ref: 58d6929dcf0a3d396db4767c7c06560e4f713c9c
dir: /src/example0.c/
/* Simple example of using SoX libraries * * Copyright (c) 2007-8 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. */ #include "sox.h" #include <stdio.h> #ifdef NDEBUG /* N.B. assert used with active statements so enable always */ #undef NDEBUG #endif #include <assert.h> /* * Reads input file, applies vol & flanger effects, stores in output file. * E.g. example1 monkey.au monkey.aiff */ 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]; assert(argc == 3); /* All libSoX applications must start by initialising the SoX library */ assert(sox_format_init() == SOX_SUCCESS); /* Open the input file (with default parameters) */ assert(in = sox_open_read(argv[1], NULL, NULL, NULL)); /* Open the output file; we must specify the output signal characteristics. * Since we are using only simple effects, they are the same as the input * file characteristics */ assert(out = sox_open_write(argv[2], &in->signal, NULL, NULL, NULL, NULL)); /* Create an effects chain; some effects need to know about the input * or output file encoding so we provide that information here */ chain = sox_create_effects_chain(&in->encoding, &out->encoding); /* The first effect in the effect chain must be something that can source * samples; in this case, we use the built-in handler that inputs * data from an audio file */ e = sox_create_effect(sox_find_effect("input")); args[0] = (char *)in, assert(e->handler.getopts(e, 1, args) == SOX_SUCCESS); /* This becomes the first `effect' in the chain */ assert(sox_add_effect(chain, e, &in->signal, &in->signal) == SOX_SUCCESS); /* Create the `vol' effect, and initialise it with the desired parameters: */ e = sox_create_effect(sox_find_effect("vol")); args[0] = "3dB", assert(e->handler.getopts(e, 1, args) == SOX_SUCCESS); /* Add the effect to the end of the effects processing chain: */ assert(sox_add_effect(chain, e, &in->signal, &in->signal) == SOX_SUCCESS); /* Create the `flanger' effect, and initialise it with default parameters: */ e = sox_create_effect(sox_find_effect("flanger")); assert(e->handler.getopts(e, 0, NULL) == SOX_SUCCESS); /* Add the effect to the end of the effects processing chain: */ assert(sox_add_effect(chain, e, &in->signal, &in->signal) == SOX_SUCCESS); /* The last effect in the effect chain must be something that only consumes * samples; in this case, we use the built-in handler that outputs * data to an audio file */ e = sox_create_effect(sox_find_effect("output")); args[0] = (char *)out, assert(e->handler.getopts(e, 1, args) == SOX_SUCCESS); assert(sox_add_effect(chain, e, &in->signal, &in->signal) == SOX_SUCCESS); /* Flow samples through the effects processing chain until EOF is reached */ sox_flow_effects(chain, NULL); /* All done; tidy up: */ sox_delete_effects_chain(chain); sox_close(out); sox_close(in); sox_format_quit(); return 0; }