tests/validation_old/Reference.h - ml/ComputeLibrary - Gitiles

 /*
  * Copyright (c) 2017 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_REFERENCE_REFERENCE_H__
 #define __ARM_COMPUTE_TEST_REFERENCE_REFERENCE_H__

 #include "arm_compute/runtime/Array.h"
 #include "tests/RawTensor.h"
 #include "tests/Types.h"

 #include <map>
 #include <vector>

 namespace arm_compute
 {
 namespace test
 {
 namespace validation
 {
 /** Interface for reference implementations. */
 class Reference
 {
 public:
     /** Compute reference sobel 3x3.
      *
      * @param[in] shape                 Shape of the input and output tensors.
      * @param[in] border_mode           Border mode to use for input tensor
      * @param[in] constant_border_value Constant value to use if @p border_mode is constant
      *
      * @return Computed raw tensors along x and y axis.
      */
     static std::pair<RawTensor, RawTensor> compute_reference_sobel_3x3(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
     /** Compute reference sobel 5x5.
      *
      * @param[in] shape                 Shape of the input and output tensors.
      * @param[in] border_mode           Border mode to use for input tensor
      * @param[in] constant_border_value Constant value to use if @p border_mode is constant
      *
      * @return Computed raw tensors along x and y axis.
      */
     static std::pair<RawTensor, RawTensor> compute_reference_sobel_5x5(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
     /** Compute reference Harris corners.
      *
      * @param[in] shape                 Shape of input tensor
      * @param[in] threshold             Minimum threshold with which to eliminate Harris Corner scores (computed using the normalized Sobel kernel).
      * @param[in] min_dist              Radial Euclidean distance for the euclidean distance stage
      * @param[in] sensitivity           Sensitivity threshold k from the Harris-Stephens equation
      * @param[in] gradient_size         The gradient window size to use on the input. The implementation supports 3, 5, and 7
      * @param[in] block_size            The block window size used to compute the Harris Corner score. The implementation supports 3, 5, and 7.
      * @param[in] border_mode           Border mode to use
      * @param[in] constant_border_value Constant value to use for borders if border_mode is set to CONSTANT.
      *
      * @return Computed corners' keypoints.
      */
     static KeyPointArray compute_reference_harris_corners(const TensorShape &shape, float threshold, float min_dist, float sensitivity,
                                                           int32_t gradient_size, int32_t block_size, BorderMode border_mode, uint8_t constant_border_value);
     /** Compute min max location.
      *
      * @param[in]  shape     Shape of the input tensors.
      * @param[in]  dt_in     Data type of input tensor.
      * @param[out] min       Minimum value of tensor
      * @param[out] max       Maximum value of tensor
      * @param[out] min_loc   Array with locations of minimum values
      * @param[out] max_loc   Array with locations of maximum values
      * @param[out] min_count Number of minimum values found
      * @param[out] max_count Number of maximum values found
      *
      * @return Computed minimum, maximum values and their locations.
      */
     static void compute_reference_min_max_location(const TensorShape &shape, DataType dt_in, void *min, void *max, IArray<Coordinates2D> &min_loc, IArray<Coordinates2D> &max_loc,
                                                    uint32_t &min_count,
                                                    uint32_t &max_count);
     /** Compute reference integral image.
      *
      * @param[in] shape Shape of the input and output tensors.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_integral_image(const TensorShape &shape);
     /** Compute reference absolute difference.
      *
      * @param[in] shape  Shape of the input and output tensors.
      * @param[in] dt_in0 Data type of first input tensor.
      * @param[in] dt_in1 Data type of second input tensor.
      * @param[in] dt_out Data type of the output tensor.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_absolute_difference(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out);
     /** Compute reference accumulate.
      *
      * @param[in] shape Shape of the input and output tensors.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_accumulate(const TensorShape &shape);
     /** Compute reference accumulate.
      *
      * @param[in] shape Shape of the input and output tensors.
      * @param[in] shift A uint32_t value within the range of [0, 15]
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_accumulate_squared(const TensorShape &shape, uint32_t shift);
     /** Compute reference accumulate.
      *
      * @param[in] shape Shape of the input and output tensors.
      * @param[in] alpha A float value within the range of [0, 1]
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_accumulate_weighted(const TensorShape &shape, float alpha);
     /** Compute reference gaussian3x3 filter.
      *
      * @param[in] shape                 Shape of the input and output tensors.
      * @param[in] border_mode           BorderMode used by the input tensor
      * @param[in] constant_border_value Constant to use if @p border_mode == CONSTANT
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_gaussian3x3(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
     /** Compute reference gaussian5x5 filter.
      *
      * @param[in] shape                 Shape of the input and output tensors.
      * @param[in] border_mode           BorderMode used by the input tensor.
      * @param[in] constant_border_value Constant to use if @p border_mode == CONSTANT.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_gaussian5x5(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
     /** Compute reference pixel-wise multiplication
      *
      * @param[in] shape           Shape of the input and output tensors.
      * @param[in] dt_in0          Data type of first input tensor.
      * @param[in] dt_in1          Data type of second input tensor.
      * @param[in] dt_out          Data type of the output tensor.
      * @param[in] scale           Non-negative scale.
      * @param[in] convert_policy  Overflow policy of the operation.
      * @param[in] rounding_policy Rounding policy of the operation.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_pixel_wise_multiplication(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out, float scale, ConvertPolicy convert_policy,
                                                                  RoundingPolicy rounding_policy);
     /** Compute reference pixel-wise multiplication.
      *
      * @param[in] shape                Shape of the input and output tensors.
      * @param[in] dt_in0               Data type of first input tensor.
      * @param[in] dt_in1               Data type of second input tensor.
      * @param[in] dt_out               Data type of the output tensor.
      * @param[in] scale                Scale to apply after multiplication. Must be positive.
      * @param[in] fixed_point_position Fixed point position that expresses the number of bits for the fractional part of the number.
      * @param[in] convert_policy       Overflow policy of the operation.
      * @param[in] rounding_policy      Rounding policy of the operation.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_fixed_point_pixel_wise_multiplication(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out, float scale, int fixed_point_position,
                                                                              ConvertPolicy convert_policy, RoundingPolicy rounding_policy);
     /** Compute reference threshold.
      *
      * @param[in] shape       Shape of the input and output tensors.
      * @param[in] threshold   Threshold. When the threshold type is RANGE, this is used as the lower threshold.
      * @param[in] false_value value to set when the condition is not respected.
      * @param[in] true_value  value to set when the condition is respected.
      * @param[in] type        Thresholding type. Either RANGE or BINARY.
      * @param[in] upper       Upper threshold. Only used when the thresholding type is RANGE.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_threshold(const TensorShape &shape, uint8_t threshold, uint8_t false_value, uint8_t true_value, ThresholdType type, uint8_t upper);

     /** Compute reference Warp Perspective.
      *
      * @param[in]  shape                 Shape of the input and output tensors.
      * @param[out] valid_mask            Valid mask tensor.
      * @param[in]  matrix                The perspective matrix. Must be 3x3 of type float.
      * @param[in]  policy                The interpolation type.
      * @param[in]  border_mode           Strategy to use for borders.
      * @param[in]  constant_border_value Constant value to use for borders if border_mode is set to CONSTANT.
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_warp_perspective(const TensorShape &shape, RawTensor &valid_mask, const float *matrix, InterpolationPolicy policy, BorderMode border_mode,
                                                         uint8_t constant_border_value);

     /** Compute reference roi pooling layer.
      *
      * @param[in] shape     Shape of the input tensor.
      * @param[in] dt        Data type of input and output tensors.
      * @param[in] rois      Region of interest vector.
      * @param[in] pool_info ROI Pooling Layer information.
      */
     static RawTensor compute_reference_roi_pooling_layer(const TensorShape &shape, DataType dt, const std::vector<ROI> &rois, const ROIPoolingLayerInfo &pool_info);
     /** Compute reference fixed point operation.
      *
      * @param[in] shape                Shape of the input and output tensors.
      * @param[in] dt_in                Data type of the input tensor.
      * @param[in] dt_out               Data type of the output tensor.
      * @param[in] op                   Fixed point operation to perform.
      * @param[in] fixed_point_position Number of bits for the fractional part of the fixed point numbers
      *
      * @return Computed raw tensor.
      */
     static RawTensor compute_reference_fixed_point_operation(const TensorShape &shape, DataType dt_in, DataType dt_out, FixedPointOp op, int fixed_point_position);

 protected:
     Reference()  = default;
     ~Reference() = default;
 };
 } // namespace validation
 } // namespace test
 } // namespace arm_compute
 #endif /* __ARM_COMPUTE_TEST_REFERENCE_REFERENCE_H__ */
	/*
	* Copyright (c) 2017 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_REFERENCE_REFERENCE_H__
	#define __ARM_COMPUTE_TEST_REFERENCE_REFERENCE_H__

	#include "arm_compute/runtime/Array.h"
	#include "tests/RawTensor.h"
	#include "tests/Types.h"

	#include <map>
	#include <vector>

	namespace arm_compute
	{
	namespace test
	{
	namespace validation
	{
	/** Interface for reference implementations. */
	class Reference
	{
	public:
	/** Compute reference sobel 3x3.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] border_mode Border mode to use for input tensor
	* @param[in] constant_border_value Constant value to use if @p border_mode is constant
	*
	* @return Computed raw tensors along x and y axis.
	*/
	static std::pair<RawTensor, RawTensor> compute_reference_sobel_3x3(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
	/** Compute reference sobel 5x5.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] border_mode Border mode to use for input tensor
	* @param[in] constant_border_value Constant value to use if @p border_mode is constant
	*
	* @return Computed raw tensors along x and y axis.
	*/
	static std::pair<RawTensor, RawTensor> compute_reference_sobel_5x5(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
	/** Compute reference Harris corners.
	*
	* @param[in] shape Shape of input tensor
	* @param[in] threshold Minimum threshold with which to eliminate Harris Corner scores (computed using the normalized Sobel kernel).
	* @param[in] min_dist Radial Euclidean distance for the euclidean distance stage
	* @param[in] sensitivity Sensitivity threshold k from the Harris-Stephens equation
	* @param[in] gradient_size The gradient window size to use on the input. The implementation supports 3, 5, and 7
	* @param[in] block_size The block window size used to compute the Harris Corner score. The implementation supports 3, 5, and 7.
	* @param[in] border_mode Border mode to use
	* @param[in] constant_border_value Constant value to use for borders if border_mode is set to CONSTANT.
	*
	* @return Computed corners' keypoints.
	*/
	static KeyPointArray compute_reference_harris_corners(const TensorShape &shape, float threshold, float min_dist, float sensitivity,
	int32_t gradient_size, int32_t block_size, BorderMode border_mode, uint8_t constant_border_value);
	/** Compute min max location.
	*
	* @param[in] shape Shape of the input tensors.
	* @param[in] dt_in Data type of input tensor.
	* @param[out] min Minimum value of tensor
	* @param[out] max Maximum value of tensor
	* @param[out] min_loc Array with locations of minimum values
	* @param[out] max_loc Array with locations of maximum values
	* @param[out] min_count Number of minimum values found
	* @param[out] max_count Number of maximum values found
	*
	* @return Computed minimum, maximum values and their locations.
	*/
	static void compute_reference_min_max_location(const TensorShape &shape, DataType dt_in, void min, void max, IArray<Coordinates2D> &min_loc, IArray<Coordinates2D> &max_loc,
	uint32_t &min_count,
	uint32_t &max_count);
	/** Compute reference integral image.
	*
	* @param[in] shape Shape of the input and output tensors.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_integral_image(const TensorShape &shape);
	/** Compute reference absolute difference.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] dt_in0 Data type of first input tensor.
	* @param[in] dt_in1 Data type of second input tensor.
	* @param[in] dt_out Data type of the output tensor.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_absolute_difference(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out);
	/** Compute reference accumulate.
	*
	* @param[in] shape Shape of the input and output tensors.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_accumulate(const TensorShape &shape);
	/** Compute reference accumulate.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] shift A uint32_t value within the range of [0, 15]
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_accumulate_squared(const TensorShape &shape, uint32_t shift);
	/** Compute reference accumulate.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] alpha A float value within the range of [0, 1]
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_accumulate_weighted(const TensorShape &shape, float alpha);
	/** Compute reference gaussian3x3 filter.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] border_mode BorderMode used by the input tensor
	* @param[in] constant_border_value Constant to use if @p border_mode == CONSTANT
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_gaussian3x3(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
	/** Compute reference gaussian5x5 filter.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] border_mode BorderMode used by the input tensor.
	* @param[in] constant_border_value Constant to use if @p border_mode == CONSTANT.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_gaussian5x5(const TensorShape &shape, BorderMode border_mode, uint8_t constant_border_value);
	/** Compute reference pixel-wise multiplication
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] dt_in0 Data type of first input tensor.
	* @param[in] dt_in1 Data type of second input tensor.
	* @param[in] dt_out Data type of the output tensor.
	* @param[in] scale Non-negative scale.
	* @param[in] convert_policy Overflow policy of the operation.
	* @param[in] rounding_policy Rounding policy of the operation.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_pixel_wise_multiplication(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out, float scale, ConvertPolicy convert_policy,
	RoundingPolicy rounding_policy);
	/** Compute reference pixel-wise multiplication.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] dt_in0 Data type of first input tensor.
	* @param[in] dt_in1 Data type of second input tensor.
	* @param[in] dt_out Data type of the output tensor.
	* @param[in] scale Scale to apply after multiplication. Must be positive.
	* @param[in] fixed_point_position Fixed point position that expresses the number of bits for the fractional part of the number.
	* @param[in] convert_policy Overflow policy of the operation.
	* @param[in] rounding_policy Rounding policy of the operation.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_fixed_point_pixel_wise_multiplication(const TensorShape &shape, DataType dt_in0, DataType dt_in1, DataType dt_out, float scale, int fixed_point_position,
	ConvertPolicy convert_policy, RoundingPolicy rounding_policy);
	/** Compute reference threshold.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] threshold Threshold. When the threshold type is RANGE, this is used as the lower threshold.
	* @param[in] false_value value to set when the condition is not respected.
	* @param[in] true_value value to set when the condition is respected.
	* @param[in] type Thresholding type. Either RANGE or BINARY.
	* @param[in] upper Upper threshold. Only used when the thresholding type is RANGE.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_threshold(const TensorShape &shape, uint8_t threshold, uint8_t false_value, uint8_t true_value, ThresholdType type, uint8_t upper);

	/** Compute reference Warp Perspective.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[out] valid_mask Valid mask tensor.
	* @param[in] matrix The perspective matrix. Must be 3x3 of type float.
	* @param[in] policy The interpolation type.
	* @param[in] border_mode Strategy to use for borders.
	* @param[in] constant_border_value Constant value to use for borders if border_mode is set to CONSTANT.
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_warp_perspective(const TensorShape &shape, RawTensor &valid_mask, const float *matrix, InterpolationPolicy policy, BorderMode border_mode,
	uint8_t constant_border_value);

	/** Compute reference roi pooling layer.
	*
	* @param[in] shape Shape of the input tensor.
	* @param[in] dt Data type of input and output tensors.
	* @param[in] rois Region of interest vector.
	* @param[in] pool_info ROI Pooling Layer information.
	*/
	static RawTensor compute_reference_roi_pooling_layer(const TensorShape &shape, DataType dt, const std::vector<ROI> &rois, const ROIPoolingLayerInfo &pool_info);
	/** Compute reference fixed point operation.
	*
	* @param[in] shape Shape of the input and output tensors.
	* @param[in] dt_in Data type of the input tensor.
	* @param[in] dt_out Data type of the output tensor.
	* @param[in] op Fixed point operation to perform.
	* @param[in] fixed_point_position Number of bits for the fractional part of the fixed point numbers
	*
	* @return Computed raw tensor.
	*/
	static RawTensor compute_reference_fixed_point_operation(const TensorShape &shape, DataType dt_in, DataType dt_out, FixedPointOp op, int fixed_point_position);

	protected:
	Reference() = default;
	~Reference() = default;
	};
	} // namespace validation
	} // namespace test
	} // namespace arm_compute
	#endif /* __ARM_COMPUTE_TEST_REFERENCE_REFERENCE_H__ */