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llvm / llvm-project / 1e8286467036d8ef1a972de723f805a4981b2692 / . / clang / test / SemaTemplate / concepts.cpp
blob: c297a75dd82e662db2db87ac6b48adb0f2f59088 [file] [log] [blame]
// RUN: %clang_cc1 -std=c++20 -verify %s
namespace PR47043 {
template<typename T> concept True = true;
template<typename ...T> concept AllTrue1 = True<T>; // expected-error {{expression contains unexpanded parameter pack 'T'}}
template<typename ...T> concept AllTrue2 = (True<T> && ...);
static_assert(AllTrue2<int, float, char>);
}
namespace PR47025 {
template<typename ...T> concept AllAddable1 = requires(T ...t) { (void(t + 1), ...); };
template<typename ...T> concept AllAddable2 = (requires(T ...t) { (t + 1); } && ...); // expected-error {{requirement contains unexpanded parameter pack 't'}}
template<typename ...T> concept AllAddable3 = (requires(T t) { (t + 1); } && ...);
template<typename ...T> concept AllAddable4 = requires(T t) { (t + 1); }; // expected-error {{expression contains unexpanded parameter pack 'T'}}
template<typename ...T> concept AllAddable5 = requires(T t) { (void(t + 1), ...); }; // expected-error {{does not contain any unexpanded}}
template<typename ...T> concept AllAddable6 = (requires { (T() + 1); } && ...);
template<typename ...T> concept AllAddable7 = requires { (T() + 1); }; // expected-error {{expression contains unexpanded parameter pack 'T'}}
static_assert(AllAddable1<int, float>);
static_assert(AllAddable3<int, float>);
static_assert(AllAddable6<int, float>);
static_assert(!AllAddable1<int, void>);
static_assert(!AllAddable3<int, void>);
static_assert(!AllAddable6<int, void>);
}
namespace PR45699 {
template<class> concept C = true; // expected-note 2{{here}}
template<class ...Ts> void f1a() requires C<Ts>; // expected-error {{requires clause contains unexpanded parameter pack 'Ts'}}
template<class ...Ts> requires C<Ts> void f1b(); // expected-error {{requires clause contains unexpanded parameter pack 'Ts'}}
template<class ...Ts> void f2a() requires (C<Ts> && ...);
template<class ...Ts> requires (C<Ts> && ...) void f2b();
template<class ...Ts> void f3a() requires C<Ts...>; // expected-error {{pack expansion used as argument for non-pack parameter of concept}}
template<class ...Ts> requires C<Ts...> void f3b(); // expected-error {{pack expansion used as argument for non-pack parameter of concept}}
template<class ...Ts> void f4() {
([] () requires C<Ts> {} ()); // expected-error {{expression contains unexpanded parameter pack 'Ts'}}
([]<int = 0> requires C<Ts> () {} ()); // expected-error {{expression contains unexpanded parameter pack 'Ts'}}
}
template<class ...Ts> void f5() {
([] () requires C<Ts> {} (), ...);
([]<int = 0> requires C<Ts> () {} (), ...);
}
void g() {
f1a();
f1b(); // FIXME: Bad error recovery. expected-error {{undeclared identifier}}
f2a();
f2b();
f3a();
f3b(); // FIXME: Bad error recovery. expected-error {{undeclared identifier}}
f4();
f5();
}
}
namespace P0857R0 {
void f() {
auto x = []<bool B> requires B {}; // expected-note {{constraints not satisfied}} expected-note {{false}}
x.operator()<true>();
x.operator()<false>(); // expected-error {{no matching member function}}
}
// FIXME: This is valid under P0857R0.
template<typename T> concept C = true;
template<template<typename T> requires C<T> typename U> struct X {}; // expected-error {{requires 'class'}} expected-error 0+{{}}
template<typename T> requires C<T> struct Y {};
X<Y> xy; // expected-error {{no template named 'X'}}
}
namespace PR50306 {
template<typename T> concept NotInt = sizeof(T) != sizeof(int); // expected-note {{because}}
template<typename T> void f() {
[](NotInt auto) {}(T()); // expected-error {{no matching function}} expected-note {{constraints not satisfied}} expected-note {{because}}
}
template void f<char>(); // OK
template void f<int>(); // expected-note {{in instantiation of}}
}
namespace PackInTypeConstraint {
template<typename T, typename U> concept C = sizeof(T) == sizeof(int); // expected-note 3{{}}
template<typename ...T, C<T> U> void h1(); // expected-error {{type constraint contains unexpanded parameter pack 'T'}}
template<typename ...T, C<T> ...U> void h2();
template<typename ...T> void h3(C<T> auto); // expected-error {{type constraint contains unexpanded parameter pack 'T'}}
template<typename ...T> void h4(C<T> auto...);
template<typename ...T> void f1() {
[]<C<T> U>(U u){}(T()); // expected-error {{unexpanded parameter pack 'T'}}
}
template<typename ...T> void f2() {
([]<C<T> U>(U u){}(T()), ...); // expected-error {{no match}} expected-note 2{{}}
}
template void f2<int, int, int>(); // OK
template void f2<int, char, double>(); // expected-note {{in instantiation of}}
void f3() {
([]<typename ...T, C<T> U>(U u){}(0), // expected-error {{type constraint contains unexpanded parameter pack 'T'}}
...); // expected-error {{does not contain any unexpanded}}
}
template<typename ...T> void g1() {
[](C<T> auto){}(T()); // expected-error {{expression contains unexpanded parameter pack 'T'}}
}
template<typename ...T> void g2() {
([](C<T> auto){}(T()), ...); // expected-error {{no matching function}} expected-note {{constraints not satisfied}} expected-note {{because}}
}
template void g2<int, int, int>(); // OK
template void g2<int, char, double>(); // expected-note {{in instantiation of}}
void g3() {
([]<typename ...T>(C<T> auto){}(1), // expected-error {{type constraint contains unexpanded parameter pack 'T'}}
...); // expected-error {{does not contain any unexpanded}}
}
template<typename ...T> void g4() {
[]() -> C<T> auto{ return T(); }(); // expected-error {{expression contains unexpanded parameter pack 'T'}}
}
template<typename ...T> void g5() {
([]() -> C<T> auto{ // expected-error-re {{deduced type {{.*}} does not satisfy}}
return T();
}(), ...);
}
template void g5<int, int, int>(); // OK
template void g5<int, char, double>(); // expected-note {{in instantiation of}}
void g6() {
([]<typename ...T>() -> C<T> auto{ // expected-error {{declaration type contains unexpanded parameter pack 'T'}}
return T(); // expected-error {{expression contains unexpanded parameter pack 'T'}}
}(),
...); // expected-error {{does not contain any unexpanded}}
}
}
namespace BuiltinIsConstantEvaluated {
// Check that we do all satisfaction and diagnostic checks in a constant context.
template<typename T> concept C = __builtin_is_constant_evaluated(); // expected-warning {{always}}
static_assert(C<int>);
template<typename T> concept D = __builtin_is_constant_evaluated() == true; // expected-warning {{always}}
static_assert(D<int>);
template<typename T> concept E = __builtin_is_constant_evaluated() == true && // expected-warning {{always}}
false; // expected-note {{'false' evaluated to false}}
static_assert(E<int>); // expected-error {{failed}} expected-note {{because 'int' does not satisfy 'E'}}
template<typename T> concept F = __builtin_is_constant_evaluated() == false; // expected-warning {{always}}
// expected-note@-1 {{'__builtin_is_constant_evaluated() == false' (1 == 0)}}
static_assert(F<int>); // expected-error {{failed}} expected-note {{because 'int' does not satisfy 'F'}}
template<typename T> concept G = __builtin_is_constant_evaluated() && // expected-warning {{always}}
false; // expected-note {{'false' evaluated to false}}
static_assert(G<int>); // expected-error {{failed}} expected-note {{because 'int' does not satisfy 'G'}}
}
namespace NoConstantFolding {
// Ensure we use strict constant evaluation rules when checking satisfaction.
int n;
template <class T> concept C = &n + 3 - 3 == &n; // expected-error {{non-constant expression}} expected-note {{cannot refer to element 3 of non-array object}}
static_assert(C<void>); // expected-note {{while checking}}
}
namespace PR50337 {
template <typename T> concept foo = true;
template <typename T> concept foo2 = foo<T> && true;
void f(foo auto, auto);
void f(foo2 auto, auto);
void g() { f(1, 2); }
}
namespace PR50561 {
template<typename> concept C = false;
template<typename T, typename U> void f(T, U);
template<C T, typename U> void f(T, U) = delete;
void g() { f(0, 0); }
}