/* * 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 "ScalarArithmetic.h" #include "LVM_Macros.h" /********************************************************************************** FUNCTION LVC_Core_MixSoft_1St_2i_D16C31_WRA ***********************************************************************************/ void LVC_Core_MixSoft_1St_2i_D16C31_WRA( LVMixer3_st *ptrInstance1, LVMixer3_st *ptrInstance2, const LVM_INT16 *src, LVM_INT16 *dst, LVM_INT16 n) { LVM_INT16 OutLoop; LVM_INT16 InLoop; LVM_INT16 CurrentShortL; LVM_INT16 CurrentShortR; LVM_INT32 ii; Mix_Private_st *pInstanceL=(Mix_Private_st *)(ptrInstance1->PrivateParams); Mix_Private_st *pInstanceR=(Mix_Private_st *)(ptrInstance2->PrivateParams); LVM_INT32 DeltaL=pInstanceL->Delta; LVM_INT32 CurrentL=pInstanceL->Current; LVM_INT32 TargetL=pInstanceL->Target; LVM_INT32 DeltaR=pInstanceR->Delta; LVM_INT32 CurrentR=pInstanceR->Current; LVM_INT32 TargetR=pInstanceR->Target; LVM_INT32 Temp; InLoop = (LVM_INT16)(n >> 2); /* Process per 4 samples */ OutLoop = (LVM_INT16)(n - (InLoop << 2)); if (OutLoop) { if(CurrentL TargetL) CurrentL = TargetL; } else { CurrentL -= DeltaL; /* Q31 + Q31 into Q31*/ if (CurrentL < TargetL) CurrentL = TargetL; } if(CurrentR TargetR) CurrentR = TargetR; } else { CurrentR -= DeltaR; /* Q31 + Q31 into Q31*/ if (CurrentR < TargetR) CurrentR = TargetR; } CurrentShortL = (LVM_INT16)(CurrentL>>16); /* From Q31 to Q15*/ CurrentShortR = (LVM_INT16)(CurrentR>>16); /* From Q31 to Q15*/ for (ii = OutLoop*2; ii != 0; ii-=2) { *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortL)>>15); /* Q15*Q15>>15 into Q15 */ *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortR)>>15); /* Q15*Q15>>15 into Q15 */ } } for (ii = InLoop*2; ii != 0; ii-=2) { if(CurrentL TargetL) CurrentL = TargetL; } else { CurrentL -= DeltaL; /* Q31 + Q31 into Q31*/ if (CurrentL < TargetL) CurrentL = TargetL; } if(CurrentR TargetR) CurrentR = TargetR; } else { CurrentR -= DeltaR; /* Q31 + Q31 into Q31*/ if (CurrentR < TargetR) CurrentR = TargetR; } CurrentShortL = (LVM_INT16)(CurrentL>>16); /* From Q31 to Q15*/ CurrentShortR = (LVM_INT16)(CurrentR>>16); /* From Q31 to Q15*/ *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortL)>>15); /* Q15*Q15>>15 into Q15 */ *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortR)>>15); /* Q15*Q15>>15 into Q15 */ *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortL)>>15); *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortR)>>15); *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortL)>>15); *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortR)>>15); *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortL)>>15); *(dst++) = (LVM_INT16)(((LVM_INT32)*(src++) * (LVM_INT32)CurrentShortR)>>15); } pInstanceL->Current=CurrentL; pInstanceR->Current=CurrentR; } /**********************************************************************************/