lib/Headers/__clang_cuda_builtin_vars.h - clang - Git at Google

 /*===---- cuda_builtin_vars.h - CUDA built-in variables ---------------------===
  *
  * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
  * See https://llvm.org/LICENSE.txt for license information.
  * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
  *
  *===-----------------------------------------------------------------------===
  */

 #ifndef __CUDA_BUILTIN_VARS_H
 #define __CUDA_BUILTIN_VARS_H

 // Forward declares from vector_types.h.
 struct uint3;
 struct dim3;

 // The file implements built-in CUDA variables using __declspec(property).
 // https://msdn.microsoft.com/en-us/library/yhfk0thd.aspx
 // All read accesses of built-in variable fields get converted into calls to a
 // getter function which in turn calls the appropriate builtin to fetch the
 // value.
 //
 // Example:
 //    int x = threadIdx.x;
 // IR output:
 //  %0 = call i32 @llvm.nvvm.read.ptx.sreg.tid.x() #3
 // PTX output:
 //  mov.u32     %r2, %tid.x;

 #define __CUDA_DEVICE_BUILTIN(FIELD, INTRINSIC)                                \
   __declspec(property(get = __fetch_builtin_##FIELD)) unsigned int FIELD;      \
   static inline __attribute__((always_inline))                                 \
       __attribute__((device)) unsigned int __fetch_builtin_##FIELD(void) {     \
     return INTRINSIC;                                                          \
   }

 #if __cplusplus >= 201103L
 #define __DELETE =delete
 #else
 #define __DELETE
 #endif

 // Make sure nobody can create instances of the special variable types.  nvcc
 // also disallows taking address of special variables, so we disable address-of
 // operator as well.
 #define __CUDA_DISALLOW_BUILTINVAR_ACCESS(TypeName)                            \
   __attribute__((device)) TypeName() __DELETE;                                 \
   __attribute__((device)) TypeName(const TypeName &) __DELETE;                 \
   __attribute__((device)) void operator=(const TypeName &) const __DELETE;     \
   __attribute__((device)) TypeName *operator&() const __DELETE

 struct __cuda_builtin_threadIdx_t {
   __CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_tid_x());
   __CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_tid_y());
   __CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_tid_z());
   // threadIdx should be convertible to uint3 (in fact in nvcc, it *is* a
   // uint3).  This function is defined after we pull in vector_types.h.
   __attribute__((device)) operator uint3() const;
 private:
   __CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_threadIdx_t);
 };

 struct __cuda_builtin_blockIdx_t {
   __CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_ctaid_x());
   __CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_ctaid_y());
   __CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_ctaid_z());
   // blockIdx should be convertible to uint3 (in fact in nvcc, it *is* a
   // uint3).  This function is defined after we pull in vector_types.h.
   __attribute__((device)) operator uint3() const;
 private:
   __CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_blockIdx_t);
 };

 struct __cuda_builtin_blockDim_t {
   __CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_ntid_x());
   __CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_ntid_y());
   __CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_ntid_z());
   // blockDim should be convertible to dim3 (in fact in nvcc, it *is* a
   // dim3).  This function is defined after we pull in vector_types.h.
   __attribute__((device)) operator dim3() const;
 private:
   __CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_blockDim_t);
 };

 struct __cuda_builtin_gridDim_t {
   __CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_nctaid_x());
   __CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_nctaid_y());
   __CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_nctaid_z());
   // gridDim should be convertible to dim3 (in fact in nvcc, it *is* a
   // dim3).  This function is defined after we pull in vector_types.h.
   __attribute__((device)) operator dim3() const;
 private:
   __CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_gridDim_t);
 };

 #define __CUDA_BUILTIN_VAR                                                     \
   extern const __attribute__((device)) __attribute__((weak))
 __CUDA_BUILTIN_VAR __cuda_builtin_threadIdx_t threadIdx;
 __CUDA_BUILTIN_VAR __cuda_builtin_blockIdx_t blockIdx;
 __CUDA_BUILTIN_VAR __cuda_builtin_blockDim_t blockDim;
 __CUDA_BUILTIN_VAR __cuda_builtin_gridDim_t gridDim;

 // warpSize should translate to read of %WARP_SZ but there's currently no
 // builtin to do so. According to PTX v4.2 docs 'to date, all target
 // architectures have a WARP_SZ value of 32'.
 __attribute__((device)) const int warpSize = 32;

 #undef __CUDA_DEVICE_BUILTIN
 #undef __CUDA_BUILTIN_VAR
 #undef __CUDA_DISALLOW_BUILTINVAR_ACCESS

 #endif /* __CUDA_BUILTIN_VARS_H */
	/*===---- cuda_builtin_vars.h - CUDA built-in variables ---------------------===
	*
	* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	* See https://llvm.org/LICENSE.txt for license information.
	* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	*
	*===-----------------------------------------------------------------------===
	*/

	#ifndef __CUDA_BUILTIN_VARS_H
	#define __CUDA_BUILTIN_VARS_H

	// Forward declares from vector_types.h.
	struct uint3;
	struct dim3;

	// The file implements built-in CUDA variables using __declspec(property).
	// https://msdn.microsoft.com/en-us/library/yhfk0thd.aspx
	// All read accesses of built-in variable fields get converted into calls to a
	// getter function which in turn calls the appropriate builtin to fetch the
	// value.
	//
	// Example:
	// int x = threadIdx.x;
	// IR output:
	// %0 = call i32 @llvm.nvvm.read.ptx.sreg.tid.x() #3
	// PTX output:
	// mov.u32 %r2, %tid.x;

	#define __CUDA_DEVICE_BUILTIN(FIELD, INTRINSIC) \
	__declspec(property(get = __fetch_builtin_##FIELD)) unsigned int FIELD; \
	static inline __attribute__((always_inline)) \
	__attribute__((device)) unsigned int __fetch_builtin_##FIELD(void) { \
	return INTRINSIC; \
	}

	#if __cplusplus >= 201103L
	#define __DELETE =delete
	#else
	#define __DELETE
	#endif

	// Make sure nobody can create instances of the special variable types. nvcc
	// also disallows taking address of special variables, so we disable address-of
	// operator as well.
	#define __CUDA_DISALLOW_BUILTINVAR_ACCESS(TypeName) \
	__attribute__((device)) TypeName() __DELETE; \
	__attribute__((device)) TypeName(const TypeName &) __DELETE; \
	__attribute__((device)) void operator=(const TypeName &) const __DELETE; \
	__attribute__((device)) TypeName *operator&() const __DELETE

	struct __cuda_builtin_threadIdx_t {
	__CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_tid_x());
	__CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_tid_y());
	__CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_tid_z());
	// threadIdx should be convertible to uint3 (in fact in nvcc, it is a
	// uint3). This function is defined after we pull in vector_types.h.
	__attribute__((device)) operator uint3() const;
	private:
	__CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_threadIdx_t);
	};

	struct __cuda_builtin_blockIdx_t {
	__CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_ctaid_x());
	__CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_ctaid_y());
	__CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_ctaid_z());
	// blockIdx should be convertible to uint3 (in fact in nvcc, it is a
	// uint3). This function is defined after we pull in vector_types.h.
	__attribute__((device)) operator uint3() const;
	private:
	__CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_blockIdx_t);
	};

	struct __cuda_builtin_blockDim_t {
	__CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_ntid_x());
	__CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_ntid_y());
	__CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_ntid_z());
	// blockDim should be convertible to dim3 (in fact in nvcc, it is a
	// dim3). This function is defined after we pull in vector_types.h.
	__attribute__((device)) operator dim3() const;
	private:
	__CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_blockDim_t);
	};

	struct __cuda_builtin_gridDim_t {
	__CUDA_DEVICE_BUILTIN(x,__nvvm_read_ptx_sreg_nctaid_x());
	__CUDA_DEVICE_BUILTIN(y,__nvvm_read_ptx_sreg_nctaid_y());
	__CUDA_DEVICE_BUILTIN(z,__nvvm_read_ptx_sreg_nctaid_z());
	// gridDim should be convertible to dim3 (in fact in nvcc, it is a
	// dim3). This function is defined after we pull in vector_types.h.
	__attribute__((device)) operator dim3() const;
	private:
	__CUDA_DISALLOW_BUILTINVAR_ACCESS(__cuda_builtin_gridDim_t);
	};

	#define __CUDA_BUILTIN_VAR \
	extern const __attribute__((device)) __attribute__((weak))
	__CUDA_BUILTIN_VAR __cuda_builtin_threadIdx_t threadIdx;
	__CUDA_BUILTIN_VAR __cuda_builtin_blockIdx_t blockIdx;
	__CUDA_BUILTIN_VAR __cuda_builtin_blockDim_t blockDim;
	__CUDA_BUILTIN_VAR __cuda_builtin_gridDim_t gridDim;

	// warpSize should translate to read of %WARP_SZ but there's currently no
	// builtin to do so. According to PTX v4.2 docs 'to date, all target
	// architectures have a WARP_SZ value of 32'.
	__attribute__((device)) const int warpSize = 32;

	#undef __CUDA_DEVICE_BUILTIN
	#undef __CUDA_BUILTIN_VAR
	#undef __CUDA_DISALLOW_BUILTINVAR_ACCESS

	#endif /* __CUDA_BUILTIN_VARS_H */