Loopp/src/gmastertrack.cxx
2013-12-01 19:01:58 +00:00

282 lines
7.1 KiB
C++

#include "gmastertrack.hxx"
static void gmastertrack_tempoDial_callback(Fl_Widget *w, void *data)
{
Avtk::Dial* b = (Avtk::Dial*)w;
float bpm = b->value() * 160.f + 60;
EventTimeBPM e = EventTimeBPM( bpm );
writeToDspRingbuffer( &e );
}
static void gmastertrack_volume_callback(Fl_Widget *w, void *data)
{
Avtk::Volume* b = (Avtk::Volume*)w;
float v = b->value();
EventMasterVol e( v );
writeToDspRingbuffer( &e );
}
static void gmastertrack_inputVolume_callback(Fl_Widget *w, void *data)
{
Avtk::Volume* b = (Avtk::Volume*)w;
float v = b->value();
EventMasterInputVol e( v );
writeToDspRingbuffer( &e );
}
static void gmastertrack_sidchainKeyButton_callback(Fl_Widget *w, void *data)
{
Avtk::LightButton* b = (Avtk::LightButton*)w;
b->value( !b->value() );
EventMasterInputToActive e( INPUT_TO_SIDE_KEY, b->value() );
writeToDspRingbuffer( &e );
//printf("Key button\n");
}
static void gmastertrack_mixButton_callback(Fl_Widget *w, void *data)
{
Avtk::LightButton* b = (Avtk::LightButton*)w;
b->value( !b->value() );
EventMasterInputToActive e( INPUT_TO_MIX, b->value() );
writeToDspRingbuffer( &e );
//printf("Mix button\n");
}
static void gmastertrack_sendButton_callback(Fl_Widget *w, void *data)
{
Avtk::LightButton* b = (Avtk::LightButton*)w;
b->value( !b->value() );
EventMasterInputToActive e( INPUT_TO_SEND, b->value() );
writeToDspRingbuffer( &e );
//printf("Send button\n");
}
static void gmastertrack_sendVol_callback(Fl_Widget *w, void *data)
{
Avtk::Dial* b = (Avtk::Dial*)w;
float v = b->value();
EventMasterInputTo e = EventMasterInputTo( INPUT_TO_SEND, v );
writeToDspRingbuffer( &e );
///printf("Send dial\n");
}
static void gmastertrack_xSideVol_callback(Fl_Widget *w, void *data)
{
Avtk::Dial* b = (Avtk::Dial*)w;
float v = b->value();
EventMasterInputTo e = EventMasterInputTo( INPUT_TO_XSIDE, v );
writeToDspRingbuffer( &e );
//printf("XSide dial\n");
}
/// return volume
static void gmastertrack_returnVol_callback(Fl_Widget *w, void *data)
{
Avtk::Dial* b = (Avtk::Dial*)w;
float v = b->value();
EventMasterReturn e( RETURN_MAIN, v );
writeToDspRingbuffer( &e );
//printf("Return dial\n");
}
static void gmastertrack_mixVol_callback(Fl_Widget *w, void *data)
{
Avtk::Dial* b = (Avtk::Dial*)w;
float v = b->value();
EventMasterInputTo e = EventMasterInputTo( INPUT_TO_MIX, v );
writeToDspRingbuffer( &e );
//printf("MIX dial\n");
}
static void gmastertrack_button_callback(Fl_Widget *w, void *data)
{
if ( strcmp( w->label(), "Metro" ) == 0 )
{
Avtk::LightButton* b = (Avtk::LightButton*)w;
b->value( !b->value() );
EventMetronomeActive e = EventMetronomeActive( b->value() );
writeToDspRingbuffer( &e );
}
else if ( strcmp( w->label(), "Tap" ) == 0 )
{
EventTimeTempoTap e;
writeToDspRingbuffer( &e );
}
else
{
LUPPP_WARN("Error: unknown command string");
}
}
GMasterTrack::GMasterTrack(int x, int y, int w, int h, const char* l ) :
Fl_Group(x, y, w, h),
title( strdup(l) ),
bg( x, y , w, h, title ),
// with "true" master flag: launches scenes instead of clips on tracks
clipSel(x + 5, y + 26 + 102, 140, 294,"", true),
source(x+5, y+26, 140, 100, ""),
volBox(x+5, y+422, 140, 172, ""),
tapTempo ( x + w * 2/4.f - 18, y + 426 + 41 * 0, 44,38, "Tap"),
metronomeButton( x + w * 2/4.f - 18, y + 426 + 41 * 1, 44, 38,"Metro"),
tempoDial ( x + w * 2/4.f - 18, y + 426 + 41 * 2, 45, 36,"BPM"),
returnVol ( x + w * 2/4.f - 18, y + 426 + 41 * 3, 45, 36,"Return"),
inputVolume(x + 9,y + 26 + 4, w - 18, 30,""),
inputToSend (x + 10,y + 28 + 68, 40, 26,"Snd"),
inputToSendVol(x + w*0.2-15,y + 28 + 36, 30, 30,""),
inputToSidechainKey (x + w*0.5-20,y + 28 + 68, 40, 26,"Key"),
inputToSidechainSignalVol(x + w*0.5-15,y + 28 + 36, 30, 30,""),
inputToMix (x + w*0.8-20,y + 28 + 68, 40, 26,"Mix"),
inputToMixVol(x + w*0.8-15,y + 28 + 36, 30, 30,""),
volume(x+106, y +425, 36, 166, "")
{
ID = privateID++;
bar = 0;
inputVolume.value(0.5);
inputVolume.setOrientationHorizontal();
inputVolume.callback( gmastertrack_inputVolume_callback, 0 );
tapTempo.callback( gmastertrack_button_callback, &ID );
metronomeButton.callback( gmastertrack_button_callback, 0 );
tempoDial.callback( gmastertrack_tempoDial_callback, 0 );
inputToSend.setColor( 0, 1.0, 0 );
inputToSend.callback( gmastertrack_sendButton_callback, 0 );
inputToSendVol.callback( gmastertrack_sendVol_callback, 0 );
inputToSidechainKey.setColor( 0, 0.6, 1 );
inputToSidechainKey.callback( gmastertrack_sidchainKeyButton_callback, 0 );
inputToSidechainSignalVol.value( 0 );
inputToSidechainSignalVol.callback( gmastertrack_xSideVol_callback, 0 );
inputToMix.callback ( gmastertrack_mixButton_callback, 0 );
inputToMixVol.callback ( gmastertrack_mixVol_callback, 0 );
tempoDial.align( FL_ALIGN_CENTER );
returnVol.value( 1.f );
returnVol.align( FL_ALIGN_CENTER );
returnVol.callback( gmastertrack_returnVol_callback, 0 );
for(int i = 0; i < 4; i++)
{
beatLights[i] = new Avtk::LightButton( x + 11, y + 427 + 41 * i, 38, 38, "" );
}
beatLights[0]->setColor( 1.0, 0.0 , 0.0 );
beatLights[1]->setColor( 1.0, 0.48, 0.0 );
beatLights[2]->setColor( 1.0, 1.0 , 0.0 );
beatLights[3]->setColor( 0.0, 1.0 , 0.0 );
volume.amplitude( 0.0, 0.0 );
volume.callback( gmastertrack_volume_callback, 0 );
end(); // close the group
}
void GMasterTrack::setBpm( int b )
{
bpm = b;
tempoDial.value( ( bpm - 60 ) / 160.f );
}
void GMasterTrack::setInputVol(float f)
{
//LUPPP_NOTE(" gmtrck, inputVol %f", f );
inputVolume.value( f );
}
void GMasterTrack::setReturnVol(float f)
{
LUPPP_NOTE(" gmtrck, returnVol %f", f );
returnVol.value( f );
}
void GMasterTrack::setInputTo(int to, float f)
{
//LUPPP_NOTE(" gmtrck, inputTO %i, %f", to, f );
if ( to == Event::INPUT_TO_MIX )
inputToMixVol.value( f );
else if ( to == Event::INPUT_TO_SEND )
inputToSendVol.value( f );
else if ( to == Event::INPUT_TO_XSIDE )
inputToSidechainSignalVol.value( f );
}
void GMasterTrack::setInputToActive(int to, bool f)
{
//LUPPP_NOTE(" gmtrck, inputToActive %i, %i", to, int(f) );
if ( to == Event::INPUT_TO_MIX )
inputToMix.value( f );
else if ( to == Event::INPUT_TO_SEND )
inputToSend.value( f );
else if ( to == Event::INPUT_TO_SIDE_KEY )
inputToSidechainKey.value( f );
}
void GMasterTrack::metronomeEnable( bool b )
{
metronomeButton.value( b );
}
int GMasterTrack::getBpm()
{
return bpm;
}
void GMasterTrack::setTapTempo( bool b )
{
tapTempo.setHighlight( b );
}
void GMasterTrack::setBarBeat(int b, int beat)
{
if ( beat % 4 == 0 )
{
bar = bar % 4 + 1;
}
int num = (beat % 4) + 1;
// turn all off
for( int i = 0; i < 4; i++)
beatLights[i]->value( 0 );
// beat starts at 4
for( int i = 0; i < num; i++)
beatLights[3-i]->value( 1 );
}
Avtk::Volume* GMasterTrack::getInputVolume()
{
return &inputVolume;
}
Avtk::Volume* GMasterTrack::getVolume()
{
return &volume;
}
Avtk::ClipSelector* GMasterTrack::getClipSelector()
{
return &clipSel;
}
GMasterTrack::~GMasterTrack()
{
free(title);
}