/proceso

A Python package for creative coding on the web

Primary LanguagePythonGNU Lesser General Public License v3.0LGPL-3.0

proceso

A Python package for creative coding on the web

proceso is a Python package for creative coding on the web, with a focus on making coding accessible and inclusive for artists, designers, educators, beginners, and anyone else! The package provides a Pythonic interface to the p5.js library and is heavily inspired by py5. proceso is built with PyScript.

Here is an example of how to create a proceso sketch with PyScript using Python, HTML, and CSS:

sketch.py

from proceso import Sketch


p5 = Sketch()
p5.describe("A screen reader accessible description for the canvas.")

index.html

<!DOCTYPE html>
<html lang="en-us">

<head>
    <title>My Sketch</title>
    <meta charset="utf-8" />
    <meta name="viewport" content="width=device-width,initial-scale=1.0">
    
    <!-- Load PyScript -->
     <link rel="stylesheet" href="https://pyscript.net/releases/2024.2.1/core.css" />
     <script type="module" src="https://pyscript.net/releases/2024.2.1/core.js"></script> 
    <!-- Load p5.js -->
    <script src="https://cdnjs.cloudflare.com/ajax/libs/p5.js/1.9.0/p5.min.js"></script>
    <!-- Load custom styles -->
    <link rel="stylesheet" href="style.css" />
</head>

<body>
    <!-- Load sketch -->
    <script type="py" src="sketch.py" config="pyscript.json"></script>
</body>

</html>

style.css

html,
body {
    margin: 0;
    padding: 0;
}

canvas {
    display: block;
}

pyscript.json

{
    "packages": ["proceso"]
}

Static Sketches

Similar to Processing, proceso enables beginners to start programming with "static sketches" before introducing animation and interaction. The following example draws a few shapes and a flower on the screen.

from proceso import Sketch


p5 = Sketch()
p5.describe("A rectangle, circle, triangle, and flower drawn in pink on a gray background.")

# Create the canvas
p5.create_canvas(720, 400)
p5.background(200)

# Set colors
p5.fill(204, 101, 192, 127)
p5.stroke(127, 63, 120)

# A rectangle
p5.rect(40, 120, 120, 40)
# A circle
p5.circle(240, 240, 80)
# A triangle
p5.triangle(300, 100, 320, 100, 310, 80)

# A design for a simple flower
p5.translate(580, 200)
p5.no_stroke()
for _ in range(10):
    p5.ellipse(0, 30, 20, 80)
    p5.rotate(p5.PI / 5)

View sketch

Active Sketches

proceso's "active sketches" provide the run_sketch() method to handle initialization, looping, and events. The sketch below simulates the synchronization behavior observed in some species of fireflies.

from proceso import Sketch


p5 = Sketch()
p5.describe("Ten white circles moving like fireflies on a dark blue background.")

bugs = []
num_bugs = 10
coupling: object


def setup():
    p5.create_canvas(720, 400)
    global coupling
    coupling = p5.create_slider(0, 10, 5)
    for _ in range(num_bugs):
        bug = Bug()
        bugs.append(bug)


def draw():
    p5.background("midnightblue")

    for bug in bugs:
        bug.sync()

    for bug in bugs:
        bug.update()
        bug.check_edges()
        bug.draw()


class Bug:
    def __init__(self):
        self.x = p5.width * 0.5
        self.y = p5.height * 0.5
        self.r = 5
        self.angle = p5.random(p5.TWO_PI)
        self.da_dt = 1
        self.dt = 0.01
        self.freq = p5.random(5, 10)

    def draw(self):
        a = p5.remap(self.angle % p5.TWO_PI, 0, p5.TWO_PI, 0, 255)
        p5.fill(255, a)
        p5.stroke(255, a)
        p5.circle(self.x, self.y, 2 * self.r)

    def update(self):
        self.x += p5.cos(self.angle)
        self.y += p5.sin(self.angle)
        self.angle += self.da_dt * self.dt
        self.da_dt = 0

    def check_edges(self):
        if self.x > p5.width + self.r:
            self.x = -self.r
        if self.x < -self.r:
            self.x = p5.width + self.r
        if self.y > p5.height + self.r:
            self.y = -self.r
        if self.y < -self.r:
            self.y = p5.height + self.r

    def sync(self):
        K_N = coupling.value() / num_bugs
        self.da_dt = self.freq
        for bug in bugs:
            self.da_dt += K_N * p5.sin(bug.angle - self.angle)


p5.run_sketch(setup=setup, draw=draw)

View sketch

Getting Started

Cloud: PyScript (account required)

PyScript is a great way to run proceso sketches with PyScript. Here's a project template.

Local: VS Code

Here's one possible setup for running sketches on your local machine:

  1. Install Visual Studio Code.
  2. Install the Live Server extension.
  3. Add your HTML, CSS, JSON, and Python files.
  4. Open index.html with Live Server and start coding.

Roadmap

  • Improve documentation
  • Finish IO API
  • Translate p5.js test suite?
  • Add CLI with hot reload
  • Add bindings for p5.js addon libraries

Acknowledgements

  • proceso is, first and foremost, an interface to the p5.js library. Nearly all of the package's documentation and examples are adapted from their p5.js counterparts. Portions of the source code are also adapted from the original JavaScript implementation.
  • The Vector class is lovingly borrowed from py5 as are most of py5's naming conventions.
  • Basthon, Py5.js, and pyp5js all pointed the way.