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ed0d7db3db8fbbe3c0132aaf7c87bf0ef2a299c2
clice/tests/unit/AST/ResolverTests.cpp
ykiko dd8f0dd90d refactor: diagnostic handling (#337)
2026-01-03 16:23:06 +08:00

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#include "Test/Test.h"
#include "Test/Tester.h"
#include "clang/AST/RecursiveASTVisitor.h"
namespace clice::testing {
namespace {
struct InputFinder : clang::RecursiveASTVisitor<InputFinder> {
CompilationUnitRef unit;
clang::QualType input;
clang::QualType expect;
using Base = clang::RecursiveASTVisitor<InputFinder>;
InputFinder(CompilationUnitRef unit) : unit(unit) {}
bool TraverseDecl(clang::Decl* decl) {
if(decl && (llvm::isa<clang::TranslationUnitDecl>(decl) ||
unit.file_id(decl->getLocation()) == unit.interested_file())) {
Base::TraverseDecl(decl);
}
return true;
}
bool VisitTypedefNameDecl(const clang::TypedefNameDecl* decl) {
if(decl->getName() == "input") {
input = decl->getUnderlyingType();
}
if(decl->getName() == "expect") {
expect = decl->getUnderlyingType();
}
return true;
}
};
TEST_SUITE(TemplateResolver) {
void run(llvm::StringRef code) {
Tester tester;
tester.add_main("main.cpp", code);
ASSERT_TRUE(tester.compile());
InputFinder finder(*tester.unit);
finder.TraverseAST(tester.unit->context());
auto input = tester.unit->resolver().resolve(finder.input);
auto target = finder.expect;
ASSERT_FALSE(input.isNull() || target.isNull());
EXPECT_EQ(input.getCanonicalType(), target.getCanonicalType());
}
TEST_CASE(TypeParameterType) {
run(R"code(
template <typename T>
struct A {
using type = T;
};
template <typename X>
struct test {
using input = typename A<X>::type;
using expect = X;
};
)code");
}
TEST_CASE(SingleLevel) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T>
struct A {
using type = type_list<T>;
};
template <typename X>
struct test {
using input = typename A<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(SingleLevelNotDependent) {
run(R"code(
template <typename T>
struct A {
using type = int;
};
template <typename X>
struct test {
using input = typename A<X>::type;
using expect = int;
};
)code");
}
TEST_CASE(MultiLevel) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = type_list<T1>;
};
template <typename T2>
struct B {
using type = typename A<T2>::type;
};
template <typename T3>
struct C {
using type = typename B<T3>::type;
};
template <typename X>
struct test {
using input = typename C<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(MultiLevelNotDependent) {
run(R"code(
template <typename T1>
struct A {
using type = int;
};
template <typename T2>
struct B {
using type = typename A<T2>::type;
};
template <typename T3>
struct C {
using type = typename B<T3>::type;
};
template <typename X>
struct test {
using input = typename C<X>::type;
using expect = int;
};
)code");
}
TEST_CASE(ArgumentDependent) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = T1;
};
template <typename T2>
struct B {
using type = type_list<T2>;
};
template <typename X>
struct test {
using input = typename B<typename A<X>::type>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(AliasArgument) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = T1;
};
template <typename T2>
struct B {
using base = A<T2>;
using type = type_list<typename base::type>;
};
template <typename X>
struct test {
using input = typename B<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(AliasDependent) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = type_list<T1>;
};
template <typename T2>
struct B {
using base = A<T2>;
using type = typename base::type;
};
template <typename X>
struct test {
using input = typename B<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(AliasTemplate) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1, typename U1>
struct A {
using type = type_list<T1, U1>;
};
template <typename T2>
struct B {
template <typename U2>
using type = typename A<T2, U2>::type;
};
template <typename X, typename Y>
struct test {
using input = typename B<X>::template type<Y>;
using expect = type_list<X, Y>;
};
)code");
}
TEST_CASE(BaseDependent) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = type_list<T1>;
};
template <typename U2>
struct B : A<U2> {};
template <typename X>
struct test {
using input = typename B<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(MultiNested) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using self = A<T1>;
using type = type_list<T1>;
};
template <typename X>
struct test {
using input = typename A<X>::self::self::self::self::self::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(OuterDependentMemberClass) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
template <typename T2>
struct B {
template <typename T3>
struct C {
using type = type_list<T1, T2, T3>;
};
};
};
template <typename X, typename Y, typename Z>
struct test {
using input = typename A<X>::template B<Y>::template C<Z>::type;
using expect = type_list<X, Y, Z>;
};
)code");
}
TEST_CASE(InnerDependentMemberClass) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T>
struct test {
template <int N, typename U>
struct B {
using type = type_list<U, T>;
};
using input = typename B<1, T>::type;
using expect = type_list<T, T>;
};
)code");
}
TEST_CASE(InnerDependentPartialMemberClass) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T, typename U>
struct test {};
template <typename T>
struct test<T, T> {
template <int N, typename U>
struct A {
using type = type_list<U, T>;
};
using input = typename A<1, T>::type;
using expect = type_list<T, T>;
};
)code");
}
TEST_CASE(PartialSpecialization) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {};
template <typename U2>
struct B {};
template <typename U2, template <typename...> typename HKT>
struct B<HKT<U2>> {
using type = type_list<U2>;
};
template <typename X>
struct test {
using input = typename B<A<X>>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(PartialDefaultArgument) {
run(R"code(
template <typename T, typename U = T>
struct X {};
template <typename T>
struct X<T, T> {
using type = T;
};
template <typename T>
struct test {
using input = typename X<T>::type;
using expect = T;
};
)code");
}
TEST_CASE(DefaultArgument) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename T1>
struct A {
using type = type_list<T1>;
};
template <typename U1, typename U2 = A<U1>>
struct B {
using type = typename U2::type;
};
template <typename X>
struct test {
using input = typename B<X>::type;
using expect = type_list<X>;
};
)code");
}
TEST_CASE(PackExpansion) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename U, typename... Us>
struct X {
using type = type_list<Us...>;
};
template <typename... Ts>
struct test {
using input = typename X<int, Ts...>::type;
using expect = type_list<Ts...>;
};
)code");
}
TEST_CASE(BasePackExpansion) {
run(R"code(
template <typename... Ts>
struct type_list {};
template <typename U, typename... Us>
struct X {
using type = type_list<Us...>;
};
template <typename... Us>
struct Y : X<int, Us...> {};
template <typename... Ts>
struct test {
using input = typename Y<Ts...>::type;
using expect = type_list<Ts...>;
};
)code");
}
TEST_CASE(Standard) {
run(R"code(
#include <vector>
template <typename T>
struct test {
using input = typename std::vector<T>::reference;
using expect = T&;
};
)code");
};
}; // TEST_SUITE(TemplateResolver)
} // namespace
} // namespace clice::testing
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