tsulej · September 30, 2016 09:27
diff --git a/object2_mccc_sep16.pde b/object2_mccc_sep16.pde
 // The Object 2
 //
 // GenerateMe submission to MCCC Sep 2016

 // [email protected]
 // http://generateme.tumblr.com/
 // http://folds2d.tumblr.com/

 LowpassFilter lpf1, lpf2, lpf3;

 void setup() {
  size(540,540);
  smooth(0);
  noFill();
  noStroke();
  background(20);
  noiseSeed(1000);
  
  lpf1 = new LowpassFilter(100.0, 20.0);
  lpf2 = new LowpassFilter(100.0, 10.0 );
  lpf3 = new LowpassFilter(100.0, 5.0);
 }

 float t = 0; // time
 float stept = TWO_PI/50.0; // time step

 float min_phase = -0.087;
 float max_phase = 0.087;
 float omega = TWO_PI * 0.0099;
 int quantval = 0;

 void draw() {
  fill( 100, 200, 255, 200);
  ellipse(270,270,sin(t)*400,map(cos(t),-1,1,100,400));
  fill( 255, 200, 100, 200);
  ellipse(270,270,cos(t+1)*200,tan(t-1)*200);
  
  // FM stuff
  PImage img = get();
  img.loadPixels();
  loadPixels();
  
  // separate channels
  int[][]pxls = new int[3][img.pixels.length];
  for (int i=0; i<img.pixels.length; i++) {
    int cl = img.pixels[i];
    pxls[0][i] = (cl >> 16) & 0xff;
    pxls[1][i] = (cl >> 8) & 0xff;
    pxls[2][i] = (cl) & 0xff;
  }

 for (int i=0; i<3; i++) {
  float nn = 5*noise(sin(t),i/10.0);
    for (int y=0; y<height; y++) {
      int off = y * width;
      
      //reset filters each line 
      lpf1.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));
      lpf2.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));
      lpf3.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));

      float sig_int = 0; // integral of the signal
      float pre_m = 0; // previous value of modulated signal

      for (int x=0; x<width; x++) {
        
        /////////////////////////
        // FM part starts here
        /////////////////////////
        
        float sig = map(pxls[i][x+off], 0, 255, min_phase, max_phase); // current signal value
        sig_int += sig; // current value of signal integral

        float m = cos(omega * x + sig_int + nn); // modulate signal

        if(random(1)<0.00001) m = random(-2,2);

        if ( quantval > 0) { 
          m = map((int)map(m, -1, 1, 0, quantval), 0, quantval, -1, 1); // quantize
        }

        float dem = abs(m-pre_m); // demodulate signal, derivative
        pre_m = m; // remember current value

        // lowpass filter chain
        dem = lpf1.lowpass(dem);
        dem = lpf2.lowpass(dem);
        dem = lpf3.lowpass(dem);

        // remap signal back to channel value
        int v = constrain( (int)map(2*(dem-omega), min_phase, max_phase, 0, 255), 0, 255);
        
        //////////////////////
        // FM part ends here
        //////////////////////
        
        pxls[i][x+off] = v;
      }
    }
  }
  
  for (int i=0; i<pixels.length; i++) {
    pixels[i] = 0xff000000 | (pxls[0][i] << 16) |  (pxls[1][i] << 8) |  (pxls[2][i]);
  }

  updatePixels();

  // adjust step
  t+=stept;
  // due to blurs, save after first loop
  if (t>=TWO_PI && t<2*TWO_PI) {
    saveFrame("res/######.png");
  }
 }

 class LowpassFilter {
  float alpha;
  float prev;

  public LowpassFilter(float rate, float hz) {
    alpha = 0.0;
    prev = 0.0;
    setFilter(rate, hz);
  }

  void setFilter(float rate, float hz) {
    float timeInterval = 1.0/rate;
    float tau = 1.0 / (hz * TWO_PI);
    alpha = timeInterval / (tau + timeInterval);
  }

  void resetFilter(float val) { 
    prev = val;
  }

  void resetFilter() { 
    resetFilter(0);
  }

  float lowpass(float sample) {
    float stage1 = sample * alpha;
    float stage2 = prev - (prev * alpha);
    prev = (stage1 + stage2);
    return prev;
  }

  float highpass(float sample) {
    return sample - lowpass(sample);
  }
 }
	// The Object 2
	//
	// GenerateMe submission to MCCC Sep 2016

	// [email protected]
	// http://generateme.tumblr.com/
	// http://folds2d.tumblr.com/

	LowpassFilter lpf1, lpf2, lpf3;

	void setup() {
	size(540,540);
	smooth(0);
	noFill();
	noStroke();
	background(20);
	noiseSeed(1000);

	lpf1 = new LowpassFilter(100.0, 20.0);
	lpf2 = new LowpassFilter(100.0, 10.0 );
	lpf3 = new LowpassFilter(100.0, 5.0);
	}

	float t = 0; // time
	float stept = TWO_PI/50.0; // time step

	float min_phase = -0.087;
	float max_phase = 0.087;
	float omega = TWO_PI * 0.0099;
	int quantval = 0;

	void draw() {
	fill( 100, 200, 255, 200);
	ellipse(270,270,sin(t)*400,map(cos(t),-1,1,100,400));
	fill( 255, 200, 100, 200);
	ellipse(270,270,cos(t+1)200,tan(t-1)200);

	// FM stuff
	PImage img = get();
	img.loadPixels();
	loadPixels();

	// separate channels
	int[][]pxls = new int[3][img.pixels.length];
	for (int i=0; i<img.pixels.length; i++) {
	int cl = img.pixels[i];
	pxls[0][i] = (cl >> 16) & 0xff;
	pxls[1][i] = (cl >> 8) & 0xff;
	pxls[2][i] = (cl) & 0xff;
	}

	for (int i=0; i<3; i++) {
	float nn = 5*noise(sin(t),i/10.0);
	for (int y=0; y<height; y++) {
	int off = y * width;

	//reset filters each line
	lpf1.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));
	lpf2.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));
	lpf3.resetFilter(map(pxls[i][off], 0, 255, min_phase, max_phase));

	float sig_int = 0; // integral of the signal
	float pre_m = 0; // previous value of modulated signal

	for (int x=0; x<width; x++) {

	/////////////////////////
	// FM part starts here
	/////////////////////////

	float sig = map(pxls[i][x+off], 0, 255, min_phase, max_phase); // current signal value
	sig_int += sig; // current value of signal integral

	float m = cos(omega * x + sig_int + nn); // modulate signal

	if(random(1)<0.00001) m = random(-2,2);

	if ( quantval > 0) {
	m = map((int)map(m, -1, 1, 0, quantval), 0, quantval, -1, 1); // quantize
	}

	float dem = abs(m-pre_m); // demodulate signal, derivative
	pre_m = m; // remember current value

	// lowpass filter chain
	dem = lpf1.lowpass(dem);
	dem = lpf2.lowpass(dem);
	dem = lpf3.lowpass(dem);

	// remap signal back to channel value
	int v = constrain( (int)map(2*(dem-omega), min_phase, max_phase, 0, 255), 0, 255);

	//////////////////////
	// FM part ends here
	//////////////////////

	pxls[i][x+off] = v;
	}
	}
	}

	for (int i=0; i<pixels.length; i++) {
	pixels[i] = 0xff000000 \| (pxls[0][i] << 16) \| (pxls[1][i] << 8) \| (pxls[2][i]);
	}

	updatePixels();

	// adjust step
	t+=stept;
	// due to blurs, save after first loop
	if (t>=TWO_PI && t<2*TWO_PI) {
	saveFrame("res/######.png");
	}
	}

	class LowpassFilter {
	float alpha;
	float prev;

	public LowpassFilter(float rate, float hz) {
	alpha = 0.0;
	prev = 0.0;
	setFilter(rate, hz);
	}

	void setFilter(float rate, float hz) {
	float timeInterval = 1.0/rate;
	float tau = 1.0 / (hz * TWO_PI);
	alpha = timeInterval / (tau + timeInterval);
	}

	void resetFilter(float val) {
	prev = val;
	}

	void resetFilter() {
	resetFilter(0);
	}

	float lowpass(float sample) {
	float stage1 = sample * alpha;
	float stage2 = prev - (prev * alpha);
	prev = (stage1 + stage2);
	return prev;
	}

	float highpass(float sample) {
	return sample - lowpass(sample);
	}
	}