#ifndef cwAudioFileOps_h #define cwAudioFileOps_h namespace cw { namespace afop { // Generate a sine tone and write it to a file. rc_t sine( const char* fn, double srate, unsigned bits, double hz, double gain, double secs ); rc_t sine( const object_t* cfg ); // Mix a set of audio files. rc_t mix( const char* fnV[], const float* gainV, unsigned srcN, const char* outFn, unsigned outBits ); rc_t mix( const object_t* cfg ); // Copy a time selection to an audio output file. rc_t selectToFile( const char* srcFn, double begSec, double endSec, unsigned outBits, const char* outDir, const char* outFn ); rc_t selectToFile( const object_t* cfg ); // Cross fader typedef struct { const char* srcFn; // source audio file name double srcBegSec; // source clip begin double srcEndSec; // source clip end double srcBegFadeSec; // length of fade in (fade begins at srcBegSec and ends at srcBegSec+srcBegFadeSec) double srcEndFadeSec; // length of fade out (fade begins at srcEndSec-srcEndFadeSec and ends at srcEndSec) double dstBegSec; // clip output location } cutMixArg_t; rc_t cutAndMix( const char* outFn, unsigned outBits, const char* srcDir, const cutMixArg_t* argL, unsigned argN ); rc_t cutAndMix( const object_t* cfg ); typedef struct { const char* srcFn; double srcBegSec; double srcEndSec; double fadeOutSec; } parallelMixArg_t; rc_t parallelMix( const char* dstFn, unsigned dstBits, const char* srcDir, const parallelMixArg_t* argL, unsigned argN ); rc_t parallelMix( const object_t* cfg ); rc_t test( const object_t* cfg ); } } #endif