/* * 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. */ /****************************************************************************************/ /* */ /* Includes */ /* */ /****************************************************************************************/ #include "LVEQNB.h" #include "LVEQNB_Private.h" #include "VectorArithmetic.h" #include "BIQUAD.h" #include /****************************************************************************************/ /* */ /* Defines */ /* */ /****************************************************************************************/ #define SHIFT 13 /****************************************************************************************/ /* */ /* FUNCTION: LVEQNB_Process */ /* */ /* DESCRIPTION: */ /* Process function for the N-Band Equaliser module. */ /* */ /* PARAMETERS: */ /* hInstance Instance handle */ /* pInData Pointer to the input data */ /* pOutData Pointer to the output data */ /* NumSamples Number of samples in the input buffer */ /* */ /* RETURNS: */ /* LVEQNB_SUCCESS Succeeded */ /* LVEQNB_NULLADDRESS When hInstance, pInData or pOutData are NULL */ /* LVEQNB_ALIGNMENTERROR When pInData or pOutData are not 32-bit aligned */ /* LVEQNB_TOOMANYSAMPLES NumSamples was larger than the maximum block size */ /* */ /* NOTES: */ /* */ /****************************************************************************************/ LVEQNB_ReturnStatus_en LVEQNB_Process( LVEQNB_Handle_t hInstance, const LVM_FLOAT* pInData, LVM_FLOAT* pOutData, const LVM_UINT16 NrFrames) { // updated to use samples = frames * channels. LVEQNB_Instance_t* pInstance = (LVEQNB_Instance_t*)hInstance; const LVM_INT32 NrChannels = pInstance->Params.NrChannels; const LVM_INT32 NrSamples = NrChannels * NrFrames; /* Check for NULL pointers */ if ((hInstance == LVM_NULL) || (pInData == LVM_NULL) || (pOutData == LVM_NULL)) { return LVEQNB_NULLADDRESS; } /* Check if the input and output data buffers are 32-bit aligned */ if ((((uintptr_t)pInData % 4) != 0) || (((uintptr_t)pOutData % 4) != 0)) { return LVEQNB_ALIGNMENTERROR; } LVM_FLOAT* const pScratch = (LVM_FLOAT*)pInstance->pFastTemporary; /* * Check the number of frames is not too large */ if (NrFrames > pInstance->Capabilities.MaxBlockSize) { return LVEQNB_TOOMANYSAMPLES; } if (pInstance->Params.OperatingMode == LVEQNB_ON) { /* * Copy input data in to scratch buffer */ Copy_Float(pInData, /* Source */ pScratch, /* Destination */ (LVM_INT16)NrSamples); /* * For each section execte the filter unless the gain is 0dB */ if (pInstance->NBands != 0) { for (LVM_UINT16 i = 0; i < pInstance->NBands; i++) { /* * Check if band is non-zero dB gain */ if (pInstance->pBandDefinitions[i].Gain != 0) { /* * Select single or double precision as required */ switch (pInstance->pBiquadType[i]) { case LVEQNB_SinglePrecision_Float: { LVM_FLOAT* pTemp = pScratch + NrSamples; pInstance->eqBiquad[i].process(pTemp, pScratch, NrFrames); const auto gain = pInstance->gain[i]; for (unsigned j = 0; j < NrSamples; ++j) { pScratch[j] += pTemp[j] * gain; } break; } default: break; } } } } if (pInstance->bInOperatingModeTransition == LVM_TRUE) { LVC_MixSoft_2Mc_D16C31_SAT(&pInstance->BypassMixer, pScratch, pInData, pScratch, (LVM_INT16)NrFrames, (LVM_INT16)NrChannels); // duplicate with else clause(s) Copy_Float(pScratch, /* Source */ pOutData, /* Destination */ (LVM_INT16)NrSamples); /* All channel samples */ } else { Copy_Float(pScratch, /* Source */ pOutData, /* Destination */ (LVM_INT16)NrSamples); /* All channel samples */ } } else { /* * Mode is OFF so copy the data if necessary */ if (pInData != pOutData) { Copy_Float(pInData, /* Source */ pOutData, /* Destination */ (LVM_INT16)NrSamples); /* All channel samples */ } } return LVEQNB_SUCCESS; }