media/libeffects/lvm/lib/Common/src/LVC_MixSoft_1St_2i_D16C31_SAT.c - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2004-2010 NXP Software
  * Copyright (C) 2010 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.
  */

 /**********************************************************************************
    INCLUDE FILES
 ***********************************************************************************/

 #include "LVC_Mixer_Private.h"
 #include "VectorArithmetic.h"
 #include "ScalarArithmetic.h"

 /**********************************************************************************
    DEFINITIONS
 ***********************************************************************************/

 #define TRUE          1
 #define FALSE         0

 /**********************************************************************************
    FUNCTION LVC_MixSoft_1St_2i_D16C31_SAT
 ***********************************************************************************/
 #ifdef BUILD_FLOAT
 void LVC_MixSoft_1St_2i_D16C31_SAT( LVMixer3_2St_FLOAT_st *ptrInstance,
                                     const LVM_FLOAT             *src,
                                     LVM_FLOAT             *dst,
                                     LVM_INT16             n)
 {
     char        HardMixing = TRUE;
     LVM_FLOAT   TargetGain;
     Mix_Private_FLOAT_st  *pInstance1 = \
                               (Mix_Private_FLOAT_st *)(ptrInstance->MixerStream[0].PrivateParams);
     Mix_Private_FLOAT_st  *pInstance2 = \
                               (Mix_Private_FLOAT_st *)(ptrInstance->MixerStream[1].PrivateParams);

     if(n <= 0)    return;

     /******************************************************************************
        SOFT MIXING
     *******************************************************************************/
     if ((pInstance1->Current != pInstance1->Target) || (pInstance2->Current != pInstance2->Target))
     {
         if(pInstance1->Delta == 1.0f)
         {
             pInstance1->Current = pInstance1->Target;
             TargetGain = pInstance1->Target;
             LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]), TargetGain);
         }
         else if (Abs_Float(pInstance1->Current - pInstance1->Target) < pInstance1->Delta)
         {
             pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. \
                                                          Make them equal. */
             TargetGain = pInstance1->Target;
             LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]), TargetGain);
         }
         else
         {
             /* Soft mixing has to be applied */
             HardMixing = FALSE;
         }

         if(HardMixing == TRUE)
         {
             if(pInstance2->Delta == 1.0f)
             {
                 pInstance2->Current = pInstance2->Target;
                 TargetGain = pInstance2->Target;
                 LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]), TargetGain);
             }
             else if (Abs_Float(pInstance2->Current - pInstance2->Target) < pInstance2->Delta)
             {
                 pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore. \
                                                              Make them equal. */
                 TargetGain = pInstance2->Target;
                 LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]), TargetGain);
             }
             else
             {
                 /* Soft mixing has to be applied */
                 HardMixing = FALSE;
             }
         }

         if(HardMixing == FALSE)
         {
              LVC_Core_MixSoft_1St_2i_D16C31_WRA( &(ptrInstance->MixerStream[0]),
                                                  &(ptrInstance->MixerStream[1]),
                                                  src, dst, n);
         }
     }

     /******************************************************************************
        HARD MIXING
     *******************************************************************************/

     if (HardMixing)
     {
         if ((pInstance1->Target == 1.0f) && (pInstance2->Target == 1.0f))
         {
             if(src != dst)
             {
                 Copy_Float(src, dst, n);
             }
         }
         else
         {
             LVC_Core_MixHard_1St_2i_D16C31_SAT(&(ptrInstance->MixerStream[0]),
                                                &(ptrInstance->MixerStream[1]),
                                                src, dst, n);
         }
     }

     /******************************************************************************
        CALL BACK
     *******************************************************************************/

     if (ptrInstance->MixerStream[0].CallbackSet)
     {
         if (Abs_Float(pInstance1->Current - pInstance1->Target) < pInstance1->Delta)
         {
             pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. \
                                                          Make them equal. */
             TargetGain = pInstance1->Target;
             LVC_Mixer_SetTarget(&ptrInstance->MixerStream[0], TargetGain);
             ptrInstance->MixerStream[0].CallbackSet = FALSE;
             if (ptrInstance->MixerStream[0].pCallBack != 0)
             {
                 (*ptrInstance->MixerStream[0].pCallBack) ( \
                                                 ptrInstance->MixerStream[0].pCallbackHandle,
                                                 ptrInstance->MixerStream[0].pGeneralPurpose,
                                                 ptrInstance->MixerStream[0].CallbackParam );
             }
         }
     }
     if (ptrInstance->MixerStream[1].CallbackSet)
     {
         if (Abs_Float(pInstance2->Current - pInstance2->Target) < pInstance2->Delta)
         {
             pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore.
                                                          Make them equal. */
             TargetGain = pInstance2->Target;
             LVC_Mixer_SetTarget(&ptrInstance->MixerStream[1], TargetGain);
             ptrInstance->MixerStream[1].CallbackSet = FALSE;
             if (ptrInstance->MixerStream[1].pCallBack != 0)
             {
                 (*ptrInstance->MixerStream[1].pCallBack) (
                                                 ptrInstance->MixerStream[1].pCallbackHandle,
                                                 ptrInstance->MixerStream[1].pGeneralPurpose,
                                                 ptrInstance->MixerStream[1].CallbackParam );
             }
         }
     }
 }
 #else
 void LVC_MixSoft_1St_2i_D16C31_SAT( LVMixer3_2St_st *ptrInstance,
                                   const LVM_INT16             *src,
                                         LVM_INT16             *dst,
                                         LVM_INT16             n)
 {
     char        HardMixing = TRUE;
     LVM_INT32   TargetGain;
     Mix_Private_st  *pInstance1=(Mix_Private_st *)(ptrInstance->MixerStream[0].PrivateParams);
     Mix_Private_st  *pInstance2=(Mix_Private_st *)(ptrInstance->MixerStream[1].PrivateParams);

     if(n<=0)    return;

     /******************************************************************************
        SOFT MIXING
     *******************************************************************************/
     if ((pInstance1->Current != pInstance1->Target)||(pInstance2->Current != pInstance2->Target))
     {
         if(pInstance1->Delta == 0x7FFFFFFF)
         {
             pInstance1->Current = pInstance1->Target;
             TargetGain=pInstance1->Target>>16;  // TargetGain in Q16.15 format, no integer part
             LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]),TargetGain);
         }
         else if (Abs_32(pInstance1->Current-pInstance1->Target) < pInstance1->Delta)
         {
             pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore.  Make them equal. */
             TargetGain=pInstance1->Target>>16;  // TargetGain in Q16.15 format, no integer part
             LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]),TargetGain);
         }
         else
         {
             /* Soft mixing has to be applied */
             HardMixing = FALSE;
         }

         if(HardMixing == TRUE)
         {
             if(pInstance2->Delta == 0x7FFFFFFF)
             {
                 pInstance2->Current = pInstance2->Target;
                 TargetGain=pInstance2->Target>>16;  // TargetGain in Q16.15 format, no integer part
                 LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]),TargetGain);
             }
             else if (Abs_32(pInstance2->Current-pInstance2->Target) < pInstance2->Delta)
             {
                 pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore.  Make them equal. */
                 TargetGain=pInstance2->Target>>16;  // TargetGain in Q16.15 format, no integer part
                 LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]),TargetGain);
             }
             else
             {
                 /* Soft mixing has to be applied */
                 HardMixing = FALSE;
             }
         }

         if(HardMixing == FALSE)
         {
              LVC_Core_MixSoft_1St_2i_D16C31_WRA( &(ptrInstance->MixerStream[0]),&(ptrInstance->MixerStream[1]), src, dst, n);
         }
     }

     /******************************************************************************
        HARD MIXING
     *******************************************************************************/

     if (HardMixing)
     {
         if (((pInstance1->Target>>16) == 0x7FFF)&&((pInstance2->Target>>16) == 0x7FFF))
         {
             if(src!=dst)
             {
                 Copy_16(src, dst, n);
             }
         }
         else
         {
             LVC_Core_MixHard_1St_2i_D16C31_SAT(&(ptrInstance->MixerStream[0]),&(ptrInstance->MixerStream[1]), src, dst, n);
         }
     }

     /******************************************************************************
        CALL BACK
     *******************************************************************************/

     if (ptrInstance->MixerStream[0].CallbackSet)
     {
         if (Abs_32(pInstance1->Current-pInstance1->Target) < pInstance1->Delta)
         {
             pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore.  Make them equal. */
             TargetGain=pInstance1->Target>>(16-pInstance1->Shift);  // TargetGain in Q16.15 format
             LVC_Mixer_SetTarget(&ptrInstance->MixerStream[0],TargetGain);
             ptrInstance->MixerStream[0].CallbackSet = FALSE;
             if (ptrInstance->MixerStream[0].pCallBack != 0)
             {
                 (*ptrInstance->MixerStream[0].pCallBack) ( ptrInstance->MixerStream[0].pCallbackHandle, ptrInstance->MixerStream[0].pGeneralPurpose,ptrInstance->MixerStream[0].CallbackParam );
             }
         }
     }
     if (ptrInstance->MixerStream[1].CallbackSet)
     {
         if (Abs_32(pInstance2->Current-pInstance2->Target) < pInstance2->Delta)
         {
             pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore.  Make them equal. */
             TargetGain=pInstance2->Target>>(16-pInstance2->Shift);  // TargetGain in Q16.15 format
             LVC_Mixer_SetTarget(&ptrInstance->MixerStream[1],TargetGain);
             ptrInstance->MixerStream[1].CallbackSet = FALSE;
             if (ptrInstance->MixerStream[1].pCallBack != 0)
             {
                 (*ptrInstance->MixerStream[1].pCallBack) ( ptrInstance->MixerStream[1].pCallbackHandle, ptrInstance->MixerStream[1].pGeneralPurpose,ptrInstance->MixerStream[1].CallbackParam );
             }
         }
     }
 }
 #endif
 /**********************************************************************************/
	/*
	* Copyright (C) 2004-2010 NXP Software
	* Copyright (C) 2010 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.
	*/

	/**********************************************************************************
	INCLUDE FILES
	***********************************************************************************/

	#include "LVC_Mixer_Private.h"
	#include "VectorArithmetic.h"
	#include "ScalarArithmetic.h"

	/**********************************************************************************
	DEFINITIONS
	***********************************************************************************/

	#define TRUE 1
	#define FALSE 0

	/**********************************************************************************
	FUNCTION LVC_MixSoft_1St_2i_D16C31_SAT
	***********************************************************************************/
	#ifdef BUILD_FLOAT
	void LVC_MixSoft_1St_2i_D16C31_SAT( LVMixer3_2St_FLOAT_st *ptrInstance,
	const LVM_FLOAT *src,
	LVM_FLOAT *dst,
	LVM_INT16 n)
	{
	char HardMixing = TRUE;
	LVM_FLOAT TargetGain;
	Mix_Private_FLOAT_st *pInstance1 = \
	(Mix_Private_FLOAT_st *)(ptrInstance->MixerStream[0].PrivateParams);
	Mix_Private_FLOAT_st *pInstance2 = \
	(Mix_Private_FLOAT_st *)(ptrInstance->MixerStream[1].PrivateParams);

	if(n <= 0) return;

	/******************************************************************************
	SOFT MIXING
	*******************************************************************************/
	if ((pInstance1->Current != pInstance1->Target) \|\| (pInstance2->Current != pInstance2->Target))
	{
	if(pInstance1->Delta == 1.0f)
	{
	pInstance1->Current = pInstance1->Target;
	TargetGain = pInstance1->Target;
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]), TargetGain);
	}
	else if (Abs_Float(pInstance1->Current - pInstance1->Target) < pInstance1->Delta)
	{
	pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. \
	Make them equal. */
	TargetGain = pInstance1->Target;
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]), TargetGain);
	}
	else
	{
	/* Soft mixing has to be applied */
	HardMixing = FALSE;
	}

	if(HardMixing == TRUE)
	{
	if(pInstance2->Delta == 1.0f)
	{
	pInstance2->Current = pInstance2->Target;
	TargetGain = pInstance2->Target;
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]), TargetGain);
	}
	else if (Abs_Float(pInstance2->Current - pInstance2->Target) < pInstance2->Delta)
	{
	pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore. \
	Make them equal. */
	TargetGain = pInstance2->Target;
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]), TargetGain);
	}
	else
	{
	/* Soft mixing has to be applied */
	HardMixing = FALSE;
	}
	}

	if(HardMixing == FALSE)
	{
	LVC_Core_MixSoft_1St_2i_D16C31_WRA( &(ptrInstance->MixerStream[0]),
	&(ptrInstance->MixerStream[1]),
	src, dst, n);
	}
	}

	/******************************************************************************
	HARD MIXING
	*******************************************************************************/

	if (HardMixing)
	{
	if ((pInstance1->Target == 1.0f) && (pInstance2->Target == 1.0f))
	{
	if(src != dst)
	{
	Copy_Float(src, dst, n);
	}
	}
	else
	{
	LVC_Core_MixHard_1St_2i_D16C31_SAT(&(ptrInstance->MixerStream[0]),
	&(ptrInstance->MixerStream[1]),
	src, dst, n);
	}
	}

	/******************************************************************************
	CALL BACK
	*******************************************************************************/

	if (ptrInstance->MixerStream[0].CallbackSet)
	{
	if (Abs_Float(pInstance1->Current - pInstance1->Target) < pInstance1->Delta)
	{
	pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. \
	Make them equal. */
	TargetGain = pInstance1->Target;
	LVC_Mixer_SetTarget(&ptrInstance->MixerStream[0], TargetGain);
	ptrInstance->MixerStream[0].CallbackSet = FALSE;
	if (ptrInstance->MixerStream[0].pCallBack != 0)
	{
	(*ptrInstance->MixerStream[0].pCallBack) ( \
	ptrInstance->MixerStream[0].pCallbackHandle,
	ptrInstance->MixerStream[0].pGeneralPurpose,
	ptrInstance->MixerStream[0].CallbackParam );
	}
	}
	}
	if (ptrInstance->MixerStream[1].CallbackSet)
	{
	if (Abs_Float(pInstance2->Current - pInstance2->Target) < pInstance2->Delta)
	{
	pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore.
	Make them equal. */
	TargetGain = pInstance2->Target;
	LVC_Mixer_SetTarget(&ptrInstance->MixerStream[1], TargetGain);
	ptrInstance->MixerStream[1].CallbackSet = FALSE;
	if (ptrInstance->MixerStream[1].pCallBack != 0)
	{
	(*ptrInstance->MixerStream[1].pCallBack) (
	ptrInstance->MixerStream[1].pCallbackHandle,
	ptrInstance->MixerStream[1].pGeneralPurpose,
	ptrInstance->MixerStream[1].CallbackParam );
	}
	}
	}
	}
	#else
	void LVC_MixSoft_1St_2i_D16C31_SAT( LVMixer3_2St_st *ptrInstance,
	const LVM_INT16 *src,
	LVM_INT16 *dst,
	LVM_INT16 n)
	{
	char HardMixing = TRUE;
	LVM_INT32 TargetGain;
	Mix_Private_st pInstance1=(Mix_Private_st )(ptrInstance->MixerStream[0].PrivateParams);
	Mix_Private_st pInstance2=(Mix_Private_st )(ptrInstance->MixerStream[1].PrivateParams);

	if(n<=0) return;

	/******************************************************************************
	SOFT MIXING
	*******************************************************************************/
	if ((pInstance1->Current != pInstance1->Target)\|\|(pInstance2->Current != pInstance2->Target))
	{
	if(pInstance1->Delta == 0x7FFFFFFF)
	{
	pInstance1->Current = pInstance1->Target;
	TargetGain=pInstance1->Target>>16; // TargetGain in Q16.15 format, no integer part
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]),TargetGain);
	}
	else if (Abs_32(pInstance1->Current-pInstance1->Target) < pInstance1->Delta)
	{
	pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. Make them equal. */
	TargetGain=pInstance1->Target>>16; // TargetGain in Q16.15 format, no integer part
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[0]),TargetGain);
	}
	else
	{
	/* Soft mixing has to be applied */
	HardMixing = FALSE;
	}

	if(HardMixing == TRUE)
	{
	if(pInstance2->Delta == 0x7FFFFFFF)
	{
	pInstance2->Current = pInstance2->Target;
	TargetGain=pInstance2->Target>>16; // TargetGain in Q16.15 format, no integer part
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]),TargetGain);
	}
	else if (Abs_32(pInstance2->Current-pInstance2->Target) < pInstance2->Delta)
	{
	pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore. Make them equal. */
	TargetGain=pInstance2->Target>>16; // TargetGain in Q16.15 format, no integer part
	LVC_Mixer_SetTarget(&(ptrInstance->MixerStream[1]),TargetGain);
	}
	else
	{
	/* Soft mixing has to be applied */
	HardMixing = FALSE;
	}
	}

	if(HardMixing == FALSE)
	{
	LVC_Core_MixSoft_1St_2i_D16C31_WRA( &(ptrInstance->MixerStream[0]),&(ptrInstance->MixerStream[1]), src, dst, n);
	}
	}

	/******************************************************************************
	HARD MIXING
	*******************************************************************************/

	if (HardMixing)
	{
	if (((pInstance1->Target>>16) == 0x7FFF)&&((pInstance2->Target>>16) == 0x7FFF))
	{
	if(src!=dst)
	{
	Copy_16(src, dst, n);
	}
	}
	else
	{
	LVC_Core_MixHard_1St_2i_D16C31_SAT(&(ptrInstance->MixerStream[0]),&(ptrInstance->MixerStream[1]), src, dst, n);
	}
	}

	/******************************************************************************
	CALL BACK
	*******************************************************************************/

	if (ptrInstance->MixerStream[0].CallbackSet)
	{
	if (Abs_32(pInstance1->Current-pInstance1->Target) < pInstance1->Delta)
	{
	pInstance1->Current = pInstance1->Target; /* Difference is not significant anymore. Make them equal. */
	TargetGain=pInstance1->Target>>(16-pInstance1->Shift); // TargetGain in Q16.15 format
	LVC_Mixer_SetTarget(&ptrInstance->MixerStream[0],TargetGain);
	ptrInstance->MixerStream[0].CallbackSet = FALSE;
	if (ptrInstance->MixerStream[0].pCallBack != 0)
	{
	(*ptrInstance->MixerStream[0].pCallBack) ( ptrInstance->MixerStream[0].pCallbackHandle, ptrInstance->MixerStream[0].pGeneralPurpose,ptrInstance->MixerStream[0].CallbackParam );
	}
	}
	}
	if (ptrInstance->MixerStream[1].CallbackSet)
	{
	if (Abs_32(pInstance2->Current-pInstance2->Target) < pInstance2->Delta)
	{
	pInstance2->Current = pInstance2->Target; /* Difference is not significant anymore. Make them equal. */
	TargetGain=pInstance2->Target>>(16-pInstance2->Shift); // TargetGain in Q16.15 format
	LVC_Mixer_SetTarget(&ptrInstance->MixerStream[1],TargetGain);
	ptrInstance->MixerStream[1].CallbackSet = FALSE;
	if (ptrInstance->MixerStream[1].pCallBack != 0)
	{
	(*ptrInstance->MixerStream[1].pCallBack) ( ptrInstance->MixerStream[1].pCallbackHandle, ptrInstance->MixerStream[1].pGeneralPurpose,ptrInstance->MixerStream[1].CallbackParam );
	}
	}
	}
	}
	#endif
	/**********************************************************************************/