test/Sema/ext_vector_ops.c - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 %s -verify -fsyntax-only -Wvector-conversion -triple x86_64-apple-darwin10

 typedef unsigned int v2u __attribute__ ((ext_vector_type(2)));
 typedef int v2s __attribute__ ((ext_vector_type(2)));
 typedef float v2f __attribute__ ((ext_vector_type(2)));

 void test1(v2u v2ua, v2s v2sa, v2f v2fa) {
   // Bitwise binary operators
   (void)(v2ua & v2ua);
   (void)(v2fa & v2fa); // expected-error{{invalid operands to binary expression}}

   // Unary operators
   (void)(~v2ua);
   (void)(~v2fa); // expected-error{{invalid argument type 'v2f' (vector of 2 'float' values) to unary}}

   // Comparison operators
   v2sa = (v2ua==v2sa);

   // Arrays
   int array1[v2ua]; // expected-error{{size of array has non-integer type 'v2u' (vector of 2 'unsigned int' values}}
   int array2[17];
   // FIXME: error message below needs type!
   (void)(array2[v2ua]); // expected-error{{array subscript is not an integer}}

   v2u *v2u_ptr = 0;
   v2s *v2s_ptr;
 }

 void test_int_vector_scalar(unsigned int ua, v2u v2ua) {
   // Operations with one integer vector and one scalar. These splat the scalar.
   (void)(v2ua + ua);
   (void)(ua + v2ua);
   (void)(v2ua - ua);
   (void)(ua - v2ua);
   (void)(v2ua * ua);
   (void)(ua * v2ua);
   (void)(v2ua / ua);
   (void)(ua / v2ua);
   (void)(v2ua % ua);
   (void)(ua % v2ua);

   (void)(v2ua == ua);
   (void)(ua == v2ua);
   (void)(v2ua != ua);
   (void)(ua != v2ua);
   (void)(v2ua <= ua);
   (void)(ua <= v2ua);
   (void)(v2ua >= ua);
   (void)(ua >= v2ua);
   (void)(v2ua < ua);
   (void)(ua < v2ua);
   (void)(v2ua > ua);
   (void)(ua > v2ua);
   (void)(v2ua && ua);
   (void)(ua && v2ua);
   (void)(v2ua || ua);
   (void)(ua || v2ua);

   (void)(v2ua & ua);
   (void)(ua & v2ua);
   (void)(v2ua | ua);
   (void)(ua | v2ua);
   (void)(v2ua ^ ua);
   (void)(ua ^ v2ua);
   (void)(v2ua << ua);
   (void)(ua << v2ua);
   (void)(v2ua >> ua);
   (void)(ua >> v2ua);

   v2ua += ua;
   v2ua -= ua;
   v2ua *= ua;
   v2ua /= ua;
   v2ua %= ua;
   v2ua &= ua;
   v2ua |= ua;
   v2ua ^= ua;
   v2ua >>= ua;
   v2ua <<= ua;

   ua += v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua -= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua *= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua /= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua %= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua &= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua |= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua ^= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua >>= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
   ua <<= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
 }

 void test_float_vector_scalar(float fa, unsigned int ua, v2f v2fa) {
   // Operations with one float vector and one scalar. These splat the scalar.
   (void)(v2fa + fa);
   (void)(fa + v2fa);
   (void)(v2fa - fa);
   (void)(fa - v2fa);
   (void)(v2fa * fa);
   (void)(fa * v2fa);
   (void)(v2fa / fa);
   (void)(fa / v2fa);
   (void)(v2fa % fa); // expected-error{{invalid operands to binary expression}}
   (void)(fa % v2fa); // expected-error{{invalid operands to binary expression}}

   (void)(v2fa == fa);
   (void)(fa == v2fa);
   (void)(v2fa != fa);
   (void)(fa != v2fa);
   (void)(v2fa <= fa);
   (void)(fa <= v2fa);
   (void)(v2fa >= fa);
   (void)(fa >= v2fa);
   (void)(v2fa < fa);
   (void)(fa < v2fa);
   (void)(v2fa > fa);
   (void)(fa > v2fa);
   (void)(v2fa && fa);
   (void)(fa && v2fa);
   (void)(v2fa || fa);
   (void)(fa || v2fa);

   (void)(v2fa & fa); // expected-error{{invalid operands to binary expression}}
   (void)(fa & v2fa); // expected-error{{invalid operands to binary expression}}
   (void)(v2fa | fa); // expected-error{{invalid operands to binary expression}}
   (void)(fa | v2fa); // expected-error{{invalid operands to binary expression}}
   (void)(v2fa ^ fa); // expected-error{{invalid operands to binary expression}}
   (void)(fa ^ v2fa); // expected-error{{invalid operands to binary expression}}
   (void)(v2fa << fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   (void)(v2fa << ua); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   (void)(fa << v2fa); // expected-error{{used type 'float' where integer is required}}
   (void)(ua << v2fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   (void)(v2fa >> fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   (void)(v2fa >> ua); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   (void)(fa >> v2fa); // expected-error{{used type 'float' where integer is required}}
   (void)(ua >> v2fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}

   v2fa += fa;
   v2fa -= fa;
   v2fa *= fa;
   v2fa /= fa;
   v2fa %= fa; // expected-error{{invalid operands to binary expression}}
   v2fa &= fa; // expected-error{{invalid operands to binary expression}}
   v2fa |= fa; // expected-error{{invalid operands to binary expression}}
   v2fa ^= fa; // expected-error{{invalid operands to binary expression}}
   v2fa >>= fa; // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
   v2fa <<= fa; // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}

   fa += v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
   fa -= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
   fa *= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
   fa /= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
   fa %= v2fa; // expected-error{{invalid operands to binary expression}}
   fa &= v2fa; // expected-error{{invalid operands to binary expression}}
   fa |= v2fa; // expected-error{{invalid operands to binary expression}}
   fa ^= v2fa; // expected-error{{invalid operands to binary expression}}
   fa >>= v2fa; // expected-error{{used type 'float' where integer is required}}
   fa <<= v2fa; // expected-error{{used type 'float' where integer is required}}
 }

 enum Enum { ENUM };

 void test_enum_vector_scalar(enum Enum ea, v2u v2ua) {
   // Operations with one integer vector and one enum scalar.
   // These splat the scalar and do implicit integral conversions.
   (void)(v2ua + ea);
   (void)(ea + v2ua);
   (void)(v2ua - ea);
   (void)(ea - v2ua);
   (void)(v2ua * ea);
   (void)(ea * v2ua);
   (void)(v2ua / ea);
   (void)(ea / v2ua);
   (void)(v2ua % ea);
   (void)(ea % v2ua);

   (void)(v2ua == ea);
   (void)(ea == v2ua);
   (void)(v2ua != ea);
   (void)(ea != v2ua);
   (void)(v2ua <= ea);
   (void)(ea <= v2ua);
   (void)(v2ua >= ea);
   (void)(ea >= v2ua);
   (void)(v2ua < ea);
   (void)(ea < v2ua);
   (void)(v2ua > ea);
   (void)(ea > v2ua);
   (void)(v2ua && ea);
   (void)(ea && v2ua);
   (void)(v2ua || ea);
   (void)(ea || v2ua);

   (void)(v2ua & ea);
   (void)(ea & v2ua);
   (void)(v2ua | ea);
   (void)(ea | v2ua);
   (void)(v2ua ^ ea);
   (void)(ea ^ v2ua);
   (void)(v2ua << ea);
   (void)(ea << v2ua);
   (void)(v2ua >> ea);
   (void)(ea >> v2ua);

   v2ua += ea;
   v2ua -= ea;
   v2ua *= ea;
   v2ua /= ea;
   v2ua %= ea;
   v2ua &= ea;
   v2ua |= ea;
   v2ua ^= ea;
   v2ua >>= ea;
   v2ua <<= ea;

   ea += v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea -= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea *= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea /= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea %= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea &= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea |= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea ^= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea >>= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
   ea <<= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
 }


 // An incomplete enum type doesn't count as an integral type.
 enum Enum2;

 void test_incomplete_enum(enum Enum2 *ea, v2u v2ua) {
   (void)(v2ua + *ea); // expected-error{{cannot convert between vector and non-scalar values}}
   (void)(*ea + v2ua); // expected-error{{cannot convert between vector and non-scalar values}}
 }
	// RUN: %clang_cc1 %s -verify -fsyntax-only -Wvector-conversion -triple x86_64-apple-darwin10

	typedef unsigned int v2u __attribute__ ((ext_vector_type(2)));
	typedef int v2s __attribute__ ((ext_vector_type(2)));
	typedef float v2f __attribute__ ((ext_vector_type(2)));

	void test1(v2u v2ua, v2s v2sa, v2f v2fa) {
	// Bitwise binary operators
	(void)(v2ua & v2ua);
	(void)(v2fa & v2fa); // expected-error{{invalid operands to binary expression}}

	// Unary operators
	(void)(~v2ua);
	(void)(~v2fa); // expected-error{{invalid argument type 'v2f' (vector of 2 'float' values) to unary}}

	// Comparison operators
	v2sa = (v2ua==v2sa);

	// Arrays
	int array1[v2ua]; // expected-error{{size of array has non-integer type 'v2u' (vector of 2 'unsigned int' values}}
	int array2[17];
	// FIXME: error message below needs type!
	(void)(array2[v2ua]); // expected-error{{array subscript is not an integer}}

	v2u *v2u_ptr = 0;
	v2s *v2s_ptr;
	}

	void test_int_vector_scalar(unsigned int ua, v2u v2ua) {
	// Operations with one integer vector and one scalar. These splat the scalar.
	(void)(v2ua + ua);
	(void)(ua + v2ua);
	(void)(v2ua - ua);
	(void)(ua - v2ua);
	(void)(v2ua * ua);
	(void)(ua * v2ua);
	(void)(v2ua / ua);
	(void)(ua / v2ua);
	(void)(v2ua % ua);
	(void)(ua % v2ua);

	(void)(v2ua == ua);
	(void)(ua == v2ua);
	(void)(v2ua != ua);
	(void)(ua != v2ua);
	(void)(v2ua <= ua);
	(void)(ua <= v2ua);
	(void)(v2ua >= ua);
	(void)(ua >= v2ua);
	(void)(v2ua < ua);
	(void)(ua < v2ua);
	(void)(v2ua > ua);
	(void)(ua > v2ua);
	(void)(v2ua && ua);
	(void)(ua && v2ua);
	(void)(v2ua \|\| ua);
	(void)(ua \|\| v2ua);

	(void)(v2ua & ua);
	(void)(ua & v2ua);
	(void)(v2ua \| ua);
	(void)(ua \| v2ua);
	(void)(v2ua ^ ua);
	(void)(ua ^ v2ua);
	(void)(v2ua << ua);
	(void)(ua << v2ua);
	(void)(v2ua >> ua);
	(void)(ua >> v2ua);

	v2ua += ua;
	v2ua -= ua;
	v2ua *= ua;
	v2ua /= ua;
	v2ua %= ua;
	v2ua &= ua;
	v2ua \|= ua;
	v2ua ^= ua;
	v2ua >>= ua;
	v2ua <<= ua;

	ua += v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua -= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua *= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua /= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua %= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua &= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua \|= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua ^= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua >>= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	ua <<= v2ua; // expected-error{{assigning to 'unsigned int' from incompatible type 'v2u'}}
	}

	void test_float_vector_scalar(float fa, unsigned int ua, v2f v2fa) {
	// Operations with one float vector and one scalar. These splat the scalar.
	(void)(v2fa + fa);
	(void)(fa + v2fa);
	(void)(v2fa - fa);
	(void)(fa - v2fa);
	(void)(v2fa * fa);
	(void)(fa * v2fa);
	(void)(v2fa / fa);
	(void)(fa / v2fa);
	(void)(v2fa % fa); // expected-error{{invalid operands to binary expression}}
	(void)(fa % v2fa); // expected-error{{invalid operands to binary expression}}

	(void)(v2fa == fa);
	(void)(fa == v2fa);
	(void)(v2fa != fa);
	(void)(fa != v2fa);
	(void)(v2fa <= fa);
	(void)(fa <= v2fa);
	(void)(v2fa >= fa);
	(void)(fa >= v2fa);
	(void)(v2fa < fa);
	(void)(fa < v2fa);
	(void)(v2fa > fa);
	(void)(fa > v2fa);
	(void)(v2fa && fa);
	(void)(fa && v2fa);
	(void)(v2fa \|\| fa);
	(void)(fa \|\| v2fa);

	(void)(v2fa & fa); // expected-error{{invalid operands to binary expression}}
	(void)(fa & v2fa); // expected-error{{invalid operands to binary expression}}
	(void)(v2fa \| fa); // expected-error{{invalid operands to binary expression}}
	(void)(fa \| v2fa); // expected-error{{invalid operands to binary expression}}
	(void)(v2fa ^ fa); // expected-error{{invalid operands to binary expression}}
	(void)(fa ^ v2fa); // expected-error{{invalid operands to binary expression}}
	(void)(v2fa << fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	(void)(v2fa << ua); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	(void)(fa << v2fa); // expected-error{{used type 'float' where integer is required}}
	(void)(ua << v2fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	(void)(v2fa >> fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	(void)(v2fa >> ua); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	(void)(fa >> v2fa); // expected-error{{used type 'float' where integer is required}}
	(void)(ua >> v2fa); // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}

	v2fa += fa;
	v2fa -= fa;
	v2fa *= fa;
	v2fa /= fa;
	v2fa %= fa; // expected-error{{invalid operands to binary expression}}
	v2fa &= fa; // expected-error{{invalid operands to binary expression}}
	v2fa \|= fa; // expected-error{{invalid operands to binary expression}}
	v2fa ^= fa; // expected-error{{invalid operands to binary expression}}
	v2fa >>= fa; // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}
	v2fa <<= fa; // expected-error{{used type 'v2f' (vector of 2 'float' values) where integer is required}}

	fa += v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
	fa -= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
	fa *= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
	fa /= v2fa; // expected-error{{assigning to 'float' from incompatible type 'v2f'}}
	fa %= v2fa; // expected-error{{invalid operands to binary expression}}
	fa &= v2fa; // expected-error{{invalid operands to binary expression}}
	fa \|= v2fa; // expected-error{{invalid operands to binary expression}}
	fa ^= v2fa; // expected-error{{invalid operands to binary expression}}
	fa >>= v2fa; // expected-error{{used type 'float' where integer is required}}
	fa <<= v2fa; // expected-error{{used type 'float' where integer is required}}
	}

	enum Enum { ENUM };

	void test_enum_vector_scalar(enum Enum ea, v2u v2ua) {
	// Operations with one integer vector and one enum scalar.
	// These splat the scalar and do implicit integral conversions.
	(void)(v2ua + ea);
	(void)(ea + v2ua);
	(void)(v2ua - ea);
	(void)(ea - v2ua);
	(void)(v2ua * ea);
	(void)(ea * v2ua);
	(void)(v2ua / ea);
	(void)(ea / v2ua);
	(void)(v2ua % ea);
	(void)(ea % v2ua);

	(void)(v2ua == ea);
	(void)(ea == v2ua);
	(void)(v2ua != ea);
	(void)(ea != v2ua);
	(void)(v2ua <= ea);
	(void)(ea <= v2ua);
	(void)(v2ua >= ea);
	(void)(ea >= v2ua);
	(void)(v2ua < ea);
	(void)(ea < v2ua);
	(void)(v2ua > ea);
	(void)(ea > v2ua);
	(void)(v2ua && ea);
	(void)(ea && v2ua);
	(void)(v2ua \|\| ea);
	(void)(ea \|\| v2ua);

	(void)(v2ua & ea);
	(void)(ea & v2ua);
	(void)(v2ua \| ea);
	(void)(ea \| v2ua);
	(void)(v2ua ^ ea);
	(void)(ea ^ v2ua);
	(void)(v2ua << ea);
	(void)(ea << v2ua);
	(void)(v2ua >> ea);
	(void)(ea >> v2ua);

	v2ua += ea;
	v2ua -= ea;
	v2ua *= ea;
	v2ua /= ea;
	v2ua %= ea;
	v2ua &= ea;
	v2ua \|= ea;
	v2ua ^= ea;
	v2ua >>= ea;
	v2ua <<= ea;

	ea += v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea -= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea *= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea /= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea %= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea &= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea \|= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea ^= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea >>= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	ea <<= v2ua; // expected-error{{assigning to 'enum Enum' from incompatible type 'v2u'}}
	}


	// An incomplete enum type doesn't count as an integral type.
	enum Enum2;

	void test_incomplete_enum(enum Enum2 *ea, v2u v2ua) {
	(void)(v2ua + *ea); // expected-error{{cannot convert between vector and non-scalar values}}
	(void)(*ea + v2ua); // expected-error{{cannot convert between vector and non-scalar values}}
	}