1df25739fSMilanka Ringwald /****************************************************************************** 2df25739fSMilanka Ringwald * 3df25739fSMilanka Ringwald * Copyright (C) 1999-2012 Broadcom Corporation 4df25739fSMilanka Ringwald * 5df25739fSMilanka Ringwald * Licensed under the Apache License, Version 2.0 (the "License"); 6df25739fSMilanka Ringwald * you may not use this file except in compliance with the License. 7df25739fSMilanka Ringwald * You may obtain a copy of the License at: 8df25739fSMilanka Ringwald * 9df25739fSMilanka Ringwald * http://www.apache.org/licenses/LICENSE-2.0 10df25739fSMilanka Ringwald * 11df25739fSMilanka Ringwald * Unless required by applicable law or agreed to in writing, software 12df25739fSMilanka Ringwald * distributed under the License is distributed on an "AS IS" BASIS, 13df25739fSMilanka Ringwald * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 14df25739fSMilanka Ringwald * See the License for the specific language governing permissions and 15df25739fSMilanka Ringwald * limitations under the License. 16df25739fSMilanka Ringwald * 17df25739fSMilanka Ringwald ******************************************************************************/ 18df25739fSMilanka Ringwald 19df25739fSMilanka Ringwald /****************************************************************************** 20df25739fSMilanka Ringwald * 21df25739fSMilanka Ringwald * This file contains code for packing the Encoded data into bit streams. 22df25739fSMilanka Ringwald * 23df25739fSMilanka Ringwald ******************************************************************************/ 24df25739fSMilanka Ringwald 25df25739fSMilanka Ringwald #include "sbc_encoder.h" 26df25739fSMilanka Ringwald #include "sbc_enc_func_declare.h" 27df25739fSMilanka Ringwald 28df25739fSMilanka Ringwald #if (SBC_ARM_ASM_OPT==TRUE) 29df25739fSMilanka Ringwald #define Mult32(s32In1,s32In2,s32OutLow) \ 30df25739fSMilanka Ringwald { \ 31df25739fSMilanka Ringwald __asm \ 32df25739fSMilanka Ringwald { \ 33df25739fSMilanka Ringwald MUL s32OutLow,s32In1,s32In2; \ 34df25739fSMilanka Ringwald } \ 35df25739fSMilanka Ringwald } 36df25739fSMilanka Ringwald #define Mult64(s32In1, s32In2, s32OutLow, s32OutHi) \ 37df25739fSMilanka Ringwald { \ 38df25739fSMilanka Ringwald __asm \ 39df25739fSMilanka Ringwald { \ 40df25739fSMilanka Ringwald SMULL s32OutLow,s32OutHi,s32In1,s32In2 \ 41df25739fSMilanka Ringwald } \ 42df25739fSMilanka Ringwald } 43df25739fSMilanka Ringwald #else 44df25739fSMilanka Ringwald #define Mult32(s32In1,s32In2,s32OutLow) s32OutLow=(SINT32)s32In1*(SINT32)s32In2; 45df25739fSMilanka Ringwald #define Mult64(s32In1, s32In2, s32OutLow, s32OutHi) \ 46df25739fSMilanka Ringwald { \ 47df25739fSMilanka Ringwald s32OutLow = ((SINT32)(UINT16)s32In1 * (UINT16)s32In2); \ 48df25739fSMilanka Ringwald s32TempVal2 = (SINT32)((s32In1 >> 16) * (UINT16)s32In2); \ 49df25739fSMilanka Ringwald s32Carry = ( (((UINT32)(s32OutLow)>>16)&0xFFFF) + \ 50df25739fSMilanka Ringwald + (s32TempVal2 & 0xFFFF) ) >> 16; \ 51df25739fSMilanka Ringwald s32OutLow += (s32TempVal2 << 16); \ 52df25739fSMilanka Ringwald s32OutHi = (s32TempVal2 >> 16) + s32Carry; \ 53df25739fSMilanka Ringwald } 54df25739fSMilanka Ringwald #endif 55df25739fSMilanka Ringwald 56df25739fSMilanka Ringwald void EncPacking(SBC_ENC_PARAMS *pstrEncParams) 57df25739fSMilanka Ringwald { 58df25739fSMilanka Ringwald UINT8 *pu8PacketPtr; /* packet ptr*/ 59df25739fSMilanka Ringwald UINT8 Temp; 60df25739fSMilanka Ringwald SINT32 s32Blk; /* counter for block*/ 61df25739fSMilanka Ringwald SINT32 s32Ch; /* counter for channel*/ 62df25739fSMilanka Ringwald SINT32 s32Sb; /* counter for sub-band*/ 63df25739fSMilanka Ringwald SINT32 s32PresentBit; /* represents bit to be stored*/ 64df25739fSMilanka Ringwald /*SINT32 s32LoopCountI; loop counter*/ 65df25739fSMilanka Ringwald SINT32 s32LoopCountJ; /* loop counter*/ 66df25739fSMilanka Ringwald UINT32 u32QuantizedSbValue,u32QuantizedSbValue0; /* temp variable to store quantized sb val*/ 67df25739fSMilanka Ringwald SINT32 s32LoopCount; /* loop counter*/ 68df25739fSMilanka Ringwald UINT8 u8XoredVal; /* to store XORed value in CRC calculation*/ 69df25739fSMilanka Ringwald UINT8 u8CRC; /* to store CRC value*/ 70df25739fSMilanka Ringwald SINT16 *ps16GenPtr; 71df25739fSMilanka Ringwald SINT32 s32NumOfBlocks; 72df25739fSMilanka Ringwald SINT32 s32NumOfSubBands = pstrEncParams->s16NumOfSubBands; 73df25739fSMilanka Ringwald SINT32 s32NumOfChannels = pstrEncParams->s16NumOfChannels; 74df25739fSMilanka Ringwald UINT32 u32SfRaisedToPow2; /*scale factor raised to power 2*/ 75df25739fSMilanka Ringwald SINT16 *ps16ScfPtr; 76df25739fSMilanka Ringwald SINT32 *ps32SbPtr; 77df25739fSMilanka Ringwald UINT16 u16Levels; /*to store levels*/ 78df25739fSMilanka Ringwald SINT32 s32Temp1; /*used in 64-bit multiplication*/ 79df25739fSMilanka Ringwald SINT32 s32Low; /*used in 64-bit multiplication*/ 80df25739fSMilanka Ringwald #if (SBC_IS_64_MULT_IN_QUANTIZER==TRUE) 81df25739fSMilanka Ringwald SINT32 s32Hi1,s32Low1,s32Carry,s32TempVal2,s32Hi, s32Temp2; 82df25739fSMilanka Ringwald #endif 83df25739fSMilanka Ringwald 84df25739fSMilanka Ringwald pu8PacketPtr = pstrEncParams->pu8NextPacket; /*Initialize the ptr*/ 85*435e3c4eSMilanka Ringwald 86*435e3c4eSMilanka Ringwald *pu8PacketPtr++ = (UINT8)0xAD; /*Sync word*/ 87df25739fSMilanka Ringwald *pu8PacketPtr++=(UINT8)(pstrEncParams->FrameHeader); 88df25739fSMilanka Ringwald 89df25739fSMilanka Ringwald *pu8PacketPtr = (UINT8)(pstrEncParams->s16BitPool & 0x00FF); 90df25739fSMilanka Ringwald pu8PacketPtr += 2; /*skip for CRC*/ 91df25739fSMilanka Ringwald 92df25739fSMilanka Ringwald /*here it indicate if it is byte boundary or nibble boundary*/ 93df25739fSMilanka Ringwald s32PresentBit = 8; 94df25739fSMilanka Ringwald Temp=0; 95df25739fSMilanka Ringwald #if (SBC_JOINT_STE_INCLUDED == TRUE) 96df25739fSMilanka Ringwald if (pstrEncParams->s16ChannelMode == SBC_JOINT_STEREO) 97df25739fSMilanka Ringwald { 98df25739fSMilanka Ringwald /* pack join stero parameters */ 99df25739fSMilanka Ringwald for (s32Sb = 0; s32Sb < s32NumOfSubBands; s32Sb++) 100df25739fSMilanka Ringwald { 101df25739fSMilanka Ringwald Temp <<= 1; 102df25739fSMilanka Ringwald Temp |= pstrEncParams->as16Join[s32Sb]; 103df25739fSMilanka Ringwald } 104df25739fSMilanka Ringwald 105df25739fSMilanka Ringwald /* pack RFA */ 106df25739fSMilanka Ringwald if (s32NumOfSubBands == SUB_BANDS_4) 107df25739fSMilanka Ringwald { 108df25739fSMilanka Ringwald s32PresentBit = 4; 109df25739fSMilanka Ringwald } 110df25739fSMilanka Ringwald else 111df25739fSMilanka Ringwald { 112df25739fSMilanka Ringwald *(pu8PacketPtr++)=Temp; 113df25739fSMilanka Ringwald Temp = 0; 114df25739fSMilanka Ringwald } 115df25739fSMilanka Ringwald } 116df25739fSMilanka Ringwald #endif 117df25739fSMilanka Ringwald 118df25739fSMilanka Ringwald /* Pack Scale factor */ 119df25739fSMilanka Ringwald ps16GenPtr = pstrEncParams->as16ScaleFactor; 120df25739fSMilanka Ringwald s32Sb=s32NumOfChannels*s32NumOfSubBands; 121df25739fSMilanka Ringwald /*Temp=*pu8PacketPtr;*/ 122df25739fSMilanka Ringwald for (s32Ch = s32Sb; s32Ch >0; s32Ch--) 123df25739fSMilanka Ringwald { 124df25739fSMilanka Ringwald Temp<<= 4; 125df25739fSMilanka Ringwald Temp |= *ps16GenPtr++; 126df25739fSMilanka Ringwald 127df25739fSMilanka Ringwald if(s32PresentBit == 4) 128df25739fSMilanka Ringwald { 129df25739fSMilanka Ringwald s32PresentBit = 8; 130df25739fSMilanka Ringwald *(pu8PacketPtr++)=Temp; 131df25739fSMilanka Ringwald Temp = 0; 132df25739fSMilanka Ringwald } 133df25739fSMilanka Ringwald else 134df25739fSMilanka Ringwald { 135df25739fSMilanka Ringwald s32PresentBit = 4; 136df25739fSMilanka Ringwald } 137df25739fSMilanka Ringwald } 138df25739fSMilanka Ringwald 139df25739fSMilanka Ringwald /* Pack samples */ 140df25739fSMilanka Ringwald ps32SbPtr = pstrEncParams->s32SbBuffer; 141df25739fSMilanka Ringwald /*Temp=*pu8PacketPtr;*/ 142df25739fSMilanka Ringwald s32NumOfBlocks= pstrEncParams->s16NumOfBlocks; 143df25739fSMilanka Ringwald for (s32Blk = s32NumOfBlocks-1; s32Blk >=0; s32Blk--) 144df25739fSMilanka Ringwald { 145df25739fSMilanka Ringwald ps16GenPtr = pstrEncParams->as16Bits; 146df25739fSMilanka Ringwald ps16ScfPtr = pstrEncParams->as16ScaleFactor; 147df25739fSMilanka Ringwald for (s32Ch = s32Sb-1; s32Ch >= 0; s32Ch--) 148df25739fSMilanka Ringwald { 149df25739fSMilanka Ringwald s32LoopCount = *ps16GenPtr++; 150df25739fSMilanka Ringwald if (s32LoopCount != 0) 151df25739fSMilanka Ringwald { 152df25739fSMilanka Ringwald #if (SBC_IS_64_MULT_IN_QUANTIZER==TRUE) 153df25739fSMilanka Ringwald /* finding level from reconstruction part of decoder */ 154df25739fSMilanka Ringwald u32SfRaisedToPow2 = ((UINT32)1 << ((*ps16ScfPtr)+1)); 155df25739fSMilanka Ringwald u16Levels = (UINT16)(((UINT32)1 << s32LoopCount) - 1); 156df25739fSMilanka Ringwald 157df25739fSMilanka Ringwald /* quantizer */ 158df25739fSMilanka Ringwald s32Temp1 = (*ps32SbPtr >> 2) + (u32SfRaisedToPow2 << 12); 159df25739fSMilanka Ringwald s32Temp2 = u16Levels; 160df25739fSMilanka Ringwald 161df25739fSMilanka Ringwald Mult64 (s32Temp1, s32Temp2, s32Low, s32Hi); 162df25739fSMilanka Ringwald 163df25739fSMilanka Ringwald s32Low1 = s32Low >> ((*ps16ScfPtr)+2); 164df25739fSMilanka Ringwald s32Low1 &= ((UINT32)1 << (32 - ((*ps16ScfPtr)+2))) - 1; 165df25739fSMilanka Ringwald s32Hi1 = s32Hi << (32 - ((*ps16ScfPtr) +2)); 166df25739fSMilanka Ringwald 167df25739fSMilanka Ringwald u32QuantizedSbValue0 = (UINT16)((s32Low1 | s32Hi1) >> 12); 168df25739fSMilanka Ringwald #else 169df25739fSMilanka Ringwald /* finding level from reconstruction part of decoder */ 170df25739fSMilanka Ringwald u32SfRaisedToPow2 = ((UINT32)1 << *ps16ScfPtr); 171df25739fSMilanka Ringwald u16Levels = (UINT16)(((UINT32)1 << s32LoopCount)-1); 172df25739fSMilanka Ringwald 173df25739fSMilanka Ringwald /* quantizer */ 174df25739fSMilanka Ringwald s32Temp1 = (*ps32SbPtr >> 15) + u32SfRaisedToPow2; 175df25739fSMilanka Ringwald Mult32(s32Temp1,u16Levels,s32Low); 176df25739fSMilanka Ringwald s32Low>>= (*ps16ScfPtr+1); 177df25739fSMilanka Ringwald u32QuantizedSbValue0 = (UINT16)s32Low; 178df25739fSMilanka Ringwald #endif 179df25739fSMilanka Ringwald /*store the number of bits required and the quantized s32Sb 180df25739fSMilanka Ringwald sample to ease the coding*/ 181df25739fSMilanka Ringwald u32QuantizedSbValue = u32QuantizedSbValue0; 182df25739fSMilanka Ringwald 183df25739fSMilanka Ringwald if(s32PresentBit >= s32LoopCount) 184df25739fSMilanka Ringwald { 185df25739fSMilanka Ringwald Temp <<= s32LoopCount; 186df25739fSMilanka Ringwald Temp |= u32QuantizedSbValue; 187df25739fSMilanka Ringwald s32PresentBit -= s32LoopCount; 188df25739fSMilanka Ringwald } 189df25739fSMilanka Ringwald else 190df25739fSMilanka Ringwald { 191df25739fSMilanka Ringwald while (s32PresentBit < s32LoopCount) 192df25739fSMilanka Ringwald { 193df25739fSMilanka Ringwald s32LoopCount -= s32PresentBit; 194df25739fSMilanka Ringwald u32QuantizedSbValue >>= s32LoopCount; 195df25739fSMilanka Ringwald 196df25739fSMilanka Ringwald /*remove the unwanted msbs*/ 197df25739fSMilanka Ringwald /*u32QuantizedSbValue <<= 16 - s32PresentBit; 198df25739fSMilanka Ringwald u32QuantizedSbValue >>= 16 - s32PresentBit;*/ 199df25739fSMilanka Ringwald 200df25739fSMilanka Ringwald Temp <<= s32PresentBit; 201df25739fSMilanka Ringwald 202df25739fSMilanka Ringwald Temp |= u32QuantizedSbValue ; 203df25739fSMilanka Ringwald /*restore the original*/ 204df25739fSMilanka Ringwald u32QuantizedSbValue=u32QuantizedSbValue0; 205df25739fSMilanka Ringwald 206df25739fSMilanka Ringwald *(pu8PacketPtr++)=Temp; 207df25739fSMilanka Ringwald Temp = 0; 208df25739fSMilanka Ringwald s32PresentBit = 8; 209df25739fSMilanka Ringwald } 210df25739fSMilanka Ringwald Temp <<= s32LoopCount; 211df25739fSMilanka Ringwald 212df25739fSMilanka Ringwald /* remove the unwanted msbs */ 213df25739fSMilanka Ringwald /*u32QuantizedSbValue <<= 16 - s32LoopCount; 214df25739fSMilanka Ringwald u32QuantizedSbValue >>= 16 - s32LoopCount;*/ 215df25739fSMilanka Ringwald 216df25739fSMilanka Ringwald Temp |= u32QuantizedSbValue; 217df25739fSMilanka Ringwald 218df25739fSMilanka Ringwald s32PresentBit -= s32LoopCount; 219df25739fSMilanka Ringwald } 220df25739fSMilanka Ringwald } 221df25739fSMilanka Ringwald ps16ScfPtr++; 222df25739fSMilanka Ringwald ps32SbPtr++; 223df25739fSMilanka Ringwald } 224df25739fSMilanka Ringwald } 225df25739fSMilanka Ringwald 226df25739fSMilanka Ringwald Temp <<= s32PresentBit; 227df25739fSMilanka Ringwald *pu8PacketPtr=Temp; 228df25739fSMilanka Ringwald pstrEncParams->u16PacketLength=pu8PacketPtr-pstrEncParams->pu8NextPacket+1; 229df25739fSMilanka Ringwald /*find CRC*/ 230df25739fSMilanka Ringwald pu8PacketPtr = pstrEncParams->pu8NextPacket+1; /*Initialize the ptr*/ 231df25739fSMilanka Ringwald u8CRC = 0x0F; 232df25739fSMilanka Ringwald s32LoopCount = s32Sb >> 1; 233df25739fSMilanka Ringwald 234df25739fSMilanka Ringwald /* 235df25739fSMilanka Ringwald The loops is run from the start of the packet till the scale factor 236df25739fSMilanka Ringwald parameters. In case of JS, 'join' parameter is included in the packet 237df25739fSMilanka Ringwald so that many more bytes are included in CRC calculation. 238df25739fSMilanka Ringwald */ 239df25739fSMilanka Ringwald Temp=*pu8PacketPtr; 240df25739fSMilanka Ringwald for (s32Ch=1; s32Ch < (s32LoopCount+4); s32Ch++) 241df25739fSMilanka Ringwald { 242df25739fSMilanka Ringwald /* skip sync word and CRC bytes */ 243df25739fSMilanka Ringwald if (s32Ch != 3) 244df25739fSMilanka Ringwald { 245df25739fSMilanka Ringwald for (s32LoopCountJ=7; s32LoopCountJ>=0; s32LoopCountJ--) 246df25739fSMilanka Ringwald { 247df25739fSMilanka Ringwald u8XoredVal = ((u8CRC >> 7) & 0x01) ^((Temp >> s32LoopCountJ) & 0x01); 248df25739fSMilanka Ringwald u8CRC <<= 1; 249df25739fSMilanka Ringwald u8CRC ^= (u8XoredVal * 0x1D); 250df25739fSMilanka Ringwald u8CRC &= 0xFF; 251df25739fSMilanka Ringwald } 252df25739fSMilanka Ringwald } 253df25739fSMilanka Ringwald Temp=*(++pu8PacketPtr); 254df25739fSMilanka Ringwald } 255df25739fSMilanka Ringwald 256df25739fSMilanka Ringwald if (pstrEncParams->s16ChannelMode == SBC_JOINT_STEREO) 257df25739fSMilanka Ringwald { 258df25739fSMilanka Ringwald for (s32LoopCountJ = 7; s32LoopCountJ >= (8 - s32NumOfSubBands); s32LoopCountJ--) 259df25739fSMilanka Ringwald { 260df25739fSMilanka Ringwald u8XoredVal = ((u8CRC >> 7) & 0x01) ^((Temp >> s32LoopCountJ) & 0x01); 261df25739fSMilanka Ringwald u8CRC <<= 1; 262df25739fSMilanka Ringwald u8CRC ^= (u8XoredVal * 0x1D); 263df25739fSMilanka Ringwald u8CRC &= 0xFF; 264df25739fSMilanka Ringwald } 265df25739fSMilanka Ringwald } 266df25739fSMilanka Ringwald 267df25739fSMilanka Ringwald /* CRC calculation ends here */ 268df25739fSMilanka Ringwald 269df25739fSMilanka Ringwald /* store CRC in packet */ 270df25739fSMilanka Ringwald pu8PacketPtr = pstrEncParams->pu8NextPacket; /*Initialize the ptr*/ 271df25739fSMilanka Ringwald pu8PacketPtr += 3; 272df25739fSMilanka Ringwald *pu8PacketPtr = u8CRC; 273df25739fSMilanka Ringwald pstrEncParams->pu8NextPacket+=pstrEncParams->u16PacketLength; /* move the pointer to the end in case there is more than one frame to encode */ 274df25739fSMilanka Ringwald } 275df25739fSMilanka Ringwald 276