ref: 641b9687494c1351b1f085171c8786e156434630
dir: /src/speech/cst_wave_io.c/
/*************************************************************************/ /* */ /* Language Technologies Institute */ /* Carnegie Mellon University */ /* Copyright (c) 2000 */ /* All Rights Reserved. */ /* */ /* Permission is hereby granted, free of charge, to use and distribute */ /* this software and its documentation without restriction, including */ /* without limitation the rights to use, copy, modify, merge, publish, */ /* distribute, sublicense, and/or sell copies of this work, and to */ /* permit persons to whom this work is furnished to do so, subject to */ /* the following conditions: */ /* 1. The code must retain the above copyright notice, this list of */ /* conditions and the following disclaimer. */ /* 2. Any modifications must be clearly marked as such. */ /* 3. Original authors' names are not deleted. */ /* 4. The authors' names are not used to endorse or promote products */ /* derived from this software without specific prior written */ /* permission. */ /* */ /* CARNEGIE MELLON UNIVERSITY AND THE CONTRIBUTORS TO THIS WORK */ /* DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING */ /* ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT */ /* SHALL CARNEGIE MELLON UNIVERSITY NOR THE CONTRIBUTORS BE LIABLE */ /* FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES */ /* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN */ /* AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, */ /* ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF */ /* THIS SOFTWARE. */ /* */ /*************************************************************************/ /* Author: Alan W Black (awb@cs.cmu.edu) */ /* Date: August 2000 */ /*************************************************************************/ /* */ /* Waveforms */ /* */ /*************************************************************************/ #include "cst_string.h" #include "cst_wave.h" #include "cst_file.h" void cst_wave_resample(cst_wave *w, int sample_rate) { /* This is here so that it won't necessarily be linked in tight-space */ /* platforms like PalmOS */ cst_rateconv *filt; int up, down; short *in; const short *inptr; short *outptr; int n, insize, outsize; /* Sure, we could take the GCD. In practice, though, this gives us what we want and makes things go faster. */ down = w->sample_rate / 1000; up = sample_rate / 1000; if (up < 1 || down < 1) { cst_errmsg("cst_wave_resample: invalid input/output sample rates (%d, %d)\n", up * 1000, down * 1000); cst_error(); } filt = new_rateconv(up, down, w->num_channels); inptr = in = w->samples; insize = w->num_samples; w->num_samples = w->num_samples * up / down + 2048; w->samples = cst_alloc(short, w->num_samples * w->num_channels); w->sample_rate = sample_rate; outptr = w->samples; outsize = w->num_samples; while ((n = cst_rateconv_in(filt, inptr, insize)) > 0) { inptr += n; insize -= n; while ((n = cst_rateconv_out(filt, outptr, outsize)) > 0) { outptr += n; outsize -= n; } } cst_rateconv_leadout(filt); while ((n = cst_rateconv_out(filt, outptr, outsize)) > 0) { outptr += n; outsize -= n; } cst_free(in); delete_rateconv(filt); } int cst_wave_save(cst_wave *w,const char *filename,const char *type) { if (cst_streq(type,"riff")) return cst_wave_save_riff(w,filename); /* else if (cst_streq(type,"aiff")) return cst_wave_save_aiff(w,filename); else if (cst_streq(type,"snd")) return cst_wave_save_snd(w,filename); */ else if (cst_streq(type,"raw")) return cst_wave_save_raw(w,filename); else { cst_errmsg("cst_wave_save: unsupported wavetype \"%s\"\n", type); return -1; } } int cst_wave_save_raw(cst_wave *w, const char *filename) { cst_file fd; int rv; if ((fd = cst_fopen(filename,CST_OPEN_WRITE|CST_OPEN_BINARY)) == NULL) { cst_errmsg("cst_wave_save: can't open file \"%s\"\n", filename); return -1; } rv = cst_wave_save_raw_fd(w, fd); cst_fclose(fd); return rv; } int cst_wave_save_raw_fd(cst_wave *w, cst_file fd) { if (cst_fwrite(fd, cst_wave_samples(w), sizeof(short), cst_wave_num_samples(w)) == cst_wave_num_samples(w)) return 0; else return -1; } int cst_wave_append_riff(cst_wave *w,const char *filename) { /* Appends to wave in file if it already exists */ cst_file fd; cst_wave_header hdr; char info[4]; int d_int; int rv, num_bytes, n, sample_rate; if ((fd = cst_fopen(filename,CST_OPEN_WRITE|CST_OPEN_READ|CST_OPEN_BINARY)) == NULL) { cst_errmsg("cst_wave_append: can't open file \"%s\"\n", filename); return -1; } rv = cst_wave_load_riff_header(&hdr,fd); if (rv != CST_OK_FORMAT) { cst_fclose(fd); return rv; } /* We will assume this is one of my riff files so it has *ONE* data part */ cst_fread(fd,info,1,4); cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); hdr.num_samples = d_int/sizeof(short); cst_fseek(fd, cst_ftell(fd)+(hdr.hsize-16)+ (hdr.num_samples*hdr.num_channels*sizeof(short)), CST_SEEK_ABSOLUTE); if (CST_BIG_ENDIAN) { short *xdata = cst_alloc(short,cst_wave_num_channels(w)* cst_wave_num_samples(w)); memmove(xdata,cst_wave_samples(w), sizeof(short)*cst_wave_num_channels(w)* cst_wave_num_samples(w)); swap_bytes_short(xdata, cst_wave_num_channels(w)* cst_wave_num_samples(w)); n = cst_fwrite(fd,xdata,sizeof(short), cst_wave_num_channels(w)*cst_wave_num_samples(w)); cst_free(xdata); } else { n = cst_fwrite(fd,cst_wave_samples(w),sizeof(short), cst_wave_num_channels(w)*cst_wave_num_samples(w)); } cst_fseek(fd,4,CST_SEEK_ABSOLUTE); num_bytes = hdr.num_bytes + (n*sizeof(short)); if (CST_BIG_ENDIAN) num_bytes = SWAPINT(num_bytes); cst_fwrite(fd,&num_bytes,4,1); /* num bytes in whole file */ cst_fseek(fd,4+4+4+4 +4+2+2 ,CST_SEEK_ABSOLUTE); sample_rate = w->sample_rate; if (CST_BIG_ENDIAN) sample_rate = SWAPINT(sample_rate); cst_fwrite(fd,&sample_rate,4,1); /* sample rate */ cst_fseek(fd,4+4+4+4+4+2+2+4+4+2+2+4,CST_SEEK_ABSOLUTE); num_bytes = (sizeof(short) * cst_wave_num_channels(w) * cst_wave_num_samples(w)) + (sizeof(short) * hdr.num_channels * hdr.num_samples); if (CST_BIG_ENDIAN) num_bytes = SWAPINT(num_bytes); cst_fwrite(fd,&num_bytes,4,1); /* num bytes in data */ cst_fclose(fd); return rv; } int cst_wave_save_riff(cst_wave *w,const char *filename) { cst_file fd; int rv; if ((fd = cst_fopen(filename,CST_OPEN_WRITE|CST_OPEN_BINARY)) == NULL) { cst_errmsg("cst_wave_save: can't open file \"%s\"\n", filename); return -1; } rv = cst_wave_save_riff_fd(w, fd); cst_fclose(fd); return rv; } int cst_wave_save_riff_fd(cst_wave *w, cst_file fd) { const char *info; short d_short; int d_int, n; int num_bytes; info = "RIFF"; cst_fwrite(fd,info,4,1); num_bytes = (cst_wave_num_samples(w) * cst_wave_num_channels(w) * sizeof(short)) + 8 + 16 + 12; if (CST_BIG_ENDIAN) num_bytes = SWAPINT(num_bytes); cst_fwrite(fd,&num_bytes,4,1); /* num bytes in whole file */ info = "WAVE"; cst_fwrite(fd,info,1,4); info = "fmt "; cst_fwrite(fd,info,1,4); num_bytes = 16; /* size of header */ if (CST_BIG_ENDIAN) num_bytes = SWAPINT(num_bytes); cst_fwrite(fd,&num_bytes,4,1); d_short = RIFF_FORMAT_PCM; /* sample type */ if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); cst_fwrite(fd,&d_short,2,1); d_short = cst_wave_num_channels(w); /* number of channels */ if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); cst_fwrite(fd,&d_short,2,1); d_int = cst_wave_sample_rate(w); /* sample rate */ if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); cst_fwrite(fd,&d_int,4,1); d_int = (cst_wave_sample_rate(w) * cst_wave_num_channels(w) * sizeof(short)); /* average bytes per second */ if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); cst_fwrite(fd,&d_int,4,1); d_short = (cst_wave_num_channels(w) * sizeof(short)); /* block align */ if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); cst_fwrite(fd,&d_short,2,1); d_short = 2 * 8; /* bits per sample */ if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); cst_fwrite(fd,&d_short,2,1); info = "data"; cst_fwrite(fd,info,1,4); d_int = (cst_wave_num_channels(w) * cst_wave_num_samples(w) * sizeof(short)); /* bytes in data */ if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); cst_fwrite(fd,&d_int,4,1); if (CST_BIG_ENDIAN) { short *xdata = cst_alloc(short,cst_wave_num_channels(w)* cst_wave_num_samples(w)); memmove(xdata,cst_wave_samples(w), sizeof(short)*cst_wave_num_channels(w)* cst_wave_num_samples(w)); swap_bytes_short(xdata, cst_wave_num_channels(w)* cst_wave_num_samples(w)); n = cst_fwrite(fd,xdata,sizeof(short), cst_wave_num_channels(w)*cst_wave_num_samples(w)); cst_free(xdata); } else { n = cst_fwrite(fd,cst_wave_samples(w),sizeof(short), cst_wave_num_channels(w)*cst_wave_num_samples(w)); } if (n != cst_wave_num_channels(w)*cst_wave_num_samples(w)) return -1; else return 0; } int cst_wave_load_raw(cst_wave *w,const char *filename, const char *bo, int sample_rate) { cst_file fd; int r; if ((fd = cst_fopen(filename,CST_OPEN_READ|CST_OPEN_BINARY)) == NULL) { cst_errmsg("cst_wave_load: can't open file \"%s\"\n", filename); return -1; } r = cst_wave_load_raw_fd(w, fd, bo, sample_rate); cst_fclose(fd); return r; } int cst_wave_load_raw_fd(cst_wave *w, cst_file fd, const char *bo, int sample_rate) { long size; /* Won't work on pipes, tough luck... */ size = cst_filesize(fd) / sizeof(short); cst_wave_resize(w, size, 1); if (cst_fread(fd, w->samples, sizeof(short), size) != size) return -1; w->sample_rate = sample_rate; if (bo) /* if it's NULL we don't care */ if ((CST_LITTLE_ENDIAN && cst_streq(bo, BYTE_ORDER_BIG)) || (CST_BIG_ENDIAN && cst_streq(bo, BYTE_ORDER_LITTLE))) swap_bytes_short(w->samples,w->num_samples); return 0; } int cst_wave_load_riff(cst_wave *w,const char *filename) { cst_file fd; int r; if ((fd = cst_fopen(filename,CST_OPEN_READ|CST_OPEN_BINARY)) == NULL) { cst_errmsg("cst_wave_load: can't open file \"%s\"\n", filename); return -1; } r = cst_wave_load_riff_fd(w,fd); cst_fclose(fd); return r; } int cst_wave_load_riff_header(cst_wave_header *header,cst_file fd) { char info[4]; short d_short; int d_int; if (cst_fread(fd,info,1,4) != 4) return CST_WRONG_FORMAT; else if (strncmp(info,"RIFF",4) != 0) return CST_WRONG_FORMAT; cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); header->num_bytes = d_int; if ((cst_fread(fd,info,1,4) != 4) || (strncmp(info,"WAVE",4) != 0)) return CST_ERROR_FORMAT; if ((cst_fread(fd,info,1,4) != 4) || (strncmp(info,"fmt ",4) != 0)) return CST_ERROR_FORMAT; cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); header->hsize = d_int; cst_fread(fd,&d_short,2,1); if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); if (d_short != RIFF_FORMAT_PCM) { cst_errmsg("cst_load_wave_riff: unsupported sample format\n"); return CST_ERROR_FORMAT; } cst_fread(fd,&d_short,2,1); if (CST_BIG_ENDIAN) d_short = SWAPSHORT(d_short); header->num_channels = d_short; cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); header->sample_rate = d_int; cst_fread(fd,&d_int,4,1); /* avg bytes per second */ cst_fread(fd,&d_short,2,1); /* block align */ cst_fread(fd,&d_short,2,1); /* bits per sample */ return CST_OK_FORMAT; } int cst_wave_load_riff_fd(cst_wave *w,cst_file fd) { cst_wave_header hdr; int rv; char info[4]; int d_int, d; int data_length; int samples; rv = cst_wave_load_riff_header(&hdr,fd); if (rv != CST_OK_FORMAT) return rv; cst_fseek(fd,cst_ftell(fd)+(hdr.hsize-16),CST_SEEK_ABSOLUTE); /* skip rest of header */ /* Note there's a bunch of potential random headers */ while (1) { if (cst_fread(fd,info,1,4) != 4) return CST_ERROR_FORMAT; if (strncmp(info,"data",4) == 0) { cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); samples = d_int/sizeof(short); break; } else if (strncmp(info,"fact",4) == 0) { cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); cst_fseek(fd,cst_ftell(fd)+d_int,CST_SEEK_ABSOLUTE); } else if (strncmp(info,"clm ",4) == 0) { /* another random chunk type -- resample puts this one in */ cst_fread(fd,&d_int,4,1); if (CST_BIG_ENDIAN) d_int = SWAPINT(d_int); cst_fseek(fd,cst_ftell(fd)+d_int,CST_SEEK_ABSOLUTE); } else { cst_errmsg("cst_wave_load_riff: unsupported chunk type \"%*s\"\n", 4,info); return CST_ERROR_FORMAT; } } /* Now read the data itself */ cst_wave_set_sample_rate(w,hdr.sample_rate); /* sample rate */ data_length = samples; cst_wave_resize(w,samples/hdr.num_channels,hdr.num_channels); if ((d = cst_fread(fd,w->samples,sizeof(short),data_length)) != data_length) { cst_errmsg("cst_wave_load_riff: %d missing samples, resized accordingly\n", data_length-d); w->num_samples = d; } if (CST_BIG_ENDIAN) swap_bytes_short(w->samples,w->num_samples); return CST_OK_FORMAT; }