modules/audio_processing/utility/delay_estimator_wrapper.h - src - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 // Performs delay estimation on block by block basis.
 // The return value is  0 - OK and -1 - Error, unless otherwise stated.

 #ifndef MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_
 #define MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_

 #include <stdint.h>

 namespace webrtc {

 // Releases the memory allocated by WebRtc_CreateDelayEstimatorFarend(...)
 void WebRtc_FreeDelayEstimatorFarend(void* handle);

 // Allocates the memory needed by the far-end part of the delay estimation. The
 // memory needs to be initialized separately through
 // WebRtc_InitDelayEstimatorFarend(...).
 //
 // Inputs:
 //  - spectrum_size     : Size of the spectrum used both in far-end and
 //                        near-end. Used to allocate memory for spectrum
 //                        specific buffers.
 //  - history_size      : The far-end history buffer size. A change in buffer
 //                        size can be forced with WebRtc_set_history_size().
 //                        Note that the maximum delay which can be estimated is
 //                        determined together with WebRtc_set_lookahead().
 //
 // Return value:
 //  - void*             : Created `handle`. If the memory can't be allocated or
 //                        if any of the input parameters are invalid NULL is
 //                        returned.
 void* WebRtc_CreateDelayEstimatorFarend(int spectrum_size, int history_size);

 // Initializes the far-end part of the delay estimation instance returned by
 // WebRtc_CreateDelayEstimatorFarend(...)
 int WebRtc_InitDelayEstimatorFarend(void* handle);

 // Soft resets the far-end part of the delay estimation instance returned by
 // WebRtc_CreateDelayEstimatorFarend(...).
 // Input:
 //      - delay_shift   : The amount of blocks to shift history buffers.
 void WebRtc_SoftResetDelayEstimatorFarend(void* handle, int delay_shift);

 // Adds the far-end spectrum to the far-end history buffer. This spectrum is
 // used as reference when calculating the delay using
 // WebRtc_ProcessSpectrum().
 //
 // Inputs:
 //    - far_spectrum    : Far-end spectrum.
 //    - spectrum_size   : The size of the data arrays (same for both far- and
 //                        near-end).
 //    - far_q           : The Q-domain of the far-end data.
 //
 // Output:
 //    - handle          : Updated far-end instance.
 //
 int WebRtc_AddFarSpectrumFix(void* handle,
                              const uint16_t* far_spectrum,
                              int spectrum_size,
                              int far_q);

 // See WebRtc_AddFarSpectrumFix() for description.
 int WebRtc_AddFarSpectrumFloat(void* handle,
                                const float* far_spectrum,
                                int spectrum_size);

 // Releases the memory allocated by WebRtc_CreateDelayEstimator(...)
 void WebRtc_FreeDelayEstimator(void* handle);

 // Allocates the memory needed by the delay estimation. The memory needs to be
 // initialized separately through WebRtc_InitDelayEstimator(...).
 //
 // Inputs:
 //      - farend_handle : Pointer to the far-end part of the delay estimation
 //                        instance created prior to this call using
 //                        WebRtc_CreateDelayEstimatorFarend().
 //
 //                        Note that WebRtc_CreateDelayEstimator does not take
 //                        ownership of `farend_handle`, which has to be torn
 //                        down properly after this instance.
 //
 //      - max_lookahead : Maximum amount of non-causal lookahead allowed. The
 //                        actual amount of lookahead used can be controlled by
 //                        WebRtc_set_lookahead(...). The default `lookahead` is
 //                        set to `max_lookahead` at create time. Use
 //                        WebRtc_set_lookahead(...) before start if a different
 //                        value is desired.
 //
 //                        Using lookahead can detect cases in which a near-end
 //                        signal occurs before the corresponding far-end signal.
 //                        It will delay the estimate for the current block by an
 //                        equal amount, and the returned values will be offset
 //                        by it.
 //
 //                        A value of zero is the typical no-lookahead case.
 //                        This also represents the minimum delay which can be
 //                        estimated.
 //
 //                        Note that the effective range of delay estimates is
 //                        [-`lookahead`,... ,`history_size`-`lookahead`)
 //                        where `history_size` is set through
 //                        WebRtc_set_history_size().
 //
 // Return value:
 //      - void*         : Created `handle`. If the memory can't be allocated or
 //                        if any of the input parameters are invalid NULL is
 //                        returned.
 void* WebRtc_CreateDelayEstimator(void* farend_handle, int max_lookahead);

 // Initializes the delay estimation instance returned by
 // WebRtc_CreateDelayEstimator(...)
 int WebRtc_InitDelayEstimator(void* handle);

 // Soft resets the delay estimation instance returned by
 // WebRtc_CreateDelayEstimator(...)
 // Input:
 //      - delay_shift   : The amount of blocks to shift history buffers.
 //
 // Return value:
 //      - actual_shifts : The actual number of shifts performed.
 int WebRtc_SoftResetDelayEstimator(void* handle, int delay_shift);

 // Sets the effective `history_size` used. Valid values from 2. We simply need
 // at least two delays to compare to perform an estimate. If `history_size` is
 // changed, buffers are reallocated filling in with zeros if necessary.
 // Note that changing the `history_size` affects both buffers in far-end and
 // near-end. Hence it is important to change all DelayEstimators that use the
 // same reference far-end, to the same `history_size` value.
 // Inputs:
 //  - handle            : Pointer to the delay estimation instance.
 //  - history_size      : Effective history size to be used.
 // Return value:
 //  - new_history_size  : The new history size used. If the memory was not able
 //                        to be allocated 0 is returned.
 int WebRtc_set_history_size(void* handle, int history_size);

 // Returns the history_size currently used.
 // Input:
 //      - handle        : Pointer to the delay estimation instance.
 int WebRtc_history_size(const void* handle);

 // Sets the amount of `lookahead` to use. Valid values are [0, max_lookahead]
 // where `max_lookahead` was set at create time through
 // WebRtc_CreateDelayEstimator(...).
 //
 // Input:
 //      - handle        : Pointer to the delay estimation instance.
 //      - lookahead     : The amount of lookahead to be used.
 //
 // Return value:
 //      - new_lookahead : The actual amount of lookahead set, unless `handle` is
 //                        a NULL pointer or `lookahead` is invalid, for which an
 //                        error is returned.
 int WebRtc_set_lookahead(void* handle, int lookahead);

 // Returns the amount of lookahead we currently use.
 // Input:
 //      - handle        : Pointer to the delay estimation instance.
 int WebRtc_lookahead(void* handle);

 // Sets the `allowed_offset` used in the robust validation scheme.  If the
 // delay estimator is used in an echo control component, this parameter is
 // related to the filter length.  In principle `allowed_offset` should be set to
 // the echo control filter length minus the expected echo duration, i.e., the
 // delay offset the echo control can handle without quality regression.  The
 // default value, used if not set manually, is zero.  Note that `allowed_offset`
 // has to be non-negative.
 // Inputs:
 //  - handle            : Pointer to the delay estimation instance.
 //  - allowed_offset    : The amount of delay offset, measured in partitions,
 //                        the echo control filter can handle.
 int WebRtc_set_allowed_offset(void* handle, int allowed_offset);

 // Returns the `allowed_offset` in number of partitions.
 int WebRtc_get_allowed_offset(const void* handle);

 // Enables/Disables a robust validation functionality in the delay estimation.
 // This is by default set to disabled at create time.  The state is preserved
 // over a reset.
 // Inputs:
 //      - handle        : Pointer to the delay estimation instance.
 //      - enable        : Enable (1) or disable (0) this feature.
 int WebRtc_enable_robust_validation(void* handle, int enable);

 // Returns 1 if robust validation is enabled and 0 if disabled.
 int WebRtc_is_robust_validation_enabled(const void* handle);

 // Estimates and returns the delay between the far-end and near-end blocks. The
 // value will be offset by the lookahead (i.e. the lookahead should be
 // subtracted from the returned value).
 // Inputs:
 //      - handle        : Pointer to the delay estimation instance.
 //      - near_spectrum : Pointer to the near-end spectrum data of the current
 //                        block.
 //      - spectrum_size : The size of the data arrays (same for both far- and
 //                        near-end).
 //      - near_q        : The Q-domain of the near-end data.
 //
 // Output:
 //      - handle        : Updated instance.
 //
 // Return value:
 //      - delay         :  >= 0 - Calculated delay value.
 //                        -1    - Error.
 //                        -2    - Insufficient data for estimation.
 int WebRtc_DelayEstimatorProcessFix(void* handle,
                                     const uint16_t* near_spectrum,
                                     int spectrum_size,
                                     int near_q);

 // See WebRtc_DelayEstimatorProcessFix() for description.
 int WebRtc_DelayEstimatorProcessFloat(void* handle,
                                       const float* near_spectrum,
                                       int spectrum_size);

 // Returns the last calculated delay updated by the function
 // WebRtc_DelayEstimatorProcess(...).
 //
 // Input:
 //      - handle        : Pointer to the delay estimation instance.
 //
 // Return value:
 //      - delay         : >= 0  - Last calculated delay value.
 //                        -1    - Error.
 //                        -2    - Insufficient data for estimation.
 int WebRtc_last_delay(void* handle);

 // Returns the estimation quality/probability of the last calculated delay
 // updated by the function WebRtc_DelayEstimatorProcess(...). The estimation
 // quality is a value in the interval [0, 1]. The higher the value, the better
 // the quality.
 //
 // Return value:
 //      - delay_quality : >= 0  - Estimation quality of last calculated delay.
 float WebRtc_last_delay_quality(void* handle);

 }  // namespace webrtc

 #endif  // MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	// Performs delay estimation on block by block basis.
	// The return value is 0 - OK and -1 - Error, unless otherwise stated.

	#ifndef MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_
	#define MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_

	#include <stdint.h>

	namespace webrtc {

	// Releases the memory allocated by WebRtc_CreateDelayEstimatorFarend(...)
	void WebRtc_FreeDelayEstimatorFarend(void* handle);

	// Allocates the memory needed by the far-end part of the delay estimation. The
	// memory needs to be initialized separately through
	// WebRtc_InitDelayEstimatorFarend(...).
	//
	// Inputs:
	// - spectrum_size : Size of the spectrum used both in far-end and
	// near-end. Used to allocate memory for spectrum
	// specific buffers.
	// - history_size : The far-end history buffer size. A change in buffer
	// size can be forced with WebRtc_set_history_size().
	// Note that the maximum delay which can be estimated is
	// determined together with WebRtc_set_lookahead().
	//
	// Return value:
	// - void* : Created `handle`. If the memory can't be allocated or
	// if any of the input parameters are invalid NULL is
	// returned.
	void* WebRtc_CreateDelayEstimatorFarend(int spectrum_size, int history_size);

	// Initializes the far-end part of the delay estimation instance returned by
	// WebRtc_CreateDelayEstimatorFarend(...)
	int WebRtc_InitDelayEstimatorFarend(void* handle);

	// Soft resets the far-end part of the delay estimation instance returned by
	// WebRtc_CreateDelayEstimatorFarend(...).
	// Input:
	// - delay_shift : The amount of blocks to shift history buffers.
	void WebRtc_SoftResetDelayEstimatorFarend(void* handle, int delay_shift);

	// Adds the far-end spectrum to the far-end history buffer. This spectrum is
	// used as reference when calculating the delay using
	// WebRtc_ProcessSpectrum().
	//
	// Inputs:
	// - far_spectrum : Far-end spectrum.
	// - spectrum_size : The size of the data arrays (same for both far- and
	// near-end).
	// - far_q : The Q-domain of the far-end data.
	//
	// Output:
	// - handle : Updated far-end instance.
	//
	int WebRtc_AddFarSpectrumFix(void* handle,
	const uint16_t* far_spectrum,
	int spectrum_size,
	int far_q);

	// See WebRtc_AddFarSpectrumFix() for description.
	int WebRtc_AddFarSpectrumFloat(void* handle,
	const float* far_spectrum,
	int spectrum_size);

	// Releases the memory allocated by WebRtc_CreateDelayEstimator(...)
	void WebRtc_FreeDelayEstimator(void* handle);

	// Allocates the memory needed by the delay estimation. The memory needs to be
	// initialized separately through WebRtc_InitDelayEstimator(...).
	//
	// Inputs:
	// - farend_handle : Pointer to the far-end part of the delay estimation
	// instance created prior to this call using
	// WebRtc_CreateDelayEstimatorFarend().
	//
	// Note that WebRtc_CreateDelayEstimator does not take
	// ownership of `farend_handle`, which has to be torn
	// down properly after this instance.
	//
	// - max_lookahead : Maximum amount of non-causal lookahead allowed. The
	// actual amount of lookahead used can be controlled by
	// WebRtc_set_lookahead(...). The default `lookahead` is
	// set to `max_lookahead` at create time. Use
	// WebRtc_set_lookahead(...) before start if a different
	// value is desired.
	//
	// Using lookahead can detect cases in which a near-end
	// signal occurs before the corresponding far-end signal.
	// It will delay the estimate for the current block by an
	// equal amount, and the returned values will be offset
	// by it.
	//
	// A value of zero is the typical no-lookahead case.
	// This also represents the minimum delay which can be
	// estimated.
	//
	// Note that the effective range of delay estimates is
	// [-`lookahead`,... ,`history_size`-`lookahead`)
	// where `history_size` is set through
	// WebRtc_set_history_size().
	//
	// Return value:
	// - void* : Created `handle`. If the memory can't be allocated or
	// if any of the input parameters are invalid NULL is
	// returned.
	void* WebRtc_CreateDelayEstimator(void* farend_handle, int max_lookahead);

	// Initializes the delay estimation instance returned by
	// WebRtc_CreateDelayEstimator(...)
	int WebRtc_InitDelayEstimator(void* handle);

	// Soft resets the delay estimation instance returned by
	// WebRtc_CreateDelayEstimator(...)
	// Input:
	// - delay_shift : The amount of blocks to shift history buffers.
	//
	// Return value:
	// - actual_shifts : The actual number of shifts performed.
	int WebRtc_SoftResetDelayEstimator(void* handle, int delay_shift);

	// Sets the effective `history_size` used. Valid values from 2. We simply need
	// at least two delays to compare to perform an estimate. If `history_size` is
	// changed, buffers are reallocated filling in with zeros if necessary.
	// Note that changing the `history_size` affects both buffers in far-end and
	// near-end. Hence it is important to change all DelayEstimators that use the
	// same reference far-end, to the same `history_size` value.
	// Inputs:
	// - handle : Pointer to the delay estimation instance.
	// - history_size : Effective history size to be used.
	// Return value:
	// - new_history_size : The new history size used. If the memory was not able
	// to be allocated 0 is returned.
	int WebRtc_set_history_size(void* handle, int history_size);

	// Returns the history_size currently used.
	// Input:
	// - handle : Pointer to the delay estimation instance.
	int WebRtc_history_size(const void* handle);

	// Sets the amount of `lookahead` to use. Valid values are [0, max_lookahead]
	// where `max_lookahead` was set at create time through
	// WebRtc_CreateDelayEstimator(...).
	//
	// Input:
	// - handle : Pointer to the delay estimation instance.
	// - lookahead : The amount of lookahead to be used.
	//
	// Return value:
	// - new_lookahead : The actual amount of lookahead set, unless `handle` is
	// a NULL pointer or `lookahead` is invalid, for which an
	// error is returned.
	int WebRtc_set_lookahead(void* handle, int lookahead);

	// Returns the amount of lookahead we currently use.
	// Input:
	// - handle : Pointer to the delay estimation instance.
	int WebRtc_lookahead(void* handle);

	// Sets the `allowed_offset` used in the robust validation scheme. If the
	// delay estimator is used in an echo control component, this parameter is
	// related to the filter length. In principle `allowed_offset` should be set to
	// the echo control filter length minus the expected echo duration, i.e., the
	// delay offset the echo control can handle without quality regression. The
	// default value, used if not set manually, is zero. Note that `allowed_offset`
	// has to be non-negative.
	// Inputs:
	// - handle : Pointer to the delay estimation instance.
	// - allowed_offset : The amount of delay offset, measured in partitions,
	// the echo control filter can handle.
	int WebRtc_set_allowed_offset(void* handle, int allowed_offset);

	// Returns the `allowed_offset` in number of partitions.
	int WebRtc_get_allowed_offset(const void* handle);

	// Enables/Disables a robust validation functionality in the delay estimation.
	// This is by default set to disabled at create time. The state is preserved
	// over a reset.
	// Inputs:
	// - handle : Pointer to the delay estimation instance.
	// - enable : Enable (1) or disable (0) this feature.
	int WebRtc_enable_robust_validation(void* handle, int enable);

	// Returns 1 if robust validation is enabled and 0 if disabled.
	int WebRtc_is_robust_validation_enabled(const void* handle);

	// Estimates and returns the delay between the far-end and near-end blocks. The
	// value will be offset by the lookahead (i.e. the lookahead should be
	// subtracted from the returned value).
	// Inputs:
	// - handle : Pointer to the delay estimation instance.
	// - near_spectrum : Pointer to the near-end spectrum data of the current
	// block.
	// - spectrum_size : The size of the data arrays (same for both far- and
	// near-end).
	// - near_q : The Q-domain of the near-end data.
	//
	// Output:
	// - handle : Updated instance.
	//
	// Return value:
	// - delay : >= 0 - Calculated delay value.
	// -1 - Error.
	// -2 - Insufficient data for estimation.
	int WebRtc_DelayEstimatorProcessFix(void* handle,
	const uint16_t* near_spectrum,
	int spectrum_size,
	int near_q);

	// See WebRtc_DelayEstimatorProcessFix() for description.
	int WebRtc_DelayEstimatorProcessFloat(void* handle,
	const float* near_spectrum,
	int spectrum_size);

	// Returns the last calculated delay updated by the function
	// WebRtc_DelayEstimatorProcess(...).
	//
	// Input:
	// - handle : Pointer to the delay estimation instance.
	//
	// Return value:
	// - delay : >= 0 - Last calculated delay value.
	// -1 - Error.
	// -2 - Insufficient data for estimation.
	int WebRtc_last_delay(void* handle);

	// Returns the estimation quality/probability of the last calculated delay
	// updated by the function WebRtc_DelayEstimatorProcess(...). The estimation
	// quality is a value in the interval [0, 1]. The higher the value, the better
	// the quality.
	//
	// Return value:
	// - delay_quality : >= 0 - Estimation quality of last calculated delay.
	float WebRtc_last_delay_quality(void* handle);

	} // namespace webrtc

	#endif // MODULES_AUDIO_PROCESSING_UTILITY_DELAY_ESTIMATOR_WRAPPER_H_