src/backends/cl/ClContextControl.cpp - platform/external/armnn - Git at Google

 //
 // Copyright © 2017 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #include "ClContextControl.hpp"

 #include "armnn/Exceptions.hpp"

 #ifdef ARMCOMPUTECL_ENABLED
 #include <arm_compute/core/CL/CLKernelLibrary.h>
 #include <arm_compute/runtime/CL/CLScheduler.h>
 #endif

 #include <boost/assert.hpp>
 #include <boost/format.hpp>
 #include <boost/log/trivial.hpp>
 #include <boost/polymorphic_cast.hpp>
 #include <boost/core/ignore_unused.hpp>

 #include "LeakChecking.hpp"

 namespace cl
 {
 class Context;
 class CommandQueue;
 class Device;
 }

 namespace armnn
 {

 ClContextControl::ClContextControl(IGpuAccTunedParameters* clTunedParameters,
                                    bool profilingEnabled)
     : m_clTunedParameters(boost::polymorphic_downcast<ClTunedParameters*>(clTunedParameters))
     , m_ProfilingEnabled(profilingEnabled)
 {
     // Ignore m_ProfilingEnabled if unused to avoid compiling problems when ArmCompute is disabled.
     boost::ignore_unused(m_ProfilingEnabled);

 #ifdef ARMCOMPUTECL_ENABLED
     try
     {
         std::vector<cl::Platform> platforms;
         cl::Platform::get(&platforms);

         // Selects default platform for the first element.
         cl::Platform::setDefault(platforms[0]);

         std::vector<cl::Device> devices;
         platforms[0].getDevices(CL_DEVICE_TYPE_GPU, &devices);

         // Selects default device for the first element.
         cl::Device::setDefault(devices[0]);
     }
     catch (const cl::Error& clError)
     {
         throw ClRuntimeUnavailableException(boost::str(boost::format(
             "Could not initialize the CL runtime. Error description: %1%. CL error code: %2%"
         ) % clError.what() % clError.err()));
     }

     // Removes the use of global CL context.
     cl::Context::setDefault(cl::Context{});
     BOOST_ASSERT(cl::Context::getDefault()() == NULL);

     // Removes the use of global CL command queue.
     cl::CommandQueue::setDefault(cl::CommandQueue{});
     BOOST_ASSERT(cl::CommandQueue::getDefault()() == NULL);

     // Always load the OpenCL runtime.
     LoadOpenClRuntime();
 #endif
 }

 ClContextControl::~ClContextControl()
 {
 #ifdef ARMCOMPUTECL_ENABLED
     // Load the OpencCL runtime without the tuned parameters to free the memory for them.
     try
     {
         UnloadOpenClRuntime();
     }
     catch (const cl::Error& clError)
     {
         // This should not happen, it is ignored if it does.

         // Coverity fix: BOOST_LOG_TRIVIAL (previously used here to report the error) may throw an
         // exception of type std::length_error.
         // Using stderr instead in this context as there is no point in nesting try-catch blocks here.
         std::cerr << "A CL error occurred unloading the runtime tuner parameters: "
                   << clError.what() << ". CL error code is: " << clError.err() << std::endl;
     }
 #endif
 }

 void ClContextControl::LoadOpenClRuntime()
 {
     DoLoadOpenClRuntime(true);
 }

 void ClContextControl::UnloadOpenClRuntime()
 {
     DoLoadOpenClRuntime(false);
 }

 void ClContextControl::DoLoadOpenClRuntime(bool useTunedParameters)
 {
 #ifdef ARMCOMPUTECL_ENABLED
     cl::Device device = cl::Device::getDefault();
     cl::Context context;
     cl::CommandQueue commandQueue;

     if (arm_compute::CLScheduler::get().context()() != NULL)
     {
         // Wait for all queued CL requests to finish before reinitialising it.
         arm_compute::CLScheduler::get().sync();
     }

     try
     {
         arm_compute::CLKernelLibrary::get().clear_programs_cache();
         // Initialise the scheduler with a dummy context to release the LLVM data (which only happens when there are no
         // context references); it is initialised again, with a proper context, later.
         arm_compute::CLScheduler::get().init(context, commandQueue, device);
         arm_compute::CLKernelLibrary::get().init(".", context, device);

         {
             //
             // Here we replace the context with a new one in which
             // the memory leak checks show it as an extra allocation but
             // because of the scope of the leak checks, it doesn't count
             // the disposal of the original object. On the other hand it
             // does count the creation of this context which it flags
             // as a memory leak. By adding the following line we prevent
             // this to happen.
             //
             ARMNN_DISABLE_LEAK_CHECKING_IN_SCOPE();
             context = cl::Context(device);
         }

         // NOTE: In this specific case profiling has to be enabled on the command queue
         // in order for the CLTuner to work.
         bool profilingNeededForClTuner = useTunedParameters && m_clTunedParameters &&
             m_clTunedParameters->m_Mode == IGpuAccTunedParameters::Mode::UpdateTunedParameters;

         if (m_ProfilingEnabled || profilingNeededForClTuner)
         {
             // Create a new queue with profiling enabled.
             commandQueue = cl::CommandQueue(context, device, CL_QUEUE_PROFILING_ENABLE);
         }
         else
         {
             // Use default queue.
             commandQueue = cl::CommandQueue(context, device);
         }
     }
     catch (const cl::Error& clError)
     {
         throw ClRuntimeUnavailableException(boost::str(boost::format(
             "Could not initialize the CL runtime. Error description: %1%. CL error code: %2%"
         ) % clError.what() % clError.err()));
     }

     // Note the first argument (path to cl source code) will be ignored as they should be embedded in the armcompute.
     arm_compute::CLKernelLibrary::get().init(".", context, device);

     arm_compute::ICLTuner* tuner = nullptr;
     if (useTunedParameters && m_clTunedParameters)
     {
         tuner = &m_clTunedParameters->m_Tuner;
     }
     arm_compute::CLScheduler::get().init(context, commandQueue, device, tuner);
 #endif
 }

 void ClContextControl::ClearClCache()
 {
     DoLoadOpenClRuntime(true);
 }

 armnn::IGpuAccTunedParameters* IGpuAccTunedParameters::CreateRaw(armnn::IGpuAccTunedParameters::Mode mode)
 {
     return new ClTunedParameters(mode);
 }

 armnn::IGpuAccTunedParametersPtr IGpuAccTunedParameters::Create(armnn::IGpuAccTunedParameters::Mode mode)
 {
     return IGpuAccTunedParametersPtr(CreateRaw(mode), &IGpuAccTunedParameters::Destroy);
 }

 void IGpuAccTunedParameters::Destroy(IGpuAccTunedParameters* params)
 {
     delete params;
 }

 ClTunedParameters::ClTunedParameters(armnn::IGpuAccTunedParameters::Mode mode)
     : m_Mode(mode)
 #ifdef ARMCOMPUTECL_ENABLED
     , m_Tuner(mode == ClTunedParameters::Mode::UpdateTunedParameters)
 #endif
 {
 }

 void ClTunedParameters::Load(const char* filename)
 {
 #ifdef ARMCOMPUTECL_ENABLED
     try
     {
         m_Tuner.load_from_file(filename);
     }
     catch (const std::exception& e)
     {
         throw armnn::Exception(std::string("Failed to load tuned parameters file '") + filename + "': " +
             e.what());
     }
 #endif
 }

 void ClTunedParameters::Save(const char* filename) const
 {
 #ifdef ARMCOMPUTECL_ENABLED
     try
     {
         m_Tuner.save_to_file(filename);
     }
     catch (const std::exception& e)
     {
         throw armnn::Exception(std::string("Failed to save tuned parameters file to '") + filename + "': " +
             e.what());
     }
 #endif
 }

 } // namespace armnn
	//
	// Copyright © 2017 Arm Ltd. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#include "ClContextControl.hpp"

	#include "armnn/Exceptions.hpp"

	#ifdef ARMCOMPUTECL_ENABLED
	#include <arm_compute/core/CL/CLKernelLibrary.h>
	#include <arm_compute/runtime/CL/CLScheduler.h>
	#endif

	#include <boost/assert.hpp>
	#include <boost/format.hpp>
	#include <boost/log/trivial.hpp>
	#include <boost/polymorphic_cast.hpp>
	#include <boost/core/ignore_unused.hpp>

	#include "LeakChecking.hpp"

	namespace cl
	{
	class Context;
	class CommandQueue;
	class Device;
	}

	namespace armnn
	{

	ClContextControl::ClContextControl(IGpuAccTunedParameters* clTunedParameters,
	bool profilingEnabled)
	: m_clTunedParameters(boost::polymorphic_downcast<ClTunedParameters*>(clTunedParameters))
	, m_ProfilingEnabled(profilingEnabled)
	{
	// Ignore m_ProfilingEnabled if unused to avoid compiling problems when ArmCompute is disabled.
	boost::ignore_unused(m_ProfilingEnabled);

	#ifdef ARMCOMPUTECL_ENABLED
	try
	{
	std::vector<cl::Platform> platforms;
	cl::Platform::get(&platforms);

	// Selects default platform for the first element.
	cl::Platform::setDefault(platforms[0]);

	std::vector<cl::Device> devices;
	platforms[0].getDevices(CL_DEVICE_TYPE_GPU, &devices);

	// Selects default device for the first element.
	cl::Device::setDefault(devices[0]);
	}
	catch (const cl::Error& clError)
	{
	throw ClRuntimeUnavailableException(boost::str(boost::format(
	"Could not initialize the CL runtime. Error description: %1%. CL error code: %2%"
	) % clError.what() % clError.err()));
	}

	// Removes the use of global CL context.
	cl::Context::setDefault(cl::Context{});
	BOOST_ASSERT(cl::Context::getDefault()() == NULL);

	// Removes the use of global CL command queue.
	cl::CommandQueue::setDefault(cl::CommandQueue{});
	BOOST_ASSERT(cl::CommandQueue::getDefault()() == NULL);

	// Always load the OpenCL runtime.
	LoadOpenClRuntime();
	#endif
	}

	ClContextControl::~ClContextControl()
	{
	#ifdef ARMCOMPUTECL_ENABLED
	// Load the OpencCL runtime without the tuned parameters to free the memory for them.
	try
	{
	UnloadOpenClRuntime();
	}
	catch (const cl::Error& clError)
	{
	// This should not happen, it is ignored if it does.

	// Coverity fix: BOOST_LOG_TRIVIAL (previously used here to report the error) may throw an
	// exception of type std::length_error.
	// Using stderr instead in this context as there is no point in nesting try-catch blocks here.
	std::cerr << "A CL error occurred unloading the runtime tuner parameters: "
	<< clError.what() << ". CL error code is: " << clError.err() << std::endl;
	}
	#endif
	}

	void ClContextControl::LoadOpenClRuntime()
	{
	DoLoadOpenClRuntime(true);
	}

	void ClContextControl::UnloadOpenClRuntime()
	{
	DoLoadOpenClRuntime(false);
	}

	void ClContextControl::DoLoadOpenClRuntime(bool useTunedParameters)
	{
	#ifdef ARMCOMPUTECL_ENABLED
	cl::Device device = cl::Device::getDefault();
	cl::Context context;
	cl::CommandQueue commandQueue;

	if (arm_compute::CLScheduler::get().context()() != NULL)
	{
	// Wait for all queued CL requests to finish before reinitialising it.
	arm_compute::CLScheduler::get().sync();
	}

	try
	{
	arm_compute::CLKernelLibrary::get().clear_programs_cache();
	// Initialise the scheduler with a dummy context to release the LLVM data (which only happens when there are no
	// context references); it is initialised again, with a proper context, later.
	arm_compute::CLScheduler::get().init(context, commandQueue, device);
	arm_compute::CLKernelLibrary::get().init(".", context, device);

	{
	//
	// Here we replace the context with a new one in which
	// the memory leak checks show it as an extra allocation but
	// because of the scope of the leak checks, it doesn't count
	// the disposal of the original object. On the other hand it
	// does count the creation of this context which it flags
	// as a memory leak. By adding the following line we prevent
	// this to happen.
	//
	ARMNN_DISABLE_LEAK_CHECKING_IN_SCOPE();
	context = cl::Context(device);
	}

	// NOTE: In this specific case profiling has to be enabled on the command queue
	// in order for the CLTuner to work.
	bool profilingNeededForClTuner = useTunedParameters && m_clTunedParameters &&
	m_clTunedParameters->m_Mode == IGpuAccTunedParameters::Mode::UpdateTunedParameters;

	if (m_ProfilingEnabled \|\| profilingNeededForClTuner)
	{
	// Create a new queue with profiling enabled.
	commandQueue = cl::CommandQueue(context, device, CL_QUEUE_PROFILING_ENABLE);
	}
	else
	{
	// Use default queue.
	commandQueue = cl::CommandQueue(context, device);
	}
	}
	catch (const cl::Error& clError)
	{
	throw ClRuntimeUnavailableException(boost::str(boost::format(
	"Could not initialize the CL runtime. Error description: %1%. CL error code: %2%"
	) % clError.what() % clError.err()));
	}

	// Note the first argument (path to cl source code) will be ignored as they should be embedded in the armcompute.
	arm_compute::CLKernelLibrary::get().init(".", context, device);

	arm_compute::ICLTuner* tuner = nullptr;
	if (useTunedParameters && m_clTunedParameters)
	{
	tuner = &m_clTunedParameters->m_Tuner;
	}
	arm_compute::CLScheduler::get().init(context, commandQueue, device, tuner);
	#endif
	}

	void ClContextControl::ClearClCache()
	{
	DoLoadOpenClRuntime(true);
	}

	armnn::IGpuAccTunedParameters* IGpuAccTunedParameters::CreateRaw(armnn::IGpuAccTunedParameters::Mode mode)
	{
	return new ClTunedParameters(mode);
	}

	armnn::IGpuAccTunedParametersPtr IGpuAccTunedParameters::Create(armnn::IGpuAccTunedParameters::Mode mode)
	{
	return IGpuAccTunedParametersPtr(CreateRaw(mode), &IGpuAccTunedParameters::Destroy);
	}

	void IGpuAccTunedParameters::Destroy(IGpuAccTunedParameters* params)
	{
	delete params;
	}

	ClTunedParameters::ClTunedParameters(armnn::IGpuAccTunedParameters::Mode mode)
	: m_Mode(mode)
	#ifdef ARMCOMPUTECL_ENABLED
	, m_Tuner(mode == ClTunedParameters::Mode::UpdateTunedParameters)
	#endif
	{
	}

	void ClTunedParameters::Load(const char* filename)
	{
	#ifdef ARMCOMPUTECL_ENABLED
	try
	{
	m_Tuner.load_from_file(filename);
	}
	catch (const std::exception& e)
	{
	throw armnn::Exception(std::string("Failed to load tuned parameters file '") + filename + "': " +
	e.what());
	}
	#endif
	}

	void ClTunedParameters::Save(const char* filename) const
	{
	#ifdef ARMCOMPUTECL_ENABLED
	try
	{
	m_Tuner.save_to_file(filename);
	}
	catch (const std::exception& e)
	{
	throw armnn::Exception(std::string("Failed to save tuned parameters file to '") + filename + "': " +
	e.what());
	}
	#endif
	}

	} // namespace armnn