tests/validation/fixtures/SpaceToBatchFixture.h - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2018-2021 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.
  */
 #ifndef ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE
 #define ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE

 #include "tests/Globals.h"
 #include "tests/framework/Asserts.h"
 #include "tests/framework/Fixture.h"
 #include "tests/validation/reference/SpaceToBatch.h"

 namespace arm_compute
 {
 namespace test
 {
 namespace validation
 {
 template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
 class SpaceToBatchLayerValidationGenericFixture : public framework::Fixture
 {
 public:
     template <typename...>
     void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
                DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
     {
         _target    = compute_target(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, quantization_info);
         _reference = compute_reference(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, quantization_info);
     }

 protected:
     template <typename U>
     void fill(U &&tensor, int i)
     {
         library->fill_tensor_uniform(tensor, i);
     }

     template <typename U>
     void fill_pad(U &&tensor)
     {
         library->fill_tensor_value(tensor, 0);
     }

     TensorType compute_target(TensorShape input_shape, const TensorShape &block_shape_shape, const TensorShape &paddings_shape, TensorShape output_shape,
                               DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
     {
         if(data_layout == DataLayout::NHWC)
         {
             permute(input_shape, PermutationVector(2U, 0U, 1U));
             permute(output_shape, PermutationVector(2U, 0U, 1U));
         }

         // Create tensors
         TensorType input       = create_tensor<TensorType>(input_shape, data_type, 1, quantization_info, data_layout);
         TensorType block_shape = create_tensor<TensorType>(block_shape_shape, DataType::S32);
         TensorType paddings    = create_tensor<TensorType>(paddings_shape, DataType::S32);
         TensorType output      = create_tensor<TensorType>(output_shape, data_type, 1, quantization_info, data_layout);

         // Create and configure function
         FunctionType space_to_batch;
         space_to_batch.configure(&input, &block_shape, &paddings, &output);

         ARM_COMPUTE_ASSERT(input.info()->is_resizable());
         ARM_COMPUTE_ASSERT(block_shape.info()->is_resizable());
         ARM_COMPUTE_ASSERT(paddings.info()->is_resizable());
         ARM_COMPUTE_ASSERT(output.info()->is_resizable());

         // Allocate tensors
         input.allocator()->allocate();
         block_shape.allocator()->allocate();
         paddings.allocator()->allocate();
         output.allocator()->allocate();

         ARM_COMPUTE_ASSERT(!input.info()->is_resizable());
         ARM_COMPUTE_ASSERT(!block_shape.info()->is_resizable());
         ARM_COMPUTE_ASSERT(!paddings.info()->is_resizable());
         ARM_COMPUTE_ASSERT(!output.info()->is_resizable());

         // Fill tensors
         fill(AccessorType(input), 0);
         fill_pad(AccessorType(paddings));
         {
             auto      block_shape_data = AccessorType(block_shape);
             const int idx_width        = get_data_layout_dimension_index(data_layout, DataLayoutDimension::WIDTH);
             for(unsigned int i = 0; i < block_shape_shape.x(); ++i)
             {
                 static_cast<int32_t *>(block_shape_data.data())[i] = input_shape[i + idx_width] / output_shape[i + idx_width];
             }
         }
         // Compute function
         space_to_batch.run();

         return output;
     }

     SimpleTensor<T> compute_reference(const TensorShape &input_shape, const TensorShape &block_shape_shape, const TensorShape &paddings_shape,
                                       const TensorShape &output_shape, DataType data_type, QuantizationInfo quantization_info)
     {
         // Create reference
         SimpleTensor<T>       input{ input_shape, data_type, 1, quantization_info };
         SimpleTensor<int32_t> block_shape{ block_shape_shape, DataType::S32 };
         SimpleTensor<int32_t> paddings{ paddings_shape, DataType::S32 };

         // Fill reference
         fill(input, 0);
         fill_pad(paddings);
         for(unsigned int i = 0; i < block_shape_shape.x(); ++i)
         {
             block_shape[i] = input_shape[i] / output_shape[i];
         }

         // Compute reference
         return reference::space_to_batch(input, block_shape, paddings, output_shape);
     }

     TensorType      _target{};
     SimpleTensor<T> _reference{};
 };

 template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
 class SpaceToBatchLayerValidationFixture : public SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>
 {
 public:
     template <typename...>
     void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
                DataType data_type, DataLayout data_layout)
     {
         SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>::setup(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, QuantizationInfo());
     }
 };

 template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
 class SpaceToBatchLayerValidationQuantizedFixture : public SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>
 {
 public:
     template <typename...>
     void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
                DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
     {
         SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>::setup(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, quantization_info);
     }
 };
 } // namespace validation
 } // namespace test
 } // namespace arm_compute
 #endif /* ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE */
	/*
	* Copyright (c) 2018-2021 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.
	*/
	#ifndef ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE
	#define ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE

	#include "tests/Globals.h"
	#include "tests/framework/Asserts.h"
	#include "tests/framework/Fixture.h"
	#include "tests/validation/reference/SpaceToBatch.h"

	namespace arm_compute
	{
	namespace test
	{
	namespace validation
	{
	template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
	class SpaceToBatchLayerValidationGenericFixture : public framework::Fixture
	{
	public:
	template <typename...>
	void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
	DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
	{
	_target = compute_target(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, quantization_info);
	_reference = compute_reference(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, quantization_info);
	}

	protected:
	template <typename U>
	void fill(U &&tensor, int i)
	{
	library->fill_tensor_uniform(tensor, i);
	}

	template <typename U>
	void fill_pad(U &&tensor)
	{
	library->fill_tensor_value(tensor, 0);
	}

	TensorType compute_target(TensorShape input_shape, const TensorShape &block_shape_shape, const TensorShape &paddings_shape, TensorShape output_shape,
	DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
	{
	if(data_layout == DataLayout::NHWC)
	{
	permute(input_shape, PermutationVector(2U, 0U, 1U));
	permute(output_shape, PermutationVector(2U, 0U, 1U));
	}

	// Create tensors
	TensorType input = create_tensor<TensorType>(input_shape, data_type, 1, quantization_info, data_layout);
	TensorType block_shape = create_tensor<TensorType>(block_shape_shape, DataType::S32);
	TensorType paddings = create_tensor<TensorType>(paddings_shape, DataType::S32);
	TensorType output = create_tensor<TensorType>(output_shape, data_type, 1, quantization_info, data_layout);

	// Create and configure function
	FunctionType space_to_batch;
	space_to_batch.configure(&input, &block_shape, &paddings, &output);

	ARM_COMPUTE_ASSERT(input.info()->is_resizable());
	ARM_COMPUTE_ASSERT(block_shape.info()->is_resizable());
	ARM_COMPUTE_ASSERT(paddings.info()->is_resizable());
	ARM_COMPUTE_ASSERT(output.info()->is_resizable());

	// Allocate tensors
	input.allocator()->allocate();
	block_shape.allocator()->allocate();
	paddings.allocator()->allocate();
	output.allocator()->allocate();

	ARM_COMPUTE_ASSERT(!input.info()->is_resizable());
	ARM_COMPUTE_ASSERT(!block_shape.info()->is_resizable());
	ARM_COMPUTE_ASSERT(!paddings.info()->is_resizable());
	ARM_COMPUTE_ASSERT(!output.info()->is_resizable());

	// Fill tensors
	fill(AccessorType(input), 0);
	fill_pad(AccessorType(paddings));
	{
	auto block_shape_data = AccessorType(block_shape);
	const int idx_width = get_data_layout_dimension_index(data_layout, DataLayoutDimension::WIDTH);
	for(unsigned int i = 0; i < block_shape_shape.x(); ++i)
	{
	static_cast<int32_t *>(block_shape_data.data())[i] = input_shape[i + idx_width] / output_shape[i + idx_width];
	}
	}
	// Compute function
	space_to_batch.run();

	return output;
	}

	SimpleTensor<T> compute_reference(const TensorShape &input_shape, const TensorShape &block_shape_shape, const TensorShape &paddings_shape,
	const TensorShape &output_shape, DataType data_type, QuantizationInfo quantization_info)
	{
	// Create reference
	SimpleTensor<T> input{ input_shape, data_type, 1, quantization_info };
	SimpleTensor<int32_t> block_shape{ block_shape_shape, DataType::S32 };
	SimpleTensor<int32_t> paddings{ paddings_shape, DataType::S32 };

	// Fill reference
	fill(input, 0);
	fill_pad(paddings);
	for(unsigned int i = 0; i < block_shape_shape.x(); ++i)
	{
	block_shape[i] = input_shape[i] / output_shape[i];
	}

	// Compute reference
	return reference::space_to_batch(input, block_shape, paddings, output_shape);
	}

	TensorType _target{};
	SimpleTensor<T> _reference{};
	};

	template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
	class SpaceToBatchLayerValidationFixture : public SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>
	{
	public:
	template <typename...>
	void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
	DataType data_type, DataLayout data_layout)
	{
	SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>::setup(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, QuantizationInfo());
	}
	};

	template <typename TensorType, typename AccessorType, typename FunctionType, typename T>
	class SpaceToBatchLayerValidationQuantizedFixture : public SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>
	{
	public:
	template <typename...>
	void setup(TensorShape input_shape, TensorShape block_shape_shape, TensorShape paddings_shape, TensorShape output_shape,
	DataType data_type, DataLayout data_layout, QuantizationInfo quantization_info)
	{
	SpaceToBatchLayerValidationGenericFixture<TensorType, AccessorType, FunctionType, T>::setup(input_shape, block_shape_shape, paddings_shape, output_shape, data_type, data_layout, quantization_info);
	}
	};
	} // namespace validation
	} // namespace test
	} // namespace arm_compute
	#endif /* ARM_COMPUTE_TEST_SPACE_TO_BATCH_LAYER_FIXTURE */