src/third_party/llvm-project/clang/test/SemaOpenCL/cl20-device-side-enqueue.cl - cobalt - Git at Google

 // RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir-unknown-unknown" -verify -pedantic -fsyntax-only -DB32 -DQUALS=
 // RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir-unknown-unknown" -verify -pedantic -fsyntax-only -DB32 -DQUALS="const volatile"
 // RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir64-unknown-unknown" -verify -pedantic -fsyntax-only -Wconversion -DWCONV -DQUALS=
 // RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir64-unknown-unknown" -verify -pedantic -fsyntax-only -Wconversion -DWCONV -DQUALS="const volatile"

 typedef struct {int a;} ndrange_t;
 // Diagnostic tests for different overloads of enqueue_kernel from Table 6.13.17.1 of OpenCL 2.0 Spec.
 kernel void enqueue_kernel_tests() {
   queue_t default_queue;
   unsigned flags = 0;
   QUALS ndrange_t ndrange;
   clk_event_t evt;
   clk_event_t event_wait_list;
   clk_event_t event_wait_list2[] = {evt, evt};
   void *vptr;

   // Testing the first overload type
   enqueue_kernel(default_queue, flags, ndrange, ^(void) {
     return 0;
   });

   enqueue_kernel(vptr, flags, ndrange, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'queue_t' argument type}}
     return 0;
   });

   enqueue_kernel(default_queue, vptr, ndrange, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'kernel_enqueue_flags_t' (i.e. uint) argument type}}
     return 0;
   });

   enqueue_kernel(default_queue, flags, vptr, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'ndrange_t' argument type}}
     return 0;
   });

   enqueue_kernel(default_queue, flags, ndrange, vptr); // expected-error{{illegal call to 'enqueue_kernel', expected block argument}}

   enqueue_kernel(default_queue, flags, ndrange, ^(int i) { // expected-error{{blocks with parameters are not accepted in this prototype of enqueue_kernel call}}
     return 0;
   });

   // Testing the second overload type
   enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, ^(void) {
                                                                              return 0;
                                                                            });

   enqueue_kernel(default_queue, flags, ndrange, 1, 0, 0, ^(void) {
                                                            return 0;
                                                          });

   enqueue_kernel(default_queue, flags, ndrange, vptr, &event_wait_list, &evt, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected integer argument type}}
     return 0;
   });

   enqueue_kernel(default_queue, flags, ndrange, 1, vptr, &evt, ^(void) // expected-error{{illegal call to 'enqueue_kernel', expected 'clk_event_t *' argument type}}
                                                                {
                                                                  return 0;
                                                                });

   enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, vptr, ^(void) // expected-error{{illegal call to 'enqueue_kernel', expected 'clk_event_t *' argument type}}
                                                                            {
                                                                              return 0;
                                                                            });

   enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, vptr); // expected-error{{illegal call to 'enqueue_kernel', expected block argument}}

   // Testing the third overload type
   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024, 1024);

   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024L, 1024);

   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024, 4294967296L);
 #ifdef B32
 // expected-warning@-2{{implicit conversion from 'long' to 'unsigned int' changes value from 4294967296 to 0}}
 #endif

   char c;
   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  c, 1024L);
 #ifdef WCONV
 // expected-warning-re@-2{{implicit conversion changes signedness: 'char' to 'unsigned {{int|long}}'}}
 #endif
 #define UINT_MAX 4294967295

   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  sizeof(int), sizeof(int) * UINT_MAX);
 #ifdef B32
 // expected-warning@-2{{implicit conversion from 'long' to 'unsigned int' changes value from 17179869180 to 4294967292}}
 #endif

   typedef void (^bl_A_t)(local void *);

   const bl_A_t block_A = (bl_A_t) ^ (local void *a) {};

   enqueue_kernel(default_queue, flags, ndrange, block_A, 1024);

   typedef void (^bl_B_t)(local void *, local int *);

   const bl_B_t block_B = (bl_B_t) ^ (local void *a, local int *b) {};

   enqueue_kernel(default_queue, flags, ndrange, block_B, 1024, 1024); // expected-error{{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}

   enqueue_kernel(default_queue, flags, ndrange, // expected-error{{mismatch in number of block parameters and local size arguments passed}}
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024);

   float illegal_mem_size = (float)0.5f;
   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  illegal_mem_size, illegal_mem_size); // expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}} expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}}

   enqueue_kernel(default_queue, flags, ndrange,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  illegal_mem_size, 1024); // expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}}

   // Testing the forth overload type
   enqueue_kernel(default_queue, flags, ndrange, 1, event_wait_list2, &evt,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024, 1024);

   enqueue_kernel(default_queue, flags, ndrange, 1, 0, 0,
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024, 1024);

   enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, // expected-error{{mismatch in number of block parameters and local size arguments passed}}
                  ^(local void *a, local void *b) {
                    return 0;
                  },
                  1024, 1024, 1024);

   // More random misc cases that can't be deduced
   enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt); // expected-error{{illegal call to enqueue_kernel, incorrect argument types}}

   enqueue_kernel(default_queue, flags, ndrange, 1, 1); // expected-error{{illegal call to enqueue_kernel, incorrect argument types}}
 }

 // Diagnostic tests for get_kernel_work_group_size and allowed block parameter types in dynamic parallelism.
 kernel void work_group_size_tests() {
   void (^const block_A)(void) = ^{
     return;
   };
   void (^const block_B)(int) = ^(int a) {
     return;
   };
   void (^const block_C)(local void *) = ^(local void *a) {
     return;
   };
   void (^const block_D)(local int *) = ^(local int *a) {
     return;
   };

   unsigned size = get_kernel_work_group_size(block_A);
   size = get_kernel_work_group_size(block_C);
   size = get_kernel_work_group_size(^(local void *a) {
     return;
   });
   size = get_kernel_work_group_size(^(local int *a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
     return;
   });
   size = get_kernel_work_group_size(block_B);   // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
   size = get_kernel_work_group_size(block_D);   // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
   size = get_kernel_work_group_size(^(int a) {  // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
     return;
   });
   size = get_kernel_work_group_size();          // expected-error {{too few arguments to function call, expected 1, have 0}}
   size = get_kernel_work_group_size(1);         // expected-error{{expected block argument}}
   size = get_kernel_work_group_size(block_A, 1); // expected-error{{too many arguments to function call, expected 1, have 2}}

   size = get_kernel_preferred_work_group_size_multiple(block_A);
   size = get_kernel_preferred_work_group_size_multiple(block_C);
   size = get_kernel_preferred_work_group_size_multiple(^(local void *a) {
     return;
   });
   size = get_kernel_preferred_work_group_size_multiple(^(local int *a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
     return;
   });
   size = get_kernel_preferred_work_group_size_multiple(^(int a) {  // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
     return;
   });
   size = get_kernel_preferred_work_group_size_multiple(block_B);   // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
   size = get_kernel_preferred_work_group_size_multiple(block_D);   // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
   size = get_kernel_preferred_work_group_size_multiple();          // expected-error {{too few arguments to function call, expected 1, have 0}}
   size = get_kernel_preferred_work_group_size_multiple(1);         // expected-error{{expected block argument}}
   size = get_kernel_preferred_work_group_size_multiple(block_A, 1); // expected-error{{too many arguments to function call, expected 1, have 2}}
 }

 #pragma OPENCL EXTENSION cl_khr_subgroups : enable

 kernel void foo(global int *buf)
 {
   ndrange_t n;
   buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, ^(){});
   buf[0] = get_kernel_max_sub_group_size_for_ndrange(0, ^(){}); // expected-error{{illegal call to 'get_kernel_max_sub_group_size_for_ndrange', expected 'ndrange_t' argument type}}
   buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, 1); // expected-error{{illegal call to 'get_kernel_max_sub_group_size_for_ndrange', expected block argument type}}
 }

 kernel void bar(global int *buf)
 {
   __private ndrange_t n;
   buf[0] = get_kernel_sub_group_count_for_ndrange(n, ^(){});
   buf[0] = get_kernel_sub_group_count_for_ndrange(0, ^(){}); // expected-error{{illegal call to 'get_kernel_sub_group_count_for_ndrange', expected 'ndrange_t' argument type}}
   buf[0] = get_kernel_sub_group_count_for_ndrange(n, 1); // expected-error{{illegal call to 'get_kernel_sub_group_count_for_ndrange', expected block argument type}}
 }

 #pragma OPENCL EXTENSION cl_khr_subgroups : disable

 kernel void foo1(global int *buf)
 {
   ndrange_t n;
   buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, ^(){}); // expected-error {{use of declaration 'get_kernel_max_sub_group_size_for_ndrange' requires cl_khr_subgroups extension to be enabled}}
 }

 kernel void bar1(global int *buf)
 {
   ndrange_t n;
   buf[0] = get_kernel_sub_group_count_for_ndrange(n, ^(){}); // expected-error {{use of declaration 'get_kernel_sub_group_count_for_ndrange' requires cl_khr_subgroups extension to be enabled}}
 }
	// RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir-unknown-unknown" -verify -pedantic -fsyntax-only -DB32 -DQUALS=
	// RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir-unknown-unknown" -verify -pedantic -fsyntax-only -DB32 -DQUALS="const volatile"
	// RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir64-unknown-unknown" -verify -pedantic -fsyntax-only -Wconversion -DWCONV -DQUALS=
	// RUN: %clang_cc1 %s -cl-std=CL2.0 -triple "spir64-unknown-unknown" -verify -pedantic -fsyntax-only -Wconversion -DWCONV -DQUALS="const volatile"

	typedef struct {int a;} ndrange_t;
	// Diagnostic tests for different overloads of enqueue_kernel from Table 6.13.17.1 of OpenCL 2.0 Spec.
	kernel void enqueue_kernel_tests() {
	queue_t default_queue;
	unsigned flags = 0;
	QUALS ndrange_t ndrange;
	clk_event_t evt;
	clk_event_t event_wait_list;
	clk_event_t event_wait_list2[] = {evt, evt};
	void *vptr;

	// Testing the first overload type
	enqueue_kernel(default_queue, flags, ndrange, ^(void) {
	return 0;
	});

	enqueue_kernel(vptr, flags, ndrange, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'queue_t' argument type}}
	return 0;
	});

	enqueue_kernel(default_queue, vptr, ndrange, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'kernel_enqueue_flags_t' (i.e. uint) argument type}}
	return 0;
	});

	enqueue_kernel(default_queue, flags, vptr, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected 'ndrange_t' argument type}}
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, vptr); // expected-error{{illegal call to 'enqueue_kernel', expected block argument}}

	enqueue_kernel(default_queue, flags, ndrange, ^(int i) { // expected-error{{blocks with parameters are not accepted in this prototype of enqueue_kernel call}}
	return 0;
	});

	// Testing the second overload type
	enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, ^(void) {
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, 1, 0, 0, ^(void) {
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, vptr, &event_wait_list, &evt, ^(void) { // expected-error{{illegal call to 'enqueue_kernel', expected integer argument type}}
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, 1, vptr, &evt, ^(void) // expected-error{{illegal call to 'enqueue_kernel', expected 'clk_event_t *' argument type}}
	{
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, vptr, ^(void) // expected-error{{illegal call to 'enqueue_kernel', expected 'clk_event_t *' argument type}}
	{
	return 0;
	});

	enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, vptr); // expected-error{{illegal call to 'enqueue_kernel', expected block argument}}

	// Testing the third overload type
	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	1024, 1024);

	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	1024L, 1024);

	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	1024, 4294967296L);
	#ifdef B32
	// expected-warning@-2{{implicit conversion from 'long' to 'unsigned int' changes value from 4294967296 to 0}}
	#endif

	char c;
	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	c, 1024L);
	#ifdef WCONV
	// expected-warning-re@-2{{implicit conversion changes signedness: 'char' to 'unsigned {{int\|long}}'}}
	#endif
	#define UINT_MAX 4294967295

	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	sizeof(int), sizeof(int) * UINT_MAX);
	#ifdef B32
	// expected-warning@-2{{implicit conversion from 'long' to 'unsigned int' changes value from 17179869180 to 4294967292}}
	#endif

	typedef void (^bl_A_t)(local void *);

	const bl_A_t block_A = (bl_A_t) ^ (local void *a) {};

	enqueue_kernel(default_queue, flags, ndrange, block_A, 1024);

	typedef void (^bl_B_t)(local void , local int );

	const bl_B_t block_B = (bl_B_t) ^ (local void a, local int b) {};

	enqueue_kernel(default_queue, flags, ndrange, block_B, 1024, 1024); // expected-error{{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}

	enqueue_kernel(default_queue, flags, ndrange, // expected-error{{mismatch in number of block parameters and local size arguments passed}}
	^(local void a, local void b) {
	return 0;
	},
	1024);

	float illegal_mem_size = (float)0.5f;
	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	illegal_mem_size, illegal_mem_size); // expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}} expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}}

	enqueue_kernel(default_queue, flags, ndrange,
	^(local void a, local void b) {
	return 0;
	},
	illegal_mem_size, 1024); // expected-error{{illegal call to enqueue_kernel, parameter needs to be specified as integer type}}

	// Testing the forth overload type
	enqueue_kernel(default_queue, flags, ndrange, 1, event_wait_list2, &evt,
	^(local void a, local void b) {
	return 0;
	},
	1024, 1024);

	enqueue_kernel(default_queue, flags, ndrange, 1, 0, 0,
	^(local void a, local void b) {
	return 0;
	},
	1024, 1024);

	enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt, // expected-error{{mismatch in number of block parameters and local size arguments passed}}
	^(local void a, local void b) {
	return 0;
	},
	1024, 1024, 1024);

	// More random misc cases that can't be deduced
	enqueue_kernel(default_queue, flags, ndrange, 1, &event_wait_list, &evt); // expected-error{{illegal call to enqueue_kernel, incorrect argument types}}

	enqueue_kernel(default_queue, flags, ndrange, 1, 1); // expected-error{{illegal call to enqueue_kernel, incorrect argument types}}
	}

	// Diagnostic tests for get_kernel_work_group_size and allowed block parameter types in dynamic parallelism.
	kernel void work_group_size_tests() {
	void (^const block_A)(void) = ^{
	return;
	};
	void (^const block_B)(int) = ^(int a) {
	return;
	};
	void (^const block_C)(local void ) = ^(local void a) {
	return;
	};
	void (^const block_D)(local int ) = ^(local int a) {
	return;
	};

	unsigned size = get_kernel_work_group_size(block_A);
	size = get_kernel_work_group_size(block_C);
	size = get_kernel_work_group_size(^(local void *a) {
	return;
	});
	size = get_kernel_work_group_size(^(local int a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void'}}
	return;
	});
	size = get_kernel_work_group_size(block_B); // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	size = get_kernel_work_group_size(block_D); // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	size = get_kernel_work_group_size(^(int a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	return;
	});
	size = get_kernel_work_group_size(); // expected-error {{too few arguments to function call, expected 1, have 0}}
	size = get_kernel_work_group_size(1); // expected-error{{expected block argument}}
	size = get_kernel_work_group_size(block_A, 1); // expected-error{{too many arguments to function call, expected 1, have 2}}

	size = get_kernel_preferred_work_group_size_multiple(block_A);
	size = get_kernel_preferred_work_group_size_multiple(block_C);
	size = get_kernel_preferred_work_group_size_multiple(^(local void *a) {
	return;
	});
	size = get_kernel_preferred_work_group_size_multiple(^(local int a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void'}}
	return;
	});
	size = get_kernel_preferred_work_group_size_multiple(^(int a) { // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	return;
	});
	size = get_kernel_preferred_work_group_size_multiple(block_B); // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	size = get_kernel_preferred_work_group_size_multiple(block_D); // expected-error {{blocks used in enqueue_kernel call are expected to have parameters of type 'local void*'}}
	size = get_kernel_preferred_work_group_size_multiple(); // expected-error {{too few arguments to function call, expected 1, have 0}}
	size = get_kernel_preferred_work_group_size_multiple(1); // expected-error{{expected block argument}}
	size = get_kernel_preferred_work_group_size_multiple(block_A, 1); // expected-error{{too many arguments to function call, expected 1, have 2}}
	}

	#pragma OPENCL EXTENSION cl_khr_subgroups : enable

	kernel void foo(global int *buf)
	{
	ndrange_t n;
	buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, ^(){});
	buf[0] = get_kernel_max_sub_group_size_for_ndrange(0, ^(){}); // expected-error{{illegal call to 'get_kernel_max_sub_group_size_for_ndrange', expected 'ndrange_t' argument type}}
	buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, 1); // expected-error{{illegal call to 'get_kernel_max_sub_group_size_for_ndrange', expected block argument type}}
	}

	kernel void bar(global int *buf)
	{
	__private ndrange_t n;
	buf[0] = get_kernel_sub_group_count_for_ndrange(n, ^(){});
	buf[0] = get_kernel_sub_group_count_for_ndrange(0, ^(){}); // expected-error{{illegal call to 'get_kernel_sub_group_count_for_ndrange', expected 'ndrange_t' argument type}}
	buf[0] = get_kernel_sub_group_count_for_ndrange(n, 1); // expected-error{{illegal call to 'get_kernel_sub_group_count_for_ndrange', expected block argument type}}
	}

	#pragma OPENCL EXTENSION cl_khr_subgroups : disable

	kernel void foo1(global int *buf)
	{
	ndrange_t n;
	buf[0] = get_kernel_max_sub_group_size_for_ndrange(n, ^(){}); // expected-error {{use of declaration 'get_kernel_max_sub_group_size_for_ndrange' requires cl_khr_subgroups extension to be enabled}}
	}

	kernel void bar1(global int *buf)
	{
	ndrange_t n;
	buf[0] = get_kernel_sub_group_count_for_ndrange(n, ^(){}); // expected-error {{use of declaration 'get_kernel_sub_group_count_for_ndrange' requires cl_khr_subgroups extension to be enabled}}
	}