-class SineSphere extends DPat {
+class SineSphere extends SCPattern {
+ private SawLFO yrot = new SawLFO(0, TWO_PI, 3000);
+ private SawLFO yrot2 = new SawLFO(0, -TWO_PI, 8000);
+ public final Projection sinespin;
+ public final Projection sinespin2;
+ private BasicParameter rotation = new BasicParameter("rotation", 0);
float modelrad = sqrt((model.xMax)*(model.xMax) + (model.yMax)*(model.yMax) + (model.zMax)*(model.zMax));
- //PVector modelcenter = new PVector(model.xMax, model.yMax, model.zMax);
Pick Sshape;
class Sphery {
public BasicParameter huespread;
public BasicParameter bouncerate;
public BasicParameter bounceamp;
+ public PVector circlecenter;
this.vibration_min = vibration_min;
this.vibration_max = vibration_max;
this.vperiod = vperiod;
- addParameter(bounceamp = new BasicParameter("Amp", .5));
- addParameter(bouncerate = new BasicParameter("Rate", .5)); //ybounce.modulateDurationBy(bouncerate);
+ //addParameter(bounceamp = new BasicParameter("Amp", .5));
+ //addParameter(bouncerate = new BasicParameter("Rate", .5)); //ybounce.modulateDurationBy(bouncerate);
addParameter(widthparameter = new BasicParameter("Width", .1));
- addParameter(huespread = new BasicParameter("Hue", .2));
-
+ addParameter(huespread = new BasicParameter("Hue", .5, 10));
+
addModulator( vx = new SinLFO(-4000, 10000, 100000)).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./lx.tempo.bpm())).trigger(); //ybounce.modulateDurationBy
}
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;
return dist(px, py, pz, f1x, f1y, f1z);
}
//void updatespherey(deltaMs, )
- color spheryvalue (float px, float py, float pz , float f1xc, float f1yc, float f1zc)
- {
+
+ float quadrant(PVector q) {
+ float qtheta = atan2( (q.x-f1xcenter) , (q.z - f1zcenter) );
+ //println( "qtheta " + qtheta);
+
+ return map(qtheta, -PI/2, PI/2, 140, 240);
+ //if (q.x > f1xcenter ) {return 140 ;}
+ //else {return 250;}
+ }
+ color spheryvalue (PVector p, float f1xcenter, float f1ycenter, float f1zcenter)
+ { circlecenter = new PVector(f1xcenter, f1ycenter, f1zcenter);
//switch(sShpape.cur() ) {}
- return color(constrain(huespread.getValuef()*5*px, 0, 360) , dist(px, py, pz, f1xc, f1yc, f1zc) ,
- max(0, 100 - 100*widthparameter.getValuef()*abs(dist(px, py, pz, f1xcenter, ybounce.getValuef(), f1zcenter)
+ return lx.hsb(constrain( huespread.getValuef()*5*quadrant(p), 0, 360) ,
+ 80,
+ max(0, 100 - 100*widthparameter.getValuef()*abs(PVector.dist(p, circlecenter)
- vibration.getValuef() ) ) );
}
color ellipsevalue(float px, float py, float pz , float f1xc, float f1yc, float f1zc, float f2xc, float f2yc, float f2zc)
{
//switch(sShpape.cur() ) {}
- return color(huespread.getValuef()*5*px, dist(model.xMax-px, model.yMax-py, model.zMax-pz, f1xc, f1yc, f1zc) ,
+ 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() ) ) ) ;
}
-
- void run(int deltaMS) { };
+void run(double deltaMs) {
+ float vv = vibration.getValuef();
+ float ybv = ybounce.getValuef();
+
+ }
}
final Sphery[] spherys;
+
SineSphere(GLucose glucose)
{
super(glucose);
+ sinespin = new Projection(model);
+ sinespin2 = new Projection(model);
+ addModulator(yrot).trigger();
+ addModulator(yrot2).trigger();
+ addParameter(rotation);
//Sshape = addPick("Shape", , 1);
spherys = new Sphery[] {
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(.3*model.xMax, .4*model.yMax, .6*model.zMax, modelrad/16, modelrad/8, 4000),
+ 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),
+
};
}
// }
// }
- void StartRun(int deltaMs) {
+ public void run( double deltaMs) {
float t = lx.tempo.rampf();
float bpm = lx.tempo.bpmf();
- //spherys[1].run(deltaMs);
- //spherys[2].run(deltaMs);
- //spherys[3].run(deltaMs);
-
-
+ spherys[0].run(deltaMs);
+ spherys[1].run(deltaMs);
+ spherys[2].run(deltaMs);
+ spherys[3].run(deltaMs);
+
+ sinespin.reset(model)
+
+
+ // Translate so the center of the car is the origin, offset
+ .translateCenter(model, 0, 0, 0)
+ // .scale(1.3,1.3,1.3)
+ // Rotate around the origin (now the center of the car) about an y-vector
+ .rotate(yrot.getValuef(), 0, 1 , 0)
+ .translate(model.cx, model.cy, model.cz);
+
+
+
+
+
+ for (Coord p: sinespin)
+ // for (Point p: model.points)
+ {
+ PVector P = new PVector(p.x, p.y, p.z);
+ color c = 0;
+ c = blendColor(c, spherys[1].spheryvalue(P, .75*model.xMax, model.yMax/2, model.zMax/2), ADD);
+ c = blendColor(c, spherys[0].spheryvalue(P, model.xMax/4, model.yMax/4, model.zMax/2), ADD);
+ c = blendColor(c, spherys[2].spheryvalue(P, model.xMax/2, model.yMax/2, model.zMax/2),ADD);
+
+
+ colors[p.index] = lx.hsb(lx.h(c), lx.s(c), lx.b(c));
+
+
+ }
+ sinespin2.reset(model).
+ translateCenter(model,0,0,0).
+ rotate(yrot2.getValuef(), 0, 1, 0).
+ translate(model.cx,model.cy,model.cz);
+
+ for (Coord p: sinespin2)
+ { color c = 0;
+ PVector P = new PVector(p.x, p.y, p.z);
+ c = blendColor(c, spherys[3].spheryvalue(P, .3*model.xMax, .7*model.yMax, .6*model.zMax),ADD);
+
+ colors[p.index] = blendColor(colors[p.index], c , ADD);
+
+ }
+
}
- int spheremode = 0;
- // void keyPressed() {
- // spheremode++;
- // }
-
- color CalcPoint(xyz Px)
- {
- // if (spheremode == 0 )
- //{
- color c = 0;
- c = blendColor(c, spherys[1].spheryvalue(Px.x, Px.y, Px.z, .75*model.xMax, model.yMax/2, model.zMax/2), ADD);
- c = blendColor(c, spherys[0].spheryvalue(Px.x, Px.y, Px.z, model.xMax/4, model.yMax/4, model.zMax/2), ADD);
- c = blendColor(c, spherys[2].spheryvalue(Px.x, Px.y, Px.z, model.xMax/2, model.yMax/2, model.zMax/2),ADD);
- return c;
- //}
- // else if (spheremode == 1)
- // {
// 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 color(0,0,0);
+ // return lx.hsb(0,0,0);
// // else if(spheremode ==2)
// { color c = 0;
- // return color(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) );
// }
- }
+ // }
}
addModulator(bg).trigger();
this.CH = Cube.EDGE_HEIGHT;
this.CW = Cube.EDGE_WIDTH;
- this.diag = sqrt(CH*CH + CW*CW + CW*CW);
+ this.diag = sqrt(CW*CW + CW*CW);
ArrayList<PVector> centerlistrelative = new ArrayList<PVector>();
for (int i = 0; i < model.cubes.size(); i++){
Cube a = model.cubes.get(i);
cubeorigin.add(new PVector(a.x, a.y, a.z));
- centerlist.add(centerofcube(i));
+ centerlist.add(new PVector(a.cx, a.cy, a.cz) );
}
//there is definitely a better way of doing this!
PVector centerofcube(int i) {
Cube c = model.cubes.get(i);
-PVector cubeangle = new PVector(c.rx, c.ry, c.rz);
-println("raw x" + cubeangle.x + "raw y" + cubeangle.y + "raw z" + cubeangle.z);
-cubeangle.normalize();
-println( "norm"+ cubeangle.x + "norm" + cubeangle.y +"norm" + cubeangle.z);
-PVector cubecenter = PVector.add(cubeorigin.get(i), PVector.mult(cubeangle, diag));
-
-//PVector cubecenter = new PVector(c.x+ CW/2, c.y + CH/2, c.z + CW/2);
-//println("cubecenter raw" + " : " + cubecenter.x + " " + cubecenter.y + " " + cubecenter.z );
-//PVector cubecenterf = new PVector(cubecenter.x + cos(c.ry)*CW/2, cubecenter.y , cubecenter.z - tan(c.ry) * CW/2);
-//println("cubecenter angled" + " : " + cubecenterf.x + " " + cubecenterf.y + " " + cubecenterf.z );
+
+println(" cube #: " + i + " c.x " + c.x + " c.y " + c.y + " c.z " + c.z );
+// PVector cubeangle = new PVector(c.rx, c.ry, c.rz);
+println("raw x angle: " + c.rx + "raw y angle: " + c.ry + "raw z angle: " + c.rz);
+PVector cubecenter = new PVector(c.x + CW/2, c.y + CH/2, c.z + CW/2);
+println("cubecenter unrotated: " + cubecenter.x + " " +cubecenter.y + " " +cubecenter.z );
+PVector centerrot = new PVector(cos(c.rx)*CW/2 - sin(c.rx)*CW/2, cubecenter.y, cos(c.rz)*CW/2 + sin(c.rz)*CW/2);
+ // nCos*(y-o.y) - nSin*(z-o.z) + o.y
+cubecenter = PVector.add(new PVector(c.x, c.y, c.z), centerrot);
+println( " cubecenter.x " + cubecenter.x + " cubecenter.y " + cubecenter.y + " cubecenter.z " + cubecenter.z + " ");
+
+
return cubecenter;
}
Cube c = model.cubes.get(i);
float cfloor = c.y;
-if (i%3 == 0){
+// if (i%3 == 0){
-for (Point 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);
- }
- }
+// for (Point 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);
+// }
+// }
-else if (i%3 == 1) {
+// else if (i%3 == 1) {
- for (Point 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){
+// for (Point 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 (Point p: c.points) {
PVector pv = new PVector(p.x, p.y, p.z);
- colors[p.index] =color( constrain(5*pv.dist(centerlist.get(i)), 0, 360) , 50, 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), );
}
- }
+ //}
}
}
for (Point p : model.points) {
color c = 0;
- c = blendColor(c, color(360*HueT.getValuef(), 100*SatT.getValuef(), 100*BriT.getValuef()), ADD);
+ c = blendColor(c, lx.hsb(360*HueT.getValuef(), 100*SatT.getValuef(), 100*BriT.getValuef()), ADD);
colors[p.index]= c;
}
int now= millis();
}
}
- }
\ No newline at end of file
+ }