libomptarget/include/omptarget.h - llvm-project/openmp - Git at Google

 //===-------- omptarget.h - Target independent OpenMP target RTL -- C++ -*-===//
 //
 // 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
 //
 //===----------------------------------------------------------------------===//
 //
 // Interface to be used by Clang during the codegen of a
 // target region.
 //
 //===----------------------------------------------------------------------===//

 #ifndef _OMPTARGET_H_
 #define _OMPTARGET_H_

 #include <deque>
 #include <stddef.h>
 #include <stdint.h>

 #include <SourceInfo.h>

 #define OFFLOAD_SUCCESS (0)
 #define OFFLOAD_FAIL (~0)

 #define OFFLOAD_DEVICE_DEFAULT -1

 // Don't format out enums and structs.
 // clang-format off

 /// return flags of __tgt_target_XXX public APIs
 enum __tgt_target_return_t : int {
   /// successful offload executed on a target device
   OMP_TGT_SUCCESS = 0,
   /// offload may not execute on the requested target device
   /// this scenario can be caused by the device not available or unsupported
   /// as described in the Execution Model in the specifcation
   /// this status may not be used for target device execution failure
   /// which should be handled internally in libomptarget
   OMP_TGT_FAIL = ~0
 };

 /// Data attributes for each data reference used in an OpenMP target region.
 enum tgt_map_type {
   // No flags
   OMP_TGT_MAPTYPE_NONE            = 0x000,
   // copy data from host to device
   OMP_TGT_MAPTYPE_TO              = 0x001,
   // copy data from device to host
   OMP_TGT_MAPTYPE_FROM            = 0x002,
   // copy regardless of the reference count
   OMP_TGT_MAPTYPE_ALWAYS          = 0x004,
   // force unmapping of data
   OMP_TGT_MAPTYPE_DELETE          = 0x008,
   // map the pointer as well as the pointee
   OMP_TGT_MAPTYPE_PTR_AND_OBJ     = 0x010,
   // pass device base address to kernel
   OMP_TGT_MAPTYPE_TARGET_PARAM    = 0x020,
   // return base device address of mapped data
   OMP_TGT_MAPTYPE_RETURN_PARAM    = 0x040,
   // private variable - not mapped
   OMP_TGT_MAPTYPE_PRIVATE         = 0x080,
   // copy by value - not mapped
   OMP_TGT_MAPTYPE_LITERAL         = 0x100,
   // mapping is implicit
   OMP_TGT_MAPTYPE_IMPLICIT        = 0x200,
   // copy data to device
   OMP_TGT_MAPTYPE_CLOSE           = 0x400,
   // runtime error if not already allocated
   OMP_TGT_MAPTYPE_PRESENT         = 0x1000,
   // use a separate reference counter so that the data cannot be unmapped within
   // the structured region
   // This is an OpenMP extension for the sake of OpenACC support.
   OMP_TGT_MAPTYPE_OMPX_HOLD       = 0x2000,
   // descriptor for non-contiguous target-update
   OMP_TGT_MAPTYPE_NON_CONTIG      = 0x100000000000,
   // member of struct, member given by [16 MSBs] - 1
   OMP_TGT_MAPTYPE_MEMBER_OF       = 0xffff000000000000
 };

 enum OpenMPOffloadingDeclareTargetFlags {
   /// Mark the entry as having a 'link' attribute.
   OMP_DECLARE_TARGET_LINK = 0x01,
   /// Mark the entry as being a global constructor.
   OMP_DECLARE_TARGET_CTOR = 0x02,
   /// Mark the entry as being a global destructor.
   OMP_DECLARE_TARGET_DTOR = 0x04
 };

 enum OpenMPOffloadingRequiresDirFlags {
   /// flag undefined.
   OMP_REQ_UNDEFINED               = 0x000,
   /// no requires directive present.
   OMP_REQ_NONE                    = 0x001,
   /// reverse_offload clause.
   OMP_REQ_REVERSE_OFFLOAD         = 0x002,
   /// unified_address clause.
   OMP_REQ_UNIFIED_ADDRESS         = 0x004,
   /// unified_shared_memory clause.
   OMP_REQ_UNIFIED_SHARED_MEMORY   = 0x008,
   /// dynamic_allocators clause.
   OMP_REQ_DYNAMIC_ALLOCATORS      = 0x010
 };

 enum TargetAllocTy : int32_t {
   TARGET_ALLOC_DEVICE = 0,
   TARGET_ALLOC_HOST,
   TARGET_ALLOC_SHARED,
   TARGET_ALLOC_DEFAULT
 };

 /// This struct contains all of the arguments to a target kernel region launch.
 struct __tgt_kernel_arguments {
   int32_t Version;    // Version of this struct for ABI compatibility.
   int32_t NumArgs;    // Number of arguments in each input pointer.
   void **ArgBasePtrs; // Base pointer of each argument (e.g. a struct).
   void **ArgPtrs;     // Pointer to the argument data.
   int64_t *ArgSizes;  // Size of the argument data in bytes.
   int64_t *ArgTypes;  // Type of the data (e.g. to / from).
   void **ArgNames;    // Name of the data for debugging, possibly null.
   void **ArgMappers;  // User-defined mappers, possibly null.
   int64_t Tripcount;  // Tripcount for the teams / distribute loop, 0 otherwise.
 };
 static_assert(sizeof(__tgt_kernel_arguments) == 64 ||
                   sizeof(__tgt_kernel_arguments) == 40,
               "Invalid struct size");

 /// This struct is a record of an entry point or global. For a function
 /// entry point the size is expected to be zero
 struct __tgt_offload_entry {
   void *addr;   // Pointer to the offload entry info (function or global)
   char *name;   // Name of the function or global
   size_t size;  // Size of the entry info (0 if it is a function)
   int32_t flags; // Flags associated with the entry, e.g. 'link'.
   int32_t reserved; // Reserved, to be used by the runtime library.
 };

 /// This struct is a record of the device image information
 struct __tgt_device_image {
   void *ImageStart;                  // Pointer to the target code start
   void *ImageEnd;                    // Pointer to the target code end
   __tgt_offload_entry *EntriesBegin; // Begin of table with all target entries
   __tgt_offload_entry *EntriesEnd;   // End of table (non inclusive)
 };

 /// This struct contains information about a given image.
 struct __tgt_image_info {
   const char *Arch;
 };

 /// This struct is a record of all the host code that may be offloaded to a
 /// target.
 struct __tgt_bin_desc {
   int32_t NumDeviceImages;           // Number of device types supported
   __tgt_device_image *DeviceImages;  // Array of device images (1 per dev. type)
   __tgt_offload_entry *HostEntriesBegin; // Begin of table with all host entries
   __tgt_offload_entry *HostEntriesEnd;   // End of table (non inclusive)
 };

 /// This struct contains the offload entries identified by the target runtime
 struct __tgt_target_table {
   __tgt_offload_entry *EntriesBegin; // Begin of the table with all the entries
   __tgt_offload_entry
       *EntriesEnd; // End of the table with all the entries (non inclusive)
 };

 // clang-format on

 /// This struct contains information exchanged between different asynchronous
 /// operations for device-dependent optimization and potential synchronization
 struct __tgt_async_info {
   // A pointer to a queue-like structure where offloading operations are issued.
   // We assume to use this structure to do synchronization. In CUDA backend, it
   // is CUstream.
   void *Queue = nullptr;
 };

 struct DeviceTy;

 /// The libomptarget wrapper around a __tgt_async_info object directly
 /// associated with a libomptarget layer device. RAII semantics to avoid
 /// mistakes.
 class AsyncInfoTy {
   /// Locations we used in (potentially) asynchronous calls which should live
   /// as long as this AsyncInfoTy object.
   std::deque<void *> BufferLocations;

   __tgt_async_info AsyncInfo;
   DeviceTy &Device;

 public:
   AsyncInfoTy(DeviceTy &Device) : Device(Device) {}
   ~AsyncInfoTy() { synchronize(); }

   /// Implicit conversion to the __tgt_async_info which is used in the
   /// plugin interface.
   operator __tgt_async_info *() { return &AsyncInfo; }

   /// Synchronize all pending actions.
   ///
   /// \returns OFFLOAD_FAIL or OFFLOAD_SUCCESS appropriately.
   int synchronize();

   /// Return a void* reference with a lifetime that is at least as long as this
   /// AsyncInfoTy object. The location can be used as intermediate buffer.
   void *&getVoidPtrLocation();
 };

 /// This struct is a record of non-contiguous information
 struct __tgt_target_non_contig {
   uint64_t Offset;
   uint64_t Count;
   uint64_t Stride;
 };

 struct __tgt_device_info {
   void *Context = nullptr;
   void *Device = nullptr;
 };

 #ifdef __cplusplus
 extern "C" {
 #endif

 int omp_get_num_devices(void);
 int omp_get_device_num(void);
 int omp_get_initial_device(void);
 void *omp_target_alloc(size_t Size, int DeviceNum);
 void omp_target_free(void *DevicePtr, int DeviceNum);
 int omp_target_is_present(const void *Ptr, int DeviceNum);
 int omp_target_memcpy(void *Dst, const void *Src, size_t Length,
                       size_t DstOffset, size_t SrcOffset, int DstDevice,
                       int SrcDevice);
 int omp_target_memcpy_rect(void *Dst, const void *Src, size_t ElementSize,
                            int NumDims, const size_t *Volume,
                            const size_t *DstOffsets, const size_t *SrcOffsets,
                            const size_t *DstDimensions,
                            const size_t *SrcDimensions, int DstDevice,
                            int SrcDevice);
 int omp_target_associate_ptr(const void *HostPtr, const void *DevicePtr,
                              size_t Size, size_t DeviceOffset, int DeviceNum);
 int omp_target_disassociate_ptr(const void *HostPtr, int DeviceNum);

 /// Explicit target memory allocators
 /// Using the llvm_ prefix until they become part of the OpenMP standard.
 void *llvm_omp_target_alloc_device(size_t Size, int DeviceNum);
 void *llvm_omp_target_alloc_host(size_t Size, int DeviceNum);
 void *llvm_omp_target_alloc_shared(size_t Size, int DeviceNum);

 /// Dummy target so we have a symbol for generating host fallback.
 void *llvm_omp_target_dynamic_shared_alloc();

 /// add the clauses of the requires directives in a given file
 void __tgt_register_requires(int64_t Flags);

 /// adds a target shared library to the target execution image
 void __tgt_register_lib(__tgt_bin_desc *Desc);

 /// Initialize all RTLs at once
 void __tgt_init_all_rtls();

 /// removes a target shared library from the target execution image
 void __tgt_unregister_lib(__tgt_bin_desc *Desc);

 // creates the host to target data mapping, stores it in the
 // libomptarget.so internal structure (an entry in a stack of data maps) and
 // passes the data to the device;
 void __tgt_target_data_begin(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
                              void **Args, int64_t *ArgSizes, int64_t *ArgTypes);
 void __tgt_target_data_begin_nowait(int64_t DeviceId, int32_t ArgNum,
                                     void **ArgsBase, void **Args,
                                     int64_t *ArgSizes, int64_t *ArgTypes,
                                     int32_t DepNum, void *DepList,
                                     int32_t NoAliasDepNum,
                                     void *NoAliasDepList);
 void __tgt_target_data_begin_mapper(ident_t *Loc, int64_t DeviceId,
                                     int32_t ArgNum, void **ArgsBase,
                                     void **Args, int64_t *ArgSizes,
                                     int64_t *ArgTypes, map_var_info_t *ArgNames,
                                     void **ArgMappers);
 void __tgt_target_data_begin_nowait_mapper(
     ident_t *Loc, int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
     void **Args, int64_t *ArgSizes, int64_t *ArgTypes, map_var_info_t *ArgNames,
     void **ArgMappers, int32_t DepNum, void *DepList, int32_t NoAliasDepNum,
     void *NoAliasDepList);

 // passes data from the target, release target memory and destroys the
 // host-target mapping (top entry from the stack of data maps) created by
 // the last __tgt_target_data_begin
 void __tgt_target_data_end(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
                            void **Args, int64_t *ArgSizes, int64_t *ArgTypes);
 void __tgt_target_data_end_nowait(int64_t DeviceId, int32_t ArgNum,
                                   void **ArgsBase, void **Args,
                                   int64_t *ArgSizes, int64_t *ArgTypes,
                                   int32_t DepNum, void *DepList,
                                   int32_t NoAliasDepNum, void *NoAliasDepList);
 void __tgt_target_data_end_mapper(ident_t *Loc, int64_t DeviceId,
                                   int32_t ArgNum, void **ArgsBase, void **Args,
                                   int64_t *ArgSizes, int64_t *ArgTypes,
                                   map_var_info_t *ArgNames, void **ArgMappers);
 void __tgt_target_data_end_nowait_mapper(
     ident_t *Loc, int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
     void **Args, int64_t *ArgSizes, int64_t *ArgTypes, map_var_info_t *ArgNames,
     void **ArgMappers, int32_t depNum, void *depList, int32_t NoAliasDepNum,
     void *NoAliasDepList);

 /// passes data to/from the target
 void __tgt_target_data_update(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
                               void **Args, int64_t *ArgSizes,
                               int64_t *ArgTypes);
 void __tgt_target_data_update_nowait(int64_t DeviceId, int32_t ArgNum,
                                      void **ArgsBase, void **Args,
                                      int64_t *ArgSizes, int64_t *ArgTypes,
                                      int32_t DepNum, void *DepList,
                                      int32_t NoAliasDepNum,
                                      void *NoAliasDepList);
 void __tgt_target_data_update_mapper(ident_t *Loc, int64_t DeviceId,
                                      int32_t ArgNum, void **ArgsBase,
                                      void **Args, int64_t *ArgSizes,
                                      int64_t *ArgTypes,
                                      map_var_info_t *ArgNames,
                                      void **ArgMappers);
 void __tgt_target_data_update_nowait_mapper(
     ident_t *Loc, int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
     void **Args, int64_t *ArgSizes, int64_t *ArgTypes, map_var_info_t *ArgNames,
     void **ArgMappers, int32_t DepNum, void *DepList, int32_t NoAliasDepNum,
     void *NoAliasDepList);

 // Performs the same actions as data_begin in case ArgNum is non-zero
 // and initiates run of offloaded region on target platform; if ArgNum
 // is non-zero after the region execution is done it also performs the
 // same action as data_end above. The following types are used; this
 // function returns 0 if it was able to transfer the execution to a
 // target and an int different from zero otherwise.
 int __tgt_target_kernel(ident_t *Loc, int64_t DeviceId, int32_t NumTeams,
                         int32_t ThreadLimit, void *HostPtr,
                         __tgt_kernel_arguments *Args);
 int __tgt_target_kernel_nowait(ident_t *Loc, int64_t DeviceId, int32_t NumTeams,
                                int32_t ThreadLimit, void *HostPtr,
                                __tgt_kernel_arguments *Args, int32_t DepNum,
                                void *DepList, int32_t NoAliasDepNum,
                                void *NoAliasDepList);

 void __tgt_set_info_flag(uint32_t);

 int __tgt_print_device_info(int64_t DeviceId);
 #ifdef __cplusplus
 }
 #endif

 #ifdef __cplusplus
 #define EXTERN extern "C"
 #else
 #define EXTERN extern
 #endif

 #endif // _OMPTARGET_H_
	//===-------- omptarget.h - Target independent OpenMP target RTL -- C++ -*-===//
	//
	// 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
	//
	//===----------------------------------------------------------------------===//
	//
	// Interface to be used by Clang during the codegen of a
	// target region.
	//
	//===----------------------------------------------------------------------===//

	#ifndef _OMPTARGET_H_
	#define _OMPTARGET_H_

	#include <deque>
	#include <stddef.h>
	#include <stdint.h>

	#include <SourceInfo.h>

	#define OFFLOAD_SUCCESS (0)
	#define OFFLOAD_FAIL (~0)

	#define OFFLOAD_DEVICE_DEFAULT -1

	// Don't format out enums and structs.
	// clang-format off

	/// return flags of __tgt_target_XXX public APIs
	enum __tgt_target_return_t : int {
	/// successful offload executed on a target device
	OMP_TGT_SUCCESS = 0,
	/// offload may not execute on the requested target device
	/// this scenario can be caused by the device not available or unsupported
	/// as described in the Execution Model in the specifcation
	/// this status may not be used for target device execution failure
	/// which should be handled internally in libomptarget
	OMP_TGT_FAIL = ~0
	};

	/// Data attributes for each data reference used in an OpenMP target region.
	enum tgt_map_type {
	// No flags
	OMP_TGT_MAPTYPE_NONE = 0x000,
	// copy data from host to device
	OMP_TGT_MAPTYPE_TO = 0x001,
	// copy data from device to host
	OMP_TGT_MAPTYPE_FROM = 0x002,
	// copy regardless of the reference count
	OMP_TGT_MAPTYPE_ALWAYS = 0x004,
	// force unmapping of data
	OMP_TGT_MAPTYPE_DELETE = 0x008,
	// map the pointer as well as the pointee
	OMP_TGT_MAPTYPE_PTR_AND_OBJ = 0x010,
	// pass device base address to kernel
	OMP_TGT_MAPTYPE_TARGET_PARAM = 0x020,
	// return base device address of mapped data
	OMP_TGT_MAPTYPE_RETURN_PARAM = 0x040,
	// private variable - not mapped
	OMP_TGT_MAPTYPE_PRIVATE = 0x080,
	// copy by value - not mapped
	OMP_TGT_MAPTYPE_LITERAL = 0x100,
	// mapping is implicit
	OMP_TGT_MAPTYPE_IMPLICIT = 0x200,
	// copy data to device
	OMP_TGT_MAPTYPE_CLOSE = 0x400,
	// runtime error if not already allocated
	OMP_TGT_MAPTYPE_PRESENT = 0x1000,
	// use a separate reference counter so that the data cannot be unmapped within
	// the structured region
	// This is an OpenMP extension for the sake of OpenACC support.
	OMP_TGT_MAPTYPE_OMPX_HOLD = 0x2000,
	// descriptor for non-contiguous target-update
	OMP_TGT_MAPTYPE_NON_CONTIG = 0x100000000000,
	// member of struct, member given by [16 MSBs] - 1
	OMP_TGT_MAPTYPE_MEMBER_OF = 0xffff000000000000
	};

	enum OpenMPOffloadingDeclareTargetFlags {
	/// Mark the entry as having a 'link' attribute.
	OMP_DECLARE_TARGET_LINK = 0x01,
	/// Mark the entry as being a global constructor.
	OMP_DECLARE_TARGET_CTOR = 0x02,
	/// Mark the entry as being a global destructor.
	OMP_DECLARE_TARGET_DTOR = 0x04
	};

	enum OpenMPOffloadingRequiresDirFlags {
	/// flag undefined.
	OMP_REQ_UNDEFINED = 0x000,
	/// no requires directive present.
	OMP_REQ_NONE = 0x001,
	/// reverse_offload clause.
	OMP_REQ_REVERSE_OFFLOAD = 0x002,
	/// unified_address clause.
	OMP_REQ_UNIFIED_ADDRESS = 0x004,
	/// unified_shared_memory clause.
	OMP_REQ_UNIFIED_SHARED_MEMORY = 0x008,
	/// dynamic_allocators clause.
	OMP_REQ_DYNAMIC_ALLOCATORS = 0x010
	};

	enum TargetAllocTy : int32_t {
	TARGET_ALLOC_DEVICE = 0,
	TARGET_ALLOC_HOST,
	TARGET_ALLOC_SHARED,
	TARGET_ALLOC_DEFAULT
	};

	/// This struct contains all of the arguments to a target kernel region launch.
	struct __tgt_kernel_arguments {
	int32_t Version; // Version of this struct for ABI compatibility.
	int32_t NumArgs; // Number of arguments in each input pointer.
	void **ArgBasePtrs; // Base pointer of each argument (e.g. a struct).
	void **ArgPtrs; // Pointer to the argument data.
	int64_t *ArgSizes; // Size of the argument data in bytes.
	int64_t *ArgTypes; // Type of the data (e.g. to / from).
	void **ArgNames; // Name of the data for debugging, possibly null.
	void **ArgMappers; // User-defined mappers, possibly null.
	int64_t Tripcount; // Tripcount for the teams / distribute loop, 0 otherwise.
	};
	static_assert(sizeof(__tgt_kernel_arguments) == 64 \|\|
	sizeof(__tgt_kernel_arguments) == 40,
	"Invalid struct size");

	/// This struct is a record of an entry point or global. For a function
	/// entry point the size is expected to be zero
	struct __tgt_offload_entry {
	void *addr; // Pointer to the offload entry info (function or global)
	char *name; // Name of the function or global
	size_t size; // Size of the entry info (0 if it is a function)
	int32_t flags; // Flags associated with the entry, e.g. 'link'.
	int32_t reserved; // Reserved, to be used by the runtime library.
	};

	/// This struct is a record of the device image information
	struct __tgt_device_image {
	void *ImageStart; // Pointer to the target code start
	void *ImageEnd; // Pointer to the target code end
	__tgt_offload_entry *EntriesBegin; // Begin of table with all target entries
	__tgt_offload_entry *EntriesEnd; // End of table (non inclusive)
	};

	/// This struct contains information about a given image.
	struct __tgt_image_info {
	const char *Arch;
	};

	/// This struct is a record of all the host code that may be offloaded to a
	/// target.
	struct __tgt_bin_desc {
	int32_t NumDeviceImages; // Number of device types supported
	__tgt_device_image *DeviceImages; // Array of device images (1 per dev. type)
	__tgt_offload_entry *HostEntriesBegin; // Begin of table with all host entries
	__tgt_offload_entry *HostEntriesEnd; // End of table (non inclusive)
	};

	/// This struct contains the offload entries identified by the target runtime
	struct __tgt_target_table {
	__tgt_offload_entry *EntriesBegin; // Begin of the table with all the entries
	__tgt_offload_entry
	*EntriesEnd; // End of the table with all the entries (non inclusive)
	};

	// clang-format on

	/// This struct contains information exchanged between different asynchronous
	/// operations for device-dependent optimization and potential synchronization
	struct __tgt_async_info {
	// A pointer to a queue-like structure where offloading operations are issued.
	// We assume to use this structure to do synchronization. In CUDA backend, it
	// is CUstream.
	void *Queue = nullptr;
	};

	struct DeviceTy;

	/// The libomptarget wrapper around a __tgt_async_info object directly
	/// associated with a libomptarget layer device. RAII semantics to avoid
	/// mistakes.
	class AsyncInfoTy {
	/// Locations we used in (potentially) asynchronous calls which should live
	/// as long as this AsyncInfoTy object.
	std::deque<void *> BufferLocations;

	__tgt_async_info AsyncInfo;
	DeviceTy &Device;

	public:
	AsyncInfoTy(DeviceTy &Device) : Device(Device) {}
	~AsyncInfoTy() { synchronize(); }

	/// Implicit conversion to the __tgt_async_info which is used in the
	/// plugin interface.
	operator __tgt_async_info *() { return &AsyncInfo; }

	/// Synchronize all pending actions.
	///
	/// \returns OFFLOAD_FAIL or OFFLOAD_SUCCESS appropriately.
	int synchronize();

	/// Return a void* reference with a lifetime that is at least as long as this
	/// AsyncInfoTy object. The location can be used as intermediate buffer.
	void *&getVoidPtrLocation();
	};

	/// This struct is a record of non-contiguous information
	struct __tgt_target_non_contig {
	uint64_t Offset;
	uint64_t Count;
	uint64_t Stride;
	};

	struct __tgt_device_info {
	void *Context = nullptr;
	void *Device = nullptr;
	};

	#ifdef __cplusplus
	extern "C" {
	#endif

	int omp_get_num_devices(void);
	int omp_get_device_num(void);
	int omp_get_initial_device(void);
	void *omp_target_alloc(size_t Size, int DeviceNum);
	void omp_target_free(void *DevicePtr, int DeviceNum);
	int omp_target_is_present(const void *Ptr, int DeviceNum);
	int omp_target_memcpy(void Dst, const void Src, size_t Length,
	size_t DstOffset, size_t SrcOffset, int DstDevice,
	int SrcDevice);
	int omp_target_memcpy_rect(void Dst, const void Src, size_t ElementSize,
	int NumDims, const size_t *Volume,
	const size_t DstOffsets, const size_t SrcOffsets,
	const size_t *DstDimensions,
	const size_t *SrcDimensions, int DstDevice,
	int SrcDevice);
	int omp_target_associate_ptr(const void HostPtr, const void DevicePtr,
	size_t Size, size_t DeviceOffset, int DeviceNum);
	int omp_target_disassociate_ptr(const void *HostPtr, int DeviceNum);

	/// Explicit target memory allocators
	/// Using the llvm_ prefix until they become part of the OpenMP standard.
	void *llvm_omp_target_alloc_device(size_t Size, int DeviceNum);
	void *llvm_omp_target_alloc_host(size_t Size, int DeviceNum);
	void *llvm_omp_target_alloc_shared(size_t Size, int DeviceNum);

	/// Dummy target so we have a symbol for generating host fallback.
	void *llvm_omp_target_dynamic_shared_alloc();

	/// add the clauses of the requires directives in a given file
	void __tgt_register_requires(int64_t Flags);

	/// adds a target shared library to the target execution image
	void __tgt_register_lib(__tgt_bin_desc *Desc);

	/// Initialize all RTLs at once
	void __tgt_init_all_rtls();

	/// removes a target shared library from the target execution image
	void __tgt_unregister_lib(__tgt_bin_desc *Desc);

	// creates the host to target data mapping, stores it in the
	// libomptarget.so internal structure (an entry in a stack of data maps) and
	// passes the data to the device;
	void __tgt_target_data_begin(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
	void *Args, int64_t ArgSizes, int64_t *ArgTypes);
	void __tgt_target_data_begin_nowait(int64_t DeviceId, int32_t ArgNum,
	void ArgsBase, void Args,
	int64_t ArgSizes, int64_t ArgTypes,
	int32_t DepNum, void *DepList,
	int32_t NoAliasDepNum,
	void *NoAliasDepList);
	void __tgt_target_data_begin_mapper(ident_t *Loc, int64_t DeviceId,
	int32_t ArgNum, void **ArgsBase,
	void *Args, int64_t ArgSizes,
	int64_t ArgTypes, map_var_info_t ArgNames,
	void **ArgMappers);
	void __tgt_target_data_begin_nowait_mapper(
	ident_t Loc, int64_t DeviceId, int32_t ArgNum, void *ArgsBase,
	void *Args, int64_t ArgSizes, int64_t ArgTypes, map_var_info_t ArgNames,
	void *ArgMappers, int32_t DepNum, void DepList, int32_t NoAliasDepNum,
	void *NoAliasDepList);

	// passes data from the target, release target memory and destroys the
	// host-target mapping (top entry from the stack of data maps) created by
	// the last __tgt_target_data_begin
	void __tgt_target_data_end(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
	void *Args, int64_t ArgSizes, int64_t *ArgTypes);
	void __tgt_target_data_end_nowait(int64_t DeviceId, int32_t ArgNum,
	void ArgsBase, void Args,
	int64_t ArgSizes, int64_t ArgTypes,
	int32_t DepNum, void *DepList,
	int32_t NoAliasDepNum, void *NoAliasDepList);
	void __tgt_target_data_end_mapper(ident_t *Loc, int64_t DeviceId,
	int32_t ArgNum, void ArgsBase, void Args,
	int64_t ArgSizes, int64_t ArgTypes,
	map_var_info_t ArgNames, void *ArgMappers);
	void __tgt_target_data_end_nowait_mapper(
	ident_t Loc, int64_t DeviceId, int32_t ArgNum, void *ArgsBase,
	void *Args, int64_t ArgSizes, int64_t ArgTypes, map_var_info_t ArgNames,
	void *ArgMappers, int32_t depNum, void depList, int32_t NoAliasDepNum,
	void *NoAliasDepList);

	/// passes data to/from the target
	void __tgt_target_data_update(int64_t DeviceId, int32_t ArgNum, void **ArgsBase,
	void *Args, int64_t ArgSizes,
	int64_t *ArgTypes);
	void __tgt_target_data_update_nowait(int64_t DeviceId, int32_t ArgNum,
	void ArgsBase, void Args,
	int64_t ArgSizes, int64_t ArgTypes,
	int32_t DepNum, void *DepList,
	int32_t NoAliasDepNum,
	void *NoAliasDepList);
	void __tgt_target_data_update_mapper(ident_t *Loc, int64_t DeviceId,
	int32_t ArgNum, void **ArgsBase,
	void *Args, int64_t ArgSizes,
	int64_t *ArgTypes,
	map_var_info_t *ArgNames,
	void **ArgMappers);
	void __tgt_target_data_update_nowait_mapper(
	ident_t Loc, int64_t DeviceId, int32_t ArgNum, void *ArgsBase,
	void *Args, int64_t ArgSizes, int64_t ArgTypes, map_var_info_t ArgNames,
	void *ArgMappers, int32_t DepNum, void DepList, int32_t NoAliasDepNum,
	void *NoAliasDepList);

	// Performs the same actions as data_begin in case ArgNum is non-zero
	// and initiates run of offloaded region on target platform; if ArgNum
	// is non-zero after the region execution is done it also performs the
	// same action as data_end above. The following types are used; this
	// function returns 0 if it was able to transfer the execution to a
	// target and an int different from zero otherwise.
	int __tgt_target_kernel(ident_t *Loc, int64_t DeviceId, int32_t NumTeams,
	int32_t ThreadLimit, void *HostPtr,
	__tgt_kernel_arguments *Args);
	int __tgt_target_kernel_nowait(ident_t *Loc, int64_t DeviceId, int32_t NumTeams,
	int32_t ThreadLimit, void *HostPtr,
	__tgt_kernel_arguments *Args, int32_t DepNum,
	void *DepList, int32_t NoAliasDepNum,
	void *NoAliasDepList);

	void __tgt_set_info_flag(uint32_t);

	int __tgt_print_device_info(int64_t DeviceId);
	#ifdef __cplusplus
	}
	#endif

	#ifdef __cplusplus
	#define EXTERN extern "C"
	#else
	#define EXTERN extern
	#endif

	#endif // _OMPTARGET_H_