test/SemaCXX/compare-cxx2a.cpp - clang - Git at Google

 // Force x86-64 because some of our heuristics are actually based
 // on integer sizes.

 // RUN: %clang_cc1 -triple x86_64-apple-darwin -fcxx-exceptions -fsyntax-only -pedantic -verify -Wsign-compare -std=c++2a %s

 #include "Inputs/std-compare.h"

 #define ASSERT_TYPE(...) static_assert(__is_same(__VA_ARGS__))
 #define ASSERT_EXPR_TYPE(Expr, Expect) static_assert(__is_same(decltype(Expr), Expect));

 struct S {
   static int x[5];
 };

 void self_compare() {
   int a;
   int *b = nullptr;
   S s;

   (void)(a <=> a); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
   (void)(b <=> b); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
   (void)(s.x[a] <=> S::x[a]); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
 }

 void test0(long a, unsigned long b) {
   enum EnumA : int {A};
   enum EnumB {B};
   enum EnumC {C = 0x10000};

   (void)((short)a <=> (unsigned short)b);

   // (a,b)
   (void)(a <=> (unsigned long)b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)(a <=> (unsigned int) b);
   (void)(a <=> (unsigned short) b);
   (void)(a <=> (unsigned char) b);
   (void)((long)a <=> b);                // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)a <=> b);                 // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((short)a <=> b);               // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((signed char)a <=> b);         // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((long)a <=> (unsigned long)b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)a <=> (unsigned int)b);   // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((short) a <=> (unsigned short) b);
   (void)((signed char) a <=> (unsigned char) b);

   // (A,b)
   (void)(A <=> (unsigned long) b);
   (void)(A <=> (unsigned int) b);
   (void)(A <=> (unsigned short) b);
   (void)(A <=> (unsigned char) b);
   (void)((long) A <=> b);
   (void)((int) A <=> b);
   (void)((short) A <=> b);
   (void)((signed char) A <=> b);
   (void)((long) A <=> (unsigned long) b);
   (void)((int) A <=> (unsigned int) b);
   (void)((short) A <=> (unsigned short) b);
   (void)((signed char) A <=> (unsigned char) b);

   // (a,B)
   (void)(a <=> (unsigned long) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
   (void)(a <=> (unsigned int) B);
   (void)(a <=> (unsigned short) B);
   (void)(a <=> (unsigned char) B);
   (void)((long) a <=> B);
   (void)((int) a <=> B);
   (void)((short) a <=> B);
   (void)((signed char) a <=> B);
   (void)((long) a <=> (unsigned long) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
   (void)((int) a <=> (unsigned int) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
   (void)((short) a <=> (unsigned short) B);
   (void)((signed char) a <=> (unsigned char) B);

   // (C,b)
   (void)(C <=> (unsigned long) b);
   (void)(C <=> (unsigned int) b);
   (void)(C <=> (unsigned short) b); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'unsigned short' is always 'std::strong_ordering::greater'}}
   (void)(C <=> (unsigned char) b);  // expected-warning {{comparison of constant 'C' (65536) with expression of type 'unsigned char' is always 'std::strong_ordering::greater'}}
   (void)((long) C <=> b);
   (void)((int) C <=> b);
   (void)((short) C <=> b);
   (void)((signed char) C <=> b);
   (void)((long) C <=> (unsigned long) b);
   (void)((int) C <=> (unsigned int) b);
   (void)((short) C <=> (unsigned short) b);
   (void)((signed char) C <=> (unsigned char) b);

   // (a,C)
   (void)(a <=> (unsigned long) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
   (void)(a <=> (unsigned int) C);
   (void)(a <=> (unsigned short) C);
   (void)(a <=> (unsigned char) C);
   (void)((long) a <=> C);
   (void)((int) a <=> C);
   (void)((short) a <=> C); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'short' is always 'std::strong_ordering::less'}}
   (void)((signed char) a <=> C); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'signed char' is always 'std::strong_ordering::less'}}
   (void)((long) a <=> (unsigned long) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
   (void)((int) a <=> (unsigned int) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
   (void)((short) a <=> (unsigned short) C);
   (void)((signed char) a <=> (unsigned char) C);

   // (0x80000,b)
   (void)(0x80000 <=> (unsigned long) b);
   (void)(0x80000 <=> (unsigned int) b);
   (void)(0x80000 <=> (unsigned short) b); // expected-warning {{result of comparison of constant 524288 with expression of type 'unsigned short' is always 'std::strong_ordering::greater'}}
   (void)(0x80000 <=> (unsigned char) b); // expected-warning {{result of comparison of constant 524288 with expression of type 'unsigned char' is always 'std::strong_ordering::greater'}}
   (void)((long) 0x80000 <=> b);
   (void)((int) 0x80000 <=> b);
   (void)((short) 0x80000 <=> b);
   (void)((signed char) 0x80000 <=> b);
   (void)((long) 0x80000 <=> (unsigned long) b);
   (void)((int) 0x80000 <=> (unsigned int) b);
   (void)((short) 0x80000 <=> (unsigned short) b);
   (void)((signed char) 0x80000 <=> (unsigned char) b);

   // (a,0x80000)
   (void)(a <=> (unsigned long)0x80000); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)(a <=> (unsigned int) 0x80000);
   (void)(a <=> (unsigned short) 0x80000);
   (void)(a <=> (unsigned char) 0x80000);
   (void)((long) a <=> 0x80000);
   (void)((int) a <=> 0x80000);
   (void)((short) a <=> 0x80000); // expected-warning {{comparison of constant 524288 with expression of type 'short' is always 'std::strong_ordering::less'}}
   (void)((signed char) a <=> 0x80000); // expected-warning {{comparison of constant 524288 with expression of type 'signed char' is always 'std::strong_ordering::less'}}
   (void)((long)a <=> (unsigned long)0x80000); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)a <=> (unsigned int)0x80000);   // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((short) a <=> (unsigned short) 0x80000);
   (void)((signed char) a <=> (unsigned char) 0x80000);
 }

 void test5(bool b, bool b2) {
   enum EnumA { A };
   (void)(b <=> b2);      // OK
   (void)(true <=> b);    // OK
   (void)(b <=> -10);     // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
   (void)(b <=> char(1)); // expected-error {{invalid operands to binary expression ('bool' and 'char')}}
   (void)(b <=> A);       // expected-error {{invalid operands to binary expression ('bool' and 'EnumA')}}

   // FIXME: Should this be accepted when narrowing doesn't occur?
   (void)(b <=> 0); // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
   (void)(b <=> 1); // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
 }

 void test6(signed char sc) {
   (void)(sc <=> 200); // expected-warning{{comparison of constant 200 with expression of type 'signed char' is always 'std::strong_ordering::less'}}
   (void)(200 <=> sc); // expected-warning{{comparison of constant 200 with expression of type 'signed char' is always 'std::strong_ordering::greater'}}
 }

 // Test many signedness combinations.
 void test7(unsigned long other) {
   // Common unsigned, other unsigned, constant unsigned
   (void)((unsigned)other <=> (unsigned long)(0x1'ffff'ffff)); // expected-warning{{less}}
   (void)((unsigned)other <=> (unsigned long)(0xffff'ffff));
   (void)((unsigned long)other <=> (unsigned)(0x1'ffff'ffff));
   (void)((unsigned long)other <=> (unsigned)(0xffff'ffff));

   // Common unsigned, other signed, constant unsigned
   (void)((int)other <=> (unsigned long)(0xffff'ffff'ffff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)other <=> (unsigned long)(0x0000'0000'ffff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)other <=> (unsigned long)(0x0000'0000'0fff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
   (void)((int)other <=> (unsigned)(0x8000'0000));                // expected-error {{argument to 'operator<=>' cannot be narrowed}}

   // Common unsigned, other unsigned, constant signed
   (void)((unsigned long)other <=> (int)(0xffff'ffff)); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned long'}}

   // Common unsigned, other signed, constant signed
   // Should not be possible as the common type should also be signed.

   // Common signed, other signed, constant signed
   (void)((int)other <=> (long)(0xffff'ffff));           // expected-warning{{less}}
   (void)((int)other <=> (long)(0xffff'ffff'0000'0000)); // expected-warning{{greater}}
   (void)((int)other <=> (long)(0x0fff'ffff));
   (void)((int)other <=> (long)(0xffff'ffff'f000'0000));

   // Common signed, other signed, constant unsigned
   (void)((int)other <=> (unsigned char)(0xffff));
   (void)((int)other <=> (unsigned char)(0xff));

   // Common signed, other unsigned, constant signed
   (void)((unsigned char)other <=> (int)(0xff));
   (void)((unsigned char)other <=> (int)(0xffff));  // expected-warning{{less}}

   // Common signed, other unsigned, constant unsigned
   (void)((unsigned char)other <=> (unsigned short)(0xff));
   (void)((unsigned char)other <=> (unsigned short)(0x100)); // expected-warning{{less}}
   (void)((unsigned short)other <=> (unsigned char)(0xff));
 }

 void test8(void *vp, const void *cvp, int *ip) {
   (void)(vp <=> cvp); // OK, void* comparisons are allowed.
   (void)(vp <=> ip);
   (void)(ip <=> cvp);
 }

 void test9(long double ld, double d, float f, int i, long long ll) {
   (void)(f <=> ll); // OK, floating-point to integer is OK
   (void)(d <=> ld);
   (void)(i <=> f);
 }

 typedef int *INTPTR;
 void test_typedef_bug(int *x, INTPTR y) {
   (void)(x <=> y);
 }

 using nullptr_t = decltype(nullptr);

 struct Class {};
 struct ClassB : Class {};
 struct Class2 {};
 using FnTy = void(int);
 using FnTy2 = long(int);
 using MemFnTy = void (Class::*)() const;
 using MemFnTyB = void (ClassB::*)() const;
 using MemFnTy2 = void (Class::*)();
 using MemFnTy3 = void (Class2::*)() const;
 using MemDataTy = long(Class::*);

 void test_nullptr(int *x, FnTy *fp, MemFnTy memp, MemDataTy memdp) {
   auto r1 = (nullptr <=> nullptr);
   ASSERT_EXPR_TYPE(r1, std::strong_equality);

   auto r2 = (nullptr <=> x);
   ASSERT_EXPR_TYPE(r2, std::strong_equality);

   auto r3 = (fp <=> nullptr);
   ASSERT_EXPR_TYPE(r3, std::strong_equality);

   auto r4 = (0 <=> fp);
   ASSERT_EXPR_TYPE(r4, std::strong_equality);

   auto r5 = (nullptr <=> memp);
   ASSERT_EXPR_TYPE(r5, std::strong_equality);

   auto r6 = (0 <=> memdp);
   ASSERT_EXPR_TYPE(r6, std::strong_equality);

   auto r7 = (0 <=> nullptr);
   ASSERT_EXPR_TYPE(r7, std::strong_equality);
 }

 void test_compatible_pointer(FnTy *f1, FnTy2 *f2, MemFnTy mf1, MemFnTyB mfb,
                              MemFnTy2 mf2, MemFnTy3 mf3) {
   (void)(f1 <=> f2); // expected-error {{distinct pointer types}}

   auto r1 = (mf1 <=> mfb); // OK
   ASSERT_EXPR_TYPE(r1, std::strong_equality);
   ASSERT_EXPR_TYPE((mf1 <=> mfb), std::strong_equality);

   (void)(mf1 <=> mf2); // expected-error {{distinct pointer types}}
   (void)(mf3 <=> mf1); // expected-error {{distinct pointer types}}
 }

 // Test that variable narrowing is deferred for value dependent expressions
 template <int Val>
 auto test_template_overflow() {
   // expected-error@+1 {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned long'}}
   return (Val <=> (unsigned long)0);
 }
 template auto test_template_overflow<0>();
 template auto test_template_overflow<-1>(); // expected-note {{requested here}}

 void test_enum_integral_compare() {
   enum EnumA : int {A, ANeg = -1, AMax = __INT_MAX__};
   enum EnumB : unsigned {B, BMax = __UINT32_MAX__ };
   enum EnumC : int {C = -1, C0 = 0};

   (void)(A <=> C); // expected-error {{invalid operands to binary expression ('EnumA' and 'EnumC')}}

   (void)(A <=> (unsigned)0);
   (void)((unsigned)0 <=> A);
   (void)(ANeg <=> (unsigned)0); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
   (void)((unsigned)0 <=> ANeg); // expected-error {{cannot be narrowed}}

   (void)(B <=> 42);
   (void)(42 <=> B);
   (void)(B <=> (unsigned long long)42);
   (void)(B <=> -1); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
   (void)(BMax <=> (unsigned long)-1);

   (void)(C0 <=> (unsigned)42);
   (void)(C <=> (unsigned)42); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
 }

 namespace EnumCompareTests {

 enum class EnumA { A, A2 };
 enum class EnumB { B };
 enum class EnumC : unsigned { C };

 void test_enum_enum_compare_no_builtin() {
   auto r1 = (EnumA::A <=> EnumA::A2); // OK
   ASSERT_EXPR_TYPE(r1, std::strong_ordering);
   (void)(EnumA::A <=> EnumA::A); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
   (void)(EnumA::A <=> EnumB::B); // expected-error {{invalid operands to binary expression ('EnumCompareTests::EnumA' and 'EnumCompareTests::EnumB')}}
   (void)(EnumB::B <=> EnumA::A); // expected-error {{invalid operands}}
 }

 template <int>
 struct Tag {};
 // expected-note@+1 {{candidate}}
 Tag<0> operator<=>(EnumA, EnumA) {
   return {};
 }
 Tag<1> operator<=>(EnumA, EnumB) {
   return {};
 }

 void test_enum_ovl_provided() {
   auto r1 = (EnumA::A <=> EnumA::A);
   ASSERT_EXPR_TYPE(r1, Tag<0>);
   auto r2 = (EnumA::A <=> EnumB::B);
   ASSERT_EXPR_TYPE(r2, Tag<1>);
   (void)(EnumB::B <=> EnumA::A); // expected-error {{invalid operands to binary expression ('EnumCompareTests::EnumB' and 'EnumCompareTests::EnumA')}}
 }

 void enum_float_test() {
   enum EnumA { A };
   (void)(A <=> (float)0);       // expected-error {{invalid operands to binary expression ('EnumA' and 'float')}}
   (void)((double)0 <=> A);      // expected-error {{invalid operands to binary expression ('double' and 'EnumA')}}
   (void)((long double)0 <=> A); // expected-error {{invalid operands to binary expression ('long double' and 'EnumA')}}
 }

 enum class Bool1 : bool { Zero,
                           One };
 enum Bool2 : bool { B2_Zero,
                     B2_One };

 void test_bool_enum(Bool1 A1, Bool1 A2, Bool2 B1, Bool2 B2) {
   (void)(A1 <=> A2);
   (void)(B1 <=> B2);
 }

 } // namespace EnumCompareTests

 namespace TestUserDefinedConvSeq {

 template <class T, T Val>
 struct Conv {
   constexpr operator T() const { return Val; }
   operator T() { return Val; }
 };

 void test_user_conv() {
   {
     using C = Conv<int, 0>;
     C c;
     const C cc;
     (void)(0 <=> c);
     (void)(c <=> -1);
     (void)((unsigned)0 <=> cc);
     (void)((unsigned)0 <=> c); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
   }
   {
     using C = Conv<int, -1>;
     C c;
     const C cc;
     (void)(c <=> 0);
     (void)(cc <=> (unsigned)0); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
     (void)(c <=> (unsigned)0);  // expected-error {{cannot be narrowed from type 'int' to 'unsigned int'}}
   }
 }

 } // namespace TestUserDefinedConvSeq

 void test_array_conv() {
   int arr[5];
   int *ap = arr + 2;
   int arr2[3];
   (void)(arr <=> arr); // expected-error {{invalid operands to binary expression ('int [5]' and 'int [5]')}}
   (void)(+arr <=> arr);
 }

 void test_mixed_float_int(float f, double d, long double ld) {
   extern int i;
   extern unsigned u;
   extern long l;
   extern short s;
   extern unsigned short us;
   auto r1 = (f <=> i);
   ASSERT_EXPR_TYPE(r1, std::partial_ordering);

   auto r2 = (us <=> ld);
   ASSERT_EXPR_TYPE(r2, std::partial_ordering);

   auto r3 = (s <=> f);
   ASSERT_EXPR_TYPE(r3, std::partial_ordering);

   auto r4 = (0.0 <=> i);
   ASSERT_EXPR_TYPE(r4, std::partial_ordering);
 }

 namespace NullptrTest {
 using nullptr_t = decltype(nullptr);
 void foo(nullptr_t x, nullptr_t y) {
   auto r = x <=> y;
   ASSERT_EXPR_TYPE(r, std::strong_equality);
 }
 } // namespace NullptrTest

 namespace ComplexTest {

 enum class StrongE {};
 enum WeakE { E_One,
              E_Two };

 void test_diag(_Complex int ci, _Complex float cf, _Complex double cd, int i, float f, StrongE E1, WeakE E2, int *p) {  // expected-warning 3 {{'_Complex' is a C99 extension}}
   (void)(ci <=> (_Complex int &)ci); // expected-warning {{'_Complex' is a C99 extension}}
   (void)(ci <=> cf);
   (void)(ci <=> i);
   (void)(ci <=> f);
   (void)(cf <=> i);
   (void)(cf <=> f);
   (void)(ci <=> p); // expected-error {{invalid operands}}
   (void)(ci <=> E1); // expected-error {{invalid operands}}
   (void)(E2 <=> cf); // expected-error {{invalid operands}}
 }

 void test_int(_Complex int x, _Complex int y) { // expected-warning 2 {{'_Complex' is a C99 extension}}
   auto r = x <=> y;
   ASSERT_EXPR_TYPE(r, std::strong_equality);
 }

 void test_double(_Complex double x, _Complex double y) { // expected-warning 2 {{'_Complex' is a C99 extension}}
   auto r = x <=> y;
   ASSERT_EXPR_TYPE(r, std::weak_equality);
 }

 } // namespace ComplexTest
	// Force x86-64 because some of our heuristics are actually based
	// on integer sizes.

	// RUN: %clang_cc1 -triple x86_64-apple-darwin -fcxx-exceptions -fsyntax-only -pedantic -verify -Wsign-compare -std=c++2a %s

	#include "Inputs/std-compare.h"

	#define ASSERT_TYPE(...) static_assert(__is_same(__VA_ARGS__))
	#define ASSERT_EXPR_TYPE(Expr, Expect) static_assert(__is_same(decltype(Expr), Expect));

	struct S {
	static int x[5];
	};

	void self_compare() {
	int a;
	int *b = nullptr;
	S s;

	(void)(a <=> a); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
	(void)(b <=> b); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
	(void)(s.x[a] <=> S::x[a]); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
	}

	void test0(long a, unsigned long b) {
	enum EnumA : int {A};
	enum EnumB {B};
	enum EnumC {C = 0x10000};

	(void)((short)a <=> (unsigned short)b);

	// (a,b)
	(void)(a <=> (unsigned long)b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)(a <=> (unsigned int) b);
	(void)(a <=> (unsigned short) b);
	(void)(a <=> (unsigned char) b);
	(void)((long)a <=> b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)a <=> b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((short)a <=> b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((signed char)a <=> b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((long)a <=> (unsigned long)b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)a <=> (unsigned int)b); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((short) a <=> (unsigned short) b);
	(void)((signed char) a <=> (unsigned char) b);

	// (A,b)
	(void)(A <=> (unsigned long) b);
	(void)(A <=> (unsigned int) b);
	(void)(A <=> (unsigned short) b);
	(void)(A <=> (unsigned char) b);
	(void)((long) A <=> b);
	(void)((int) A <=> b);
	(void)((short) A <=> b);
	(void)((signed char) A <=> b);
	(void)((long) A <=> (unsigned long) b);
	(void)((int) A <=> (unsigned int) b);
	(void)((short) A <=> (unsigned short) b);
	(void)((signed char) A <=> (unsigned char) b);

	// (a,B)
	(void)(a <=> (unsigned long) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
	(void)(a <=> (unsigned int) B);
	(void)(a <=> (unsigned short) B);
	(void)(a <=> (unsigned char) B);
	(void)((long) a <=> B);
	(void)((int) a <=> B);
	(void)((short) a <=> B);
	(void)((signed char) a <=> B);
	(void)((long) a <=> (unsigned long) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
	(void)((int) a <=> (unsigned int) B); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
	(void)((short) a <=> (unsigned short) B);
	(void)((signed char) a <=> (unsigned char) B);

	// (C,b)
	(void)(C <=> (unsigned long) b);
	(void)(C <=> (unsigned int) b);
	(void)(C <=> (unsigned short) b); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'unsigned short' is always 'std::strong_ordering::greater'}}
	(void)(C <=> (unsigned char) b); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'unsigned char' is always 'std::strong_ordering::greater'}}
	(void)((long) C <=> b);
	(void)((int) C <=> b);
	(void)((short) C <=> b);
	(void)((signed char) C <=> b);
	(void)((long) C <=> (unsigned long) b);
	(void)((int) C <=> (unsigned int) b);
	(void)((short) C <=> (unsigned short) b);
	(void)((signed char) C <=> (unsigned char) b);

	// (a,C)
	(void)(a <=> (unsigned long) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
	(void)(a <=> (unsigned int) C);
	(void)(a <=> (unsigned short) C);
	(void)(a <=> (unsigned char) C);
	(void)((long) a <=> C);
	(void)((int) a <=> C);
	(void)((short) a <=> C); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'short' is always 'std::strong_ordering::less'}}
	(void)((signed char) a <=> C); // expected-warning {{comparison of constant 'C' (65536) with expression of type 'signed char' is always 'std::strong_ordering::less'}}
	(void)((long) a <=> (unsigned long) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'long' to 'unsigned long'}}
	(void)((int) a <=> (unsigned int) C); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
	(void)((short) a <=> (unsigned short) C);
	(void)((signed char) a <=> (unsigned char) C);

	// (0x80000,b)
	(void)(0x80000 <=> (unsigned long) b);
	(void)(0x80000 <=> (unsigned int) b);
	(void)(0x80000 <=> (unsigned short) b); // expected-warning {{result of comparison of constant 524288 with expression of type 'unsigned short' is always 'std::strong_ordering::greater'}}
	(void)(0x80000 <=> (unsigned char) b); // expected-warning {{result of comparison of constant 524288 with expression of type 'unsigned char' is always 'std::strong_ordering::greater'}}
	(void)((long) 0x80000 <=> b);
	(void)((int) 0x80000 <=> b);
	(void)((short) 0x80000 <=> b);
	(void)((signed char) 0x80000 <=> b);
	(void)((long) 0x80000 <=> (unsigned long) b);
	(void)((int) 0x80000 <=> (unsigned int) b);
	(void)((short) 0x80000 <=> (unsigned short) b);
	(void)((signed char) 0x80000 <=> (unsigned char) b);

	// (a,0x80000)
	(void)(a <=> (unsigned long)0x80000); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)(a <=> (unsigned int) 0x80000);
	(void)(a <=> (unsigned short) 0x80000);
	(void)(a <=> (unsigned char) 0x80000);
	(void)((long) a <=> 0x80000);
	(void)((int) a <=> 0x80000);
	(void)((short) a <=> 0x80000); // expected-warning {{comparison of constant 524288 with expression of type 'short' is always 'std::strong_ordering::less'}}
	(void)((signed char) a <=> 0x80000); // expected-warning {{comparison of constant 524288 with expression of type 'signed char' is always 'std::strong_ordering::less'}}
	(void)((long)a <=> (unsigned long)0x80000); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)a <=> (unsigned int)0x80000); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((short) a <=> (unsigned short) 0x80000);
	(void)((signed char) a <=> (unsigned char) 0x80000);
	}

	void test5(bool b, bool b2) {
	enum EnumA { A };
	(void)(b <=> b2); // OK
	(void)(true <=> b); // OK
	(void)(b <=> -10); // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
	(void)(b <=> char(1)); // expected-error {{invalid operands to binary expression ('bool' and 'char')}}
	(void)(b <=> A); // expected-error {{invalid operands to binary expression ('bool' and 'EnumA')}}

	// FIXME: Should this be accepted when narrowing doesn't occur?
	(void)(b <=> 0); // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
	(void)(b <=> 1); // expected-error {{invalid operands to binary expression ('bool' and 'int')}}
	}

	void test6(signed char sc) {
	(void)(sc <=> 200); // expected-warning{{comparison of constant 200 with expression of type 'signed char' is always 'std::strong_ordering::less'}}
	(void)(200 <=> sc); // expected-warning{{comparison of constant 200 with expression of type 'signed char' is always 'std::strong_ordering::greater'}}
	}

	// Test many signedness combinations.
	void test7(unsigned long other) {
	// Common unsigned, other unsigned, constant unsigned
	(void)((unsigned)other <=> (unsigned long)(0x1'ffff'ffff)); // expected-warning{{less}}
	(void)((unsigned)other <=> (unsigned long)(0xffff'ffff));
	(void)((unsigned long)other <=> (unsigned)(0x1'ffff'ffff));
	(void)((unsigned long)other <=> (unsigned)(0xffff'ffff));

	// Common unsigned, other signed, constant unsigned
	(void)((int)other <=> (unsigned long)(0xffff'ffff'ffff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)other <=> (unsigned long)(0x0000'0000'ffff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)other <=> (unsigned long)(0x0000'0000'0fff'ffff)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}
	(void)((int)other <=> (unsigned)(0x8000'0000)); // expected-error {{argument to 'operator<=>' cannot be narrowed}}

	// Common unsigned, other unsigned, constant signed
	(void)((unsigned long)other <=> (int)(0xffff'ffff)); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned long'}}

	// Common unsigned, other signed, constant signed
	// Should not be possible as the common type should also be signed.

	// Common signed, other signed, constant signed
	(void)((int)other <=> (long)(0xffff'ffff)); // expected-warning{{less}}
	(void)((int)other <=> (long)(0xffff'ffff'0000'0000)); // expected-warning{{greater}}
	(void)((int)other <=> (long)(0x0fff'ffff));
	(void)((int)other <=> (long)(0xffff'ffff'f000'0000));

	// Common signed, other signed, constant unsigned
	(void)((int)other <=> (unsigned char)(0xffff));
	(void)((int)other <=> (unsigned char)(0xff));

	// Common signed, other unsigned, constant signed
	(void)((unsigned char)other <=> (int)(0xff));
	(void)((unsigned char)other <=> (int)(0xffff)); // expected-warning{{less}}

	// Common signed, other unsigned, constant unsigned
	(void)((unsigned char)other <=> (unsigned short)(0xff));
	(void)((unsigned char)other <=> (unsigned short)(0x100)); // expected-warning{{less}}
	(void)((unsigned short)other <=> (unsigned char)(0xff));
	}

	void test8(void vp, const void cvp, int *ip) {
	(void)(vp <=> cvp); // OK, void* comparisons are allowed.
	(void)(vp <=> ip);
	(void)(ip <=> cvp);
	}

	void test9(long double ld, double d, float f, int i, long long ll) {
	(void)(f <=> ll); // OK, floating-point to integer is OK
	(void)(d <=> ld);
	(void)(i <=> f);
	}

	typedef int *INTPTR;
	void test_typedef_bug(int *x, INTPTR y) {
	(void)(x <=> y);
	}

	using nullptr_t = decltype(nullptr);

	struct Class {};
	struct ClassB : Class {};
	struct Class2 {};
	using FnTy = void(int);
	using FnTy2 = long(int);
	using MemFnTy = void (Class::*)() const;
	using MemFnTyB = void (ClassB::*)() const;
	using MemFnTy2 = void (Class::*)();
	using MemFnTy3 = void (Class2::*)() const;
	using MemDataTy = long(Class::*);

	void test_nullptr(int x, FnTy fp, MemFnTy memp, MemDataTy memdp) {
	auto r1 = (nullptr <=> nullptr);
	ASSERT_EXPR_TYPE(r1, std::strong_equality);

	auto r2 = (nullptr <=> x);
	ASSERT_EXPR_TYPE(r2, std::strong_equality);

	auto r3 = (fp <=> nullptr);
	ASSERT_EXPR_TYPE(r3, std::strong_equality);

	auto r4 = (0 <=> fp);
	ASSERT_EXPR_TYPE(r4, std::strong_equality);

	auto r5 = (nullptr <=> memp);
	ASSERT_EXPR_TYPE(r5, std::strong_equality);

	auto r6 = (0 <=> memdp);
	ASSERT_EXPR_TYPE(r6, std::strong_equality);

	auto r7 = (0 <=> nullptr);
	ASSERT_EXPR_TYPE(r7, std::strong_equality);
	}

	void test_compatible_pointer(FnTy f1, FnTy2 f2, MemFnTy mf1, MemFnTyB mfb,
	MemFnTy2 mf2, MemFnTy3 mf3) {
	(void)(f1 <=> f2); // expected-error {{distinct pointer types}}

	auto r1 = (mf1 <=> mfb); // OK
	ASSERT_EXPR_TYPE(r1, std::strong_equality);
	ASSERT_EXPR_TYPE((mf1 <=> mfb), std::strong_equality);

	(void)(mf1 <=> mf2); // expected-error {{distinct pointer types}}
	(void)(mf3 <=> mf1); // expected-error {{distinct pointer types}}
	}

	// Test that variable narrowing is deferred for value dependent expressions
	template <int Val>
	auto test_template_overflow() {
	// expected-error@+1 {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned long'}}
	return (Val <=> (unsigned long)0);
	}
	template auto test_template_overflow<0>();
	template auto test_template_overflow<-1>(); // expected-note {{requested here}}

	void test_enum_integral_compare() {
	enum EnumA : int {A, ANeg = -1, AMax = __INT_MAX__};
	enum EnumB : unsigned {B, BMax = __UINT32_MAX__ };
	enum EnumC : int {C = -1, C0 = 0};

	(void)(A <=> C); // expected-error {{invalid operands to binary expression ('EnumA' and 'EnumC')}}

	(void)(A <=> (unsigned)0);
	(void)((unsigned)0 <=> A);
	(void)(ANeg <=> (unsigned)0); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
	(void)((unsigned)0 <=> ANeg); // expected-error {{cannot be narrowed}}

	(void)(B <=> 42);
	(void)(42 <=> B);
	(void)(B <=> (unsigned long long)42);
	(void)(B <=> -1); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
	(void)(BMax <=> (unsigned long)-1);

	(void)(C0 <=> (unsigned)42);
	(void)(C <=> (unsigned)42); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
	}

	namespace EnumCompareTests {

	enum class EnumA { A, A2 };
	enum class EnumB { B };
	enum class EnumC : unsigned { C };

	void test_enum_enum_compare_no_builtin() {
	auto r1 = (EnumA::A <=> EnumA::A2); // OK
	ASSERT_EXPR_TYPE(r1, std::strong_ordering);
	(void)(EnumA::A <=> EnumA::A); // expected-warning {{self-comparison always evaluates to 'std::strong_ordering::equal'}}
	(void)(EnumA::A <=> EnumB::B); // expected-error {{invalid operands to binary expression ('EnumCompareTests::EnumA' and 'EnumCompareTests::EnumB')}}
	(void)(EnumB::B <=> EnumA::A); // expected-error {{invalid operands}}
	}

	template <int>
	struct Tag {};
	// expected-note@+1 {{candidate}}
	Tag<0> operator<=>(EnumA, EnumA) {
	return {};
	}
	Tag<1> operator<=>(EnumA, EnumB) {
	return {};
	}

	void test_enum_ovl_provided() {
	auto r1 = (EnumA::A <=> EnumA::A);
	ASSERT_EXPR_TYPE(r1, Tag<0>);
	auto r2 = (EnumA::A <=> EnumB::B);
	ASSERT_EXPR_TYPE(r2, Tag<1>);
	(void)(EnumB::B <=> EnumA::A); // expected-error {{invalid operands to binary expression ('EnumCompareTests::EnumB' and 'EnumCompareTests::EnumA')}}
	}

	void enum_float_test() {
	enum EnumA { A };
	(void)(A <=> (float)0); // expected-error {{invalid operands to binary expression ('EnumA' and 'float')}}
	(void)((double)0 <=> A); // expected-error {{invalid operands to binary expression ('double' and 'EnumA')}}
	(void)((long double)0 <=> A); // expected-error {{invalid operands to binary expression ('long double' and 'EnumA')}}
	}

	enum class Bool1 : bool { Zero,
	One };
	enum Bool2 : bool { B2_Zero,
	B2_One };

	void test_bool_enum(Bool1 A1, Bool1 A2, Bool2 B1, Bool2 B2) {
	(void)(A1 <=> A2);
	(void)(B1 <=> B2);
	}

	} // namespace EnumCompareTests

	namespace TestUserDefinedConvSeq {

	template <class T, T Val>
	struct Conv {
	constexpr operator T() const { return Val; }
	operator T() { return Val; }
	};

	void test_user_conv() {
	{
	using C = Conv<int, 0>;
	C c;
	const C cc;
	(void)(0 <=> c);
	(void)(c <=> -1);
	(void)((unsigned)0 <=> cc);
	(void)((unsigned)0 <=> c); // expected-error {{argument to 'operator<=>' cannot be narrowed from type 'int' to 'unsigned int'}}
	}
	{
	using C = Conv<int, -1>;
	C c;
	const C cc;
	(void)(c <=> 0);
	(void)(cc <=> (unsigned)0); // expected-error {{argument to 'operator<=>' evaluates to -1, which cannot be narrowed to type 'unsigned int'}}
	(void)(c <=> (unsigned)0); // expected-error {{cannot be narrowed from type 'int' to 'unsigned int'}}
	}
	}

	} // namespace TestUserDefinedConvSeq

	void test_array_conv() {
	int arr[5];
	int *ap = arr + 2;
	int arr2[3];
	(void)(arr <=> arr); // expected-error {{invalid operands to binary expression ('int [5]' and 'int [5]')}}
	(void)(+arr <=> arr);
	}

	void test_mixed_float_int(float f, double d, long double ld) {
	extern int i;
	extern unsigned u;
	extern long l;
	extern short s;
	extern unsigned short us;
	auto r1 = (f <=> i);
	ASSERT_EXPR_TYPE(r1, std::partial_ordering);

	auto r2 = (us <=> ld);
	ASSERT_EXPR_TYPE(r2, std::partial_ordering);

	auto r3 = (s <=> f);
	ASSERT_EXPR_TYPE(r3, std::partial_ordering);

	auto r4 = (0.0 <=> i);
	ASSERT_EXPR_TYPE(r4, std::partial_ordering);
	}

	namespace NullptrTest {
	using nullptr_t = decltype(nullptr);
	void foo(nullptr_t x, nullptr_t y) {
	auto r = x <=> y;
	ASSERT_EXPR_TYPE(r, std::strong_equality);
	}
	} // namespace NullptrTest

	namespace ComplexTest {

	enum class StrongE {};
	enum WeakE { E_One,
	E_Two };

	void test_diag(_Complex int ci, _Complex float cf, _Complex double cd, int i, float f, StrongE E1, WeakE E2, int *p) { // expected-warning 3 {{'_Complex' is a C99 extension}}
	(void)(ci <=> (_Complex int &)ci); // expected-warning {{'_Complex' is a C99 extension}}
	(void)(ci <=> cf);
	(void)(ci <=> i);
	(void)(ci <=> f);
	(void)(cf <=> i);
	(void)(cf <=> f);
	(void)(ci <=> p); // expected-error {{invalid operands}}
	(void)(ci <=> E1); // expected-error {{invalid operands}}
	(void)(E2 <=> cf); // expected-error {{invalid operands}}
	}

	void test_int(_Complex int x, _Complex int y) { // expected-warning 2 {{'_Complex' is a C99 extension}}
	auto r = x <=> y;
	ASSERT_EXPR_TYPE(r, std::strong_equality);
	}

	void test_double(_Complex double x, _Complex double y) { // expected-warning 2 {{'_Complex' is a C99 extension}}
	auto r = x <=> y;
	ASSERT_EXPR_TYPE(r, std::weak_equality);
	}

	} // namespace ComplexTest