beesandbombs/trefoils.pde

## trefoils.pde
int[][] result;
float t, c;

float ease(float p) {
  return 3*p*p - 2*p*p*p;
}

float ease(float p, float g) {
  if (p < 0.5)
    return 0.5 * pow(2*p, g);
  else
    return 1 - 0.5 * pow(2*(1 - p), g);
}

float mn = .5*sqrt(3), ia = atan(sqrt(.5));

void push() {
  pushMatrix();
  pushStyle();
}

void pop() {
  popStyle();
  popMatrix();
}

float c01(float g) {
  return constrain(g, 0, 1);
}

void draw() {

  if (!recording) {
    t = mouseX*1.0/width;
    c = mouseY*1.0/height;
    if (mousePressed)
      println(c);
    draw_();
  } else {
    for (int i=0; i<width*height; i++)
      for (int a=0; a<3; a++)
        result[i][a] = 0;

    c = 0;
    for (int sa=0; sa<samplesPerFrame; sa++) {
      t = map(frameCount-1 + sa*shutterAngle/samplesPerFrame, 0, numFrames, 0, 1);
      draw_();
      loadPixels();
      for (int i=0; i<pixels.length; i++) {
        result[i][0] += pixels[i] >> 16 & 0xff;
        result[i][1] += pixels[i] >> 8 & 0xff;
        result[i][2] += pixels[i] & 0xff;
      }
    }

    loadPixels();
    for (int i=0; i<pixels.length; i++)
      pixels[i] = 0xff << 24 |
        int(result[i][0]*1.0/samplesPerFrame) << 16 |
        int(result[i][1]*1.0/samplesPerFrame) << 8 |
        int(result[i][2]*1.0/samplesPerFrame);
    updatePixels();

    saveFrame("f###.gif");
    if (frameCount==numFrames)
      exit();
  }
}

//////////////////////////////////////////////////////////////////////////////

int samplesPerFrame = 4;
int numFrames = 900;
float shutterAngle = .4;

boolean recording = false;

void setup() {
  size(720, 720, P3D);
  pixelDensity(recording ? 1 : 2);
  smooth(8);
  result = new int[width*height][3];
  rectMode(CENTER);
  stroke(32);
  noFill();
  ortho();
}

float x, y, z, tt;
int N = 360;
float r = 84, th;
float off;
float sw;

float x(float q){
  return sin(q) + 2*sin(2*q);
}

float xp(float q){  // dx/dq
  return cos(q) + 4*cos(2*q);
}

float y(float q){
  return cos(q) - 2*cos(2*q);
}

float yp(float q){
  return -sin(q) -4*sin(2*q);
}

float xpn(float q){  // normalized
  return xp(q)/dist(xp(q),yp(q),0,0);
}

float ypn(float q){
  return yp(q)/dist(xp(q),yp(q),0,0);
}
float z(float q){
  return sin(3*q);
}

void knot(float of, float q, int i_){
  stroke(32);
  beginShape();
    for (int i=0; i<N; i++) {
      th = TWO_PI*i/N;
      x = r*x(th) + of*ypn(th);
      y = r*y(th) + of*xpn(th);
      z = r*z(th);
      sw = map(cos(th+TWO_PI*q),1,-1,0,1);
      sw = lerp(2.5,8.5,ease(c01(3.5*sw-2.5),7));
      strokeWeight(sw);
      vertex(x, y, z);
    }
    endShape(CLOSE);

    push();
    translate(0,0,-1);
    stroke(250);
    beginShape();
    for (int i=0; i<N; i++) {
      th = TWO_PI*i/N;
      x = r*x(th) + of*ypn(th);
      y = r*y(th) + of*xpn(th);
      z = r*z(th);
      sw = map(cos(th+TWO_PI*q),1,-1,0,1);
      sw = lerp(2.5,8.5,ease(c01(3.5*sw-2.5),7));
      strokeWeight(sw + 5);
      vertex(x, y, z);
    }
    endShape(CLOSE);
    pop();
}

void draw_() {
  background(250);
  push();
  translate(width/2, height/2 + 28);
  scale(-1,1,1);
  for (int a=-4; a<5; a++) {
    off = 15*(a-.5);
    knot(off,(a+5)*t, a+5);
  }
  pop();
}
	int[][] result;
	float t, c;

	float ease(float p) {
	return 3pp - 2pp*p;
	}

	float ease(float p, float g) {
	if (p < 0.5)
	return 0.5 * pow(2*p, g);
	else
	return 1 - 0.5 * pow(2*(1 - p), g);
	}

	float mn = .5*sqrt(3), ia = atan(sqrt(.5));

	void push() {
	pushMatrix();
	pushStyle();
	}

	void pop() {
	popStyle();
	popMatrix();
	}

	float c01(float g) {
	return constrain(g, 0, 1);
	}

	void draw() {

	if (!recording) {
	t = mouseX*1.0/width;
	c = mouseY*1.0/height;
	if (mousePressed)
	println(c);
	draw_();
	} else {
	for (int i=0; i<width*height; i++)
	for (int a=0; a<3; a++)
	result[i][a] = 0;

	c = 0;
	for (int sa=0; sa<samplesPerFrame; sa++) {
	t = map(frameCount-1 + sa*shutterAngle/samplesPerFrame, 0, numFrames, 0, 1);
	draw_();
	loadPixels();
	for (int i=0; i<pixels.length; i++) {
	result[i][0] += pixels[i] >> 16 & 0xff;
	result[i][1] += pixels[i] >> 8 & 0xff;
	result[i][2] += pixels[i] & 0xff;
	}
	}

	loadPixels();
	for (int i=0; i<pixels.length; i++)
	pixels[i] = 0xff << 24 \|
	int(result[i][0]*1.0/samplesPerFrame) << 16 \|
	int(result[i][1]*1.0/samplesPerFrame) << 8 \|
	int(result[i][2]*1.0/samplesPerFrame);
	updatePixels();

	saveFrame("f###.gif");
	if (frameCount==numFrames)
	exit();
	}
	}

	//////////////////////////////////////////////////////////////////////////////

	int samplesPerFrame = 4;
	int numFrames = 900;
	float shutterAngle = .4;

	boolean recording = false;

	void setup() {
	size(720, 720, P3D);
	pixelDensity(recording ? 1 : 2);
	smooth(8);
	result = new int[width*height][3];
	rectMode(CENTER);
	stroke(32);
	noFill();
	ortho();
	}

	float x, y, z, tt;
	int N = 360;
	float r = 84, th;
	float off;
	float sw;

	float x(float q){
	return sin(q) + 2sin(2q);
	}

	float xp(float q){ // dx/dq
	return cos(q) + 4cos(2q);
	}

	float y(float q){
	return cos(q) - 2cos(2q);
	}

	float yp(float q){
	return -sin(q) -4sin(2q);
	}

	float xpn(float q){ // normalized
	return xp(q)/dist(xp(q),yp(q),0,0);
	}

	float ypn(float q){
	return yp(q)/dist(xp(q),yp(q),0,0);
	}
	float z(float q){
	return sin(3*q);
	}

	void knot(float of, float q, int i_){
	stroke(32);
	beginShape();
	for (int i=0; i<N; i++) {
	th = TWO_PI*i/N;
	x = rx(th) + ofypn(th);
	y = ry(th) + ofxpn(th);
	z = r*z(th);
	sw = map(cos(th+TWO_PI*q),1,-1,0,1);
	sw = lerp(2.5,8.5,ease(c01(3.5*sw-2.5),7));
	strokeWeight(sw);
	vertex(x, y, z);
	}
	endShape(CLOSE);

	push();
	translate(0,0,-1);
	stroke(250);
	beginShape();
	for (int i=0; i<N; i++) {
	th = TWO_PI*i/N;
	x = rx(th) + ofypn(th);
	y = ry(th) + ofxpn(th);
	z = r*z(th);
	sw = map(cos(th+TWO_PI*q),1,-1,0,1);
	sw = lerp(2.5,8.5,ease(c01(3.5*sw-2.5),7));
	strokeWeight(sw + 5);
	vertex(x, y, z);
	}
	endShape(CLOSE);
	pop();
	}

	void draw_() {
	background(250);
	push();
	translate(width/2, height/2 + 28);
	scale(-1,1,1);
	for (int a=-4; a<5; a++) {
	off = 15*(a-.5);
	knot(off,(a+5)*t, a+5);
	}
	pop();
	}