more bug fixes

[SugarCubes.git] / DanHorwitz.pde

//----------------------------------------------------------------------------------------------------------------------------------
public class Pong extends DPat {
        SinLFO x,y,z,dx,dy,dz; 
        float cRad;     _DhP pSize;
        Pick  pChoose;

        Pong(GLucose glucose) {
                super(glucose);
                cRad = xdMax/15;
                addModulator(dx = new SinLFO(6000,  500, 30000  )).trigger();
                addModulator(dy = new SinLFO(3000,  500, 22472  )).trigger();
                addModulator(dz = new SinLFO(1000,  500, 18420  )).trigger();
                addModulator(x  = new SinLFO(cRad, xdMax - cRad, 0)).trigger(); x.modulateDurationBy(dx);
                addModulator(y  = new SinLFO(cRad, ydMax - cRad, 0)).trigger(); y.modulateDurationBy(dy);
                addModulator(z  = new SinLFO(cRad, zdMax - cRad, 0)).trigger(); z.modulateDurationBy(dz);
            pSize       = addParam      ("Size"                 , 0.4   );
            pChoose = addPick   ("Animiation"   , 0     , 3, new String[] {"Pong", "Ball", "Cone"}      );
        }

        void    StartRun(double deltaMs)        { cRad = xdMax*pSize.Val()/6; }
        color   CalcPoint(xyz p)                {
                xyz v = new xyz(x.getValuef(), y.getValuef(), z.getValuef());
                switch(pChoose.Cur()) {
                case 0: return color(0,0,c1c(1 - min(v.distance(p), v.distance(xyzdMax.minus(p)))*.5/cRad));                    // balls
                case 1: return color(0,0,c1c(1 - v.distance(p)*.5/cRad));                                                                                               // ball
                case 2: return color(0,0,c1c(1 - CalcCone(p,v,new xyz(xdMax/2,0,zdMax/2)) * max(.02,.45-pSize.Val())));  // spot
                }
                return color(0,0,0);
        }               
}
//----------------------------------------------------------------------------------------------------------------------------------
public class NDat {
        float   xz, yz, zz, hue, sat, speed, angle, den;
        float   xoff,yoff,zoff;
        float   sinAngle, cosAngle;
        boolean isActive;
        NDat              () { isActive=false; }
        boolean Active() { return isActive; }
        void    set     (float _hue, float _sat, float _xz, float _yz, float _zz, float _den, float _speed, float _angle) {
                isActive = true;
                hue=_hue; sat=_sat; xz=_xz; yz=_yz; zz =_zz; den=_den; speed=_speed; angle=_angle;
                xoff = random(100e3); yoff = random(100e3); zoff = random(100e3);
        }
}

public class Noise extends DPat
{
        int                     CurAnim, iSymm;
        int             XSym=1,YSym=2,RadSym=3;
        float           zTime   = random(10000), zTheta=0, zSin, zCos;
        float           rtime   = 0, ttime      = 0, transAdd=0;
        _DhP            pSpeed , pDensity, pRotZ;
        Pick            pChoose, pSymm;
        int                     _ND = 4;
        NDat            N[] = new NDat[_ND];

        Noise(GLucose glucose) {
                super(glucose);
                pRotZ   = addParam("RotZ"        , .5 );        pSpeed          = addParam("Fast", .55);
                pDensity= addParam("Dens"        , .5);
                pSymm   = addPick("Symmetry" , 0, 4, new String[] {"None", "X", "Y", "Radial"}  );
                pChoose = addPick("Animation", 1, 6, new String[] {"Drip", "Cloud", "Rain", "Fire", "Machine", "Spark"} );
                for (int i=0; i<_ND; i++) N[i] = new NDat();
        }

        void StartRun(double deltaMs) {
                zTime   += deltaMs*(pSpeed.Val()-.5)*.002       ;
                zTheta  += deltaMs*(pRotZ .Val()-.5)*.01        ;
                rtime   += deltaMs;
                iSymm    = pSymm.Cur();
                transAdd = 1*(1 - constrain(rtime - ttime,0,1000)/1000);
                zSin    = sin(zTheta);
                zCos    = cos(zTheta);

                if (pChoose.Cur() != CurAnim) {
                        CurAnim = pChoose.Cur(); ttime = rtime;
                        pRotZ           .reset();       zTheta          = 0;
                        pDensity        .reset();       pSpeed          .reset();       
                        for (int i=0; i<_ND; i++) { N[i].isActive = false; }
                        
                        switch(CurAnim) {
                        //                          hue sat xz  yz  zz  den mph angle
                        case 0: N[0].set(0  ,0  ,75 ,75 ,150,45 ,3  ,0  ); pSharp.Set(1 ); break;       // drip
                        case 1: N[0].set(0  ,0  ,100,100,200,45 ,3  ,180); pSharp.Set(0 ); break;       // clouds
                        case 2: N[0].set(0  ,0  ,2  ,400,2  ,20 ,3  ,0  ); pSharp.Set(.5); break;       // rain
                        case 3: N[0].set(40 ,1  ,100,100,200,10 ,1  ,180); 
                                        N[1].set(0  ,1  ,100,100,200,10 ,5  ,180); pSharp.Set(0 ); break;       // fire 1
                        case 4: N[0].set(0  ,1  ,40 ,40 ,40 ,15 ,2.5,180);
                                        N[1].set(20 ,1  ,40 ,40 ,40 ,15 ,4  ,0  );
                                        N[2].set(40 ,1  ,40 ,40 ,40 ,15 ,2  ,90 );
                                        N[3].set(60 ,1  ,40 ,40 ,40 ,15 ,3  ,-90); pSharp.Set(.5); break; // machine
                        case 5: N[0].set(0  ,1  ,400,100,2  ,15 ,3  ,90 );
                                        N[1].set(20 ,1  ,400,100,2  ,15 ,2.5,0  );
                                        N[2].set(40 ,1  ,100,100,2  ,15 ,2  ,180);
                                        N[3].set(60 ,1  ,100,100,2  ,15 ,1.5,270); pSharp.Set(.5); break; // spark
                        }

                        DG.UpdateLights();
                }
                
                for (int i=0; i<_ND; i++) if (N[i].Active()) {
                        N[i].sinAngle = sin(radians(N[i].angle));
                        N[i].cosAngle = cos(radians(N[i].angle));
                }
        }

        color CalcPoint(xyz P) {
                color c = 0;
                P.RotateZ(xyzMid, zSin, zCos);
                
                if (iSymm == XSym && P.x > xdMax/2) P.x = xdMax-P.x;
                if (iSymm == YSym && P.y > ydMax/2) P.y = ydMax-P.y;

                for (int i=0;i<_ND; i++) if (N[i].Active()) {
                        NDat  n     = N[i];
                        float zx    = zTime * n.speed * n.sinAngle,
                                  zy    = zTime * n.speed * n.cosAngle;
                        
                        float b     = (iSymm==RadSym ? noise(zTime*n.speed+n.xoff-Dist(P,xyzMid)/n.xz)
                                                                                 : noise(P.x/n.xz+zx+n.xoff,P.y/n.yz+zy+n.yoff,P.z/n.zz+n.zoff))
                                                        *1.8;

                        b +=    n.den/100 -.4 + pDensity.Val() -1;
                        b +=    transAdd;
                        c =     blendColor(c,color(n.hue,100*n.sat,c1c(b)),ADD);
                }
                return c;
        }
}
//----------------------------------------------------------------------------------------------------------------------------------
public class Play extends DPat
{
        int             nBeats  =       0;
        _DhP    pAmp, pRad;
        _DhP    pRotX, pRotY, pRotZ;
        xyz             Theta   = new xyz();
        xyz             TSin    = new xyz();
        xyz             TCos    = new xyz();
        
        Pick    pTimePattern, pTempoMult, pShape, pForm;
        int             RandCube;

        Play(GLucose glucose) {
                super(glucose);
                pRotX           = addParam("RotX", .5);
                pRotY           = addParam("RotY", .5);
                pRotZ           = addParam("RotZ", .5);
            pAmp                = addParam("Amp" , .2);
            pRad                = addParam("Rad"        , .1            );
                pTempoMult      = addPick ("TMult"      , 0 , 6         , new String[] {"1x", "2x", "4x", "8x", "16x", "Rand"   }       );
                pTimePattern= addPick ("TPat"   , 0 , 5         , new String[] {"Bounce", "Sin", "Roll", "Quant", "Accel"       }       );
                pShape          = addPick ("Shape"      , 0 , 10        , new String[] {"Line", "Tap", "V", "RandV", "Pyramid",
                                                                                                                                        "Wings", "W2", "Sphere", "Cone", "Noise" }      );
                pForm           = addPick ("Form"       , 0 , 3         , new String[] {"Bar", "Volume", "Fade"                                 }       );
        }

        float   t,a;
        xyz             cPrev = new xyz(), cCur = new xyz(), cMid = new xyz(), cMidNorm;
        float   LastBeat=3, LastMeasure=3;
        int             CurRandTempo = 1;

        void StartRun(double deltaMs) {
                t = lx.tempo.rampf();
                a = pAmp.Val();

                Theta   .set(pRotX.Val()*PI*2, pRotY.Val()*PI*2, pRotZ.Val()*PI*2);
                TSin    .set(sin(Theta.x), sin(Theta.y), sin(Theta.z));
                TCos    .set(cos(Theta.x), cos(Theta.y), cos(Theta.z));

                if (t<LastMeasure) { CurRandTempo = int(random(4)); } LastMeasure = t;

                switch (pTempoMult.Cur()) {
                        case 0:         t = t;                                                          break;
                        case 1:         t = (t*2. )%1.;                                         break;
                        case 2:         t = (t*4. )%1.;                                         break;
                        case 3:         t = (t*8. )%1.;                                         break;
                        case 4:         t = (t*16.)%1.;                                         break;
                        case 5:         t = (t*pow(2,CurRandTempo))%1.;         break;
                }

                if (t<LastBeat) { cPrev = cCur; cCur = cCur.setRand(); } LastBeat = t;

                switch (pTimePattern.Cur()) {
                        case 0:         t = sin(PI*t);                                          break;
                        case 1:         t = norm(sin(2*PI*(t+PI/2)),-1,1);      break;
                        case 2:         t = t;                                                          break;
                        case 3:         t = constrain(int(t*8)/7.,0,1);         break;
                        case 4:         t = t*t*t;                                                      break;
                }

                
                cMid                            = cPrev.interpolate(t,cCur);
                cMidNorm                        = cMid.setNorm();
        }

        color CalcPoint(xyz Px) {
                xyz V           =                       new xyz();
                xyz P           =                       Px.setNorm();
                if (Theta.x != 0)               P.RotateX(xyzHalf, TSin.x, TCos.x);
                if (Theta.y != 0)               P.RotateY(xyzHalf, TSin.y, TCos.y);
                if (Theta.z != 0)               P.RotateZ(xyzHalf, TSin.z, TCos.z);

                float mp        = min(P.x, P.z);
                float yt        = map(t,0,1,.5-a/2,.5+a/2);

                switch (pShape.Cur()) {
                        case 0:         V.set(P.x, yt                                                     , P.z);                                                       break;  // bouncing line
                        case 1:         V.set(P.x, map(cos(PI*t * P.x),-1,1,0,1)  , P.z);                                                       break;  // top tap
                        case 2:         V.set(P.x, a*map(P.x<.5?P.x:1-P.x,0,.5 ,0,t-.5)+.5, P.z);                                       break;  // V shape
                        case 3:         V.set(P.x, P.x < cMidNorm.x ? map(P.x,0,cMidNorm.x, .5,yt) :
                                                                                                          map(P.x,cMidNorm.x,1, yt,.5), P.z);                   break;  //  Random V shape

                        case 4:         V.set(P.x,      .5*(P.x < cMidNorm.x ?  map(P.x,0,cMidNorm.x, .5,yt) :
                                                                                                                        map(P.x,cMidNorm.x,1, yt,.5)) +
                                                                        .5*(P.z < cMidNorm.z ?  map(P.z,0,cMidNorm.z, .5,yt) :
                                                                                                                        map(P.z,cMidNorm.z,1, yt,.5)), P.z);    break;  //  Random Pyramid shape
                                                                                                                        
                        case 5:         V.set(P.x, a*map((P.x-.5)*(P.x-.5),0,.25,0,t-.5)+.5, P.z);                                      break;  // wings
                        case 6:         V.set(P.x, a*map((mp -.5)*(mp -.5),0,.25,0,t-.5)+.5, P.z);                                      break;  // wings

                        case 7:         V.set(cMid.x,cMid.y,cMid.z);
                                                return color(0,0,c1c(1 - (V.distance(Px) > (pRad.getValuef()+.1)*150?1:0)) );           // sphere

                        case 8:         V.set(cMid.x,cMid.y,cMid.z);
                                                return color(0,0,c1c(1 - CalcCone(Px,V,xyzMid) * 0.02 > .5?1:0));                                       // cone

                        case 9:         return color(100 + noise(P.x,P.y,P.z + (NoiseMove+50000)/1000.)*200,
                                                        85,c1c(P.y < noise(P.x + NoiseMove/2000.,P.z)*(1+a)-a/2.-.1 ? 1 : 0));                  //
                }


                switch (pForm.Cur()) {
                        case 0:         return color(0,0,c1c(1 - V.distance(P)/pRad.getValuef() > .5?1:0));
                        case 1:         return color(0,0,c1c(P.y < V.y ?1:0));
                        case 2:         return color(0,0,c1c(1 - V.distance(P)/pRad.getValuef()));

                        default:        return color(0,0,c1c(P.y < V.y ?1:0));
                }
        }
}
//----------------------------------------------------------------------------------------------------------------------------------