0
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1 /*
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2 * wavfile.c WAV file check
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3 *
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4 * Copyright: wavfile.c (c) Erik de Castro Lopo erikd@zip.com.au
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5 *
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6 * Modified : 1997-1998 Masaki Chikama (Wren) <chikama@kasumi.ipl.mech.nagoya-u.ac.jp>
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7 * 1998- <masaki-c@is.aist-nara.ac.jp>
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8 * 2000- Kazunori Ueno(JAGARL) <jagarl@createor.club.ne.jp>
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9 *
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10 * This program is free software; you can redistribute it and/or modify
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11 * it under the terms of the GNU General Public License as published by
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12 * the Free Software Foundation; either version 2 of the License, or
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13 * (at your option) any later version.
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14 *
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15 * This program is distributed in the hope that it will be useful,
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16 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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18 * GNU General Public License for more details.
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19 *
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20 * You should have received a copy of the GNU General Public License
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21 * along with this program; if not, write to the Free Software
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22 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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23 *
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24 */
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25
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26 #include <stdarg.h>
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27 #include <stdio.h>
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28 #include <stdlib.h>
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29 #include <errno.h>
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30 #include <sys/types.h>
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31 #include <unistd.h>
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32 #include <string.h>
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33 #include "wavfile.h"
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34 #include "system/file.h"
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35 #include "music.h"
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36
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37 #define BUFFERSIZE 1024
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38 #define PCM_WAVE_FORMAT 1
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39
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40 /*******************************************************
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41 **
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42 ** WAVE Header
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43 */
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44
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45 inline int LittleEndian_getDW(const char *b,int index) {
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46 int c0, c1, c2, c3;
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47 int d0, d1;
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48 c0 = *(const unsigned char*)(b + index + 0);
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49 c1 = *(const unsigned char*)(b + index + 1);
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50 c2 = *(const unsigned char*)(b + index + 2);
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51 c3 = *(const unsigned char*)(b + index + 3);
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52 d0 = c0 + (c1 << 8);
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53 d1 = c2 + (c3 << 8);
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54 return d0 + (d1 << 16);
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55 }
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56
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57 inline int LittleEndian_get3B(const char *b,int index) {
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58 int c0, c1, c2;
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59 c0 = *(const unsigned char*)(b + index + 0);
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60 c1 = *(const unsigned char*)(b + index + 1);
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61 c2 = *(const unsigned char*)(b + index + 2);
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62 return c0 + (c1 << 8) + (c2 << 16);
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63 }
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64
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65 inline int LittleEndian_getW(const char *b,int index) {
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66 int c0, c1;
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67 c0 = *(const unsigned char*)(b + index + 0);
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68 c1 = *(const unsigned char*)(b + index + 1);
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69 return c0 + (c1 << 8);
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70 }
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71
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72 inline void LittleEndian_putW(int num, char *b, int index) {
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73 int c0, c1;
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74 num %= 65536;
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75 c0 = num % 256;
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76 c1 = num / 256;
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77 b[index] = c0; b[index+1] = c1;
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78 }
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79
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80 typedef struct
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81 { u_long dwSize ;
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82 u_short wFormatTag ;
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83 u_short wChannels ;
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84 u_long dwSamplesPerSec ;
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85 u_long dwAvgBytesPerSec ;
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86 u_short wBlockAlign ;
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87 u_short wBitsPerSample ;
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88 } WAVEFORMAT ;
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89
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90 typedef struct
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91 { char RiffID [4] ;
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92 u_long RiffSize ;
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93 char WaveID [4] ;
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94 char FmtID [4] ;
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95 u_long FmtSize ;
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96 u_short wFormatTag ;
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97 u_short nChannels ;
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98 u_long nSamplesPerSec ;
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99 u_long nAvgBytesPerSec ;
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100 u_short nBlockAlign ;
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101 u_short wBitsPerSample ;
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102 char DataID [4] ;
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103 u_long nDataBytes ;
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104 } WAVE_HEADER ;
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105
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106
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107 static void waveFormatCopy( WAVEFORMAT* wav, char *ptr );
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108 static char* findchunk (char* s1, char* s2, size_t n) ;
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109
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110 static int WaveHeaderCheck (char *wave_buf,int* channels, u_long* samplerate, int* samplebits, u_long* samples,u_long* datastart)
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111 {
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112 static WAVEFORMAT waveformat ;
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113 char* ptr ;
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114 u_long databytes ;
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115
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116 if (findchunk (wave_buf, "RIFF", BUFFERSIZE) != wave_buf) {
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117 fprintf(stderr, "Bad format: Cannot find RIFF file marker");
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118 return WR_BADRIFF ;
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119 }
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120
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121 if (! findchunk (wave_buf, "WAVE", BUFFERSIZE)) {
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122 fprintf(stderr, "Bad format: Cannot find WAVE file marker");
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123 return WR_BADWAVE ;
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124 }
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125
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126 ptr = findchunk (wave_buf, "fmt ", BUFFERSIZE) ;
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127
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128 if (! ptr) {
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129 fprintf(stderr, "Bad format: Cannot find 'fmt' file marker");
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130 return WR_BADFORMAT ;
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131 }
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132
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133 ptr += 4 ; /* Move past "fmt ".*/
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134 waveFormatCopy( &waveformat, ptr );
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135
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136 if (waveformat.dwSize != (sizeof (WAVEFORMAT) - sizeof (u_long))) {
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137 /* fprintf(stderr, "Bad format: Bad fmt size"); */
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138 /* return WR_BADFORMATSIZE ; */
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139 }
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140
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141 if (waveformat.wFormatTag != PCM_WAVE_FORMAT) {
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142 fprintf(stderr, "Only supports PCM wave format");
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143 return WR_NOTPCMFORMAT ;
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144 }
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145
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146 ptr = findchunk (wave_buf, "data", BUFFERSIZE) ;
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147
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148 if (! ptr) {
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149 fprintf(stderr,"Bad format: unable to find 'data' file marker");
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150 return WR_NODATACHUNK ;
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151 }
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152
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153 ptr += 4 ; /* Move past "data".*/
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154 databytes = LittleEndian_getDW(ptr, 0);
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155
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156 /* Everything is now cool, so fill in output data.*/
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157
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158 *channels = waveformat.wChannels;
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159 *samplerate = waveformat.dwSamplesPerSec ;
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160 *samplebits = waveformat.wBitsPerSample ;
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161 *samples = databytes / waveformat.wBlockAlign ;
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162
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163 *datastart = (u_long)(ptr) + 4;
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164
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165 if (waveformat.dwSamplesPerSec != waveformat.dwAvgBytesPerSec / waveformat.wBlockAlign) {
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166 fprintf(stderr, "Bad file format");
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167 return WR_BADFORMATDATA ;
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168 }
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169
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170 if (waveformat.dwSamplesPerSec != waveformat.dwAvgBytesPerSec / waveformat.wChannels / ((waveformat.wBitsPerSample == 16) ? 2 : 1)) {
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171 fprintf(stderr, "Bad file format");
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172 return WR_BADFORMATDATA ;
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173 }
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174
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175 return 0 ;
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176 } ; /* WaveHeaderCheck*/
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177
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178
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179 static char* findchunk (char* pstart, char* fourcc, size_t n)
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180 { char *pend ;
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181 int k, test ;
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182
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183 pend = pstart + n ;
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184
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185 while (pstart < pend)
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186 {
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187 if (*pstart == *fourcc) /* found match for first char*/
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188 { test = 1 ;
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189 for (k = 1 ; fourcc [k] != 0 ; k++)
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190 test = (test ? ( pstart [k] == fourcc [k] ) : 0) ;
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191 if (test)
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192 return pstart ;
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193 } ; /* if*/
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194 pstart ++ ;
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195 } ; /* while lpstart*/
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196
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197 return NULL ;
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198 } ; /* findchuck*/
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199
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200 static void waveFormatCopy( WAVEFORMAT* wav, char *ptr ) {
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201 wav->dwSize = LittleEndian_getDW( ptr, 0 );
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202 wav->wFormatTag = LittleEndian_getW( ptr, 4 );
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203 wav->wChannels = LittleEndian_getW( ptr, 6 );
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204 wav->dwSamplesPerSec = LittleEndian_getDW( ptr, 8 );
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205 wav->dwAvgBytesPerSec = LittleEndian_getDW( ptr, 12 );
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206 wav->wBlockAlign = LittleEndian_getW( ptr, 16 );
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207 wav->wBitsPerSample = LittleEndian_getW( ptr, 18 );
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208 }
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209
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210 static char* WavGetInfo(WAVFILE* wfile, char *data) {
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211 int e; /* Saved errno value */
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212 int channels; /* Channels recorded in this wav file */
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213 u_long samplerate; /* Sampling rate */
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214 int sample_bits; /* data bit size (8/12/16) */
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215 u_long samples; /* The number of samples in this file */
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216 u_long datastart; /* The offset to the wav data */
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217
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218 if ( (e = WaveHeaderCheck(data,
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219 &channels,&samplerate,
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220 &sample_bits,&samples,&datastart) != 0 )) {
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221 fprintf(stderr,"WavGetInfo(): Reading WAV header\n");
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222 return 0;
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223 }
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224
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225 /*
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226 * Copy WAV data over to WAVFILE struct:
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227 */
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228 wfile->wavinfo.Channels = channels;
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229
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230 wfile->wavinfo.SamplingRate = (unsigned int) samplerate;
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231 wfile->wavinfo.DataBits = (unsigned short) sample_bits;
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232
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233 return (char *) datastart;
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234 }
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235
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236 /************************************************************:
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237 **
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238 ** WAVFILE stream reader
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239 */
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240
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241 #include<SDL_mixer.h>
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242 WAVFILE::WAVFILE(void) {
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243 wavinfo.SamplingRate=0;
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244 wavinfo.Channels=1;
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245 wavinfo.DataBits=0;
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246 }
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247
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248 int WAVFILE_Stream::Read(char* in_buf, int blksize, int length) {
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249 /* ¥Õ¥¡¥¤¥ë¤ÎÆɤ߹þ¤ß */
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250 if (data_length == 0 && stream_length == 0) return -1;
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251 /* wf->data ¤Ë¥Ç¡¼¥¿¤Î»Ä¤ê¤¬¤¢¤ì¤Ð¤½¤ì¤âÆɤ߹þ¤à */
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252 if (data_length > blksize*length) {
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253 memcpy(in_buf, data, blksize*length);
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254 data += blksize * length;
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255 data_length -= blksize * length;
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256 return length;
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257 }
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258 memcpy(in_buf, data, data_length);
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259 if (stream_length != -1 && stream_length < blksize*length-data_length) {
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260 length = (stream_length+data_length+blksize-1)/blksize;
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261 }
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262 int read_len = 0;
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263 if (blksize*length-data_length > 0) {
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264 read_len = fread(in_buf+data_length, 1, blksize*length-data_length, stream);
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265 if (stream_length != -1 && stream_length > read_len) stream_length -= read_len;
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266 if (feof(stream)) stream_length = 0; // end of file
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267 } else {
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268 stream_length = 0; // all data were read
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269 }
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270 int blklen = (read_len + data_length) / blksize;
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271 data_length = 0;
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272 return blklen;
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273 }
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274 void WAVFILE_Stream::Seek(int count) {
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275 int blksize = 1;
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276 /* block size ¤ÎÀßÄê */
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277 blksize *= wavinfo.Channels * (wavinfo.DataBits/8);
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278 data_length = 0;
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279 stream_length = stream_length_orig - stream_top - count*blksize;
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280 fseek(stream, count*blksize+stream_top, 0);
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281 }
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282 WAVFILE_Stream::WAVFILE_Stream(FILE* _stream, int _length) {
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283 stream = _stream;
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284 stream_length = _length;
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285 stream_length_orig = _length;
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286 data_orig = new char[1024];
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287 data = data_orig;
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288 data_length = 1024;
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289 if (stream_length != -1 && stream_length < data_length) {
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290 data_length = stream_length;
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291 }
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292 fread(data, data_length, 1, stream);
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293 if (stream_length != -1)
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294 stream_length -= data_length;
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295 data = WavGetInfo(this, data);
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296 if (data == 0) {
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297 stream_length = 0;
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298 data_length = 0;
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299 return;
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300 }
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301 stream_top = data - data_orig;
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302 data_length -= data - data_orig;
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303 return;
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304 }
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305 WAVFILE_Stream::~WAVFILE_Stream() {
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306 if (data_orig) delete data_orig;
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307 if (stream) fclose(stream);
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308 return;
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309 }
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310 /************************************************************:
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311 **
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312 ** WAVE format converter with SDL_audio
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313 */
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314 WAVFILE* WAVFILE::MakeConverter(WAVFILE* new_reader) {
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315 bool need = false;
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316 if (new_reader->wavinfo.SamplingRate != freq) need = true;
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317 if (new_reader->wavinfo.Channels != channels) need = true;
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318 if (format == AUDIO_S8) {
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319 if (new_reader->wavinfo.DataBits != 8) need = true;
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320 } else if (format == AUDIO_S16) {
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321 if (new_reader->wavinfo.DataBits != 16) need = true;
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322 } else {
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323 need = true;
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324 }
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325 if (!need) return new_reader;
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326 /* ÊÑ´¹¤â¤È¤Î¥Õ¥©¡¼¥Þ¥Ã¥È¤òÆÀ¤ë */
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327 int from_format;
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328 if (new_reader->wavinfo.DataBits == 8) from_format = AUDIO_S8;
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329 else from_format = AUDIO_S16;
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330 SDL_AudioCVT* cvt = new SDL_AudioCVT;
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331 int ret = SDL_BuildAudioCVT(cvt, from_format, new_reader->wavinfo.Channels, freq,
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332 format, 2, freq);
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333 if (ret == -1) {
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334 delete cvt;
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335 fprintf(stderr,"Cannot make wave file converter!!!\n");
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336 return new_reader;
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337 }
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338 WAVFILE_Converter* conv = new WAVFILE_Converter(new_reader, cvt);
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339 return conv;
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340 }
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341 WAVFILE_Converter::WAVFILE_Converter(WAVFILE* _orig, SDL_AudioCVT* _cvt) {
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342 original = _orig;
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343 cvt = _cvt;
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344 //datasize = 4096*4;
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345 datasize = 48000;
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346 cvt->buf = new Uint8[datasize*cvt->len_mult];
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347 cvt->len = 0;
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348 tmpbuf = new char[datasize*cvt->len_mult + 1024];
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349 memset(tmpbuf, 0, datasize*cvt->len_mult+1024);
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350 };
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351
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352 static int conv_wave_rate(short* in_buf, int length, int in_rate, int out_rate, char* tmpbuf);
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353 WAVFILE_Converter::~WAVFILE_Converter() {
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354 if (cvt) {
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355 if (cvt->buf) delete[] cvt->buf;
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356 delete cvt;
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357 cvt = 0;
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358 }
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359 if (original) delete original;
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360 original = 0;
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361 }
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362 int WAVFILE_Converter::Read(char* buf, int blksize, int blklen) {
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363 if (original == 0 || cvt == 0) return -1;
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364 int copied_length = 0;
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365 if (cvt->len < blksize*blklen) {
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366 memcpy(buf, cvt->buf, cvt->len);
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367 copied_length += cvt->len;
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368 do {
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369 int cnt = original->Read((char*)cvt->buf, 1, datasize);
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370 if (cnt <= 0) {
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371 cvt->len = 0;
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372 break;
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373 }
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374 cvt->len = cnt;
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375 SDL_ConvertAudio(cvt);
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376 if (freq < original->wavinfo.SamplingRate) { // rate conversion ¤Ï SDL_ConvertAudio ¤Ç¤Ï¤¦¤Þ¤¯¹Ô¤«¤Ê¤¤
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377 // 48000Hz -> 44100Hz or 22050Hz ¤Ê¤É¤òÁÛÄê
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378 // Ťµ¤Ïû¤¯¤Ê¤ë¤Ï¤º¤Ê¤Î¤Ç¡¢Æä˽èÍý¤Ï¤Ê¤·
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379 cvt->len = conv_wave_rate( (short*)(cvt->buf), cvt->len_cvt/4, original->wavinfo.SamplingRate, freq, tmpbuf);
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380 cvt->len *= 4;
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381 } else {
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382 cvt->len = cvt->len_cvt;
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383 }
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384 if (cvt->len+copied_length > blksize*blklen) break;
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385 memcpy(buf+copied_length, cvt->buf, cvt->len);
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386 copied_length += cvt->len;
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387 } while(1);
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388 }
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389 if (cvt->len == 0 && copied_length == 0) return -1;
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390 else if (cvt->len > 0) {
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391 int len = blksize * blklen - copied_length;
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392 memcpy(buf+copied_length, cvt->buf, len);
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393 memmove(cvt->buf, cvt->buf+len, cvt->len-len);
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394 copied_length += len;
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395 cvt->len -= len;
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396 }
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397 return copied_length / blksize;
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398 }
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399 /* format ¤Ï signed, 16bit, little endian, stereo ¤È·è¤á¤¦¤Á
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400 ** ¾ì¹ç¤Ë¤è¤Ã¤Æ¤¤¤Ï big endian ¤Ë¤Ê¤ë¤³¤È¤â¤¢¤ë¤«¤â¡£
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401 */
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402 static int conv_wave_rate(short* in_buf, int length, int in_rate, int out_rate, char* tmpbuf) {
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403 int input_rate = in_rate;
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404 int output_rate = out_rate;
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405 double input_rate_d = input_rate, output_rate_d = output_rate;
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406 double dtime; int outlen; short* out, * out_orig; int next_sample1, next_sample2;
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407 short* in_buf_orig = in_buf;
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408 int i; int time;
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409
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410 if (input_rate == output_rate) return length;
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411 if (length <= 0) return 0;
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412 /* °ìÈ̤μþÇÈ¿ôÊÑ´¹¡§Àþ·¿Êä´° */
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413 int& first_flag = *(int*)(tmpbuf);
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414 int& prev_time = *(int*)(tmpbuf+4);
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415 int& prev_sample1 = *(int*)(tmpbuf+8);
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416 int& prev_sample2 = *(int*)(tmpbuf+12);
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417 out = (short*)(tmpbuf+16);
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418 /* ½é¤á¤Æ¤Ê¤é¥Ç¡¼¥¿¤ò½é´ü²½ */
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419 if (first_flag == 0) {
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420 first_flag = 1;
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421 prev_time = 0;
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422 prev_sample1 = short(read_little_endian_short((char*)(in_buf++)));
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423 prev_sample2 = short(read_little_endian_short((char*)(in_buf++)));
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424 length--;
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425 }
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426 /* º£²óºîÀ®¤¹¤ë¥Ç¡¼¥¿Î̤òÆÀ¤ë */
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427 dtime = prev_time + length * output_rate_d;
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428 outlen = (int)(dtime / input_rate_d);
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429 out_orig = out;
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430 if (first_flag == 1) {
|
|
431 write_little_endian_short((char*)out, prev_sample1);
|
|
432 out++;
|
|
433 write_little_endian_short((char*)out, prev_sample2);
|
|
434 out++;
|
|
435 }
|
|
436 dtime -= input_rate_d*outlen; /* ¼¡¤Î prev_time */
|
|
437
|
|
438 time=0;
|
|
439 next_sample1 = short(read_little_endian_short((char*)(in_buf++)));
|
|
440 next_sample2 = short(read_little_endian_short((char*)(in_buf++)));
|
|
441 for (i=0; i<outlen; i++) {
|
|
442 /* double ¤Ç·×»»¤·¤Æ¤ß¤¿¤±¤É¤½¤¦´Êñ¤Ë¤Ï¹â®²½¤Ï̵Íý¤é¤·¤¤ */
|
|
443 /* ¤Ê¤ª¡¢ÊÑ´¹¤Ï 1ʬ¤Î¥Ç¡¼¥¿¤Ë1ÉÃÄøÅÙ¤«¤«¤ë(Celeron 700MHz) */
|
|
444 time += input_rate;
|
|
445 while(time-prev_time>output_rate) {
|
|
446 prev_sample1 = next_sample1;
|
|
447 next_sample1 = short(read_little_endian_short((char*)(in_buf++)));
|
|
448 prev_sample2 = next_sample2;
|
|
449 next_sample2 = short(read_little_endian_short((char*)(in_buf++)));
|
|
450 prev_time += output_rate;
|
|
451 }
|
|
452 write_little_endian_short((char*)out,
|
|
453 ((time-prev_time)*next_sample1 +
|
|
454 (input_rate-time+prev_time)*prev_sample1) / input_rate);
|
|
455 out++;
|
|
456 write_little_endian_short((char*)out,
|
|
457 ((time-prev_time)*next_sample2 +
|
|
458 (input_rate-time+prev_time)*prev_sample2) / input_rate);
|
|
459 *out++;
|
|
460 }
|
|
461 prev_time += output_rate; prev_time -= input_rate * outlen;
|
|
462 prev_sample1 = next_sample1; prev_sample2 = next_sample2;
|
|
463 if (first_flag == 1) {
|
|
464 outlen++; first_flag = 2;
|
|
465 }
|
|
466 memcpy(in_buf_orig, out_orig, outlen*2*sizeof(short));
|
|
467 return outlen;
|
|
468 }
|
|
469
|
|
470
|
|
471 /************************************************************:
|
|
472 **
|
|
473 ** MP3FILE stream reader
|
|
474 */
|
|
475
|
|
476 int WAVFILE::freq = 48000;
|
|
477 int WAVFILE::channels = 2;
|
|
478 int WAVFILE::format = MIX_DEFAULT_FORMAT;
|
|
479
|
|
480 #if HAVE_LIBMAD
|
|
481
|
|
482 #include<mad.h>
|
|
483 #define MPEG_BUFSZ 40000 /* 2.5 s at 128 kbps; 1 s at 320 kbps */
|
|
484 struct MP3FILE_impl {
|
|
485 enum { PREPARE, RUN, WRITE, DONE} status;
|
|
486 struct mad_decoder decoder;
|
|
487 char* data;
|
|
488 int data_len;
|
|
489 char* write_data;
|
|
490 unsigned int write_data_len;
|
|
491 unsigned int write_pointer;
|
|
492 unsigned int src_pointer;
|
|
493 FILE* stream;
|
|
494 MP3FILE_impl(FILE*);
|
|
495 ~MP3FILE_impl();
|
|
496 static enum mad_flow callback_read(void *data, struct mad_stream *stream);
|
|
497 static enum mad_flow callback_error(void *data, struct mad_stream *stream, struct mad_frame *frame);
|
|
498 static enum mad_flow callback_write(void *data, struct mad_header const *header, struct mad_pcm *pcm);
|
|
499 enum mad_flow callback_write_impl(struct mad_pcm *pcm);
|
|
500 void run(void);
|
|
501 };
|
|
502
|
|
503 MP3FILE_impl::MP3FILE_impl(FILE* _stream) {
|
|
504 stream = _stream;
|
|
505 data = new char[MPEG_BUFSZ];
|
|
506 data_len = 0;
|
|
507 src_pointer = 0;
|
|
508 write_data = 0;
|
|
509 write_data_len = 0;
|
|
510 write_pointer = 0;
|
|
511
|
|
512 /* initialize decoder */
|
|
513 mad_decoder_init(&decoder, (void*)this, callback_read, 0 /* header */, 0 /* filter */, callback_write,
|
|
514 callback_error, 0 /* message */);
|
|
515 /* prepare stream */
|
|
516 status = PREPARE;
|
|
517 *(void**)(&decoder.sync) = malloc(sizeof(*decoder.sync));
|
|
518
|
|
519 mad_stream_init(&decoder.sync->stream);
|
|
520 mad_frame_init(&decoder.sync->frame);
|
|
521 mad_synth_init(&decoder.sync->synth);
|
|
522
|
|
523 mad_stream_options(&decoder.sync->stream, decoder.options);
|
|
524
|
|
525 while(status != WRITE && status != DONE) run();
|
|
526 }
|
|
527 MP3FILE_impl::~MP3FILE_impl() {
|
|
528 free(decoder.sync);
|
|
529 mad_decoder_finish(&decoder);
|
|
530 delete[] data;
|
|
531 return;
|
|
532 }
|
|
533
|
|
534 void MP3FILE_impl::run(void) {
|
|
535 if (status == DONE) return;
|
|
536 struct mad_stream *stream = &decoder.sync->stream;
|
|
537 struct mad_frame *frame = &decoder.sync->frame;
|
|
538 struct mad_synth *synth = &decoder.sync->synth;
|
|
539 if (status == PREPARE) {
|
|
540 switch (decoder.input_func(decoder.cb_data, stream)) {
|
|
541 case MAD_FLOW_STOP:
|
|
542 case MAD_FLOW_BREAK:
|
|
543 goto done;
|
|
544 case MAD_FLOW_CONTINUE:
|
|
545 status = RUN;
|
|
546 case MAD_FLOW_IGNORE:
|
|
547 break;
|
|
548 }
|
|
549 return;
|
|
550 }
|
|
551 if (status == RUN) {
|
|
552 if (mad_frame_decode(frame, stream) == -1) {
|
|
553 if (!MAD_RECOVERABLE(stream->error)) {
|
|
554 status = PREPARE;
|
|
555 return;
|
|
556 }
|
|
557 switch (decoder.error_func((void*)this, stream, frame)) {
|
|
558 case MAD_FLOW_STOP:
|
|
559 case MAD_FLOW_BREAK:
|
|
560 goto done;
|
|
561 case MAD_FLOW_IGNORE:
|
|
562 status = PREPARE;
|
|
563 return;
|
|
564 case MAD_FLOW_CONTINUE:
|
|
565 default:
|
|
566 return;
|
|
567 }
|
|
568 }
|
|
569
|
|
570 mad_synth_frame(synth, frame);
|
|
571 src_pointer = 0;
|
|
572 status = WRITE;
|
|
573 return;
|
|
574 }
|
|
575 if (status == WRITE) {
|
|
576 switch (decoder.output_func(decoder.cb_data, &frame->header, &synth->pcm)) {
|
|
577 case MAD_FLOW_STOP:
|
|
578 case MAD_FLOW_BREAK:
|
|
579 goto done;
|
|
580 case MAD_FLOW_IGNORE:
|
|
581 return;
|
|
582 case MAD_FLOW_CONTINUE:
|
|
583 status = RUN;
|
|
584 break;
|
|
585 }
|
|
586 if (stream->error == MAD_ERROR_BUFLEN) {
|
|
587 stream->error = MAD_ERROR_NONE;
|
|
588 status = PREPARE;
|
|
589 }
|
|
590 return;
|
|
591 }
|
|
592 done:
|
|
593 status = DONE;
|
|
594 mad_synth_finish(&decoder.sync->synth);
|
|
595 mad_frame_finish(&decoder.sync->frame);
|
|
596 mad_stream_finish(&decoder.sync->stream);
|
|
597 return;
|
|
598 }
|
|
599
|
|
600 enum mad_flow MP3FILE_impl::callback_read(void *data, struct mad_stream *stream)
|
|
601 {
|
|
602 MP3FILE_impl* impl = (MP3FILE_impl*)data;
|
|
603 if (stream->next_frame) {
|
|
604 impl->data_len -= (char*)stream->next_frame - impl->data;
|
|
605 memmove(impl->data, (char*)stream->next_frame, impl->data_len);
|
|
606 } else {
|
|
607 impl->data_len = 0;
|
|
608 }
|
|
609 int count;
|
|
610 if (feof(impl->stream)) {
|
|
611 if (stream->next_frame && (char*)stream->next_frame - impl->data > 0) {
|
|
612 // There is under processing data
|
|
613 count = 0;
|
|
614 } else {
|
|
615 // all data were processed
|
|
616 return MAD_FLOW_STOP;
|
|
617 }
|
|
618 } else {
|
|
619 count = fread(impl->data + impl->data_len, 1, MPEG_BUFSZ-impl->data_len, impl->stream);
|
|
620 if (count <= 0) {
|
|
621 return MAD_FLOW_BREAK;
|
|
622 }
|
|
623 }
|
|
624 impl->data_len += count;
|
|
625 if (impl->data_len < MPEG_BUFSZ) {
|
|
626 memset(impl->data + impl->data_len, 0, MPEG_BUFSZ-impl->data_len);
|
|
627 }
|
|
628 mad_stream_buffer(stream, (unsigned char*)impl->data, impl->data_len);
|
|
629 return MAD_FLOW_CONTINUE;
|
|
630 }
|
|
631
|
|
632 enum mad_flow MP3FILE_impl::callback_error(void *data, struct mad_stream *stream, struct mad_frame *frame)
|
|
633 {
|
|
634 MP3FILE_impl* impl = (MP3FILE_impl*)data;
|
|
635 fprintf(stdout, "decoding error 0x%04x (%s) at byte offset %u\n",
|
|
636 stream->error, mad_stream_errorstr(stream),
|
|
637 ftell(impl->stream) - ((impl->data+impl->data_len)-(char*)stream->this_frame));
|
|
638 /* return MAD_FLOW_BREAK here to stop decoding (and propagate an error) */
|
|
639 return MAD_FLOW_CONTINUE;
|
|
640 }
|
|
641 signed int scale(mad_fixed_t sample)
|
|
642 {
|
|
643 /* round */
|
|
644 sample += (1L << (MAD_F_FRACBITS - 16));
|
|
645
|
|
646 /* clip */
|
|
647 if (sample >= MAD_F_ONE)
|
|
648 sample = MAD_F_ONE - 1;
|
|
649 else if (sample < -MAD_F_ONE)
|
|
650 sample = -MAD_F_ONE;
|
|
651
|
|
652 /* quantize */
|
|
653 return sample >> (MAD_F_FRACBITS + 1 - 16);
|
|
654 }
|
|
655 enum mad_flow MP3FILE_impl::callback_write(void *data, struct mad_header const *header, struct mad_pcm *pcm)
|
|
656 {
|
|
657 MP3FILE_impl* pimpl = (MP3FILE_impl*)data;
|
|
658 return pimpl->callback_write_impl(pcm);
|
|
659 }
|
|
660 enum mad_flow MP3FILE_impl::callback_write_impl(struct mad_pcm *pcm)
|
|
661 {
|
|
662 if (write_data_len == 0) return MAD_FLOW_IGNORE;
|
|
663 mad_fixed_t const *left_ch = pcm->samples[0] + src_pointer;
|
|
664 mad_fixed_t const *right_ch = pcm->samples[1] + src_pointer;
|
|
665
|
|
666 unsigned int nchannels = pcm->channels;
|
|
667 unsigned int nsamples = pcm->length - src_pointer;
|
|
668 if (write_pointer + nsamples * nchannels * 2 > write_data_len) {
|
|
669 nsamples = (write_data_len - write_pointer) / nchannels / 2;
|
|
670 }
|
|
671 write_data_len &= ~(nchannels*2-1); /* write_data_len ¤Ï¤¢¤é¤«¤¸¤á´Ý¤á¤Æ¤ª¤¯ */
|
|
672 src_pointer += nsamples;
|
|
673 if (write_data == 0) { // skip data write
|
|
674 write_pointer += nsamples*2*2;
|
|
675 } else while(nsamples--) {
|
|
676 signed int sample = scale(*left_ch++);
|
|
677 write_data[write_pointer++] = sample & 0xff;
|
|
678 write_data[write_pointer++] = (sample>>8) & 0xff;
|
|
679 if (nchannels == 2) {
|
|
680 sample = scale(*right_ch++);
|
|
681 }
|
|
682 write_data[write_pointer++] = sample & 0xff;
|
|
683 write_data[write_pointer++] = (sample>>8) & 0xff;
|
|
684 }
|
|
685 if (write_pointer >= write_data_len) return MAD_FLOW_IGNORE;
|
|
686 else return MAD_FLOW_CONTINUE;
|
|
687 }
|
|
688
|
|
689 MP3FILE::MP3FILE(FILE* stream, int len) {
|
|
690 pimpl = new MP3FILE_impl(stream);
|
|
691 if (pimpl->status == MP3FILE_impl::DONE) {
|
|
692 delete pimpl;
|
|
693 pimpl = 0;
|
|
694 fclose(stream);
|
|
695 return;
|
|
696 }
|
|
697 wavinfo.SamplingRate = pimpl->decoder.sync->synth.pcm.samplerate;
|
|
698 wavinfo.Channels = 2;
|
|
699 wavinfo.DataBits = 16;
|
|
700 }
|
|
701 MP3FILE::~MP3FILE() {
|
|
702 if (pimpl) {
|
|
703 FILE* s = pimpl->stream;
|
|
704 delete pimpl;
|
|
705 fclose(s);
|
|
706 }
|
|
707 pimpl = 0;
|
|
708 }
|
|
709 int MP3FILE::Read(char* buf, int blksize, int blklen) {
|
|
710 if (pimpl == 0) return -1;
|
|
711 pimpl->write_data = buf;
|
|
712 pimpl->write_data_len = blksize*blklen;
|
|
713 pimpl->write_pointer = 0;
|
|
714 do {
|
|
715 pimpl->run();
|
|
716 } while(pimpl->status != MP3FILE_impl::DONE && pimpl->write_pointer < pimpl->write_data_len);
|
|
717 return pimpl->write_pointer / blksize;
|
|
718 }
|
|
719 void MP3FILE::Seek(int count) {
|
|
720 FILE* stream = pimpl->stream;
|
|
721 delete pimpl;
|
|
722 fseek(stream,0,0);
|
|
723 pimpl = new MP3FILE_impl(stream);
|
|
724 if (pimpl->status == MP3FILE_impl::DONE) {
|
|
725 delete pimpl;
|
|
726 pimpl = 0;
|
|
727 fclose(stream);
|
|
728 return;
|
|
729 }
|
|
730 int blksize = 1;
|
|
731 blksize *= wavinfo.Channels * (wavinfo.DataBits/8);
|
|
732 pimpl->write_data = 0;
|
|
733 pimpl->write_data_len = count * blksize;
|
|
734 pimpl->write_pointer = 0;
|
|
735 do {
|
|
736 pimpl->run();
|
|
737 } while(pimpl->status != MP3FILE_impl::DONE && pimpl->write_pointer < pimpl->write_data_len);
|
|
738 return;
|
|
739 }
|
|
740 #elif USE_SMPEG
|
|
741 #include<smpeg/smpeg.h>
|
|
742
|
|
743 struct MP3FILE_impl {
|
|
744 SMPEG* info;
|
|
745 FILE* stream;
|
|
746 MP3FILE_impl(FILE*);
|
|
747 };
|
|
748
|
|
749 MP3FILE_impl::MP3FILE_impl(FILE* _stream) {
|
|
750 stream = _stream;
|
|
751 info = SMPEG_new_descr(fileno(stream), NULL, 0);
|
|
752 fprintf(stderr,"mp3 %x\n",info);
|
|
753 if (info && SMPEG_error(info) ) info = 0;
|
|
754 SMPEG_enableaudio(info, 0);
|
|
755 SMPEG_enableaudio(info, 1);
|
|
756 SMPEG_play(info);
|
|
757 }
|
|
758
|
|
759 MP3FILE::MP3FILE(FILE* stream, int len) {
|
|
760 pimpl = new MP3FILE_impl(stream);
|
|
761 if (pimpl->info == 0) {
|
|
762 delete pimpl;
|
|
763 fclose(stream);
|
|
764 return;
|
|
765 }
|
|
766 SDL_AudioSpec fmt;
|
|
767 SMPEG_wantedSpec(pimpl->info, &fmt);
|
|
768 wavinfo.SamplingRate = fmt.freq;
|
|
769 wavinfo.Channels = fmt.channels;
|
|
770 wavinfo.DataBits = (fmt.format == AUDIO_S8) ? 8:16;
|
|
771 }
|
|
772 MP3FILE::~MP3FILE() {
|
|
773 if (pimpl && pimpl->info) {
|
|
774 if (SMPEG_status(pimpl->info) == SMPEG_PLAYING) SMPEG_stop(pimpl->info);
|
|
775 SMPEG_delete(pimpl->info);
|
|
776 }
|
|
777 if (pimpl) {
|
|
778 fclose(pimpl->stream);
|
|
779 delete pimpl;
|
|
780 pimpl = 0;
|
|
781 }
|
|
782 }
|
|
783 int MP3FILE::Read(char* buf, int blksize, int blklen) {
|
|
784 if (pimpl == 0 || pimpl->info == 0) return -1;
|
|
785 int r = SMPEG_playAudio(pimpl->info, (Uint8*)buf, blksize*blklen);
|
|
786 if (r <= 0) { // end of file
|
|
787 return -1;
|
|
788 }
|
|
789 return r / blksize;
|
|
790 }
|
|
791 void MP3FILE::Seek(int count) {
|
|
792 if (pimpl == 0 || pimpl->info == 0) return;
|
|
793 SMPEG_stop(pimpl->info);
|
|
794 SMPEG_rewind(pimpl->info);
|
|
795 SMPEG_play(pimpl->info);
|
|
796 count /= 4;
|
|
797 count *= 4; // reduce noise; possibly SMPEG error
|
|
798 char* d = new char[count*channels*2];
|
|
799 Read(d,count,channels*2);
|
|
800 delete[] d;
|
|
801 return;
|
|
802 }
|
|
803 #else /* SMPEG */
|
|
804 MP3FILE::MP3FILE(FILE* stream, int len) {pimpl = 0;}
|
|
805 MP3FILE::~MP3FILE(){}
|
|
806 void MP3FILE::Seek(int count){}
|
|
807 int MP3FILE::Read(char* buf, int blksize, int blklen){return -1;}
|
|
808 #endif /* SMPEG */
|