media/libeffects/loudness/dsp/core/interpolator_base.h - platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2013 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_
 #define LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_

 #include "common/core/types.h"

 namespace le_fx {

 namespace sigmod {

 // Interpolation base-class that provides the interface, while it is the derived
 // class that provides the specific interpolation algorithm. The following list
 // of interpolation algorithms are currently present:
 //
 // InterpolationSine<T>: weighted interpolation between y_data[n] and
 //                       y_data[n+1] using a sin(.) weighting factor from
 //                       0 to pi/4.
 // InterpolationLinear<T>: linear interpolation
 // InterpolationSplines<T>: spline-based interpolation
 //
 // Example (using derived spline-based interpolation class):
 //  InterpolatorSplines<float> interp(x_data, y_data, data_length);
 //  for (int n = 0; n < data_length; n++) Y[n] = interp.Interpolate(X[n]);
 //
 template <typename T, class Algorithm>
 class InterpolatorBase {
  public:
   InterpolatorBase();
   ~InterpolatorBase();

   // Generic random-access interpolation with arbitrary spaced x-axis samples.
   // Below X[0], the interpolator returns Y[0]. Above X[data_length-1], it
   // returns Y[data_length-1].
   T Interpolate(T x);

   bool get_status() const {
     return status_;
   }

   // Initializes internal buffers.
   //  x_data: [(data_length)x1] x-axis coordinates (searching axis)
   //  y_data: [(data_length)x1] y-axis coordinates (interpolation axis)
   //  data_length: number of points
   // returns `true` if everything is ok, `false`, otherwise
   bool Initialize(const T *x_data, const T *y_data, int data_length);

   // Initializes internal buffers.
   //  x_data: x-axis coordinates (searching axis)
   //  y_data: y-axis coordinates (interpolating axis)
   // returns `true` if everything is ok, `false`, otherwise
   bool Initialize(const vector<T> &x_data, const vector<T> &y_data);

   // Initialization for regularly sampled sequences, where:
   //  x_data[i] = x_start_offset + i * x_sampling_interval
   bool Initialize(double x_start_offset,
                   double x_sampling_interval,
                   const vector<T> &y_data);

   // Initialization for regularly sampled sequences, where:
   //  x_data[i] = x_start_offset + i * x_sampling_interval
   bool Initialize(double x_start_offset,
                   double x_sampling_interval,
                   const T *y_data,
                   int data_length);

  protected:
   // Is set to false if something goes wrong, and to true if everything is ok.
   bool status_;

   // The start-index of the previously searched interval
   int cached_index_;

   // Data points
   const T *x_data_;  // Externally or internally owned, depending on own_x_data_
   const T *y_data_;  // Externally owned (always)
   int data_length_;
   // Index of the last element `data_length_ - 1` kept here for optimization
   int last_element_index_;
   bool own_x_data_;
   // For regularly-samples sequences, keep only the boundaries and the intervals
   T x_start_offset_;
   float x_inverse_sampling_interval_;

   // Algorithm state (internally owned)
   double *state_;

  private:
   LE_FX_DISALLOW_COPY_AND_ASSIGN(InterpolatorBase);
 };

 }  // namespace sigmod

 }  // namespace le_fx

 #include "dsp/core/interpolator_base-inl.h"

 #endif  // LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_
	/*
	* Copyright (C) 2013 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_
	#define LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_

	#include "common/core/types.h"

	namespace le_fx {

	namespace sigmod {

	// Interpolation base-class that provides the interface, while it is the derived
	// class that provides the specific interpolation algorithm. The following list
	// of interpolation algorithms are currently present:
	//
	// InterpolationSine<T>: weighted interpolation between y_data[n] and
	// y_data[n+1] using a sin(.) weighting factor from
	// 0 to pi/4.
	// InterpolationLinear<T>: linear interpolation
	// InterpolationSplines<T>: spline-based interpolation
	//
	// Example (using derived spline-based interpolation class):
	// InterpolatorSplines<float> interp(x_data, y_data, data_length);
	// for (int n = 0; n < data_length; n++) Y[n] = interp.Interpolate(X[n]);
	//
	template <typename T, class Algorithm>
	class InterpolatorBase {
	public:
	InterpolatorBase();
	~InterpolatorBase();

	// Generic random-access interpolation with arbitrary spaced x-axis samples.
	// Below X[0], the interpolator returns Y[0]. Above X[data_length-1], it
	// returns Y[data_length-1].
	T Interpolate(T x);

	bool get_status() const {
	return status_;
	}

	// Initializes internal buffers.
	// x_data: [(data_length)x1] x-axis coordinates (searching axis)
	// y_data: [(data_length)x1] y-axis coordinates (interpolation axis)
	// data_length: number of points
	// returns `true` if everything is ok, `false`, otherwise
	bool Initialize(const T x_data, const T y_data, int data_length);

	// Initializes internal buffers.
	// x_data: x-axis coordinates (searching axis)
	// y_data: y-axis coordinates (interpolating axis)
	// returns `true` if everything is ok, `false`, otherwise
	bool Initialize(const vector<T> &x_data, const vector<T> &y_data);

	// Initialization for regularly sampled sequences, where:
	// x_data[i] = x_start_offset + i * x_sampling_interval
	bool Initialize(double x_start_offset,
	double x_sampling_interval,
	const vector<T> &y_data);

	// Initialization for regularly sampled sequences, where:
	// x_data[i] = x_start_offset + i * x_sampling_interval
	bool Initialize(double x_start_offset,
	double x_sampling_interval,
	const T *y_data,
	int data_length);

	protected:
	// Is set to false if something goes wrong, and to true if everything is ok.
	bool status_;

	// The start-index of the previously searched interval
	int cached_index_;

	// Data points
	const T *x_data_; // Externally or internally owned, depending on own_x_data_
	const T *y_data_; // Externally owned (always)
	int data_length_;
	// Index of the last element `data_length_ - 1` kept here for optimization
	int last_element_index_;
	bool own_x_data_;
	// For regularly-samples sequences, keep only the boundaries and the intervals
	T x_start_offset_;
	float x_inverse_sampling_interval_;

	// Algorithm state (internally owned)
	double *state_;

	private:
	LE_FX_DISALLOW_COPY_AND_ASSIGN(InterpolatorBase);
	};

	} // namespace sigmod

	} // namespace le_fx

	#include "dsp/core/interpolator_base-inl.h"

	#endif // LE_FX_ENGINE_DSP_CORE_INTERPOLATOR_BASE_H_