ref: bf9afd21c09953546a4f6b6e68b797fa7ffa6d80
dir: /src/util.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. */ #include "st_i.h" #include <string.h> #include <ctype.h> #include <signal.h> #ifdef __STDC__ #include <stdarg.h> #else #include <varargs.h> #endif /* * util.c. * Incorporate Jimen Ching's fixes for real library operation: Aug 3, 1994. * Redo all work from scratch, unfortunately. * Separate out all common variables used by effects & handlers, * and utility routines for other main programs to use. */ /* export flags */ /* FIXME: To be moved inside of fileop structure per handler. */ int verbose = 0; /* be noisy on stderr */ /* FIXME: These functions are user level concepts. Move them outside * the ST library. */ char *myname = 0; void st_report(const char *fmt, ...) { va_list args; if (! verbose) return; fprintf(stderr, "%s: ", myname); va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); fprintf(stderr, "\n"); } void st_warn(const char *fmt, ...) { va_list args; fprintf(stderr, "%s: ", myname); va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); fprintf(stderr, "\n"); } void st_fail(const char *fmt, ...) { va_list args; extern void cleanup(); fprintf(stderr, "%s: ", myname); va_start(args, fmt); vfprintf(stderr, fmt, args); va_end(args); fprintf(stderr, "\n"); cleanup(); exit(2); } /* Warning: no error checking is done with errstr. Be sure not to * go over the array limit ourself! vsnprint does not seem to be * on all platforms so not using that. */ void st_fail_errno(ft_t ft, int st_errno, const char *fmt, ...) { va_list args; ft->st_errno = st_errno; va_start(args, fmt); vsprintf(ft->st_errstr, fmt, args); va_end(args); ft->st_errstr[255] = '\0'; } int st_is_bigendian(void) { int b; char *p; b = 1; p = (char *) &b; if (!*p) return 1; else return 0; } int st_is_littleendian(void) { int b; char *p; b = 1; p = (char *) &b; if (*p) return 1; else return 0; } int strcmpcase(char *s1, char *s2) { while(*s1 && *s2 && (tolower(*s1) == tolower(*s2))) s1++, s2++; return *s1 - *s2; } /* * Check that we have a known format suffix string. */ int st_gettype(ft_t formp) { char **list; int i; if (! formp->filetype){ st_fail_errno(formp, ST_EFMT, "Filetype was not specified"); return(ST_EFMT); } for(i = 0; st_formats[i].names; i++) { for(list = st_formats[i].names; *list; list++) { char *s1 = *list, *s2 = formp->filetype; if (! strcmpcase(s1, s2)) break; /* not a match */ } if (! *list) continue; /* Found it! */ formp->h = &st_formats[i]; return ST_SUCCESS; } st_fail_errno(formp, ST_EFMT, "File type '%s' is not known", formp->filetype); return ST_EFMT; } /* * Check that we have a known effect name. If found, copy name of * effect into structure and place a pointer to internal data. * Returns -1 on error else it turns the total number of arguments * that should be passed to this effects getopt() function. */ int st_geteffect_opt(eff_t effp, int argc, char **argv) { int i, optind; for(i = 0; st_effects[i].name; i++) { char *s1 = st_effects[i].name, *s2 = argv[0]; while(*s1 && *s2 && (tolower(*s1) == tolower(*s2))) s1++, s2++; if (*s1 || *s2) continue; /* not a match */ /* Found it! */ effp->name = st_effects[i].name; effp->h = &st_effects[i]; optind = 1; while (optind < argc) { for (i = 0; st_effects[i].name; i++) { char *s1 = st_effects[i].name, *s2 = argv[optind]; while (*s1 && *s2 && (tolower(*s1) == tolower(*s2))) s1++, s2++; if (*s1 || *s2) continue; /* Found it! */ return (optind - 1); } /* Didn't find a match, try the next argument. */ optind++; } /* * No matches found, all the following arguments are * for this effect passed in. */ return (optind - 1); } return (ST_EOF); } /* * Check that we have a known effect name. If found, copy name of * effect into structure and place a pointer to internal data. * Returns -1 on on failure. */ int st_geteffect(eff_t effp, char *effect_name) { int i; for(i = 0; st_effects[i].name; i++) { char *s1 = st_effects[i].name, *s2 = effect_name; while(*s1 && *s2 && (tolower(*s1) == tolower(*s2))) s1++, s2++; if (*s1 || *s2) continue; /* not a match */ /* Found it! */ effp->name = st_effects[i].name; effp->h = &st_effects[i]; return ST_SUCCESS; } return (ST_EOF); } /* * Check that we have a known effect name. Return ST_SUCESS if found, else * return ST_EOF. */ int st_checkeffect(char *effect_name) { int i; for(i = 0; st_effects[i].name; i++) { char *s1 = st_effects[i].name, *s2 = effect_name; while(*s1 && *s2 && (tolower(*s1) == tolower(*s2))) s1++, s2++; if (*s1 || *s2) continue; /* not a match */ return ST_SUCCESS; } return (ST_EOF); } /* * Copy input and output signal info into effect structures. * Must pass in a bitmask containing info of wheither ST_EFF_CHAN * or ST_EFF_RATE has been used previously on this effect stream. * If not running multiple effects then just pass in a value of 0. * * Return value is the same mask plus addition of ST_EFF_CHAN or * ST_EFF_RATE if it was used in this effect. That make this * return value can be passed back into this function in future * calls. */ int st_updateeffect(eff_t effp, st_signalinfo_t *in, st_signalinfo_t *out, int effect_mask) { effp->ininfo = *in; effp->outinfo = *out; if (in->channels != out->channels) { /* Only effects with ST_EFF_CHAN flag can actually handle * outputing a different number of channels then the input. */ if (!(effp->h->flags & ST_EFF_CHAN)) { /* If this effect is being ran before a ST_EFF_CHAN effect * then effect's output is the same as the input file. Else its * input contains same number of channels as the output * file. */ if (effect_mask & ST_EFF_CHAN) effp->ininfo.channels = out->channels; else effp->outinfo.channels = in->channels; } } if (in->rate != out->rate) { /* Only the ST_EFF_RATE effect can handle an input that * is a different sample rate then the output. */ if (!(effp->h->flags & ST_EFF_RATE)) { if (effect_mask & ST_EFF_RATE) effp->ininfo.rate = out->rate; else effp->outinfo.rate = in->rate; } } if (effp->h->flags & ST_EFF_CHAN) effect_mask |= ST_EFF_CHAN; if (effp->h->flags & ST_EFF_RATE) effect_mask |= ST_EFF_RATE; return effect_mask; } /* * File format routines */ ft_t st_initformat(void) { ft_t ft; ft = (ft_t)calloc(sizeof(struct st_soundstream), 1); ft->info.size = -1; ft->info.encoding = -1; ft->info.channels = -1; return ft; } void st_copyformat(ft_t ft, ft_t ft2) { int i; double factor; if (ft2->info.rate == 0) ft2->info.rate = ft->info.rate; if (ft2->info.size == -1) ft2->info.size = ft->info.size; if (ft2->info.encoding == -1) ft2->info.encoding = ft->info.encoding; if (ft2->info.channels == -1) ft2->info.channels = ft->info.channels; if (ft2->comment == NULL && ft->comment != NULL) ft2->comment = strdup(ft->comment); else ft2->comment = strdup("Processed by SoX"); /* * copy loop info, resizing appropriately * it's in samples, so # channels don't matter */ factor = (double) ft2->info.rate / (double) ft->info.rate; for(i = 0; i < ST_MAX_NLOOPS; i++) { ft2->loops[i].start = ft->loops[i].start * factor; ft2->loops[i].length = ft->loops[i].length * factor; ft2->loops[i].count = ft->loops[i].count; ft2->loops[i].type = ft->loops[i].type; } /* leave SMPTE # alone since it's absolute */ ft2->instr = ft->instr; } /* check that all settings have been given */ int st_checkformat(ft_t ft) { ft->st_errno = ST_SUCCESS; if (ft->info.rate == 0) { st_fail_errno(ft,ST_EFMT,"sampling rate was not specified"); return ST_EOF; } if (ft->info.size == -1) { st_fail_errno(ft,ST_EFMT,"data size was not specified"); return ST_EOF; } if (ft->info.encoding == -1) { st_fail_errno(ft,ST_EFMT,"data encoding was not specified"); return ST_EOF; } if ((ft->info.size <= 0) || (ft->info.size > ST_INFO_SIZE_MAX)) { st_fail_errno(ft,ST_EFMT,"data size %i is invalid"); return ST_EOF; } /* anyway to check length on st_encoding_str[] ? */ if (ft->info.encoding <= 0 || ft->info.encoding > ST_ENCODING_MAX) { st_fail_errno(ft,ST_EFMT,"data encoding %i is invalid"); return ST_EOF; } return ST_SUCCESS; } static ft_t ft_queue[2] = {0, 0}; static void sigint(int s) { if (s == SIGINT) { if (ft_queue[0]) ft_queue[0]->file.eof = 1; if (ft_queue[1]) ft_queue[1]->file.eof = 1; } } void sigintreg(ft_t ft) { if (ft_queue[0] == 0) ft_queue[0] = ft; else ft_queue[1] = ft; signal(SIGINT, sigint); } /* * st_parsesamples * * Parse a string for # of samples. If string ends with a 's' * then string is interrepted as a user calculated # of samples. * If string contains ':' or '.' or if it ends with a 't' then its * treated as an amount of time. This is converted into seconds and * fraction of seconds and then use the sample rate to calculate * # of samples. * Returns ST_EOF on error. */ int st_parsesamples(st_rate_t rate, char *str, st_size_t *samples, char def) { int found_samples = 0, found_time = 0; int time; long long_samples; float frac = 0; if (strchr(str, ':') || strchr(str, '.') || str[strlen(str)-1] == 't') found_time = 1; else if (str[strlen(str)-1] == 's') found_samples = 1; if (found_time || (def == 't' && !found_samples)) { *samples = 0; while(1) { if (sscanf(str, "%d", &time) != 1) return ST_EOF; *samples += time; while (*str != ':' && *str != '.' && *str != 0) str++; if (*str == '.' || *str == 0) break; /* Skip past ':' */ str++; *samples *= 60; } if (*str == '.') { if (sscanf(str, "%f", &frac) != 1) return ST_EOF; } *samples *= rate; *samples += (rate * frac); return ST_SUCCESS; } if (found_samples || (def == 's' && !found_time)) { if (sscanf(str, "%ld", &long_samples) != 1) return ST_EOF; *samples = long_samples; return ST_SUCCESS; } return ST_EOF; }