learnxinyminutes-docs/processing.html.markdown

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---
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language: processing
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filename: learnprocessing.pde
contributors:
- ["Phone Thant Ko", "http://github.com/phonethantko"]
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- ["Divay Prakash", "https://github.com/divayprakash"]
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---
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## Introduction
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Processing is a programming language for creation of digital arts and
multimedia content, allowing non-programmers to learn fundamentals of computer
programming in a visual context.
While the language is based on Java language, its syntax has been largely
influenced by both Java and Javascript syntaxes. [See more here](https://processing.org/reference/)
The language is statically typed, and also comes with its official IDE to
compile and run the scripts.
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```
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/* ---------
Comments
---------
*/
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// Single-line comment starts with //
/*
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Since Processing is based on Java,
the syntax for its comments are the same as Java (as you may have noticed above)!
Multi-line comments are wrapped as seen here.
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*/
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/* ---------------------------------------
Writing and Running Processing Programs
---------------------------------------
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*/
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// In Processing, the program entry point is a function named setup() with a
// void return type.
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// Note! The syntax looks strikingly similar to that of C++.
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void setup() {
// This prints out the classic output "Hello World!" to the console when run.
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println("Hello World!"); // Another language with a semi-column trap, aint it?
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}
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// Normally, we put all the static codes inside the setup() method as the name
// suggest since it only runs once.
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// It can range from setting the background colours, setting the canvas size.
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background(color); // setting the background colour
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size(width,height,[renderer]); // setting the canvas size with optional
// parameter defining renderer
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// You will see more of them throughout this document.
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// If you want to run the codes indefinitely, it has to be placed in draw()
// method.
// draw() must exist if you want the code to run continuously and obviously,
// there can only be one draw() method.
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int i = 0;
void draw() {
// This block of code loops forever until stopped
print(i);
i++; // Increment Operator!
}
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// Now that we know how to write the working script and how to run it,
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// we will proceed to explore what data types and collections are supported in
// Processing.
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/* ------------------------
Datatypes & collections
------------------------
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*/
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// According to Processing References, Processing supports 8 primitive
// datatypes as follows.
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boolean booleanValue = true; // Boolean
byte byteValueOfA = 23; // Byte
char charValueOfA = 'A'; // Char
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color colourValueOfWhiteM = color(255, 255, 255); // Colour (Specified using
// color() method)
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color colourValueOfWhiteH = #FFFFFF; // Colour (Specified using hash value)
int intValue = 5; // Integer (Number without decimals)
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long longValue = 2147483648L; // "L" is added to number to mark it as a long
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float floatValue = 1.12345; // Float (32-bit floating-point numbers)
double doubleValue = 1.12345D; // Double (64-bit floating-point numbers)
// NOTE!
// Although datatypes "long" and "double" work in the language,
// processing functions do not use these datatypes, therefore
// they need to be converted into "int" and "float" datatypes respectively,
// using (int) and (float) syntax before passing into a function.
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// There is a whole bunch of default composite datatypes available for use in
// Processing.
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// Primarily, I will brief through the most commonly used ones to save time.
// String
// While char datatype uses '', String datatype uses "" - double quotes.
String sampleString = "Hello, Processing!";
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// String can be constructed from an array of char datatypes as well. We will
// discuss array very soon.
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char source = {'H', 'E', 'L', 'L', 'O'};
String stringFromSource = new String(source); // HELLO
// As in Java, strings can be concatenated using the "+" operator.
print("Hello " + "World!"); // Hello World!
// Array
// Arrays in Processing can hold any datatypes including Objects themselves.
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// Since arrays are similar to objects, they must be created with the keyword
// "new".
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int[] intArray = new int[5];
int[] intArrayWithValues = {1, 2, 3}; // You can also populate with data.
// ArrayList
// Functions are similar to those of array; arraylists can hold any datatypes.
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// The only difference is arraylists resize dynamically, as it is a form of
// resizable-array implementation of the Java "List" interface.
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ArrayList<Integer> intArrayList = new ArrayList<Integer>();
// Object
// Since it is based on Java, Processing supports object-oriented programming.
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// That means you can basically define any datatypes of your own and manipulate
// them to your needs.
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// Of course, a class has to be defined before for the object you want.
// Format --> ClassName InstanceName
SomeRandomClass myObject // then instantiate later
//or
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SomeRandomClass myObjectInstantiated = new SomeRandomClass();
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// Processing comes up with more collections (eg. - Dictionaries and Lists) by
// default, for the simplicity sake, I will leave them out of discussion here.
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/* ------------
Maths
------------
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*/
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// Arithmetic
1 + 1 // 2
2 - 1 // 1
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2 * 3 // 6
3 / 2 // 1
3.0 / 2 // 1.5
3.0 % 2 // 1.0
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// Processing also comes with a set of functions that simplify mathematical
// operations.
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float f = sq(3); // f = 9.0
float p = pow(3, 3); // p = 27.0
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int a = abs(-13); // a = 13
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int r1 = round(3.1); // r1 = 3
int r2 = round(3.7); // r2 = 4
float sr = sqrt(25); // sr = 5.0
// Vectors
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// Processing provides an easy way to implement vectors in its environment
// using PVector class. It can describe a two or three dimensional vector and
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// comes with a set of methods which are useful for matrices operations.
// You can find more information on PVector class and its functions here.
// (https://processing.org/reference/PVector.html)
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// Trigonometry
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// Processing also supports trigonometric operations by supplying a set of
// functions. sin(), cos(), tan(), asin(), acos(), atan() and also degrees()
// and radians() for convenient conversion.
// However, those functions take angle in radians as the parameter so it has
// to be converted beforehand.
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float one = sin(PI/2); // one = 1.0
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// As you may have noticed, there exists a set of constants for trigonometric
// uses;
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// PI, HALF_PI, QUARTER_PI and so on...
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/* -------------
Control Flow
-------------
*/
// Conditional Statements
// If Statements - The same syntax as if statements in Java.
if (author.getAppearance().equals("hot")) {
print("Narcissism at its best!");
} else {
// You can check for other conditions here.
print("Something is really wrong here!");
}
// A shortcut for if-else statements can also be used.
int i = 3;
String value = (i > 5) ? "Big" : "Small"; // "Small"
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// Switch-case structure can be used to check multiple conditions concisely.
// It is important to use the break statement. If the `break`-statement does
// not exist the program executes all the following cases after a case was true.
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int value = 2;
switch(value) {
case 0:
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print("Nought!"); // This does not get executed.
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break; // Jumps to the next statement
case 1:
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print("Getting there..."); // This again does not get executed.
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break;
case 2:
print("Bravo!"); // This line gets executed.
break;
default:
print("Not found!"); // This line gets executed if our value was some other value.
break;
}
// Iterative statements
// For Statements - Again, the same syntax as in Java
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for(int i = 0; i < 5; i++){
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print(i); // prints from 0 to 4
}
// While Statements - Again, nothing new if you are familiar with Java syntax.
int j = 3;
while(j > 0) {
print(j);
j--; // This is important to prevent from the code running indefinitely.
}
// loop()| noLoop() | redraw() | exit()
// These are more of Processing-specific functions to configure program flow.
loop(); // allows the draw() method to run forever while
noLoop(); // only allows it to run once.
redraw(); // runs the draw() method once more.
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exit(); // This stops the program. It is useful for programs with draw()
// running continuously.
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```
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## Drawing with Processing
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Since you will have understood the basics of the language by now, we will now
look into the best part of Processing - DRAWING.
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```
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/* ------
Shapes
------
*/
// 2D Shapes
// Point
point(x, y); // In 2D space
point(x, y, z); // In 3D space
// Draws a point in the coordinate space.
// Line
line(x1, y1, x2, y2); // In 2D space
line(x1, y1, z1, x2, y2, z2); // In 3D space
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// Draws a line connecting two points defined by (x1, y1) and (x2, y2).
// Triangle
triangle(x1, y1, x2, y2, x3, y3);
// Draws a triangle connecting three points defined by coordinate paramters.
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// Rectangle
rect(a, b, c, d, [r]); // With optional parameter defining the radius of all corners
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rect(a, b, c, d, [tl, tr, br, bl]); // With optional set of parameters defining
// radius of each corner
// Draws a rectangle with {a, b} as a top left coordinate and c and d as width
// and height respectively.
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// Quad
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quad(x, y, x2, y2, x3, y3, x4, y4);
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// Draws a quadrilateral with parameters defining coordinates of each corner
// point.
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// Ellipse
ellipse(x, y, width, height);
// Draws an eclipse at point {x, y} with width and height specified.
// Arc
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arc(x, y, width, height, start, stop, [mode]);
// While the first four parameters are self-explanatory,
// start and end defined the angles the arc starts and ends (in radians).
// Optional parameter [mode] defines the filling;
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// PIE gives pie-like outline, CHORD gives the chord-like outline and OPEN is
// CHORD without strokes
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// Curves
// Processing provides two implementation of curves; using curve() and bezier().
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// Since I plan to keep this simple I wont be discussing any further details.
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// However, if you want to implement it in your sketch, here are the references:
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// (https://processing.org/reference/curve_.html)
// (https://processing.org/reference/bezier_.html)
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// 3D Shapes
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// 3D space can be configured by setting "P3D" to the renderer parameter in
// size() method.
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size(width, height, P3D);
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// In 3D space, you will have to translate to the particular coordinate to
// render the 3D shapes.
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// Box
box(size); // Cube with same length defined by size
box(w, h, d); // Box with width, height and depth separately defined
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// Sphere
sphere(radius); // Its size is defined using the radius parameter
// Mechanism behind rendering spheres is implemented by tessellating triangles.
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// That said, how much detail being rendered is controlled by function
// sphereDetail(res)
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// More information here: (https://processing.org/reference/sphereDetail_.html)
// Irregular Shapes
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// What if you wanted to draw something thats not made available by Processing
// functions?
// You can use beginShape(), endShape(), vertex(x,y) to define shapes by
// specifying each point. More information here:
// (https://processing.org/reference/beginShape_.html)
// You can also use custom made shapes using PShape class:
// (https://processing.org/reference/PShape.html)
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/* ---------------
Transformations
---------------
*/
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// Transformations are particularly useful to keep track of the coordinate
// space and the vertices of the shapes you have drawn. Particularly;
// matrix stack methods; pushMatrix(), popMatrix() and translate(x,y)
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pushMatrix(); // Saves the current coordinate system to the stack
// ... apply all the transformations here ...
popMatrix(); // Restores the saved coordinate system
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// Using them, the coordinate system can be preserved and visualized without
// causing any conflicts.
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// Translate
translate(x, y); // Translates to point{x, y} i.e. - setting origin to that point
translate(x, y, z); // 3D counterpart of the function
// Rotate
rotate(angle); // Rotate the amount specified by the angle parameter
// It has 3 3D counterparts to perform rotation, each for every dimension,
// namely: rotateX(angle), rotateY(angle), rotateZ(angle)
// Scale
scale(s); // Scale the coordinate system by either expanding or contracting it.
/* --------------------
Styling and Textures
--------------------
*/
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// Colours
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// As I have discussed earlier, the background colour can be configured using
// background() function. You can define a color object beforehand and then
// pass it to the function as an argument.
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color c = color(255, 255, 255); // WHITE!
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// By default, Processing uses RGB colour scheme but it can be configured to
// HSB using colorMode(). Read more here:
// (https://processing.org/reference/colorMode_.html)
background(c); // By now, the background colour should be white.
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// You can use fill() function to select the colour for filling the shapes.
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// It has to be configured before you start drawing shapes so the colours gets
// applied.
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fill(color(0, 0, 0));
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// If you just want to colour the outlines of the shapes then you can use
// stroke() function.
stroke(255, 255, 0, 200); // stroke colour set to yellow with transparency
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// set to a lower value.
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// Images
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// Processing can render images and use them in several ways. Mostly stored as
// PImage datatype.
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filter(shader); // Processing supports several filter functions for image manipulation.
texture(image); // PImage can be passed into arguments for texture-mapping the shapes.
```
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If you want to take things further, there are more things Processing is powered
for. Rendering models, shaders and whatnot. There's too much to cover in a
short documentation, so I will leave them out here. Shoud you be interested,
please check out the references.
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```
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// Before we move on, I will touch a little bit more on how to import libraries
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// so you can extend Processing functionality to another horizon.
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/* -------
Imports
-------
*/
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// The power of Processing can be further visualized when we import libraries
// and packages into our sketches.
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// Import statement can be written as below at the top of the source code.
import processing.something.*;
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```
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## DTC?
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Down To Code? Let's get our hands dirty!
Let us see an example from openprocessing to visualize how much Processing is
capable of within few lines of code.
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Copy the code below into your Processing IDE and see the magic.
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```
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// Disclaimer: I did not write this program since I currently am occupied with
// internship and this sketch is adapted from openprocessing since it shows
// something cool with simple codes.
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// Retrieved from: (https://www.openprocessing.org/sketch/559769)
float theta;
float a;
float col;
float num;
void setup() {
size(600,600);
}
void draw() {
background(#F2F2F2);
translate(width/2, height/2);
theta = map(sin(millis()/1000.0), -1, 1, 0, PI/6);
float num=6;
for (int i=0; i<num; i++) {
a =350;
rotate(TWO_PI/num);
branch(a);
}
}
void branch(float len) {
col=map(len, 0, 90, 150, 255);
fill(col, 0, 74);
stroke (col, 0, 74);
line(0, 0, 0, -len);
ellipse(0, -len, 3, 3);
len *= 0.7;
if (len>30) {
pushMatrix();
translate(0, -30);
rotate(theta);
branch(len);
popMatrix();
pushMatrix();
translate(0, -30);
rotate(-theta);
branch(len);
popMatrix();
}
}
```
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Processing is easy to learn and is particularly useful to create multimedia
contents (even in 3D) without having to type a lot of codes. It is so simple
that you can read through the code and get a rough idea of the program flow.
However, that does not apply when you introduce external libraries, packages
and even your own classes. (Trust me! Processing projects can get real humongous...)
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## Some useful resources
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- [Processing Website](http://processing.org)
- [Processing Sketches](http://openprocessing.org)