public BasicParameter widthparameter= new BasicParameter("Width", 20, 1, 60);
public BasicParameter vibration_magnitude = new BasicParameter("Vmag", 20, 2, modelrad/2);
public BasicParameter scale = new BasicParameter("Scale", 1, .1, 5);
- private int pitch = 0;
- private int channel = 0;
- private int velocity = 0;
- private int cur = 0;
- public final LXProjection sinespin;
+ private int pitch = 0;
+ private int channel = 0;
+ private int velocity = 0;
+ private int cur = 0;
+ public final LXProjection sinespin;
public final LXProjection sinespin2;
public final LXProjection sinespin3;
- Pick Galaxy, STime;
+ Pick Galaxy, STime;
public BasicParameter rotationx = new BasicParameter("rotx", 0, 0, 1 );
public BasicParameter rotationy = new BasicParameter("roty", 1, 0, 1);
class Sphery {
float f1xcenter, f1ycenter, f1zcenter, f2xcenter , f2ycenter, f2zcenter; //second three are for an ellipse with two foci
- private SinLFO vibration;
- private SinLFO surfacewave;
+ private SinLFO vibration;
+ private SinLFO surfacewave;
private SinLFO xbounce;
public SinLFO ybounce;
public BasicParameter vibrationrate;
public final PVector circlecenter;
- public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float radius, float vibration_magnitude , float vperiod)
+ public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float radius, float vibration_magnitude , float vperiod)
{
this.f1xcenter = f1xcenter;
this.f1ycenter = f1ycenter;
this.f1zcenter = f1zcenter;
- this.radius = radius;
+ this.radius = radius;
this.circlecenter= new PVector(f1xcenter,f1ycenter,f1zcenter);
this.vibration_magnitude = vibration_magnitude;
this.vperiod = vperiod;
//addParameter(bounceamp = new BasicParameter("Amp", .5));
- //addParameter(bouncerate = new BasicParameter("Rate", .5)); //ybounce.modulateDurationBy(bouncerate);
+ //addParameter(bouncerate = new BasicParameter("Rate", .5)); //ybounce.modulateDurationBy(bouncerate);
//addParameter(vibrationrate = new BasicParameter("vibration", 1000, 10000));
//addParameter(widthparameter = new BasicParameter("Width", .2));
- //addModulator(xbounce = new SinLFO(model.xMax/3, 2*model.yMax/3, 2000)).trigger();
+ //addModulator(xbounce = new SinLFO(model.xMax/3, 2*model.yMax/3, 2000)).trigger();
addModulator(ybounce= new SinLFO(model.yMax/3, 2*model.yMax/3, 240000)).trigger(); //bounce.modulateDurationBy
//addModulator(bounceamp); //ybounce.setMagnitude(bouncerate);
}
- // public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float vibration_magnitude, float vperiod)
+ // public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float vibration_magnitude, float vperiod)
// {
- // this.f1xcenter = f1xcenter;
- // this.f1ycenter = f1ycenter;
- // this.f1zcenter = f1zcenter;
- // this.vibration_magnitude = vibration_magnitude;
+ // this.f1xcenter = f1xcenter;
+ // this.f1ycenter = f1ycenter;
+ // this.f1zcenter = f1zcenter;
+ // this.vibration_magnitude = vibration_magnitude;
// this.vperiod = vperiod;
- // addModulator(ybounce= new SinLFO(model.yMax/3, 2*model.yMax/3, 240000)).trigger(); //bounce.modulateDurationBy
- // addModulator( vibration = new SinLFO( modelrad/10 - vibration_magnitude , modelrad/10 + vibration_magnitude, vperiod)).trigger(); //vibration.setPeriod(240000/lx.tempo.bpm());
+ // addModulator(ybounce= new SinLFO(model.yMax/3, 2*model.yMax/3, 240000)).trigger(); //bounce.modulateDurationBy
+ // addModulator( vibration = new SinLFO( modelrad/10 - vibration_magnitude , modelrad/10 + vibration_magnitude, vperiod)).trigger(); //vibration.setPeriod(240000/lx.tempo.bpm());
// }
//for an ellipse
-// public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float f2xcenter, float f2ycenter, float f2zcenter,
-// float vibration_min, float vibration_max, float vperiod)
+// public Sphery(float f1xcenter, float f1ycenter, float f1zcenter, float f2xcenter, float f2ycenter, float f2zcenter,
+// float vibration_min, float vibration_max, float vperiod)
-// {
-// this.f1xcenter = f1xcenter;
-// this.f1ycenter = f1ycenter;
-// this.f1zcenter = f1zcenter;
-// this.f2xcenter = f2xcenter;
-// this.f2ycenter = f2ycenter;
-// this.f2zcenter = f2zcenter;
-// this.vibration_min = vibration_min;
-// this.vibration_max = vibration_max;
-// this.vperiod = vperiod;
-// //addModulator(xbounce = new SinLFO(model.xMax/3, 2*model.yMax/3, 2000)).trigger();
-// addModulator(ybounce).trigger();
-// addModulator( vibration = new SinLFO(vibration_min , vibration_max, lx.tempo.rampf())).trigger(); //vibration.modulateDurationBy(vx);
-// addParameter(widthparameter = new BasicParameter("Width", .1));
-// //addParameter(huespread = new BasicParameter("bonk", .2));
+// {
+// this.f1xcenter = f1xcenter;
+// this.f1ycenter = f1ycenter;
+// this.f1zcenter = f1zcenter;
+// this.f2xcenter = f2xcenter;
+// this.f2ycenter = f2ycenter;
+// this.f2zcenter = f2zcenter;
+// this.vibration_min = vibration_min;
+// this.vibration_max = vibration_max;
+// this.vperiod = vperiod;
+// //addModulator(xbounce = new SinLFO(model.xMax/3, 2*model.yMax/3, 2000)).trigger();
+// addModulator(ybounce).trigger();
+// addModulator( vibration = new SinLFO(vibration_min , vibration_max, lx.tempo.rampf())).trigger(); //vibration.modulateDurationBy(vx);
+// addParameter(widthparameter = new BasicParameter("Width", .1));
+// //addParameter(huespread = new BasicParameter("bonk", .2));
// }
-public int c1c (float a) { return round(100*constrain(a,0,1)); }
+public int c1c (float a) { return round(100*constrain(a,0,1)); }
void setVibrationPeriod(double period){
-// to-do: make this conditional upon time signature
+// to-do: make this conditional upon time signature
this.vibration.setPeriod(period);
}
}
-float distfromcirclecenter(float px, float py, float pz, float f1x, float f1y, float f1z)
+float distfromcirclecenter(float px, float py, float pz, float f1x, float f1y, float f1z)
{
return dist(px, py, pz, f1x, f1y, f1z);
}
//void updatespherey(deltaMs, )
float quadrant(PVector q) {
- float qtheta = atan2( (q.x-f1xcenter) , (q.z - f1zcenter) );
- float qphi = acos( (q.z-f1zcenter)/(PVector.dist(q,circlecenter)) );
+ float qtheta = atan2( (q.x-f1xcenter) , (q.z - f1zcenter) );
+ float qphi = acos( (q.z-f1zcenter)/(PVector.dist(q,circlecenter)) );
return map(qtheta, -PI/2, PI/2, 200-huespread.getValuef(), 240+huespread.getValuef());
//if (q.x > f1xcenter ) {return 140 ;}
- //else {return 250;}
+ //else {return 250;}
}
// float noisesat(PVector q) {
- // return noise()
+ // return noise()
// }
color spheryvalue (PVector p) {
- circlecenter.set(this.f1xcenter, this.f1ycenter, this.f1zcenter);
+ circlecenter.set(this.f1xcenter, this.f1ycenter, this.f1zcenter);
-//switch(sShpape.cur() ) {}
+//switch(sShpape.cur() ) {}
float b = max(0, 100 - widthparameter.getValuef()*abs(p.dist(circlecenter)
- vibration.getValuef()) );
// constrain(100*noise(quadrant(p)), 0, 100),
100,
b
- );
+ );
}
color ellipsevalue(float px, float py, float pz , float f1xc, float f1yc, float f1zc, float f2xc, float f2yc, float f2zc)
{
-//switch(sShpape.cur() ) {}
- return lx.hsb(huespread.getValuef()*5*px, dist(model.xMax-px, model.yMax-py, model.zMax-pz, f1xc, f1yc, f1zc) ,
+//switch(sShpape.cur() ) {}
+ return lx.hsb(huespread.getValuef()*5*px, dist(model.xMax-px, model.yMax-py, model.zMax-pz, f1xc, f1yc, f1zc) ,
max(0, 100 - 100*widthparameter.getValuef() *
- abs( (dist(px, py, pz, f1xc, ybounce.getValuef(), f1zc) +
- (dist(px, py , pz, f2xc, ybounce.getValuef(), f2zc) ) )/2
- - 1.2*vibration.getValuef() ) ) ) ;
+ abs( (dist(px, py, pz, f1xc, ybounce.getValuef(), f1zc) +
+ (dist(px, py , pz, f2xc, ybounce.getValuef(), f2zc) ) )/2
+ - 1.2*vibration.getValuef() ) ) ) ;
}
-}
+}
boolean noteOn(Note note) {
int row = note.getPitch(), col = note.getChannel();
- // if (row == 57) {KeyPressed = col; return true; }
+ // if (row == 57) {KeyPressed = col; return true; }
return super.noteOn(note);
}
-// public boolean noteOn(Note note) {
-// pitch= note.getPitch();
+// public boolean noteOn(Note note) {
+// pitch= note.getPitch();
// velocity=note.getVelocity();
// channel=note.getChannel();
// return true;
// }
// public boolean gridPressed(int row, int col) {
-// pitch = row; channel = col;
-// cur = NumApcCols*(pitch-53)+col;
-// //setState(row, col, 0 ? 1 : 0);
+// pitch = row; channel = col;
+// cur = NumApcCols*(pitch-53)+col;
+// //setState(row, col, 0 ? 1 : 0);
// return true;
// }
//public grid
final Sphery[] spherys;
- SineSphere(LX lx)
+ SineSphere(LX lx)
{
super(lx);
- println("modelrad " + modelrad);
+ println("modelrad " + modelrad);
sinespin = new LXProjection(model);
sinespin2 = new LXProjection(model);
sinespin3= new LXProjection(model);
addParameter(vibration_magnitude);
addParameter(scale);
addModulator(yrot).trigger();
- addModulator(yrot2).trigger();
+ addModulator(yrot2).trigger();
addModulator(yrot3).trigger();
//Galaxy = addPick("Galaxy", 1, 3, new String[] {"home", "vertical","single","aquarium"});
STime =addPick("Time", 1, 4, new String[]{"half", "triplet", "beat", "2x", "3x" });
spherys = new Sphery[] {
new Sphery(model.xMax/4, model.yMax/2, model.zMax/2, modelrad/12, modelrad/25, 3000),
new Sphery(.75*model.xMax, model.yMax/2, model.zMax/2, modelrad/14, modelrad/28, 2000),
- new Sphery(model.cx, model.cy, model.cz, modelrad/5, modelrad/15, 2300),
+ new Sphery(model.cx, model.cy, model.cz, modelrad/5, modelrad/15, 2300),
new Sphery(.7*model.xMax, .65*model.yMax, .5*model.zMax, modelrad/11, modelrad/25, 3500),
new Sphery(.75*model.xMax, .8*model.yMax, .7*model.zMax, modelrad/12, modelrad/30, 2000)
-
-
-
-
- // new Sphery(model.xMax/4, model.yMax/2, model.zMax/2, modelrad/16, modelrad/8, 3000),
- // new Sphery(.75*model.xMax, model.yMax/2, model.zMax/2, modelrad/20, modelrad/10, 2000),
- // new Sphery(model.xMax/2, model.yMax/2, model.zMax/2, modelrad/4, modelrad/8, 2300),
-
- // new Sphery(.7*model.xMax, .65*model.yMax, .5*model.zMax, modelrad/14, modelrad/7, 3500),
- // new Sphery(.75*model.xMax, .8*model.yMax, .7*model.zMax, modelrad/20, modelrad/10, 2000),
- // new Sphery(model.xMax/2, model.yMax/2, model.zMax/2, modelrad/4, modelrad/8, 2300),
-
- };
+
+ };
}
// public void onParameterChanged(LXParameter parameter)
// {
-// for (Sphery s : spherys) {
-// if (s == null) continue;
-// double bampv = s.bounceamp.getValue();
-// double brv = s.bouncerate.getValue();
-// double tempobounce = lx.tempo.bpm();
-// if (parameter == s.bounceamp)
-// {
-// s.ybounce.setRange(bampv*model.yMax/3 , bampv*2*model.yMax/3, brv);
-// }
-// else if ( parameter == s.bouncerate )
-// {
-// s.ybounce.setDuration(120000./tempobounce);
-// }
-// }
-// }
+// for (Sphery s : spherys) {
+// if (s == null) continue;
+// double bampv = s.bounceamp.getValue();
+// double brv = s.bouncerate.getValue();
+// double tempobounce = lx.tempo.bpm();
+// if (parameter == s.bounceamp)
+// {
+// s.ybounce.setRange(bampv*model.yMax/3 , bampv*2*model.yMax/3, brv);
+// }
+// else if ( parameter == s.bouncerate )
+// {
+// s.ybounce.setDuration(120000./tempobounce);
+// }
+// }
+// }
public void run( double deltaMs) {
- float t = lx.tempo.rampf();
+ float t = lx.tempo.rampf();
float bpm = lx.tempo.bpmf();
float scalevalue = scale.getValuef();
int spherytime= STime.Cur();
switch (spherytime) {
- case 0: t = map(.5*t ,0,.5, 0,1); bpm = .5*bpm; break;
+ case 0: t = map(.5*t ,0,.5, 0,1); bpm = .5*bpm; break;
- case 1: t = t; bpm = bpm; break;
+ case 1: t = t; bpm = bpm; break;
- case 2: t = map(2*t,0,2,0,1); bpm = 2*bpm; break;
+ case 2: t = map(2*t,0,2,0,1); bpm = 2*bpm; break;
- default: t= t; bpm = bpm;
+ default: t= t; bpm = bpm;
}
//switch(sphery.colorscheme)
for ( Sphery s: spherys){
-
- //s.vibration.setBasis(t);
s.setVibrationPeriod(vibrationrate.getValuef());
- // s.setVibrationMagnitude(vibration_magnitude.getValuef());
+ // s.setVibrationMagnitude(vibration_magnitude.getValuef());
}
sinespin.reset()
- // Translate so the center of the car is the origin, offset
+ // Translate so the center of the car is the origin, offset
.center()
.scale(scalevalue, scalevalue, scalevalue)
// Rotate around the origin (now the center of the car) about an y-vector
.translate(model.cx,model.cy,model.cz);
for (LXVector p: sinespin2)
- { color c = 0;
+ { color c = 0;
// PVector P = new PVector(p.x, p.y, p.z);
P.set(p.x, p.y, p.z);
c = blendIfColor(c, spherys[3].spheryvalue(P),ADD);
colors[p.index] = blendIfColor(colors[p.index], c , ADD);
- }
+ }
sinespin3.reset()
.center()
.scale(scalevalue,scalevalue,scalevalue)
.rotate(yrot3.getValuef(),-1 + rotationx.getValuef(), rotationy.getValuef(), rotationz.getValuef())
.translate(model.cx, model.cy, model.cz);
for (LXVector p: sinespin3)
- { color c = 0;
+ { color c = 0;
// PVector P = new PVector(p.x, p.y, p.z);
P.set(p.x, p.y, p.z);
c = blendIfColor(c, spherys[4].spheryvalue(P),ADD);
}
- // color c = 0;
- // c = blendColor(c, spherys[3].ellipsevalue(Px.x, Px.y, Px.z, model.xMax/4, model.yMax/4, model.zMax/4, 3*model.xMax/4, 3*model.yMax/4, 3*model.zMax/4),ADD);
- // return c;
+ // color c = 0;
+ // c = blendColor(c, spherys[3].ellipsevalue(Px.x, Px.y, Px.z, model.xMax/4, model.yMax/4, model.zMax/4, 3*model.xMax/4, 3*model.yMax/4, 3*model.zMax/4),ADD);
+ // return c;
// }
// return lx.hsb(0,0,0);
- // // else if(spheremode ==2)
+ // // else if(spheremode ==2)
// { color c = 0;
- // return lx.hsb(CalcCone( (xyz by = new xyz(0,spherys[2].ybounce.getValuef(),0) ), Px, mid) );
+ // return lx.hsb(CalcCone( (xyz by = new xyz(0,spherys[2].ybounce.getValuef(),0) ), Px, mid) );
// }
- // }
+ // }
}
/*This just takes all of Dan Horwitz's code that I want to inherit and leaves the rest behind.
- A work in progress. */
+A work in progress. */
public class APat extends SCPattern
{
- ArrayList<Pick> picks = new ArrayList<Pick> ();
- ArrayList<DBool> bools = new ArrayList<DBool> ();
-
- PVector mMax, mCtr, mHalf;
-
- MidiOutput APCOut;
- int nMaxRow = 53;
- float LastJog = -1;
- float[] xWaveNz, yWaveNz;
- int nPoint , nPoints;
- PVector xyzJog = new PVector(), modmin;
-
- float NoiseMove = random(10000);
- BasicParameter pSpark, pWave, pRotX, pRotY, pRotZ, pSpin, pTransX, pTransY;
- DBool pXsym, pYsym, pRsym, pXdup, pXtrip, pJog, pGrey;
-
- float lxh () { return lx.getBaseHuef(); }
- int c1c (float a) { return round(100*constrain(a,0,1)); }
- float interpWv(float i, float[] vals) { return interp(i-floor(i), vals[floor(i)], vals[ceil(i)]); }
- void setNorm (PVector vec) { vec.set(vec.x/mMax.x, vec.y/mMax.y, vec.z/mMax.z); }
- void setRand (PVector vec) { vec.set(random(mMax.x), random(mMax.y), random(mMax.z)); }
- void setVec (PVector vec, LXPoint p) { vec.set(p.x, p.y, p.z); }
- void interpolate(float i, PVector a, PVector b) { a.set(interp(i,a.x,b.x), interp(i,a.y,b.y), interp(i,a.z,b.z)); }
- //void StartRun(double deltaMs) { }
- float val (BasicParameter p) { return p.getValuef(); }
- //color CalcPoint(PVector p) { return lx.hsb(0,0,0); }
- color blend3(color c1, color c2, color c3) { return blendColor(c1,blendColor(c2,c3,ADD),ADD); }
-
- void rotateZ (PVector p, PVector o, float nSin, float nCos) { p.set( nCos*(p.x-o.x) - nSin*(p.y-o.y) + o.x , nSin*(p.x-o.x) + nCos*(p.y-o.y) + o.y,p.z); }
- void rotateX (PVector p, PVector o, float nSin, float nCos) { p.set(p.x,nCos*(p.y-o.y) - nSin*(p.z-o.z) + o.y , nSin*(p.y-o.y) + nCos*(p.z-o.z) + o.z ); }
- void rotateY (PVector p, PVector o, float nSin, float nCos) { p.set( nSin*(p.z-o.z) + nCos*(p.x-o.x) + o.x,p.y, nCos*(p.z-o.z) - nSin*(p.x-o.x) + o.z ); }
-
- BasicParameter addParam(String label, double value) { BasicParameter p = new BasicParameter(label, value); addParameter(p); return p; }
-
- PVector vT1 = new PVector(), vT2 = new PVector();
- float calcCone (PVector v1, PVector v2, PVector c) { vT1.set(v1); vT2.set(v2); vT1.sub(c); vT2.sub(c);
+ ArrayList<Pick> picks = new ArrayList<Pick> ();
+ ArrayList<DBool> bools = new ArrayList<DBool> ();
+
+ PVector mMax, mCtr, mHalf;
+
+ MidiOutput APCOut;
+ int nMaxRow = 53;
+ float LastJog = -1;
+ float[] xWaveNz, yWaveNz;
+ int nPoint , nPoints;
+ PVector xyzJog = new PVector(), modmin;
+
+ float NoiseMove = random(10000);
+ BasicParameter pSpark, pWave, pRotX, pRotY, pRotZ, pSpin, pTransX, pTransY;
+ DBool pXsym, pYsym, pRsym, pXdup, pXtrip, pJog, pGrey;
+
+ float lxh () { return lx.getBaseHuef(); }
+ int c1c (float a) { return round(100*constrain(a,0,1)); }
+ float interpWv(float i, float[] vals) { return interp(i-floor(i), vals[floor(i)], vals[ceil(i)]); }
+ void setNorm (PVector vec) { vec.set(vec.x/mMax.x, vec.y/mMax.y, vec.z/mMax.z); }
+ void setRand (PVector vec) { vec.set(random(mMax.x), random(mMax.y), random(mMax.z)); }
+ void setVec (PVector vec, LXPoint p) { vec.set(p.x, p.y, p.z); }
+ void interpolate(float i, PVector a, PVector b) { a.set(interp(i,a.x,b.x), interp(i,a.y,b.y), interp(i,a.z,b.z)); }
+ void StartRun(double deltaMs) { }
+ float val (BasicParameter p) { return p.getValuef(); }
+ color CalcPoint(PVector p) { return lx.hsb(0,0,0); }
+ color blend3(color c1, color c2, color c3) { return blendColor(c1,blendColor(c2,c3,ADD),ADD); }
+
+ void rotateZ (PVector p, PVector o, float nSin, float nCos) { p.set( nCos*(p.x-o.x) - nSin*(p.y-o.y) + o.x , nSin*(p.x-o.x) + nCos*(p.y-o.y) + o.y,p.z); }
+ void rotateX (PVector p, PVector o, float nSin, float nCos) { p.set(p.x,nCos*(p.y-o.y) - nSin*(p.z-o.z) + o.y , nSin*(p.y-o.y) + nCos*(p.z-o.z) + o.z ); }
+ void rotateY (PVector p, PVector o, float nSin, float nCos) { p.set( nSin*(p.z-o.z) + nCos*(p.x-o.x) + o.x,p.y, nCos*(p.z-o.z) - nSin*(p.x-o.x) + o.z ); }
+
+ BasicParameter addParam(String label, double value) { BasicParameter p = new BasicParameter(label, value); addParameter(p); return p; }
+
+ PVector vT1 = new PVector(), vT2 = new PVector();
+ float calcCone (PVector v1, PVector v2, PVector c) { vT1.set(v1); vT2.set(v2); vT1.sub(c); vT2.sub(c);
return degrees(PVector.angleBetween(vT1,vT2)); }
- Pick addPick(String name, int def, int _max, String[] desc) {
- Pick P = new Pick(name, def, _max+1, nMaxRow, desc);
- nMaxRow = P.EndRow + 1;
+ Pick addPick(String name, int def, int _max, String[] desc) {
+ Pick P = new Pick(name, def, _max+1, nMaxRow, desc);
+ nMaxRow = P.EndRow + 1;
picks.add(P);
return P;
}
- boolean noteOff(Note note) {
+ boolean noteOff(Note note) {
int row = note.getPitch(), col = note.getChannel();
for (int i=0; i<bools.size(); i++) if (bools.get(i).set(row, col, false)) { presetManager.dirty(this); return true; }
updateLights(); return false;
}
- boolean noteOn(Note note) {
+ boolean noteOn(Note note) {
int row = note.getPitch(), col = note.getChannel();
- for (int i=0; i<picks.size(); i++) if (picks.get(i).set(row, col)) { presetManager.dirty(this); return true; }
- for (int i=0; i<bools.size(); i++) if (bools.get(i).set(row, col, true)) { presetManager.dirty(this); return true; }
- println("row: " + row + " col: " + col); return false;
+ for (int i=0; i<picks.size(); i++) if (picks.get(i).set(row, col)) { presetManager.dirty(this); return true; }
+ for (int i=0; i<bools.size(); i++) if (bools.get(i).set(row, col, true)) { presetManager.dirty(this); return true; }
+ println("row: " + row + " col: " + col); return false;
}
- void onInactive() { uiDebugText.setText(""); }
- void onReset() {
+ void onInactive() { uiDebugText.setText(""); }
+ void onReset() {
for (int i=0; i<bools .size(); i++) bools.get(i).reset();
for (int i=0; i<picks .size(); i++) picks.get(i).reset();
- presetManager.dirty(this);
- updateLights();
+ presetManager.dirty(this);
+ updateLights();
}
APat(LX lx) {
- nPoints = model.points.size();
- pXsym = new DBool("X-SYM", false, 48, 0); bools.add(pXsym );
- pYsym = new DBool("Y-SYM", false, 48, 1); bools.add(pYsym );
- pRsym = new DBool("R-SYM", false, 48, 2); bools.add(pRsym );
- pXdup = new DBool("X-DUP", false, 48, 3); bools.add(pXdup );
- pJog = new DBool("JOG" , false, 48, 4); bools.add(pJog );
- pGrey = new DBool("GREY" , false, 48, 5); bools.add(pGrey );
-
- modmin = new PVector(model.xMin, model.yMin, model.zMin);
- mMax = new PVector(model.xMax, model.yMax, model.zMax); mMax.sub(modmin);
- mCtr = new PVector(); mCtr.set(mMax); mCtr.mult(.5);
- mHalf = new PVector(.5,.5,.5);
- xWaveNz = new float[ceil(mMax.y)+1];
- yWaveNz = new float[ceil(mMax.x)+1];
-
- //println (model.xMin + " " + model.yMin + " " + model.zMin);
- //println (model.xMax + " " + model.yMax + " " + model.zMax);
+ nPoints = model.points.size();
+ pXsym = new DBool("X-SYM", false, 48, 0); bools.add(pXsym );
+ pYsym = new DBool("Y-SYM", false, 48, 1); bools.add(pYsym );
+ pRsym = new DBool("R-SYM", false, 48, 2); bools.add(pRsym );
+ pXdup = new DBool("X-DUP", false, 48, 3); bools.add(pXdup );
+ pJog = new DBool("JOG" , false, 48, 4); bools.add(pJog );
+ pGrey = new DBool("GREY" , false, 48, 5); bools.add(pGrey );
+
+ modmin = new PVector(model.xMin, model.yMin, model.zMin);
+ mMax = new PVector(model.xMax, model.yMax, model.zMax); mMax.sub(modmin);
+ mCtr = new PVector(); mCtr.set(mMax); mCtr.mult(.5);
+ mHalf = new PVector(.5,.5,.5);
+ xWaveNz = new float[ceil(mMax.y)+1];
+ yWaveNz = new float[ceil(mMax.x)+1];
+
+ //println (model.xMin + " " + model.yMin + " " + model.zMin);
+ //println (model.xMax + " " + model.yMax + " " + model.zMax);
//for (MidiOutputDevice o: RWMidi.getOutputDevices()) { if (o.toString().contains("APC")) { APCOut = o.createOutput(); break;}}
}
}
void updateLights() { if (APCOut == null) return;
- for (int i = 0; i < NumApcRows; ++i)
- for (int j = 0; j < 8; ++j) APCOut.sendNoteOn(j, 53+i, 0);
- for (int i=0; i<picks .size(); i++) APCOut.sendNoteOn(picks.get(i).CurCol, picks.get(i).CurRow, 3);
- for (int i=0; i<bools .size(); i++) if (bools.get(i).b) APCOut.sendNoteOn (bools.get(i).col, bools.get(i).row, 1);
- else APCOut.sendNoteOff (bools.get(i).col, bools.get(i).row, 0);
+ for (int i = 0; i < NumApcRows; ++i)
+ for (int j = 0; j < 8; ++j) APCOut.sendNoteOn(j, 53+i, 0);
+ for (int i=0; i<picks .size(); i++) APCOut.sendNoteOn(picks.get(i).CurCol, picks.get(i).CurRow, 3);
+ for (int i=0; i<bools .size(); i++) if (bools.get(i).b) APCOut.sendNoteOn (bools.get(i).col, bools.get(i).row, 1);
+ else APCOut.sendNoteOff (bools.get(i).col, bools.get(i).row, 0);
}
void run(double deltaMs)
if (this == midiEngine.getFocusedDeck().getActivePattern()) {
String Text1="", Text2="";
- for (int i=0; i<bools.size(); i++) if (bools.get(i).b) Text1 += " " + bools.get(i).tag + " ";
- for (int i=0; i<picks.size(); i++) Text1 += picks.get(i).tag + ": " + picks.get(i).CurDesc() + " ";
+ for (int i=0; i<bools.size(); i++) if (bools.get(i).b) Text1 += " " + bools.get(i).tag + " ";
+ for (int i=0; i<picks.size(); i++) Text1 += picks.get(i).tag + ": " + picks.get(i).CurDesc() + " ";
uiDebugText.setText(Text1, Text2);
}
-
+ NoiseMove += deltaMs; NoiseMove = NoiseMove % 1e7;
+ StartRun (deltaMs);
+ PVector P = new PVector(), tP = new PVector(), pSave = new PVector();
+ PVector pTrans = new PVector(val(pTransX)*200-100, val(pTransY)*100-50,0);
+ nPoint = 0;
+
+ if (pJog.b) {
+ float tRamp = (lx.tempo.rampf() % .25);
+ if (tRamp < LastJog) xyzJog.set(randctr(mMax.x*.2), randctr(mMax.y*.2), randctr(mMax.z*.2));
+ LastJog = tRamp;
+ }
+
+ // precalculate this stuff
+ float wvAmp = val(pWave), sprk = val(pSpark);
+ if (wvAmp > 0) {
+ for (int i=0; i<ceil(mMax.x)+1; i++)
+ yWaveNz[i] = wvAmp * (noise(i/(mMax.x*.3)-(2e3+NoiseMove)/1500.) - .5) * (mMax.y/2.);
+
+ for (int i=0; i<ceil(mMax.y)+1; i++)
+ xWaveNz[i] = wvAmp * (noise(i/(mMax.y*.3)-(1e3+NoiseMove)/1500.) - .5) * (mMax.x/2.);
+ }
+
+ for (LXPoint p : model.points) { nPoint++;
+ setVec(P,p);
+ P.sub(modmin);
+ P.sub(pTrans);
+ if (sprk > 0) {P.y += sprk*randctr(50); P.x += sprk*randctr(50); P.z += sprk*randctr(50); }
+ if (wvAmp > 0) P.y += interpWv(p.x-modmin.x, yWaveNz);
+ if (wvAmp > 0) P.x += interpWv(p.y-modmin.y, xWaveNz);
+ if (pJog.b) P.add(xyzJog);
+
+
+ color cNew, cOld = colors[p.index];
+ { tP.set(P); cNew = CalcPoint(tP); }
+ if (pXsym.b) { tP.set(mMax.x-P.x,P.y,P.z); cNew = blendColor(cNew, CalcPoint(tP), ADD); }
+ if (pYsym.b) { tP.set(P.x,mMax.y-P.y,P.z); cNew = blendColor(cNew, CalcPoint(tP), ADD); }
+ if (pRsym.b) { tP.set(mMax.x-P.x,mMax.y-P.y,mMax.z-P.z); cNew = blendColor(cNew, CalcPoint(tP), ADD); }
+ if (pXdup.b) { tP.set((P.x+mMax.x*.5)%mMax.x,P.y,P.z); cNew = blendColor(cNew, CalcPoint(tP), ADD); }
+ if (pGrey.b) { cNew = lx.hsb(0, 0, lx.b(cNew)); }
+ colors[p.index] = cNew;
+ }
}
}
float CH, CW, diag;
ArrayList<PVector> cubeorigin = new ArrayList<PVector>();
ArrayList<PVector> centerlist = new ArrayList<PVector>();
-private SinLFO curl = new SinLFO(0, Cube.EDGE_HEIGHT, 5000 );
+private SinLFO curl = new SinLFO(0, Cube.EDGE_HEIGHT, 5000 );
private SinLFO bg = new SinLFO(180, 220, 3000);
cubeorigin.add(new PVector(a.x, a.y, a.z));
centerlist.add(new PVector(a.cx, a.cy, a.cz) );
-}
+}
}
//there is definitely a better way of doing this!
-PVector centerofcube(int i) {
+PVector centerofcube(int i) {
Cube c = model.cubes.get(i);
PVector cubecenter = new PVector(c.cx, c.cy, c.cz);
void run(double deltaMs){
-for (int i =0; i < model.cubes.size(); i++) {
+for (int i =0; i < model.cubes.size(); i++) {
Cube c = model.cubes.get(i);
float cfloor = c.y;
-
+
// if (i%3 == 0){
// for (LXPoint p : c.points ){
-// // colors[p.index]=color(0,0,0);
-// //float dif = (p.y - c.y);
-// //colors[p.index] = color( bg.getValuef() , 80 , dif < curl.getValuef() ? 80 : 0, ADD);
-// }
-// }
+// // colors[p.index]=color(0,0,0);
+// //float dif = (p.y - c.y);
+// //colors[p.index] = color( bg.getValuef() , 80 , dif < curl.getValuef() ? 80 : 0, ADD);
+// }
+// }
// else if (i%3 == 1) {
-// for (LXPoint p: c.points){
-// colors[p.index]=color(0,0,0);
-// float dif = (p.y - c.y);
-// // colors[p.index] =
-// // color(bg.getValuef(),
-// // map(curl.getValuef(), 0, Cube.EDGE_HEIGHT, 20, 100),
-// // 100 - 10*abs(dif - curl.getValuef()), ADD );
-// }
-// }
+// for (LXPoint p: c.points){
+// colors[p.index]=color(0,0,0);
+// float dif = (p.y - c.y);
+// // colors[p.index] =
+// // color(bg.getValuef(),
+// // map(curl.getValuef(), 0, Cube.EDGE_HEIGHT, 20, 100),
+// // 100 - 10*abs(dif - curl.getValuef()), ADD );
+// }
+// }
// else if (i%3 == 2){
// centerlist[i].sub(cubeorigin(i);
for (LXPoint p: c.points) {
PVector pv = new PVector(p.x, p.y, p.z);
- colors[p.index] =color( constrain(4* pv.dist(centerlist.get(i)), 0, 360) , 50, 100 );
- // colors[p.index] =color(constrain(centerlist[i].x, 0, 360), constrain(centerlist[i].y, 0, 100), );
+ colors[p.index] =color( constrain(4* pv.dist(centerlist.get(i)), 0, 360) , 50, 100 );
+ // colors[p.index] =color(constrain(centerlist[i].x, 0, 360), constrain(centerlist[i].y, 0, 100), );
}
}
}
}
+ JGraphAdapterDemo graph1;
+
+
+// class SpinningCube extends SCPattern{
+// LXProjection spin1, spin2, spin3;
+// SawLFO
+
+//}
+
+
+
+
+
+class PixelGraph implements EdgeFactory<dPixel, dVertex> {
+
+dPixel p0; dPixel p1; dVertex v0;
+
+public dVertex createEdge(dPixel p0, dPixel p1) {
+
+ return v0;
+
+}
+
+
+}
+
+ class GraphTest extends SCPattern {
+ JGraphAdapterDemo graph1;
+
+GraphTest( LX lx) {super(lx); JGraphAdapterDemo graph1 = new JGraphAdapterDemo();}
+
+ void run(double deltaMs){
+ }
+}
+
+class SpinningCube extends SCPattern{
+
+ LXProjection spin1, spin2, spin3;
+ SawLFO spinx, spiny, spinz;
+ SinLFO spinx1, spiny1, spinz1, cubesize;
+ BasicParameter xoff = new BasicParameter("xoff", 10, 0, 100);
+ BasicParameter toff = new BasicParameter("toff", 10,0,1000);
+ BasicParameter huev = new BasicParameter("hue", 200, 0, 360);
+ BasicParameter density = new BasicParameter("density", 0, 0, 1);
+ BasicParameter Vsize = new BasicParameter("size", model.xMax/3,0, model.xMax);
+ VirtualCube V1, V2, V3;
+ PVector P = new PVector();
+ float noisetime=0.;
+ class VirtualCube {
+ float x,y,z,d;
+ PVector center;
+
+ VirtualCube(float x, float y, float z, float d) {
+ this.x=x;
+ this.y= y;
+ this.z=z;
+ this.d=d;
+ this.center=new PVector(x,y,z);
+ }
+
+ color getcolor(LXVector q) {
+ if ( q.x > this.x + d/2 || q.x < this.x - d/2 || q.y > this.y + d/2 || q.y < this.y - d/2 || q.z > this.z + d/2 || q.z < this.z - d/2 )
+ {return 0;}
+ else {
+ return lx.hsb(huev.getValuef()*noise(xoff.getValuef()*.001*noisetime ) , constrain(100*noise(xoff.getValuef()*.001*q.x*noisetime), 0, 100), max(100*(noise(xoff.getValuef()*.001*q.x*noisetime)-density.getValuef()), 0) );
+ }
+ }
+ void setcenter(float x, float y, float z) {this.x=x; this.y = y; this.z=z; }
+ void setsize(float din){ this.d=din ; }
+
+ }
+
+SpinningCube(LX lx) {
+ super(lx);
+ addParameter(xoff);
+ addParameter(toff);
+ addParameter(Vsize);
+ addParameter(huev);
+ addParameter(density);
+ //addModulator()
+ V1 = new VirtualCube(model.cx, model.cy, model.cz, model.xMax/2);
+ spinx= new SawLFO(0, TWO_PI, 8000);
+ spin1 = new LXProjection(model);
+
+}
+
+
+void run(double deltaMs) {
+
+ noisetime+= deltaMs*.0001*toff.getValuef();
+
+spin1.reset()
+.center()
+//.scale ()
+.rotate(spinx.getValuef(),0, 1, 0)
+.translate(model.cx, model.cy, model.cz);
+
+for (LXVector p: spin1) {
+ P.set(p.x, p.y, p.z);
+
+ colors[p.index] = V1.getcolor(p);
+
+}
+
+V1.setsize(Vsize.getValuef());
+
+
+};
+
+
+}
+
+
+
+
+
class HueTestHSB extends SCPattern{
BasicParameter HueT = new BasicParameter("Hue", .5);
int now= millis();
if (now % 1000 <= 20)
{
- println("Hue: " + 360*HueT.getValuef() + "Sat: " + 100*SatT.getValuef() + "Bright: " + 100*BriT.getValuef());
+ println("Hue: " + 360*HueT.getValuef() + "Sat: " + 100*SatT.getValuef() + "Bright: " + 100*BriT.getValuef());
}
}
repositories / SugarCubes.git / commitdiff
