source: roaraudio/libroardsp/convert.c @ 869:a8feb1a96af2

//convert.c:

/*
 *      Copyright (C) Philipp 'ph3-der-loewe' Schafft - 2008
 *
 *  This file is part of libroar a part of RoarAudio,
 *  a cross-platform sound system for both, home and professional use.
 *  See README for details.
 *
 *  This file is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License version 3
 *  as published by the Free Software Foundation.
 *
 *  libroar is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this software; see the file COPYING.  If not, write to
 *  the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 *  NOTE for everyone want's to change something and send patches:
 *  read README and HACKING! There a addition information on
 *  the license of this document you need to read before you send
 *  any patches.
 *
 *  NOTE for uses of non-GPL (LGPL,...) software using libesd, libartsc
 *  or libpulse*:
 *  The libs libroaresd, libroararts and libroarpulse link this lib
 *  and are therefore GPL. Because of this it may be illigal to use
 *  them with any software that uses libesd, libartsc or libpulse*.
 */

#include "libroar.h"

int roar_conv_bits (void * out, void * in, int samples, int from, int to) {
 int format;

 if ( from == to ) {
  if ( in == out )
   return 0;

  memcpy(out, in, samples * from / 8);
  return 0;
 }

 format = ((from / 8) << 4) + (to / 8);

 switch (format) {
  case 0x12: return roar_conv_bits_8to16( out, in, samples);
  case 0x14: return roar_conv_bits_8to32( out, in, samples);
  case 0x21: return roar_conv_bits_16to8( out, in, samples);
  case 0x24: return roar_conv_bits_16to32(out, in, samples);
  case 0x41: return roar_conv_bits_32to8( out, in, samples);
  case 0x42: return roar_conv_bits_32to16(out, in, samples);
  default:
   errno = ENOSYS;
   return -1;
 }

 return -1;
}

int roar_conv_bits_8to16 (void * out, void * in, int samples) {
 char    * ip = (char   *)in;
 int16_t * op = (int16_t*)out;
 int i;

 for (i = samples - 1; i >= 0; i--)
  op[i] = ip[i] << 8;

 return 0;
}

int roar_conv_bits_8to32  (void * out, void * in, int samples) {
 char    * ip = (char   *)in;
 int32_t * op = (int32_t*)out;
 int i;

 for (i = samples - 1; i >= 0; i--)
  op[i] = ip[i] << 24;

 return 0;
}

int roar_conv_bits_16to8 (void * out, void * in, int samples) {
 int16_t * ip = (int16_t*)in;
 char    * op = (char   *)out;
 int i;

 ROAR_DBG("roar_conv_bits_16to8(out=%p, in=%p, samples=%i) = ?", out, in, samples);

 for (i = 0; i < samples; i++)
  op[i] = ip[i] >> 8;

 return 0;
}

int roar_conv_bits_16to32 (void * out, void * in, int samples) {
 int16_t * ip = (int16_t*)in;
 int32_t * op = (int32_t*)out;
 int i;

 for (i = samples - 1; i >= 0; i--)
  op[i] = ip[i] << 16;

 return 0;
}

int roar_conv_bits_32to8 (void * out, void * in, int samples) {
 int32_t * ip = (int32_t*)in;
 char    * op = (char   *)out;
 int i;

 for (i = 0; i < samples; i++)
  op[i] = ip[i] >> 24;

 return 0;
}

int roar_conv_bits_32to16 (void * out, void * in, int samples) {
 int32_t * ip = (int32_t*)in;
 int16_t * op = (int16_t*)out;
 int i;

 for (i = 0; i < samples; i++)
  op[i] = ip[i] >> 16;

 return 0;
}

int roar_conv_chans (void * out, void * in, int samples, int from, int to, int bits) {
 if ( from == to ) {
  if ( in == out )
   return 0;

  memcpy(out, in, samples * from * bits / 8);
  return 0;
 }

 switch (bits) {
  case 8:
   switch (from) {
    case 1:
     switch (to) {
      case  2: return roar_conv_chans_1to28(out, in, samples);
      default: return roar_conv_chans_1ton8(out, in, samples, to);
     }
     break;
    case 2:
     switch (to) {
      case  1: return roar_conv_chans_2to18(out, in, samples);
      default: return -1;
     }
     break;
    default:
     switch (to) {
      case  1: return roar_conv_chans_nto18(out, in, samples, from);
      default: return -1;
     }
   }
  break;
  case 16:
   switch (from) {
    case 1:
     switch (to) {
      case  2: return roar_conv_chans_1to216(out, in, samples);
      default: return roar_conv_chans_1ton16(out, in, samples, to);
     }
     break;
    case 2:
     switch (to) {
      case  1: return roar_conv_chans_2to116(out, in, samples);
      default: return -1;
     }
     break;
    default:
     switch (to) {
      case  1: return roar_conv_chans_nto116(out, in, samples, from);
      default: return -1;
     }
   }
  break;
  default: return -1;
 }

 return -1;
}

int roar_conv_chans_1ton8  (void * out, void * in, int samples, int to) {
 char * ip = (char*) in, * op = (char*) out;
 int i;
 int c;

 for (i = samples - 1; i >= 0; i--)
  for (c = to - 1; c >= 0; c--)
   op[i*to + c] = ip[i];

 return 0;
}

int roar_conv_chans_1to28  (void * out, void * in, int samples) {
 char * ip = (char*) in, * op = (char*) out;
 int i, h;

 samples--;

 for (i = (h = samples) * 2; i >= 0; i -= 2, h--) {
  op[i + 0] = ip[h];
  op[i + 1] = ip[h];
 }

 return 0;
}

int roar_conv_chans_1ton16 (void * out, void * in, int samples, int to) {
 int16_t * ip = (int16_t*) in, * op = (int16_t*) out;
 int i;
 int c;

 for (i = samples - 1; i >= 0; i--)
  for (c = to - 1; c >= 0; c--)
   op[i*to + c] = ip[i];

 return 0;
}

int roar_conv_chans_1to216 (void * out, void * in, int samples) {
 int16_t * ip = (int16_t*) in, * op = (int16_t*) out;
 int i, h;

 samples--;

 for (i = (h = samples) * 2; i >= 0; i -= 2, h--) {
  op[i + 0] = ip[h];
  op[i + 1] = ip[h];
 }

 return 0;
}

int roar_conv_chans_nto18  (void * out, void * in, int samples, int from) {
 int8_t * ip = (int8_t*) in, * op = (int8_t*) out;
 int i;
 int c;
 register int s;

 samples /= from;

 for (i = samples - 1; i >= 0; i--) {
  s  = 0;

  for (c = 0; c < from; c++)
   s += ip[i*from + c];

  s /= from;
  op[i] = s;
 }

 return 0;
}

int roar_conv_chans_2to18  (void * out, void * in, int samples) {
 int8_t * ip = (int8_t*) in, * op = (int8_t*) out;
 int i, h;

 samples -= 2;

 for (h = (i = samples) / 2; i >= 0; i -= 2, h--)
  op[h] = ((int)ip[i + 0] + (int)ip[i + 1]) / 2;

 return 0;
}

int roar_conv_chans_nto116 (void * out, void * in, int samples, int from) {
 int16_t * ip = (int16_t*) in, * op = (int16_t*) out;
 int i;
 int c;
 register int s;

 samples /= from;

 for (i = samples - 1; i >= 0; i--) {
  s  = 0;

  for (c = 0; c < from; c++)
   s += ip[i*from + c];

  s /= from;
  op[i] = s;
 }

 return 0;
}

int roar_conv_chans_2to116  (void * out, void * in, int samples) {
 int16_t * ip = (int16_t*) in, * op = (int16_t*) out;
 int i, h;

 samples -= 2;

 for (h = (i = samples) / 2; i >= 0; i -= 2, h--)
  op[h] = ((int)ip[i + 0] + (int)ip[i + 1]) / 2;

 return 0;
}

int roar_conv_rate (void * out, void * in, int samples, int from, int to, int bits, int channels) {
 if ( bits == 8  )
  return roar_conv_rate_8(out, in, samples, from, to, channels);

 if ( bits == 16 )
  return roar_conv_rate_16(out, in, samples, from, to, channels);

 return -1;
}

int roar_conv_rate_8  (void * out, void * in, int samples, int from, int to, int channels) {
 return -1;
}

int roar_conv_rate_16 (void * out, void * in, int samples, int from, int to, int channels) {
 if ( channels == 1 ) {
  printf("roar_conv_rate_16(): samples=%i -> %i, rate=%i -> %i\n", samples*from/to, samples, from, to);
  return roar_conv_poly4_16s((int16_t*) out, (int16_t*) in, samples, samples*from/to, (float)from/to);
//  return roar_conv_poly4_16((int16_t*) out, (int16_t*) in, samples*to/from, samples);
 }

 return -1;
}

int raor_conv_codec (void * out, void * in, int samples, int from, int to, int bits) {
 int inbo = ROAR_CODEC_BYTE_ORDER(from), outbo = ROAR_CODEC_BYTE_ORDER(to);
 int ins  = ROAR_CODEC_IS_SIGNED(from),  outs  = ROAR_CODEC_IS_SIGNED(to);
 void * nin = in;

 if ( bits == 8 || bits == 16 ) {
  if ( inbo  == ROAR_CODEC_PDP )
   inbo  = ROAR_CODEC_LE;
  if ( outbo == ROAR_CODEC_PDP )
   outbo = ROAR_CODEC_LE;
 }

 ROAR_DBG("raor_conv_codec(out=%p, in=%p, samples=%i, from=%i(%s), to=%i(%s), bits=%i) = ?",
              out, in, samples, from, roar_codec2str(from), to, roar_codec2str(to), bits);

 if ( inbo != outbo ) {
  if ( bits != 8 ) { // there is no need to talk about eddines on 8 bit data streams
   if ( bits == 16 ) {
    // in this case we can only have LE vs. BE, so, only need to swap:
    roar_conv_endian_16(out, nin, samples);
    nin = out;
   } else if ( bits == 24 ) {
    if ( (inbo == ROAR_CODEC_LE || inbo == ROAR_CODEC_BE) && (outbo == ROAR_CODEC_LE || outbo == ROAR_CODEC_BE) ) {
     roar_conv_endian_24(out, nin, samples);
     nin = out;
    } else { // what the hell is PDP eddines in 24 bit mode?
     return -1;
    }
   } else if ( bits == 32 ) {
    if ( (inbo == ROAR_CODEC_LE || inbo == ROAR_CODEC_BE) && (outbo == ROAR_CODEC_LE || outbo == ROAR_CODEC_BE) ) {
     roar_conv_endian_32(out, nin, samples);
     nin = out;
    } else { // need to handle 32 PDP eddines here?
     return -1;
    }
   } else {
    return -1;
   }
  }
 }

 if ( ins != outs ) {
  if ( ins && !outs ) {
   switch (bits) {
    case  8: roar_conv_codec_s2u8( out, nin, samples); break;
    case 16: roar_conv_codec_s2u16(out, nin, samples); break;
    case 32: roar_conv_codec_s2u32(out, nin, samples); break;
    default:
     errno = ENOSYS;
     return -1;
   }
  } else if ( !ins && outs ) {
   switch (bits) {
    case  8: roar_conv_codec_u2s8( out, nin, samples); break;
    case 16: roar_conv_codec_u2s16(out, nin, samples); break;
    case 32: roar_conv_codec_u2s32(out, nin, samples); break;
    default:
     errno = ENOSYS;
     return -1;
   }
  } else {
   return -1;
  }
 }

 return 0;
}

int roar_conv_codec_s2u8 (void * out, void * in, int samples) {
 char * ip = in;
 unsigned char * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] + 128;

 return 0;
}

int roar_conv_codec_s2u16 (void * out, void * in, int samples) {
 int16_t  * ip = in;
 uint16_t * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] + 32768;

 return 0;
}

int roar_conv_codec_s2u32 (void * out, void * in, int samples) {
 int32_t  * ip = in;
 uint32_t * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] + 2147483648U;

 return 0;
}

int roar_conv_codec_u2s8 (void * out, void * in, int samples) {
 unsigned char * ip = in;
          char * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] - 128;

 return 0;
}

int roar_conv_codec_u2s16 (void * out, void * in, int samples) {
 uint16_t  * ip = in;
 int16_t   * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] - 32768;

 return 0;
}

int roar_conv_codec_u2s32 (void * out, void * in, int samples) {
 uint32_t  * ip = in;
 int32_t   * op = out;
 int i;

 for(i = 0; i < samples; i++)
  op[i] = ip[i] - 2147483648U;

 return 0;
}

int roar_conv_endian_16   (void * out, void * in, int samples) {
 char          * ip = in;
 char          * op = out;
 register char   c;
 int             i;

 samples *= 2;

 if ( out != in ) {
//  printf("out != in\n");
  for(i = 0; i < samples; i += 2) {
//   printf("op[%i] = ip[%i]\nop[%i] = ip[%i]\n", i, i+1, i+1, i);
   op[i  ] = ip[i+1];
   op[i+1] = ip[i  ];
  }
 } else {
//  printf("out == in\n");
  for(i = 0; i < samples; i += 2) {
   c       = ip[i+1];
   op[i+1] = ip[i  ];
   op[i  ] = c;
  }
 }

 return 0;
}

int roar_conv_endian_24   (void * out, void * in, int samples) {
 char          * ip = in;
 char          * op = out;
 register char   c;
 int             i;

 samples *= 3;

 if ( out != in ) {
//  printf("out != in\n");
  for(i = 0; i < samples; i += 3) {
//   printf("op[%i] = ip[%i]\nop[%i] = ip[%i]\n", i, i+1, i+1, i);
   op[i  ] = ip[i+2];
   op[i+2] = ip[i  ];
  }
 } else {
//  printf("out == in\n");
  for(i = 0; i < samples; i += 3) {
   c       = ip[i+2];
   op[i+2] = ip[i  ];
   op[i  ] = c;
  }
 }

 return 0;
}

int roar_conv_endian_32   (void * out, void * in, int samples) {
 int32_t       * ip = in;
 int32_t       * op = out;
 union {
  int32_t val;
  char    data[4];
 }               c, h;
 int             i;

 // may the holly optimizer save our souls!

 ROAR_DBG("roar_conv_endian_32(out=%p, in=%p, samples=%i) = ?", out, in, samples);

 for (i = 0; i < samples; i++) {
  c.val     = ip[i];
  h.data[0] = c.data[3];
  h.data[1] = c.data[2];
  h.data[2] = c.data[1];
  h.data[3] = c.data[0];
  op[i]     = h.val;
 }

 return 0;
}

int roar_conv       (void * out, void * in, int samples, struct roar_audio_info * from, struct roar_audio_info * to) {
 void * ip = in;

 // TODO: decide how to work around both in and out beeing to small to hold all
 //       data between the steps.
 //       for the moment: guess out >= in

 if ( from->bits != to->bits ) {
  if ( roar_conv_bits(out, ip, samples, from->bits, to->bits) == -1 )
   return -1;
  else
   ip = out;
 }

 if ( from->codec != to->codec ) {
  if ( raor_conv_codec (out, ip, samples, from->codec, to->codec, to->bits) == -1 )
   return -1;
  else
   ip = out;
 }

 if ( from->rate != to->rate ) {
  if ( roar_conv_rate(out, ip, samples, from->rate, to->rate, to->bits, from->channels) == -1 )
   return -1;
  else
   ip = out;
 }

 if ( from->channels != to->channels ) {
  if ( roar_conv_chans(out, ip, samples, from->channels, to->channels, to->bits) == -1 )
   return -1;
  else
   ip = out;
 }

 return 0;
}



int roar_conv_poly4_16 (int16_t * out, int16_t * in, size_t olen, size_t ilen) {
 return roar_conv_poly4_16s(out, in, olen, ilen, (float)ilen/olen);
}

int roar_conv_poly4_16s (int16_t * out, int16_t * in, size_t olen, size_t ilen, float step) {
 float poly[4];
 float data[4];
 float t    = 0;
 int16_t * ci = in;
 int io, ii = 0;
 int i;

 printf("step=%f\n", step);

 // we can not make a poly4 with less than 4 points ;)
 if ( ilen < 4 )
  return -1;

 for (i = 0; i < 4; i++)
  data[i] = ci[i];
 roar_math_mkpoly_4x4(poly, data);
/*
 printf("new poly: data[4] = {%f, %f, %f, %f}, poly[4] = {%f, %f, %f, %f}\n",
         data[0], data[1], data[2], data[3],
         poly[0], poly[1], poly[2], poly[3]
       );
*/

 //0 1 2 3

 for (io = 0; io < olen; io++) {
//  printf("t=%f\n", t);
  out[io] = roar_math_cvpoly_4x4(poly, t);
  t += step;
  if ( t > 2 ) { // we need a new ploynome
 //  printf("t > 2, need new data\n");
   if ( (ii + 4) < ilen ) { // else: end of block.
    t -= 1;
//    printf("new data: ii=%i\n", ii);
    ii++;
    ci++;
    for (i = 0; i < 4; i++)
     data[i] = ci[i];
    roar_math_mkpoly_4x4(poly, data);
/* 
   printf("new poly: data[4] = {%f, %f, %f, %f}, poly[4] = {%f, %f, %f, %f}\n",
           data[0], data[1], data[2], data[3],
           poly[0], poly[1], poly[2], poly[3]
          );
*/
   }
  }
 }

 printf("io=%i\n", io);

 return 0;
}

//ll