clang/test/SemaCXX/vector-size-conditional.cpp - llvm-project - Git at Google

 // RUN: %clang_cc1 -triple x86_64-linux-pc -fsyntax-only -verify -fexceptions -fcxx-exceptions %s -std=c++17
 // Note that this test depends on the size of long-long to be different from
 // int, so it specifies a triple.

 using FourShorts = short __attribute__((__vector_size__(8)));
 using TwoInts = int __attribute__((__vector_size__(8)));
 using TwoUInts = unsigned __attribute__((__vector_size__(8)));
 using FourInts = int __attribute__((__vector_size__(16)));
 using FourUInts = unsigned __attribute__((__vector_size__(16)));
 using TwoLongLong = long long __attribute__((__vector_size__(16)));
 using FourLongLong = long long __attribute__((__vector_size__(32)));
 using TwoFloats = float __attribute__((__vector_size__(8)));
 using FourFloats = float __attribute__((__vector_size__(16)));
 using TwoDoubles = double __attribute__((__vector_size__(16)));
 using FourDoubles = double __attribute__((__vector_size__(32)));

 FourShorts four_shorts;
 TwoInts two_ints;
 TwoUInts two_uints;
 FourInts four_ints;
 FourUInts four_uints;
 TwoLongLong two_ll;
 FourLongLong four_ll;
 TwoFloats two_floats;
 FourFloats four_floats;
 TwoDoubles two_doubles;
 FourDoubles four_doubles;

 enum E {};
 enum class SE {};
 E e;
 SE se;

 // Check the rules of the condition of the conditional operator.
 void Condition() {
   // Only int types are allowed here, the rest should fail to convert to bool.
   (void)(four_floats ? 1 : 1); // expected-error {{is not contextually convertible to 'bool'}}}
   (void)(two_doubles ? 1 : 1); // expected-error {{is not contextually convertible to 'bool'}}}
 }

 // Check the rules of the LHS/RHS of the conditional operator.
 void Operands() {
   (void)(four_ints ? four_ints : throw 1); // expected-error {{GNU vector conditional operand cannot be a throw expression}}
   (void)(four_ints ? throw 1 : four_ints); // expected-error {{GNU vector conditional operand cannot be a throw expression}}
   (void)(four_ints ?: throw 1);            // expected-error {{GNU vector conditional operand cannot be a throw expression}}
   (void)(four_ints ? (void)1 : four_ints); // expected-error {{GNU vector conditional operand cannot be void}}
   (void)(four_ints ?: (void)1);            // expected-error {{GNU vector conditional operand cannot be void}}

   // Vector types must be the same element size as the condition.
   (void)(four_ints ? two_ll : two_ll);             // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'TwoLongLong' (vector of 2 'long long' values) do not have the same number of elements}}
   (void)(four_ints ? four_ll : four_ll);           // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'FourLongLong' (vector of 4 'long long' values) do not have elements of the same size}}
   (void)(four_ints ? two_doubles : two_doubles);   // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'TwoDoubles' (vector of 2 'double' values) do not have the same number of elements}}
   (void)(four_ints ? four_doubles : four_doubles); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'FourDoubles' (vector of 4 'double' values) do not have elements of the same size}}
   (void)(four_ints ?: two_ints);                   // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'TwoInts' (vector of 2 'int' values)}}
   (void)(four_ints ?: four_doubles);               // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'FourDoubles' (vector of 4 'double' values)}}

   // Scalars are promoted, but must be the same element size.
   (void)(four_ints ? 3.0f : 3.0); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(double)))) double' (vector of 4 'double' values) do not have elements of the same size}}
   (void)(four_ints ? 5ll : 5);    // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(long long)))) long long' (vector of 4 'long long' values) do not have elements of the same size}}
   (void)(four_ints ?: 3.0);       // expected-error {{cannot convert between scalar type 'double' and vector type 'FourInts' (vector of 4 'int' values) as implicit conversion would cause truncation}}
   (void)(four_ints ?: 5ll);       // We allow this despite GCc not allowing this since we support integral->vector-integral conversions despite integer rank.

   // This one would be allowed in GCC, but we don't allow vectors of enum. Also,
   // the error message isn't perfect, since it is only going to be a problem
   // when both sides are an enum, otherwise it'll be promoted to whatever type
   // the other side causes.
   (void)(four_ints ? e : e);                          // expected-error {{enumeration type 'E' is not allowed in a vector conditional}}
   (void)(four_ints ? se : se);                        // expected-error {{enumeration type 'SE' is not allowed in a vector conditional}}
   (void)(four_shorts ? (short)5 : (unsigned short)5); // expected-error {{vector condition type 'FourShorts' (vector of 4 'short' values) and result type '__attribute__((__vector_size__(4 * sizeof(int)))) int' (vector of 4 'int' values) do not have elements of the same size}}

   // They must also be convertible.
   (void)(four_ints ? 3.0f : 5u);
   (void)(four_ints ? 3.0f : 5);
   unsigned us = 5u;
   int sint = 5;
   short shrt = 5;
   unsigned short uss = 5u;
   // The following 2 error in GCC for truncation errors, but it seems
   // unimportant and inconsistent to enforce that rule.
   (void)(four_ints ? 3.0f : us);
   (void)(four_ints ? 3.0f : sint);

   // Test promotion:
   (void)(four_shorts ? uss : shrt);  // expected-error {{vector condition type 'FourShorts' (vector of 4 'short' values) and result type '__attribute__((__vector_size__(4 * sizeof(int)))) int' (vector of 4 'int' values) do not have elements of the same size}}
   (void)(four_shorts ? shrt : shrt); // should be fine.
   (void)(four_ints ? uss : shrt);    // should be fine, since they get promoted to int.
   (void)(four_ints ? shrt : shrt);   //expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(short)))) short' (vector of 4 'short' values) do not have elements of the same size}}

   // Vectors must be the same type as eachother.
   (void)(four_ints ? four_uints : four_floats); // expected-error {{vector operands to the vector conditional must be the same type ('FourUInts' (vector of 4 'unsigned int' values) and 'FourFloats' (vector of 4 'float' values))}}
   (void)(four_ints ? four_uints : four_ints);   // expected-error {{vector operands to the vector conditional must be the same type ('FourUInts' (vector of 4 'unsigned int' values) and 'FourInts' (vector of 4 'int' values))}}
   (void)(four_ints ? four_ints : four_uints);   // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'FourUInts' (vector of 4 'unsigned int' values))}}

   // GCC rejects these, but our lax vector conversions don't seem to have a problem with them. Allow conversion of the float to an int as an extension.
   (void)(four_ints ? four_uints : 3.0f);
   (void)(four_ints ? four_ints : 3.0f);

   // When there is a vector and a scalar, conversions must be legal.
   (void)(four_ints ? four_floats : 3); // should work, ints can convert to floats.
   (void)(four_ints ? four_uints : e);  // expected-error {{cannot convert between scalar type 'E' and vector type 'FourUInts'}}
   (void)(four_ints ? four_uints : se); // expected-error {{cannot convert between vector and non-scalar values ('FourUInts' (vector of 4 'unsigned int' values) and 'SE'}}
   // GCC permits this, but our conversion rules reject this for truncation.
   (void)(two_ints ? two_ints : us);        // expected-error {{cannot convert between scalar type 'unsigned int' and vector type 'TwoInts'}}
   (void)(four_shorts ? four_shorts : uss); // expected-error {{cannot convert between scalar type 'unsigned short' and vector type 'FourShorts'}}
   (void)(four_ints ? four_floats : us);    // expected-error {{cannot convert between scalar type 'unsigned int' and vector type 'FourFloats'}}
   (void)(four_ints ? four_floats : sint);  // expected-error {{cannot convert between scalar type 'int' and vector type 'FourFloats'}}
 }

 template <typename T1, typename T2>
 struct is_same {
   static constexpr bool value = false;
 };
 template <typename T>
 struct is_same<T, T> {
   static constexpr bool value = true;
 };
 template <typename T1, typename T2>
 constexpr bool is_same_v = is_same<T1, T2>::value;
 template <typename T>
 T &&declval();

 // Check the result types when given two vector types.
 void ResultTypes() {
   // Vectors must be the same, but result is the type of the LHS/RHS.
   static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ? declval<TwoInts>() : declval<TwoInts>())>);
   static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : declval<TwoFloats>())>);

   // When both are scalars, converts to vectors of common type.
   static_assert(is_same_v<TwoUInts, decltype(declval<TwoInts>() ? declval<int>() : declval<unsigned int>())>);

   // Constant is allowed since it doesn't truncate, and should promote to float.
   static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<float>() : 5u)>);
   static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? 5 : declval<float>())>);

   // when only 1 is a scalar, it should convert to a compatible type.
   static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : declval<float>())>);
   static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ? declval<TwoInts>() : declval<int>())>);
   static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : 5)>);

   // For the Binary conditional operator, the result type is either the vector on the RHS (that fits the rules on size/count), or the scalar extended to the correct count.
   static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ?: declval<TwoInts>())>);
   static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ?: declval<int>())>);
 }

 template <typename Cond>
 void dependent_cond(Cond C) {
   (void)(C ? 1 : 2);
 }

 template <typename Operand>
 void dependent_operand(Operand C) {
   (void)(two_ints ? 1 : C);
   (void)(two_ints ? C : 1);
   (void)(two_ints ? C : C);
 }

 template <typename Cond, typename LHS, typename RHS>
 void all_dependent(Cond C, LHS L, RHS R) {
   (void)(C ? L : R);
 }

 // Check dependent cases.
 void Templates() {
   dependent_cond(two_ints);
   dependent_operand(two_floats);
   // expected-error@159 {{vector operands to the vector conditional must be the same type ('__attribute__((__vector_size__(4 * sizeof(unsigned int)))) unsigned int' (vector of 4 'unsigned int' values) and '__attribute__((__vector_size__(4 * sizeof(double)))) double' (vector of 4 'double' values))}}}
   all_dependent(four_ints, four_uints, four_doubles); // expected-note {{in instantiation of}}

   // expected-error@159 {{vector operands to the vector conditional must be the same type ('__attribute__((__vector_size__(4 * sizeof(unsigned int)))) unsigned int' (vector of 4 'unsigned int' values) and '__attribute__((__vector_size__(2 * sizeof(unsigned int)))) unsigned int' (vector of 2 'unsigned int' values))}}}
   all_dependent(four_ints, four_uints, two_uints); // expected-note {{in instantiation of}}
   all_dependent(four_ints, four_uints, four_uints);
 }
	// RUN: %clang_cc1 -triple x86_64-linux-pc -fsyntax-only -verify -fexceptions -fcxx-exceptions %s -std=c++17
	// Note that this test depends on the size of long-long to be different from
	// int, so it specifies a triple.

	using FourShorts = short __attribute__((__vector_size__(8)));
	using TwoInts = int __attribute__((__vector_size__(8)));
	using TwoUInts = unsigned __attribute__((__vector_size__(8)));
	using FourInts = int __attribute__((__vector_size__(16)));
	using FourUInts = unsigned __attribute__((__vector_size__(16)));
	using TwoLongLong = long long __attribute__((__vector_size__(16)));
	using FourLongLong = long long __attribute__((__vector_size__(32)));
	using TwoFloats = float __attribute__((__vector_size__(8)));
	using FourFloats = float __attribute__((__vector_size__(16)));
	using TwoDoubles = double __attribute__((__vector_size__(16)));
	using FourDoubles = double __attribute__((__vector_size__(32)));

	FourShorts four_shorts;
	TwoInts two_ints;
	TwoUInts two_uints;
	FourInts four_ints;
	FourUInts four_uints;
	TwoLongLong two_ll;
	FourLongLong four_ll;
	TwoFloats two_floats;
	FourFloats four_floats;
	TwoDoubles two_doubles;
	FourDoubles four_doubles;

	enum E {};
	enum class SE {};
	E e;
	SE se;

	// Check the rules of the condition of the conditional operator.
	void Condition() {
	// Only int types are allowed here, the rest should fail to convert to bool.
	(void)(four_floats ? 1 : 1); // expected-error {{is not contextually convertible to 'bool'}}}
	(void)(two_doubles ? 1 : 1); // expected-error {{is not contextually convertible to 'bool'}}}
	}

	// Check the rules of the LHS/RHS of the conditional operator.
	void Operands() {
	(void)(four_ints ? four_ints : throw 1); // expected-error {{GNU vector conditional operand cannot be a throw expression}}
	(void)(four_ints ? throw 1 : four_ints); // expected-error {{GNU vector conditional operand cannot be a throw expression}}
	(void)(four_ints ?: throw 1); // expected-error {{GNU vector conditional operand cannot be a throw expression}}
	(void)(four_ints ? (void)1 : four_ints); // expected-error {{GNU vector conditional operand cannot be void}}
	(void)(four_ints ?: (void)1); // expected-error {{GNU vector conditional operand cannot be void}}

	// Vector types must be the same element size as the condition.
	(void)(four_ints ? two_ll : two_ll); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'TwoLongLong' (vector of 2 'long long' values) do not have the same number of elements}}
	(void)(four_ints ? four_ll : four_ll); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'FourLongLong' (vector of 4 'long long' values) do not have elements of the same size}}
	(void)(four_ints ? two_doubles : two_doubles); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'TwoDoubles' (vector of 2 'double' values) do not have the same number of elements}}
	(void)(four_ints ? four_doubles : four_doubles); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type 'FourDoubles' (vector of 4 'double' values) do not have elements of the same size}}
	(void)(four_ints ?: two_ints); // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'TwoInts' (vector of 2 'int' values)}}
	(void)(four_ints ?: four_doubles); // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'FourDoubles' (vector of 4 'double' values)}}

	// Scalars are promoted, but must be the same element size.
	(void)(four_ints ? 3.0f : 3.0); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(double)))) double' (vector of 4 'double' values) do not have elements of the same size}}
	(void)(four_ints ? 5ll : 5); // expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(long long)))) long long' (vector of 4 'long long' values) do not have elements of the same size}}
	(void)(four_ints ?: 3.0); // expected-error {{cannot convert between scalar type 'double' and vector type 'FourInts' (vector of 4 'int' values) as implicit conversion would cause truncation}}
	(void)(four_ints ?: 5ll); // We allow this despite GCc not allowing this since we support integral->vector-integral conversions despite integer rank.

	// This one would be allowed in GCC, but we don't allow vectors of enum. Also,
	// the error message isn't perfect, since it is only going to be a problem
	// when both sides are an enum, otherwise it'll be promoted to whatever type
	// the other side causes.
	(void)(four_ints ? e : e); // expected-error {{enumeration type 'E' is not allowed in a vector conditional}}
	(void)(four_ints ? se : se); // expected-error {{enumeration type 'SE' is not allowed in a vector conditional}}
	(void)(four_shorts ? (short)5 : (unsigned short)5); // expected-error {{vector condition type 'FourShorts' (vector of 4 'short' values) and result type '__attribute__((__vector_size__(4 * sizeof(int)))) int' (vector of 4 'int' values) do not have elements of the same size}}

	// They must also be convertible.
	(void)(four_ints ? 3.0f : 5u);
	(void)(four_ints ? 3.0f : 5);
	unsigned us = 5u;
	int sint = 5;
	short shrt = 5;
	unsigned short uss = 5u;
	// The following 2 error in GCC for truncation errors, but it seems
	// unimportant and inconsistent to enforce that rule.
	(void)(four_ints ? 3.0f : us);
	(void)(four_ints ? 3.0f : sint);

	// Test promotion:
	(void)(four_shorts ? uss : shrt); // expected-error {{vector condition type 'FourShorts' (vector of 4 'short' values) and result type '__attribute__((__vector_size__(4 * sizeof(int)))) int' (vector of 4 'int' values) do not have elements of the same size}}
	(void)(four_shorts ? shrt : shrt); // should be fine.
	(void)(four_ints ? uss : shrt); // should be fine, since they get promoted to int.
	(void)(four_ints ? shrt : shrt); //expected-error {{vector condition type 'FourInts' (vector of 4 'int' values) and result type '__attribute__((__vector_size__(4 * sizeof(short)))) short' (vector of 4 'short' values) do not have elements of the same size}}

	// Vectors must be the same type as eachother.
	(void)(four_ints ? four_uints : four_floats); // expected-error {{vector operands to the vector conditional must be the same type ('FourUInts' (vector of 4 'unsigned int' values) and 'FourFloats' (vector of 4 'float' values))}}
	(void)(four_ints ? four_uints : four_ints); // expected-error {{vector operands to the vector conditional must be the same type ('FourUInts' (vector of 4 'unsigned int' values) and 'FourInts' (vector of 4 'int' values))}}
	(void)(four_ints ? four_ints : four_uints); // expected-error {{vector operands to the vector conditional must be the same type ('FourInts' (vector of 4 'int' values) and 'FourUInts' (vector of 4 'unsigned int' values))}}

	// GCC rejects these, but our lax vector conversions don't seem to have a problem with them. Allow conversion of the float to an int as an extension.
	(void)(four_ints ? four_uints : 3.0f);
	(void)(four_ints ? four_ints : 3.0f);

	// When there is a vector and a scalar, conversions must be legal.
	(void)(four_ints ? four_floats : 3); // should work, ints can convert to floats.
	(void)(four_ints ? four_uints : e); // expected-error {{cannot convert between scalar type 'E' and vector type 'FourUInts'}}
	(void)(four_ints ? four_uints : se); // expected-error {{cannot convert between vector and non-scalar values ('FourUInts' (vector of 4 'unsigned int' values) and 'SE'}}
	// GCC permits this, but our conversion rules reject this for truncation.
	(void)(two_ints ? two_ints : us); // expected-error {{cannot convert between scalar type 'unsigned int' and vector type 'TwoInts'}}
	(void)(four_shorts ? four_shorts : uss); // expected-error {{cannot convert between scalar type 'unsigned short' and vector type 'FourShorts'}}
	(void)(four_ints ? four_floats : us); // expected-error {{cannot convert between scalar type 'unsigned int' and vector type 'FourFloats'}}
	(void)(four_ints ? four_floats : sint); // expected-error {{cannot convert between scalar type 'int' and vector type 'FourFloats'}}
	}

	template <typename T1, typename T2>
	struct is_same {
	static constexpr bool value = false;
	};
	template <typename T>
	struct is_same<T, T> {
	static constexpr bool value = true;
	};
	template <typename T1, typename T2>
	constexpr bool is_same_v = is_same<T1, T2>::value;
	template <typename T>
	T &&declval();

	// Check the result types when given two vector types.
	void ResultTypes() {
	// Vectors must be the same, but result is the type of the LHS/RHS.
	static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ? declval<TwoInts>() : declval<TwoInts>())>);
	static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : declval<TwoFloats>())>);

	// When both are scalars, converts to vectors of common type.
	static_assert(is_same_v<TwoUInts, decltype(declval<TwoInts>() ? declval<int>() : declval<unsigned int>())>);

	// Constant is allowed since it doesn't truncate, and should promote to float.
	static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<float>() : 5u)>);
	static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? 5 : declval<float>())>);

	// when only 1 is a scalar, it should convert to a compatible type.
	static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : declval<float>())>);
	static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ? declval<TwoInts>() : declval<int>())>);
	static_assert(is_same_v<TwoFloats, decltype(declval<TwoInts>() ? declval<TwoFloats>() : 5)>);

	// For the Binary conditional operator, the result type is either the vector on the RHS (that fits the rules on size/count), or the scalar extended to the correct count.
	static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ?: declval<TwoInts>())>);
	static_assert(is_same_v<TwoInts, decltype(declval<TwoInts>() ?: declval<int>())>);
	}

	template <typename Cond>
	void dependent_cond(Cond C) {
	(void)(C ? 1 : 2);
	}

	template <typename Operand>
	void dependent_operand(Operand C) {
	(void)(two_ints ? 1 : C);
	(void)(two_ints ? C : 1);
	(void)(two_ints ? C : C);
	}

	template <typename Cond, typename LHS, typename RHS>
	void all_dependent(Cond C, LHS L, RHS R) {
	(void)(C ? L : R);
	}

	// Check dependent cases.
	void Templates() {
	dependent_cond(two_ints);
	dependent_operand(two_floats);
	// expected-error@159 {{vector operands to the vector conditional must be the same type ('__attribute__((__vector_size__(4 * sizeof(unsigned int)))) unsigned int' (vector of 4 'unsigned int' values) and '__attribute__((__vector_size__(4 * sizeof(double)))) double' (vector of 4 'double' values))}}}
	all_dependent(four_ints, four_uints, four_doubles); // expected-note {{in instantiation of}}

	// expected-error@159 {{vector operands to the vector conditional must be the same type ('__attribute__((__vector_size__(4 * sizeof(unsigned int)))) unsigned int' (vector of 4 'unsigned int' values) and '__attribute__((__vector_size__(2 * sizeof(unsigned int)))) unsigned int' (vector of 2 'unsigned int' values))}}}
	all_dependent(four_ints, four_uints, two_uints); // expected-note {{in instantiation of}}
	all_dependent(four_ints, four_uints, four_uints);
	}