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TestTypeSystemClang.cpp
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TestTypeSystemClang.cpp
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//===-- TestTypeSystemClang.cpp -------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "Plugins/ExpressionParser/Clang/ClangUtil.h"
#include "Plugins/TypeSystem/Clang/TypeSystemClang.h"
#include "TestingSupport/SubsystemRAII.h"
#include "TestingSupport/Symbol/ClangTestUtils.h"
#include "lldb/Host/FileSystem.h"
#include "lldb/Host/HostInfo.h"
#include "lldb/Symbol/Declaration.h"
#include "clang/AST/DeclCXX.h"
#include "clang/AST/DeclObjC.h"
#include "clang/AST/ExprCXX.h"
#include "gtest/gtest.h"
using namespace clang;
using namespace lldb;
using namespace lldb_private;
class TestTypeSystemClang : public testing::Test {
public:
SubsystemRAII<FileSystem, HostInfo> subsystems;
void SetUp() override {
m_ast.reset(
new TypeSystemClang("test ASTContext", HostInfo::GetTargetTriple()));
}
void TearDown() override { m_ast.reset(); }
protected:
std::unique_ptr<TypeSystemClang> m_ast;
QualType GetBasicQualType(BasicType type) const {
return ClangUtil::GetQualType(m_ast->GetBasicTypeFromAST(type));
}
QualType GetBasicQualType(const char *name) const {
return ClangUtil::GetQualType(
m_ast->GetBuiltinTypeByName(ConstString(name)));
}
};
TEST_F(TestTypeSystemClang, TestGetBasicTypeFromEnum) {
clang::ASTContext &context = m_ast->getASTContext();
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeBool), context.BoolTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeChar), context.CharTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeChar16),
context.Char16Ty));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeChar32),
context.Char32Ty));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeDouble),
context.DoubleTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeDoubleComplex),
context.DoubleComplexTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeFloat), context.FloatTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeFloatComplex),
context.FloatComplexTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeHalf), context.HalfTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeInt), context.IntTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeInt128),
context.Int128Ty));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeLong), context.LongTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeLongDouble),
context.LongDoubleTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeLongDoubleComplex),
context.LongDoubleComplexTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeLongLong),
context.LongLongTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeNullPtr),
context.NullPtrTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeObjCClass),
context.getObjCClassType()));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeObjCID),
context.getObjCIdType()));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeObjCSel),
context.getObjCSelType()));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeShort), context.ShortTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeSignedChar),
context.SignedCharTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedChar),
context.UnsignedCharTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedInt),
context.UnsignedIntTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedInt128),
context.UnsignedInt128Ty));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedLong),
context.UnsignedLongTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedLongLong),
context.UnsignedLongLongTy));
EXPECT_TRUE(context.hasSameType(GetBasicQualType(eBasicTypeUnsignedShort),
context.UnsignedShortTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeVoid), context.VoidTy));
EXPECT_TRUE(
context.hasSameType(GetBasicQualType(eBasicTypeWChar), context.WCharTy));
}
TEST_F(TestTypeSystemClang, TestGetBasicTypeFromName) {
EXPECT_EQ(GetBasicQualType(eBasicTypeChar), GetBasicQualType("char"));
EXPECT_EQ(GetBasicQualType(eBasicTypeSignedChar),
GetBasicQualType("signed char"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedChar),
GetBasicQualType("unsigned char"));
EXPECT_EQ(GetBasicQualType(eBasicTypeWChar), GetBasicQualType("wchar_t"));
EXPECT_EQ(GetBasicQualType(eBasicTypeSignedWChar),
GetBasicQualType("signed wchar_t"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedWChar),
GetBasicQualType("unsigned wchar_t"));
EXPECT_EQ(GetBasicQualType(eBasicTypeShort), GetBasicQualType("short"));
EXPECT_EQ(GetBasicQualType(eBasicTypeShort), GetBasicQualType("short int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedShort),
GetBasicQualType("unsigned short"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedShort),
GetBasicQualType("unsigned short int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeInt), GetBasicQualType("int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeInt), GetBasicQualType("signed int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedInt),
GetBasicQualType("unsigned int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedInt),
GetBasicQualType("unsigned"));
EXPECT_EQ(GetBasicQualType(eBasicTypeLong), GetBasicQualType("long"));
EXPECT_EQ(GetBasicQualType(eBasicTypeLong), GetBasicQualType("long int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedLong),
GetBasicQualType("unsigned long"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedLong),
GetBasicQualType("unsigned long int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeLongLong),
GetBasicQualType("long long"));
EXPECT_EQ(GetBasicQualType(eBasicTypeLongLong),
GetBasicQualType("long long int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedLongLong),
GetBasicQualType("unsigned long long"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedLongLong),
GetBasicQualType("unsigned long long int"));
EXPECT_EQ(GetBasicQualType(eBasicTypeInt128), GetBasicQualType("__int128_t"));
EXPECT_EQ(GetBasicQualType(eBasicTypeUnsignedInt128),
GetBasicQualType("__uint128_t"));
EXPECT_EQ(GetBasicQualType(eBasicTypeVoid), GetBasicQualType("void"));
EXPECT_EQ(GetBasicQualType(eBasicTypeBool), GetBasicQualType("bool"));
EXPECT_EQ(GetBasicQualType(eBasicTypeFloat), GetBasicQualType("float"));
EXPECT_EQ(GetBasicQualType(eBasicTypeDouble), GetBasicQualType("double"));
EXPECT_EQ(GetBasicQualType(eBasicTypeLongDouble),
GetBasicQualType("long double"));
EXPECT_EQ(GetBasicQualType(eBasicTypeObjCID), GetBasicQualType("id"));
EXPECT_EQ(GetBasicQualType(eBasicTypeObjCSel), GetBasicQualType("SEL"));
EXPECT_EQ(GetBasicQualType(eBasicTypeNullPtr), GetBasicQualType("nullptr"));
}
void VerifyEncodingAndBitSize(TypeSystemClang &clang_context,
lldb::Encoding encoding, unsigned int bit_size) {
clang::ASTContext &context = clang_context.getASTContext();
CompilerType type =
clang_context.GetBuiltinTypeForEncodingAndBitSize(encoding, bit_size);
EXPECT_TRUE(type.IsValid());
QualType qtype = ClangUtil::GetQualType(type);
EXPECT_FALSE(qtype.isNull());
if (qtype.isNull())
return;
uint64_t actual_size = context.getTypeSize(qtype);
EXPECT_EQ(bit_size, actual_size);
const clang::Type *type_ptr = qtype.getTypePtr();
EXPECT_NE(nullptr, type_ptr);
if (!type_ptr)
return;
EXPECT_TRUE(type_ptr->isBuiltinType());
switch (encoding) {
case eEncodingSint:
EXPECT_TRUE(type_ptr->isSignedIntegerType());
break;
case eEncodingUint:
EXPECT_TRUE(type_ptr->isUnsignedIntegerType());
break;
case eEncodingIEEE754:
EXPECT_TRUE(type_ptr->isFloatingType());
break;
default:
FAIL() << "Unexpected encoding";
break;
}
}
TEST_F(TestTypeSystemClang, TestBuiltinTypeForEncodingAndBitSize) {
// Make sure we can get types of every possible size in every possible
// encoding.
// We can't make any guarantee about which specific type we get, because the
// standard
// isn't that specific. We only need to make sure the compiler hands us some
// type that
// is both a builtin type and matches the requested bit size.
VerifyEncodingAndBitSize(*m_ast, eEncodingSint, 8);
VerifyEncodingAndBitSize(*m_ast, eEncodingSint, 16);
VerifyEncodingAndBitSize(*m_ast, eEncodingSint, 32);
VerifyEncodingAndBitSize(*m_ast, eEncodingSint, 64);
VerifyEncodingAndBitSize(*m_ast, eEncodingSint, 128);
VerifyEncodingAndBitSize(*m_ast, eEncodingUint, 8);
VerifyEncodingAndBitSize(*m_ast, eEncodingUint, 16);
VerifyEncodingAndBitSize(*m_ast, eEncodingUint, 32);
VerifyEncodingAndBitSize(*m_ast, eEncodingUint, 64);
VerifyEncodingAndBitSize(*m_ast, eEncodingUint, 128);
VerifyEncodingAndBitSize(*m_ast, eEncodingIEEE754, 32);
VerifyEncodingAndBitSize(*m_ast, eEncodingIEEE754, 64);
}
TEST_F(TestTypeSystemClang, TestDisplayName) {
TypeSystemClang ast("some name", llvm::Triple());
EXPECT_EQ("some name", ast.getDisplayName());
}
TEST_F(TestTypeSystemClang, TestDisplayNameEmpty) {
TypeSystemClang ast("", llvm::Triple());
EXPECT_EQ("", ast.getDisplayName());
}
TEST_F(TestTypeSystemClang, TestGetEnumIntegerTypeInvalid) {
EXPECT_FALSE(m_ast->GetEnumerationIntegerType(CompilerType()).IsValid());
}
TEST_F(TestTypeSystemClang, TestGetEnumIntegerTypeUnexpectedType) {
CompilerType int_type = m_ast->GetBasicType(lldb::eBasicTypeInt);
CompilerType t = m_ast->GetEnumerationIntegerType(int_type);
EXPECT_FALSE(t.IsValid());
}
TEST_F(TestTypeSystemClang, TestGetEnumIntegerTypeBasicTypes) {
// All possible underlying integer types of enums.
const std::vector<lldb::BasicType> types_to_test = {
eBasicTypeInt, eBasicTypeUnsignedInt, eBasicTypeLong,
eBasicTypeUnsignedLong, eBasicTypeLongLong, eBasicTypeUnsignedLongLong,
};
for (bool scoped : {true, false}) {
SCOPED_TRACE("scoped: " + std::to_string(scoped));
for (lldb::BasicType basic_type : types_to_test) {
SCOPED_TRACE(std::to_string(basic_type));
TypeSystemClang ast("enum_ast", HostInfo::GetTargetTriple());
CompilerType basic_compiler_type = ast.GetBasicType(basic_type);
EXPECT_TRUE(basic_compiler_type.IsValid());
CompilerType enum_type = ast.CreateEnumerationType(
"my_enum", ast.GetTranslationUnitDecl(), OptionalClangModuleID(),
Declaration(), basic_compiler_type, scoped);
CompilerType t = ast.GetEnumerationIntegerType(enum_type);
// Check that the type we put in at the start is found again.
EXPECT_EQ(basic_compiler_type.GetTypeName(), t.GetTypeName());
}
}
}
TEST_F(TestTypeSystemClang, TestOwningModule) {
TypeSystemClang ast("module_ast", HostInfo::GetTargetTriple());
CompilerType basic_compiler_type = ast.GetBasicType(BasicType::eBasicTypeInt);
CompilerType enum_type = ast.CreateEnumerationType(
"my_enum", ast.GetTranslationUnitDecl(), OptionalClangModuleID(100),
Declaration(), basic_compiler_type, false);
auto *ed = TypeSystemClang::GetAsEnumDecl(enum_type);
EXPECT_FALSE(!ed);
EXPECT_EQ(ed->getOwningModuleID(), 100u);
CompilerType record_type = ast.CreateRecordType(
nullptr, OptionalClangModuleID(200), lldb::eAccessPublic, "FooRecord",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
auto *rd = TypeSystemClang::GetAsRecordDecl(record_type);
EXPECT_FALSE(!rd);
EXPECT_EQ(rd->getOwningModuleID(), 200u);
CompilerType class_type =
ast.CreateObjCClass("objc_class", ast.GetTranslationUnitDecl(),
OptionalClangModuleID(300), false, false);
auto *cd = TypeSystemClang::GetAsObjCInterfaceDecl(class_type);
EXPECT_FALSE(!cd);
EXPECT_EQ(cd->getOwningModuleID(), 300u);
}
TEST_F(TestTypeSystemClang, TestIsClangType) {
clang::ASTContext &context = m_ast->getASTContext();
lldb::opaque_compiler_type_t bool_ctype =
TypeSystemClang::GetOpaqueCompilerType(&context, lldb::eBasicTypeBool);
CompilerType bool_type(m_ast.get(), bool_ctype);
CompilerType record_type = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(100), lldb::eAccessPublic, "FooRecord",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
// Clang builtin type and record type should pass
EXPECT_TRUE(ClangUtil::IsClangType(bool_type));
EXPECT_TRUE(ClangUtil::IsClangType(record_type));
// Default constructed type should fail
EXPECT_FALSE(ClangUtil::IsClangType(CompilerType()));
}
TEST_F(TestTypeSystemClang, TestRemoveFastQualifiers) {
CompilerType record_type = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(), lldb::eAccessPublic, "FooRecord",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
QualType qt;
qt = ClangUtil::GetQualType(record_type);
EXPECT_EQ(0u, qt.getLocalFastQualifiers());
record_type = record_type.AddConstModifier();
record_type = record_type.AddVolatileModifier();
record_type = record_type.AddRestrictModifier();
qt = ClangUtil::GetQualType(record_type);
EXPECT_NE(0u, qt.getLocalFastQualifiers());
record_type = ClangUtil::RemoveFastQualifiers(record_type);
qt = ClangUtil::GetQualType(record_type);
EXPECT_EQ(0u, qt.getLocalFastQualifiers());
}
TEST_F(TestTypeSystemClang, TestConvertAccessTypeToAccessSpecifier) {
EXPECT_EQ(AS_none,
TypeSystemClang::ConvertAccessTypeToAccessSpecifier(eAccessNone));
EXPECT_EQ(AS_none, TypeSystemClang::ConvertAccessTypeToAccessSpecifier(
eAccessPackage));
EXPECT_EQ(AS_public,
TypeSystemClang::ConvertAccessTypeToAccessSpecifier(eAccessPublic));
EXPECT_EQ(AS_private, TypeSystemClang::ConvertAccessTypeToAccessSpecifier(
eAccessPrivate));
EXPECT_EQ(AS_protected, TypeSystemClang::ConvertAccessTypeToAccessSpecifier(
eAccessProtected));
}
TEST_F(TestTypeSystemClang, TestUnifyAccessSpecifiers) {
// Unifying two of the same type should return the same type
EXPECT_EQ(AS_public,
TypeSystemClang::UnifyAccessSpecifiers(AS_public, AS_public));
EXPECT_EQ(AS_private,
TypeSystemClang::UnifyAccessSpecifiers(AS_private, AS_private));
EXPECT_EQ(AS_protected,
TypeSystemClang::UnifyAccessSpecifiers(AS_protected, AS_protected));
// Otherwise the result should be the strictest of the two.
EXPECT_EQ(AS_private,
TypeSystemClang::UnifyAccessSpecifiers(AS_private, AS_public));
EXPECT_EQ(AS_private,
TypeSystemClang::UnifyAccessSpecifiers(AS_private, AS_protected));
EXPECT_EQ(AS_private,
TypeSystemClang::UnifyAccessSpecifiers(AS_public, AS_private));
EXPECT_EQ(AS_private,
TypeSystemClang::UnifyAccessSpecifiers(AS_protected, AS_private));
EXPECT_EQ(AS_protected,
TypeSystemClang::UnifyAccessSpecifiers(AS_protected, AS_public));
EXPECT_EQ(AS_protected,
TypeSystemClang::UnifyAccessSpecifiers(AS_public, AS_protected));
// None is stricter than everything (by convention)
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_none, AS_public));
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_none, AS_protected));
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_none, AS_private));
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_public, AS_none));
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_protected, AS_none));
EXPECT_EQ(AS_none,
TypeSystemClang::UnifyAccessSpecifiers(AS_private, AS_none));
}
TEST_F(TestTypeSystemClang, TestRecordHasFields) {
CompilerType int_type = m_ast->GetBasicType(eBasicTypeInt);
// Test that a record with no fields returns false
CompilerType empty_base = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(), lldb::eAccessPublic, "EmptyBase",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
TypeSystemClang::StartTagDeclarationDefinition(empty_base);
TypeSystemClang::CompleteTagDeclarationDefinition(empty_base);
RecordDecl *empty_base_decl = TypeSystemClang::GetAsRecordDecl(empty_base);
EXPECT_NE(nullptr, empty_base_decl);
EXPECT_FALSE(TypeSystemClang::RecordHasFields(empty_base_decl));
// Test that a record with direct fields returns true
CompilerType non_empty_base = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(), lldb::eAccessPublic, "NonEmptyBase",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
TypeSystemClang::StartTagDeclarationDefinition(non_empty_base);
FieldDecl *non_empty_base_field_decl = m_ast->AddFieldToRecordType(
non_empty_base, "MyField", int_type, eAccessPublic, 0);
TypeSystemClang::CompleteTagDeclarationDefinition(non_empty_base);
RecordDecl *non_empty_base_decl =
TypeSystemClang::GetAsRecordDecl(non_empty_base);
EXPECT_NE(nullptr, non_empty_base_decl);
EXPECT_NE(nullptr, non_empty_base_field_decl);
EXPECT_TRUE(TypeSystemClang::RecordHasFields(non_empty_base_decl));
std::vector<std::unique_ptr<clang::CXXBaseSpecifier>> bases;
// Test that a record with no direct fields, but fields in a base returns true
CompilerType empty_derived = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(), lldb::eAccessPublic, "EmptyDerived",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
TypeSystemClang::StartTagDeclarationDefinition(empty_derived);
std::unique_ptr<clang::CXXBaseSpecifier> non_empty_base_spec =
m_ast->CreateBaseClassSpecifier(non_empty_base.GetOpaqueQualType(),
lldb::eAccessPublic, false, false);
bases.push_back(std::move(non_empty_base_spec));
bool result = m_ast->TransferBaseClasses(empty_derived.GetOpaqueQualType(),
std::move(bases));
TypeSystemClang::CompleteTagDeclarationDefinition(empty_derived);
EXPECT_TRUE(result);
CXXRecordDecl *empty_derived_non_empty_base_cxx_decl =
m_ast->GetAsCXXRecordDecl(empty_derived.GetOpaqueQualType());
RecordDecl *empty_derived_non_empty_base_decl =
TypeSystemClang::GetAsRecordDecl(empty_derived);
EXPECT_EQ(1u, TypeSystemClang::GetNumBaseClasses(
empty_derived_non_empty_base_cxx_decl, false));
EXPECT_TRUE(
TypeSystemClang::RecordHasFields(empty_derived_non_empty_base_decl));
// Test that a record with no direct fields, but fields in a virtual base
// returns true
CompilerType empty_derived2 = m_ast->CreateRecordType(
nullptr, OptionalClangModuleID(), lldb::eAccessPublic, "EmptyDerived2",
clang::TTK_Struct, lldb::eLanguageTypeC_plus_plus, nullptr);
TypeSystemClang::StartTagDeclarationDefinition(empty_derived2);
std::unique_ptr<CXXBaseSpecifier> non_empty_vbase_spec =
m_ast->CreateBaseClassSpecifier(non_empty_base.GetOpaqueQualType(),
lldb::eAccessPublic, true, false);
bases.push_back(std::move(non_empty_vbase_spec));
result = m_ast->TransferBaseClasses(empty_derived2.GetOpaqueQualType(),
std::move(bases));
TypeSystemClang::CompleteTagDeclarationDefinition(empty_derived2);
EXPECT_TRUE(result);
CXXRecordDecl *empty_derived_non_empty_vbase_cxx_decl =
m_ast->GetAsCXXRecordDecl(empty_derived2.GetOpaqueQualType());
RecordDecl *empty_derived_non_empty_vbase_decl =
TypeSystemClang::GetAsRecordDecl(empty_derived2);
EXPECT_EQ(1u, TypeSystemClang::GetNumBaseClasses(
empty_derived_non_empty_vbase_cxx_decl, false));
EXPECT_TRUE(
TypeSystemClang::RecordHasFields(empty_derived_non_empty_vbase_decl));
}
TEST_F(TestTypeSystemClang, TemplateArguments) {
TypeSystemClang::TemplateParameterInfos infos;
infos.names.push_back("T");
infos.args.push_back(TemplateArgument(m_ast->getASTContext().IntTy));
infos.names.push_back("I");
llvm::APSInt arg(llvm::APInt(8, 47));
infos.args.push_back(TemplateArgument(m_ast->getASTContext(), arg,
m_ast->getASTContext().IntTy));
// template<typename T, int I> struct foo;
ClassTemplateDecl *decl = m_ast->CreateClassTemplateDecl(
m_ast->GetTranslationUnitDecl(), OptionalClangModuleID(), eAccessPublic,
"foo", TTK_Struct, infos);
ASSERT_NE(decl, nullptr);
// foo<int, 47>
ClassTemplateSpecializationDecl *spec_decl =
m_ast->CreateClassTemplateSpecializationDecl(
m_ast->GetTranslationUnitDecl(), OptionalClangModuleID(), decl,
TTK_Struct, infos);
ASSERT_NE(spec_decl, nullptr);
CompilerType type = m_ast->CreateClassTemplateSpecializationType(spec_decl);
ASSERT_TRUE(type);
m_ast->StartTagDeclarationDefinition(type);
m_ast->CompleteTagDeclarationDefinition(type);
// typedef foo<int, 47> foo_def;
CompilerType typedef_type = m_ast->CreateTypedefType(
type, "foo_def",
m_ast->CreateDeclContext(m_ast->GetTranslationUnitDecl()), 0);
CompilerType auto_type(
m_ast.get(),
m_ast->getASTContext()
.getAutoType(ClangUtil::GetCanonicalQualType(typedef_type),
clang::AutoTypeKeyword::Auto, false)
.getAsOpaquePtr());
CompilerType int_type(m_ast.get(),
m_ast->getASTContext().IntTy.getAsOpaquePtr());
for (CompilerType t : {type, typedef_type, auto_type}) {
SCOPED_TRACE(t.GetTypeName().AsCString());
EXPECT_EQ(m_ast->GetTemplateArgumentKind(t.GetOpaqueQualType(), 0),
eTemplateArgumentKindType);
EXPECT_EQ(m_ast->GetTypeTemplateArgument(t.GetOpaqueQualType(), 0),
int_type);
EXPECT_EQ(llvm::None,
m_ast->GetIntegralTemplateArgument(t.GetOpaqueQualType(), 0));
EXPECT_EQ(m_ast->GetTemplateArgumentKind(t.GetOpaqueQualType(), 1),
eTemplateArgumentKindIntegral);
EXPECT_EQ(m_ast->GetTypeTemplateArgument(t.GetOpaqueQualType(), 1),
CompilerType());
auto result = m_ast->GetIntegralTemplateArgument(t.GetOpaqueQualType(), 1);
ASSERT_NE(llvm::None, result);
EXPECT_EQ(arg, result->value);
EXPECT_EQ(int_type, result->type);
}
}
static QualType makeConstInt(clang::ASTContext &ctxt) {
QualType result(ctxt.IntTy);
result.addConst();
return result;
}
TEST_F(TestTypeSystemClang, TestGetTypeClassDeclType) {
clang::ASTContext &ctxt = m_ast->getASTContext();
auto *nullptr_expr = new (ctxt) CXXNullPtrLiteralExpr(ctxt.NullPtrTy, SourceLocation());
QualType t = ctxt.getDecltypeType(nullptr_expr, makeConstInt(ctxt));
EXPECT_EQ(lldb::eTypeClassBuiltin, m_ast->GetTypeClass(t.getAsOpaquePtr()));
}
TEST_F(TestTypeSystemClang, TestGetTypeClassTypeOf) {
clang::ASTContext &ctxt = m_ast->getASTContext();
QualType t = ctxt.getTypeOfType(makeConstInt(ctxt));
EXPECT_EQ(lldb::eTypeClassBuiltin, m_ast->GetTypeClass(t.getAsOpaquePtr()));
}
TEST_F(TestTypeSystemClang, TestGetTypeClassTypeOfExpr) {
clang::ASTContext &ctxt = m_ast->getASTContext();
auto *nullptr_expr = new (ctxt) CXXNullPtrLiteralExpr(ctxt.NullPtrTy, SourceLocation());
QualType t = ctxt.getTypeOfExprType(nullptr_expr);
EXPECT_EQ(lldb::eTypeClassBuiltin, m_ast->GetTypeClass(t.getAsOpaquePtr()));
}
TEST_F(TestTypeSystemClang, TestGetTypeClassNested) {
clang::ASTContext &ctxt = m_ast->getASTContext();
QualType t_base = ctxt.getTypeOfType(makeConstInt(ctxt));
QualType t = ctxt.getTypeOfType(t_base);
EXPECT_EQ(lldb::eTypeClassBuiltin, m_ast->GetTypeClass(t.getAsOpaquePtr()));
}
TEST_F(TestTypeSystemClang, TestFunctionTemplateConstruction) {
// Tests creating a function template.
CompilerType int_type = m_ast->GetBasicType(lldb::eBasicTypeInt);
clang::TranslationUnitDecl *TU = m_ast->GetTranslationUnitDecl();
// Prepare the declarations/types we need for the template.
CompilerType clang_type =
m_ast->CreateFunctionType(int_type, nullptr, 0U, false, 0U);
FunctionDecl *func = m_ast->CreateFunctionDeclaration(
TU, OptionalClangModuleID(), "foo", clang_type, StorageClass::SC_None,
false);
TypeSystemClang::TemplateParameterInfos empty_params;
// Create the actual function template.
clang::FunctionTemplateDecl *func_template =
m_ast->CreateFunctionTemplateDecl(TU, OptionalClangModuleID(), func,
empty_params);
EXPECT_EQ(TU, func_template->getDeclContext());
EXPECT_EQ("foo", func_template->getName());
EXPECT_EQ(clang::AccessSpecifier::AS_none, func_template->getAccess());
}
TEST_F(TestTypeSystemClang, TestFunctionTemplateInRecordConstruction) {
// Tests creating a function template inside a record.
CompilerType int_type = m_ast->GetBasicType(lldb::eBasicTypeInt);
clang::TranslationUnitDecl *TU = m_ast->GetTranslationUnitDecl();
// Create a record we can put the function template int.
CompilerType record_type =
clang_utils::createRecordWithField(*m_ast, "record", int_type, "field");
clang::TagDecl *record = ClangUtil::GetAsTagDecl(record_type);
// Prepare the declarations/types we need for the template.
CompilerType clang_type =
m_ast->CreateFunctionType(int_type, nullptr, 0U, false, 0U);
// We create the FunctionDecl for the template in the TU DeclContext because:
// 1. FunctionDecls can't be in a Record (only CXXMethodDecls can).
// 2. It is mirroring the behavior of DWARFASTParserClang::ParseSubroutine.
FunctionDecl *func = m_ast->CreateFunctionDeclaration(
TU, OptionalClangModuleID(), "foo", clang_type, StorageClass::SC_None,
false);
TypeSystemClang::TemplateParameterInfos empty_params;
// Create the actual function template.
clang::FunctionTemplateDecl *func_template =
m_ast->CreateFunctionTemplateDecl(record, OptionalClangModuleID(), func,
empty_params);
EXPECT_EQ(record, func_template->getDeclContext());
EXPECT_EQ("foo", func_template->getName());
EXPECT_EQ(clang::AccessSpecifier::AS_public, func_template->getAccess());
}
TEST_F(TestTypeSystemClang, TestDeletingImplicitCopyCstrDueToMoveCStr) {
// We need to simulate this behavior in our AST that we construct as we don't
// have a Sema instance that can do this for us:
// C++11 [class.copy]p7, p18:
// If the class definition declares a move constructor or move assignment
// operator, an implicitly declared copy constructor or copy assignment
// operator is defined as deleted.
// Create a record and start defining it.
llvm::StringRef class_name = "S";
CompilerType t = clang_utils::createRecord(*m_ast, class_name);
m_ast->StartTagDeclarationDefinition(t);
// Create a move constructor that will delete the implicit copy constructor.
CompilerType return_type = m_ast->GetBasicType(lldb::eBasicTypeVoid);
CompilerType param_type = t.GetRValueReferenceType();
CompilerType function_type =
m_ast->CreateFunctionType(return_type, ¶m_type, /*num_params*/ 1,
/*variadic=*/false, /*quals*/ 0U);
bool is_virtual = false;
bool is_static = false;
bool is_inline = false;
bool is_explicit = true;
bool is_attr_used = false;
bool is_artificial = false;
m_ast->AddMethodToCXXRecordType(
t.GetOpaqueQualType(), class_name, nullptr, function_type,
lldb::AccessType::eAccessPublic, is_virtual, is_static, is_inline,
is_explicit, is_attr_used, is_artificial);
// Complete the definition and check the created record.
m_ast->CompleteTagDeclarationDefinition(t);
auto *record = llvm::cast<CXXRecordDecl>(ClangUtil::GetAsTagDecl(t));
// We can't call defaultedCopyConstructorIsDeleted() as this requires that
// the Decl passes through Sema which will actually compute this field.
// Instead we check that there is no copy constructor declared by the user
// which only leaves a non-deleted defaulted copy constructor as an option
// that our record will have no simple copy constructor.
EXPECT_FALSE(record->hasUserDeclaredCopyConstructor());
EXPECT_FALSE(record->hasSimpleCopyConstructor());
}
TEST_F(TestTypeSystemClang, TestNotDeletingUserCopyCstrDueToMoveCStr) {
// Tests that we don't delete the a user-defined copy constructor when
// a move constructor is provided.
// See also the TestDeletingImplicitCopyCstrDueToMoveCStr test.
llvm::StringRef class_name = "S";
CompilerType t = clang_utils::createRecord(*m_ast, class_name);
m_ast->StartTagDeclarationDefinition(t);
CompilerType return_type = m_ast->GetBasicType(lldb::eBasicTypeVoid);
bool is_virtual = false;
bool is_static = false;
bool is_inline = false;
bool is_explicit = true;
bool is_attr_used = false;
bool is_artificial = false;
// Create a move constructor.
{
CompilerType param_type = t.GetRValueReferenceType();
CompilerType function_type =
m_ast->CreateFunctionType(return_type, ¶m_type, /*num_params*/ 1,
/*variadic=*/false, /*quals*/ 0U);
m_ast->AddMethodToCXXRecordType(
t.GetOpaqueQualType(), class_name, nullptr, function_type,
lldb::AccessType::eAccessPublic, is_virtual, is_static, is_inline,
is_explicit, is_attr_used, is_artificial);
}
// Create a copy constructor.
{
CompilerType param_type = t.GetLValueReferenceType().AddConstModifier();
CompilerType function_type =
m_ast->CreateFunctionType(return_type, ¶m_type, /*num_params*/ 1,
/*variadic=*/false, /*quals*/ 0U);
m_ast->AddMethodToCXXRecordType(
t.GetOpaqueQualType(), class_name, nullptr, function_type,
lldb::AccessType::eAccessPublic, is_virtual, is_static, is_inline,
is_explicit, is_attr_used, is_artificial);
}
// Complete the definition and check the created record.
m_ast->CompleteTagDeclarationDefinition(t);
auto *record = llvm::cast<CXXRecordDecl>(ClangUtil::GetAsTagDecl(t));
EXPECT_TRUE(record->hasUserDeclaredCopyConstructor());
}
TEST_F(TestTypeSystemClang, AddMethodToObjCObjectType) {
// Create an interface decl and mark it as having external storage.
CompilerType c = m_ast->CreateObjCClass("A", m_ast->GetTranslationUnitDecl(),
OptionalClangModuleID(),
/*IsForwardDecl*/ false,
/*IsInternal*/ false);
ObjCInterfaceDecl *interface = m_ast->GetAsObjCInterfaceDecl(c);
m_ast->SetHasExternalStorage(c.GetOpaqueQualType(), true);
EXPECT_TRUE(interface->hasExternalLexicalStorage());
// Add a method to the interface.
std::vector<CompilerType> args;
CompilerType func_type =
m_ast->CreateFunctionType(m_ast->GetBasicType(lldb::eBasicTypeInt),
args.data(), args.size(), /*variadic*/ false,
/*quals*/ 0, clang::CallingConv::CC_C);
bool variadic = false;
bool artificial = false;
bool objc_direct = false;
clang::ObjCMethodDecl *method = TypeSystemClang::AddMethodToObjCObjectType(
c, "-[A foo]", func_type, lldb::eAccessPublic, artificial, variadic,
objc_direct);
ASSERT_NE(method, nullptr);
// The interface decl should still have external lexical storage.
EXPECT_TRUE(interface->hasExternalLexicalStorage());
// Test some properties of the created ObjCMethodDecl.
EXPECT_FALSE(method->isVariadic());
EXPECT_TRUE(method->isImplicit());
EXPECT_FALSE(method->isDirectMethod());
EXPECT_EQ(method->getDeclName().getObjCSelector().getAsString(), "foo");
}