forked from OSchip/llvm-project
552 lines
21 KiB
C++
552 lines
21 KiB
C++
//===--- opencl_acxxel.cpp - OpenCL implementation of the Acxxel API ------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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///
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/// This file defines the standard OpenCL implementation of the Acxxel API.
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///
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//===----------------------------------------------------------------------===//
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#include "acxxel.h"
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#include "CL/cl.h"
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#include <mutex>
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#include <sstream>
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#include <utility>
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#include <vector>
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namespace acxxel {
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namespace {
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/// An ID containing the platform ID and the device ID within the platform.
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struct FullDeviceID {
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cl_platform_id PlatformID;
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cl_device_id DeviceID;
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FullDeviceID(cl_platform_id PlatformID, cl_device_id DeviceID)
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: PlatformID(PlatformID), DeviceID(DeviceID) {}
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};
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static std::string getOpenCLErrorMessage(cl_int Result) {
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if (!Result)
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return "success";
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std::ostringstream OutStream;
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OutStream << "OpenCL error: code = " << Result;
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return OutStream.str();
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}
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static Status getOpenCLError(cl_int Result, const std::string &Message) {
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if (!Result)
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return Status();
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std::ostringstream OutStream;
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OutStream << getOpenCLErrorMessage(Result) << ", message = " << Message;
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return Status(OutStream.str());
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}
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static void logOpenCLWarning(cl_int Result, const std::string &Message) {
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if (Result) {
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std::ostringstream OutStream;
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OutStream << Message << ": " << getOpenCLErrorMessage(Result);
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logWarning(OutStream.str());
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}
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}
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class OpenCLPlatform : public Platform {
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public:
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~OpenCLPlatform() override = default;
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static Expected<OpenCLPlatform> create();
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Expected<int> getDeviceCount() override;
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Expected<Stream> createStream(int DeviceIndex) override;
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Expected<Event> createEvent(int DeviceIndex) override;
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Expected<Program> createProgramFromSource(Span<const char> Source,
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int DeviceIndex) override;
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protected:
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Status streamSync(void *Stream) override;
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Status streamWaitOnEvent(void *Stream, void *Event) override;
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Expected<void *> rawMallocD(ptrdiff_t ByteCount, int DeviceIndex) override;
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HandleDestructor getDeviceMemoryHandleDestructor() override;
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void *getDeviceMemorySpanHandle(void *BaseHandle, size_t ByteSize,
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size_t ByteOffset) override;
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void rawDestroyDeviceMemorySpanHandle(void *Handle) override;
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Expected<void *> rawGetDeviceSymbolAddress(const void *Symbol,
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int DeviceIndex) override;
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Expected<ptrdiff_t> rawGetDeviceSymbolSize(const void *Symbol,
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int DeviceIndex) override;
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Status rawRegisterHostMem(const void *Memory, ptrdiff_t ByteCount) override;
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HandleDestructor getUnregisterHostMemoryHandleDestructor() override;
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Expected<void *> rawMallocRegisteredH(ptrdiff_t ByteCount) override;
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HandleDestructor getFreeHostMemoryHandleDestructor() override;
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Status asyncCopyDToD(const void *DeviceSrc, ptrdiff_t DeviceSrcByteOffset,
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void *DeviceDst, ptrdiff_t DeviceDstByteOffset,
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ptrdiff_t ByteCount, void *Stream) override;
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Status asyncCopyDToH(const void *DeviceSrc, ptrdiff_t DeviceSrcByteOffset,
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void *HostDst, ptrdiff_t ByteCount,
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void *Stream) override;
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Status asyncCopyHToD(const void *HostSrc, void *DeviceDst,
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ptrdiff_t DeviceDstByteOffset, ptrdiff_t ByteCount,
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void *Stream) override;
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Status asyncMemsetD(void *DeviceDst, ptrdiff_t ByteOffset,
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ptrdiff_t ByteCount, char ByteValue,
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void *Stream) override;
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Status addStreamCallback(Stream &Stream, StreamCallback Callback) override;
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Status enqueueEvent(void *Event, void *Stream) override;
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bool eventIsDone(void *Event) override;
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Status eventSync(void *Event) override;
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Expected<float> getSecondsBetweenEvents(void *StartEvent,
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void *EndEvent) override;
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Expected<void *> rawCreateKernel(void *Program,
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const std::string &Name) override;
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HandleDestructor getKernelHandleDestructor() override;
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Status rawEnqueueKernelLaunch(void *Stream, void *Kernel,
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KernelLaunchDimensions LaunchDimensions,
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Span<void *> Arguments,
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Span<size_t> ArgumentSizes,
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size_t SharedMemoryBytes) override;
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private:
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OpenCLPlatform(std::vector<FullDeviceID> &&FullDeviceIDs,
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std::vector<cl_context> &&Contexts,
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std::vector<cl_command_queue> &&CommandQueues)
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: FullDeviceIDs(std::move(FullDeviceIDs)), Contexts(std::move(Contexts)),
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CommandQueues(std::move(CommandQueues)) {}
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std::vector<FullDeviceID> FullDeviceIDs;
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std::vector<cl_context> Contexts;
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std::vector<cl_command_queue> CommandQueues;
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};
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Expected<OpenCLPlatform> OpenCLPlatform::create() {
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constexpr cl_uint MaxNumEntries = 100;
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cl_platform_id Platforms[MaxNumEntries];
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cl_uint NumPlatforms;
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if (cl_int Result = clGetPlatformIDs(MaxNumEntries, Platforms, &NumPlatforms))
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return getOpenCLError(Result, "clGetPlatformIDs");
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std::vector<FullDeviceID> FullDeviceIDs;
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for (cl_uint PlatformIndex = 0; PlatformIndex < NumPlatforms;
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++PlatformIndex) {
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cl_uint NumDevices;
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cl_device_id Devices[MaxNumEntries];
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if (cl_int Result =
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clGetDeviceIDs(Platforms[PlatformIndex], CL_DEVICE_TYPE_ALL,
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MaxNumEntries, Devices, &NumDevices))
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return getOpenCLError(Result, "clGetDeviceIDs");
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for (cl_uint DeviceIndex = 0; DeviceIndex < NumDevices; ++DeviceIndex)
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FullDeviceIDs.emplace_back(Platforms[PlatformIndex],
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Devices[DeviceIndex]);
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}
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if (FullDeviceIDs.empty())
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return Status("No OpenCL device available on this system.");
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std::vector<cl_context> Contexts(FullDeviceIDs.size());
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std::vector<cl_command_queue> CommandQueues(FullDeviceIDs.size());
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for (size_t I = 0; I < FullDeviceIDs.size(); ++I) {
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cl_int CreateContextResult;
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Contexts[I] = clCreateContext(nullptr, 1, &FullDeviceIDs[I].DeviceID,
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nullptr, nullptr, &CreateContextResult);
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if (CreateContextResult)
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return getOpenCLError(CreateContextResult, "clCreateContext");
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cl_int CreateCommandQueueResult;
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CommandQueues[I] = clCreateCommandQueue(
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Contexts[I], FullDeviceIDs[I].DeviceID, CL_QUEUE_PROFILING_ENABLE,
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&CreateCommandQueueResult);
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if (CreateCommandQueueResult)
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return getOpenCLError(CreateCommandQueueResult, "clCreateCommandQueue");
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}
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return OpenCLPlatform(std::move(FullDeviceIDs), std::move(Contexts),
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std::move(CommandQueues));
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}
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Expected<int> OpenCLPlatform::getDeviceCount() { return FullDeviceIDs.size(); }
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static void openCLDestroyStream(void *H) {
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logOpenCLWarning(clReleaseCommandQueue(static_cast<cl_command_queue>(H)),
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"clReleaseCommandQueue");
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}
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Expected<Stream> OpenCLPlatform::createStream(int DeviceIndex) {
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cl_int Result;
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cl_command_queue Queue = clCreateCommandQueue(
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Contexts[DeviceIndex], FullDeviceIDs[DeviceIndex].DeviceID,
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CL_QUEUE_PROFILING_ENABLE, &Result);
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if (Result)
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return getOpenCLError(Result, "clCreateCommandQueue");
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return constructStream(this, DeviceIndex, Queue, openCLDestroyStream);
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}
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static void openCLEventDestroy(void *H) {
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cl_event *CLEvent = static_cast<cl_event *>(H);
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logOpenCLWarning(clReleaseEvent(*CLEvent), "clReleaseEvent");
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delete CLEvent;
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}
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Status OpenCLPlatform::streamSync(void *Stream) {
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return getOpenCLError(clFinish(static_cast<cl_command_queue>(Stream)),
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"clFinish");
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}
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Status OpenCLPlatform::streamWaitOnEvent(void *Stream, void *Event) {
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cl_event *CLEvent = static_cast<cl_event *>(Event);
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return getOpenCLError(
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clEnqueueBarrierWithWaitList(static_cast<cl_command_queue>(Stream), 1,
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CLEvent, nullptr),
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"clEnqueueMarkerWithWaitList");
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}
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Expected<Event> OpenCLPlatform::createEvent(int DeviceIndex) {
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cl_int Result;
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cl_event Event = clCreateUserEvent(Contexts[DeviceIndex], &Result);
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if (Result)
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return getOpenCLError(Result, "clCreateUserEvent");
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if (cl_int Result = clSetUserEventStatus(Event, CL_COMPLETE))
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return getOpenCLError(Result, "clSetUserEventStatus");
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return constructEvent(this, DeviceIndex, new cl_event(Event),
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openCLEventDestroy);
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}
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static void openCLDestroyProgram(void *H) {
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logOpenCLWarning(clReleaseProgram(static_cast<cl_program>(H)),
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"clReleaseProgram");
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}
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Expected<Program>
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OpenCLPlatform::createProgramFromSource(Span<const char> Source,
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int DeviceIndex) {
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cl_int Error;
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const char *CSource = Source.data();
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size_t SourceSize = Source.size();
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cl_program Program = clCreateProgramWithSource(Contexts[DeviceIndex], 1,
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&CSource, &SourceSize, &Error);
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if (Error)
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return getOpenCLError(Error, "clCreateProgramWithSource");
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cl_device_id DeviceID = FullDeviceIDs[DeviceIndex].DeviceID;
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if (cl_int Error =
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clBuildProgram(Program, 1, &DeviceID, nullptr, nullptr, nullptr))
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return getOpenCLError(Error, "clBuildProgram");
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return constructProgram(this, Program, openCLDestroyProgram);
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}
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Expected<void *> OpenCLPlatform::rawMallocD(ptrdiff_t ByteCount,
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int DeviceIndex) {
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cl_int Result;
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cl_mem Memory = clCreateBuffer(Contexts[DeviceIndex], CL_MEM_READ_WRITE,
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ByteCount, nullptr, &Result);
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if (Result)
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return getOpenCLError(Result, "clCreateBuffer");
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return reinterpret_cast<void *>(Memory);
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}
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static void openCLDestroyDeviceMemory(void *H) {
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logOpenCLWarning(clReleaseMemObject(static_cast<cl_mem>(H)),
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"clReleaseMemObject");
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}
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HandleDestructor OpenCLPlatform::getDeviceMemoryHandleDestructor() {
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return openCLDestroyDeviceMemory;
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}
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void *OpenCLPlatform::getDeviceMemorySpanHandle(void *BaseHandle,
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size_t ByteSize,
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size_t ByteOffset) {
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cl_int Error;
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cl_buffer_region Region;
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Region.origin = ByteOffset;
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Region.size = ByteSize;
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cl_mem SubBuffer =
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clCreateSubBuffer(static_cast<cl_mem>(BaseHandle), 0,
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CL_BUFFER_CREATE_TYPE_REGION, &Region, &Error);
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logOpenCLWarning(Error, "clCreateSubBuffer");
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if (Error)
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return nullptr;
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return SubBuffer;
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}
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void OpenCLPlatform::rawDestroyDeviceMemorySpanHandle(void *Handle) {
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openCLDestroyDeviceMemory(Handle);
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}
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Expected<void *>
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OpenCLPlatform::rawGetDeviceSymbolAddress(const void * /*Symbol*/,
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int /*DeviceIndex*/) {
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// This doesn't seem to have any equivalent in OpenCL.
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return Status("not implemented");
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}
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Expected<ptrdiff_t>
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OpenCLPlatform::rawGetDeviceSymbolSize(const void * /*Symbol*/,
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int /*DeviceIndex*/) {
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// This doesn't seem to have any equivalent in OpenCL.
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return Status("not implemented");
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}
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static void noOpHandleDestructor(void *) {}
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Status OpenCLPlatform::rawRegisterHostMem(const void * /*Memory*/,
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ptrdiff_t /*ByteCount*/) {
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// TODO(jhen): Do we want to do something to pin the memory here?
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return Status();
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}
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HandleDestructor OpenCLPlatform::getUnregisterHostMemoryHandleDestructor() {
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// TODO(jhen): Do we want to unpin the memory here?
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return noOpHandleDestructor;
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}
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Expected<void *> OpenCLPlatform::rawMallocRegisteredH(ptrdiff_t ByteCount) {
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// TODO(jhen): Do we want to do something to pin the memory here?
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return std::malloc(ByteCount);
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}
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static void freeMemoryHandleDestructor(void *Memory) {
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// TODO(jhen): Do we want to unpin the memory here?
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std::free(Memory);
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}
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HandleDestructor OpenCLPlatform::getFreeHostMemoryHandleDestructor() {
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return freeMemoryHandleDestructor;
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}
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Status OpenCLPlatform::asyncCopyDToD(const void *DeviceSrc,
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ptrdiff_t DeviceSrcByteOffset,
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void *DeviceDst,
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ptrdiff_t DeviceDstByteOffset,
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ptrdiff_t ByteCount, void *Stream) {
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return getOpenCLError(
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clEnqueueCopyBuffer(static_cast<cl_command_queue>(Stream),
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static_cast<cl_mem>(const_cast<void *>(DeviceSrc)),
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static_cast<cl_mem>(DeviceDst), DeviceSrcByteOffset,
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DeviceDstByteOffset, ByteCount, 0, nullptr, nullptr),
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"clEnqueueCopyBuffer");
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}
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Status OpenCLPlatform::asyncCopyDToH(const void *DeviceSrc,
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ptrdiff_t DeviceSrcByteOffset,
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void *HostDst, ptrdiff_t ByteCount,
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void *Stream) {
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return getOpenCLError(
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clEnqueueReadBuffer(static_cast<cl_command_queue>(Stream),
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static_cast<cl_mem>(const_cast<void *>(DeviceSrc)),
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CL_TRUE, DeviceSrcByteOffset, ByteCount, HostDst, 0,
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nullptr, nullptr),
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"clEnqueueReadBuffer");
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}
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Status OpenCLPlatform::asyncCopyHToD(const void *HostSrc, void *DeviceDst,
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ptrdiff_t DeviceDstByteOffset,
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ptrdiff_t ByteCount, void *Stream) {
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return getOpenCLError(
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clEnqueueWriteBuffer(static_cast<cl_command_queue>(Stream),
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static_cast<cl_mem>(DeviceDst), CL_TRUE,
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DeviceDstByteOffset, ByteCount, HostSrc, 0, nullptr,
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nullptr),
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"clEnqueueWriteBuffer");
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}
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Status OpenCLPlatform::asyncMemsetD(void *DeviceDst, ptrdiff_t ByteOffset,
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ptrdiff_t ByteCount, char ByteValue,
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void *Stream) {
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return getOpenCLError(
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clEnqueueFillBuffer(static_cast<cl_command_queue>(Stream),
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static_cast<cl_mem>(DeviceDst), &ByteValue, 1,
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ByteOffset, ByteCount, 0, nullptr, nullptr),
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"clEnqueueFillBuffer");
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}
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struct StreamCallbackUserData {
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StreamCallbackUserData(Stream &TheStream, StreamCallback Function,
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cl_event EndEvent)
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: TheStream(TheStream), TheFunction(std::move(Function)),
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EndEvent(EndEvent) {}
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Stream &TheStream;
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StreamCallback TheFunction;
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cl_event EndEvent;
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};
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// A function with the right signature to pass to clSetEventCallback.
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void CL_CALLBACK openCLStreamCallbackShim(cl_event,
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cl_int EventCommandExecStatus,
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void *UserData) {
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std::unique_ptr<StreamCallbackUserData> Data(
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static_cast<StreamCallbackUserData *>(UserData));
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Data->TheFunction(
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Data->TheStream,
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getOpenCLError(EventCommandExecStatus, "stream callback error state"));
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if (cl_int Result = clSetUserEventStatus(Data->EndEvent, CL_COMPLETE))
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logOpenCLWarning(Result, "clSetUserEventStatus");
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if (cl_int Result = clReleaseEvent(Data->EndEvent))
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logOpenCLWarning(Result, "clReleaseEvent");
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}
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Status OpenCLPlatform::addStreamCallback(Stream &TheStream,
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StreamCallback Callback) {
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cl_int Result;
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cl_event StartEvent =
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clCreateUserEvent(Contexts[TheStream.getDeviceIndex()], &Result);
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if (Result)
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return getOpenCLError(Result, "clCreateUserEvent");
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cl_event EndEvent =
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clCreateUserEvent(Contexts[TheStream.getDeviceIndex()], &Result);
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if (Result)
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return getOpenCLError(Result, "clCreateUserEvent");
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cl_event StartBarrierEvent;
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if (cl_int Result = clEnqueueBarrierWithWaitList(
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static_cast<cl_command_queue>(getStreamHandle(TheStream)), 1,
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&StartEvent, &StartBarrierEvent))
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return getOpenCLError(Result, "clEnqueueBarrierWithWaitList");
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if (cl_int Result = clEnqueueBarrierWithWaitList(
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static_cast<cl_command_queue>(getStreamHandle(TheStream)), 1,
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&EndEvent, nullptr))
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return getOpenCLError(Result, "clEnqueueBarrierWithWaitList");
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std::unique_ptr<StreamCallbackUserData> UserData(
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new StreamCallbackUserData(TheStream, std::move(Callback), EndEvent));
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if (cl_int Result =
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clSetEventCallback(StartBarrierEvent, CL_RUNNING,
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openCLStreamCallbackShim, UserData.release()))
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return getOpenCLError(Result, "clSetEventCallback");
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if (cl_int Result = clSetUserEventStatus(StartEvent, CL_COMPLETE))
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return getOpenCLError(Result, "clSetUserEventStatus");
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if (cl_int Result = clReleaseEvent(StartBarrierEvent))
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return getOpenCLError(Result, "clReleaseEvent");
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return getOpenCLError(clReleaseEvent(StartEvent), "clReleaseEvent");
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}
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Status OpenCLPlatform::enqueueEvent(void *Event, void *Stream) {
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cl_event *CLEvent = static_cast<cl_event *>(Event);
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cl_event OldEvent = *CLEvent;
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cl_event NewEvent;
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if (cl_int Result = clEnqueueMarkerWithWaitList(
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static_cast<cl_command_queue>(Stream), 0, nullptr, &NewEvent))
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return getOpenCLError(Result, "clEnqueueMarkerWithWaitList");
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*CLEvent = NewEvent;
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return getOpenCLError(clReleaseEvent(OldEvent), "clReleaseEvent");
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}
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bool OpenCLPlatform::eventIsDone(void *Event) {
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cl_event *CLEvent = static_cast<cl_event *>(Event);
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cl_int EventStatus;
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logOpenCLWarning(clGetEventInfo(*CLEvent, CL_EVENT_COMMAND_EXECUTION_STATUS,
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sizeof(EventStatus), &EventStatus, nullptr),
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"clGetEventInfo");
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return EventStatus == CL_COMPLETE || EventStatus < 0;
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}
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Status OpenCLPlatform::eventSync(void *Event) {
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cl_event *CLEvent = static_cast<cl_event *>(Event);
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return getOpenCLError(clWaitForEvents(1, CLEvent), "clWaitForEvents");
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}
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Expected<float> OpenCLPlatform::getSecondsBetweenEvents(void *StartEvent,
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void *EndEvent) {
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cl_event *CLStartEvent = static_cast<cl_event *>(StartEvent);
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cl_event *CLEndEvent = static_cast<cl_event *>(EndEvent);
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cl_profiling_info ParamName = CL_PROFILING_COMMAND_END;
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cl_ulong StartNanoseconds;
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cl_ulong EndNanoseconds;
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if (cl_int Result =
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clGetEventProfilingInfo(*CLStartEvent, ParamName, sizeof(cl_ulong),
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&StartNanoseconds, nullptr))
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return getOpenCLError(Result, "clGetEventProfilingInfo");
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if (cl_int Result = clGetEventProfilingInfo(
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*CLEndEvent, ParamName, sizeof(cl_ulong), &EndNanoseconds, nullptr))
|
|
return getOpenCLError(Result, "clGetEventProfilingInfo");
|
|
return (EndNanoseconds - StartNanoseconds) * 1e-12;
|
|
}
|
|
|
|
Expected<void *> OpenCLPlatform::rawCreateKernel(void *Program,
|
|
const std::string &Name) {
|
|
|
|
cl_int Error;
|
|
cl_kernel Kernel =
|
|
clCreateKernel(static_cast<cl_program>(Program), Name.c_str(), &Error);
|
|
if (Error)
|
|
return getOpenCLError(Error, "clCreateKernel");
|
|
return Kernel;
|
|
}
|
|
|
|
static void openCLDestroyKernel(void *H) {
|
|
logOpenCLWarning(clReleaseKernel(static_cast<cl_kernel>(H)),
|
|
"clReleaseKernel");
|
|
}
|
|
|
|
HandleDestructor OpenCLPlatform::getKernelHandleDestructor() {
|
|
return openCLDestroyKernel;
|
|
}
|
|
|
|
Status OpenCLPlatform::rawEnqueueKernelLaunch(
|
|
void *Stream, void *Kernel, KernelLaunchDimensions LaunchDimensions,
|
|
Span<void *> Arguments, Span<size_t> ArgumentSizes,
|
|
size_t SharedMemoryBytes) {
|
|
if (SharedMemoryBytes != 0)
|
|
return Status("OpenCL kernel launches only accept zero for the shared "
|
|
"memory byte size");
|
|
cl_kernel TheKernel = static_cast<cl_kernel>(Kernel);
|
|
for (int I = 0; I < Arguments.size(); ++I)
|
|
if (cl_int Error =
|
|
clSetKernelArg(TheKernel, I, ArgumentSizes[I], Arguments[I]))
|
|
return getOpenCLError(Error, "clSetKernelArg");
|
|
size_t LocalWorkSize[] = {LaunchDimensions.BlockX, LaunchDimensions.BlockY,
|
|
LaunchDimensions.BlockZ};
|
|
size_t GlobalWorkSize[] = {LaunchDimensions.BlockX * LaunchDimensions.GridX,
|
|
LaunchDimensions.BlockY * LaunchDimensions.GridY,
|
|
LaunchDimensions.BlockZ * LaunchDimensions.GridZ};
|
|
return getOpenCLError(
|
|
clEnqueueNDRangeKernel(static_cast<cl_command_queue>(Stream), TheKernel,
|
|
3, nullptr, GlobalWorkSize, LocalWorkSize, 0,
|
|
nullptr, nullptr),
|
|
"clEnqueueNDRangeKernel");
|
|
}
|
|
|
|
} // namespace
|
|
|
|
namespace opencl {
|
|
|
|
/// Gets an OpenCLPlatform instance and returns it as an unowned pointer to a
|
|
/// Platform.
|
|
Expected<Platform *> getPlatform() {
|
|
static auto MaybePlatform = []() -> Expected<OpenCLPlatform *> {
|
|
Expected<OpenCLPlatform> CreationResult = OpenCLPlatform::create();
|
|
if (CreationResult.isError())
|
|
return CreationResult.getError();
|
|
else
|
|
return new OpenCLPlatform(CreationResult.takeValue());
|
|
}();
|
|
return MaybePlatform;
|
|
}
|
|
|
|
} // namespace opencl
|
|
|
|
} // namespace acxxel
|