Files
clang-p2996/clang/test/SemaCXX/cxx1z-constexpr-lambdas.cpp
Richard Smith 24ad121582 Add -std=c++20 flag, replace C++2a with C++20 throughout the Clang
user interface and documentation, and update __cplusplus for C++20.

WG21 considers the C++20 standard to be finished (even though it still
has some more steps to pass through in the ISO process).

The old flag names are accepted for compatibility, as usual, and we
still have lots of references to C++2a in comments and identifiers;
those can be cleaned up separately.
2020-02-18 16:16:37 -08:00

352 lines
8.7 KiB
C++

// RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks %s -fcxx-exceptions
// RUN: %clang_cc1 -std=c++20 -verify -fsyntax-only -fblocks %s -fcxx-exceptions
// RUN: %clang_cc1 -std=c++1z -verify -fsyntax-only -fblocks -fdelayed-template-parsing %s -fcxx-exceptions
// RUN: %clang_cc1 -std=c++14 -verify -fsyntax-only -fblocks %s -DCPP14_AND_EARLIER -fcxx-exceptions
namespace test_lambda_is_literal {
#ifdef CPP14_AND_EARLIER
//expected-error@+4{{not a literal type}}
//expected-note@+2{{lambda closure types are non-literal types before C++17}}
#endif
auto L = [] { };
constexpr int foo(decltype(L) l) { return 0; }
}
#ifndef CPP14_AND_EARLIER
namespace test_constexpr_checking {
namespace ns1 {
struct NonLit { ~NonLit(); }; //expected-note{{not literal}}
auto L = [](NonLit NL) constexpr { }; //expected-error{{not a literal type}}
} // end ns1
namespace ns2 {
auto L = [](int I) constexpr { if (I == 5) asm("non-constexpr"); };
#if __cpp_constexpr < 201907L
//expected-warning@-2{{use of this statement in a constexpr function is a C++20 extension}}
#endif
} // end ns1
// This is not constexpr until C++20, as the requirements on constexpr
// functions don't permit try-catch blocks.
#if __cplusplus <= 201703L
// expected-error@#try-catch {{constant expression}}
// expected-note@#try-catch {{non-constexpr function 'operator()'}}
// expected-note@#try-catch {{declared here}}
#endif
constexpr int try_catch = [] { // #try-catch
try { return 0; } catch (...) { return 1; }
}();
// These lambdas have constexpr operator() even though they can never produce a
// constant expression.
auto never_constant_1 = [] { // expected-note {{here}}
volatile int n = 0;
return n;
};
auto never_constant_2 = [] () -> int { // expected-note {{here}}
};
struct test_never_constant {
#if __cplusplus >= 201703L
// expected-error@+3 {{non-constexpr declaration of 'operator()' follows constexpr declaration}}
// expected-error@+3 {{non-constexpr declaration of 'operator()' follows constexpr declaration}}
#endif
friend auto decltype(never_constant_1)::operator()() const;
friend int decltype(never_constant_2)::operator()() const;
};
} // end ns test_constexpr_checking
namespace test_constexpr_call {
namespace ns1 {
auto L = [](int I) { return I; };
static_assert(L(3) == 3);
} // end ns1
namespace ns2 {
auto L = [](auto a) { return a; };
static_assert(L(3) == 3);
static_assert(L(3.14) == 3.14);
}
namespace ns3 {
auto L = [](auto a) { asm("non-constexpr"); return a; };
constexpr int I = //expected-error{{must be initialized by a constant expression}}
L(3);
#if __cpp_constexpr < 201907L
//expected-note@-2{{non-constexpr function}}
//expected-note@-5{{declared here}}
#else
//expected-note@-7{{subexpression not valid in a constant expression}}
//expected-note@-6{{in call to}}
#endif
}
} // end ns test_constexpr_call
namespace test_captureless_lambda {
void f() {
const char c = 'c';
auto L = [] { return c; };
constexpr char C = L();
}
void f(char c) { //expected-note{{declared here}}
auto L = [] { return c; }; //expected-error{{cannot be implicitly captured}} expected-note{{lambda expression begins here}}
int I = L();
}
}
namespace test_conversion_function_for_non_capturing_lambdas {
namespace ns1 {
auto L = [](int i) { return i; };
constexpr int (*fpi)(int) = L;
static_assert(fpi(3) == 3);
auto GL = [](auto a) { return a; };
constexpr char (*fp2)(char) = GL;
constexpr double (*fp3)(double) = GL;
constexpr const char* (*fp4)(const char*) = GL;
static_assert(fp2('3') == '3');
static_assert(fp3(3.14) == 3.14);
constexpr const char *Str = "abc";
static_assert(fp4(Str) == Str);
auto NCL = [](int i) { static int j; return j; }; //expected-note{{declared here}}
constexpr int (*fp5)(int) = NCL;
constexpr int I = //expected-error{{must be initialized by a constant expression}}
fp5(5); //expected-note{{non-constexpr function}}
namespace test_dont_always_instantiate_constexpr_templates {
auto explicit_return_type = [](auto x) -> int { return x.get(); };
decltype(explicit_return_type(0)) c; // OK
auto deduced_return_type = [](auto x) { return x.get(); }; //expected-error{{not a structure or union}}
decltype(deduced_return_type(0)) d; //expected-note{{requested here}}
} // end ns test_dont_always_instantiate_constexpr_templates
} // end ns1
} // end ns test_conversion_function_for_non_capturing_lambdas
namespace test_lambda_is_cce {
namespace ns1_simple_lambda {
namespace ns0 {
constexpr int I = [](auto a) { return a; }(10);
static_assert(I == 10);
static_assert(10 == [](auto a) { return a; }(10));
static_assert(3.14 == [](auto a) { return a; }(3.14));
} //end ns0
namespace ns1 {
constexpr auto f(int i) {
double d = 3.14;
auto L = [=](auto a) {
int Isz = sizeof(i);
return sizeof(i) + sizeof(a) + sizeof(d);
};
int I = L("abc") + L(nullptr);
return L;
}
constexpr auto L = f(3);
constexpr auto M = L("abc") + L(nullptr);
static_assert(M == sizeof(int) * 2 + sizeof(double) * 2 + sizeof(nullptr) + sizeof(const char*));
} // end ns1
namespace ns2 {
constexpr auto f(int i) {
auto L = [](auto a) { return a + a; };
return L;
}
constexpr auto L = f(3);
constexpr int I = L(6);
static_assert(I == 12);
} // end ns2
namespace contained_lambdas_call_operator_is_not_constexpr {
constexpr auto f(int i) {
double d = 3.14;
auto L = [=](auto a) {
int Isz = sizeof(i);
asm("hello");
return sizeof(i) + sizeof(a) + sizeof(d);
};
return L;
}
constexpr auto L = f(3);
constexpr auto M = // expected-error{{must be initialized by}}
L("abc");
#if __cpp_constexpr < 201907L
//expected-note@-2{{non-constexpr function}}
//expected-note@-14{{declared here}}
#else
//expected-note@-14{{subexpression not valid in a constant expression}}
//expected-note@-6{{in call to}}
#endif
} // end ns contained_lambdas_call_operator_is_not_constexpr
} // end ns1_simple_lambda
namespace test_captures_1 {
namespace ns1 {
constexpr auto f(int i) {
struct S { int x; } s = { i * 2 };
auto L = [=](auto a) {
return i + s.x + a;
};
return L;
}
constexpr auto M = f(3);
static_assert(M(10) == 19);
} // end test_captures_1::ns1
namespace ns2 {
constexpr auto foo(int n) {
auto L = [i = n] (auto N) mutable {
if (!N(i)) throw "error";
return [&i] {
return ++i;
};
};
auto M = L([n](int p) { return p == n; });
M(); M();
L([n](int p) { return p == n + 2; });
return L;
}
constexpr auto L = foo(3);
} // end test_captures_1::ns2
namespace ns3 {
constexpr auto foo(int n) {
auto L = [i = n] (auto N) mutable {
if (!N(i)) throw "error";
return [&i] {
return [i]() mutable {
return ++i;
};
};
};
auto M = L([n](int p) { return p == n; });
M()(); M()();
L([n](int p) { return p == n; });
return L;
}
constexpr auto L = foo(3);
} // end test_captures_1::ns3
namespace ns2_capture_this_byval {
struct S {
int s;
constexpr S(int s) : s{s} { }
constexpr auto f(S o) {
return [*this,o] (auto a) { return s + o.s + a.s; };
}
};
constexpr auto L = S{5}.f(S{10});
static_assert(L(S{100}) == 115);
} // end test_captures_1::ns2_capture_this_byval
namespace ns2_capture_this_byref {
struct S {
int s;
constexpr S(int s) : s{s} { }
constexpr auto f() const {
return [this] { return s; };
}
};
constexpr S SObj{5};
constexpr auto L = SObj.f();
constexpr int I = L();
static_assert(I == 5);
} // end ns2_capture_this_byref
} // end test_captures_1
namespace test_capture_array {
namespace ns1 {
constexpr auto f(int I) {
int arr[] = { I, I *2, I * 3 };
auto L1 = [&] (auto a) { return arr[a]; };
int r = L1(2);
struct X { int x, y; };
return [=](auto a) { return X{arr[a],r}; };
}
constexpr auto L = f(3);
static_assert(L(0).x == 3);
static_assert(L(0).y == 9);
static_assert(L(1).x == 6);
static_assert(L(1).y == 9);
} // end ns1
} // end test_capture_array
namespace ns1_test_lvalue_type {
void f() {
volatile int n;
constexpr bool B = [&]{ return &n; }() == &n; // should be accepted
}
} // end ns1_unimplemented
} // end ns test_lambda_is_cce
namespace PR36054 {
constexpr int fn() {
int Capture = 42;
return [=]() constexpr { return Capture; }();
}
static_assert(fn() == 42, "");
template <class T>
constexpr int tfn() {
int Capture = 42;
return [=]() constexpr { return Capture; }();
}
static_assert(tfn<int>() == 42, "");
constexpr int gfn() {
int Capture = 42;
return [=](auto P) constexpr { return Capture + P; }(58);
}
static_assert(gfn() == 100, "");
constexpr bool OtherCaptures() {
int Capture = 42;
constexpr auto Outer = [](auto P) constexpr { return 42 + P; };
auto Inner = [&](auto O) constexpr { return O(58) + Capture; };
return Inner(Outer) == 142;
}
static_assert(OtherCaptures(), "");
} // namespace PR36054
#endif // ndef CPP14_AND_EARLIER