arm/include/external/libldac/abr/inc/ldacBT_abr.h - platform/prebuilts/vndk/v30 - Git at Google

 /*
  * Copyright (C) 2014 - 2017 Sony Corporation
  *
  * 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 _LDACBT_ABR_H_
 #define _LDACBT_ABR_H_

 /* This file contains the definitions, declarations and macros for an implementation of
  * LDAC Adaptive Bit Rate (hereinafter ABR) processing.
  *
  * The basic flow of the ABR processing is as follows:
  * - The program creates a handle of LDAC ABR API using ldac_ABR_get_handle().
  * - The program initializes the handle by setting the ldac_ABR_Proc() call interval to
  *   ldac_ABR_Init().
  *       The interval shall be as short as possible at the timing without accumulation
  *       of packet in the buffer if propagation environment is fine.
  * - The program reinitializes the handle by calling ldac_ABR_Init() again when the
  *   state of the TX queue changes greatly, such as clearing the queue.
  * - If the program demands to control the thresholds, then ldac_ABR_set_thresholds()
  *   should be called.
  * - The program sets flagEnable to "1" when allowing LDAC encode bitrate to be
  *   adjusted by ABR, and sets it to "0" if it is not allowed.
  * - The program calls ldac_ABR_Proc() at the interval set to ldac_ABR_Init() even if
  *   flagEnable is "0".
  *       The program passes TxQueueDepth and flagEnable to ldac_ABR_Proc() at this call,
  *       LDAC encode bitrate is adjusted only when flagEnable is "1".
  *       Otherwise, the internal parameters are updated and analyzed then returned.
  *       The ABR handle adjusts eqmid based on TxQueueDepth which is passed from the program.
  *       The ABR handle calls LDAC encode API ldacBT_alter_eqmid_priority() to adjust eqmid.
  *       The ABR handle calls LDAC encode API ldacBT_get_eqmid() to get current eqmid.
  * - The handle may be released with ldac_ABR_free_handle().
  *
  * Notes on debugging LDAC ABR:
  * The meaning of "works fine" is that the bit rate will be low in case of bad radio situation
  * and high in case of good radio situation.
  *
  * The bit rate transition can be debug by checking logcat messages from LDAC ABR library which
  * built with the following changes in Android.bp:
  *  - Adding "liblog" to shared_libs.
  *  - Adding "-DLOCAL_DEBUG" to cflags.
  * The messages are formated as follows:
  *       [LDAC ABR] - abrQualityModeID : 0 -- eqmid : 0 -- TxQue : 0
  *     where abrQualityModeID and eqmid related to the current bit rate and TxQue shows the depth
  *     of current Tx queue.
  *     The relationship between abrQualityModeID, eqmid and the bit rate is described in
  *     "ldacBT_abr.c".
  *
  * The bit rate transition can be estimated/debug by listening to the audio played on the SNK
  * device. This method cannot use to confirm the details of the bit rate transition, but useful
  * to know how LDAC ABR algorithm works in a field test without checking the log.
  * To try this method, rebuilding of the "libldacBT_enc" library with the following change in
  * Android.bp is required:
  *  - Adding "-DUSE_LDAC_ENC_SETTING_FOR_ABR_DEBUG" to cflags.
  * By defining the above macro, the lower the bit rate, the greatly lower the bandwidth of the audio
  * played on the SNK device. Therefore, the audio played on the SNK device will sounds like a
  * low-pass filtered sound when the bit rate is low and will sounds as usual when the bit rate is
  * enough high. It is recommend using sound such as white noise to hear those changes for the first
  * time.
  *
  * IMPORTANT:
  * These libraries modified as described above shall be used only to confirm the bit rate transition
  * and SHALL NOT BE USED FOR FINAL PRODUCTS.
  */

 #ifdef __cplusplus
 extern "C" {
 #endif

 #ifndef LDAC_ABR_API
 #define LDAC_ABR_API
 #endif /* LDAC_ABR_API */

 #include <ldacBT.h> /* HANDLE_LDAC_BT */

 /* LDAC ABR handle type*/
 typedef struct _ldacbt_abr_param * HANDLE_LDAC_ABR;

 /* Allocation of LDAC ABR handle.
  *  Format
  *      HANDLE_LDAC_ABR  ldacBT_get_handle( void );
  *  Arguments
  *      None.
  *  Return value
  *      HANDLE_LDAC_ABR for success, NULL for failure.
  */
 LDAC_ABR_API HANDLE_LDAC_ABR ldac_ABR_get_handle(void);

 /* Release of LDAC ABR handle.
  *  Format
  *      void  ldac_ABR_free_handle( HANDLE_LDAC_ABR );
  *  Arguments
  *      hLdacAbr    HANDLE_LDAC_ABR    LDAC ABR handle.
  *  Return value
  *      None.
  */
 LDAC_ABR_API void ldac_ABR_free_handle(HANDLE_LDAC_ABR hLdacAbr);

 /* Initialize LDAC ABR.
  *  Format
  *      int  ldac_ABR_Init( HANDLE_LDAC_ABR, unsigned int );
  *  Arguments
  *      hLdacAbr        HANDLE_LDAC_ABR    LDAC ABR handle.
  *      interval_ms     unsigned int       interval in ms for calling ldac_ABR_Proc().
  *                                         interval of 1ms to 500ms is valid.
  *  Return value
  *      int: 0 for success, -1 for failure.
  */
 LDAC_ABR_API int ldac_ABR_Init(HANDLE_LDAC_ABR hLdacAbr, unsigned int interval_ms);

 /* Setup thresholds for LDAC ABR.
  *  Format
  *      int ldac_ABR_set_thresholds( HANDLE_LDAC_ABR, unsigned int, unsigned int, unsigned int );
  *  Arguments
  *      hLdacAbr            HANDLE_LDAC_ABR  LDAC ABR handle.
  *      thCritical          unsigned int     threshold for critical TxQueueDepth status.
  *      thDangerousTrend    unsigned int     threshold for dangerous trend of TxQueueDepth.
  *      thSafety4HQSQ       unsigned int     safety threshold for LDACBT_EQMID_HQ and
  *                                           LDACBT_EQMID_SQ.
  *  Return value
  *      int: 0 for success, -1 for failure.
  *  Remarks
  *    Those thresholds should be the number of packets stored in the TX queue and should be
  *    greater than 0.
  *    The thCritical and thDangerousTrend are used for all eqmid and thSafety4HQSQ is used
  *    only for LDACBT_EQMID_HQ and LDACBT_EQMID_SQ. Therefore, those thresholds must satisfy
  *    the following releationship:
  *        thCritical >= thDangerousTrend >= thSafety4HQSQ
  */
 LDAC_ABR_API int ldac_ABR_set_thresholds(HANDLE_LDAC_ABR hLdacAbr, unsigned int thCritical,
                                     unsigned int thDangerousTrend, unsigned int thSafety4HQSQ);

 /* LDAC ABR main process.
  *  Format
  *      int  ldac_ABR_Proc( HANDLE_LDAC_BT, HANDLE_LDAC_ABR, unsigned int, unsigned int );
  *  Arguments
  *      hLdacBt        HANDLE_LDAC_BT    LDAC handle.
  *      hLdacAbr       HANDLE_LDAC_ABR   LDAC ABR handle.
  *      TxQueueDepth   unsigned int      depth of TX queue.
  *      flagEnable     unsigned int      flag indicating whether ABR is allowed to adjust LDAC
  *                                       encode bitrate
  *  Return value
  *      int: updated Encode Quality Mode Index for success, -1 for failure.
  */
 LDAC_ABR_API int ldac_ABR_Proc(HANDLE_LDAC_BT hLdacBt, HANDLE_LDAC_ABR hLdacAbr,
                                  unsigned int TxQueueDepth, unsigned int flagEnable);
 #ifdef __cplusplus
 }
 #endif

 #endif /* _LDACBT_ABR_H_ */
	/*
	* Copyright (C) 2014 - 2017 Sony Corporation
	*
	* 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 _LDACBT_ABR_H_
	#define _LDACBT_ABR_H_

	/* This file contains the definitions, declarations and macros for an implementation of
	* LDAC Adaptive Bit Rate (hereinafter ABR) processing.
	*
	* The basic flow of the ABR processing is as follows:
	* - The program creates a handle of LDAC ABR API using ldac_ABR_get_handle().
	* - The program initializes the handle by setting the ldac_ABR_Proc() call interval to
	* ldac_ABR_Init().
	* The interval shall be as short as possible at the timing without accumulation
	* of packet in the buffer if propagation environment is fine.
	* - The program reinitializes the handle by calling ldac_ABR_Init() again when the
	* state of the TX queue changes greatly, such as clearing the queue.
	* - If the program demands to control the thresholds, then ldac_ABR_set_thresholds()
	* should be called.
	* - The program sets flagEnable to "1" when allowing LDAC encode bitrate to be
	* adjusted by ABR, and sets it to "0" if it is not allowed.
	* - The program calls ldac_ABR_Proc() at the interval set to ldac_ABR_Init() even if
	* flagEnable is "0".
	* The program passes TxQueueDepth and flagEnable to ldac_ABR_Proc() at this call,
	* LDAC encode bitrate is adjusted only when flagEnable is "1".
	* Otherwise, the internal parameters are updated and analyzed then returned.
	* The ABR handle adjusts eqmid based on TxQueueDepth which is passed from the program.
	* The ABR handle calls LDAC encode API ldacBT_alter_eqmid_priority() to adjust eqmid.
	* The ABR handle calls LDAC encode API ldacBT_get_eqmid() to get current eqmid.
	* - The handle may be released with ldac_ABR_free_handle().
	*
	* Notes on debugging LDAC ABR:
	* The meaning of "works fine" is that the bit rate will be low in case of bad radio situation
	* and high in case of good radio situation.
	*
	* The bit rate transition can be debug by checking logcat messages from LDAC ABR library which
	* built with the following changes in Android.bp:
	* - Adding "liblog" to shared_libs.
	* - Adding "-DLOCAL_DEBUG" to cflags.
	* The messages are formated as follows:
	* [LDAC ABR] - abrQualityModeID : 0 -- eqmid : 0 -- TxQue : 0
	* where abrQualityModeID and eqmid related to the current bit rate and TxQue shows the depth
	* of current Tx queue.
	* The relationship between abrQualityModeID, eqmid and the bit rate is described in
	* "ldacBT_abr.c".
	*
	* The bit rate transition can be estimated/debug by listening to the audio played on the SNK
	* device. This method cannot use to confirm the details of the bit rate transition, but useful
	* to know how LDAC ABR algorithm works in a field test without checking the log.
	* To try this method, rebuilding of the "libldacBT_enc" library with the following change in
	* Android.bp is required:
	* - Adding "-DUSE_LDAC_ENC_SETTING_FOR_ABR_DEBUG" to cflags.
	* By defining the above macro, the lower the bit rate, the greatly lower the bandwidth of the audio
	* played on the SNK device. Therefore, the audio played on the SNK device will sounds like a
	* low-pass filtered sound when the bit rate is low and will sounds as usual when the bit rate is
	* enough high. It is recommend using sound such as white noise to hear those changes for the first
	* time.
	*
	* IMPORTANT:
	* These libraries modified as described above shall be used only to confirm the bit rate transition
	* and SHALL NOT BE USED FOR FINAL PRODUCTS.
	*/

	#ifdef __cplusplus
	extern "C" {
	#endif

	#ifndef LDAC_ABR_API
	#define LDAC_ABR_API
	#endif /* LDAC_ABR_API */

	#include <ldacBT.h> /* HANDLE_LDAC_BT */

	/* LDAC ABR handle type*/
	typedef struct _ldacbt_abr_param * HANDLE_LDAC_ABR;

	/* Allocation of LDAC ABR handle.
	* Format
	* HANDLE_LDAC_ABR ldacBT_get_handle( void );
	* Arguments
	* None.
	* Return value
	* HANDLE_LDAC_ABR for success, NULL for failure.
	*/
	LDAC_ABR_API HANDLE_LDAC_ABR ldac_ABR_get_handle(void);

	/* Release of LDAC ABR handle.
	* Format
	* void ldac_ABR_free_handle( HANDLE_LDAC_ABR );
	* Arguments
	* hLdacAbr HANDLE_LDAC_ABR LDAC ABR handle.
	* Return value
	* None.
	*/
	LDAC_ABR_API void ldac_ABR_free_handle(HANDLE_LDAC_ABR hLdacAbr);

	/* Initialize LDAC ABR.
	* Format
	* int ldac_ABR_Init( HANDLE_LDAC_ABR, unsigned int );
	* Arguments
	* hLdacAbr HANDLE_LDAC_ABR LDAC ABR handle.
	* interval_ms unsigned int interval in ms for calling ldac_ABR_Proc().
	* interval of 1ms to 500ms is valid.
	* Return value
	* int: 0 for success, -1 for failure.
	*/
	LDAC_ABR_API int ldac_ABR_Init(HANDLE_LDAC_ABR hLdacAbr, unsigned int interval_ms);

	/* Setup thresholds for LDAC ABR.
	* Format
	* int ldac_ABR_set_thresholds( HANDLE_LDAC_ABR, unsigned int, unsigned int, unsigned int );
	* Arguments
	* hLdacAbr HANDLE_LDAC_ABR LDAC ABR handle.
	* thCritical unsigned int threshold for critical TxQueueDepth status.
	* thDangerousTrend unsigned int threshold for dangerous trend of TxQueueDepth.
	* thSafety4HQSQ unsigned int safety threshold for LDACBT_EQMID_HQ and
	* LDACBT_EQMID_SQ.
	* Return value
	* int: 0 for success, -1 for failure.
	* Remarks
	* Those thresholds should be the number of packets stored in the TX queue and should be
	* greater than 0.
	* The thCritical and thDangerousTrend are used for all eqmid and thSafety4HQSQ is used
	* only for LDACBT_EQMID_HQ and LDACBT_EQMID_SQ. Therefore, those thresholds must satisfy
	* the following releationship:
	* thCritical >= thDangerousTrend >= thSafety4HQSQ
	*/
	LDAC_ABR_API int ldac_ABR_set_thresholds(HANDLE_LDAC_ABR hLdacAbr, unsigned int thCritical,
	unsigned int thDangerousTrend, unsigned int thSafety4HQSQ);

	/* LDAC ABR main process.
	* Format
	* int ldac_ABR_Proc( HANDLE_LDAC_BT, HANDLE_LDAC_ABR, unsigned int, unsigned int );
	* Arguments
	* hLdacBt HANDLE_LDAC_BT LDAC handle.
	* hLdacAbr HANDLE_LDAC_ABR LDAC ABR handle.
	* TxQueueDepth unsigned int depth of TX queue.
	* flagEnable unsigned int flag indicating whether ABR is allowed to adjust LDAC
	* encode bitrate
	* Return value
	* int: updated Encode Quality Mode Index for success, -1 for failure.
	*/
	LDAC_ABR_API int ldac_ABR_Proc(HANDLE_LDAC_BT hLdacBt, HANDLE_LDAC_ABR hLdacAbr,
	unsigned int TxQueueDepth, unsigned int flagEnable);
	#ifdef __cplusplus
	}
	#endif

	#endif /* _LDACBT_ABR_H_ */