XCEngine/engine/third_party/physx/include/extensions/PxCudaHelpersExt.h

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#ifndef PX_CUDA_HELPERS_EXT_H
#define PX_CUDA_HELPERS_EXT_H


#include "foundation/PxPreprocessor.h"

#if PX_SUPPORT_GPU_PHYSX
#include "foundation/PxSimpleTypes.h"
#include "foundation/PxAssert.h"
#include "foundation/PxFoundation.h"
#include "cudamanager/PxCudaContextManager.h"
#include "cudamanager/PxCudaContext.h"
#include "cudamanager/PxCudaTypes.h"


namespace physx
{
namespace Ext
{

class PxCudaHelpersExt
{
public:

/**
* \brief Allocates a device buffer and returns the pointer to the memory
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context the allocation should be attributed to.
* \param[in] numElements the number of elements of type T to allocate.
*
* \return a pointer to the allocated memory.
*/
template<typename T>
static T* allocDeviceBuffer(PxCudaContextManager& cudaContextManager, PxU64 numElements)
{
    PxScopedCudaLock lock(cudaContextManager);

    CUdeviceptr ptr = 0;
	PxCUresult result = cudaContextManager.getCudaContext()->memAlloc(&ptr, numElements * sizeof(T));
    if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "allocDeviceBuffer failed with error code %i!\n", PxI32(result));

	return reinterpret_cast<T*>(ptr);
}

/**
* \brief Frees a device buffer
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context the device buffer is attributed to.
* \param[in] deviceBuffer reference to a pointer pointing to the device memory buffer.
*/
template<typename T>
static void freeDeviceBuffer(PxCudaContextManager& cudaContextManager, T*& deviceBuffer)
{
    if (deviceBuffer)
    {
        PxScopedCudaLock lock(cudaContextManager);
        PxCUresult result = cudaContextManager.getCudaContext()->memFree(reinterpret_cast<CUdeviceptr>(deviceBuffer));
        if (result != 0)
	        PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "freeDeviceBuffer failed with error code %i!\n", PxI32(result));

        deviceBuffer = NULL;
    }
}

/**
* \brief Allocates a pinned host buffer and returns the pointer to the memory
*
* A pinned host buffer can be used on the gpu after getting a mapped device pointer from the pinned host buffer pointer, see getMappedDevicePtr
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context the allocation should be attributed to.
* \param[in] numElements the number of elements of type T to allocate.
*
* \return a pointer to the allocated memory.
*/
template<typename T>
static T* allocPinnedHostBuffer(PxCudaContextManager& cudaContextManager, PxU64 numElements)
{
    PxScopedCudaLock lock(cudaContextManager);

	void* ptr = NULL;
	const unsigned int cuMemhostallocDevicemap = 0x02;
	const unsigned int cuMemhostallocPortable = 0x01;
	PxCUresult result = cudaContextManager.getCudaContext()->memHostAlloc(&ptr, numElements * sizeof(T), cuMemhostallocDevicemap | cuMemhostallocPortable);
    if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "allocPinnedHostBuffer failed with error code %i!\n", PxI32(result));

	return reinterpret_cast<T*>(ptr);
}

/**
* \brief Frees a pinned host buffer
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context the pinned memory buffer is attributed to.
* \param[in] pinnedHostBuffer reference to a pointer pointing to the pinned memory buffer.
*/
template<typename T>
static void freePinnedHostBuffer(PxCudaContextManager& cudaContextManager, T*& pinnedHostBuffer)
{
	if (pinnedHostBuffer)
    {
        PxScopedCudaLock lock(cudaContextManager);
        PxCUresult result = cudaContextManager.getCudaContext()->memFreeHost(pinnedHostBuffer);
        if (result != 0)
	        PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "freePinnedHostBuffer failed with error code %i!\n", PxI32(result));

        pinnedHostBuffer = NULL;
    }
}

/**
* \brief Copies a device buffer to the host
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] hostBuffer pointer to the destination (pinned) host memory buffer.
* \param[in] deviceBuffer pointer to the source device buffer.
* \param[in] numElements the number of elements of type T to copy.
*/
template<typename T>
static void copyDToH(PxCudaContextManager& cudaContextManager, T* hostBuffer, const T* deviceBuffer, PxU64 numElements)
{
    if (!deviceBuffer || !hostBuffer)
		return;

	PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	PxCUresult result = cudaContextManager.getCudaContext()->memcpyDtoH(hostBuffer, CUdeviceptr(deviceBuffer), numBytes);
	if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "copyDToH failed with error code %i!\n", PxI32(result));
}

/**
* \brief Copies a host buffer to the device
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] deviceBuffer pointer to the destination device buffer.
* \param[in] hostBuffer pointer to the source (pinned) host memory buffer.
* \param[in] numElements the number of elements of type T to copy.
*/
template<typename T>
static void copyHToD(PxCudaContextManager& cudaContextManager, T* deviceBuffer, const T* hostBuffer, PxU64 numElements)
{
    if (!deviceBuffer || !hostBuffer)
		return;

	PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	PxCUresult result = cudaContextManager.getCudaContext()->memcpyHtoD(CUdeviceptr(deviceBuffer), hostBuffer, numBytes);
	if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "copyHtoD failed with error code %i!\n", PxI32(result));
}

/**
* \brief Schedules device to host copy operation on the specified stream
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] hostBuffer pointer to the destination (pinned) host memory buffer.
* \param[in] deviceBuffer pointer to the source device buffer.
* \param[in] numElements the number of elements of type T to copy.
* \param[in] stream the CUDA stream to perform the operation on.
*/
template<typename T>
static void copyDToHAsync(PxCudaContextManager& cudaContextManager, T* hostBuffer, const T* deviceBuffer, PxU64 numElements, CUstream stream)
{
    if (!deviceBuffer || !hostBuffer)
		return;

	PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	PxCUresult result = cudaContextManager.getCudaContext()->memcpyDtoHAsync(hostBuffer, CUdeviceptr(deviceBuffer), numBytes, stream);
	if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "copyDtoHAsync failed with error code %i!\n", PxI32(result));
}

/**
* \brief Schedules host to device copy operation on the specified stream
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] deviceBuffer pointer to the destination device buffer.
* \param[in] hostBuffer pointer to the source (pinned) host memory buffer.
* \param[in] numElements the number of elements of type T to copy.
* \param[in] stream the CUDA stream to perform the operation on.
*/
template<typename T>
static void copyHToDAsync(PxCudaContextManager& cudaContextManager, T* deviceBuffer, const T* hostBuffer, PxU64 numElements, CUstream stream)
{
    if (!deviceBuffer || !hostBuffer)
		return;

	PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	PxCUresult result = cudaContextManager.getCudaContext()->memcpyHtoDAsync(CUdeviceptr(deviceBuffer), hostBuffer, numBytes, stream);
	if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "copyHtoDAsync failed with error code %i!\n", PxI32(result));
}

/**
* \brief Schedules device to device copy operation on the specified stream
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] dstDeviceBuffer pointer to the destination device buffer.
* \param[in] srcDeviceBuffer pointer to the source device buffer.
* \param[in] numElements the number of elements of type T to copy.
* \param[in] stream the CUDA stream to perform the operation on.
*/
template<typename T>
static void copyDToDAsync(PxCudaContextManager& cudaContextManager, T* dstDeviceBuffer, const T* srcDeviceBuffer, PxU64 numElements, CUstream stream)
{
    if (!srcDeviceBuffer || !dstDeviceBuffer)
		return;

	PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	PxCUresult result = cudaContextManager.getCudaContext()->memcpyDtoDAsync(CUdeviceptr(dstDeviceBuffer), CUdeviceptr(srcDeviceBuffer), numBytes, stream);
	if (result != 0)
	    PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "copyDtoDAsync failed with error code %i!\n", PxI32(result));
}

/**
* \brief Schedules a memset operation on the device on the specified stream. Only supported for 1 bytes or 4 byte data types.
*
* The cuda context will get acquired automatically
*
* \param[in] cudaContextManager the PxCudaContextManager managing the CUDA context executing the operation.
* \param[in] dstDeviceBuffer pointer to the destination device buffer.
* \param[in] value the value to set the memory to.
* \param[in] numElements the number of elements of type T to set.
* \param[in] stream the CUDA stream to perform the operation on.
*/
template<typename T>
static void memsetAsync(PxCudaContextManager& cudaContextManager, T* dstDeviceBuffer, const T& value, PxU64 numElements, CUstream stream)
{
    PX_COMPILE_TIME_ASSERT(sizeof(T) == sizeof(PxU32) || sizeof(T) == sizeof(PxU8));

    if (!dstDeviceBuffer)
        return;

    PxScopedCudaLock lock(cudaContextManager);
    PxU64 numBytes = numElements * sizeof(T);

	if (sizeof(T) == sizeof(PxU32))
    {
        PxCUresult result = cudaContextManager.getCudaContext()->memsetD32Async(CUdeviceptr(dstDeviceBuffer), reinterpret_cast<const PxU32&>(value), numBytes >> 2, stream);
        if (result != 0)
	        PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "memsetAsync failed with error code %i!\n", PxI32(result));
    }
	else
    {
        PxCUresult result = cudaContextManager.getCudaContext()->memsetD8Async(CUdeviceptr(dstDeviceBuffer), reinterpret_cast<const PxU8&>(value), numBytes, stream);
        if (result != 0)
	        PxGetFoundation().error(PxErrorCode::eINTERNAL_ERROR, PX_FL, "memsetAsync failed with error code %i!\n", PxI32(result));
    }  
}
};

#define PX_EXT_DEVICE_MEMORY_ALLOC(T, cudaContextManager, numElements) physx::Ext::PxCudaHelpersExt::allocDeviceBuffer<T>(cudaContextManager, numElements)
#define PX_EXT_DEVICE_MEMORY_FREE(cudaContextManager, deviceBuffer) physx::Ext::PxCudaHelpersExt::freeDeviceBuffer(cudaContextManager, deviceBuffer);

#define PX_EXT_PINNED_MEMORY_ALLOC(T, cudaContextManager, numElements) physx::Ext::PxCudaHelpersExt::allocPinnedHostBuffer<T>(cudaContextManager, numElements)
#define PX_EXT_PINNED_MEMORY_FREE(cudaContextManager, pinnedHostBuffer) physx::Ext::PxCudaHelpersExt::freePinnedHostBuffer(cudaContextManager, pinnedHostBuffer);

}
}

#endif

#endif