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fuchsia / third_party / android / platform / frameworks / av / 218962f8cecee53d646ab4722e4f75079003420c / . / media / libeffects / lvm / lib / Common / src / LVC_Core_MixSoft_1St_D16C31_WRA.c
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/*
* 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 "LVM_Macros.h"
#include "ScalarArithmetic.h"
/**********************************************************************************
FUNCTION LVCore_MIXSOFT_1ST_D16C31_WRA
***********************************************************************************/
#ifdef BUILD_FLOAT
void LVC_Core_MixSoft_1St_D16C31_WRA(LVMixer3_FLOAT_st *ptrInstance,
const LVM_FLOAT *src,
LVM_FLOAT *dst,
LVM_INT16 n)
{
LVM_INT16 OutLoop;
LVM_INT16 InLoop;
LVM_INT32 ii;
Mix_Private_FLOAT_st *pInstance=(Mix_Private_FLOAT_st *)(ptrInstance->PrivateParams);
LVM_FLOAT Delta= (LVM_FLOAT)pInstance->Delta;
LVM_FLOAT Current = (LVM_FLOAT)pInstance->Current;
LVM_FLOAT Target= (LVM_FLOAT)pInstance->Target;
LVM_FLOAT Temp;
InLoop = (LVM_INT16)(n >> 2); /* Process per 4 samples */
OutLoop = (LVM_INT16)(n - (InLoop << 2));
if(Current<Target){
if (OutLoop){
Temp = Current + Delta;
if (Temp > 1.0f)
Temp = 1.0f;
else if (Temp < -1.0f)
Temp = -1.0f;
Current=Temp;
if (Current > Target)
Current = Target;
for (ii = OutLoop; ii != 0; ii--){
*(dst++) = (((LVM_FLOAT)*(src++) * (LVM_FLOAT)Current));
}
}
for (ii = InLoop; ii != 0; ii--){
Temp = Current + Delta;
if (Temp > 1.0f)
Temp = 1.0f;
else if (Temp < -1.0f)
Temp = -1.0f;
Current=Temp;
if (Current > Target)
Current = Target;
*(dst++) = (((LVM_FLOAT)*(src++) * Current) );
*(dst++) = (((LVM_FLOAT)*(src++) * Current) );
*(dst++) = (((LVM_FLOAT)*(src++) * Current) );
*(dst++) = (((LVM_FLOAT)*(src++) * Current) );
}
}
else{
if (OutLoop){
Current -= Delta;
if (Current < Target)
Current = Target;
for (ii = OutLoop; ii != 0; ii--){
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
}
}
for (ii = InLoop; ii != 0; ii--){
Current -= Delta;
if (Current < Target)
Current = Target;
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
}
}
pInstance->Current=Current;
}
#ifdef SUPPORT_MC
/*
* FUNCTION: LVC_Core_MixSoft_Mc_D16C31_WRA
*
* DESCRIPTION:
* Mixer function with support for processing multichannel input
*
* PARAMETERS:
* ptrInstance Instance pointer
* src Source
* dst Destination
* NrFrames Number of frames
* NrChannels Number of channels
*
* RETURNS:
* void
*
*/
void LVC_Core_MixSoft_Mc_D16C31_WRA(LVMixer3_FLOAT_st *ptrInstance,
const LVM_FLOAT *src,
LVM_FLOAT *dst,
LVM_INT16 NrFrames,
LVM_INT16 NrChannels)
{
LVM_INT16 OutLoop;
LVM_INT16 InLoop;
LVM_INT32 ii, jj;
Mix_Private_FLOAT_st *pInstance=(Mix_Private_FLOAT_st *)(ptrInstance->PrivateParams);
LVM_FLOAT Delta= (LVM_FLOAT)pInstance->Delta;
LVM_FLOAT Current = (LVM_FLOAT)pInstance->Current;
LVM_FLOAT Target= (LVM_FLOAT)pInstance->Target;
LVM_FLOAT Temp;
/*
* Same operation is performed on consecutive frames.
* So two frames are processed in one iteration and
* the loop will run only for half the NrFrames value times.
*/
InLoop = (LVM_INT16)(NrFrames >> 1);
/* OutLoop is calculated to handle cases where NrFrames value can be odd.*/
OutLoop = (LVM_INT16)(NrFrames - (InLoop << 1));
if (Current<Target) {
if (OutLoop) {
Temp = Current + Delta;
if (Temp > 1.0f)
Temp = 1.0f;
else if (Temp < -1.0f)
Temp = -1.0f;
Current=Temp;
if (Current > Target)
Current = Target;
for (ii = OutLoop; ii != 0; ii--) {
for (jj = NrChannels; jj !=0; jj--) {
*(dst++) = (((LVM_FLOAT)*(src++) * (LVM_FLOAT)Current));
}
}
}
for (ii = InLoop; ii != 0; ii--) {
Temp = Current + Delta;
if (Temp > 1.0f)
Temp = 1.0f;
else if (Temp < -1.0f)
Temp = -1.0f;
Current=Temp;
if (Current > Target)
Current = Target;
for (jj = NrChannels; jj != 0 ; jj--)
{
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
}
}
}
else{
if (OutLoop) {
Current -= Delta;
if (Current < Target)
Current = Target;
for (ii = OutLoop; ii != 0; ii--) {
for (jj = NrChannels; jj !=0; jj--) {
*(dst++) = (((LVM_FLOAT)*(src++) * (LVM_FLOAT)Current));
}
}
}
for (ii = InLoop; ii != 0; ii--) {
Current -= Delta;
if (Current < Target)
Current = Target;
for (jj = NrChannels; jj != 0 ; jj--)
{
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
*(dst++) = (((LVM_FLOAT)*(src++) * Current));
}
}
}
pInstance->Current=Current;
}
#endif
#else
void LVC_Core_MixSoft_1St_D16C31_WRA( LVMixer3_st *ptrInstance,
const LVM_INT16 *src,
LVM_INT16 *dst,
LVM_INT16 n)
{
LVM_INT16 OutLoop;
LVM_INT16 InLoop;
LVM_INT16 CurrentShort;
LVM_INT32 ii;
Mix_Private_st *pInstance=(Mix_Private_st *)(ptrInstance->PrivateParams);
LVM_INT32 Delta=pInstance->Delta;
LVM_INT32 Current=pInstance->Current;
LVM_INT32 Target=pInstance->Target;
LVM_INT32 Temp;
InLoop = (LVM_INT16)(n >> 2); /* Process per 4 samples */
OutLoop = (LVM_INT16)(n - (InLoop << 2));
if(Current<Target){
if (OutLoop){
ADD2_SAT_32x32(Current,Delta,Temp); /* Q31 + Q31 into Q31*/
Current=Temp;
if (Current > Target)
Current = Target;
CurrentShort = (LVM_INT16)(Current>>16); /* From Q31 to Q15*/
for (ii = OutLoop; ii != 0; ii--){
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15); /* Q15*Q15>>15 into Q15 */
}
}
for (ii = InLoop; ii != 0; ii--){
ADD2_SAT_32x32(Current,Delta,Temp); /* Q31 + Q31 into Q31*/
Current=Temp;
if (Current > Target)
Current = Target;
CurrentShort = (LVM_INT16)(Current>>16); /* From Q31 to Q15*/
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15); /* Q15*Q15>>15 into Q15 */
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
}
}
else{
if (OutLoop){
Current -= Delta; /* Q31 + Q31 into Q31*/
if (Current < Target)
Current = Target;
CurrentShort = (LVM_INT16)(Current>>16); /* From Q31 to Q15*/
for (ii = OutLoop; ii != 0; ii--){
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15); /* Q15*Q15>>15 into Q15 */
}
}
for (ii = InLoop; ii != 0; ii--){
Current -= Delta; /* Q31 + Q31 into Q31*/
if (Current < Target)
Current = Target;
CurrentShort = (LVM_INT16)(Current>>16); /* From Q31 to Q15*/
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15); /* Q15*Q15>>15 into Q15 */
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
*(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShort)>>15);
}
}
pInstance->Current=Current;
}
#endif
/**********************************************************************************/