ref: 6763cba31dea9a680d10d085e5e8e3f04e8cf3ce
dir: /src/soxio.c/
/* * libSoX IO routines (c) 2005-8 Chris Bagwell and SoX contributors * * This library is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2 of the License, or (at * your option) any later version. * * This library is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser * General Public License for more details. * * You should have received a copy of the GNU Lesser General Public License * along with this library. If not, write to the Free Software Foundation, * Fifth Floor, 51 Franklin Street, Boston, MA 02111-1301, USA. */ #include "sox_i.h" #include <assert.h> #include <ctype.h> #include <errno.h> #include <fcntl.h> #include <math.h> #include <stdlib.h> #include <string.h> #include <sys/stat.h> #include <sys/types.h> #ifdef HAVE_IO_H #include <io.h> #endif #ifdef HAVE_LIBLTDL #include <ltdl.h> #endif static void output_message(unsigned level, const char *filename, const char *fmt, va_list ap); sox_globals_t sox_globals = {2, 8192, NULL, NULL, output_message, NULL, sox_false}; static void output_message(unsigned level, const char *filename, const char *fmt, va_list ap) { if (sox_globals.verbosity >= level) { sox_output_message(stderr, filename, fmt, ap); fprintf(stderr, "\n"); } } /* Plugins */ #ifdef HAVE_LIBLTDL static sox_bool plugins_initted = sox_false; #endif /* FIXME: Use vasprintf */ #ifdef HAVE_LIBLTDL #define MAX_NAME_LEN 1024 static int init_format(const char *file, lt_ptr data) { lt_dlhandle lth = lt_dlopenext(file); const char *end = file + strlen(file); const char prefix[] = "libsox_fmt_"; char fnname[MAX_NAME_LEN]; char *start = strstr(file, prefix); (void)data; if (start && (start += sizeof(prefix) - 1) < end) { int ret = snprintf(fnname, MAX_NAME_LEN, "sox_%.*s_format_fn", end - start, start); if (ret > 0 && ret < MAX_NAME_LEN) { union {sox_format_fn_t fn; lt_ptr ptr;} ltptr; ltptr.ptr = lt_dlsym(lth, fnname); sox_format_fns[sox_formats].fn = ltptr.fn; sox_debug("opening format plugin `%s': library %p, entry point %p\n", fnname, (void *)lth, ltptr.ptr); if (sox_format_fns[sox_formats].fn) sox_formats++; } } return 0; } #endif /* * Initialize list of known format handlers. */ int sox_format_init(void) { #ifdef HAVE_LIBLTDL int ret; if ((ret = lt_dlinit()) != 0) { sox_fail("lt_dlinit failed with %d error(s): %s", ret, lt_dlerror()); return SOX_EOF; } plugins_initted = sox_true; lt_dlforeachfile(PKGLIBDIR, init_format, NULL); #endif return SOX_SUCCESS; } /* * Cleanup things. */ void sox_format_quit(void) { #ifdef HAVE_LIBLTDL { int ret; if (plugins_initted && (ret = lt_dlexit()) != 0) { sox_fail("lt_dlexit failed with %d error(s): %s", ret, lt_dlerror()); } } #endif } /* * Check that we have a known format suffix string. */ int sox_gettype(sox_format_t * ft, sox_bool is_file_extension) { sox_format_handler_t const * handler; if (!ft->filetype) { sox_fail_errno(ft, SOX_EFMT, "unknown file type"); return SOX_EFMT; } handler = sox_find_format(ft->filetype, is_file_extension); if (!handler) { sox_fail_errno(ft, SOX_EFMT, "unknown file type `%s'", ft->filetype); return SOX_EFMT; } ft->handler = *handler; if (ft->mode == 'w' && !ft->handler.startwrite && !ft->handler.write) { sox_fail_errno(ft, SOX_EFMT, "file type `%s' isn't writable", ft->filetype); return SOX_EFMT; } return SOX_SUCCESS; } void set_signal_defaults(sox_signalinfo_t * signal) { if (!signal->rate ) signal->rate = SOX_DEFAULT_RATE; if (!signal->precision ) signal->precision = SOX_DEFAULT_PRECISION; if (!signal->channels) signal->channels = SOX_DEFAULT_CHANNELS; } static void set_endianness_if_not_already_set(sox_format_t * ft) { if (ft->encoding.reverse_bytes == SOX_OPTION_DEFAULT) { if (ft->handler.flags & SOX_FILE_ENDIAN) { /* Set revere_bytes if we are running on opposite endian * machine compared to file format. */ if (ft->handler.flags & SOX_FILE_ENDBIG) ft->encoding.reverse_bytes = SOX_IS_LITTLEENDIAN; else ft->encoding.reverse_bytes = SOX_IS_BIGENDIAN; } else ft->encoding.reverse_bytes = SOX_OPTION_NO; } if (ft->encoding.reverse_bits == SOX_OPTION_DEFAULT) ft->encoding.reverse_bits = !!(ft->handler.flags & SOX_FILE_BIT_REV); else if (ft->encoding.reverse_bits != !!(ft->handler.flags & SOX_FILE_BIT_REV)) sox_report("'%s': Format options overriding file-type bit-order", ft->filename); if (ft->encoding.reverse_nibbles == SOX_OPTION_DEFAULT) ft->encoding.reverse_nibbles = !!(ft->handler.flags & SOX_FILE_NIB_REV); else if (ft->encoding.reverse_nibbles != !!(ft->handler.flags & SOX_FILE_NIB_REV)) sox_report("'%s': Format options overriding file-type nibble-order", ft->filename); } static int is_seekable(sox_format_t * ft) { struct stat st; fstat(fileno(ft->fp), &st); return ((st.st_mode & S_IFMT) == S_IFREG); } /* check that all settings have been given */ static int sox_checkformat(sox_format_t * ft) { ft->sox_errno = SOX_SUCCESS; if (!ft->signal.rate) { sox_fail_errno(ft,SOX_EFMT,"sampling rate was not specified"); return SOX_EOF; } if (!ft->signal.precision) { sox_fail_errno(ft,SOX_EFMT,"data encoding was not specified"); return SOX_EOF; } return SOX_SUCCESS; } static char const * detect_magic(sox_format_t * ft) { char data[256]; size_t len = sox_readbuf(ft, data, sizeof(data)); #define MAGIC(type, p2, l2, d2, p1, l1, d1) if (len >= p1 + l1 && \ !memcmp(data + p1, d1, l1) && !memcmp(data + p2, d2, l2)) return #type; MAGIC(voc , 0, 0, "" , 0, 20, "Creative Voice File\x1a") MAGIC(smp , 0, 0, "" , 0, 17, "SOUND SAMPLE DATA") MAGIC(wve , 0, 0, "" , 0, 15, "ALawSoundFile**") MAGIC(amr-wb, 0, 0, "" , 0, 9, "#!AMR-WB\n") MAGIC(prc , 0, 0, "" , 0, 8, prc_header) MAGIC(sph , 0, 0, "" , 0, 7, "NIST_1A") MAGIC(amr-nb, 0, 0, "" , 0, 6, "#!AMR\n") MAGIC(txw , 0, 0, "" , 0, 6, "LM8953") MAGIC(sndt , 0, 0, "" , 0, 5, "SOUND") MAGIC(vorbis, 0, 4, "OggS" , 29, 6, "vorbis") MAGIC(speex , 0, 4, "OggS" , 28, 6, "Speex") MAGIC(hcom ,65, 4, "FSSD" , 128,4, "HCOM") MAGIC(wav , 0, 4, "RIFF" , 8, 4, "WAVE") MAGIC(wav , 0, 4, "RIFX" , 8, 4, "WAVE") MAGIC(aiff , 0, 4, "FORM" , 8, 4, "AIFF") MAGIC(aifc , 0, 4, "FORM" , 8, 4, "AIFC") MAGIC(8svx , 0, 4, "FORM" , 8, 4, "8SVX") MAGIC(maud , 0, 4, "FORM" , 8, 4, "MAUD") MAGIC(xa , 0, 0, "" , 0, 4, "XA\0\0") MAGIC(xa , 0, 0, "" , 0, 4, "XAI\0") MAGIC(xa , 0, 0, "" , 0, 4, "XAJ\0") MAGIC(au , 0, 0, "" , 0, 4, "\0ds.") MAGIC(au , 0, 0, "" , 0, 4, ".snd") MAGIC(flac , 0, 0, "" , 0, 4, "fLaC") MAGIC(avr , 0, 0, "" , 0, 4, "2BIT") MAGIC(caf , 0, 0, "" , 0, 4, "caff") MAGIC(paf , 0, 0, "" , 0, 4, " paf") MAGIC(sf , 3, 1, "" , 0, 2, "\144\243") #undef MAGIC return NULL; } sox_format_t * sox_open_read( char const * path, sox_signalinfo_t const * signal, sox_encodinginfo_t const * encoding, char const * filetype) { sox_format_t * ft = xcalloc(1, sizeof(*ft)); sox_format_handler_t const * handler; if (filetype) { if (!(handler = sox_find_format(filetype, sox_false))) { sox_fail("no handler for given file type `%s'", filetype); goto error; } ft->handler = *handler; } if (!(ft->handler.flags & SOX_FILE_NOSTDIO)) { if (!strcmp(path, "-")) { /* Use stdin if the filename is "-" */ if (sox_globals.stdin_in_use_by) { sox_fail("`-' (stdin) already in use by `%s'", sox_globals.stdin_in_use_by); goto error; } sox_globals.stdin_in_use_by = "audio input"; SET_BINARY_MODE(stdin); ft->fp = stdin; } else if ((ft->fp = xfopen(path, "rb")) == NULL) { sox_fail("can't open input file `%s': %s", path, strerror(errno)); goto error; } ft->seekable = is_seekable(ft); } if (!filetype) { if (ft->seekable) { filetype = detect_magic(ft); sox_rewind(ft); } if (filetype) { sox_report("detected file format type `%s'", filetype); if (!(handler = sox_find_format(filetype, sox_false))) { sox_fail("no handler for detected file type `%s'", filetype); goto error; } } else { if (!(filetype = find_file_extension(path))) { sox_fail("can't determine type of `%s'", path); goto error; } if (!(handler = sox_find_format(filetype, sox_true))) { sox_fail("no handler for file extension `%s'", filetype); goto error; } } ft->handler = *handler; } if (!ft->handler.startread && !ft->handler.read) { sox_fail("file type `%s' isn't readable", filetype); goto error; } ft->mode = 'r'; if (signal) ft->signal = *signal; if (encoding) ft->encoding = *encoding; else sox_init_encodinginfo(&ft->encoding); set_endianness_if_not_already_set(ft); ft->filetype = xstrdup(filetype); ft->filename = xstrdup(path); /* Read and write starters can change their formats. */ if (ft->handler.startread && (*ft->handler.startread)(ft) != SOX_SUCCESS) { sox_fail("can't open input file `%s': %s", ft->filename, ft->sox_errstr); goto error; } /* Fill in some defaults: */ if (!ft->signal.precision) ft->signal.precision = sox_precision(ft->encoding.encoding, ft->encoding.bits_per_sample); if (!(ft->handler.flags & SOX_FILE_PHONY) && !ft->signal.channels) ft->signal.channels = 1; if (sox_checkformat(ft) == SOX_SUCCESS) return ft; sox_fail("bad input format for file `%s': %s", ft->filename, ft->sox_errstr); error: if (ft->fp && ft->fp != stdin) fclose(ft->fp); free(ft->filename); free(ft->filetype); free(ft); return NULL; } static void set_output_format(sox_format_t * ft) { sox_encoding_t e; unsigned i, s; unsigned const * encodings = ft->handler.write_formats; #define enc_arg(T) (T)encodings[i++] if (ft->handler.write_rates){ if (!ft->signal.rate) ft->signal.rate = ft->handler.write_rates[0]; else { sox_rate_t r; i = 0; while ((r = ft->handler.write_rates[i++])) { if (r == ft->signal.rate) break; } if (r != ft->signal.rate) { sox_rate_t given = ft->signal.rate, max = 0; ft->signal.rate = HUGE_VAL; i = 0; while ((r = ft->handler.write_rates[i++])) { if (r > given && r < ft->signal.rate) ft->signal.rate = r; else max = max(r, max); } if (ft->signal.rate == HUGE_VAL) ft->signal.rate = max; sox_warn("%s can't encode at %gHz; using %gHz", ft->handler.names[0], given, ft->signal.rate); } } } else if (!ft->signal.rate) ft->signal.rate = SOX_DEFAULT_RATE; if (ft->handler.flags & SOX_FILE_CHANS) { if (ft->signal.channels == 1 && !(ft->handler.flags & SOX_FILE_MONO)) { ft->signal.channels = (ft->handler.flags & SOX_FILE_STEREO)? 2 : 4; sox_warn("%s can't encode mono; setting channels to %u", ft->handler.names[0], ft->signal.channels); } else if (ft->signal.channels == 2 && !(ft->handler.flags & SOX_FILE_STEREO)) { ft->signal.channels = (ft->handler.flags & SOX_FILE_QUAD)? 4 : 1; sox_warn("%s can't encode stereo; setting channels to %u", ft->handler.names[0], ft->signal.channels); } else if (ft->signal.channels == 4 && !(ft->handler.flags & SOX_FILE_QUAD)) { ft->signal.channels = (ft->handler.flags & SOX_FILE_STEREO)? 2 : 1; sox_warn("%s can't encode quad; setting channels to %u", ft->handler.names[0], ft->signal.channels); } } else ft->signal.channels = max(ft->signal.channels, 1); if (!encodings) return; /* If an encoding has been given, check if it supported by this handler */ if (ft->encoding.encoding) { i = 0; while ((e = enc_arg(sox_encoding_t))) { if (e == ft->encoding.encoding) break; while (enc_arg(unsigned)); } if (e != ft->encoding.encoding) { sox_warn("%s can't encode %s", ft->handler.names[0], sox_encodings_str[ft->encoding.encoding]); ft->encoding.encoding = 0; } else { unsigned max_p = 0; unsigned max_p_s = 0; unsigned given_size = 0; sox_bool found = sox_false; if (ft->encoding.bits_per_sample) given_size = ft->encoding.bits_per_sample; ft->encoding.bits_per_sample = 65; while ((s = enc_arg(unsigned))) { if (s == given_size) found = sox_true; if (sox_precision(e, s) >= ft->signal.precision) { if (s < ft->encoding.bits_per_sample) ft->encoding.bits_per_sample = s; } else if (sox_precision(e, s) > max_p) { max_p = sox_precision(e, s); max_p_s = s; } } if (ft->encoding.bits_per_sample == 65) ft->encoding.bits_per_sample = max_p_s; if (given_size) { if (found) ft->encoding.bits_per_sample = given_size; else sox_warn("%s can't encode %s to %u-bit", ft->handler.names[0], sox_encodings_str[ft->encoding.encoding], given_size); } } } /* If a size has been given, check if it supported by this handler */ if (!ft->encoding.encoding && ft->encoding.bits_per_sample) { i = 0; s= 0; while (s != ft->encoding.bits_per_sample && (e = enc_arg(sox_encoding_t))) while ((s = enc_arg(unsigned)) && s != ft->encoding.bits_per_sample); if (s != ft->encoding.bits_per_sample) { sox_warn("%s can't encode to %u-bit", ft->handler.names[0], ft->encoding.bits_per_sample); ft->encoding.bits_per_sample = 0; } else ft->encoding.encoding = e; } /* Find the smallest lossless encoding with precision >= signal.precision */ if (!ft->encoding.encoding) { ft->encoding.bits_per_sample = 65; i = 0; while ((e = enc_arg(sox_encoding_t))) while ((s = enc_arg(unsigned))) if (e < SOX_ENCODING_LOSSLESS && sox_precision(e, s) >= ft->signal.precision && s < ft->encoding.bits_per_sample) { ft->encoding.encoding = e; ft->encoding.bits_per_sample = s; } } /* Find the smallest lossy encoding with precision >= signal precision, * or, if none such, the highest precision encoding */ if (!ft->encoding.encoding) { unsigned max_p = 0; sox_encoding_t max_p_e = 0; unsigned max_p_s = 0; i = 0; while ((e = enc_arg(sox_encoding_t))) do { s = enc_arg(unsigned); if (sox_precision(e, s) >= ft->signal.precision) { if (s < ft->encoding.bits_per_sample) { ft->encoding.encoding = e; ft->encoding.bits_per_sample = s; } } else if (sox_precision(e, s) > max_p) { max_p = sox_precision(e, s); max_p_e = e; max_p_s = s; } } while (s); if (!ft->encoding.encoding) { ft->encoding.encoding = max_p_e; ft->encoding.bits_per_sample = max_p_s; } } ft->signal.precision = min(ft->signal.precision, sox_precision(ft->encoding.encoding, ft->encoding.bits_per_sample)); #undef enc_arg } sox_bool sox_format_supports_encoding( char const * path, char const * filetype, sox_encodinginfo_t const * encoding) { #define enc_arg(T) (T)ft.handler.write_formats[i++] sox_encoding_t e; unsigned i = 0, s; sox_format_t ft; sox_bool no_filetype_given = filetype == NULL; assert(path); assert(encoding); ft.filetype = (char *)(filetype? filetype : find_file_extension(path)); if (sox_gettype(&ft, no_filetype_given) != SOX_SUCCESS || !ft.handler.write_formats) return sox_false; while ((e = enc_arg(sox_encoding_t))) { if (e == encoding->encoding) { while ((s = enc_arg(unsigned))) if (s == encoding->bits_per_sample) return sox_true; break; } while (enc_arg(unsigned)); } return sox_false; #undef enc_arg } sox_format_t * sox_open_write( sox_bool (*overwrite_permitted)(const char *filename), char const * path, sox_signalinfo_t const * signal, sox_encodinginfo_t const * encoding, char const * filetype, comments_t comments, sox_size_t length, sox_instrinfo_t const * instr, sox_loopinfo_t const * loops) { sox_bool no_filetype_given = filetype == NULL; sox_format_t * ft = xcalloc(sizeof(*ft), 1); int i; if (!path || !signal) { free(ft); return NULL; } ft->filename = xstrdup(path); if (!filetype) { char const * extension = find_file_extension(ft->filename); if (extension) ft->filetype = xstrdup(extension); } else ft->filetype = xstrdup(filetype); ft->mode = 'w'; if (sox_gettype(ft, no_filetype_given) != SOX_SUCCESS) { sox_fail("Can't open output file `%s': %s", ft->filename, ft->sox_errstr); goto error; } ft->signal = *signal; if (encoding) ft->encoding = *encoding; else sox_init_encodinginfo(&ft->encoding); if (!(ft->handler.flags & SOX_FILE_NOSTDIO)) { if (!strcmp(ft->filename, "-")) { /* Use stdout if the filename is "-" */ if (sox_globals.stdout_in_use_by) { sox_fail("`-' (stdout) already in use by `%s'", sox_globals.stdout_in_use_by); goto error; } sox_globals.stdout_in_use_by = "audio output"; SET_BINARY_MODE(stdout); ft->fp = stdout; } else { struct stat st; if (!stat(ft->filename, &st) && (st.st_mode & S_IFMT) == S_IFREG && (overwrite_permitted && !overwrite_permitted(ft->filename))) { sox_fail("Permission to overwrite '%s' denied", ft->filename); goto error; } if ((ft->fp = fopen(ft->filename, "wb")) == NULL) { sox_fail("can't open output file `%s': %s", ft->filename, strerror(errno)); goto error; } } /* stdout tends to be line-buffered. Override this */ /* to be Full Buffering. */ if (setvbuf (ft->fp, NULL, _IOFBF, sizeof(char) * sox_globals.bufsiz)) { sox_fail("Can't set write buffer"); goto error; } ft->seekable = is_seekable(ft); } ft->comments = copy_comments(comments); if (loops) for (i = 0; i < SOX_MAX_NLOOPS; i++) ft->loops[i] = loops[i]; /* leave SMPTE # alone since it's absolute */ if (instr) ft->instr = *instr; ft->length = length; set_endianness_if_not_already_set(ft); set_output_format(ft); /* FIXME: doesn't cover the situation where * codec changes audio length (e.g. 8svx, gsm): */ if (signal->rate && signal->channels) ft->length = ft->length * ft->signal.rate / signal->rate * ft->signal.channels / signal->channels + .5; if ((ft->handler.flags & SOX_FILE_REWIND) && !ft->length && !ft->seekable) sox_warn("can't seek in output file `%s'; length in file header will be unspecified", ft->filename); /* Read and write starters can change their formats. */ if (ft->handler.startwrite && (ft->handler.startwrite)(ft) != SOX_SUCCESS){ sox_fail("can't open output file `%s': %s", ft->filename, ft->sox_errstr); goto error; } if (sox_checkformat(ft) == SOX_SUCCESS) return ft; sox_fail("bad format for output file `%s': %s", ft->filename, ft->sox_errstr); error: if (ft->fp && ft->fp != stdout) fclose(ft->fp); free(ft->filename); free(ft->filetype); free(ft); return NULL; } sox_size_t sox_read(sox_format_t * ft, sox_sample_t * buf, sox_size_t len) { sox_size_t actual = ft->handler.read? (*ft->handler.read)(ft, buf, len) : 0; return (actual > len? 0 : actual); } sox_size_t sox_write(sox_format_t * ft, const sox_sample_t *buf, sox_size_t len) { ft->olength += len; return ft->handler.write? (*ft->handler.write)(ft, buf, len) : 0; } #define TWIDDLE_BYTE(ub, type) \ do { \ if (ft->encoding.reverse_bits) \ ub = cswap[ub]; \ if (ft->encoding.reverse_nibbles) \ ub = ((ub & 15) << 4) | (ub >> 4); \ } while (0); #define TWIDDLE_WORD(uw, type) \ if (ft->encoding.reverse_bytes) \ uw = sox_swap ## type(uw); #define TWIDDLE_FLOAT(f, type) \ if (ft->encoding.reverse_bytes) \ sox_swapf(&f); /* N.B. This macro doesn't work for unaligned types (e.g. 3-byte types). */ #define READ_FUNC(type, size, ctype, twiddle) \ sox_size_t sox_read_ ## type ## _buf( \ sox_format_t * ft, ctype *buf, sox_size_t len) \ { \ sox_size_t n, nread; \ if ((nread = sox_readbuf(ft, buf, len * size)) != len * size && sox_error(ft)) \ sox_fail_errno(ft, errno, sox_readerr); \ nread /= size; \ for (n = 0; n < nread; n++) \ twiddle(buf[n], type); \ return nread; \ } /* Unpack a 3-byte value from a uint8_t * */ #define sox_unpack3(p) ((p)[0] | ((p)[1] << 8) | ((p)[2] << 16)) /* This (slower) macro works for unaligned types (e.g. 3-byte types) that need to be unpacked. */ #define READ_FUNC_UNPACK(type, size, ctype, twiddle) \ sox_size_t sox_read_ ## type ## _buf( \ sox_format_t * ft, ctype *buf, sox_size_t len) \ { \ sox_size_t n, nread; \ uint8_t *data = xmalloc(size * len); \ if ((nread = sox_readbuf(ft, data, len * size)) != len * size && sox_error(ft)) \ sox_fail_errno(ft, errno, sox_readerr); \ nread /= size; \ for (n = 0; n < nread; n++) { \ ctype datum = sox_unpack ## size(data + n * size); \ twiddle(datum, type); \ buf[n] = datum; \ } \ free(data); \ return n; \ } READ_FUNC(b, 1, uint8_t, TWIDDLE_BYTE) READ_FUNC(w, 2, uint16_t, TWIDDLE_WORD) READ_FUNC_UNPACK(3, 3, uint24_t, TWIDDLE_WORD) READ_FUNC(dw, 4, uint32_t, TWIDDLE_WORD) READ_FUNC(f, sizeof(float), float, TWIDDLE_FLOAT) READ_FUNC(df, sizeof(double), double, TWIDDLE_WORD) /* N.B. This macro doesn't work for unaligned types (e.g. 3-byte types). */ #define WRITE_FUNC(type, size, ctype, twiddle) \ sox_size_t sox_write_ ## type ## _buf( \ sox_format_t * ft, ctype *buf, sox_size_t len) \ { \ sox_size_t n, nwritten; \ for (n = 0; n < len; n++) \ twiddle(buf[n], type); \ if ((nwritten = sox_writebuf(ft, buf, len * size)) != len * size) \ sox_fail_errno(ft, errno, sox_writerr); \ return nwritten / size; \ } /* Pack a 3-byte value to a uint8_t * */ #define sox_pack3(p, v) \ (p)[0] = v & 0xff; \ (p)[1] = (v >> 8) & 0xff; \ (p)[2] = (v >> 16) & 0xff; /* This (slower) macro works for unaligned types (e.g. 3-byte types) that need to be packed. */ #define WRITE_FUNC_PACK(type, size, ctype, twiddle) \ sox_size_t sox_write_ ## type ## _buf( \ sox_format_t * ft, ctype *buf, sox_size_t len) \ { \ sox_size_t n, nwritten; \ uint8_t *data = xmalloc(size * len); \ for (n = 0; n < len; n++) { \ ctype datum = buf[n]; \ twiddle(datum, type); \ sox_pack ## size(data + n * size, datum); \ } \ if ((nwritten = sox_writebuf(ft, data, len * size)) != len * size) \ sox_fail_errno(ft, errno, sox_writerr); \ free(data); \ return nwritten / size; \ } WRITE_FUNC(b, 1, uint8_t, TWIDDLE_BYTE) WRITE_FUNC(w, 2, uint16_t, TWIDDLE_WORD) WRITE_FUNC_PACK(3, 3, uint24_t, TWIDDLE_WORD) WRITE_FUNC(dw, 4, uint32_t, TWIDDLE_WORD) WRITE_FUNC(f, sizeof(float), float, TWIDDLE_FLOAT) WRITE_FUNC(df, sizeof(double), double, TWIDDLE_WORD) #define WRITE1U_FUNC(type, ctype) \ int sox_write ## type(sox_format_t * ft, unsigned d) \ { ctype datum = (ctype)d; \ return sox_write_ ## type ## _buf(ft, &datum, 1) == 1 ? SOX_SUCCESS : SOX_EOF; \ } #define WRITE1S_FUNC(type, ctype) \ int sox_writes ## type(sox_format_t * ft, signed d) \ { ctype datum = (ctype)d; \ return sox_write_ ## type ## _buf(ft, &datum, 1) == 1 ? SOX_SUCCESS : SOX_EOF; \ } #define WRITE1_FUNC(type, ctype) \ int sox_write ## type(sox_format_t * ft, ctype datum) \ { \ return sox_write_ ## type ## _buf(ft, &datum, 1) == 1 ? SOX_SUCCESS : SOX_EOF; \ } WRITE1U_FUNC(b, uint8_t) WRITE1U_FUNC(w, uint16_t) WRITE1U_FUNC(3, uint24_t) WRITE1U_FUNC(dw, uint32_t) WRITE1S_FUNC(b, uint8_t) WRITE1S_FUNC(w, uint16_t) WRITE1_FUNC(f, float) WRITE1_FUNC(df, double) /* N.B. The file (if any) may already have been deleted. */ int sox_close(sox_format_t * ft) { int rc = SOX_SUCCESS; if (ft->mode == 'r') rc = ft->handler.stopread? (*ft->handler.stopread)(ft) : SOX_SUCCESS; else { if (ft->handler.flags & SOX_FILE_REWIND) { if (ft->olength != ft->length && ft->seekable) { rc = sox_seeki(ft, 0, 0); if (rc == SOX_SUCCESS) rc = ft->handler.stopwrite? (*ft->handler.stopwrite)(ft) : ft->handler.startwrite?(*ft->handler.startwrite)(ft) : SOX_SUCCESS; } } else rc = ft->handler.stopwrite? (*ft->handler.stopwrite)(ft) : SOX_SUCCESS; } if (!(ft->handler.flags & SOX_FILE_NOSTDIO)) fclose(ft->fp); free(ft->filename); free(ft->filetype); delete_comments(&ft->comments); free(ft); return rc; } int sox_seek(sox_format_t * ft, sox_size_t offset, int whence) { /* FIXME: Implement SOX_SEEK_CUR and SOX_SEEK_END. */ if (whence != SOX_SEEK_SET) return SOX_EOF; /* FIXME: return SOX_EINVAL */ /* If file is a seekable file and this handler supports seeking, * then invoke handler's function. */ if (ft->seekable && ft->handler.seek) return (*ft->handler.seek)(ft, offset); return SOX_EOF; /* FIXME: return SOX_EBADF */ } sox_bool sox_is_playlist(char const * filename) { return strcaseends(filename, ".m3u") || strcaseends(filename, ".pls"); } int sox_parse_playlist(sox_playlist_callback_t callback, void * p, char const * const listname) { sox_bool const is_pls = strcaseends(listname, ".pls"); int const comment_char = "#;"[is_pls]; size_t text_length = 100; char * text = xmalloc(text_length + 1); char * dirname = xstrdup(listname); char * slash_pos = LAST_SLASH(dirname); FILE * file = xfopen(listname, "r"); char * filename; int c, result = SOX_SUCCESS; if (!slash_pos) *dirname = '\0'; else *slash_pos = '\0'; if (file == NULL) { sox_fail("Can't open playlist file `%s': %s", listname, strerror(errno)); result = SOX_EOF; } else do { size_t i = 0; size_t begin = 0, end = 0; while (isspace(c = getc(file))); if (c == EOF) break; while (c != EOF && !strchr("\r\n", c) && c != comment_char) { if (i == text_length) text = xrealloc(text, (text_length <<= 1) + 1); text[i++] = c; if (!strchr(" \t\f", c)) end = i; c = getc(file); } if (ferror(file)) break; if (c == comment_char) { do c = getc(file); while (c != EOF && !strchr("\r\n", c)); if (ferror(file)) break; } text[end] = '\0'; if (is_pls) { char dummy; if (!strncasecmp(text, "file", 4) && sscanf(text + 4, "%*u=%c", &dummy) == 1) begin = strchr(text + 5, '=') - text + 1; else end = 0; } if (begin != end) { char const * id = text + begin; if (!dirname[0] || is_uri(id) || IS_ABSOLUTE(id)) filename = xstrdup(id); else { filename = xmalloc(strlen(dirname) + strlen(id) + 2); sprintf(filename, "%s/%s", dirname, id); } if (sox_is_playlist(filename)) sox_parse_playlist(callback, p, filename); else if (callback(p, filename)) c = EOF; free(filename); } } while (c != EOF); if (ferror(file)) { sox_fail("Error reading playlist file `%s': %s", listname, strerror(errno)); result = SOX_EOF; } if (file) fclose(file); free(text); free(dirname); return result; }