test/Dilation.hpp - platform/external/android-nn-driver - Git at Google

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

 #pragma once

 #include "DriverTestHelpers.hpp"

 #include <armnn/LayerVisitorBase.hpp>
 #include <armnn/utility/IgnoreUnused.hpp>

 #include <boost/test/unit_test.hpp>

 #include <numeric>

 BOOST_AUTO_TEST_SUITE(DilationTests)

 using namespace armnn;
 using namespace boost;
 using namespace driverTestHelpers;

 struct DilationTestOptions
 {
     DilationTestOptions() :
         m_IsDepthwiseConvolution{false},
         m_IsPaddingExplicit{false},
         m_HasDilation{false}
     {}

     ~DilationTestOptions() = default;

     bool m_IsDepthwiseConvolution;
     bool m_IsPaddingExplicit;
     bool m_HasDilation;
 };

 class DilationTestVisitor : public LayerVisitorBase<VisitorThrowingPolicy>
 {
 public:
     DilationTestVisitor() :
         DilationTestVisitor(1u, 1u)
     {}

     DilationTestVisitor(uint32_t expectedDilationX, uint32_t expectedDilationY) :
         m_ExpectedDilationX{expectedDilationX},
         m_ExpectedDilationY{expectedDilationY}
     {}

     void VisitConvolution2dLayer(const IConnectableLayer *layer,
                                  const Convolution2dDescriptor& descriptor,
                                  const ConstTensor& weights,
                                  const Optional<ConstTensor>& biases,
                                  const char *name = nullptr) override
     {
         IgnoreUnused(layer);
         IgnoreUnused(weights);
         IgnoreUnused(biases);
         IgnoreUnused(name);

         CheckDilationParams(descriptor);
     }

     void VisitDepthwiseConvolution2dLayer(const IConnectableLayer *layer,
                                           const DepthwiseConvolution2dDescriptor& descriptor,
                                           const ConstTensor& weights,
                                           const Optional<ConstTensor>& biases,
                                           const char *name = nullptr) override
     {
         IgnoreUnused(layer);
         IgnoreUnused(weights);
         IgnoreUnused(biases);
         IgnoreUnused(name);

         CheckDilationParams(descriptor);
     }

 private:
     uint32_t m_ExpectedDilationX;
     uint32_t m_ExpectedDilationY;

     template<typename ConvolutionDescriptor>
     void CheckDilationParams(const ConvolutionDescriptor& descriptor)
     {
         BOOST_CHECK_EQUAL(descriptor.m_DilationX, m_ExpectedDilationX);
         BOOST_CHECK_EQUAL(descriptor.m_DilationY, m_ExpectedDilationY);
     }
 };

 template<typename HalPolicy>
 void DilationTestImpl(const DilationTestOptions& options)
 {
     using HalModel         = typename HalPolicy::Model;
     using HalOperationType = typename HalPolicy::OperationType;

     const armnn::Compute backend = armnn::Compute::CpuRef;
     auto driver = std::make_unique<ArmnnDriver>(DriverOptions(backend, false));
     HalModel model = {};

     // add operands
     std::vector<float> weightData(9, 1.0f);
     std::vector<float> biasData(1, 0.0f );

     // input
     AddInputOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 3, 3, 1});

     // weights & biases
     AddTensorOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 3, 3, 1}, weightData.data());
     AddTensorOperand<HalPolicy>(model, hidl_vec<uint32_t>{1}, biasData.data());

     uint32_t numInputs = 3u;
     // padding
     if (options.m_IsPaddingExplicit)
     {
         AddIntOperand<HalPolicy>(model, 1);
         AddIntOperand<HalPolicy>(model, 1);
         AddIntOperand<HalPolicy>(model, 1);
         AddIntOperand<HalPolicy>(model, 1);
         numInputs += 4;
     }
     else
     {
         AddIntOperand<HalPolicy>(model, android::nn::kPaddingSame);
         numInputs += 1;
     }

     AddIntOperand<HalPolicy>(model, 2); // stride x
     AddIntOperand<HalPolicy>(model, 2); // stride y
     numInputs += 2;

     if (options.m_IsDepthwiseConvolution)
     {
         AddIntOperand<HalPolicy>(model, 1); // depth multiplier
         numInputs++;
     }

     AddIntOperand<HalPolicy>(model, 0); // no activation
     numInputs += 1;

     // dilation
     if (options.m_HasDilation)
     {
         AddBoolOperand<HalPolicy>(model, false); // default data layout

         AddIntOperand<HalPolicy>(model, 2); // dilation X
         AddIntOperand<HalPolicy>(model, 2); // dilation Y

         numInputs += 3;
     }

     // output
     AddOutputOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 1, 1, 1});

     // set up the convolution operation
     model.operations.resize(1);
     model.operations[0].type = options.m_IsDepthwiseConvolution ?
         HalOperationType::DEPTHWISE_CONV_2D : HalOperationType::CONV_2D;

     std::vector<uint32_t> inputs(numInputs);
     std::iota(inputs.begin(), inputs.end(), 0u);
     std::vector<uint32_t> outputs = { numInputs };

     model.operations[0].inputs  = hidl_vec<uint32_t>(inputs);
     model.operations[0].outputs = hidl_vec<uint32_t>(outputs);

     // convert model
     ConversionData data({backend});
     data.m_Network = armnn::INetwork::Create();
     data.m_OutputSlotForOperand = std::vector<IOutputSlot*>(model.operands.size(), nullptr);

     bool ok = HalPolicy::ConvertOperation(model.operations[0], model, data);
     BOOST_CHECK(ok);

     // check if dilation params are as expected
     DilationTestVisitor visitor = options.m_HasDilation ? DilationTestVisitor(2, 2) : DilationTestVisitor();
     data.m_Network->Accept(visitor);
 }

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

	#pragma once

	#include "DriverTestHelpers.hpp"

	#include <armnn/LayerVisitorBase.hpp>
	#include <armnn/utility/IgnoreUnused.hpp>

	#include <boost/test/unit_test.hpp>

	#include <numeric>

	BOOST_AUTO_TEST_SUITE(DilationTests)

	using namespace armnn;
	using namespace boost;
	using namespace driverTestHelpers;

	struct DilationTestOptions
	{
	DilationTestOptions() :
	m_IsDepthwiseConvolution{false},
	m_IsPaddingExplicit{false},
	m_HasDilation{false}
	{}

	~DilationTestOptions() = default;

	bool m_IsDepthwiseConvolution;
	bool m_IsPaddingExplicit;
	bool m_HasDilation;
	};

	class DilationTestVisitor : public LayerVisitorBase<VisitorThrowingPolicy>
	{
	public:
	DilationTestVisitor() :
	DilationTestVisitor(1u, 1u)
	{}

	DilationTestVisitor(uint32_t expectedDilationX, uint32_t expectedDilationY) :
	m_ExpectedDilationX{expectedDilationX},
	m_ExpectedDilationY{expectedDilationY}
	{}

	void VisitConvolution2dLayer(const IConnectableLayer *layer,
	const Convolution2dDescriptor& descriptor,
	const ConstTensor& weights,
	const Optional<ConstTensor>& biases,
	const char *name = nullptr) override
	{
	IgnoreUnused(layer);
	IgnoreUnused(weights);
	IgnoreUnused(biases);
	IgnoreUnused(name);

	CheckDilationParams(descriptor);
	}

	void VisitDepthwiseConvolution2dLayer(const IConnectableLayer *layer,
	const DepthwiseConvolution2dDescriptor& descriptor,
	const ConstTensor& weights,
	const Optional<ConstTensor>& biases,
	const char *name = nullptr) override
	{
	IgnoreUnused(layer);
	IgnoreUnused(weights);
	IgnoreUnused(biases);
	IgnoreUnused(name);

	CheckDilationParams(descriptor);
	}

	private:
	uint32_t m_ExpectedDilationX;
	uint32_t m_ExpectedDilationY;

	template<typename ConvolutionDescriptor>
	void CheckDilationParams(const ConvolutionDescriptor& descriptor)
	{
	BOOST_CHECK_EQUAL(descriptor.m_DilationX, m_ExpectedDilationX);
	BOOST_CHECK_EQUAL(descriptor.m_DilationY, m_ExpectedDilationY);
	}
	};

	template<typename HalPolicy>
	void DilationTestImpl(const DilationTestOptions& options)
	{
	using HalModel = typename HalPolicy::Model;
	using HalOperationType = typename HalPolicy::OperationType;

	const armnn::Compute backend = armnn::Compute::CpuRef;
	auto driver = std::make_unique<ArmnnDriver>(DriverOptions(backend, false));
	HalModel model = {};

	// add operands
	std::vector<float> weightData(9, 1.0f);
	std::vector<float> biasData(1, 0.0f );

	// input
	AddInputOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 3, 3, 1});

	// weights & biases
	AddTensorOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 3, 3, 1}, weightData.data());
	AddTensorOperand<HalPolicy>(model, hidl_vec<uint32_t>{1}, biasData.data());

	uint32_t numInputs = 3u;
	// padding
	if (options.m_IsPaddingExplicit)
	{
	AddIntOperand<HalPolicy>(model, 1);
	AddIntOperand<HalPolicy>(model, 1);
	AddIntOperand<HalPolicy>(model, 1);
	AddIntOperand<HalPolicy>(model, 1);
	numInputs += 4;
	}
	else
	{
	AddIntOperand<HalPolicy>(model, android::nn::kPaddingSame);
	numInputs += 1;
	}

	AddIntOperand<HalPolicy>(model, 2); // stride x
	AddIntOperand<HalPolicy>(model, 2); // stride y
	numInputs += 2;

	if (options.m_IsDepthwiseConvolution)
	{
	AddIntOperand<HalPolicy>(model, 1); // depth multiplier
	numInputs++;
	}

	AddIntOperand<HalPolicy>(model, 0); // no activation
	numInputs += 1;

	// dilation
	if (options.m_HasDilation)
	{
	AddBoolOperand<HalPolicy>(model, false); // default data layout

	AddIntOperand<HalPolicy>(model, 2); // dilation X
	AddIntOperand<HalPolicy>(model, 2); // dilation Y

	numInputs += 3;
	}

	// output
	AddOutputOperand<HalPolicy>(model, hidl_vec<uint32_t>{1, 1, 1, 1});

	// set up the convolution operation
	model.operations.resize(1);
	model.operations[0].type = options.m_IsDepthwiseConvolution ?
	HalOperationType::DEPTHWISE_CONV_2D : HalOperationType::CONV_2D;

	std::vector<uint32_t> inputs(numInputs);
	std::iota(inputs.begin(), inputs.end(), 0u);
	std::vector<uint32_t> outputs = { numInputs };

	model.operations[0].inputs = hidl_vec<uint32_t>(inputs);
	model.operations[0].outputs = hidl_vec<uint32_t>(outputs);

	// convert model
	ConversionData data({backend});
	data.m_Network = armnn::INetwork::Create();
	data.m_OutputSlotForOperand = std::vector<IOutputSlot*>(model.operands.size(), nullptr);

	bool ok = HalPolicy::ConvertOperation(model.operations[0], model, data);
	BOOST_CHECK(ok);

	// check if dilation params are as expected
	DilationTestVisitor visitor = options.m_HasDilation ? DilationTestVisitor(2, 2) : DilationTestVisitor();
	data.m_Network->Accept(visitor);
	}

	BOOST_AUTO_TEST_SUITE_END()