ref: ccedd08802f62ed896f69d778e6a106d00f9ab58
dir: /src/example6.c/
/* Simple example of using SoX libraries * * Copyright (c) 2007-14 robs@users.sourceforge.net * * This program is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation; either version 2 of the License, or (at your * option) any later version. * * This program 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 General * Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifdef NDEBUG /* N.B. assert used with active statements so enable always. */ #undef NDEBUG /* Must undef above assert.h or other that might include it. */ #endif #include "sox.h" #include "util.h" #include <stdio.h> #include <assert.h> /* * Shows how to explicitly specify output file signal and encoding attributes. * * The example converts a given input file of any type to mono mu-law at 8kHz * sampling-rate (providing that this is supported by the given output file * type). * * For example: * * sox -r 16k -n input.wav synth 8 sin 0:8k sin 8k:0 gain -1 * ./example6 input.wav output.wav * soxi input.wav output.wav * * gives: * * Input File : 'input.wav' * Channels : 2 * Sample Rate : 16000 * Precision : 32-bit * Duration : 00:00:08.00 = 128000 samples ~ 600 CDDA sectors * File Size : 1.02M * Bit Rate : 1.02M * Sample Encoding: 32-bit Signed Integer PCM * * Input File : 'output.wav' * Channels : 1 * Sample Rate : 8000 * Precision : 14-bit * Duration : 00:00:08.00 = 64000 samples ~ 600 CDDA sectors * File Size : 64.1k * Bit Rate : 64.1k * Sample Encoding: 8-bit u-law */ int main(int argc, char * argv[]) { static sox_format_t * in, * out; /* input and output files */ sox_effects_chain_t * chain; sox_effect_t * e; char * args[10]; sox_signalinfo_t interm_signal; /* @ intermediate points in the chain. */ sox_encodinginfo_t out_encoding = { SOX_ENCODING_ULAW, 8, 0, sox_option_default, sox_option_default, sox_option_default, sox_false }; sox_signalinfo_t out_signal = { 8000, 1, 0, 0, NULL }; assert(argc == 3); assert(sox_init() == SOX_SUCCESS); assert(in = sox_open_read(argv[1], NULL, NULL, NULL)); assert(out = sox_open_write(argv[2], &out_signal, &out_encoding, NULL, NULL, NULL)); chain = sox_create_effects_chain(&in->encoding, &out->encoding); interm_signal = in->signal; /* NB: deep copy */ e = sox_create_effect(sox_find_effect("input")); args[0] = (char *)in, assert(sox_effect_options(e, 1, args) == SOX_SUCCESS); assert(sox_add_effect(chain, e, &interm_signal, &in->signal) == SOX_SUCCESS); free(e); if (in->signal.rate != out->signal.rate) { e = sox_create_effect(sox_find_effect("rate")); assert(sox_effect_options(e, 0, NULL) == SOX_SUCCESS); assert(sox_add_effect(chain, e, &interm_signal, &out->signal) == SOX_SUCCESS); free(e); } if (in->signal.channels != out->signal.channels) { e = sox_create_effect(sox_find_effect("channels")); assert(sox_effect_options(e, 0, NULL) == SOX_SUCCESS); assert(sox_add_effect(chain, e, &interm_signal, &out->signal) == SOX_SUCCESS); free(e); } e = sox_create_effect(sox_find_effect("output")); args[0] = (char *)out, assert(sox_effect_options(e, 1, args) == SOX_SUCCESS); assert(sox_add_effect(chain, e, &interm_signal, &out->signal) == SOX_SUCCESS); free(e); sox_flow_effects(chain, NULL, NULL); sox_delete_effects_chain(chain); sox_close(out); sox_close(in); sox_quit(); return 0; }