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#include <string>
#include <iostream>
#include <cmath>
#include <cstdlib>
#include <pthread.h>
#include "jack.h"
#include "load.h"
#include "cli.h"
#include "channel.h"
#include "fixed.h"
#include "programs.h"
#include "defines.h"
#include "globals.h"
#include "in_synth_cli.h"
#include "communication.h"
#include "note_loader.h"
#include "lfos.h"
#include "watch_files.h"
using namespace std;
void cleanup();
void dump_options();
pthread_t watcher_thread=-1;
int main(int argc, char** argv)
{
init_communication();
for (int i=0;i<N_LFOS;++i)
lfo_freq_hz[i]=0;
try
{
parse_args(argc, argv);
add_dir("~/.flosynth", false);
add_dir("/etc/flosynth", false);
if (cleanup_interval_sec<=0) cleanup_interval_sec=CLEANUP_INTERVAL_SEC;
for (int i=0;i<N_LFOS;++i)
if (lfo_freq_hz[i]<=0) lfo_freq_hz[i]=LFO_FREQ_HZ[i];
if (snh_freq_hz<=0) snh_freq_hz=SNH_FREQ_HZ;
if (frameskip<=-1) frameskip=0;
if (max_port_time_sec<=0) max_port_time_sec=MAX_PORTAMENTO_TIME;
if (filter_update_freq_hz<=0) filter_update_freq_hz=FILTER_UPDATE_FREQ_HZ;
if (lfo_update_freq_hz<=0) lfo_update_freq_hz=LFO_UPDATE_FREQ_HZ;
if (envelope_update_freq_hz<=0) envelope_update_freq_hz=ENVELOPE_UPDATE_FREQ_HZ;
if (xrun_n<=0) xrun_n=XRUN_N;
if (xrun_time<=0) xrun_time=XRUN_TIME;
dump_options();
frameskip+=1; //because a value of 0 means using each frame,
//a value of 1 means using each 2nd frame and so on
init_jack();
//this calculation needs the real sampling rate. others don't
cleanup_interval=cleanup_interval_sec*samp_rate;
#ifdef FRAMESKIP
samp_rate/=frameskip;
#endif
filter_update_frames=samp_rate/filter_update_freq_hz;
lfo_update_frames=samp_rate/lfo_update_freq_hz;
envelope_update_frames=samp_rate/envelope_update_freq_hz;
if (filter_update_frames<1) filter_update_frames=1;
if (lfo_update_frames<1) lfo_update_frames=1;
if (envelope_update_frames<1) envelope_update_frames=1;
int i;
init_default_program(default_program);
init_snh();
for (i=0;i<N_LFOS;++i)
init_lfo(i);
program_settings=new program_t[128];
for (i=0;i<128;++i)
{
program_lock[i]=false;
load_program(programfile[i],program_settings[i]);
}
fixed_t* temp=new fixed_t[WAVE_RES];
for (i=0;i<WAVE_RES;i++)
temp[i]=0;
for (i=0;i<N_WAVEFORMS;++i)
wave[i]=temp;
for (i=0;i<N_NORMAL_WAVEFORMS;i++)
wave[i]=new fixed_t[WAVE_RES];
for (i=WAVE_SAW_START; i<WAVE_SAW_START+WAVE_SAW_N; i++)
wave[i]=new fixed_t[WAVE_RES];
for (i=WAVE_PULSE_START; i<WAVE_PULSE_START+WAVE_PULSE_N; i++)
wave[i]=new fixed_t[WAVE_RES];
for (i=0;i<WAVE_RES;++i) //init the "normal" waves
{
fixed_t temp1, temp2;
temp1=ONE*sin(i*2.0*3.141592654/WAVE_RES);
temp2=ONE*sin(i*3.141592654/WAVE_RES);
wave[0][i]=temp1;
wave[1][i]=temp2;
wave[2][i]= (i<=WAVE_RES/2) ? temp1 : 0;
wave[3][i]= (i<=WAVE_RES/2) ? temp2 : 0;
wave[4][i]= (i<=WAVE_RES/2) ? 0 : temp2;
wave[5][i]=float(rand() - RAND_MAX/2) / (RAND_MAX/2) *ONE;
}
for (int j=WAVE_SAW_START; j<WAVE_SAW_START+WAVE_SAW_N; j++) //init the saws
{
float rising, falling;
falling=(float) (j-WAVE_SAW_START)/(WAVE_SAW_N-1);
rising=1.0-falling;
int a,b,c;
a=WAVE_RES*(rising/2);
b=WAVE_RES*(rising/2 + falling);
c=WAVE_RES*falling;
for (i=0;i<a;i++)
wave[j][i]=ONE * i/a;
for (i=a;i<b;i++)
wave[j][i]=ONE - 2*ONE * (i-a)/c;
for (i=b;i<WAVE_RES;i++)
wave[j][i]=ONE * (i-b)/a - ONE;
}
for (int j=WAVE_PULSE_START; j<WAVE_PULSE_START+WAVE_PULSE_N; j++) //init the pulses
{
float high, low;
high=(float) (j-WAVE_PULSE_START)/(WAVE_PULSE_N-1);
low=1.0-high;
int a=WAVE_RES*high;
for (i=0;i<a;i++)
wave[j][i]=ONE;
for (i=a;i<WAVE_RES;i++)
wave[j][i]=-ONE;
}
for (int i=0;i<N_CHANNELS;++i)
channel[i]=new Channel;
srand (time(NULL));
start_jack(connect_audio, connect_midi);
if (watchfiles)
{
if (pthread_create(&watcher_thread, NULL, watch_files, NULL) != 0)
{
output_warning("WARNING: could not start file-watcher thread. you must inform me about\n"
" updated files manually.");
watcher_thread=-1;
}
}
else
{
output_note("NOTE: you disabled the watching of files. you must inform me about\n"
" updated files manually.");
}
do_in_synth_cli();
cleanup();
}
catch(string err)
{
cout << endl<<endl<< "FATAL: caught an exception: "<<endl<<err<<endl<<"exiting..." << endl;
}
/* catch(...)
{
cout << "FATAL: caught an unknown exception... exiting..." << endl;
}*/
return 0;
}
void cleanup()
{
if (watcher_thread!=-1)
{
if (pthread_cancel(watcher_thread) != 0)
{
output_warning("WARNING: could not cancel watcher thread!");
}
else
{
pthread_join(watcher_thread,NULL);
}
}
exit_jack();
uninit_communication();
for (int i=0;i<N_CHANNELS;++i)
{
delete channel[i];
channel[i]=NULL;
}
for (int i=0;i<128;++i)
maybe_unload_note(program_settings[i]);
delete [] program_settings;
}
void dump_options()
{
for (int i=0;i<128;++i)
if (programfile[i]!="")
cout << "program #"<<i<<":\t'"<<programfile[i]<<"'"<<endl;
cout << endl;
cout << "frameskip:\t\t"<<frameskip<<endl;
cout << "cleanup-interval:\t"<<cleanup_interval_sec<<endl;
for (int i=0;i<N_LFOS;++i)
cout << "lfo"<<i<<" freq:\t\t"<<lfo_freq_hz[i]<<endl;
cout << "sample and hold freq:\t"<<snh_freq_hz<<endl;
cout << "max portamento time:\t"<<max_port_time_sec<<endl;
cout << "xrun n/time:\t\t"<<xrun_n<<"/"<<xrun_time<<"s"<<endl;
cout << "lfo update freq:\t"<<lfo_update_freq_hz<<endl;
cout << "filter update freq:\t"<<filter_update_freq_hz<<endl;
cout << "envelope update freq:\t"<<envelope_update_freq_hz<<endl;
}
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