jeffThompson/RandomPath.pde

## RandomPath.pde

/*
RANDOM PATH
Jeff Thompson | 2017 | jeffreythompson.org

Generates a random path between two predefined points.

*/

import java.util.Date;                // imports for timestamp
import java.text.SimpleDateFormat;


float lineLen =      20;            // length of segments
float maxAngle =     radians(90);   // range of random angle towards end
float noiseInc =     0.01;          // increment in Perlin noise
float minDistToEnd = 50;            // how close to the end before we quit?

float noiseOffset = 0;             // current position in Perlin noise
PVector end;                       // target point


void setup() {
  size(1000, 1000);
  background(30);

  // create end point at center of screen
  end = new PVector(width/2, height/2);

  // create random paths to the center!
  for (int i=0; i<20; i++) {
    randomPath();
  }

  // draw the end point
  fill(0,150,255);
  noStroke();
  ellipse(end.x, end.y, 10,10);
}


void draw() {
  // nothing here!
}


// 's' to save the frame, any other key re-draws new random paths
void keyPressed() {
  if (key == 's') {
    String filename = new SimpleDateFormat("yyyy-MM-dd_HH-mm-ss'.jpg'").format(new Date());
    save("output/" + filename);
  }
  else {
    setup();
  }
}


void randomPath() {

  // create random starting point
  PVector start = new PVector(random(50, width-50), random(50, height-50));
  PVector current = start.copy();

  // start line
  stroke(255, 150);
  noFill();
  beginShape();
  vertex(current.x, current.y);

  // run until we hit the endpoint!
  int i=0;
  while (true) {

    // compute angle b/w current position and the end point
    float xDist = end.x - current.x;
    float yDist = end.y - current.y;
    float between = atan2(yDist, xDist);

    // use Perlin noise to compute a random value (0-1), change
    // to range of the maxAngle (this makes the line vary instead of
    // heading straight towards the endpoint!)
    float newAngle = between + (noise(noiseOffset) * maxAngle - maxAngle/2);

    // calculate new x/y position based on the angle, draw a line
    float x = current.x + cos(newAngle) * lineLen;
    float y = current.y + sin(newAngle) * lineLen;
    vertex(x, y);

    // update current position to the end of the line, figure
    // out how far we have left to go
    current = new PVector(x, y);
    float distLeft = PVector.dist(current, end);

    // if we're near the endpoint, draw a line to the end and quit
    if (distLeft <= minDistToEnd) {
      line(current.x, current.y, end.x, end.y);
      break;
    }

    // update count and Perlin noise variables, continue
    i += 1;
    noiseOffset += noiseInc;
  }

  // finish the shape!
  endShape();

  // draw the starting point on top
  fill(255,150,0);
  noStroke();
  ellipse(start.x, start.y, 10,10);
}

	/*
	RANDOM PATH
	Jeff Thompson \| 2017 \| jeffreythompson.org

	Generates a random path between two predefined points.

	*/

	import java.util.Date; // imports for timestamp
	import java.text.SimpleDateFormat;


	float lineLen = 20; // length of segments
	float maxAngle = radians(90); // range of random angle towards end
	float noiseInc = 0.01; // increment in Perlin noise
	float minDistToEnd = 50; // how close to the end before we quit?

	float noiseOffset = 0; // current position in Perlin noise
	PVector end; // target point


	void setup() {
	size(1000, 1000);
	background(30);

	// create end point at center of screen
	end = new PVector(width/2, height/2);

	// create random paths to the center!
	for (int i=0; i<20; i++) {
	randomPath();
	}

	// draw the end point
	fill(0,150,255);
	noStroke();
	ellipse(end.x, end.y, 10,10);
	}


	void draw() {
	// nothing here!
	}


	// 's' to save the frame, any other key re-draws new random paths
	void keyPressed() {
	if (key == 's') {
	String filename = new SimpleDateFormat("yyyy-MM-dd_HH-mm-ss'.jpg'").format(new Date());
	save("output/" + filename);
	}
	else {
	setup();
	}
	}


	void randomPath() {

	// create random starting point
	PVector start = new PVector(random(50, width-50), random(50, height-50));
	PVector current = start.copy();

	// start line
	stroke(255, 150);
	noFill();
	beginShape();
	vertex(current.x, current.y);

	// run until we hit the endpoint!
	int i=0;
	while (true) {

	// compute angle b/w current position and the end point
	float xDist = end.x - current.x;
	float yDist = end.y - current.y;
	float between = atan2(yDist, xDist);

	// use Perlin noise to compute a random value (0-1), change
	// to range of the maxAngle (this makes the line vary instead of
	// heading straight towards the endpoint!)
	float newAngle = between + (noise(noiseOffset) * maxAngle - maxAngle/2);

	// calculate new x/y position based on the angle, draw a line
	float x = current.x + cos(newAngle) * lineLen;
	float y = current.y + sin(newAngle) * lineLen;
	vertex(x, y);

	// update current position to the end of the line, figure
	// out how far we have left to go
	current = new PVector(x, y);
	float distLeft = PVector.dist(current, end);

	// if we're near the endpoint, draw a line to the end and quit
	if (distLeft <= minDistToEnd) {
	line(current.x, current.y, end.x, end.y);
	break;
	}

	// update count and Perlin noise variables, continue
	i += 1;
	noiseOffset += noiseInc;
	}

	// finish the shape!
	endShape();

	// draw the starting point on top
	fill(255,150,0);
	noStroke();
	ellipse(start.x, start.y, 10,10);
	}