modules/audio_coding/codecs/ilbc/unpack_bits.c - src.git - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 /******************************************************************

  iLBC Speech Coder ANSI-C Source Code

  WebRtcIlbcfix_UnpackBits.c

 ******************************************************************/

 #include "modules/audio_coding/codecs/ilbc/defines.h"

 /*----------------------------------------------------------------*
  *  unpacking of bits from bitstream, i.e., vector of bytes
  *---------------------------------------------------------------*/

 int16_t WebRtcIlbcfix_UnpackBits( /* (o) "Empty" frame indicator */
     const uint16_t *bitstream,    /* (i) The packatized bitstream */
     iLBC_bits *enc_bits,  /* (o) Paramerers from bitstream */
     int16_t mode     /* (i) Codec mode (20 or 30) */
                                         ) {
   const uint16_t *bitstreamPtr;
   int i, k;
   int16_t *tmpPtr;

   bitstreamPtr=bitstream;

   /* First int16_t */
   enc_bits->lsf[0]  =  (*bitstreamPtr)>>10;       /* Bit 0..5  */
   enc_bits->lsf[1]  = ((*bitstreamPtr)>>3)&0x7F;      /* Bit 6..12 */
   enc_bits->lsf[2]  = ((*bitstreamPtr)&0x7)<<4;      /* Bit 13..15 */
   bitstreamPtr++;
   /* Second int16_t */
   enc_bits->lsf[2] |= ((*bitstreamPtr)>>12)&0xF;      /* Bit 0..3  */

   if (mode==20) {
     enc_bits->startIdx             = ((*bitstreamPtr)>>10)&0x3;  /* Bit 4..5  */
     enc_bits->state_first          = ((*bitstreamPtr)>>9)&0x1;  /* Bit 6  */
     enc_bits->idxForMax            = ((*bitstreamPtr)>>3)&0x3F;  /* Bit 7..12 */
     enc_bits->cb_index[0]          = ((*bitstreamPtr)&0x7)<<4;  /* Bit 13..15 */
     bitstreamPtr++;
     /* Third int16_t */
     enc_bits->cb_index[0]         |= ((*bitstreamPtr)>>12)&0xE;  /* Bit 0..2  */
     enc_bits->gain_index[0]        = ((*bitstreamPtr)>>8)&0x18;  /* Bit 3..4  */
     enc_bits->gain_index[1]        = ((*bitstreamPtr)>>7)&0x8;  /* Bit 5  */
     enc_bits->cb_index[3]          = ((*bitstreamPtr)>>2)&0xFE;  /* Bit 6..12 */
     enc_bits->gain_index[3]        = ((*bitstreamPtr)<<2)&0x10;  /* Bit 13  */
     enc_bits->gain_index[4]        = ((*bitstreamPtr)<<2)&0x8;  /* Bit 14  */
     enc_bits->gain_index[6]        = ((*bitstreamPtr)<<4)&0x10;  /* Bit 15  */
   } else { /* mode==30 */
     enc_bits->lsf[3]               = ((*bitstreamPtr)>>6)&0x3F;  /* Bit 4..9  */
     enc_bits->lsf[4]               = ((*bitstreamPtr)<<1)&0x7E;  /* Bit 10..15 */
     bitstreamPtr++;
     /* Third int16_t */
     enc_bits->lsf[4]              |= ((*bitstreamPtr)>>15)&0x1;  /* Bit 0  */
     enc_bits->lsf[5]               = ((*bitstreamPtr)>>8)&0x7F;  /* Bit 1..7  */
     enc_bits->startIdx             = ((*bitstreamPtr)>>5)&0x7;  /* Bit 8..10 */
     enc_bits->state_first          = ((*bitstreamPtr)>>4)&0x1;  /* Bit 11  */
     enc_bits->idxForMax            = ((*bitstreamPtr)<<2)&0x3C;  /* Bit 12..15 */
     bitstreamPtr++;
     /* 4:th int16_t */
     enc_bits->idxForMax           |= ((*bitstreamPtr)>>14)&0x3;  /* Bit 0..1  */
     enc_bits->cb_index[0]        = ((*bitstreamPtr)>>7)&0x78;  /* Bit 2..5  */
     enc_bits->gain_index[0]        = ((*bitstreamPtr)>>5)&0x10;  /* Bit 6  */
     enc_bits->gain_index[1]        = ((*bitstreamPtr)>>5)&0x8;  /* Bit 7  */
     enc_bits->cb_index[3]          = ((*bitstreamPtr))&0xFC;  /* Bit 8..13 */
     enc_bits->gain_index[3]        = ((*bitstreamPtr)<<3)&0x10;  /* Bit 14  */
     enc_bits->gain_index[4]        = ((*bitstreamPtr)<<3)&0x8;  /* Bit 15  */
   }
   /* Class 2 bits of ULP */
   /* 4:th to 6:th int16_t for 20 ms case
      5:th to 7:th int16_t for 30 ms case */
   bitstreamPtr++;
   tmpPtr=enc_bits->idxVec;
   for (k=0; k<3; k++) {
     for (i=15; i>=0; i--) {
       (*tmpPtr)                  = (((*bitstreamPtr)>>i)<<2)&0x4;
       /* Bit 15-i  */
       tmpPtr++;
     }
     bitstreamPtr++;
   }

   if (mode==20) {
     /* 7:th int16_t */
     for (i=15; i>6; i--) {
       (*tmpPtr)                  = (((*bitstreamPtr)>>i)<<2)&0x4;
       /* Bit 15-i  */
       tmpPtr++;
     }
     enc_bits->gain_index[1]       |= ((*bitstreamPtr)>>4)&0x4; /* Bit 9  */
     enc_bits->gain_index[3]       |= ((*bitstreamPtr)>>2)&0xC; /* Bit 10..11 */
     enc_bits->gain_index[4]       |= ((*bitstreamPtr)>>1)&0x4; /* Bit 12  */
     enc_bits->gain_index[6]       |= ((*bitstreamPtr)<<1)&0x8; /* Bit 13  */
     enc_bits->gain_index[7]        = ((*bitstreamPtr)<<2)&0xC; /* Bit 14..15 */

   } else { /* mode==30 */
     /* 8:th int16_t */
     for (i=15; i>5; i--) {
       (*tmpPtr)                  = (((*bitstreamPtr)>>i)<<2)&0x4;
       /* Bit 15-i  */
       tmpPtr++;
     }
     enc_bits->cb_index[0]         |= ((*bitstreamPtr)>>3)&0x6; /* Bit 10..11 */
     enc_bits->gain_index[0]       |= ((*bitstreamPtr))&0x8;  /* Bit 12  */
     enc_bits->gain_index[1]       |= ((*bitstreamPtr))&0x4;  /* Bit 13  */
     enc_bits->cb_index[3]         |= ((*bitstreamPtr))&0x2;  /* Bit 14  */
     enc_bits->cb_index[6]          = ((*bitstreamPtr)<<7)&0x80; /* Bit 15  */
     bitstreamPtr++;
     /* 9:th int16_t */
     enc_bits->cb_index[6]         |= ((*bitstreamPtr)>>9)&0x7E; /* Bit 0..5  */
     enc_bits->cb_index[9]          = ((*bitstreamPtr)>>2)&0xFE; /* Bit 6..12 */
     enc_bits->cb_index[12]         = ((*bitstreamPtr)<<5)&0xE0; /* Bit 13..15 */
     bitstreamPtr++;
     /* 10:th int16_t */
     enc_bits->cb_index[12]         |= ((*bitstreamPtr)>>11)&0x1E;/* Bit 0..3 */
     enc_bits->gain_index[3]       |= ((*bitstreamPtr)>>8)&0xC; /* Bit 4..5  */
     enc_bits->gain_index[4]       |= ((*bitstreamPtr)>>7)&0x6; /* Bit 6..7  */
     enc_bits->gain_index[6]        = ((*bitstreamPtr)>>3)&0x18; /* Bit 8..9  */
     enc_bits->gain_index[7]        = ((*bitstreamPtr)>>2)&0xC; /* Bit 10..11 */
     enc_bits->gain_index[9]        = ((*bitstreamPtr)<<1)&0x10; /* Bit 12  */
     enc_bits->gain_index[10]       = ((*bitstreamPtr)<<1)&0x8; /* Bit 13  */
     enc_bits->gain_index[12]       = ((*bitstreamPtr)<<3)&0x10; /* Bit 14  */
     enc_bits->gain_index[13]       = ((*bitstreamPtr)<<3)&0x8; /* Bit 15  */
   }
   bitstreamPtr++;
   /* Class 3 bits of ULP */
   /*  8:th to 14:th int16_t for 20 ms case
       11:th to 17:th int16_t for 30 ms case */
   tmpPtr=enc_bits->idxVec;
   for (k=0; k<7; k++) {
     for (i=14; i>=0; i-=2) {
       (*tmpPtr)                 |= ((*bitstreamPtr)>>i)&0x3; /* Bit 15-i..14-i*/
       tmpPtr++;
     }
     bitstreamPtr++;
   }

   if (mode==20) {
     /* 15:th int16_t */
     enc_bits->idxVec[56]          |= ((*bitstreamPtr)>>14)&0x3; /* Bit 0..1  */
     enc_bits->cb_index[0]         |= ((*bitstreamPtr)>>13)&0x1; /* Bit 2  */
     enc_bits->cb_index[1]          = ((*bitstreamPtr)>>6)&0x7F; /* Bit 3..9  */
     enc_bits->cb_index[2]          = ((*bitstreamPtr)<<1)&0x7E; /* Bit 10..15 */
     bitstreamPtr++;
     /* 16:th int16_t */
     enc_bits->cb_index[2]         |= ((*bitstreamPtr)>>15)&0x1; /* Bit 0  */
     enc_bits->gain_index[0]       |= ((*bitstreamPtr)>>12)&0x7; /* Bit 1..3  */
     enc_bits->gain_index[1]       |= ((*bitstreamPtr)>>10)&0x3; /* Bit 4..5  */
     enc_bits->gain_index[2]        = ((*bitstreamPtr)>>7)&0x7; /* Bit 6..8  */
     enc_bits->cb_index[3]         |= ((*bitstreamPtr)>>6)&0x1; /* Bit 9  */
     enc_bits->cb_index[4]          = ((*bitstreamPtr)<<1)&0x7E; /* Bit 10..15 */
     bitstreamPtr++;
     /* 17:th int16_t */
     enc_bits->cb_index[4]         |= ((*bitstreamPtr)>>15)&0x1; /* Bit 0  */
     enc_bits->cb_index[5]          = ((*bitstreamPtr)>>8)&0x7F; /* Bit 1..7  */
     enc_bits->cb_index[6]          = ((*bitstreamPtr))&0xFF; /* Bit 8..15 */
     bitstreamPtr++;
     /* 18:th int16_t */
     enc_bits->cb_index[7]          = (*bitstreamPtr)>>8;  /* Bit 0..7  */
     enc_bits->cb_index[8]          = (*bitstreamPtr)&0xFF;  /* Bit 8..15 */
     bitstreamPtr++;
     /* 19:th int16_t */
     enc_bits->gain_index[3]       |= ((*bitstreamPtr)>>14)&0x3; /* Bit 0..1  */
     enc_bits->gain_index[4]       |= ((*bitstreamPtr)>>12)&0x3; /* Bit 2..3  */
     enc_bits->gain_index[5]        = ((*bitstreamPtr)>>9)&0x7; /* Bit 4..6  */
     enc_bits->gain_index[6]       |= ((*bitstreamPtr)>>6)&0x7; /* Bit 7..9  */
     enc_bits->gain_index[7]       |= ((*bitstreamPtr)>>4)&0x3; /* Bit 10..11 */
     enc_bits->gain_index[8]        = ((*bitstreamPtr)>>1)&0x7; /* Bit 12..14 */
   } else { /* mode==30 */
     /* 18:th int16_t */
     enc_bits->idxVec[56]          |= ((*bitstreamPtr)>>14)&0x3; /* Bit 0..1  */
     enc_bits->idxVec[57]          |= ((*bitstreamPtr)>>12)&0x3; /* Bit 2..3  */
     enc_bits->cb_index[0]         |= ((*bitstreamPtr)>>11)&1; /* Bit 4  */
     enc_bits->cb_index[1]          = ((*bitstreamPtr)>>4)&0x7F; /* Bit 5..11 */
     enc_bits->cb_index[2]          = ((*bitstreamPtr)<<3)&0x78; /* Bit 12..15 */
     bitstreamPtr++;
     /* 19:th int16_t */
     enc_bits->cb_index[2]         |= ((*bitstreamPtr)>>13)&0x7; /* Bit 0..2  */
     enc_bits->gain_index[0]       |= ((*bitstreamPtr)>>10)&0x7; /* Bit 3..5  */
     enc_bits->gain_index[1]       |= ((*bitstreamPtr)>>8)&0x3; /* Bit 6..7  */
     enc_bits->gain_index[2]        = ((*bitstreamPtr)>>5)&0x7; /* Bit 8..10 */
     enc_bits->cb_index[3]         |= ((*bitstreamPtr)>>4)&0x1; /* Bit 11  */
     enc_bits->cb_index[4]          = ((*bitstreamPtr)<<3)&0x78; /* Bit 12..15 */
     bitstreamPtr++;
     /* 20:th int16_t */
     enc_bits->cb_index[4]         |= ((*bitstreamPtr)>>13)&0x7; /* Bit 0..2  */
     enc_bits->cb_index[5]          = ((*bitstreamPtr)>>6)&0x7F; /* Bit 3..9  */
     enc_bits->cb_index[6]         |= ((*bitstreamPtr)>>5)&0x1; /* Bit 10  */
     enc_bits->cb_index[7]          = ((*bitstreamPtr)<<3)&0xF8; /* Bit 11..15 */
     bitstreamPtr++;
     /* 21:st int16_t */
     enc_bits->cb_index[7]         |= ((*bitstreamPtr)>>13)&0x7; /* Bit 0..2  */
     enc_bits->cb_index[8]          = ((*bitstreamPtr)>>5)&0xFF; /* Bit 3..10 */
     enc_bits->cb_index[9]         |= ((*bitstreamPtr)>>4)&0x1; /* Bit 11  */
     enc_bits->cb_index[10]         = ((*bitstreamPtr)<<4)&0xF0; /* Bit 12..15 */
     bitstreamPtr++;
     /* 22:nd int16_t */
     enc_bits->cb_index[10]        |= ((*bitstreamPtr)>>12)&0xF; /* Bit 0..3  */
     enc_bits->cb_index[11]         = ((*bitstreamPtr)>>4)&0xFF; /* Bit 4..11 */
     enc_bits->cb_index[12]        |= ((*bitstreamPtr)>>3)&0x1; /* Bit 12  */
     enc_bits->cb_index[13]         = ((*bitstreamPtr)<<5)&0xE0; /* Bit 13..15 */
     bitstreamPtr++;
     /* 23:rd int16_t */
     enc_bits->cb_index[13]        |= ((*bitstreamPtr)>>11)&0x1F;/* Bit 0..4  */
     enc_bits->cb_index[14]         = ((*bitstreamPtr)>>3)&0xFF; /* Bit 5..12 */
     enc_bits->gain_index[3]       |= ((*bitstreamPtr)>>1)&0x3; /* Bit 13..14 */
     enc_bits->gain_index[4]       |= ((*bitstreamPtr)&0x1);  /* Bit 15  */
     bitstreamPtr++;
     /* 24:rd int16_t */
     enc_bits->gain_index[5]        = ((*bitstreamPtr)>>13)&0x7; /* Bit 0..2  */
     enc_bits->gain_index[6]       |= ((*bitstreamPtr)>>10)&0x7; /* Bit 3..5  */
     enc_bits->gain_index[7]       |= ((*bitstreamPtr)>>8)&0x3; /* Bit 6..7  */
     enc_bits->gain_index[8]        = ((*bitstreamPtr)>>5)&0x7; /* Bit 8..10 */
     enc_bits->gain_index[9]       |= ((*bitstreamPtr)>>1)&0xF; /* Bit 11..14 */
     enc_bits->gain_index[10]      |= ((*bitstreamPtr)<<2)&0x4; /* Bit 15  */
     bitstreamPtr++;
     /* 25:rd int16_t */
     enc_bits->gain_index[10]      |= ((*bitstreamPtr)>>14)&0x3; /* Bit 0..1  */
     enc_bits->gain_index[11]       = ((*bitstreamPtr)>>11)&0x7; /* Bit 2..4  */
     enc_bits->gain_index[12]      |= ((*bitstreamPtr)>>7)&0xF; /* Bit 5..8  */
     enc_bits->gain_index[13]      |= ((*bitstreamPtr)>>4)&0x7; /* Bit 9..11 */
     enc_bits->gain_index[14]       = ((*bitstreamPtr)>>1)&0x7; /* Bit 12..14 */
   }
   /* Last bit should be zero, otherwise it's an "empty" frame */
   if (((*bitstreamPtr)&0x1) == 1) {
     return(1);
   } else {
     return(0);
   }
 }
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	/******************************************************************

	iLBC Speech Coder ANSI-C Source Code

	WebRtcIlbcfix_UnpackBits.c

	******************************************************************/

	#include "modules/audio_coding/codecs/ilbc/defines.h"

	/----------------------------------------------------------------
	* unpacking of bits from bitstream, i.e., vector of bytes
	---------------------------------------------------------------/

	int16_t WebRtcIlbcfix_UnpackBits( /* (o) "Empty" frame indicator */
	const uint16_t bitstream, / (i) The packatized bitstream */
	iLBC_bits enc_bits, / (o) Paramerers from bitstream */
	int16_t mode /* (i) Codec mode (20 or 30) */
	) {
	const uint16_t *bitstreamPtr;
	int i, k;
	int16_t *tmpPtr;

	bitstreamPtr=bitstream;

	/* First int16_t */
	enc_bits->lsf[0] = (bitstreamPtr)>>10; / Bit 0..5 */
	enc_bits->lsf[1] = ((bitstreamPtr)>>3)&0x7F; / Bit 6..12 */
	enc_bits->lsf[2] = ((bitstreamPtr)&0x7)<<4; / Bit 13..15 */
	bitstreamPtr++;
	/* Second int16_t */
	enc_bits->lsf[2] \|= ((bitstreamPtr)>>12)&0xF; / Bit 0..3 */

	if (mode==20) {
	enc_bits->startIdx = ((bitstreamPtr)>>10)&0x3; / Bit 4..5 */
	enc_bits->state_first = ((bitstreamPtr)>>9)&0x1; / Bit 6 */
	enc_bits->idxForMax = ((bitstreamPtr)>>3)&0x3F; / Bit 7..12 */
	enc_bits->cb_index[0] = ((bitstreamPtr)&0x7)<<4; / Bit 13..15 */
	bitstreamPtr++;
	/* Third int16_t */
	enc_bits->cb_index[0] \|= ((bitstreamPtr)>>12)&0xE; / Bit 0..2 */
	enc_bits->gain_index[0] = ((bitstreamPtr)>>8)&0x18; / Bit 3..4 */
	enc_bits->gain_index[1] = ((bitstreamPtr)>>7)&0x8; / Bit 5 */
	enc_bits->cb_index[3] = ((bitstreamPtr)>>2)&0xFE; / Bit 6..12 */
	enc_bits->gain_index[3] = ((bitstreamPtr)<<2)&0x10; / Bit 13 */
	enc_bits->gain_index[4] = ((bitstreamPtr)<<2)&0x8; / Bit 14 */
	enc_bits->gain_index[6] = ((bitstreamPtr)<<4)&0x10; / Bit 15 */
	} else { /* mode==30 */
	enc_bits->lsf[3] = ((bitstreamPtr)>>6)&0x3F; / Bit 4..9 */
	enc_bits->lsf[4] = ((bitstreamPtr)<<1)&0x7E; / Bit 10..15 */
	bitstreamPtr++;
	/* Third int16_t */
	enc_bits->lsf[4] \|= ((bitstreamPtr)>>15)&0x1; / Bit 0 */
	enc_bits->lsf[5] = ((bitstreamPtr)>>8)&0x7F; / Bit 1..7 */
	enc_bits->startIdx = ((bitstreamPtr)>>5)&0x7; / Bit 8..10 */
	enc_bits->state_first = ((bitstreamPtr)>>4)&0x1; / Bit 11 */
	enc_bits->idxForMax = ((bitstreamPtr)<<2)&0x3C; / Bit 12..15 */
	bitstreamPtr++;
	/* 4:th int16_t */
	enc_bits->idxForMax \|= ((bitstreamPtr)>>14)&0x3; / Bit 0..1 */
	enc_bits->cb_index[0] = ((bitstreamPtr)>>7)&0x78; / Bit 2..5 */
	enc_bits->gain_index[0] = ((bitstreamPtr)>>5)&0x10; / Bit 6 */
	enc_bits->gain_index[1] = ((bitstreamPtr)>>5)&0x8; / Bit 7 */
	enc_bits->cb_index[3] = ((bitstreamPtr))&0xFC; / Bit 8..13 */
	enc_bits->gain_index[3] = ((bitstreamPtr)<<3)&0x10; / Bit 14 */
	enc_bits->gain_index[4] = ((bitstreamPtr)<<3)&0x8; / Bit 15 */
	}
	/* Class 2 bits of ULP */
	/* 4:th to 6:th int16_t for 20 ms case
	5:th to 7:th int16_t for 30 ms case */
	bitstreamPtr++;
	tmpPtr=enc_bits->idxVec;
	for (k=0; k<3; k++) {
	for (i=15; i>=0; i--) {
	(tmpPtr) = (((bitstreamPtr)>>i)<<2)&0x4;
	/* Bit 15-i */
	tmpPtr++;
	}
	bitstreamPtr++;
	}

	if (mode==20) {
	/* 7:th int16_t */
	for (i=15; i>6; i--) {
	(tmpPtr) = (((bitstreamPtr)>>i)<<2)&0x4;
	/* Bit 15-i */
	tmpPtr++;
	}
	enc_bits->gain_index[1] \|= ((bitstreamPtr)>>4)&0x4; / Bit 9 */
	enc_bits->gain_index[3] \|= ((bitstreamPtr)>>2)&0xC; / Bit 10..11 */
	enc_bits->gain_index[4] \|= ((bitstreamPtr)>>1)&0x4; / Bit 12 */
	enc_bits->gain_index[6] \|= ((bitstreamPtr)<<1)&0x8; / Bit 13 */
	enc_bits->gain_index[7] = ((bitstreamPtr)<<2)&0xC; / Bit 14..15 */

	} else { /* mode==30 */
	/* 8:th int16_t */
	for (i=15; i>5; i--) {
	(tmpPtr) = (((bitstreamPtr)>>i)<<2)&0x4;
	/* Bit 15-i */
	tmpPtr++;
	}
	enc_bits->cb_index[0] \|= ((bitstreamPtr)>>3)&0x6; / Bit 10..11 */
	enc_bits->gain_index[0] \|= ((bitstreamPtr))&0x8; / Bit 12 */
	enc_bits->gain_index[1] \|= ((bitstreamPtr))&0x4; / Bit 13 */
	enc_bits->cb_index[3] \|= ((bitstreamPtr))&0x2; / Bit 14 */
	enc_bits->cb_index[6] = ((bitstreamPtr)<<7)&0x80; / Bit 15 */
	bitstreamPtr++;
	/* 9:th int16_t */
	enc_bits->cb_index[6] \|= ((bitstreamPtr)>>9)&0x7E; / Bit 0..5 */
	enc_bits->cb_index[9] = ((bitstreamPtr)>>2)&0xFE; / Bit 6..12 */
	enc_bits->cb_index[12] = ((bitstreamPtr)<<5)&0xE0; / Bit 13..15 */
	bitstreamPtr++;
	/* 10:th int16_t */
	enc_bits->cb_index[12] \|= ((bitstreamPtr)>>11)&0x1E;/ Bit 0..3 */
	enc_bits->gain_index[3] \|= ((bitstreamPtr)>>8)&0xC; / Bit 4..5 */
	enc_bits->gain_index[4] \|= ((bitstreamPtr)>>7)&0x6; / Bit 6..7 */
	enc_bits->gain_index[6] = ((bitstreamPtr)>>3)&0x18; / Bit 8..9 */
	enc_bits->gain_index[7] = ((bitstreamPtr)>>2)&0xC; / Bit 10..11 */
	enc_bits->gain_index[9] = ((bitstreamPtr)<<1)&0x10; / Bit 12 */
	enc_bits->gain_index[10] = ((bitstreamPtr)<<1)&0x8; / Bit 13 */
	enc_bits->gain_index[12] = ((bitstreamPtr)<<3)&0x10; / Bit 14 */
	enc_bits->gain_index[13] = ((bitstreamPtr)<<3)&0x8; / Bit 15 */
	}
	bitstreamPtr++;
	/* Class 3 bits of ULP */
	/* 8:th to 14:th int16_t for 20 ms case
	11:th to 17:th int16_t for 30 ms case */
	tmpPtr=enc_bits->idxVec;
	for (k=0; k<7; k++) {
	for (i=14; i>=0; i-=2) {
	(tmpPtr) \|= ((bitstreamPtr)>>i)&0x3; /* Bit 15-i..14-i*/
	tmpPtr++;
	}
	bitstreamPtr++;
	}

	if (mode==20) {
	/* 15:th int16_t */
	enc_bits->idxVec[56] \|= ((bitstreamPtr)>>14)&0x3; / Bit 0..1 */
	enc_bits->cb_index[0] \|= ((bitstreamPtr)>>13)&0x1; / Bit 2 */
	enc_bits->cb_index[1] = ((bitstreamPtr)>>6)&0x7F; / Bit 3..9 */
	enc_bits->cb_index[2] = ((bitstreamPtr)<<1)&0x7E; / Bit 10..15 */
	bitstreamPtr++;
	/* 16:th int16_t */
	enc_bits->cb_index[2] \|= ((bitstreamPtr)>>15)&0x1; / Bit 0 */
	enc_bits->gain_index[0] \|= ((bitstreamPtr)>>12)&0x7; / Bit 1..3 */
	enc_bits->gain_index[1] \|= ((bitstreamPtr)>>10)&0x3; / Bit 4..5 */
	enc_bits->gain_index[2] = ((bitstreamPtr)>>7)&0x7; / Bit 6..8 */
	enc_bits->cb_index[3] \|= ((bitstreamPtr)>>6)&0x1; / Bit 9 */
	enc_bits->cb_index[4] = ((bitstreamPtr)<<1)&0x7E; / Bit 10..15 */
	bitstreamPtr++;
	/* 17:th int16_t */
	enc_bits->cb_index[4] \|= ((bitstreamPtr)>>15)&0x1; / Bit 0 */
	enc_bits->cb_index[5] = ((bitstreamPtr)>>8)&0x7F; / Bit 1..7 */
	enc_bits->cb_index[6] = ((bitstreamPtr))&0xFF; / Bit 8..15 */
	bitstreamPtr++;
	/* 18:th int16_t */
	enc_bits->cb_index[7] = (bitstreamPtr)>>8; / Bit 0..7 */
	enc_bits->cb_index[8] = (bitstreamPtr)&0xFF; / Bit 8..15 */
	bitstreamPtr++;
	/* 19:th int16_t */
	enc_bits->gain_index[3] \|= ((bitstreamPtr)>>14)&0x3; / Bit 0..1 */
	enc_bits->gain_index[4] \|= ((bitstreamPtr)>>12)&0x3; / Bit 2..3 */
	enc_bits->gain_index[5] = ((bitstreamPtr)>>9)&0x7; / Bit 4..6 */
	enc_bits->gain_index[6] \|= ((bitstreamPtr)>>6)&0x7; / Bit 7..9 */
	enc_bits->gain_index[7] \|= ((bitstreamPtr)>>4)&0x3; / Bit 10..11 */
	enc_bits->gain_index[8] = ((bitstreamPtr)>>1)&0x7; / Bit 12..14 */
	} else { /* mode==30 */
	/* 18:th int16_t */
	enc_bits->idxVec[56] \|= ((bitstreamPtr)>>14)&0x3; / Bit 0..1 */
	enc_bits->idxVec[57] \|= ((bitstreamPtr)>>12)&0x3; / Bit 2..3 */
	enc_bits->cb_index[0] \|= ((bitstreamPtr)>>11)&1; / Bit 4 */
	enc_bits->cb_index[1] = ((bitstreamPtr)>>4)&0x7F; / Bit 5..11 */
	enc_bits->cb_index[2] = ((bitstreamPtr)<<3)&0x78; / Bit 12..15 */
	bitstreamPtr++;
	/* 19:th int16_t */
	enc_bits->cb_index[2] \|= ((bitstreamPtr)>>13)&0x7; / Bit 0..2 */
	enc_bits->gain_index[0] \|= ((bitstreamPtr)>>10)&0x7; / Bit 3..5 */
	enc_bits->gain_index[1] \|= ((bitstreamPtr)>>8)&0x3; / Bit 6..7 */
	enc_bits->gain_index[2] = ((bitstreamPtr)>>5)&0x7; / Bit 8..10 */
	enc_bits->cb_index[3] \|= ((bitstreamPtr)>>4)&0x1; / Bit 11 */
	enc_bits->cb_index[4] = ((bitstreamPtr)<<3)&0x78; / Bit 12..15 */
	bitstreamPtr++;
	/* 20:th int16_t */
	enc_bits->cb_index[4] \|= ((bitstreamPtr)>>13)&0x7; / Bit 0..2 */
	enc_bits->cb_index[5] = ((bitstreamPtr)>>6)&0x7F; / Bit 3..9 */
	enc_bits->cb_index[6] \|= ((bitstreamPtr)>>5)&0x1; / Bit 10 */
	enc_bits->cb_index[7] = ((bitstreamPtr)<<3)&0xF8; / Bit 11..15 */
	bitstreamPtr++;
	/* 21:st int16_t */
	enc_bits->cb_index[7] \|= ((bitstreamPtr)>>13)&0x7; / Bit 0..2 */
	enc_bits->cb_index[8] = ((bitstreamPtr)>>5)&0xFF; / Bit 3..10 */
	enc_bits->cb_index[9] \|= ((bitstreamPtr)>>4)&0x1; / Bit 11 */
	enc_bits->cb_index[10] = ((bitstreamPtr)<<4)&0xF0; / Bit 12..15 */
	bitstreamPtr++;
	/* 22:nd int16_t */
	enc_bits->cb_index[10] \|= ((bitstreamPtr)>>12)&0xF; / Bit 0..3 */
	enc_bits->cb_index[11] = ((bitstreamPtr)>>4)&0xFF; / Bit 4..11 */
	enc_bits->cb_index[12] \|= ((bitstreamPtr)>>3)&0x1; / Bit 12 */
	enc_bits->cb_index[13] = ((bitstreamPtr)<<5)&0xE0; / Bit 13..15 */
	bitstreamPtr++;
	/* 23:rd int16_t */
	enc_bits->cb_index[13] \|= ((bitstreamPtr)>>11)&0x1F;/ Bit 0..4 */
	enc_bits->cb_index[14] = ((bitstreamPtr)>>3)&0xFF; / Bit 5..12 */
	enc_bits->gain_index[3] \|= ((bitstreamPtr)>>1)&0x3; / Bit 13..14 */
	enc_bits->gain_index[4] \|= ((bitstreamPtr)&0x1); / Bit 15 */
	bitstreamPtr++;
	/* 24:rd int16_t */
	enc_bits->gain_index[5] = ((bitstreamPtr)>>13)&0x7; / Bit 0..2 */
	enc_bits->gain_index[6] \|= ((bitstreamPtr)>>10)&0x7; / Bit 3..5 */
	enc_bits->gain_index[7] \|= ((bitstreamPtr)>>8)&0x3; / Bit 6..7 */
	enc_bits->gain_index[8] = ((bitstreamPtr)>>5)&0x7; / Bit 8..10 */
	enc_bits->gain_index[9] \|= ((bitstreamPtr)>>1)&0xF; / Bit 11..14 */
	enc_bits->gain_index[10] \|= ((bitstreamPtr)<<2)&0x4; / Bit 15 */
	bitstreamPtr++;
	/* 25:rd int16_t */
	enc_bits->gain_index[10] \|= ((bitstreamPtr)>>14)&0x3; / Bit 0..1 */
	enc_bits->gain_index[11] = ((bitstreamPtr)>>11)&0x7; / Bit 2..4 */
	enc_bits->gain_index[12] \|= ((bitstreamPtr)>>7)&0xF; / Bit 5..8 */
	enc_bits->gain_index[13] \|= ((bitstreamPtr)>>4)&0x7; / Bit 9..11 */
	enc_bits->gain_index[14] = ((bitstreamPtr)>>1)&0x7; / Bit 12..14 */
	}
	/* Last bit should be zero, otherwise it's an "empty" frame */
	if (((*bitstreamPtr)&0x1) == 1) {
	return(1);
	} else {
	return(0);
	}
	}