ref: 38d6c5896319fd315200ed1e38dbb612d12a3f36
dir: /src/8svx.c/
/* * Amiga 8SVX format handler: W V Neisius, February 1992 */ #include "st_i.h" #include <math.h> #include <errno.h> #include <string.h> #include <stdlib.h> #include <stdio.h> #ifdef HAVE_UNISTD_H #include <unistd.h> /* For SEEK_* defines if not found in stdio */ #endif /* Private data used by writer */ typedef struct svxpriv { uint32_t nsamples; FILE *ch[4]; }*svx_t; static void svxwriteheader(ft_t, st_size_t); /*======================================================================*/ /* 8SVXSTARTREAD */ /*======================================================================*/ int st_svxstartread(ft_t ft) { svx_t p = (svx_t ) ft->priv; char buf[12]; char *chunk_buf; uint32_t totalsize; uint32_t chunksize; uint32_t channels, i; unsigned short rate; long chan1_pos; if (! ft->seekable) { st_fail_errno(ft,ST_EINVAL,"8svx input file must be a file, not a pipe"); return (ST_EOF); } /* 8svx is in big endian format. Swap whats * read in on little endian machines. */ if (ST_IS_LITTLEENDIAN) { ft->swap = ft->swap ? 0 : 1; } rate = 0; channels = 1; /* read FORM chunk */ if (st_reads(ft, buf, 4) == ST_EOF || strncmp(buf, "FORM", 4) != 0) { st_fail_errno(ft, ST_EHDR, "Header did not begin with magic word 'FORM'"); return(ST_EOF); } st_readdw(ft, &totalsize); if (st_reads(ft, buf, 4) == ST_EOF || strncmp(buf, "8SVX", 4) != 0) { st_fail_errno(ft, ST_EHDR, "'FORM' chunk does not specify '8SVX' as type"); return(ST_EOF); } /* read chunks until 'BODY' (or end) */ while (st_reads(ft, buf, 4) == ST_SUCCESS && strncmp(buf,"BODY",4) != 0) { if (strncmp(buf,"VHDR",4) == 0) { st_readdw(ft, &chunksize); if (chunksize != 20) { st_fail_errno(ft, ST_EHDR, "VHDR chunk has bad size"); return(ST_EOF); } st_seeki(ft,12,SEEK_CUR); st_readw(ft, &rate); st_seeki(ft,1,SEEK_CUR); st_readbuf(ft, buf,1,1); if (buf[0] != 0) { st_fail_errno(ft, ST_EFMT, "Unsupported data compression"); return(ST_EOF); } st_seeki(ft,4,SEEK_CUR); continue; } if (strncmp(buf,"ANNO",4) == 0) { st_readdw(ft, &chunksize); if (chunksize & 1) chunksize++; chunk_buf = (char *) malloc(chunksize + 2); if (chunk_buf == 0) { st_fail_errno(ft, ST_ENOMEM, "Unable to alloc memory"); return(ST_EOF); } if (st_readbuf(ft, chunk_buf,1,(size_t)chunksize) != chunksize) { st_fail_errno(ft, ST_EHDR, "Couldn't read all of header"); return(ST_EOF); } chunk_buf[chunksize] = '\0'; st_debug("%s",chunk_buf); free(chunk_buf); continue; } if (strncmp(buf,"NAME",4) == 0) { st_readdw(ft, &chunksize); if (chunksize & 1) chunksize++; chunk_buf = (char *) malloc(chunksize + 1); if (chunk_buf == 0) { st_fail_errno(ft, ST_ENOMEM, "Unable to alloc memory"); return(ST_EOF); } if (st_readbuf(ft, chunk_buf,1,(size_t)chunksize) != chunksize) { st_fail_errno(ft, ST_EHDR, "Couldn't read all of header"); return(ST_EOF); } chunk_buf[chunksize] = '\0'; st_debug("%s",chunk_buf); free(chunk_buf); continue; } if (strncmp(buf,"CHAN",4) == 0) { st_readdw(ft, &chunksize); if (chunksize != 4) { st_fail_errno(ft, ST_EHDR, "Couldn't read all of header"); return(ST_EOF); } st_readdw(ft, &channels); channels = (channels & 0x01) + ((channels & 0x02) >> 1) + ((channels & 0x04) >> 2) + ((channels & 0x08) >> 3); continue; } /* some other kind of chunk */ st_readdw(ft, &chunksize); if (chunksize & 1) chunksize++; st_seeki(ft,chunksize,SEEK_CUR); continue; } if (rate == 0) { st_fail_errno(ft, ST_ERATE, "Invalid sample rate"); return(ST_EOF); } if (strncmp(buf,"BODY",4) != 0) { st_fail_errno(ft, ST_EHDR, "BODY chunk not found"); return(ST_EOF); } st_readdw(ft, &(p->nsamples)); ft->length = p->nsamples; ft->info.channels = channels; ft->info.rate = rate; ft->info.encoding = ST_ENCODING_SIGN2; ft->info.size = ST_SIZE_BYTE; /* open files to channels */ p->ch[0] = ft->fp; chan1_pos = st_tell(ft); for (i = 1; i < channels; i++) { if ((p->ch[i] = fopen(ft->filename, "rb")) == NULL) { st_fail_errno(ft,errno,"Can't open channel file '%s'", ft->filename); return(ST_EOF); } /* position channel files */ if (fseeko(p->ch[i],chan1_pos,SEEK_SET)) { st_fail_errno (ft,errno,"Can't position channel %d",i); return(ST_EOF); } if (fseeko(p->ch[i],p->nsamples/channels*i,SEEK_CUR)) { st_fail_errno (ft,errno,"Can't seek channel %d",i); return(ST_EOF); } } return(ST_SUCCESS); } /*======================================================================*/ /* 8SVXREAD */ /*======================================================================*/ st_ssize_t st_svxread(ft_t ft, st_sample_t *buf, st_size_t nsamp) { unsigned char datum; int done = 0; int i; svx_t p = (svx_t ) ft->priv; while (done < nsamp) { for (i = 0; i < ft->info.channels; i++) { /* FIXME: don't pass FILE pointers! */ datum = getc(p->ch[i]); if (feof(p->ch[i])) return done; /* scale signed up to long's range */ *buf++ = ST_SIGNED_BYTE_TO_SAMPLE(datum); } done += ft->info.channels; } return done; } /*======================================================================*/ /* 8SVXSTOPREAD */ /*======================================================================*/ int st_svxstopread(ft_t ft) { int i; svx_t p = (svx_t ) ft->priv; /* close channel files */ for (i = 1; i < ft->info.channels; i++) { fclose (p->ch[i]); } return(ST_SUCCESS); } /*======================================================================*/ /* 8SVXSTARTWRITE */ /*======================================================================*/ int st_svxstartwrite(ft_t ft) { svx_t p = (svx_t ) ft->priv; int i; /* 8svx is in big endian format. Swaps wahst * read in on little endian machines. */ if (ST_IS_LITTLEENDIAN) { ft->swap = ft->swap ? 0 : 1; } /* open channel output files */ p->ch[0] = ft->fp; for (i = 1; i < ft->info.channels; i++) { if ((p->ch[i] = tmpfile()) == NULL) { st_fail_errno(ft,errno,"Can't open channel output file"); return(ST_EOF); } } /* write header (channel 0) */ ft->info.encoding = ST_ENCODING_SIGN2; ft->info.size = ST_SIZE_BYTE; p->nsamples = 0; svxwriteheader(ft, p->nsamples); return(ST_SUCCESS); } /*======================================================================*/ /* 8SVXWRITE */ /*======================================================================*/ st_ssize_t st_svxwrite(ft_t ft, const st_sample_t *buf, st_size_t len) { svx_t p = (svx_t ) ft->priv; unsigned char datum; int done = 0; int i; p->nsamples += len; while(done < len) { for (i = 0; i < ft->info.channels; i++) { datum = ST_SAMPLE_TO_SIGNED_BYTE(*buf++, ft->clippedCount); /* FIXME: Needs to pass ft struct and not FILE */ putc(datum, p->ch[i]); } done += ft->info.channels; } return (done); } /*======================================================================*/ /* 8SVXSTOPWRITE */ /*======================================================================*/ int st_svxstopwrite(ft_t ft) { svx_t p = (svx_t ) ft->priv; int i; int len; char svxbuf[512]; /* append all channel pieces to channel 0 */ /* close temp files */ for (i = 1; i < ft->info.channels; i++) { if (fseeko(p->ch[i], 0L, 0)) { st_fail_errno (ft,errno,"Can't rewind channel output file %d",i); return(ST_EOF); } while (!feof(p->ch[i])) { len = fread(svxbuf, 1, 512, p->ch[i]); fwrite (svxbuf, 1, len, p->ch[0]); } fclose (p->ch[i]); } /* add a pad byte if BODY size is odd */ if(p->nsamples % 2 != 0) st_writeb(ft, '\0'); /* fixup file sizes in header */ if (st_seeki(ft, 0L, 0) != 0) { st_fail_errno(ft,errno,"can't rewind output file to rewrite 8SVX header"); return(ST_EOF); } svxwriteheader(ft, p->nsamples); return(ST_SUCCESS); } /*======================================================================*/ /* 8SVXWRITEHEADER */ /*======================================================================*/ #define SVXHEADERSIZE 100 static void svxwriteheader(ft_t ft, st_size_t nsamples) { int32_t formsize = nsamples + SVXHEADERSIZE - 8; /* FORM size must be even */ if(formsize % 2 != 0) formsize++; st_writes(ft, "FORM"); st_writedw(ft, formsize); /* size of file */ st_writes(ft, "8SVX"); /* File type */ st_writes(ft, "VHDR"); st_writedw(ft, 20); /* number of bytes to follow */ st_writedw(ft, nsamples/ft->info.channels); /* samples, 1-shot */ st_writedw(ft, 0); /* samples, repeat */ st_writedw(ft, 0); /* samples per repeat cycle */ st_writew(ft, (int) ft->info.rate); /* samples per second */ st_writeb(ft,1); /* number of octabes */ st_writeb(ft,0); /* data compression (none) */ st_writew(ft,1); st_writew(ft,0); /* volume */ st_writes(ft, "ANNO"); st_writedw(ft, 32); /* length of block */ st_writes(ft, "File created by Sound Exchange "); st_writes(ft, "CHAN"); st_writedw(ft, 4); st_writedw(ft, (ft->info.channels == 2) ? 6 : (ft->info.channels == 4) ? 15 : 2); st_writes(ft, "BODY"); st_writedw(ft, nsamples); /* samples in file */ } /* Amiga 8SVX */ static const char *svxnames[] = { "8svx", NULL }; static st_format_t st_svx_format = { svxnames, NULL, ST_FILE_STEREO, st_svxstartread, st_svxread, st_svxstopread, st_svxstartwrite, st_svxwrite, st_svxstopwrite, st_format_nothing_seek }; const st_format_t *st_svx_format_fn(void) { return &st_svx_format; }