Files
clang-p2996/clang/unittests/AST/DeclTest.cpp
Iain Sandoe c7ed65b4bc [C++20][Modules] Limit ModuleInternalLinkage to modules-ts.
At present, we are generating wrong code for C++20 modules entities which
should have internal linkage.  This is because we are assigning
'ModuleInternalLinkage' unconditionally to such entities.  However this mode
is only applicable to the modules-ts.

This change makes the special linkage mode conditional on fmodules-ts and
adds a unit test to verify that we generate the correct linkage.

Currently, static variables and functions in module purview are emitted into
object files as external. On some platforms, lambdas are emitted as global
weak defintions (on Windows this causes a mangler crash).

Differential Revision: https://reviews.llvm.org/D122413
2022-04-01 09:10:30 +01:00

244 lines
8.3 KiB
C++

//===- unittests/AST/DeclTest.cpp --- Declaration tests -------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// Unit tests for Decl nodes in the AST.
//
//===----------------------------------------------------------------------===//
#include "clang/AST/Decl.h"
#include "clang/AST/ASTContext.h"
#include "clang/AST/Mangle.h"
#include "clang/ASTMatchers/ASTMatchFinder.h"
#include "clang/ASTMatchers/ASTMatchers.h"
#include "clang/Basic/LLVM.h"
#include "clang/Basic/TargetInfo.h"
#include "clang/Lex/Lexer.h"
#include "clang/Tooling/Tooling.h"
#include "llvm/IR/DataLayout.h"
#include "llvm/Testing/Support/Annotations.h"
#include "gtest/gtest.h"
using namespace clang::ast_matchers;
using namespace clang::tooling;
using namespace clang;
TEST(Decl, CleansUpAPValues) {
MatchFinder Finder;
std::unique_ptr<FrontendActionFactory> Factory(
newFrontendActionFactory(&Finder));
// This is a regression test for a memory leak in APValues for structs that
// allocate memory. This test only fails if run under valgrind with full leak
// checking enabled.
std::vector<std::string> Args(1, "-std=c++11");
Args.push_back("-fno-ms-extensions");
ASSERT_TRUE(runToolOnCodeWithArgs(
Factory->create(),
"struct X { int a; }; constexpr X x = { 42 };"
"union Y { constexpr Y(int a) : a(a) {} int a; }; constexpr Y y = { 42 };"
"constexpr int z[2] = { 42, 43 };"
"constexpr int __attribute__((vector_size(16))) v1 = {};"
"\n#ifdef __SIZEOF_INT128__\n"
"constexpr __uint128_t large_int = 0xffffffffffffffff;"
"constexpr __uint128_t small_int = 1;"
"\n#endif\n"
"constexpr double d1 = 42.42;"
"constexpr long double d2 = 42.42;"
"constexpr _Complex long double c1 = 42.0i;"
"constexpr _Complex long double c2 = 42.0;"
"template<int N> struct A : A<N-1> {};"
"template<> struct A<0> { int n; }; A<50> a;"
"constexpr int &r = a.n;"
"constexpr int A<50>::*p = &A<50>::n;"
"void f() { foo: bar: constexpr int k = __builtin_constant_p(0) ?"
" (char*)&&foo - (char*)&&bar : 0; }",
Args));
// FIXME: Once this test starts breaking we can test APValue::needsCleanup
// for ComplexInt.
ASSERT_FALSE(runToolOnCodeWithArgs(
Factory->create(),
"constexpr _Complex __uint128_t c = 0xffffffffffffffff;",
Args));
}
TEST(Decl, AsmLabelAttr) {
// Create two method decls: `f` and `g`.
StringRef Code = R"(
struct S {
void f() {}
void g() {}
};
)";
auto AST =
tooling::buildASTFromCodeWithArgs(Code, {"-target", "i386-apple-darwin"});
ASTContext &Ctx = AST->getASTContext();
assert(Ctx.getTargetInfo().getUserLabelPrefix() == StringRef("_") &&
"Expected target to have a global prefix");
DiagnosticsEngine &Diags = AST->getDiagnostics();
const auto *DeclS =
selectFirst<CXXRecordDecl>("d", match(cxxRecordDecl().bind("d"), Ctx));
NamedDecl *DeclF = *DeclS->method_begin();
NamedDecl *DeclG = *(++DeclS->method_begin());
// Attach asm labels to the decls: one literal, and one not.
DeclF->addAttr(::new (Ctx) AsmLabelAttr(Ctx, SourceLocation(), "foo",
/*LiteralLabel=*/true));
DeclG->addAttr(::new (Ctx) AsmLabelAttr(Ctx, SourceLocation(), "goo",
/*LiteralLabel=*/false));
// Mangle the decl names.
std::string MangleF, MangleG;
std::unique_ptr<ItaniumMangleContext> MC(
ItaniumMangleContext::create(Ctx, Diags));
{
llvm::raw_string_ostream OS_F(MangleF);
llvm::raw_string_ostream OS_G(MangleG);
MC->mangleName(DeclF, OS_F);
MC->mangleName(DeclG, OS_G);
}
ASSERT_TRUE(0 == MangleF.compare("\x01" "foo"));
ASSERT_TRUE(0 == MangleG.compare("goo"));
}
TEST(Decl, MangleDependentSizedArray) {
StringRef Code = R"(
template <int ...N>
int A[] = {N...};
template <typename T, int N>
struct S {
T B[N];
};
)";
auto AST =
tooling::buildASTFromCodeWithArgs(Code, {"-target", "i386-apple-darwin"});
ASTContext &Ctx = AST->getASTContext();
assert(Ctx.getTargetInfo().getUserLabelPrefix() == StringRef("_") &&
"Expected target to have a global prefix");
DiagnosticsEngine &Diags = AST->getDiagnostics();
const auto *DeclA =
selectFirst<VarDecl>("A", match(varDecl().bind("A"), Ctx));
const auto *DeclB =
selectFirst<FieldDecl>("B", match(fieldDecl().bind("B"), Ctx));
std::string MangleA, MangleB;
llvm::raw_string_ostream OS_A(MangleA), OS_B(MangleB);
std::unique_ptr<ItaniumMangleContext> MC(
ItaniumMangleContext::create(Ctx, Diags));
MC->mangleTypeName(DeclA->getType(), OS_A);
MC->mangleTypeName(DeclB->getType(), OS_B);
ASSERT_TRUE(0 == MangleA.compare("_ZTSA_i"));
ASSERT_TRUE(0 == MangleB.compare("_ZTSAT0__T_"));
}
TEST(Decl, EnumDeclRange) {
llvm::Annotations Code(R"(
typedef int Foo;
[[enum Bar : Foo]];)");
auto AST = tooling::buildASTFromCodeWithArgs(Code.code(), /*Args=*/{});
ASTContext &Ctx = AST->getASTContext();
const auto &SM = Ctx.getSourceManager();
const auto *Bar =
selectFirst<TagDecl>("Bar", match(enumDecl().bind("Bar"), Ctx));
auto BarRange =
Lexer::getAsCharRange(Bar->getSourceRange(), SM, Ctx.getLangOpts());
EXPECT_EQ(SM.getFileOffset(BarRange.getBegin()), Code.range().Begin);
EXPECT_EQ(SM.getFileOffset(BarRange.getEnd()), Code.range().End);
}
TEST(Decl, IsInExportDeclContext) {
llvm::Annotations Code(R"(
export module m;
export template <class T>
void f() {})");
auto AST =
tooling::buildASTFromCodeWithArgs(Code.code(), /*Args=*/{"-std=c++20"});
ASTContext &Ctx = AST->getASTContext();
const auto *f =
selectFirst<FunctionDecl>("f", match(functionDecl().bind("f"), Ctx));
EXPECT_TRUE(f->isInExportDeclContext());
}
TEST(Decl, InConsistLinkageForTemplates) {
llvm::Annotations Code(R"(
export module m;
export template <class T>
void f() {}
template <>
void f<int>() {})");
auto AST =
tooling::buildASTFromCodeWithArgs(Code.code(), /*Args=*/{"-std=c++20"});
ASTContext &Ctx = AST->getASTContext();
llvm::SmallVector<ast_matchers::BoundNodes, 2> Funcs =
match(functionDecl().bind("f"), Ctx);
EXPECT_EQ(Funcs.size(), 2U);
const FunctionDecl *TemplateF = Funcs[0].getNodeAs<FunctionDecl>("f");
const FunctionDecl *SpecializedF = Funcs[1].getNodeAs<FunctionDecl>("f");
EXPECT_EQ(TemplateF->getLinkageInternal(),
SpecializedF->getLinkageInternal());
}
TEST(Decl, ModuleAndInternalLinkage) {
llvm::Annotations Code(R"(
export module M;
static int a;
static int f(int x);
int b;
int g(int x);)");
auto AST =
tooling::buildASTFromCodeWithArgs(Code.code(), /*Args=*/{"-std=c++20"});
ASTContext &Ctx = AST->getASTContext();
const auto *a =
selectFirst<VarDecl>("a", match(varDecl(hasName("a")).bind("a"), Ctx));
const auto *f = selectFirst<FunctionDecl>(
"f", match(functionDecl(hasName("f")).bind("f"), Ctx));
EXPECT_EQ(a->getLinkageInternal(), InternalLinkage);
EXPECT_EQ(f->getLinkageInternal(), InternalLinkage);
const auto *b =
selectFirst<VarDecl>("b", match(varDecl(hasName("b")).bind("b"), Ctx));
const auto *g = selectFirst<FunctionDecl>(
"g", match(functionDecl(hasName("g")).bind("g"), Ctx));
EXPECT_EQ(b->getLinkageInternal(), ModuleLinkage);
EXPECT_EQ(g->getLinkageInternal(), ModuleLinkage);
AST = tooling::buildASTFromCodeWithArgs(
Code.code(), /*Args=*/{"-std=c++20", "-fmodules-ts"});
ASTContext &CtxTS = AST->getASTContext();
a = selectFirst<VarDecl>("a", match(varDecl(hasName("a")).bind("a"), CtxTS));
f = selectFirst<FunctionDecl>(
"f", match(functionDecl(hasName("f")).bind("f"), CtxTS));
EXPECT_EQ(a->getLinkageInternal(), ModuleInternalLinkage);
EXPECT_EQ(f->getLinkageInternal(), ModuleInternalLinkage);
b = selectFirst<VarDecl>("b", match(varDecl(hasName("b")).bind("b"), CtxTS));
g = selectFirst<FunctionDecl>(
"g", match(functionDecl(hasName("g")).bind("g"), CtxTS));
EXPECT_EQ(b->getLinkageInternal(), ModuleLinkage);
EXPECT_EQ(g->getLinkageInternal(), ModuleLinkage);
}