src/backends/reference/test/RefTensorHandleTests.cpp - platform/external/armnn - Git at Google

 //
 // Copyright © 2017 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //
 #include <reference/RefTensorHandle.hpp>
 #include <reference/RefTensorHandleFactory.hpp>

 #include <boost/test/unit_test.hpp>

 BOOST_AUTO_TEST_SUITE(RefTensorHandleTests)
 using namespace armnn;

 BOOST_AUTO_TEST_CASE(AcquireAndRelease)
 {
     std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();

     TensorInfo info({ 1, 1, 1, 1 }, DataType::Float32);
     RefTensorHandle handle(info, memoryManager);

     handle.Manage();
     handle.Allocate();

     memoryManager->Acquire();
     {
         float* buffer = reinterpret_cast<float*>(handle.Map());

         BOOST_CHECK(buffer != nullptr); // Yields a valid pointer

         buffer[0] = 2.5f;

         BOOST_CHECK(buffer[0] == 2.5f); // Memory is writable and readable

     }
     memoryManager->Release();

     memoryManager->Acquire();
     {
         float* buffer = reinterpret_cast<float*>(handle.Map());

         BOOST_CHECK(buffer != nullptr); // Yields a valid pointer

         buffer[0] = 3.5f;

         BOOST_CHECK(buffer[0] == 3.5f); // Memory is writable and readable
     }
     memoryManager->Release();
 }

 BOOST_AUTO_TEST_CASE(RefTensorHandleFactoryMemoryManaged)
 {
     std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
     RefTensorHandleFactory handleFactory(memoryManager);
     TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);

     // create TensorHandle with memory managed
     auto handle = handleFactory.CreateTensorHandle(info, true);
     handle->Manage();
     handle->Allocate();

     memoryManager->Acquire();
     {
         float* buffer = reinterpret_cast<float*>(handle->Map());
         BOOST_CHECK(buffer != nullptr); // Yields a valid pointer
         buffer[0] = 1.5f;
         buffer[1] = 2.5f;
         BOOST_CHECK(buffer[0] == 1.5f); // Memory is writable and readable
         BOOST_CHECK(buffer[1] == 2.5f); // Memory is writable and readable
     }
     memoryManager->Release();

     memoryManager->Acquire();
     {
         float* buffer = reinterpret_cast<float*>(handle->Map());
         BOOST_CHECK(buffer != nullptr); // Yields a valid pointer
         buffer[0] = 3.5f;
         buffer[1] = 4.5f;
         BOOST_CHECK(buffer[0] == 3.5f); // Memory is writable and readable
         BOOST_CHECK(buffer[1] == 4.5f); // Memory is writable and readable
     }
     memoryManager->Release();

     float testPtr[2] = { 2.5f, 5.5f };
     // Cannot import as import is disabled
     BOOST_CHECK(!handle->Import(static_cast<void*>(testPtr), MemorySource::Malloc));
 }

 BOOST_AUTO_TEST_CASE(RefTensorHandleFactoryImport)
 {
     std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
     RefTensorHandleFactory handleFactory(memoryManager);
     TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);

     // create TensorHandle without memory managed
     auto handle = handleFactory.CreateTensorHandle(info, false);
     handle->Manage();
     handle->Allocate();
     memoryManager->Acquire();

     // No buffer allocated when import is enabled
     BOOST_CHECK_THROW(handle->Map(), armnn::NullPointerException);

     float testPtr[2] = { 2.5f, 5.5f };
     // Correctly import
     BOOST_CHECK(handle->Import(static_cast<void*>(testPtr), MemorySource::Malloc));
     float* buffer = reinterpret_cast<float*>(handle->Map());
     BOOST_CHECK(buffer != nullptr); // Yields a valid pointer after import
     BOOST_CHECK(buffer == testPtr); // buffer is pointing to testPtr
     // Memory is writable and readable with correct value
     BOOST_CHECK(buffer[0] == 2.5f);
     BOOST_CHECK(buffer[1] == 5.5f);
     buffer[0] = 3.5f;
     buffer[1] = 10.0f;
     BOOST_CHECK(buffer[0] == 3.5f);
     BOOST_CHECK(buffer[1] == 10.0f);
     memoryManager->Release();
 }

 BOOST_AUTO_TEST_CASE(RefTensorHandleImport)
 {
     TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);
     RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

     handle.Manage();
     handle.Allocate();

     // No buffer allocated when import is enabled
     BOOST_CHECK_THROW(handle.Map(), armnn::NullPointerException);

     float testPtr[2] = { 2.5f, 5.5f };
     // Correctly import
     BOOST_CHECK(handle.Import(static_cast<void*>(testPtr), MemorySource::Malloc));
     float* buffer = reinterpret_cast<float*>(handle.Map());
     BOOST_CHECK(buffer != nullptr); // Yields a valid pointer after import
     BOOST_CHECK(buffer == testPtr); // buffer is pointing to testPtr
     // Memory is writable and readable with correct value
     BOOST_CHECK(buffer[0] == 2.5f);
     BOOST_CHECK(buffer[1] == 5.5f);
     buffer[0] = 3.5f;
     buffer[1] = 10.0f;
     BOOST_CHECK(buffer[0] == 3.5f);
     BOOST_CHECK(buffer[1] == 10.0f);
 }

 BOOST_AUTO_TEST_CASE(RefTensorHandleGetCapabilities)
 {
     std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
     RefTensorHandleFactory handleFactory(memoryManager);

     // Builds up the structure of the network.
     INetworkPtr net(INetwork::Create());
     IConnectableLayer* input = net->AddInputLayer(0);
     IConnectableLayer* output = net->AddOutputLayer(0);
     input->GetOutputSlot(0).Connect(output->GetInputSlot(0));

     std::vector<Capability> capabilities = handleFactory.GetCapabilities(input,
                                                                          output,
                                                                          CapabilityClass::PaddingRequired);
     BOOST_CHECK(capabilities.empty());
 }

 #if !defined(__ANDROID__)
 // Only run these tests on non Android platforms
 BOOST_AUTO_TEST_CASE(CheckSourceType)
 {
     TensorInfo info({1}, DataType::Float32);
     RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

     int* testPtr = new int(4);

     // Not supported
     BOOST_CHECK(!handle.Import(static_cast<void *>(testPtr), MemorySource::DmaBuf));

     // Not supported
     BOOST_CHECK(!handle.Import(static_cast<void *>(testPtr), MemorySource::DmaBufProtected));

     // Supported
     BOOST_CHECK(handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc));

     delete testPtr;
 }

 BOOST_AUTO_TEST_CASE(ReusePointer)
 {
     TensorInfo info({1}, DataType::Float32);
     RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

     int* testPtr = new int(4);

     handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc);

     // Reusing previously Imported pointer
     BOOST_CHECK(handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc));

     delete testPtr;
 }

 BOOST_AUTO_TEST_CASE(MisalignedPointer)
 {
     TensorInfo info({2}, DataType::Float32);
     RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

     // Allocate a 2 int array
     int* testPtr = new int[2];

     // Increment pointer by 1 byte
     void* misalignedPtr = static_cast<void*>(reinterpret_cast<char*>(testPtr) + 1);

     BOOST_CHECK(!handle.Import(misalignedPtr, MemorySource::Malloc));

     delete[] testPtr;
 }

 #endif

 BOOST_AUTO_TEST_SUITE_END()
	//
	// Copyright © 2017 Arm Ltd. All rights reserved.
	// SPDX-License-Identifier: MIT
	//
	#include <reference/RefTensorHandle.hpp>
	#include <reference/RefTensorHandleFactory.hpp>

	#include <boost/test/unit_test.hpp>

	BOOST_AUTO_TEST_SUITE(RefTensorHandleTests)
	using namespace armnn;

	BOOST_AUTO_TEST_CASE(AcquireAndRelease)
	{
	std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();

	TensorInfo info({ 1, 1, 1, 1 }, DataType::Float32);
	RefTensorHandle handle(info, memoryManager);

	handle.Manage();
	handle.Allocate();

	memoryManager->Acquire();
	{
	float* buffer = reinterpret_cast<float*>(handle.Map());

	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer

	buffer[0] = 2.5f;

	BOOST_CHECK(buffer[0] == 2.5f); // Memory is writable and readable

	}
	memoryManager->Release();

	memoryManager->Acquire();
	{
	float* buffer = reinterpret_cast<float*>(handle.Map());

	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer

	buffer[0] = 3.5f;

	BOOST_CHECK(buffer[0] == 3.5f); // Memory is writable and readable
	}
	memoryManager->Release();
	}

	BOOST_AUTO_TEST_CASE(RefTensorHandleFactoryMemoryManaged)
	{
	std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
	RefTensorHandleFactory handleFactory(memoryManager);
	TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);

	// create TensorHandle with memory managed
	auto handle = handleFactory.CreateTensorHandle(info, true);
	handle->Manage();
	handle->Allocate();

	memoryManager->Acquire();
	{
	float* buffer = reinterpret_cast<float*>(handle->Map());
	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer
	buffer[0] = 1.5f;
	buffer[1] = 2.5f;
	BOOST_CHECK(buffer[0] == 1.5f); // Memory is writable and readable
	BOOST_CHECK(buffer[1] == 2.5f); // Memory is writable and readable
	}
	memoryManager->Release();

	memoryManager->Acquire();
	{
	float* buffer = reinterpret_cast<float*>(handle->Map());
	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer
	buffer[0] = 3.5f;
	buffer[1] = 4.5f;
	BOOST_CHECK(buffer[0] == 3.5f); // Memory is writable and readable
	BOOST_CHECK(buffer[1] == 4.5f); // Memory is writable and readable
	}
	memoryManager->Release();

	float testPtr[2] = { 2.5f, 5.5f };
	// Cannot import as import is disabled
	BOOST_CHECK(!handle->Import(static_cast<void*>(testPtr), MemorySource::Malloc));
	}

	BOOST_AUTO_TEST_CASE(RefTensorHandleFactoryImport)
	{
	std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
	RefTensorHandleFactory handleFactory(memoryManager);
	TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);

	// create TensorHandle without memory managed
	auto handle = handleFactory.CreateTensorHandle(info, false);
	handle->Manage();
	handle->Allocate();
	memoryManager->Acquire();

	// No buffer allocated when import is enabled
	BOOST_CHECK_THROW(handle->Map(), armnn::NullPointerException);

	float testPtr[2] = { 2.5f, 5.5f };
	// Correctly import
	BOOST_CHECK(handle->Import(static_cast<void*>(testPtr), MemorySource::Malloc));
	float* buffer = reinterpret_cast<float*>(handle->Map());
	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer after import
	BOOST_CHECK(buffer == testPtr); // buffer is pointing to testPtr
	// Memory is writable and readable with correct value
	BOOST_CHECK(buffer[0] == 2.5f);
	BOOST_CHECK(buffer[1] == 5.5f);
	buffer[0] = 3.5f;
	buffer[1] = 10.0f;
	BOOST_CHECK(buffer[0] == 3.5f);
	BOOST_CHECK(buffer[1] == 10.0f);
	memoryManager->Release();
	}

	BOOST_AUTO_TEST_CASE(RefTensorHandleImport)
	{
	TensorInfo info({ 1, 1, 2, 1 }, DataType::Float32);
	RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

	handle.Manage();
	handle.Allocate();

	// No buffer allocated when import is enabled
	BOOST_CHECK_THROW(handle.Map(), armnn::NullPointerException);

	float testPtr[2] = { 2.5f, 5.5f };
	// Correctly import
	BOOST_CHECK(handle.Import(static_cast<void*>(testPtr), MemorySource::Malloc));
	float* buffer = reinterpret_cast<float*>(handle.Map());
	BOOST_CHECK(buffer != nullptr); // Yields a valid pointer after import
	BOOST_CHECK(buffer == testPtr); // buffer is pointing to testPtr
	// Memory is writable and readable with correct value
	BOOST_CHECK(buffer[0] == 2.5f);
	BOOST_CHECK(buffer[1] == 5.5f);
	buffer[0] = 3.5f;
	buffer[1] = 10.0f;
	BOOST_CHECK(buffer[0] == 3.5f);
	BOOST_CHECK(buffer[1] == 10.0f);
	}

	BOOST_AUTO_TEST_CASE(RefTensorHandleGetCapabilities)
	{
	std::shared_ptr<RefMemoryManager> memoryManager = std::make_shared<RefMemoryManager>();
	RefTensorHandleFactory handleFactory(memoryManager);

	// Builds up the structure of the network.
	INetworkPtr net(INetwork::Create());
	IConnectableLayer* input = net->AddInputLayer(0);
	IConnectableLayer* output = net->AddOutputLayer(0);
	input->GetOutputSlot(0).Connect(output->GetInputSlot(0));

	std::vector<Capability> capabilities = handleFactory.GetCapabilities(input,
	output,
	CapabilityClass::PaddingRequired);
	BOOST_CHECK(capabilities.empty());
	}

	#if !defined(__ANDROID__)
	// Only run these tests on non Android platforms
	BOOST_AUTO_TEST_CASE(CheckSourceType)
	{
	TensorInfo info({1}, DataType::Float32);
	RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

	int* testPtr = new int(4);

	// Not supported
	BOOST_CHECK(!handle.Import(static_cast<void *>(testPtr), MemorySource::DmaBuf));

	// Not supported
	BOOST_CHECK(!handle.Import(static_cast<void *>(testPtr), MemorySource::DmaBufProtected));

	// Supported
	BOOST_CHECK(handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc));

	delete testPtr;
	}

	BOOST_AUTO_TEST_CASE(ReusePointer)
	{
	TensorInfo info({1}, DataType::Float32);
	RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

	int* testPtr = new int(4);

	handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc);

	// Reusing previously Imported pointer
	BOOST_CHECK(handle.Import(static_cast<void *>(testPtr), MemorySource::Malloc));

	delete testPtr;
	}

	BOOST_AUTO_TEST_CASE(MisalignedPointer)
	{
	TensorInfo info({2}, DataType::Float32);
	RefTensorHandle handle(info, static_cast<unsigned int>(MemorySource::Malloc));

	// Allocate a 2 int array
	int* testPtr = new int[2];

	// Increment pointer by 1 byte
	void* misalignedPtr = static_cast<void>(reinterpret_cast<char>(testPtr) + 1);

	BOOST_CHECK(!handle.Import(misalignedPtr, MemorySource::Malloc));

	delete[] testPtr;
	}

	#endif

	BOOST_AUTO_TEST_SUITE_END()