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Changed year in copyright notices.
[ahxm.git] / ss_input.c
blob7a28b7f35c72b7769796b6adaa212d3ec6bffbe4
1 /*
2
3 Ann Hell Ex Machina - Music Software
4 Copyright (C) 2003/2007 Angel Ortega <angel@triptico.com>
5
6 ss_input.c - Code to load softsynth sounds in different formats
7
8 This program is free software; you can redistribute it and/or
9 modify it under the terms of the GNU General Public License
10 as published by the Free Software Foundation; either version 2
11 of the License, or (at your option) any later version.
12
13 This program is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
21
22 http://www.triptico.com
23
24 */
25
26 #include "config.h"
27
28 #include <stdio.h>
29 #include <stdlib.h>
30 #include <string.h>
31
32 #include "ahxm.h"
33
34 /*******************
35 Data
36 ********************/
37
38 /* maximum page size */
39 int ss_page_size = 441000;
40
41 /*******************
42 Code
43 ********************/
44
45 static int fget16(FILE * f)
46 /* Reads a 16 bit integer from a file in big endian byte ordering */
47 {
48 int c;
49
50 c = fgetc(f);
51 c += (fgetc(f) * 256);
52
53 return(c);
54 }
55
56
57 static int fget32(FILE * f)
58 /* Reads a 32 bit integer from a file in big endian byte ordering */
59 {
60 int c;
61
62 c = fgetc(f);
63 c += (fgetc(f) * 256);
64 c += (fgetc(f) * 65536);
65 c += (fgetc(f) * 16777216);
66
67 return(c);
68 }
69
70
71 static sample_t load_sample(FILE * f, int bits, int sign)
72 /* loads one sample from a file */
73 {
74 int s;
75
76 /* if on eof, return silence */
77 if(feof(f)) return(0);
78
79 if(bits == 8)
80 {
81 s = fgetc(f) - 128;
82 s <<= 8;
83 }
84 else
85 {
86 if(!sign)
87 s = fget16(f) - 32768;
88 else
89 s = (short int)fget16(f);
90 }
91
92 return(((sample_t) s) / 32768.0);
93 }
94
95
96 void load_pcm_wave(FILE * f, struct ss_wave * w)
97 /* loads an interleaved stream from a file */
98 {
99 int n, m;
100
101 /* fills the channels */
102 for(m = 0;m < w->p_size;m++)
103 {
104 for(n = 0;n < w->n_channels;n++)
105 w->wave[n][m] = load_sample(f, w->bits, w->sign);
106 }
107 }
108
109
110 /**
111 * ss_load_wav_file - Loads a file in .WAV format.
112 * @file: name of the file
113 * @base_freq: base frequency
114 * @min_freq: minimum frequency
115 * @max_freq: maximum frequency
116 * @loop_start: frame number of loop start (-1, no loop)
117 * @loop_end: frame number of loop end (-1, end of wave)
118 * @first_channel: first channel to start spreading
119 * @skip_channels: channels to skip when spreading
120 *
121 * Loads a file in .WAV format.
122 */
123 struct ss_wave * ss_load_wav_file(char * file,
124 double base_freq, double min_freq, double max_freq,
125 double loop_start, double loop_end,
126 int first_channel, int skip_channels)
127 {
128 FILE * f;
129 char dummydata[256];
130 int rlen, flen;
131 short int b_per_sec, n_channels;
132 char riffid[5], waveid[5], fmtid[5], dataid[5];
133 double size;
134 int s_rate, bits;
135 struct ss_wave * w;
136 int p;
137
138 /* find the file in the library path */
139 if((file = libpath_locate(file)) == NULL)
140 return(NULL);
141
142 /* try converting */
143 if((file = transconv(file, ".wav", "ahxm")) == NULL)
144 return(NULL);
145
146 if((f = fopen(file, "r")) == NULL)
147 return(NULL);
148
149 fread(riffid, 1, 4, f);
150 riffid[4] = 0;
151 fread(&rlen, 1, 4, f);
152 fread(waveid, 1, 4, f);
153 waveid[4] = 0;
154
155 if(strcmp(waveid,"WAVE"))
156 {
157 fclose(f);
158 return(NULL);
159 }
160
161 fread(fmtid, 1, 4, f);
162 fmtid[4] = 0;
163 flen = fget32(f);
164
165 if(flen > 240)
166 flen = 240;
167
168 if(fget16(f) != 1)
169 {
170 /* wicked compressed format? fail */
171 fclose(f);
172 return(NULL);
173 }
174
175 n_channels = fget16(f);
176 s_rate = fget32(f);
177 b_per_sec = fget32(f);
178
179 bits = fget16(f) / n_channels;
180 bits *= 8;
181
182 fread(dummydata, 1, (size_t)flen - 14, f);
183 fread(dataid, 1, 4, f);
184 dataid[4] = 0;
185
186 size = (double) fget32(f);
187 if(bits == 16) size /= 2;
188 size /= (double) n_channels;
189
190 p = size > ss_page_size ? ss_page_size : size;
191
192 if((w = ss_alloc_wave(size, n_channels, s_rate, p)) != NULL)
193 {
194 w->base_freq = base_freq;
195 w->min_freq = min_freq;
196 w->max_freq = max_freq;
197
198 w->loop_start = loop_start;
199
200 if(loop_end < 0)
201 w->loop_end = size;
202 else
203 w->loop_end = loop_end;
204
205 w->first_channel = first_channel;
206 w->skip_channels = skip_channels;
207
208 /* fill the info needed for paging */
209 w->filename = strdup(file);
210 w->f_pos = ftell(f);
211 w->bits = bits;
212 w->sign = 1;
213
214 /* set the page offset further the end, to
215 force a page reading the first time it's used */
216 w->p_offset = (int) size;
217 }
218
219 fclose(f);
220
221 return(w);
222 }
223
224
225 /**
226 * ss_load_pat_file - Loads an instrument in .PAT format.
227 * @i: The instrument
228 * @filename: filename holding the instrument
229 *
230 * Loads data from a Gravis Ultrasound patch (.PAT) format and
231 * stores it as layers for an instrument.
232 *
233 * Returns -100 if the file could not be read, -101 or -102
234 * if the file is not recognized as a .PAT file, or 0 if
235 * everything went OK.
236 */
237 int ss_load_pat_file(struct ss_ins * i, char * file)
238 {
239 FILE * f;
240 char buffer[512];
241 int m, n, o;
242 int n_layers;
243 int flags, bits, sign, loop, pingpong;
244 struct ss_wave * w;
245
246 if((f = libpath_fopen(file, "r")) == NULL)
247 return(-100);
248
249 /* read signatures */
250 fread(buffer, 12, 1, f);
251 if(strcmp(buffer, "GF1PATCH110") != 0)
252 {
253 fclose(f);
254 return(-101);
255 }
256
257 fread(buffer, 10, 1, f);
258 if(strcmp(buffer, "ID#000002") != 0)
259 {
260 fclose(f);
261 return(-102);
262 }
263
264 /* skip description */
265 fread(buffer, 65, 1, f);
266
267 /* ignore volume */
268 fget16(f);
269
270 /* skip */
271 fread(buffer, 109, 1, f);
272
273 /* # of layers */
274 n_layers = fgetc(f);
275
276 /* skip */
277 fread(buffer, 40, 1, f);
278
279 for(n = 0;n < n_layers;n++)
280 {
281 int size, s_rate;
282 double loop_start, loop_end;
283 double min_freq, max_freq, base_freq;
284
285 /* layer name */
286 fread(buffer, 8, 1, f);
287
288 size = (double)fget32(f);
289 loop_start = (double)fget32(f);
290 loop_end = (double)fget32(f);
291 s_rate = fget16(f);
292
293 min_freq = ((double)fget32(f)) / 1000.0;
294 max_freq = ((double)fget32(f)) / 1000.0;
295 base_freq = ((double)fget32(f)) / 1000.0;
296
297 if(base_freq < 0)
298 break;
299
300 /* ignore fine-tune */
301 fget16(f);
302
303 /* ignore pan position */
304 fgetc(f);
305
306 /* skip envelope rate, value, tremolo and vibrato */
307 fread(buffer, 18, 1, f);
308
309 flags = fgetc(f);
310
311 bits = flags & 0x01 ? 16 : 8;
312 sign = flags & 0x02 ? 0 : 1;
313 loop = flags & 0x04 ? 1 : 0;
314 pingpong = flags & 0x08 ? 1 : 0;
315
316 if(bits == 16)
317 {
318 size /= 2;
319 loop_start /= 2;
320 loop_end /= 2;
321 }
322
323 /* skip frequency scale data */
324 fget16(f); fget16(f);
325
326 /* skip reserved */
327 fread(buffer, 36, 1, f);
328
329 if((w = ss_alloc_wave(size, 1, s_rate, -1)) == NULL)
330 break;
331
332 /* set the rest of values */
333 w->loop_start = loop_start;
334 w->loop_end = loop_end;
335 w->base_freq = base_freq;
336 w->min_freq = min_freq;
337 w->max_freq = max_freq;
338 w->bits = bits;
339 w->sign = sign;
340
341 /* load the wave */
342 ss_prepare_wave(w);
343 load_pcm_wave(f, w);
344
345 if(pingpong && loop)
346 {
347 int loop_size;
348 sample_t * ptr;
349
350 /* if ping-pong, realloc space for a reverse
351 version of the loop */
352 loop_size = (int)(loop_end - loop_start);
353
354 ptr = (sample_t *) malloc((size + loop_size + 1)
355 * sizeof(sample_t));
356
357 /* transfer start and loop */
358 for(m = 0;m <= (int)loop_end;m++)
359 ptr[m] = w->wave[0][m];
360
361 /* transfer a reversed version of the loop */
362 for(o = m - 1;o >= loop_start;o--, m++)
363 ptr[m] = w->wave[0][o];
364
365 /* transfer the end */
366 for(o = loop_end + 1;o < size;o++, m++)
367 ptr[m] = w->wave[0][o];
368
369 w->loop_end += (double) loop_size;
370 w->size += (double) loop_size;
371 w->p_size += loop_size;
372
373 /* free and swap */
374 free(w->wave[0]);
375 w->wave[0] = ptr;
376 }
377
378 if(loop == 0) w->loop_start = -1;
379
380 /* finally add layer to instrument */
381 ss_ins_add_layer(i, w);
382 }
383
384 fclose(f);
385 return(0);
386 }
Ann Hell Ex Machina (music writing software)