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proposed new lattice, plus dpat changes
[SugarCubes.git] / DanHorwitz.pde
1 //----------------------------------------------------------------------------------------------------------------------------------
2 public class Pong extends DPat {
3 SinLFO x,y,z,dx,dy,dz;
4 float cRad; DParam pSize;
5 Pick pChoose;
6 xyz v = new xyz(), vMir = new xyz();
7
8 Pong(GLucose glucose) {
9 super(glucose);
10 cRad = mMax.x/10;
11 addModulator(dx = new SinLFO(6000, 500, 30000 )).trigger();
12 addModulator(dy = new SinLFO(3000, 500, 22472 )).trigger();
13 addModulator(dz = new SinLFO(1000, 500, 18420 )).trigger();
14 addModulator(x = new SinLFO(cRad, mMax.x - cRad, 0)).trigger(); x.modulateDurationBy(dx);
15 addModulator(y = new SinLFO(cRad, mMax.y - cRad, 0)).trigger(); y.modulateDurationBy(dy);
16 addModulator(z = new SinLFO(cRad, mMax.z - cRad, 0)).trigger(); z.modulateDurationBy(dz);
17 pSize = addParam ("Size" , 0.4 );
18 pChoose = addPick ("Animiation" , 0, 2, new String[] {"Pong", "Ball", "Cone"} );
19 }
20
21 void StartRun(double deltaMs) { cRad = mMax.x*pSize.Val()/6; }
22 color CalcPoint(xyz p) {
23 v.set(x.getValuef(), y.getValuef(), z.getValuef());
24 v.z=0;p.z=0;// ignore z dimension
25 switch(pChoose.Cur()) {
26 case 0: vMir.set(mMax); vMir.subtract(p);
27 return color(0,0,c1c(1 - min(v.distance(p), v.distance(vMir))*.5/cRad)); // balls
28 case 1: return color(0,0,c1c(1 - v.distance(p)*.5/cRad)); // ball
29 case 2: vMir.set(mMax.x/2,0,mMax.z/2);
30 return color(0,0,c1c(1 - CalcCone(p,v,vMir) * max(.02,.45-pSize.Val()))); // spot
31 }
32 return color(0,0,0);
33 }
34 }
35 //----------------------------------------------------------------------------------------------------------------------------------
36 public class NDat {
37 float xz, yz, zz, hue, sat, speed, angle, den;
38 float xoff,yoff,zoff;
39 float sinAngle, cosAngle;
40 boolean isActive;
41 NDat () { isActive=false; }
42 boolean Active() { return isActive; }
43 void set (float _hue, float _sat, float _xz, float _yz, float _zz, float _den, float _speed, float _angle) {
44 isActive = true;
45 hue=_hue; sat=_sat; xz=_xz; yz=_yz; zz =_zz; den=_den; speed=_speed; angle=_angle;
46 xoff = random(100e3); yoff = random(100e3); zoff = random(100e3);
47 }
48 }
49
50 public class Noise extends DPat
51 {
52 int CurAnim, iSymm;
53 int XSym=1,YSym=2,RadSym=3;
54 float zTime , zTheta=0, zSin, zCos, rtime, ttime, transAdd;
55 DParam pSpeed , pDensity;
56 Pick pChoose, pSymm;
57 int _ND = 4;
58 NDat N[] = new NDat[_ND];
59
60 Noise(GLucose glucose) {
61 super(glucose);
62 pSpeed = addParam("Fast" , .55);
63 pDensity = addParam("Dens" , .5);
64 pSymm = addPick("Symmetry" , 0, 3, new String[] {"None", "X", "Y", "Radial"} );
65 pChoose = addPick("Animation", 6, 7, new String[] {"Drip", "Cloud", "Rain", "Fire", "Machine", "Spark","VWave", "Wave"} );
66 for (int i=0; i<_ND; i++) N[i] = new NDat();
67 }
68
69 void StartPattern() { zTime = random(500); zTheta=0; rtime = 0; ttime = 0; transAdd=0; }
70 void StartRun(double deltaMs) {
71 zTime += deltaMs*(pSpeed.Val()-.5)*.002 ;
72 zTheta += deltaMs*(pSpin .Val()-.5)*.01 ;
73 rtime += deltaMs;
74 iSymm = pSymm.Cur();
75 transAdd = 1*(1 - constrain(rtime - ttime,0,1000)/1000);
76 zSin = sin(zTheta);
77 zCos = cos(zTheta);
78
79 if (pChoose.Cur() != CurAnim) {
80 CurAnim = pChoose.Cur(); ttime = rtime;
81 pSpin .reset(); zTheta = 0;
82 pDensity .reset(); pSpeed .reset();
83 for (int i=0; i<_ND; i++) { N[i].isActive = false; }
84
85 switch(CurAnim) {
86 // hue sat xz yz zz den mph angle
87 case 0: N[0].set(0 ,0 ,75 ,75 ,150,45 ,3 ,0 ); pSharp.set(1 ); break; // drip
88 case 1: N[0].set(0 ,0 ,100,100,200,45 ,3 ,180); pSharp.set(0 ); break; // clouds
89 case 2: N[0].set(0 ,0 ,2 ,400,2 ,20 ,3 ,0 ); pSharp.set(.5); break; // rain
90 case 3: N[0].set(40 ,1 ,100,100,200,10 ,1 ,180);
91 N[1].set(0 ,1 ,100,100,200,10 ,5 ,180); pSharp.set(0 ); break; // fire 1
92 case 4: N[0].set(0 ,1 ,40 ,40 ,40 ,15 ,2.5,180);
93 N[1].set(20 ,1 ,40 ,40 ,40 ,15 ,4 ,0 );
94 N[2].set(40 ,1 ,40 ,40 ,40 ,15 ,2 ,90 );
95 N[3].set(60 ,1 ,40 ,40 ,40 ,15 ,3 ,-90); pSharp.set(.5); break; // machine
96 case 5: N[0].set(0 ,1 ,400,100,2 ,15 ,3 ,90 );
97 N[1].set(20 ,1 ,400,100,2 ,15 ,2.5,0 );
98 N[2].set(40 ,1 ,100,100,2 ,15 ,2 ,180);
99 N[3].set(60 ,1 ,100,100,2 ,15 ,1.5,270); pSharp.set(.5); break; // spark
100 }
101
102 DG.UpdateLights();
103 }
104
105 for (int i=0; i<_ND; i++) if (N[i].Active()) {
106 N[i].sinAngle = sin(radians(N[i].angle));
107 N[i].cosAngle = cos(radians(N[i].angle));
108 }
109 }
110
111 color CalcPoint(xyz P) {
112 color c = 0;
113 P.RotateZ(mCtr, zSin, zCos);
114
115 if (CurAnim == 6 || CurAnim == 7) {
116 P.setNorm();
117 return color(0,0, 100 * (
118 constrain(1-50*(1-pDensity.Val())*abs(P.y-sin(zTime*10 + P.x*(300))*.5 - .5),0,1) +
119 (CurAnim == 7 ? constrain(1-50*(1-pDensity.Val())*abs(P.x-sin(zTime*10 + P.y*(300))*.5 - .5),0,1) : 0))
120 );
121 }
122
123 if (iSymm == XSym && P.x > mMax.x/2) P.x = mMax.x-P.x;
124 if (iSymm == YSym && P.y > mMax.y/2) P.y = mMax.y-P.y;
125
126 for (int i=0;i<_ND; i++) if (N[i].Active()) {
127 NDat n = N[i];
128 float zx = zTime * n.speed * n.sinAngle,
129 zy = zTime * n.speed * n.cosAngle;
130
131 float b = (iSymm==RadSym ? noise(zTime*n.speed+n.xoff-Dist(P,mCtr)/n.xz)
132 : noise(P.x/n.xz+zx+n.xoff,P.y/n.yz+zy+n.yoff,P.z/n.zz+n.zoff))
133 *1.8;
134
135 b += n.den/100 -.4 + pDensity.Val() -1;
136 b += transAdd;
137 c = blendColor(c,color(n.hue,100*n.sat,c1c(b)),ADD);
138 }
139 return c;
140 }
141 }
142 //----------------------------------------------------------------------------------------------------------------------------------
143 public class Play extends DPat
144 {
145 public class rAngle {
146 float prvA, dstA, c;
147 float prvR, dstR, r;
148 float _cos, _sin, x, y;
149 float fixAngle (float a, float b) { return a<b ?
150 (abs(a-b) > abs(a+2*PI-b) ? a : a+2*PI) :
151 (abs(a-b) > abs(a-2*PI-b) ? a : a-2*PI) ; }
152 float getX(float r) { return mCtr.x + _cos*r; }
153 float getY(float r) { return mCtr.y + _sin*r; }
154 void move() { c = interp(t,prvA,dstA);
155 r = interp(t,prvR,dstR);
156 _cos = cos(c); _sin = sin(c);
157 x = getX(r); y = getY(r); }
158 void set() { prvA = dstA; dstA = random(2*PI); prvA = fixAngle(prvA, dstA);
159 prvR = dstR; dstR = random(mCtr.y); }
160 }
161
162 int nBeats = 0;
163 DParam pAmp, pRadius, pBounce;
164
165 float t,amp,rad,bnc;
166 float zTheta=0;
167 ArrayList<rWave> waves = new ArrayList<rWave>(10);
168
169 rAngle a1 = new rAngle(), a2 = new rAngle(),
170 a3 = new rAngle(), a4 = new rAngle();
171 xyz cPrev = new xyz(), cRand = new xyz(),
172 cMid = new xyz(), V = new xyz(),
173 Theta = new xyz(), TSin = new xyz(),
174 TCos = new xyz(), cMidNorm = new xyz(),
175 Pn = new xyz();
176 float LastBeat=3, LastMeasure=3;
177 int CurRandTempo = 1, CurRandTPat = 1;
178
179 Pick pTimePattern, pTempoMult, pShape;
180 int RandCube;
181
182 Play(GLucose glucose) {
183 super(glucose);
184 pRadius = addParam("Rad" , .1 );
185 pBounce = addParam("Bnc" , .2 );
186 pAmp = addParam("Amp" , .2 );
187 pTempoMult = addPick ("TMult" , 0 , 5 , new String[] {"1x", "2x", "4x", "8x", "16x", "Rand" } );
188 pTimePattern= addPick ("TPat" , 6 , 7 , new String[] {"Bounce", "Sin", "Roll", "Quant", "Accel", "Deccel", "Slide", "Rand"} ); pShape = addPick ("Shape" , 3 , 15 , new String[] {"Line", "Tap", "V", "RandV",
189 "Pyramid", "Wings", "W2", "Clock",
190 "Triangle", "Quad", "Sphere", "Cone",
191 "Noise", "Wave", "?", "?"} );
192 }
193
194 public class rWave {
195 float v0, a0, x0, t,damp,a;
196 boolean bDone=false;
197 final float len=8;
198 rWave(float _x0, float _a0, float _v0, float _damp) { x0=_x0*len; a0=_a0; v0=_v0; t=0; damp = _damp; }
199 void move(double deltaMs) {
200 t += deltaMs*.001;
201 if (t>4) bDone=true;
202 }
203 float val(float _x) {
204 _x*=len;
205 float dist = t*v0 - abs(_x-x0);
206 if (dist<0) { a=1; return 0; }
207 a = a0*exp(-dist*damp) * exp(-abs(_x-x0)/(.2*len)); // * max(0,1-t/dur)
208 return -a*sin(dist);
209 }
210 }
211
212 void StartPattern() { zTheta=0; }
213 void StartRun(double deltaMs) {
214 t = lx.tempo.rampf();
215 amp = pAmp.Val();
216 rad = pRadius.getValuef();
217 bnc = pBounce.getValuef();
218 zTheta += deltaMs*(pSpin .Val()-.5)*.01;
219
220 Theta .set(pRotX.Val()*PI*2, pRotY.Val()*PI*2, pRotZ.Val()*PI*2 + zTheta);
221 TSin .set(sin(Theta.x), sin(Theta.y), sin(Theta.z));
222 TCos .set(cos(Theta.x), cos(Theta.y), cos(Theta.z));
223
224 if (t<LastMeasure) {
225 if (random(3) < 1) { CurRandTempo = int(random(4)); if (CurRandTempo == 3) CurRandTempo = int(random(4)); }
226 if (random(3) < 1) { CurRandTPat = pShape.Cur() > 6 ? 2+int(random(5)) : int(random(7)); }
227 } LastMeasure = t;
228
229 int nTempo = pTempoMult .Cur(); if (nTempo == 5) nTempo = CurRandTempo;
230 int nTPat = pTimePattern.Cur(); if (nTPat == 7) nTPat = CurRandTPat ;
231
232 switch (nTempo) {
233 case 0: t = t; break;
234 case 1: t = (t*2. )%1.; break;
235 case 2: t = (t*4. )%1.; break;
236 case 3: t = (t*8. )%1.; break;
237 case 4: t = (t*16.)%1.; break;
238 }
239
240 int i=0; while (i< waves.size()) {
241 rWave w = waves.get(i);
242 w.move(deltaMs); if (w.bDone) waves.remove(i); else i++;
243 }
244
245 if ((t<LastBeat && !pKey.b) || DG.KeyPressed>-1) {
246 waves.add(new rWave(
247 pKey.b ? map(DG.KeyPressed,0,7,0,1) : random(1), // location
248 bnc*10, // bounciness
249 7, // velocity
250 2*(1-amp))); // dampiness
251 DG.KeyPressed=-1;
252 if (waves.size() > 5) waves.remove(0);
253 }
254
255 if (t<LastBeat) {
256 cPrev.set(cRand); cRand.setRand();
257 a1.set(); a2.set(); a3.set(); a4.set();
258 } LastBeat = t;
259
260 switch (nTPat) {
261 case 0: t = sin(PI*t); break; // bounce
262 case 1: t = norm(sin(2*PI*(t+PI/2)),-1,1); break; // sin
263 case 2: t = t; break; // roll
264 case 3: t = constrain(int(t*8)/7.,0,1); break; // quant
265 case 4: t = t*t*t; break; // accel
266 case 5: t = sin(PI*t*.5); break; // deccel
267 case 6: t = .5*(1-cos(PI*t)); break; // slide
268 }
269
270 cMid.set (cPrev); cMid.interpolate (t,cRand);
271 cMidNorm.set (cMid); cMidNorm.setNorm();
272 a1.move(); a2.move(); a3.move(); a4.move();
273 }
274
275 color CalcPoint(xyz Px) {
276 if (Theta.x != 0) Px.RotateX(mCtr, TSin.x, TCos.x);
277 if (Theta.y != 0) Px.RotateY(mCtr, TSin.y, TCos.y);
278 if (Theta.z != 0) Px.RotateZ(mCtr, TSin.z, TCos.z);
279
280 Pn.set(Px); Pn.setNorm();
281
282 float mp = min(Pn.x, Pn.z);
283 float yt = map(t,0,1,.5-bnc/2,.5+bnc/2);
284 float r,d;
285
286 switch (pShape.Cur()) {
287 case 0: V.set(Pn.x, yt , Pn.z); break; // bouncing line
288 case 1: V.set(Pn.x, map(cos(PI*t * Pn.x),-1,1,0,1) , Pn.z); break; // top tap
289 case 2: V.set(Pn.x, bnc*map(Pn.x<.5?Pn.x:1-Pn.x,0,.5 ,0,t-.5)+.5, Pn.z); break; // V shape
290 case 3: V.set(Pn.x, Pn.x < cMidNorm.x ? map(Pn.x,0,cMidNorm.x, .5,yt) :
291 map(Pn.x,cMidNorm.x,1, yt,.5), Pn.z); break; // Random V shape
292
293 case 4: V.set(Pn.x, .5*(Pn.x < cMidNorm.x ? map(Pn.x,0,cMidNorm.x, .5,yt) :
294 map(Pn.x,cMidNorm.x,1, yt,.5)) +
295 .5*(Pn.z < cMidNorm.z ? map(Pn.z,0,cMidNorm.z, .5,yt) :
296 map(Pn.z,cMidNorm.z,1, yt,.5)), Pn.z); break; // Random Pyramid shape
297
298 case 5: V.set(Pn.x, bnc*map((Pn.x-.5)*(Pn.x-.5),0,.25,0,t-.5)+.5, Pn.z); break; // wings
299 case 6: V.set(Pn.x, bnc*map((mp -.5)*(mp -.5),0,.25,0,t-.5)+.5, Pn.z); break; // wings
300
301 case 7: d = min(
302 distToSeg(Px.x, Px.y, a1.getX(70),a1.getY(70), mCtr.x, mCtr.y),
303 distToSeg(Px.x, Px.y, a2.getX(40),a2.getY(40), mCtr.x, mCtr.y));
304 d = constrain(30*(rad*40-d),0,100);
305 return color(0,max(0,150-d), d); // clock
306
307 case 8: r = amp*200 * map(bnc,0,1,1,sin(PI*t));
308 d = min(
309 distToSeg(Px.x, Px.y, a1.getX(r),a1.getY(r), a2.getX(r),a2.getY(r)),
310 distToSeg(Px.x, Px.y, a2.getX(r),a2.getY(r), a3.getX(r),a3.getY(r)),
311 distToSeg(Px.x, Px.y, a3.getX(r),a3.getY(r), a1.getX(r),a1.getY(r)) // triangle
312 );
313 d = constrain(30*(rad*40-d),0,100);
314 return color(0,max(0,150-d), d); // clock
315
316 case 9: r = amp*200 * map(bnc,0,1,1,sin(PI*t));
317 d = min(
318 distToSeg(Px.x, Px.y, a1.getX(r),a1.getY(r), a2.getX(r),a2.getY(r)),
319 distToSeg(Px.x, Px.y, a2.getX(r),a2.getY(r), a3.getX(r),a3.getY(r)),
320 distToSeg(Px.x, Px.y, a3.getX(r),a3.getY(r), a4.getX(r),a4.getY(r)),
321 distToSeg(Px.x, Px.y, a4.getX(r),a4.getY(r), a1.getX(r),a1.getY(r)) // quad
322 );
323 d = constrain(30*(rad*40-d),0,100);
324 return color(0,max(0,150-d), d); // clock
325
326 case 10:
327 r = map(bnc,0,1,a1.r,amp*200*sin(PI*t));
328 return color(0,0,c1c(.9+2*rad - dist(Px.x,Px.y,a1.getX(r),a1.getY(r))*.03) ); // sphere
329
330 case 11:
331 Px.z=mCtr.z; cMid.z=mCtr.z;
332 return color(0,0,c1c(1 - CalcCone(Px,cMid,mCtr) * 0.02 > .5?1:0)); // cone
333
334 case 12: return color(100 + noise(Pn.x,Pn.y,Pn.z + (NoiseMove+50000)/1000.)*200,
335 85,c1c(Pn.y < noise(Pn.x + NoiseMove/2000.,Pn.z)*(1+amp)-amp/2.-.1 ? 1 : 0)); // noise
336
337 case 13: float y=0; for (rWave w : waves) y += .5*w.val(Pn.x);
338 V.set(Pn.x, .7+y, Pn.z);
339 break;
340
341 default: return color(0,0,0);
342 }
343
344 return color(0,
345 150-c1c(1 - V.distance(Pn)/rad),
346 c1c(1 - V.distance(Pn)/rad));
347 }
348 }
349 //----------------------------------------------------------------------------------------------------------------------------------
Last FOSS code of SugarCubes - http://symmetrylabs.com/