ref: e4a0b7ef45f3bdfeeef3a41375fce5bfcf39d4b0
dir: /src/sf.c/
/* * July 5, 1991 * Copyright 1991 Lance Norskog And Sundry Contributors * This source code is freely redistributable and may be used for * any purpose. This copyright notice must be maintained. * Lance Norskog And Sundry Contributors are not responsible for * the consequences of using this software. */ /* * Sound Tools IRCAM SoundFile format handler. * * Derived from: Sound Tools skeleton handler file. */ #define IRCAM #include "st.h" #ifdef IRCAM #include "sfircam.h" #ifndef SIZEOF_BSD_HEADER #define SIZEOF_BSD_HEADER 1024 #endif #else #include "sfheader.h" #endif #include <string.h> #include <stdlib.h> /* Private data for SF file */ typedef struct sfstuff { struct sfinfo info; } *sf_t; /* * Read the codes from the sound file, allocate space for the comment and * assign its pointer to the comment field in ft. */ void readcodes(ft, sfhead) ft_t ft; SFHEADER *sfhead; { char *commentbuf = NULL, *sfcharp, *newline; short bsize, finished = 0; SFCODE *sfcodep; sfcodep = (SFCODE *) &sfcodes(sfhead); do { sfcharp = (char *) sfcodep + sizeof(SFCODE); if (ft->swap) { sfcodep->bsize = swapl(sfcodep->bsize); sfcodep->code = swapl(sfcodep->code); } bsize = sfcodep->bsize - sizeof(SFCODE); switch(sfcodep->code) { case SF_END: finished = 1; break; case SF_COMMENT: if((commentbuf = (char *) malloc(bsize + 1)) != NULL) { memcpy(commentbuf, sfcharp, bsize); report("IRCAM comment: %s", sfcharp); commentbuf[bsize] = '\0'; if((newline = strchr(commentbuf, '\n')) != NULL) *newline = '\0'; } break; } sfcodep = (SFCODE *) (sfcharp + bsize); } while(!finished); if(commentbuf != NULL) /* handles out of memory condition as well */ ft->comment = commentbuf; } /* * Do anything required before you start reading samples. * Read file header. * Find out sampling rate, * size and style of samples, * mono/stereo/quad. */ void sfstartread(ft) ft_t ft; { sf_t sf = (sf_t) ft->priv; SFHEADER sfhead; if (fread(&sfhead, 1, sizeof(SFHEADER), ft->fp) != sizeof(SFHEADER)) fail("unexpected EOF in SF header"); memcpy(&sf->info, &sfhead.sfinfo, sizeof(struct sfinfo)); if (ft->swap) { #ifdef IRCAM sf->info.sf_srate = swapf(sf->info.sf_srate); #else sf->info.sf_magic = swapl(sf->info.sf_magic); sf->info.sf_srate = swapl(sf->info.sf_srate); #endif sf->info.sf_packmode = swapl(sf->info.sf_packmode); sf->info.sf_chans = swapl(sf->info.sf_chans); } #ifdef IRCAM if ((sfmagic1(&sfhead) != SF_MAGIC1) || (sfmagic2(&sfhead) != SF_MAGIC2)) fail( "SF %s file: can't read, it is byte-swapped or it is not an IRCAM SoundFile", ft->filename); #else if (sf->info.sf_magic != SF_MAGIC) if (sf->info.sf_magic == swapl(SF_MAGIC)) fail("SF %s file: can't read, it is probably byte-swapped"); else fail("SF %s file: can't read, it is not an IRCAM SoundFile"); #endif /* * If your format specifies or your file header contains * any of the following information. */ ft->info.rate = sf->info.sf_srate; switch(sf->info.sf_packmode) { case SF_SHORT: ft->info.size = WORD; ft->info.style = SIGN2; break; case SF_FLOAT: ft->info.size = FLOAT; ft->info.style = SIGN2; break; default: fail("Soundfile input: unknown format 0x%x\n", sf->info.sf_packmode); } ft->info.channels = (int) sf->info.sf_chans; /* Read codes and print as comments. */ readcodes(ft, &sfhead); } void sfstartwrite(ft) ft_t ft; { sf_t sf = (sf_t) ft->priv; SFHEADER sfhead; SFCODE *sfcodep; char *sfcharp; int littlendian = 0; char *endptr; #ifdef IRCAM sf->info.magic_union._magic_bytes.sf_magic1 = SF_MAGIC1; sf->info.magic_union._magic_bytes.sf_magic2 = SF_MAGIC2; sf->info.magic_union._magic_bytes.sf_param = 0; /* computer musicians can't code worth a damn */ /* you don't see this kind of junk in any other format */ endptr = (char *) &littlendian; *endptr = 1; if (littlendian == 1) sf->info.magic_union._magic_bytes.sf_machine = SF_VAX; else sf->info.magic_union._magic_bytes.sf_machine = SF_SUN; #else sf->info.sf_magic = SF_MAGIC; #endif sf->info.sf_srate = ft->info.rate; #ifdef LATER /* * CSound sound-files have many formats. * We stick with the IRCAM short-or-float scheme. */ if (ft->info.size == WORD) { sf->info.sf_packmode = SF_SHORT; ft->info.style = SIGN2; /* Default to signed words */ } else if (ft->info.size == FLOAT) sf->info.sf_packmode = SF_FLOAT; else fail("SoundFile %s: must set output as signed shorts or floats", ft->filename); #else if (ft->info.size == FLOAT) { sf->info.sf_packmode = SF_FLOAT; ft->info.size = FLOAT; } else { sf->info.sf_packmode = SF_SHORT; ft->info.size = WORD; ft->info.style = SIGN2; /* Default to signed words */ } #endif sf->info.sf_chans = ft->info.channels; /* Clean out structure so unused areas will remain constain */ /* between different coverts and not rely on memory contents */ memset (&sfhead, 0, sizeof(SFHEADER)); memcpy(&sfhead.sfinfo, &sf->info, sizeof(struct sfinfo)); sfcodep = (SFCODE *) &sfcodes(&sfhead); sfcodep->code = SF_COMMENT; sfcodep->bsize = strlen(ft->comment) + sizeof(SFCODE); while (sfcodep->bsize % 4) sfcodep->bsize++; sfcharp = (char *) sfcodep; strcpy(sfcharp + sizeof(SFCODE), ft->comment); sfcodep = (SFCODE *) (sfcharp + sfcodep->bsize); sfcodep->code = SF_END; sfcodep->bsize = sizeof(SFCODE); sfcharp = (char *) sfcodep + sizeof(SFCODE); while(sfcharp < (char *) &sfhead + SIZEOF_BSD_HEADER) *sfcharp++ = '\0'; (void) fwrite(&sfhead, 1, sizeof(SFHEADER), ft->fp); } /* Read and write are supplied by raw.c */