webrtc/modules/audio_processing/aec/aec_core.h - platform/external/webrtc - 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.
  */

 /*
  * Specifies the interface for the AEC core.
  */

 #ifndef WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_H_
 #define WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_H_

 #include "webrtc/typedefs.h"

 #define FRAME_LEN 80
 #define PART_LEN 64               // Length of partition
 #define PART_LEN1 (PART_LEN + 1)  // Unique fft coefficients
 #define PART_LEN2 (PART_LEN * 2)  // Length of partition * 2

 typedef float complex_t[2];
 // For performance reasons, some arrays of complex numbers are replaced by twice
 // as long arrays of float, all the real parts followed by all the imaginary
 // ones (complex_t[SIZE] -> float[2][SIZE]). This allows SIMD optimizations and
 // is better than two arrays (one for the real parts and one for the imaginary
 // parts) as this other way would require two pointers instead of one and cause
 // extra register spilling. This also allows the offsets to be calculated at
 // compile time.

 // Metrics
 enum {
   kOffsetLevel = -100
 };

 typedef struct Stats {
   float instant;
   float average;
   float min;
   float max;
   float sum;
   float hisum;
   float himean;
   int counter;
   int hicounter;
 } Stats;

 typedef struct AecCore AecCore;

 int WebRtcAec_CreateAec(AecCore** aec);
 int WebRtcAec_FreeAec(AecCore* aec);
 int WebRtcAec_InitAec(AecCore* aec, int sampFreq);
 void WebRtcAec_InitAec_SSE2(void);
 #if defined(MIPS_FPU_LE)
 void WebRtcAec_InitAec_mips(void);
 #endif
 #if defined(WEBRTC_DETECT_ARM_NEON) || defined(WEBRTC_ARCH_ARM_NEON)
 void WebRtcAec_InitAec_neon(void);
 #endif

 void WebRtcAec_BufferFarendPartition(AecCore* aec, const float* farend);
 void WebRtcAec_ProcessFrame(AecCore* aec,
                             const float* nearend,
                             const float* nearendH,
                             int knownDelay,
                             float* out,
                             float* outH);

 // A helper function to call WebRtc_MoveReadPtr() for all far-end buffers.
 // Returns the number of elements moved, and adjusts |system_delay| by the
 // corresponding amount in ms.
 int WebRtcAec_MoveFarReadPtr(AecCore* aec, int elements);

 // Calculates the median and standard deviation among the delay estimates
 // collected since the last call to this function.
 int WebRtcAec_GetDelayMetricsCore(AecCore* self, int* median, int* std);

 // Returns the echo state (1: echo, 0: no echo).
 int WebRtcAec_echo_state(AecCore* self);

 // Gets statistics of the echo metrics ERL, ERLE, A_NLP.
 void WebRtcAec_GetEchoStats(AecCore* self,
                             Stats* erl,
                             Stats* erle,
                             Stats* a_nlp);
 #ifdef WEBRTC_AEC_DEBUG_DUMP
 void* WebRtcAec_far_time_buf(AecCore* self);
 #endif

 // Sets local configuration modes.
 void WebRtcAec_SetConfigCore(AecCore* self,
                              int nlp_mode,
                              int metrics_mode,
                              int delay_logging);

 // Non-zero enables, zero disables.
 void WebRtcAec_enable_reported_delay(AecCore* self, int enable);

 // Returns non-zero if reported delay is enabled and zero if disabled.
 int WebRtcAec_reported_delay_enabled(AecCore* self);

 // We now interpret delay correction to mean an extended filter length feature.
 // We reuse the delay correction infrastructure to avoid changes through to
 // libjingle. See details along with |DelayCorrection| in
 // echo_cancellation_impl.h. Non-zero enables, zero disables.
 void WebRtcAec_enable_delay_correction(AecCore* self, int enable);

 // Returns non-zero if delay correction is enabled and zero if disabled.
 int WebRtcAec_delay_correction_enabled(AecCore* self);

 // Returns the current |system_delay|, i.e., the buffered difference between
 // far-end and near-end.
 int WebRtcAec_system_delay(AecCore* self);

 // Sets the |system_delay| to |value|.  Note that if the value is changed
 // improperly, there can be a performance regression.  So it should be used with
 // care.
 void WebRtcAec_SetSystemDelay(AecCore* self, int delay);

 #endif  // WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_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.
	*/

	/*
	* Specifies the interface for the AEC core.
	*/

	#ifndef WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_H_
	#define WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_H_

	#include "webrtc/typedefs.h"

	#define FRAME_LEN 80
	#define PART_LEN 64 // Length of partition
	#define PART_LEN1 (PART_LEN + 1) // Unique fft coefficients
	#define PART_LEN2 (PART_LEN * 2) // Length of partition * 2

	typedef float complex_t[2];
	// For performance reasons, some arrays of complex numbers are replaced by twice
	// as long arrays of float, all the real parts followed by all the imaginary
	// ones (complex_t[SIZE] -> float[2][SIZE]). This allows SIMD optimizations and
	// is better than two arrays (one for the real parts and one for the imaginary
	// parts) as this other way would require two pointers instead of one and cause
	// extra register spilling. This also allows the offsets to be calculated at
	// compile time.

	// Metrics
	enum {
	kOffsetLevel = -100
	};

	typedef struct Stats {
	float instant;
	float average;
	float min;
	float max;
	float sum;
	float hisum;
	float himean;
	int counter;
	int hicounter;
	} Stats;

	typedef struct AecCore AecCore;

	int WebRtcAec_CreateAec(AecCore** aec);
	int WebRtcAec_FreeAec(AecCore* aec);
	int WebRtcAec_InitAec(AecCore* aec, int sampFreq);
	void WebRtcAec_InitAec_SSE2(void);
	#if defined(MIPS_FPU_LE)
	void WebRtcAec_InitAec_mips(void);
	#endif
	#if defined(WEBRTC_DETECT_ARM_NEON) \|\| defined(WEBRTC_ARCH_ARM_NEON)
	void WebRtcAec_InitAec_neon(void);
	#endif

	void WebRtcAec_BufferFarendPartition(AecCore* aec, const float* farend);
	void WebRtcAec_ProcessFrame(AecCore* aec,
	const float* nearend,
	const float* nearendH,
	int knownDelay,
	float* out,
	float* outH);

	// A helper function to call WebRtc_MoveReadPtr() for all far-end buffers.
	// Returns the number of elements moved, and adjusts \|system_delay\| by the
	// corresponding amount in ms.
	int WebRtcAec_MoveFarReadPtr(AecCore* aec, int elements);

	// Calculates the median and standard deviation among the delay estimates
	// collected since the last call to this function.
	int WebRtcAec_GetDelayMetricsCore(AecCore* self, int* median, int* std);

	// Returns the echo state (1: echo, 0: no echo).
	int WebRtcAec_echo_state(AecCore* self);

	// Gets statistics of the echo metrics ERL, ERLE, A_NLP.
	void WebRtcAec_GetEchoStats(AecCore* self,
	Stats* erl,
	Stats* erle,
	Stats* a_nlp);
	#ifdef WEBRTC_AEC_DEBUG_DUMP
	void* WebRtcAec_far_time_buf(AecCore* self);
	#endif

	// Sets local configuration modes.
	void WebRtcAec_SetConfigCore(AecCore* self,
	int nlp_mode,
	int metrics_mode,
	int delay_logging);

	// Non-zero enables, zero disables.
	void WebRtcAec_enable_reported_delay(AecCore* self, int enable);

	// Returns non-zero if reported delay is enabled and zero if disabled.
	int WebRtcAec_reported_delay_enabled(AecCore* self);

	// We now interpret delay correction to mean an extended filter length feature.
	// We reuse the delay correction infrastructure to avoid changes through to
	// libjingle. See details along with \|DelayCorrection\| in
	// echo_cancellation_impl.h. Non-zero enables, zero disables.
	void WebRtcAec_enable_delay_correction(AecCore* self, int enable);

	// Returns non-zero if delay correction is enabled and zero if disabled.
	int WebRtcAec_delay_correction_enabled(AecCore* self);

	// Returns the current \|system_delay\|, i.e., the buffered difference between
	// far-end and near-end.
	int WebRtcAec_system_delay(AecCore* self);

	// Sets the \|system_delay\| to \|value\|. Note that if the value is changed
	// improperly, there can be a performance regression. So it should be used with
	// care.
	void WebRtcAec_SetSystemDelay(AecCore* self, int delay);

	#endif // WEBRTC_MODULES_AUDIO_PROCESSING_AEC_AEC_CORE_H_