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Installing Processing
Processing is a programming environment (Integrated development environment IDE) based on the programming language Java. Processing is Open Source and you can download it for free here. Solutions to common installation problems can be found here.
The Processing IDE (Integrated development environment)
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What's p5.js?
p5.js is JavaScript (JS) library, which is used for creating graphic and interactive experiences for artists and designers. The code is written directly in JS, and it gets executed like any other JS file that is included on a website. It requires an empty HTML file that links to the p5.js library and your sketch file in the header.
p5.js based on the core principles of Processing, which enables code to take the form of quick “sketches” rather than complex applications. There are some differences in the language syntax in Processing, because it’s based on Java, but it’s otherwise very similar.
Using p5.js
The easiest way to get started is with Openprocessing.org. It's an online platform, where anyone can create and share visual-based, open-source projects. The big advantage of open processing is that the users can like and comment on other sketches, follow other users and create themed collections.
Alternative Editors
p5.js has its own web-based editor which compiles the code on the go and displays it directly in the browser.
The Processing IDE can be used for p5.js when put in Javascript mode.
The IDE consists of three main parts.
The text editor, where you can write (or paste in)
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the code.
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Message area and
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Console/
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Errors window. The Message
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area which displays the errors and is useful to see if you e.g., miss a semicolon. The Console/Errors window displays warnings, but can be also used to output text for debugging.
The final part is the Display window. This is where
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you can see the results of our code after it is compiled, by pressing the Run button in the upper left corner.
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The third option is to use one of the text editors e.g. Sublime, Atom, Visual Studio Code and run p5.js directly on your computer. For that, you would need to download the p5.js library and run the code on a local server. For more experienced developers, p5.js can also be used in any web application using npm and the "instance mode" of p5.js
References:
In order to understand the examples and to write your own programs, you will be using the p5.js reference page. Reference pages are essential for understanding how programming languages and frameworks like p5.js can be used.
Basic Sketch Structure
Every p5.js program consists of setup() and draw() function. Setup() runs when the program starts, and it's used to set the initial environment properties, such as the size of the canvas in the browser window. Draw() executes the code inside the block until the program is stopped or noLoop() is called. We will learn more about how functions work in the p5.js Events and Functions.
| Code Block | ||
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function setup() {
createCanvas(300,300);
// setup stuff
}
function draw() {
// draw stuff
} |
You will notice there are some special symbols used here, and everything is organised in a specific structure. The syntax of a programming language defines how all these things should be used. We will get to know what all these symbols do in the following examples.
Example 1 : Graphic output
This example shows how to draw graphics directly to an output window. You can find further drawing functions Processing reference page ( link ).
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function setup(){ createCanvas(300,300); // define windowcanvas size stroke(255,255,255); // define line colour } function draw() { background(0); // define background colour stroke(255,255,255 strokeWeight(1); // define line colourthickness line(100,10,100,150); // draw a line line(150,10,150,200); line(200,10,200,250); fill(0,0,0); // define fill colour strokeWeight(5); // line thickness ellipse(100,150,50,50); // draw an ellipse ellipse(150,200,50,50); // draw an ellipse noFill(); // turn of fill ellipse(200,250,50,50); // draw an ellipse } |
Example 2 - : Complex Forms
This example shows you how to change line attributes and how to draw more complex shapes using the beginShape() and endShape() functions.
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function setup() { createCanvas(300,300); // define windowcanvas size background(0); // define background colour stroke(255); // define line colour strokeWeight(8); // line thickness strokeJoin(MITER); // this is the default //strokeJoin(BEVEL); //strokeJoin(ROUND); noFill(); noFill(); } function draw() { background(0); // define background colour beginShape(); vertex(50,50); vertex(200,50); vertex(200,200); vertex(50,200); vertex(50,100); vertex(150,100); vertex(150,150); endShape(); } |
Example 3
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: Colors and
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Transparency
Colours are defined with 3 values, the so-called RGB values. The colour consists of three components (red + green + blue) and is determined by the additive color colour mixing. The value of a each colour component can range from 0-255.
This range of numbers results from the fact that each color colour value represents an 8-bit value. Therefore, we also speak of true color true colour can be represented with 24-bit (3 * 8-bit = RGB).
Forms can also be transparent, using the alpha channel. The colour is simply extended by a 4th parameter (RGBA). Smaller alpha value values are more transparent than greater ones.
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function setup() { createCanvas(300,300); noStroke(); } function backgrounddraw(0); { noStroke background(0); fill(210,200,200); ellipse(125,150,50,50); stroke(150,10,10); fill(100,100,90,200); beginShape(); vertex(50,50); vertex(125,150); vertex(200,50); vertex(200,200); vertex(50,200); vertex(50,50); endShape(); } |
Exercise 1:
Expand and modify Experiment with the examples with new or combined by adding or combining new drawing commands (Arc, Point, Triangle, etc.). Look through the references page to find more.