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review.mlplatform.org / ml / ComputeLibrary / e8e016e126e38c3114734220768a743a1228d62a / . / src / core / CL / OpenCL.cpp
blob: 2ebc3274aaf046f01cc12efcbba482cda9d0e843 [file] [log] [blame]
/*
* Copyright (c) 2017-2024 Arm Limited.
*
* SPDX-License-Identifier: MIT
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#include "arm_compute/core/CL/OpenCL.h"
#pragma GCC diagnostic pop
#include "arm_compute/core/Error.h"
#include <algorithm>
#include <dlfcn.h>
#include <iostream>
#include <sstream>
namespace arm_compute
{
CLSymbols::CLSymbols() noexcept(false) : _loaded({false, false})
{
}
CLSymbols &CLSymbols::get()
{
static CLSymbols symbols;
return symbols;
}
bool CLSymbols::load_default()
{
static const std::vector<std::string> libraries_filenames{"libOpenCL.so", "libGLES_mali.so", "libmali.so"};
if (_loaded.first)
{
return _loaded.second;
}
// Indicate that default loading has been tried
_loaded.first = true;
if (load(libraries_filenames, /* use_loader */ false))
{
ARM_COMPUTE_ERROR_ON_MSG(this->clBuildProgram_ptr == nullptr,
"Failed to load OpenCL symbols from shared library");
return true;
}
#ifdef __ANDROID__
// When running in NDK environment, the above libraries are not accessible.
static const std::vector<std::string> android_libraries_filenames{"libOpenCL-pixel.so", "libOpenCL-car.so"};
if (load(android_libraries_filenames, /* use_loader */ true))
{
ARM_COMPUTE_ERROR_ON_MSG(this->clBuildProgram_ptr == nullptr,
"Failed to load OpenCL symbols from android shared library");
return true;
}
#endif // __ANDROID__
// If not returned till here then libraries not found
std::stringstream ss;
std::for_each(libraries_filenames.begin(), libraries_filenames.end(),
[&ss](const std::string &s) { ss << s << " "; });
#ifdef __ANDROID__
std::for_each(android_libraries_filenames.begin(), android_libraries_filenames.end(),
[&ss](const std::string &s) { ss << s << " "; });
#endif // __ANDROID__
std::cerr << "Couldn't find any of the following OpenCL library: " << ss.str() << std::endl;
return false;
}
bool CLSymbols::load(const std::vector<std::string> &libraries_filenames, bool use_loader)
{
void *handle = nullptr;
unsigned int index = 0;
for (index = 0; index < libraries_filenames.size(); ++index)
{
handle = dlopen(libraries_filenames[index].c_str(), RTLD_LAZY | RTLD_LOCAL);
if (handle != nullptr)
{
break;
}
}
if (index == libraries_filenames.size())
{
// Set status of loading to failed
_loaded.second = false;
return false;
}
#ifdef __ANDROID__
typedef void *(*loadOpenCLPointer_t)(const char *name);
loadOpenCLPointer_t loadOpenCLPointer;
if (use_loader)
{
typedef void (*enableOpenCL_t)();
enableOpenCL_t enableOpenCL = reinterpret_cast<enableOpenCL_t>(dlsym(handle, "enableOpenCL"));
enableOpenCL();
loadOpenCLPointer = reinterpret_cast<loadOpenCLPointer_t>(dlsym(handle, "loadOpenCLPointer"));
}
else
{
loadOpenCLPointer = nullptr;
}
#define LOAD_FUNCTION_PTR(func_name, _handle) \
func_name##_ptr = reinterpret_cast<decltype(func_name) *>(use_loader ? loadOpenCLPointer(#func_name) \
: dlsym(handle, #func_name));
#else /* __ANDROID__ */
(void)use_loader; // Avoid unused warning
#define LOAD_FUNCTION_PTR(func_name, handle) \
func_name##_ptr = reinterpret_cast<decltype(func_name) *>(dlsym(handle, #func_name));
#endif /* __ANDROID__ */
#define LOAD_EXTENSION_FUNCTION_PTR(func_name, platform_id) \
func_name##_ptr = \
reinterpret_cast<decltype(func_name) *>(clGetExtensionFunctionAddressForPlatform(platform_id, #func_name));
LOAD_FUNCTION_PTR(clCreateContext, handle);
LOAD_FUNCTION_PTR(clCreateContextFromType, handle);
LOAD_FUNCTION_PTR(clCreateCommandQueue, handle);
LOAD_FUNCTION_PTR(clCreateCommandQueueWithProperties, handle);
LOAD_FUNCTION_PTR(clGetContextInfo, handle);
LOAD_FUNCTION_PTR(clBuildProgram, handle);
LOAD_FUNCTION_PTR(clEnqueueNDRangeKernel, handle);
LOAD_FUNCTION_PTR(clSetKernelArg, handle);
LOAD_FUNCTION_PTR(clReleaseKernel, handle);
LOAD_FUNCTION_PTR(clCreateProgramWithSource, handle);
LOAD_FUNCTION_PTR(clCreateBuffer, handle);
LOAD_FUNCTION_PTR(clRetainKernel, handle);
LOAD_FUNCTION_PTR(clCreateKernel, handle);
LOAD_FUNCTION_PTR(clGetProgramInfo, handle);
LOAD_FUNCTION_PTR(clFlush, handle);
LOAD_FUNCTION_PTR(clFinish, handle);
LOAD_FUNCTION_PTR(clReleaseProgram, handle);
LOAD_FUNCTION_PTR(clRetainContext, handle);
LOAD_FUNCTION_PTR(clCreateProgramWithBinary, handle);
LOAD_FUNCTION_PTR(clReleaseCommandQueue, handle);
LOAD_FUNCTION_PTR(clEnqueueMapBuffer, handle);
LOAD_FUNCTION_PTR(clRetainProgram, handle);
LOAD_FUNCTION_PTR(clGetProgramBuildInfo, handle);
LOAD_FUNCTION_PTR(clEnqueueReadBuffer, handle);
LOAD_FUNCTION_PTR(clEnqueueWriteBuffer, handle);
LOAD_FUNCTION_PTR(clReleaseEvent, handle);
LOAD_FUNCTION_PTR(clReleaseContext, handle);
LOAD_FUNCTION_PTR(clRetainCommandQueue, handle);
LOAD_FUNCTION_PTR(clEnqueueUnmapMemObject, handle);
LOAD_FUNCTION_PTR(clRetainMemObject, handle);
LOAD_FUNCTION_PTR(clReleaseMemObject, handle);
LOAD_FUNCTION_PTR(clGetDeviceInfo, handle);
LOAD_FUNCTION_PTR(clGetDeviceIDs, handle);
LOAD_FUNCTION_PTR(clGetMemObjectInfo, handle);
LOAD_FUNCTION_PTR(clRetainEvent, handle);
LOAD_FUNCTION_PTR(clGetPlatformInfo, handle);
LOAD_FUNCTION_PTR(clGetPlatformIDs, handle);
LOAD_FUNCTION_PTR(clGetKernelWorkGroupInfo, handle);
LOAD_FUNCTION_PTR(clGetCommandQueueInfo, handle);
LOAD_FUNCTION_PTR(clGetKernelInfo, handle);
LOAD_FUNCTION_PTR(clGetEventProfilingInfo, handle);
LOAD_FUNCTION_PTR(clSVMAlloc, handle);
LOAD_FUNCTION_PTR(clSVMFree, handle);
LOAD_FUNCTION_PTR(clEnqueueSVMMap, handle);
LOAD_FUNCTION_PTR(clEnqueueSVMUnmap, handle);
LOAD_FUNCTION_PTR(clEnqueueMarker, handle);
LOAD_FUNCTION_PTR(clWaitForEvents, handle);
LOAD_FUNCTION_PTR(clCreateImage, handle);
LOAD_FUNCTION_PTR(clSetKernelExecInfo, handle);
LOAD_FUNCTION_PTR(clGetExtensionFunctionAddressForPlatform, handle);
// Load Extensions
// Number of platforms is assumed to be 1. For this to be greater than 1,
// the system must have more than one OpenCL implementation provided by
// different vendors. This is not our use case. Besides, the library
// already assumes one implementation as it uses one handle to load core
// functions.
constexpr unsigned int num_platforms = 1U;
std::vector<cl_platform_id> platform_ids(num_platforms);
cl_int err = clGetPlatformIDs(num_platforms, platform_ids.data(), nullptr);
if (err != CL_SUCCESS)
{
return false;
}
// Command buffer and mutable dispatch command buffer extensions
/// TODO: (COMPMID-6742) Load Command Buffer extensions in a Portable way
/// using clGetExtensionFunctionAddressForPlatform().
/// The details can be found here:
/// https://registry.khronos.org/OpenCL/specs/3.0-unified/html/OpenCL_Ext.html#getting-opencl-api-extension-function-pointers
///
/// @note: There are some problems reported while loading these extensions in the recommended way.
/// For details, please see COMPUTE-16545
LOAD_FUNCTION_PTR(clCreateCommandBufferKHR, handle);
LOAD_FUNCTION_PTR(clRetainCommandBufferKHR, handle);
LOAD_FUNCTION_PTR(clReleaseCommandBufferKHR, handle);
LOAD_FUNCTION_PTR(clFinalizeCommandBufferKHR, handle);
LOAD_FUNCTION_PTR(clEnqueueCommandBufferKHR, handle);
LOAD_FUNCTION_PTR(clCommandNDRangeKernelKHR, handle);
LOAD_FUNCTION_PTR(clUpdateMutableCommandsKHR, handle);
// Third-party extensions
LOAD_EXTENSION_FUNCTION_PTR(clImportMemoryARM, platform_ids[0]);
#undef LOAD_FUNCTION_PTR
#undef LOAD_EXTENSION_FUNCTION_PTR
//Don't call dlclose(handle) or all the symbols will be unloaded !
// Disable default loading and set status to successful
_loaded = std::make_pair(true, true);
return true;
}
bool opencl_is_available()
{
CLSymbols::get().load_default();
// Using static objects that rely on OpenCL in their constructor or
// destructor is implementation defined according to the OpenCL API
// Specification. These objects include CLScheduler.
//
// For compatibility with OpenCL runtimes that also use static objects to
// hold their state, we call a harmless OpenCL function (clGetPlatformIDs
// with invalid parameters must result in CL_INVALID_VALUE) to ensure the
// runtimes have a chance to initialize their static objects first. Thanks
// to C++11 rules about normal program completion (cf [basic.start]), this
// ensures their static objects are destroyed last, i.e. after the
// singleton CLScheduler is destroyed.
//
// When OpenCL is not available, this call results in CL_OUT_OF_RESOURCES,
// which is equally harmless.
(void)clGetPlatformIDs(0, nullptr, nullptr);
return CLSymbols::get().clBuildProgram_ptr != nullptr;
}
} // namespace arm_compute
cl_int clEnqueueMarker(cl_command_queue command_queue, cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueMarker_ptr;
if (func != nullptr)
{
return func(command_queue, event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clWaitForEvents(cl_uint num_events, const cl_event *event_list)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clWaitForEvents_ptr;
if (func != nullptr)
{
return func(num_events, event_list);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueSVMMap(cl_command_queue command_queue,
cl_bool blocking_map,
cl_map_flags flags,
void *svm_ptr,
size_t size,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueSVMMap_ptr;
if (func != nullptr)
{
return func(command_queue, blocking_map, flags, svm_ptr, size, num_events_in_wait_list, event_wait_list, event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueSVMUnmap(cl_command_queue command_queue,
void *svm_ptr,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueSVMUnmap_ptr;
if (func != nullptr)
{
return func(command_queue, svm_ptr, num_events_in_wait_list, event_wait_list, event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
void *clSVMAlloc(cl_context context, cl_svm_mem_flags_arm flags, size_t size, cl_uint alignment)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clSVMAlloc_ptr;
if (func != nullptr)
{
return func(context, flags, size, alignment);
}
else
{
return nullptr;
}
}
void clSVMFree(cl_context context, void *svm_pointer)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clSVMFree_ptr;
if (func != nullptr)
{
func(context, svm_pointer);
}
}
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)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetContextInfo_ptr;
if (func != nullptr)
{
return func(context, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_command_queue clCreateCommandQueue(cl_context context,
cl_device_id device,
cl_command_queue_properties properties,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateCommandQueue_ptr;
if (func != nullptr)
{
return func(context, device, properties, errcode_ret);
}
else
{
return nullptr;
}
}
cl_command_queue clCreateCommandQueueWithProperties(cl_context context,
cl_device_id device,
const cl_queue_properties *properties,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateCommandQueueWithProperties_ptr;
if (func != nullptr)
{
return func(context, device, properties, errcode_ret);
}
else
{
return nullptr;
}
}
cl_context clCreateContext(const cl_context_properties *properties,
cl_uint num_devices,
const cl_device_id *devices,
void (*pfn_notify)(const char *, const void *, size_t, void *),
void *user_data,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateContext_ptr;
if (func != nullptr)
{
return func(properties, num_devices, devices, pfn_notify, user_data, errcode_ret);
}
else
{
return nullptr;
}
}
cl_context clCreateContextFromType(const cl_context_properties *properties,
cl_device_type device_type,
void (*pfn_notify)(const char *, const void *, size_t, void *),
void *user_data,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateContextFromType_ptr;
if (func != nullptr)
{
return func(properties, device_type, pfn_notify, user_data, errcode_ret);
}
else
{
return nullptr;
}
}
cl_int clBuildProgram(cl_program program,
cl_uint num_devices,
const cl_device_id *device_list,
const char *options,
void(CL_CALLBACK *pfn_notify)(cl_program program, void *user_data),
void *user_data)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clBuildProgram_ptr;
if (func != nullptr)
{
return func(program, num_devices, device_list, options, pfn_notify, user_data);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueNDRangeKernel(cl_command_queue command_queue,
cl_kernel kernel,
cl_uint work_dim,
const size_t *global_work_offset,
const size_t *global_work_size,
const size_t *local_work_size,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueNDRangeKernel_ptr;
if (func != nullptr)
{
return func(command_queue, kernel, work_dim, global_work_offset, global_work_size, local_work_size,
num_events_in_wait_list, event_wait_list, event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clSetKernelArg(cl_kernel kernel, cl_uint arg_index, size_t arg_size, const void *arg_value)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clSetKernelArg_ptr;
if (func != nullptr)
{
return func(kernel, arg_index, arg_size, arg_value);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clRetainMemObject(cl_mem memobj)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainMemObject_ptr;
if (func != nullptr)
{
return func(memobj);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clReleaseMemObject(cl_mem memobj)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseMemObject_ptr;
if (func != nullptr)
{
return func(memobj);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueUnmapMemObject(cl_command_queue command_queue,
cl_mem memobj,
void *mapped_ptr,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueUnmapMemObject_ptr;
if (func != nullptr)
{
return func(command_queue, memobj, mapped_ptr, num_events_in_wait_list, event_wait_list, event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clRetainCommandQueue(cl_command_queue command_queue)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainCommandQueue_ptr;
if (func != nullptr)
{
return func(command_queue);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clReleaseContext(cl_context context)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseContext_ptr;
if (func != nullptr)
{
return func(context);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clReleaseEvent(cl_event event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseEvent_ptr;
if (func != nullptr)
{
return func(event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueWriteBuffer(cl_command_queue command_queue,
cl_mem buffer,
cl_bool blocking_write,
size_t offset,
size_t size,
const void *ptr,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueWriteBuffer_ptr;
if (func != nullptr)
{
return func(command_queue, buffer, blocking_write, offset, size, ptr, num_events_in_wait_list, event_wait_list,
event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clEnqueueReadBuffer(cl_command_queue command_queue,
cl_mem buffer,
cl_bool blocking_read,
size_t offset,
size_t size,
void *ptr,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueReadBuffer_ptr;
if (func != nullptr)
{
return func(command_queue, buffer, blocking_read, offset, size, ptr, num_events_in_wait_list, event_wait_list,
event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetProgramBuildInfo(cl_program program,
cl_device_id device,
cl_program_build_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetProgramBuildInfo_ptr;
if (func != nullptr)
{
return func(program, device, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clRetainProgram(cl_program program)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainProgram_ptr;
if (func != nullptr)
{
return func(program);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
void *clEnqueueMapBuffer(cl_command_queue command_queue,
cl_mem buffer,
cl_bool blocking_map,
cl_map_flags map_flags,
size_t offset,
size_t size,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clEnqueueMapBuffer_ptr;
if (func != nullptr)
{
return func(command_queue, buffer, blocking_map, map_flags, offset, size, num_events_in_wait_list,
event_wait_list, event, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_int clReleaseCommandQueue(cl_command_queue command_queue)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseCommandQueue_ptr;
if (func != nullptr)
{
return func(command_queue);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_program clCreateProgramWithBinary(cl_context context,
cl_uint num_devices,
const cl_device_id *device_list,
const size_t *lengths,
const unsigned char **binaries,
cl_int *binary_status,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateProgramWithBinary_ptr;
if (func != nullptr)
{
return func(context, num_devices, device_list, lengths, binaries, binary_status, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_int clRetainContext(cl_context context)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainContext_ptr;
if (func != nullptr)
{
return func(context);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clReleaseProgram(cl_program program)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseProgram_ptr;
if (func != nullptr)
{
return func(program);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clFlush(cl_command_queue command_queue)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clFlush_ptr;
if (func != nullptr)
{
return func(command_queue);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clFinish(cl_command_queue command_queue)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clFinish_ptr;
if (func != nullptr)
{
return func(command_queue);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetProgramInfo(cl_program program,
cl_program_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetProgramInfo_ptr;
if (func != nullptr)
{
return func(program, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_kernel clCreateKernel(cl_program program, const char *kernel_name, cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateKernel_ptr;
if (func != nullptr)
{
return func(program, kernel_name, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_int clRetainKernel(cl_kernel kernel)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainKernel_ptr;
if (func != nullptr)
{
return func(kernel);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_mem clCreateBuffer(cl_context context, cl_mem_flags flags, size_t size, void *host_ptr, cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateBuffer_ptr;
if (func != nullptr)
{
return func(context, flags, size, host_ptr, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_program clCreateProgramWithSource(
cl_context context, cl_uint count, const char **strings, const size_t *lengths, cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateProgramWithSource_ptr;
if (func != nullptr)
{
return func(context, count, strings, lengths, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_int clReleaseKernel(cl_kernel kernel)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clReleaseKernel_ptr;
if (func != nullptr)
{
return func(kernel);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetDeviceIDs(cl_platform_id platform,
cl_device_type device_type,
cl_uint num_entries,
cl_device_id *devices,
cl_uint *num_devices)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetDeviceIDs_ptr;
if (func != nullptr)
{
return func(platform, device_type, num_entries, devices, num_devices);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetDeviceInfo(cl_device_id device,
cl_device_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetDeviceInfo_ptr;
if (func != nullptr)
{
return func(device, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetMemObjectInfo(
cl_mem memobj, cl_mem_info param_name, size_t param_value_size, void *param_value, size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetMemObjectInfo_ptr;
if (func != nullptr)
{
return func(memobj, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clRetainEvent(cl_event event)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clRetainEvent_ptr;
if (func != nullptr)
{
return func(event);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetPlatformInfo(cl_platform_id platform,
cl_platform_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetPlatformInfo_ptr;
if (func != nullptr)
{
return func(platform, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetPlatformIDs(cl_uint num_entries, cl_platform_id *platforms, cl_uint *num_platforms)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetPlatformIDs_ptr;
if (func != nullptr)
{
return func(num_entries, platforms, num_platforms);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetKernelWorkGroupInfo(cl_kernel kernel,
cl_device_id device,
cl_kernel_work_group_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetKernelWorkGroupInfo_ptr;
if (func != nullptr)
{
return func(kernel, device, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetCommandQueueInfo(cl_command_queue command_queue,
cl_command_queue_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetCommandQueueInfo_ptr;
if (func != nullptr)
{
return func(command_queue, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetKernelInfo(cl_kernel kernel,
cl_kernel_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetKernelInfo_ptr;
if (func != nullptr)
{
return func(kernel, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_int clGetEventProfilingInfo(cl_event event,
cl_profiling_info param_name,
size_t param_value_size,
void *param_value,
size_t *param_value_size_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clGetEventProfilingInfo_ptr;
if (func != nullptr)
{
return func(event, param_name, param_value_size, param_value, param_value_size_ret);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
cl_mem clCreateImage(cl_context context,
cl_mem_flags flags,
const cl_image_format *image_format,
const cl_image_desc *image_desc,
void *host_ptr,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clCreateImage_ptr;
if (func != nullptr)
{
return func(context, flags, image_format, image_desc, host_ptr, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}
cl_int
clSetKernelExecInfo(cl_kernel kernel, cl_kernel_exec_info param_name, size_t param_value_size, const void *param_value)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clSetKernelExecInfo_ptr;
if (func != nullptr)
{
return func(kernel, param_name, param_value_size, param_value);
}
else
{
return CL_OUT_OF_RESOURCES;
}
}
void *clGetExtensionFunctionAddressForPlatform(cl_platform_id platform, const char *funcname)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clGetExtensionFunctionAddressForPlatform_ptr;
if (func != nullptr)
{
return func(platform, funcname);
}
return nullptr;
}
cl_command_buffer_khr clCreateCommandBufferKHR(cl_uint num_queues,
const cl_command_queue *queues,
const cl_command_buffer_properties_khr *properties,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clCreateCommandBufferKHR_ptr;
if (func != nullptr)
{
return func(num_queues, queues, properties, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_INVALID_OPERATION;
}
return {};
}
}
cl_int clFinalizeCommandBufferKHR(cl_command_buffer_khr command_buffer)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clFinalizeCommandBufferKHR_ptr;
if (func != nullptr)
{
return func(command_buffer);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_int clRetainCommandBufferKHR(cl_command_buffer_khr command_buffer)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clRetainCommandBufferKHR_ptr;
if (func != nullptr)
{
return func(command_buffer);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_int clReleaseCommandBufferKHR(cl_command_buffer_khr command_buffer)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clReleaseCommandBufferKHR_ptr;
if (func != nullptr)
{
return func(command_buffer);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_int clEnqueueCommandBufferKHR(cl_uint num_queues,
cl_command_queue *queues,
cl_command_buffer_khr command_buffer,
cl_uint num_events_in_wait_list,
const cl_event *event_wait_list,
cl_event *event)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clEnqueueCommandBufferKHR_ptr;
if (func != nullptr)
{
return func(num_queues, queues, command_buffer, num_events_in_wait_list, event_wait_list, event);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_int clCommandNDRangeKernelKHR(cl_command_buffer_khr command_buffer,
cl_command_queue command_queue,
const cl_ndrange_kernel_command_properties_khr *properties,
cl_kernel kernel,
cl_uint work_dim,
const size_t *global_work_offset,
const size_t *global_work_size,
const size_t *local_work_size,
cl_uint num_sync_points_in_wait_list,
const cl_sync_point_khr *sync_point_wait_list,
cl_sync_point_khr *sync_point,
cl_mutable_command_khr *mutable_handle)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clCommandNDRangeKernelKHR_ptr;
if (func != nullptr)
{
return func(command_buffer, command_queue, properties, kernel, work_dim, global_work_offset, global_work_size,
local_work_size, num_sync_points_in_wait_list, sync_point_wait_list, sync_point, mutable_handle);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_int clUpdateMutableCommandsKHR(cl_command_buffer_khr command_buffer,
const cl_mutable_base_config_khr *mutable_config)
{
arm_compute::CLSymbols::get().load_default();
const auto func = arm_compute::CLSymbols::get().clUpdateMutableCommandsKHR_ptr;
if (func != nullptr)
{
return func(command_buffer, mutable_config);
}
else
{
return CL_INVALID_OPERATION;
}
}
cl_mem clImportMemoryARM(cl_context context,
cl_mem_flags flags,
const cl_import_properties_arm *properties,
void *memory,
size_t size,
cl_int *errcode_ret)
{
arm_compute::CLSymbols::get().load_default();
auto func = arm_compute::CLSymbols::get().clImportMemoryARM_ptr;
if (func != nullptr)
{
return func(context, flags, properties, memory, size, errcode_ret);
}
else
{
if (errcode_ret != nullptr)
{
*errcode_ret = CL_OUT_OF_RESOURCES;
}
return nullptr;
}
}