mirror of
https://github.com/Xaymar/obs-StreamFX
synced 2024-11-16 00:35:06 +00:00
4d8ff417e7
Load additional functions from CUDA and add new enumerations to support them: * cuDevicePrimaryCtxSetFlags allows us to sched scheduling mode for the GPU. * cuCtxgetStreamPriorityRange allows us to check which priority levels are supported. * cuStreamCreateWithPriority allows us to create streams with non-default priority. The scheduler mode is now set to yield so that other threads can do work when we hit an eventual stalling problem. Streams can also now be created with higher priority and different flags, if necessary. In most cases this should allow CUDA resources to execute even while the GPU is under heavy load.
407 lines
12 KiB
C++
407 lines
12 KiB
C++
/*
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* Modern effects for a modern Streamer
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* Copyright (C) 2020 Michael Fabian Dirks
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#pragma once
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#include <cstddef>
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#include <functional>
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#include <memory>
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#include "utility.hpp"
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#ifdef WIN32
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#pragma warning(push)
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#pragma warning(disable : 4365)
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#pragma warning(disable : 5204)
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#include <d3d11.h>
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#include <dxgi.h>
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#pragma warning(pop)
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#endif
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#define CUDA_DEFINE_FUNCTION(name, ...) \
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private: \
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typedef ::nvidia::cuda::cu_result (*t##name)(__VA_ARGS__); \
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\
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public: \
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t##name name;
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namespace nvidia::cuda {
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enum class cu_result : std::size_t {
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SUCCESS = 0,
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INVALID_VALUE = 1,
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OUT_OF_MEMORY = 2,
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NOT_INITIALIZED = 3,
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DEINITIALIZED = 4,
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NO_DEVICE = 100,
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INVALID_DEVICE = 101,
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INVALID_CONTEXT = 201,
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MAP_FAILED = 205,
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UNMAP_FAILED = 206,
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ARRAY_IS_MAPPED = 207,
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ALREADY_MAPPED = 208,
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NOT_MAPPED = 211,
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INVALID_GRAPHICS_CONTEXT = 219,
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// Still missing some.
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};
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enum class cu_memory_type : std::uint32_t {
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HOST = 1,
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DEVICE = 2,
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ARRAY = 3,
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UNIFIED = 4,
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};
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enum class cu_array_format : std::uint32_t {
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UNSIGNED_INT8 = 0b00000001,
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UNSIGNED_INT16 = 0b00000010,
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UNSIGNED_INT32 = 0b00000011,
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SIGNED_INT8 = 0b00001000,
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SIGNED_INT16 = 0b00001001,
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SIGNED_INT32 = 0b00001010,
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HALF = 0b00010000,
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FLOAT = 0b00100000,
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};
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enum class cu_context_flags : std::uint32_t {
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SCHEDULER_AUTO = 0x0,
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SCHEDULER_SPIN = 0x1,
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SCHEDULER_YIELD = 0x2,
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SCHEDULER_BLOCKING_SYNC = 0x4,
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MAP_HOST = 0x8,
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LOCAL_MEMORY_RESIZE_TO_MAXIMUM = 0x10,
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};
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enum class cu_stream_flags : std::uint32_t {
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DEFAULT = 0x0,
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NON_BLOCKING = 0x1,
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};
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typedef void* cu_array_t;
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typedef void* cu_context_t;
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typedef std::uint64_t cu_device_ptr_t;
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typedef void* cu_graphics_resource_t;
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typedef void* cu_stream_t;
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typedef std::int32_t cu_device_t;
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struct cu_memcpy2d_t {
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std::size_t src_x_in_bytes;
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std::size_t src_y;
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cu_memory_type src_memory_type;
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const void* src_host;
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cu_device_ptr_t src_device;
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cu_array_t src_array;
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std::size_t src_pitch;
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std::size_t dst_x_in_bytes;
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std::size_t dst_y;
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cu_memory_type dst_memory_type;
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const void* dst_host;
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cu_device_ptr_t dst_device;
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cu_array_t dst_array;
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std::size_t dst_pitch;
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std::size_t width_in_bytes;
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std::size_t height;
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};
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struct cu_array_descriptor_t {
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std::size_t width;
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std::size_t height;
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std::uint32_t num_channels;
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cu_array_format format;
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};
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class cuda {
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private:
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void* _library;
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public:
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cuda();
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~cuda();
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public:
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// Initialization
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CUDA_DEFINE_FUNCTION(cuInit, std::int32_t flags);
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// Version Management
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CUDA_DEFINE_FUNCTION(cuDriverGetVersion, std::int32_t* driverVersion);
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// Device Management
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// cuDeviceGet
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// cuDeviceGetAttribute
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// cuDeviceGetCount
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// cuDeviceGetLuid
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// cuDeviceGetName
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// cuDeviceGetNvSciSyncAttributes
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// cuDeviceGetUuid
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// cuDeviceTotalMem_v2
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// Primary Context Management
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// cuDevicePrimaryCtxGetState
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CUDA_DEFINE_FUNCTION(cuDevicePrimaryCtxRelease, cu_device_t device);
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// cuDevicePrimaryCtxReset_v2
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CUDA_DEFINE_FUNCTION(cuDevicePrimaryCtxRetain, cu_context_t* ctx, cu_device_t device);
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CUDA_DEFINE_FUNCTION(cuDevicePrimaryCtxSetFlags, cu_device_t device, cu_context_flags flags);
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// Context Management
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// cuCtxCreate_v2
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CUDA_DEFINE_FUNCTION(cuCtxDestroy, cu_context_t ctx);
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// cuCtxGetApiVersion
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// cuCtxGetCacheConfig
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CUDA_DEFINE_FUNCTION(cuCtxGetCurrent, cu_context_t* ctx);
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// cuCtxGetDevice
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// cuCtxGetFlags
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// cuCtxGetLimit
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// cuCtxGetSharedMemConfig
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CUDA_DEFINE_FUNCTION(cuCtxGetStreamPriorityRange, std::int32_t* lowestPriority, std::int32_t* highestPriority);
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CUDA_DEFINE_FUNCTION(cuCtxPopCurrent, cu_context_t* ctx);
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CUDA_DEFINE_FUNCTION(cuCtxPushCurrent, cu_context_t ctx);
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// cuCtxSetCacheConfig
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CUDA_DEFINE_FUNCTION(cuCtxSetCurrent, cu_context_t ctx);
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// cuCtxSetLimit
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// cuCtxSetSharedMemConfig
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// cuCtxSynchronize
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// UNDOCUMENTED? cuCtxResetPersistingL2Cache
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// Module Management
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// cuLinkAddData
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// cuLinkAddFile
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// cuLinkComplete
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// cuLinkCreate
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// cuLinkDestroy
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// cuModuleGetFunction
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// cuModuleGetGlobal
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// cuModuleGetSurfRef
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// cuModuleGetTexRef
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// cuModuleLoad
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// cuModuleLoadData
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// cuModuleLoadDataEx
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// cuModuleLoadFatBinary
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// cuModuleUnload
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// Memory Management
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// cuArray3DCreate_v2
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// cuArray3DGetDescripter_v2
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// cuArrayCreate_v2
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// cuArrayDestroy
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CUDA_DEFINE_FUNCTION(cuArrayGetDescriptor, cu_array_descriptor_t* pArrayDescripter, cu_array_t array);
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// cuArrayGetDescriptor_v2
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// cuDeviceGetByPCIBusId
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// cuDeviceGetPCIBusId
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// cuIpcCloseMemHandle
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// cuIpcGetEventHandle
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// cuIpcGetMemHandle
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// cuIpcOpenEventHandle
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// cuIpcOpenMemHandle
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CUDA_DEFINE_FUNCTION(cuMemAlloc, cu_device_ptr_t* ptr, std::size_t bytes);
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// cuMemAllocHost_v2
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// cuMemAllocManaged
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CUDA_DEFINE_FUNCTION(cuMemAllocPitch, cu_device_ptr_t* ptr, std::size_t* pitch, std::size_t width_in_bytes,
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std::size_t height, std::uint32_t element_size_bytes);
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CUDA_DEFINE_FUNCTION(cuMemFree, cu_device_ptr_t ptr);
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// cuMemFreeHost
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// cuMemGetAddressRange_v2
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// cuMemGetInfo_v2
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// cuMemHostAlloc
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CUDA_DEFINE_FUNCTION(cuMemHostGetDevicePointer, cu_device_ptr_t* devptr, void* ptr, std::uint32_t flags);
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// cuMemHostGetFlags
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// cuMemHostRegister_v2
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// cuMemHostUnregister
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CUDA_DEFINE_FUNCTION(cuMemcpy, cu_device_ptr_t dst, cu_device_ptr_t src, std::size_t bytes);
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CUDA_DEFINE_FUNCTION(cuMemcpy2D, const cu_memcpy2d_t* copy);
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CUDA_DEFINE_FUNCTION(cuMemcpy2DAsync, const cu_memcpy2d_t* copy, cu_stream_t stream);
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// cuMemcpy2DUnaligned_v2 / _v2_ptds
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// cuMemcpy3D_v2 / _v2_ptds
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// cuMemcpy3DAsync_v2 / _v2_ptsz
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// cuMemcpy3DPeer / _ptds
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// cuMemcpy3DPeerAsync_v2 / _v2_ptsz
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// cuMemcpyAsync / _ptsz
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CUDA_DEFINE_FUNCTION(cuMemcpyAtoA, cu_array_t dst, std::size_t dstOffset, cu_array_t src, std::size_t srcOffset,
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std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyAtoD, cu_device_ptr_t dst, cu_array_t src, std::size_t srcOffset,
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std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyAtoH, void* dst, cu_array_t src, std::size_t srcOffset, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyAtoHAsync, void* dst, cu_array_t src, std::size_t srcOffset,
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std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyDtoA, cu_array_t dst, std::size_t dstOffset, cu_device_ptr_t src,
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std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyDtoD, cu_device_ptr_t dst, cu_array_t srcArray, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyDtoH, void* dst, cu_array_t src, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyDtoHAsync, void* dst, cu_array_t src, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyHtoA, cu_array_t dst, std::size_t dstOffset, void* src, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyHtoAAsync, cu_array_t dst, std::size_t dstOffset, void* src,
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std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyHtoD, cu_device_ptr_t dst, void* src, std::size_t byteCount);
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CUDA_DEFINE_FUNCTION(cuMemcpyHtoDAsync, cu_device_ptr_t dst, void* src, std::size_t byteCount);
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// cuMemcpyPeer / _ptds
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// cuMemcpyPeerAsync / _ptsz
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// cuMemsetD16
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// cuMemsetD16Async
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// cuMemsetD2D16
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// cuMemsetD2D16Async
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// cuMemsetD2D32
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// cuMemsetD2D32Async
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// cuMemsetD2D8
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// cuMemsetD2D8Async
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// cuMemsetD32
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// cuMemsetD32Async
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// cuMemsetD8
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// cuMemsetD8Async
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// cuMipmappedArrayCreate
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// cuMipmappedArrayDestroy
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// cuMipmappedArrayGetLevel
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// Virtual Memory Management
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// cuMemAddressFree
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// cuMemAddressReserve
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// cuMemCreate
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// cuMemExportToShareableHandle
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// cuMemGetAccess
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// cuMemGetAllocationGranularity
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// cuMemGetAllocationPropertiesFromHandle
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// cuMemImportFromShareableHandle
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// cuMemMap
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// cuMemRelease
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// cuMemSetAccess
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// cuMemUnmap
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// Unified Addressing
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// cuMemAdvise
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// cuMemPrefetchAsync
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// cuMemRangeGetAttribute
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// cuMemRangeGetAttributes
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// cuPointerGetAttribute
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// cuPointerGetAttributes
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// cuPointerSetAttribute
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// Stream Managment
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// cuStreamAddCallback
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// cuStreamAttachMemAsync
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// cuStreamBeginCapture_v2
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CUDA_DEFINE_FUNCTION(cuStreamCreate, cu_stream_t* stream, cu_stream_flags flags);
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CUDA_DEFINE_FUNCTION(cuStreamCreateWithPriority, cu_stream_t* stream, cu_stream_flags flags,
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std::int32_t priority);
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CUDA_DEFINE_FUNCTION(cuStreamDestroy, cu_stream_t stream);
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// cuStreamEndCapture
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// cuStreamGetCaptureInfo
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// cuStreamGetCtx
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// cuStreamGetFlags
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// cuStreamGetPriority
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// cuStreamIsCapturing
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// cuStreamQuery
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CUDA_DEFINE_FUNCTION(cuStreamSynchronize, cu_stream_t stream);
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// cuStreamWaitEvent
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// cuThreadExchangeStreamCaptureMode
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// Event Management
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// cuEventCreate
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// cuEventDestroy_v2
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// cuEventElapsedTime
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// cuEventQuery
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// cuEventRecord
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// cuEventSynchronize
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// External Resource Interoperability
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// cuDestroyExternalMemory
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// cuDestroyExternalSemaphore
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// cuExternalMemoryGetMappedBuffer
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// cuExternalMemoryGetMappedMipmappedArray
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// cuImportExternalMemory
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// cuImportExternalSemaphore
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// cuSignalExternalSemaphoresAsync
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// cuWaitExternalSemaphoresAsync
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// Stream Memory Operations
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// cuStreamBatchMemOp
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// cuStreamWaitValue32
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// cuStreamWaitValue64
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// cuStreamWriteValue32
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// cuStreamWriteValue64
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// Execution Control
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// cuFuncGetAttribute
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// cuFuncSetAttribute
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// cuFuncSetCacheConfig
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// cuFuncSetSharedMemConfig
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// cuLaunchCooperativeKernel
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// cuLaunchCooperativeKernelMultiDevice
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// cuLaunchHostFunc
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// cuLaunchKernel
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// Graph Management
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// Todo!
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// Occupancy
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// Todo
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// Texture Object Management
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// Todo
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// Surface Object Management
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// Todo
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// Peer Context Memory Access
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// Todo
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// Graphics Interoperability
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CUDA_DEFINE_FUNCTION(cuGraphicsMapResources, std::uint32_t count, cu_graphics_resource_t* resources,
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cu_stream_t stream);
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// cuGraphicsResourcesGetMappedMipmappedArray
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// cuGraphicsResourcesGetMappedPointer_v2
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// cuGraphicsResourcesSetMapFlags_v2
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CUDA_DEFINE_FUNCTION(cuGraphicsSubResourceGetMappedArray, cu_array_t* array, cu_graphics_resource_t resource,
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std::uint32_t index, std::uint32_t level);
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CUDA_DEFINE_FUNCTION(cuGraphicsUnmapResources, std::uint32_t count, cu_graphics_resource_t* resources,
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cu_stream_t stream);
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CUDA_DEFINE_FUNCTION(cuGraphicsUnregisterResource, cu_graphics_resource_t resource);
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// Profile Control
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// Todo
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// OpenGL Interoperability
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// cuGLGetDevices
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// cuGraphcisGLRegisterBuffer
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// cuGraphcisGLRegisterImage
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#ifdef WIN32
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// cuWGLGetDevice
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// Direct3D9 Interopability
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// cuD3D9CtxCreate
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// cuD3D9CtxCreateOnDevice
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// cuD3D9CtxGetDevice
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// cuD3D9CtxGetDevices
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// cuD3D9GetDirect3DDevice
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// cuGraphicsD3D9RegisterResource
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// Direct3D10 Interopability
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// cuD3D10GetDevice
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// cuD3D10GetDevices
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// cuGraphicsD3D10RegisterResource
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// Direct3D11 Interopability
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CUDA_DEFINE_FUNCTION(cuD3D11GetDevice, std::int32_t* device, IDXGIAdapter* adapter);
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// cuD3D11GetDevices
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CUDA_DEFINE_FUNCTION(cuGraphicsD3D11RegisterResource, cu_graphics_resource_t* resource,
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ID3D11Resource* d3dresource, std::uint32_t flags);
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#endif
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};
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} // namespace nvidia::cuda
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P_ENABLE_BITMASK_OPERATORS(::nvidia::cuda::cu_context_flags)
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P_ENABLE_BITMASK_OPERATORS(::nvidia::cuda::cu_stream_flags)
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