Files
rocm-systems/projects/clr/opencl/api/opencl/amdocl/cl_context.cpp
T
foreman aead882e6d P4 to Git Change 2061101 by skudchad@skudchad_test2_win_opencl on 2020/01/21 16:47:25
SWDEV-219917 - [VDI Cleanup] Remove some direct OpenCL references, introduce a common functionality.

	ReviewBoardURL = http://ocltc.amd.com/reviews/r/18488/diff/

Affected files ...

... //depot/stg/opencl/drivers/opencl/api/hip/build/Makefile.hip#30 edit
... //depot/stg/opencl/drivers/opencl/api/hip/fixme.cpp#3 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hip_internal.hpp#51 edit
... //depot/stg/opencl/drivers/opencl/api/hip/hiprtc_internal.hpp#3 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/build/Makefile.api#190 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_common.hpp#25 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_context.cpp#61 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_device.cpp#75 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_execute.cpp#31 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_icd.cpp#36 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_platform_amd.cpp#3 edit
... //depot/stg/opencl/drivers/opencl/api/opencl/amdocl/cl_program.cpp#54 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/gpu/gpudevice.cpp#610 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/pal/paldevice.cpp#180 edit
... //depot/stg/opencl/drivers/opencl/runtime/device/rocm/rocdevice.cpp#150 edit
... //depot/stg/opencl/drivers/opencl/runtime/include/vdi_agent_amd.h#1 add
... //depot/stg/opencl/drivers/opencl/runtime/include/vdi_common.hpp#1 add
... //depot/stg/opencl/drivers/opencl/runtime/os/os.hpp#32 edit
... //depot/stg/opencl/drivers/opencl/runtime/os/os_posix.cpp#49 edit
... //depot/stg/opencl/drivers/opencl/runtime/os/os_win32.cpp#50 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/agent.cpp#9 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/agent.hpp#7 edit
... //depot/stg/opencl/drivers/opencl/runtime/platform/context.cpp#54 edit
... //depot/stg/opencl/drivers/opencl/runtime/runtimedefs#54 edit


[ROCm/clr commit: 4c552a6423]
2020-01-21 16:52:40 -05:00

595 γραμμές
23 KiB
C++

//
// Copyright (c) 2008 Advanced Micro Devices, Inc. All rights reserved.
//
#include "cl_common.hpp"
#include "vdi_common.hpp"
#include "platform/context.hpp"
#include "device/device.hpp"
#include "platform/runtime.hpp"
#include "platform/agent.hpp"
#ifdef _WIN32
#include <d3d10_1.h>
#include "CL/cl_d3d10.h"
#include "CL/cl_d3d11.h"
#include "cl_d3d9_amd.hpp"
#include "cl_d3d10_amd.hpp"
#include "cl_d3d11_amd.hpp"
#endif // _WIN32
#include "cl_kernel_info_amd.h"
#include "cl_profile_amd.h"
#include "cl_platform_amd.h"
#include "cl_sdi_amd.h"
#include "cl_thread_trace_amd.h"
#include "cl_debugger_amd.h"
#include "cl_lqdflash_amd.h"
#include "cl_p2p_amd.h"
#include <GL/gl.h>
#include <GL/glext.h>
#include "CL/cl_gl.h"
/*! \addtogroup API
* @{
*
* \addtogroup CL_Contexts
* @{
*/
/*! \brief Create an OpenCL context.
*
* An OpenCL context is created with one or more devices. Contexts are used by
* the OpenCL runtime for managing objects such as command-queues, memory,
* program and kernel objects and for executing kernels on one or more devices
* specified in the context.
*
* \param properties is reserved and must be zero.
*
* \param num_devices is the number of devices specified in the \a devices
* argument.
*
* \param devices is a pointer to a list of unique devices returned by
* clGetDevices. If more than one device is specified in devices,
* a selection criteria may be applied to determine if the list of devices
* specified can be used together to create a context.
*
* \param pfn_notify is a callback function that can be registered by the
* application. This callback function will be used by the runtime to report
* information on errors that occur in this context. This callback function
* may be called asynchronously by the runtime. If \a pfn_notify is NULL,
* no callback function is registered.
*
* \param user_data will be passed as the user_data argument when \a pfn_notify
* is called. \a user_data can be NULL.
*
* \param errcode_ret will return an appropriate error code. If \a errcode_ret
* is NULL, no error code is returned.
*
* \return A valid non-zero context and errcode_ret is set to CL_SUCCESS
* if the context is created successfully or NULL with the following
* error values stored in \a errcode_ret:
* - CL_INVALID_VALUE if \a properties is not zero.
* - CL_INVALID_VALUE if \a devices is NULL.
* - CL_INVALID_VALUE if \a num_devices is equal to zero.
* - CL_INVALID_DEVICE if \a devices contains an invalid device.
* - CL_INVALID_DEVICE_LIST if more than one device is specified in
* \a devices and the list of devices specified cannot be used together
* to create a context.
* - CL_DEVICE_NOT_AVAILABLE if a device in \a devices is currently not
* available even though the device was returned by clGetDevices.
* - CL_OUT_OF_HOST_MEMORY if there is a failure to allocate resources
* required by the runtime.
*
* \version 1.0r33
*/
RUNTIME_ENTRY_RET(cl_context, clCreateContext,
(const cl_context_properties* properties, cl_uint num_devices,
const cl_device_id* devices,
void(CL_CALLBACK* pfn_notify)(const char*, const void*, size_t, void*),
void* user_data, cl_int* errcode_ret)) {
cl_int errcode;
amd::Context::Info info;
errcode = amd::Context::checkProperties(properties, &info);
if (CL_SUCCESS != errcode) {
*not_null(errcode_ret) = errcode;
return (cl_context)0;
}
if (num_devices == 0 || devices == NULL) {
*not_null(errcode_ret) = CL_INVALID_VALUE;
return (cl_context)0;
}
std::vector<amd::Device*> devices_;
for (cl_uint i = 0; i < num_devices; ++i) {
// FIXME_lmoriche: Set errcode_ret to CL_DEVICE_NOT_AVAILABLE if a
// device in devices is no longer available.
cl_device_id device = devices[i];
if (!is_valid(device)) {
*not_null(errcode_ret) = CL_INVALID_DEVICE;
return (cl_context)0;
}
devices_.push_back(as_amd(device));
}
amd::Context* context = new amd::Context(devices_, info);
if (context == NULL) {
*not_null(errcode_ret) = CL_OUT_OF_HOST_MEMORY;
return (cl_context)0;
}
if (CL_SUCCESS != (errcode = context->create(properties))) {
context->release();
*not_null(errcode_ret) = errcode;
return (cl_context)0;
}
if (amd::Agent::shouldPostContextEvents()) {
amd::Agent::postContextCreate(as_cl(context));
}
*not_null(errcode_ret) = CL_SUCCESS;
return as_cl(context);
}
RUNTIME_EXIT
/*! \brief Create an OpenCL context from a device type that identifies the
* specific device(s) to use.
*
* \param properties is reserved and must be zero.
*
* \param device_type is a bit-field that identifies the type of device.
*
* \param pfn_notify described in clCreateContext.
*
* \param user_data described in clCreateContext.
*
* \param errcode_ret will return an appropriate error code. If \a errcode_ret
* is NULL, no error code is returned.
*
* \return A valid non-zero context and errcode_ret is set to CL_SUCCESS
* if the context is created successfully or NULL with the following error
* values stored in errcode_ret:
* - CL_INVALID_VALUE if \a properties is not zero.
* - CL_INVALID_DEVICE_TYPE if \a device_type is not a valid value.
* - CL_DEVICE_NOT_AVAILABLE if no devices that match \a device_type
* are currently available.
* - CL_DEVICE_NOT_FOUND if no devices that match \a device_type were found.
* - CL_OUT_OF_HOST_MEMORY if there is a failure to allocate resources
* required by the runtime.
*
* \version 1.0r33
*/
RUNTIME_ENTRY_RET(cl_context, clCreateContextFromType,
(const cl_context_properties* properties, cl_device_type device_type,
void(CL_CALLBACK* pfn_notify)(const char*, const void*, size_t, void*),
void* user_data, cl_int* errcode_ret)) {
amd::Context::Info info;
cl_int errcode = amd::Context::checkProperties(properties, &info);
if (errcode != CL_SUCCESS) {
*not_null(errcode_ret) = errcode;
return (cl_context)0;
}
// Get the devices of the given type.
cl_uint num_devices;
bool offlineDevices = (info.flags_ & amd::Context::OfflineDevices) ? true : false;
if (!amd::Device::getDeviceIDs(device_type, 0, NULL, &num_devices, offlineDevices)) {
*not_null(errcode_ret) = CL_DEVICE_NOT_FOUND;
return (cl_context)0;
}
assert(num_devices > 0 && "Should have returned an error!");
cl_device_id* devices = (cl_device_id*)alloca(num_devices * sizeof(cl_device_id));
if (!amd::Device::getDeviceIDs(device_type, num_devices, devices, NULL, offlineDevices)) {
*not_null(errcode_ret) = CL_DEVICE_NOT_FOUND;
return (cl_context)0;
}
// Create a new context with the devices
cl_context context =
clCreateContext(properties, num_devices, devices, pfn_notify, user_data, errcode_ret);
return context;
}
RUNTIME_EXIT
/*! \brief Increment the context reference count.
*
* \return One of the following values:
* - CL_INVALID_CONTEXT if context is not a valid OpenCL context.
* - CL_SUCCESS if the function is executed successfully.
*
* clCreateContext and clCreateContextFromType perform an implicit retain.
* This is very helpful for 3rd party libraries, which typically get a context
* passed to them by the application.
* However, it is possible that the application may delete the context without
* informing the library. Allowing functions to attach to (i.e. retain) and
* release a context solves the problem of a context being used by a library
* no longer being valid.
*
* \version 1.0r33
*/
RUNTIME_ENTRY(cl_int, clRetainContext, (cl_context context)) {
if (!is_valid(context)) {
return CL_INVALID_CONTEXT;
}
as_amd(context)->retain();
return CL_SUCCESS;
}
RUNTIME_EXIT
/*! \brief Decrement the context reference count.
*
* \return One of the following values:
* - CL_INVALID_CONTEXT if context is not a valid OpenCL context.
* - CL_SUCCESS if the function is executed successfully.
*
* After the context reference count becomes zero and all the objects attached
* to context (such as memory objects, command-queues) are released,
* the context is deleted.
*
* \version 1.0r33
*/
RUNTIME_ENTRY(cl_int, clReleaseContext, (cl_context context)) {
if (!is_valid(context)) {
return CL_INVALID_CONTEXT;
}
as_amd(context)->release();
return CL_SUCCESS;
}
RUNTIME_EXIT
/*! \brief Query information about a context.
*
* \param context specifies the OpenCL context being queried.
*
* \param param_name is an enum that specifies the information to query.
*
* \param param_value is a pointer to memory where the appropriate result being
* queried is returned. If \a param_value is NULL, it is ignored.
*
* \param param_value_size specifies the size in bytes of memory pointed to by
* \a param_value. This size must be greater than or equal to the size of
* return type.
*
* \param param_value_size_ret returns the actual size in bytes of data being
* queried by \a param_value. If \a param_value_size_ret is NULL,
* it is ignored.
*
* \return One of the following values:
* - CL_INVALID_CONTEXT if context is not a valid context.
* - CL_INVALID_VALUE if \a param_name is not one of the supported values
* or if size in bytes specified by \a param_value_size is < size of return
* type and \a param_value is not a NULL value.
* - CL_SUCCESS if the function is executed successfully.
*
* \version 1.0r33
*/
RUNTIME_ENTRY(cl_int, clGetContextInfo,
(cl_context context, cl_context_info param_name, size_t param_value_size,
void* param_value, size_t* param_value_size_ret)) {
if (!is_valid(context)) {
return CL_INVALID_CONTEXT;
}
switch (param_name) {
case CL_CONTEXT_REFERENCE_COUNT: {
cl_uint count = as_amd(context)->referenceCount();
return amd::clGetInfo(count, param_value_size, param_value, param_value_size_ret);
}
case CL_CONTEXT_NUM_DEVICES: {
cl_uint numDevices = (cl_uint)as_amd(context)->devices().size();
return amd::clGetInfo(numDevices, param_value_size, param_value, param_value_size_ret);
}
case CL_CONTEXT_DEVICES: {
const std::vector<amd::Device*>& devices = as_amd(context)->devices();
size_t numDevices = devices.size();
size_t valueSize = numDevices * sizeof(cl_device_id*);
if (param_value != NULL && param_value_size < valueSize) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = valueSize;
if (param_value != NULL) {
cl_device_id* device_list = (cl_device_id*)param_value;
for (const auto& it : devices) {
*device_list++ = const_cast<cl_device_id>(as_cl(it));
}
}
return CL_SUCCESS;
}
case CL_CONTEXT_PROPERTIES: {
const amd::Context* amdContext = as_amd(context);
size_t valueSize = amdContext->info().propertiesSize_;
if (param_value != NULL && param_value_size < valueSize) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = valueSize;
if ((param_value != NULL) && (valueSize != 0)) {
::memcpy(param_value, amdContext->properties(), valueSize);
}
return CL_SUCCESS;
}
#ifdef _WIN32
case CL_CONTEXT_D3D10_DEVICE_KHR: {
// Not defined in the ext.spec, but tested in the conf.test
// Guessing functionality from the test...
if (param_value != NULL && param_value_size < sizeof(void*)) {
return CL_INVALID_VALUE;
}
const amd::Context* amdContext = as_amd(context);
if (!(amdContext->info().flags_ & amd::Context::D3D10DeviceKhr)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(intptr_t);
if (param_value != NULL) {
*(intptr_t*)param_value =
reinterpret_cast<intptr_t>(amdContext->info().hDev_[amd::Context::D3D10DeviceKhrIdx]);
}
return CL_SUCCESS;
}
case CL_CONTEXT_D3D10_PREFER_SHARED_RESOURCES_KHR: {
if (param_value != NULL && param_value_size < sizeof(cl_bool)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(cl_bool);
if (param_value != NULL) {
*(cl_bool*)param_value = CL_TRUE;
}
return CL_SUCCESS;
}
case CL_CONTEXT_D3D11_DEVICE_KHR: {
// Not defined in the ext.spec, but tested in the conf.test
// Guessing functionality from the test...
if (param_value != NULL && param_value_size < sizeof(void*)) {
return CL_INVALID_VALUE;
}
const amd::Context* amdContext = as_amd(context);
if (!(amdContext->info().flags_ & amd::Context::D3D11DeviceKhr)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(intptr_t);
if (param_value != NULL) {
*(intptr_t*)param_value =
reinterpret_cast<intptr_t>(amdContext->info().hDev_[amd::Context::D3D11DeviceKhrIdx]);
}
return CL_SUCCESS;
}
case CL_CONTEXT_D3D11_PREFER_SHARED_RESOURCES_KHR: {
if (param_value != NULL && param_value_size < sizeof(cl_bool)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(cl_bool);
if (param_value != NULL) {
*(cl_bool*)param_value = CL_TRUE;
}
return CL_SUCCESS;
}
case CL_CONTEXT_ADAPTER_D3D9_KHR: {
if (param_value != NULL && param_value_size < sizeof(void*)) {
return CL_INVALID_VALUE;
}
const amd::Context* amdContext = as_amd(context);
if (!(amdContext->info().flags_ & amd::Context::D3D9DeviceKhr)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(intptr_t);
if (param_value != NULL) {
*(intptr_t*)param_value =
reinterpret_cast<intptr_t>(amdContext->info().hDev_[amd::Context::D3D9DeviceKhrIdx]);
}
return CL_SUCCESS;
}
case CL_CONTEXT_ADAPTER_D3D9EX_KHR: {
if (param_value != NULL && param_value_size < sizeof(void*)) {
return CL_INVALID_VALUE;
}
const amd::Context* amdContext = as_amd(context);
if (!(amdContext->info().flags_ & amd::Context::D3D9DeviceEXKhr)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(intptr_t);
if (param_value != NULL) {
*(intptr_t*)param_value =
reinterpret_cast<intptr_t>(amdContext->info().hDev_[amd::Context::D3D9DeviceEXKhrIdx]);
}
return CL_SUCCESS;
}
case CL_CONTEXT_ADAPTER_DXVA_KHR: {
if (param_value != NULL && param_value_size < sizeof(void*)) {
return CL_INVALID_VALUE;
}
const amd::Context* amdContext = as_amd(context);
if (!(amdContext->info().flags_ & amd::Context::D3D9DeviceVAKhr)) {
return CL_INVALID_VALUE;
}
*not_null(param_value_size_ret) = sizeof(intptr_t);
if (param_value != NULL) {
*(intptr_t*)param_value =
reinterpret_cast<intptr_t>(amdContext->info().hDev_[amd::Context::D3D9DeviceVAKhrIdx]);
}
return CL_SUCCESS;
}
#endif //_WIN32
default:
break;
}
return CL_INVALID_VALUE;
}
RUNTIME_EXIT
/*! \brief returns the address of the extension function named by
* funcname for a given platform. The pointer returned should be cast
* to a function pointer type matching the extension functions definition
* defined in the appropriate extension specification and header file.
* A return value of NULL indicates that the specified function does not
* exist for the implementation or platform is not a valid platform.
* A non-NULL return value for \a clGetExtensionFunctionAddressForPlatform
* does not guarantee that an extension function is actually supported by
* the platform. The application must also make a corresponding query using
* \a clGetPlatformInfo(platform, CL_PLATFORM_EXTENSIONS, ... ) or
* \a clGetDeviceInfo(device, CL_DEVICE_EXTENSIONS, ... ) to determine if
* an extension is supported by the OpenCL implementation.
*
* \version 1.2r07
*/
CL_API_ENTRY void* CL_API_CALL clGetExtensionFunctionAddressForPlatform(cl_platform_id platform,
const char* funcname) {
if (platform != NULL && platform != AMD_PLATFORM) {
return NULL;
}
return clGetExtensionFunctionAddress(funcname);
}
CL_API_ENTRY void* CL_API_CALL clGetExtensionFunctionAddress(const char* func_name) {
#define CL_EXTENSION_ENTRYPOINT_CHECK(name) \
if (!strcmp(func_name, #name)) return reinterpret_cast<void*>(name);
#define CL_EXTENSION_ENTRYPOINT_CHECK2(name1, name2) \
if (!strcmp(func_name, #name1)) return reinterpret_cast<void*>(name2);
switch (func_name[2]) {
case 'C':
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateEventFromGLsyncKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreatePerfCounterAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateThreadTraceAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromGLBuffer);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromGLTexture2D);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromGLTexture3D);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromGLRenderbuffer);
#ifdef _WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromD3D10BufferKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromD3D10Texture2DKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromD3D10Texture3DKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateFromDX9MediaSurfaceKHR);
#endif //_WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateKeyAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clConvertImageAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateBufferFromImageAMD);
#if defined(cl_khr_il_program) || defined(CL_VERSION_2_1)
CL_EXTENSION_ENTRYPOINT_CHECK2(clCreateProgramWithILKHR,clCreateProgramWithIL);
#endif // defined(cl_khr_il_program) || defined(CL_VERSION_2_1)
#if cl_amd_assembly_program
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateProgramWithAssemblyAMD);
#endif // cl_amd_assembly_program
#if cl_amd_liquid_flash
CL_EXTENSION_ENTRYPOINT_CHECK(clCreateSsgFileObjectAMD);
#endif // cl_amd_liquid_flash
break;
case 'D':
break;
case 'E':
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueBeginPerfCounterAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueEndPerfCounterAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueAcquireGLObjects);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueReleaseGLObjects);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueBindThreadTraceBufferAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueThreadTraceCommandAMD);
#ifdef _WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueAcquireD3D10ObjectsKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueReleaseD3D10ObjectsKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueAcquireDX9MediaSurfacesKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueReleaseDX9MediaSurfacesKHR);
#endif //_WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueWaitSignalAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueWriteSignalAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueMakeBuffersResidentAMD);
#if cl_amd_liquid_flash
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueReadSsgFileAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueWriteSsgFileAMD);
#endif // cl_amd_liquid_flash
#if cl_amd_copy_buffer_p2p
CL_EXTENSION_ENTRYPOINT_CHECK(clEnqueueCopyBufferP2PAMD);
#endif // cl_amd_liquid_flash
break;
case 'G':
CL_EXTENSION_ENTRYPOINT_CHECK(clGetKernelInfoAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetPerfCounterInfoAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetGLObjectInfo);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetGLTextureInfo);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetGLContextInfoKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetThreadTraceInfoAMD);
#ifdef _WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clGetDeviceIDsFromD3D10KHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetDeviceIDsFromDX9MediaAdapterKHR);
CL_EXTENSION_ENTRYPOINT_CHECK(clGetPlaneFromImageAMD);
#endif //_WIN32
#if defined(cl_khr_sub_groups) || defined(CL_VERSION_2_1)
CL_EXTENSION_ENTRYPOINT_CHECK2(clGetKernelSubGroupInfoKHR,clGetKernelSubGroupInfo);
#endif // defined(cl_khr_sub_groups) || defined(CL_VERSION_2_1)
#if cl_amd_liquid_flash
CL_EXTENSION_ENTRYPOINT_CHECK(clGetSsgFileObjectInfoAMD);
#endif // cl_amd_liquid_flash
break;
case 'H':
#ifdef _WIN32
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetCallBackFunctionsAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetCallBackArgumentsAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgFlushCacheAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetExceptionPolicyAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgGetExceptionPolicyAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetKernelExecutionModeAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgGetKernelExecutionModeAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgCreateEventAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgWaitEventAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgDestroyEventAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgRegisterDebuggerAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgUnregisterDebuggerAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetAclBinaryAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgWaveControlAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgAddressWatchAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgGetAqlPacketInfoAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgGetDispatchDebugInfoAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgMapKernelCodeAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgUnmapKernelCodeAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgMapScratchRingAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgUnmapScratchRingAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgGetKernelParamMemAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgSetGlobalMemoryAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clHwDbgInstallTrapAMD);
#endif //_WIN32
break;
case 'I':
CL_EXTENSION_ENTRYPOINT_CHECK(clIcdGetPlatformIDsKHR);
break;
case 'O':
CL_EXTENSION_ENTRYPOINT_CHECK(clObjectGetValueForKeyAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clObjectSetValueForKeyAMD);
break;
case 'R':
CL_EXTENSION_ENTRYPOINT_CHECK(clReleasePerfCounterAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clRetainPerfCounterAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clReleaseThreadTraceAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clRetainThreadTraceAMD);
#if cl_amd_liquid_flash
CL_EXTENSION_ENTRYPOINT_CHECK(clRetainSsgFileObjectAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clReleaseSsgFileObjectAMD);
#endif // cl_amd_liquid_flash
break;
case 'S':
CL_EXTENSION_ENTRYPOINT_CHECK(clSetThreadTraceParamAMD);
CL_EXTENSION_ENTRYPOINT_CHECK(clSetDeviceClockModeAMD);
break;
case 'U':
CL_EXTENSION_ENTRYPOINT_CHECK(clUnloadPlatformAMD);
default:
break;
}
return NULL;
}
RUNTIME_ENTRY(cl_int, clTerminateContextKHR, (cl_context context)) { return CL_INVALID_CONTEXT; }
RUNTIME_EXIT
/*! @}
* @}
*/