1 /* 2 * Copyright (C) 2004-2010 NXP Software 3 * Copyright (C) 2010 The Android Open Source Project 4 * 5 * Licensed under the Apache License, Version 2.0 (the "License"); 6 * you may not use this file except in compliance with the License. 7 * You may obtain a copy of the License at 8 * 9 * http://www.apache.org/licenses/LICENSE-2.0 10 * 11 * Unless required by applicable law or agreed to in writing, software 12 * distributed under the License is distributed on an "AS IS" BASIS, 13 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14 * See the License for the specific language governing permissions and 15 * limitations under the License. 16 */ 17 18 #include "LVPSA.h" 19 #include "LVPSA_Private.h" 20 #include "InstAlloc.h" 21 22 /************************************************************************************/ 23 /* */ 24 /* FUNCTION: LVPSA_Init */ 25 /* */ 26 /* DESCRIPTION: */ 27 /* Initialize the LVPSA module */ 28 /* */ 29 /* */ 30 /* PARAMETERS: */ 31 /* phInstance Pointer to pointer to the instance */ 32 /* InitParams Init parameters structure */ 33 /* ControlParams Control parameters structure */ 34 /* pMemoryTable Memory table that contains memory areas definition */ 35 /* */ 36 /* */ 37 /* RETURNS: */ 38 /* LVPSA_OK Succeeds */ 39 /* otherwise Error due to bad parameters */ 40 /* */ 41 /************************************************************************************/ 42 LVPSA_RETURN LVPSA_Init ( pLVPSA_Handle_t *phInstance, 43 LVPSA_InitParams_t *pInitParams, 44 LVPSA_ControlParams_t *pControlParams, 45 LVPSA_MemTab_t *pMemoryTable ) 46 { 47 LVPSA_InstancePr_t *pLVPSA_Inst; 48 LVPSA_RETURN errorCode = LVPSA_OK; 49 LVM_UINT32 ii; 50 extern LVM_INT16 LVPSA_GainTable[]; 51 LVM_UINT32 BufferLength = 0; 52 53 /* Ints_Alloc instances, needed for memory alignment management */ 54 INST_ALLOC Instance; 55 INST_ALLOC Scratch; 56 INST_ALLOC Data; 57 INST_ALLOC Coef; 58 59 /* Check parameters */ 60 if((phInstance == LVM_NULL) || (pInitParams == LVM_NULL) || (pControlParams == LVM_NULL) || (pMemoryTable == LVM_NULL)) 61 { 62 return(LVPSA_ERROR_NULLADDRESS); 63 } 64 if( (pInitParams->SpectralDataBufferDuration > LVPSA_MAXBUFFERDURATION) || 65 (pInitParams->SpectralDataBufferDuration == 0) || 66 (pInitParams->MaxInputBlockSize > LVPSA_MAXINPUTBLOCKSIZE) || 67 (pInitParams->MaxInputBlockSize == 0) || 68 (pInitParams->nBands < LVPSA_NBANDSMIN) || 69 (pInitParams->nBands > LVPSA_NBANDSMAX) || 70 (pInitParams->pFiltersParams == 0)) 71 { 72 return(LVPSA_ERROR_INVALIDPARAM); 73 } 74 for(ii = 0; ii < pInitParams->nBands; ii++) 75 { 76 if((pInitParams->pFiltersParams[ii].CenterFrequency > LVPSA_MAXCENTERFREQ) || 77 (pInitParams->pFiltersParams[ii].PostGain > LVPSA_MAXPOSTGAIN) || 78 (pInitParams->pFiltersParams[ii].PostGain < LVPSA_MINPOSTGAIN) || 79 (pInitParams->pFiltersParams[ii].QFactor < LVPSA_MINQFACTOR) || 80 (pInitParams->pFiltersParams[ii].QFactor > LVPSA_MAXQFACTOR)) 81 { 82 return(LVPSA_ERROR_INVALIDPARAM); 83 } 84 } 85 86 87 /*Inst_Alloc instances initialization */ 88 InstAlloc_Init( &Instance , pMemoryTable->Region[LVPSA_MEMREGION_INSTANCE].pBaseAddress); 89 InstAlloc_Init( &Scratch , pMemoryTable->Region[LVPSA_MEMREGION_SCRATCH].pBaseAddress); 90 InstAlloc_Init( &Data , pMemoryTable->Region[LVPSA_MEMREGION_PERSISTENT_DATA].pBaseAddress); 91 InstAlloc_Init( &Coef , pMemoryTable->Region[LVPSA_MEMREGION_PERSISTENT_COEF].pBaseAddress); 92 93 94 /* Set the instance handle if not already initialised */ 95 if (*phInstance == LVM_NULL) 96 { 97 *phInstance = InstAlloc_AddMember( &Instance, sizeof(LVPSA_InstancePr_t) ); 98 } 99 pLVPSA_Inst =(LVPSA_InstancePr_t*)*phInstance; 100 101 102 /* Check the memory table for NULL pointers */ 103 for (ii = 0; ii < LVPSA_NR_MEMORY_REGIONS; ii++) 104 { 105 if (pMemoryTable->Region[ii].Size!=0) 106 { 107 if (pMemoryTable->Region[ii].pBaseAddress==LVM_NULL) 108 { 109 return(LVPSA_ERROR_NULLADDRESS); 110 } 111 pLVPSA_Inst->MemoryTable.Region[ii] = pMemoryTable->Region[ii]; 112 } 113 } 114 115 /* Initialize module's internal parameters */ 116 pLVPSA_Inst->bControlPending = LVM_FALSE; 117 pLVPSA_Inst->nBands = pInitParams->nBands; 118 pLVPSA_Inst->MaxInputBlockSize = pInitParams->MaxInputBlockSize; 119 pLVPSA_Inst->SpectralDataBufferDuration = pInitParams->SpectralDataBufferDuration; 120 pLVPSA_Inst->CurrentParams.Fs = LVM_FS_DUMMY; 121 pLVPSA_Inst->CurrentParams.LevelDetectionSpeed = LVPSA_SPEED_DUMMY; 122 123 { /* for avoiding QAC warnings */ 124 LVM_INT32 SDBD=(LVM_INT32)pLVPSA_Inst->SpectralDataBufferDuration; 125 LVM_INT32 IRTI=(LVM_INT32)LVPSA_InternalRefreshTimeInv; 126 LVM_INT32 BL; 127 128 MUL32x32INTO32(SDBD,IRTI,BL,LVPSA_InternalRefreshTimeShift) 129 130 BufferLength=(LVM_UINT32)BL; 131 } 132 133 if((BufferLength * LVPSA_InternalRefreshTime) != pLVPSA_Inst->SpectralDataBufferDuration) 134 { 135 pLVPSA_Inst->SpectralDataBufferLength = BufferLength + 1; 136 } 137 else 138 { 139 pLVPSA_Inst->SpectralDataBufferLength = BufferLength; 140 } 141 142 143 /* Assign the pointers */ 144 145 pLVPSA_Inst->pPostGains = InstAlloc_AddMember( &Instance, pInitParams->nBands * sizeof(LVM_UINT16) ); 146 pLVPSA_Inst->pFiltersParams = InstAlloc_AddMember( &Instance, pInitParams->nBands * sizeof(LVPSA_FilterParam_t) ); 147 pLVPSA_Inst->pSpectralDataBufferStart = InstAlloc_AddMember( &Instance, pInitParams->nBands * pLVPSA_Inst->SpectralDataBufferLength * sizeof(LVM_UINT8) ); 148 pLVPSA_Inst->pPreviousPeaks = InstAlloc_AddMember( &Instance, pInitParams->nBands * sizeof(LVM_UINT8) ); 149 pLVPSA_Inst->pBPFiltersPrecision = InstAlloc_AddMember( &Instance, pInitParams->nBands * sizeof(LVPSA_BPFilterPrecision_en) ); 150 151 pLVPSA_Inst->pBP_Instances = InstAlloc_AddMember( &Coef, pInitParams->nBands * sizeof(Biquad_Instance_t) ); 152 pLVPSA_Inst->pQPD_States = InstAlloc_AddMember( &Coef, pInitParams->nBands * sizeof(QPD_State_t) ); 153 154 pLVPSA_Inst->pBP_Taps = InstAlloc_AddMember( &Data, pInitParams->nBands * sizeof(Biquad_1I_Order2_Taps_t) ); 155 pLVPSA_Inst->pQPD_Taps = InstAlloc_AddMember( &Data, pInitParams->nBands * sizeof(QPD_Taps_t) ); 156 157 158 /* Copy filters parameters in the private instance */ 159 for(ii = 0; ii < pLVPSA_Inst->nBands; ii++) 160 { 161 pLVPSA_Inst->pFiltersParams[ii] = pInitParams->pFiltersParams[ii]; 162 } 163 164 /* Set Post filters gains*/ 165 for(ii = 0; ii < pLVPSA_Inst->nBands; ii++) 166 { 167 pLVPSA_Inst->pPostGains[ii] =(LVM_UINT16) LVPSA_GainTable[pInitParams->pFiltersParams[ii].PostGain + 15]; 168 } 169 pLVPSA_Inst->pSpectralDataBufferWritePointer = pLVPSA_Inst->pSpectralDataBufferStart; 170 171 172 /* Initialize control dependant internal parameters */ 173 errorCode = LVPSA_Control (*phInstance, pControlParams); 174 175 if(errorCode!=0) 176 { 177 return errorCode; 178 } 179 180 errorCode = LVPSA_ApplyNewSettings (pLVPSA_Inst); 181 182 if(errorCode!=0) 183 { 184 return errorCode; 185 } 186 187 return(errorCode); 188 } 189 190
