Chanmin GLS-experiments: Unterschied zwischen den Versionen

experiments with p5

experiment 1 p5

experiment 2 p5

experiment-image 1 p5

experiment-image 2 p5

experiments with the lasercutter

lasercutter experiment 1

lasercutter experiment 2

p5 code 1

function setup() {

 createCanvas(800, 600, SVG);

}

function draw() {

   //background(255,255,10);

 stroke(random(60),10);

 strokeWeight(7);

 line(random(width), random(height), random(width), random(height));

 fill(random(230),100);

 rect(mouseX, mouseY, 20, 20);

 circle(mouseX+random(40),mouseY+random(40),10)

}

function mousePressed()

{

 save("mybrush.svg");

 print("saved svg");

}

p5 code 2

// P_4_3_3_01

//

// Generative Gestaltung – Creative Coding im Web

// ISBN: 978-3-87439-902-9, First Edition, Hermann Schmidt, Mainz, 2018

// Benedikt Groß, Hartmut Bohnacker, Julia Laub, Claudius Lazzeroni

// with contributions by Joey Lee and Niels Poldervaart

// Copyright 2018

//

// <http://www.generative-gestaltung.de>

//

// Licensed under the Apache License, Version 2.0 (the "License");

// you may not use this file except in compliance with the License.

// You may obtain a copy of the License at <http://www.apache.org/licenses/LICENSE-2.0>

// Unless required by applicable law or agreed to in writing, software

// distributed under the License is distributed on an "AS IS" BASIS,

// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

// See the License for the specific language governing permissions and

// limitations under the License.

/\*\*

 \* generating a drawing by analysing the pixels of a live video input

 \*

 \* MOUSE

 \* position x          : drawing speed

 \* position y          : diffusion

 \*

 \* KEYS

 \* arrow up            : number of curve points +

 \* arrow down          : number of curve points -

 \* q                   : stop drawing

 \* w                   : continue drawing

 \* DEL/BACKSPACE       : clear display

 \* s                   : save png

 \*/

'use strict';

var video;

var x;

var y;

var curvePointX = 0;

var curvePointY = 0;

var pointCount = 1;

var diffusion = 50;

var streamReady = false;

function setup() {

  createCanvas(1080, 720);

  background(255);

  x = width / 2;

  y = height / 2;

  video = createCapture(VIDEO, function() {

    streamReady = true;

  });

  video.size(width *pixelDensity(), height* pixelDensity());

  video.hide();

  noFill();

}

function draw() {

  if (streamReady) {

    for (var j = 0; j <= mouseX / 0.05; j++) {

      // Retrieve color from capture device

      var c = color(video.get(width - x, y));

      // convert color c to HSV

      var cHSV = chroma(red(c), green(c), blue(c));

      strokeWeight(cHSV.get('hsv.h') / 90);

      stroke(c);

      diffusion = map(width, 0, height, 5, 30);

      beginShape();

      curveVertex(x, y);

      curveVertex(x, y);

      for (var i = 0; i < pointCount; i++) {

        var rx = int(random(-diffusion, diffusion));

        curvePointX = constrain(x + rx, 0, width - 1);

        var ry = int(random(-diffusion, diffusion));

        curvePointY = constrain(y + ry, 0, height - 1);

        curveVertex(curvePointX, curvePointY);

      }

      curveVertex(curvePointX, curvePointY);

      endShape();

      x = curvePointX;

      y = curvePointY;

    }

  }

}

function keyReleased() {

  if (keyCode == DELETE || keyCode == BACKSPACE) clear();

  if (key == 's' || key == 'S') saveCanvas(gd.timestamp(), 'png');

  if (key == 'q' || key == 'Q') noLoop();

  if (key == 'w' || key == 'W') loop();

  if (keyCode == UP_ARROW) pointCount = min(pointCount + 1, 30);

  if (keyCode == DOWN_ARROW) pointCount = max(pointCount - 1, 1);

}

function mousePressed()

{

  save("bildtest.png");

  print("saved svg");

}


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