLONG Dirty : 1; // 0x4\n"
" ULONGLONG PageFrameNumber : 36; // 0x4\n"
" ULONGLONG Reserved : 26; // 0x4\n"
" uint32_t after; // 0xC\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
// normal + bitfield container (64 bits) + after = 3
QCOMPARE(kids.size(), 3);
QCOMPARE(tree.nodes[kids[0]].name, QStringLiteral("normal"));
QCOMPARE(tree.nodes[kids[0]].offset, 0);
// Bitfield container at offset 4
QCOMPARE(tree.nodes[kids[1]].kind, NodeKind::Struct);
QCOMPARE(tree.nodes[kids[1]].resolvedClassKeyword(), QStringLiteral("bitfield"));
QCOMPARE(tree.nodes[kids[1]].offset, 4);
QCOMPARE(tree.nodes[kids[1]].elementKind, NodeKind::Hex64);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers.size(), 4);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[0].name, QStringLiteral("Valid"));
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[0].bitWidth, (uint8_t)1);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[1].name, QStringLiteral("Dirty"));
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[2].name, QStringLiteral("PageFrameNumber"));
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[2].bitWidth, (uint8_t)36);
QCOMPARE(tree.nodes[kids[1]].bitfieldMembers[3].name, QStringLiteral("Reserved"));
// after at 0xC
QCOMPARE(tree.nodes[kids[2]].name, QStringLiteral("after"));
QCOMPARE(tree.nodes[kids[2]].offset, 0xC);
}
void TestImportSource::hexArraySizes() {
NodeTree tree = importFromSource(QStringLiteral(
"struct HexArr {\n"
" uint8_t data[0x20];\n"
"};\n"
));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Array);
QCOMPARE(tree.nodes[kids[0]].arrayLen, 0x20);
}
void TestImportSource::windowsStylePEB() {
// Test with Windows PEB-style struct (no comment offsets)
NodeTree tree = importFromSource(QStringLiteral(
"struct PEB64 {\n"
" BOOLEAN InheritedAddressSpace;\n"
" BOOLEAN ReadImageFileExecOptions;\n"
" BOOLEAN BeingDebugged;\n"
" BOOLEAN BitField;\n"
" PVOID Mutant;\n"
" PVOID ImageBaseAddress;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 1);
QCOMPARE(tree.nodes[0].name, QStringLiteral("PEB64"));
auto kids = childrenOf(tree, tree.nodes[0].id);
QCOMPARE(kids.size(), 6);
// First 4 are BOOLEAN (UInt8)
for (int i = 0; i < 4; i++)
QCOMPARE(tree.nodes[kids[i]].kind, NodeKind::UInt8);
// Last 2 are PVOID (Pointer64)
QCOMPARE(tree.nodes[kids[4]].kind, NodeKind::Pointer64);
QCOMPARE(tree.nodes[kids[5]].kind, NodeKind::Pointer64);
}
void TestImportSource::classKeyword() {
NodeTree tree = importFromSource(QStringLiteral(
"class MyClass {\n"
" int value;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 1);
QCOMPARE(tree.nodes[0].classKeyword, QStringLiteral("class"));
}
void TestImportSource::inheritanceSkipped() {
NodeTree tree = importFromSource(QStringLiteral(
"struct Base {\n"
" int a;\n"
"};\n"
"struct Derived : public Base {\n"
" float b;\n"
"};\n"
));
QCOMPARE(countRoots(tree), 2);
int derivedIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Derived") && tree.nodes[i].parentId == 0) {
derivedIdx = i; break;
}
}
QVERIFY(derivedIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[derivedIdx].id);
QCOMPARE(kids.size(), 1);
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::Float);
}
void TestImportSource::basicRoundTrip() {
// Build a simple tree manually, export it, then re-import and compare
NodeTree original;
{
Node s;
s.kind = NodeKind::Struct;
s.name = QStringLiteral("RoundTrip");
s.structTypeName = QStringLiteral("RoundTrip");
s.parentId = 0;
s.offset = 0;
int sIdx = original.addNode(s);
uint64_t sId = original.nodes[sIdx].id;
Node f1;
f1.kind = NodeKind::UInt32;
f1.name = QStringLiteral("field_a");
f1.parentId = sId;
f1.offset = 0;
original.addNode(f1);
Node f2;
f2.kind = NodeKind::Float;
f2.name = QStringLiteral("field_b");
f2.parentId = sId;
f2.offset = 4;
original.addNode(f2);
Node f3;
f3.kind = NodeKind::UInt64;
f3.name = QStringLiteral("field_c");
f3.parentId = sId;
f3.offset = 8;
original.addNode(f3);
}
// Create source text that matches what generator would produce
QString source = QStringLiteral(
"struct RoundTrip {\n"
" uint32_t field_a; // 0x0\n"
" float field_b; // 0x4\n"
" uint64_t field_c; // 0x8\n"
"};\n"
"static_assert(sizeof(RoundTrip) == 0x10, \"Size mismatch\");\n"
);
NodeTree reimported = importFromSource(source);
QCOMPARE(countRoots(reimported), 1);
QCOMPARE(reimported.nodes[0].name, QStringLiteral("RoundTrip"));
auto origKids = childrenOf(original, original.nodes[0].id);
auto reimpKids = childrenOf(reimported, reimported.nodes[0].id);
// Compare field count (reimported may have extra padding nodes from static_assert)
// Check that the first 3 fields match
QVERIFY(reimpKids.size() >= 3);
for (int i = 0; i < 3; i++) {
QCOMPARE(reimported.nodes[reimpKids[i]].kind, original.nodes[origKids[i]].kind);
QCOMPARE(reimported.nodes[reimpKids[i]].name, original.nodes[origKids[i]].name);
QCOMPARE(reimported.nodes[reimpKids[i]].offset, original.nodes[origKids[i]].offset);
}
}
// ── Enum tests ──
void TestImportSource::enumBasic() {
auto tree = importFromSource(QStringLiteral(
"enum Color { Red = 0, Green = 1, Blue = 2 };"));
QCOMPARE(countRoots(tree), 1);
QCOMPARE(tree.nodes[0].classKeyword, QStringLiteral("enum"));
QCOMPARE(tree.nodes[0].structTypeName, QStringLiteral("Color"));
QCOMPARE(tree.nodes[0].enumMembers.size(), 3);
QCOMPARE(tree.nodes[0].enumMembers[0].first, QStringLiteral("Red"));
QCOMPARE(tree.nodes[0].enumMembers[0].second, 0LL);
QCOMPARE(tree.nodes[0].enumMembers[1].first, QStringLiteral("Green"));
QCOMPARE(tree.nodes[0].enumMembers[1].second, 1LL);
QCOMPARE(tree.nodes[0].enumMembers[2].first, QStringLiteral("Blue"));
QCOMPARE(tree.nodes[0].enumMembers[2].second, 2LL);
}
void TestImportSource::enumAutoValues() {
auto tree = importFromSource(QStringLiteral(
"enum Flags { A, B, C };"));
QCOMPARE(tree.nodes[0].enumMembers.size(), 3);
QCOMPARE(tree.nodes[0].enumMembers[0].second, 0LL);
QCOMPARE(tree.nodes[0].enumMembers[1].second, 1LL);
QCOMPARE(tree.nodes[0].enumMembers[2].second, 2LL);
}
void TestImportSource::enumHexValues() {
auto tree = importFromSource(QStringLiteral(
"enum { X = 0x10, Y = 0x20 };"));
// Anonymous enum has no name — parser skips it (unnamed enums are not added)
// Actually, let's use a named enum with hex values
tree = importFromSource(QStringLiteral(
"enum Hex { X = 0x10, Y = 0x20 };"));
QCOMPARE(tree.nodes[0].enumMembers.size(), 2);
QCOMPARE(tree.nodes[0].enumMembers[0].second, 0x10LL);
QCOMPARE(tree.nodes[0].enumMembers[1].second, 0x20LL);
}
void TestImportSource::enumInStruct() {
auto tree = importFromSource(QStringLiteral(
"enum PoolType { NonPaged = 0, Paged = 1 };\n"
"struct Foo {\n"
" PoolType pool; //0x0\n"
" uint32_t size; //0x4\n"
"};"));
// Should have 2 roots: PoolType enum + Foo struct
QCOMPARE(countRoots(tree), 2);
// Find Foo struct
int fooIdx = -1;
for (int i = 0; i < tree.nodes.size(); i++) {
if (tree.nodes[i].name == QStringLiteral("Foo")) { fooIdx = i; break; }
}
QVERIFY(fooIdx >= 0);
auto kids = childrenOf(tree, tree.nodes[fooIdx].id);
QCOMPARE(kids.size(), 2);
// First child should be UInt32 (enum mapped to int) with refId to PoolType
QCOMPARE(tree.nodes[kids[0]].kind, NodeKind::UInt32);
QCOMPARE(tree.nodes[kids[0]].name, QStringLiteral("pool"));
QVERIFY(tree.nodes[kids[0]].refId != 0); // linked to enum definition
}
void TestImportSource::enumClass() {
auto tree = importFromSource(QStringLiteral(
"enum class Scope : uint8_t { A = 1, B = 2 };"));
QCOMPARE(countRoots(tree), 1);
QCOMPARE(tree.nodes[0].classKeyword, QStringLiteral("enum"));
QCOMPARE(tree.nodes[0].structTypeName, QStringLiteral("Scope"));
QCOMPARE(tree.nodes[0].enumMembers.size(), 2);
QCOMPARE(tree.nodes[0].enumMembers[0].first, QStringLiteral("A"));
QCOMPARE(tree.nodes[0].enumMembers[0].second, 1LL);
}
QTEST_MAIN(TestImportSource)
#include "test_import_source.moc"
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