test/Sema/ppc-pair-mma-types.c - llvm-project/clang - Git at Google

 // RUN: %clang_cc1 -triple powerpc64le-unknown-unknown -fsyntax-only \
 // RUN:   -target-cpu pwr10 %s -verify
 // RUN: %clang_cc1 -triple powerpc64-unknown-unknown -fsyntax-only \
 // RUN:   -target-cpu pwr10 %s -verify

 // The use of PPC MMA types is strongly restricted. Non-pointer MMA variables
 // can only be declared in functions and a limited number of operations are
 // supported on these types. This test case checks that invalid uses of MMA
 // types are correctly prevented.

 // vector quad

 // typedef
 typedef __vector_quad vq_t;

 // function argument
 void testVQArg1(__vector_quad vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vqp = (__vector_quad *)ptr;
   *vqp = vq;
 }

 void testVQArg2(const __vector_quad vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vqp = (__vector_quad *)ptr;
   *vqp = vq;
 }

 void testVQArg6(const vq_t vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vqp = (__vector_quad *)ptr;
   *vqp = vq;
 }

 // function return
 __vector_quad testVQRet1(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vqp = (__vector_quad *)ptr;
   return *vqp; // expected-error {{invalid use of PPC MMA type}}
 }

 const vq_t testVQRet4(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vqp = (__vector_quad *)ptr;
   return *vqp; // expected-error {{invalid use of PPC MMA type}}
 }

 // global
 __vector_quad globalvq;        // expected-error {{invalid use of PPC MMA type}}
 const __vector_quad globalvq2; // expected-error {{invalid use of PPC MMA type}}
 __vector_quad *globalvqp;
 const __vector_quad *const globalvqp2;
 vq_t globalvq_t; // expected-error {{invalid use of PPC MMA type}}


 // struct field
 struct TestVQStruct {
   int a;
   float b;
   __vector_quad c; // expected-error {{invalid use of PPC MMA type}}
   __vector_quad *vq;
 };

 // operators
 int testVQOperators1(int *ptr) {
   __vector_quad *vqp = (__vector_quad *)ptr;
   __vector_quad vq1 = *(vqp + 0);
   __vector_quad vq2 = *(vqp + 1);
   __vector_quad vq3 = *(vqp + 2);
   if (vq1) // expected-error {{statement requires expression of scalar type ('__vector_quad' invalid)}}
     *(vqp + 10) = vq1;
   if (!vq2) // expected-error {{invalid argument type '__vector_quad' to unary expression}}
     *(vqp + 11) = vq3;
   int c1 = vq1 && vq2; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   int c2 = vq2 == vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   int c3 = vq2 < vq1;  // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   return c1 || c2 || c3;
 }

 void testVQOperators2(int *ptr) {
   __vector_quad *vqp = (__vector_quad *)ptr;
   __vector_quad vq1 = *(vqp + 0);
   __vector_quad vq2 = *(vqp + 1);
   __vector_quad vq3 = *(vqp + 2);
   vq1 = -vq1;      // expected-error {{invalid argument type '__vector_quad' to unary expression}}
   vq2 = vq1 + vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   vq2 = vq2 * vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   vq3 = vq3 | vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
   vq3 = vq3 << 2;  // expected-error {{invalid operands to binary expression ('__vector_quad' and 'int')}}
   *(vqp + 10) = vq1;
   *(vqp + 11) = vq2;
   *(vqp + 12) = vq3;
 }

 vector unsigned char testVQOperators3(int *ptr) {
   __vector_quad *vqp = (__vector_quad *)ptr;
   __vector_quad vq1 = *(vqp + 0);
   __vector_quad vq2 = *(vqp + 1);
   __vector_quad vq3 = *(vqp + 2);
   vq1 ? *(vqp + 10) = vq2 : *(vqp + 11) = vq3; // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
   vq2 = vq3;
   return vq2[1]; // expected-error {{subscripted value is not an array, pointer, or vector}}
 }

 void testVQOperators4(int v, void *ptr) {
   __vector_quad *vqp = (__vector_quad *)ptr;
   __vector_quad vq1 = (__vector_quad)v;   // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
   __vector_quad vq2 = (__vector_quad)vqp; // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
 }

 // vector pair

 // typedef
 typedef __vector_pair vp_t;

 // function argument
 void testVPArg1(__vector_pair vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vpp = (__vector_pair *)ptr;
   *vpp = vp;
 }

 void testVPArg2(const __vector_pair vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vpp = (__vector_pair *)ptr;
   *vpp = vp;
 }

 void testVPArg6(const vp_t vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vpp = (__vector_pair *)ptr;
   *vpp = vp;
 }

 // function return
 __vector_pair testVPRet1(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vpp = (__vector_pair *)ptr;
   return *vpp; // expected-error {{invalid use of PPC MMA type}}
 }

 const vp_t testVPRet4(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vpp = (__vector_pair *)ptr;
   return *vpp; // expected-error {{invalid use of PPC MMA type}}
 }

 // global
 __vector_pair globalvp;        // expected-error {{invalid use of PPC MMA type}}
 const __vector_pair globalvp2; // expected-error {{invalid use of PPC MMA type}}
 __vector_pair *globalvpp;
 const __vector_pair *const globalvpp2;
 vp_t globalvp_t; // expected-error {{invalid use of PPC MMA type}}

 // struct field
 struct TestVPStruct {
   int a;
   float b;
   __vector_pair c; // expected-error {{invalid use of PPC MMA type}}
   __vector_pair *vp;
 };

 // operators
 int testVPOperators1(int *ptr) {
   __vector_pair *vpp = (__vector_pair *)ptr;
   __vector_pair vp1 = *(vpp + 0);
   __vector_pair vp2 = *(vpp + 1);
   __vector_pair vp3 = *(vpp + 2);
   if (vp1) // expected-error {{statement requires expression of scalar type ('__vector_pair' invalid)}}
     *(vpp + 10) = vp1;
   if (!vp2) // expected-error {{invalid argument type '__vector_pair' to unary expression}}
     *(vpp + 11) = vp3;
   int c1 = vp1 && vp2; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   int c2 = vp2 == vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   int c3 = vp2 < vp1;  // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   return c1 || c2 || c3;
 }

 void testVPOperators2(int *ptr) {
   __vector_pair *vpp = (__vector_pair *)ptr;
   __vector_pair vp1 = *(vpp + 0);
   __vector_pair vp2 = *(vpp + 1);
   __vector_pair vp3 = *(vpp + 2);
   vp1 = -vp1;      // expected-error {{invalid argument type '__vector_pair' to unary expression}}
   vp2 = vp1 + vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   vp2 = vp2 * vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   vp3 = vp3 | vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
   vp3 = vp3 << 2;  // expected-error {{invalid operands to binary expression ('__vector_pair' and 'int')}}
   *(vpp + 10) = vp1;
   *(vpp + 11) = vp2;
   *(vpp + 12) = vp3;
 }

 vector unsigned char testVPOperators3(int *ptr) {
   __vector_pair *vpp = (__vector_pair *)ptr;
   __vector_pair vp1 = *(vpp + 0);
   __vector_pair vp2 = *(vpp + 1);
   __vector_pair vp3 = *(vpp + 2);
   vp1 ? *(vpp + 10) = vp2 : *(vpp + 11) = vp3; // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
   vp2 = vp3;
   return vp2[1]; // expected-error {{subscripted value is not an array, pointer, or vector}}
 }

 void testVPOperators4(int v, void *ptr) {
   __vector_pair *vpp = (__vector_pair *)ptr;
   __vector_pair vp1 = (__vector_pair)v;   // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
   __vector_pair vp2 = (__vector_pair)vpp; // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
 }

 void testBuiltinTypes1(const __vector_pair *vpp, const __vector_pair *vp2, float f) {
   __vector_pair vp = __builtin_vsx_lxvp(f, vpp); // expected-error {{passing 'float' to parameter of incompatible type 'long'}}
   __builtin_vsx_stxvp(vp, 32799, vp2);           // expected-error {{passing 'int' to parameter of incompatible type 'long'}}
 }

 void testBuiltinTypes2(__vector_pair *vpp, const __vector_pair *vp2, unsigned char c) {
   __vector_pair vp = __builtin_vsx_lxvp(6L, vpp); // expected-error {{passing '__vector_pair *' to parameter of incompatible type 'const __vector_pair *'}}
   __builtin_vsx_stxvp(vp, c, vp2);                // expected-error {{passing 'unsigned char' to parameter of incompatible type 'long'}}
 }

 void testBuiltinTypes3(vector int v, __vector_pair *vp2, signed long l, unsigned short s) {
   __vector_pair vp = __builtin_vsx_lxvp(l, v); // expected-error {{passing '__vector int' (vector of 4 'int' values) to parameter of incompatible type 'const __vector_pair *'}}
   __builtin_vsx_stxvp(vp, l, s);               // expected-error {{passing 'unsigned short' to parameter of incompatible type '__vector_pair *'}}
 }

 void testRestrictQualifiedPointer1(int *__restrict acc) {
   vector float arr[4];
   __builtin_mma_disassemble_acc(arr, acc); // expected-error {{passing 'int *restrict' to parameter of incompatible type '__vector_quad *'}}
 }

 void testVolatileQualifiedPointer1(int *__volatile acc) {
   vector float arr[4];
   __builtin_mma_disassemble_acc(arr, acc); // expected-error {{passing 'int *volatile' to parameter of incompatible type '__vector_quad *'}}
 }
	// RUN: %clang_cc1 -triple powerpc64le-unknown-unknown -fsyntax-only \
	// RUN: -target-cpu pwr10 %s -verify
	// RUN: %clang_cc1 -triple powerpc64-unknown-unknown -fsyntax-only \
	// RUN: -target-cpu pwr10 %s -verify

	// The use of PPC MMA types is strongly restricted. Non-pointer MMA variables
	// can only be declared in functions and a limited number of operations are
	// supported on these types. This test case checks that invalid uses of MMA
	// types are correctly prevented.

	// vector quad

	// typedef
	typedef __vector_quad vq_t;

	// function argument
	void testVQArg1(__vector_quad vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_quad vqp = (__vector_quad )ptr;
	*vqp = vq;
	}

	void testVQArg2(const __vector_quad vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_quad vqp = (__vector_quad )ptr;
	*vqp = vq;
	}

	void testVQArg6(const vq_t vq, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_quad vqp = (__vector_quad )ptr;
	*vqp = vq;
	}

	// function return
	__vector_quad testVQRet1(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_quad vqp = (__vector_quad )ptr;
	return *vqp; // expected-error {{invalid use of PPC MMA type}}
	}

	const vq_t testVQRet4(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_quad vqp = (__vector_quad )ptr;
	return *vqp; // expected-error {{invalid use of PPC MMA type}}
	}

	// global
	__vector_quad globalvq; // expected-error {{invalid use of PPC MMA type}}
	const __vector_quad globalvq2; // expected-error {{invalid use of PPC MMA type}}
	__vector_quad *globalvqp;
	const __vector_quad *const globalvqp2;
	vq_t globalvq_t; // expected-error {{invalid use of PPC MMA type}}


	// struct field
	struct TestVQStruct {
	int a;
	float b;
	__vector_quad c; // expected-error {{invalid use of PPC MMA type}}
	__vector_quad *vq;
	};

	// operators
	int testVQOperators1(int *ptr) {
	__vector_quad vqp = (__vector_quad )ptr;
	__vector_quad vq1 = *(vqp + 0);
	__vector_quad vq2 = *(vqp + 1);
	__vector_quad vq3 = *(vqp + 2);
	if (vq1) // expected-error {{statement requires expression of scalar type ('__vector_quad' invalid)}}
	*(vqp + 10) = vq1;
	if (!vq2) // expected-error {{invalid argument type '__vector_quad' to unary expression}}
	*(vqp + 11) = vq3;
	int c1 = vq1 && vq2; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	int c2 = vq2 == vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	int c3 = vq2 < vq1; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	return c1 \|\| c2 \|\| c3;
	}

	void testVQOperators2(int *ptr) {
	__vector_quad vqp = (__vector_quad )ptr;
	__vector_quad vq1 = *(vqp + 0);
	__vector_quad vq2 = *(vqp + 1);
	__vector_quad vq3 = *(vqp + 2);
	vq1 = -vq1; // expected-error {{invalid argument type '__vector_quad' to unary expression}}
	vq2 = vq1 + vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	vq2 = vq2 * vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	vq3 = vq3 \| vq3; // expected-error {{invalid operands to binary expression ('__vector_quad' and '__vector_quad')}}
	vq3 = vq3 << 2; // expected-error {{invalid operands to binary expression ('__vector_quad' and 'int')}}
	*(vqp + 10) = vq1;
	*(vqp + 11) = vq2;
	*(vqp + 12) = vq3;
	}

	vector unsigned char testVQOperators3(int *ptr) {
	__vector_quad vqp = (__vector_quad )ptr;
	__vector_quad vq1 = *(vqp + 0);
	__vector_quad vq2 = *(vqp + 1);
	__vector_quad vq3 = *(vqp + 2);
	vq1 ? (vqp + 10) = vq2 : (vqp + 11) = vq3; // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
	vq2 = vq3;
	return vq2[1]; // expected-error {{subscripted value is not an array, pointer, or vector}}
	}

	void testVQOperators4(int v, void *ptr) {
	__vector_quad vqp = (__vector_quad )ptr;
	__vector_quad vq1 = (__vector_quad)v; // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
	__vector_quad vq2 = (__vector_quad)vqp; // expected-error {{used type '__vector_quad' where arithmetic or pointer type is required}}
	}

	// vector pair

	// typedef
	typedef __vector_pair vp_t;

	// function argument
	void testVPArg1(__vector_pair vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_pair vpp = (__vector_pair )ptr;
	*vpp = vp;
	}

	void testVPArg2(const __vector_pair vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_pair vpp = (__vector_pair )ptr;
	*vpp = vp;
	}

	void testVPArg6(const vp_t vp, int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_pair vpp = (__vector_pair )ptr;
	*vpp = vp;
	}

	// function return
	__vector_pair testVPRet1(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_pair vpp = (__vector_pair )ptr;
	return *vpp; // expected-error {{invalid use of PPC MMA type}}
	}

	const vp_t testVPRet4(int *ptr) { // expected-error {{invalid use of PPC MMA type}}
	__vector_pair vpp = (__vector_pair )ptr;
	return *vpp; // expected-error {{invalid use of PPC MMA type}}
	}

	// global
	__vector_pair globalvp; // expected-error {{invalid use of PPC MMA type}}
	const __vector_pair globalvp2; // expected-error {{invalid use of PPC MMA type}}
	__vector_pair *globalvpp;
	const __vector_pair *const globalvpp2;
	vp_t globalvp_t; // expected-error {{invalid use of PPC MMA type}}

	// struct field
	struct TestVPStruct {
	int a;
	float b;
	__vector_pair c; // expected-error {{invalid use of PPC MMA type}}
	__vector_pair *vp;
	};

	// operators
	int testVPOperators1(int *ptr) {
	__vector_pair vpp = (__vector_pair )ptr;
	__vector_pair vp1 = *(vpp + 0);
	__vector_pair vp2 = *(vpp + 1);
	__vector_pair vp3 = *(vpp + 2);
	if (vp1) // expected-error {{statement requires expression of scalar type ('__vector_pair' invalid)}}
	*(vpp + 10) = vp1;
	if (!vp2) // expected-error {{invalid argument type '__vector_pair' to unary expression}}
	*(vpp + 11) = vp3;
	int c1 = vp1 && vp2; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	int c2 = vp2 == vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	int c3 = vp2 < vp1; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	return c1 \|\| c2 \|\| c3;
	}

	void testVPOperators2(int *ptr) {
	__vector_pair vpp = (__vector_pair )ptr;
	__vector_pair vp1 = *(vpp + 0);
	__vector_pair vp2 = *(vpp + 1);
	__vector_pair vp3 = *(vpp + 2);
	vp1 = -vp1; // expected-error {{invalid argument type '__vector_pair' to unary expression}}
	vp2 = vp1 + vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	vp2 = vp2 * vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	vp3 = vp3 \| vp3; // expected-error {{invalid operands to binary expression ('__vector_pair' and '__vector_pair')}}
	vp3 = vp3 << 2; // expected-error {{invalid operands to binary expression ('__vector_pair' and 'int')}}
	*(vpp + 10) = vp1;
	*(vpp + 11) = vp2;
	*(vpp + 12) = vp3;
	}

	vector unsigned char testVPOperators3(int *ptr) {
	__vector_pair vpp = (__vector_pair )ptr;
	__vector_pair vp1 = *(vpp + 0);
	__vector_pair vp2 = *(vpp + 1);
	__vector_pair vp3 = *(vpp + 2);
	vp1 ? (vpp + 10) = vp2 : (vpp + 11) = vp3; // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
	vp2 = vp3;
	return vp2[1]; // expected-error {{subscripted value is not an array, pointer, or vector}}
	}

	void testVPOperators4(int v, void *ptr) {
	__vector_pair vpp = (__vector_pair )ptr;
	__vector_pair vp1 = (__vector_pair)v; // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
	__vector_pair vp2 = (__vector_pair)vpp; // expected-error {{used type '__vector_pair' where arithmetic or pointer type is required}}
	}

	void testBuiltinTypes1(const __vector_pair vpp, const __vector_pair vp2, float f) {
	__vector_pair vp = __builtin_vsx_lxvp(f, vpp); // expected-error {{passing 'float' to parameter of incompatible type 'long'}}
	__builtin_vsx_stxvp(vp, 32799, vp2); // expected-error {{passing 'int' to parameter of incompatible type 'long'}}
	}

	void testBuiltinTypes2(__vector_pair vpp, const __vector_pair vp2, unsigned char c) {
	__vector_pair vp = __builtin_vsx_lxvp(6L, vpp); // expected-error {{passing '__vector_pair ' to parameter of incompatible type 'const __vector_pair '}}
	__builtin_vsx_stxvp(vp, c, vp2); // expected-error {{passing 'unsigned char' to parameter of incompatible type 'long'}}
	}

	void testBuiltinTypes3(vector int v, __vector_pair *vp2, signed long l, unsigned short s) {
	__vector_pair vp = __builtin_vsx_lxvp(l, v); // expected-error {{passing '__vector int' (vector of 4 'int' values) to parameter of incompatible type 'const __vector_pair *'}}
	__builtin_vsx_stxvp(vp, l, s); // expected-error {{passing 'unsigned short' to parameter of incompatible type '__vector_pair *'}}
	}

	void testRestrictQualifiedPointer1(int *__restrict acc) {
	vector float arr[4];
	__builtin_mma_disassemble_acc(arr, acc); // expected-error {{passing 'int restrict' to parameter of incompatible type '__vector_quad '}}
	}

	void testVolatileQualifiedPointer1(int *__volatile acc) {
	vector float arr[4];
	__builtin_mma_disassemble_acc(arr, acc); // expected-error {{passing 'int volatile' to parameter of incompatible type '__vector_quad '}}
	}