Archived
Now that I have P45 this library loses half its value. I'm archiving so I can plunder for parts later.
A simple library for generating coordinates of Pythagorean Triangles that are intended for visualisation.
Made to be plundered
This library only provides two functions, generateGeometry and geometryToSvg.
import { generateGeometry, geometryToSvg } from 'p33'generateGeometry converts an object schema of a right angle triangle into a geometry object containing coordinates and metadata for plotting the triangle. The geometry is intended for plotting and thus mathematical precision was traded off for simplicity and ease of implementation in JavaScript.
Right triangles can be nested such that the opposite and adjacent sides can be Hypotenuse for another right angle triangle. This gives it a somewhat fractal nature but in reality you can only go two or three deep before the polygons of the inner start to overlap the outer.
- schema: An
objectspecifying the opposite and adjacent lengths of the right angle triangle.
const geometry = generateGeometry({
a: 3,
b: 4,
})Above is a simple schema for the right triangle (3, 4, 5). This is also a Pythagorean Triple. a and b can be any positive number you would like but I'd suggest not going mad with high numbers since the implementation just uses JavaScript's crude number type for claculations.
const geometry = generateGeometry({
a: {
a: 3,
b: 4,
},
b: 12,
})Above is a schema with a nested right triangle. To be precise, it represents the right trangle (3, 4, 5) nested into the right triangle (5, 12, 13). The Hypotenuse 5 in the first set is a minor side in the second.
A geometry object containing details for plotting the right triangle on a diagram. The coordinate system has its origin in the bottom left so plotting straight into an SVG or HTML Canvas would render a vertically mirrored image (web language coordinate systems typically have their origin in the top left). Below shows off the simple right triangle (3, 4, 5).
const geometry = generateGeometry({
a: 3,
b: 4,
})// console.log(JSON.stringify(geometry, null, 2))
{
shape: 'right-triangle',
a: 3,
b: 4,
c: 5, // Hypotenuse
width: 10.6,
height: 9.8,
polygons: [
{
shape: 'triangle',
side: 't',
points: [
{ x: 5, y: 2.4, angle: 0.6435011087932844 },
{ x: 7.4, y: 5.6, angle: RIGHT_ANGLE },
{ x: 5, y: 7.4, angle: RIGHT_ANGLE - 0.6435011087932844 },
],
},
{
shape: 'square',
side: 'c',
points: [
{ x: 0, y: 2.4, angle: RIGHT_ANGLE },
{ x: 5, y: 2.4, angle: RIGHT_ANGLE },
{ x: 5, y: 7.4, angle: RIGHT_ANGLE },
{ x: 0, y: 7.4, angle: RIGHT_ANGLE },
],
},
{
shape: 'square',
side: 'b',
points: [
{ x: 8.2, y: 0, angle: RIGHT_ANGLE },
{ x: 10.6, y: 3.2, angle: RIGHT_ANGLE },
{ x: 7.4, y: 5.6, angle: RIGHT_ANGLE },
{ x: 5, y: 2.4, angle: RIGHT_ANGLE },
],
},
{
shape: 'square',
side: 'a',
points: [
{ x: 5, y: 7.4, angle: RIGHT_ANGLE },
{ x: 7.4, y: 5.6, angle: RIGHT_ANGLE },
{ x: 9.2, y: 8, angle: RIGHT_ANGLE },
{ x: 6.8, y: 9.8, angle: RIGHT_ANGLE },
],
},
],
}
On to nested right triangles.
Below is an example. The numbers within are limited to seven decimal places but was applied after generation as generateGeometry performs no explicit rounding.
Notice the nested polygon with side: 'c' has been omitted since it should not be rendered. There is no limit to the amount of nesting but anymore than three levels causes visual overlap.
const geometry = generateGeometry({
a: {
a: 3,
b: 4,
},
b: 12,
})// console.log(JSON.stringify(geometry, null, 2))
{
shape: 'right-triangle',
a: {
a: 3,
b: 4,
c: 5,
},
b: 12,
c: 13,
...,
polygons: [
...,
{
shape: 'right-triangle',
side: 'a',
a: 3,
b: 4,
c: 5,
polygons: [
{
shape: 'triangle',
side: 't',
points: [
{ x: 17.6153846, y: 15.6923077, angle: 0.6435011087932844 },
{ x: 15.5846154, y: 19.1384615, angle: RIGHT_ANGLE },
{
x: 13,
y: 17.6153846,
angle: RIGHT_ANGLE - 0.6435011087932844,
},
],
},
{
shape: 'square',
side: 'b',
points: [
{ x: 21.0615385, y: 17.7230769, angle: RIGHT_ANGLE },
{ x: 19.0307692, y: 21.1692308, angle: RIGHT_ANGLE },
{ x: 15.5846154, y: 19.1384615, angle: RIGHT_ANGLE },
{ x: 17.6153846, y: 15.6923077, angle: RIGHT_ANGLE },
],
},
{
shape: 'square',
side: 'a',
points: [
{ x: 13, y: 17.6153846, angle: RIGHT_ANGLE },
{ x: 15.5846154, y: 19.1384615, angle: RIGHT_ANGLE },
{ x: 14.0615385, y: 21.7230769, angle: RIGHT_ANGLE },
{ x: 11.4769231, y: 20.2, angle: RIGHT_ANGLE },
],
},
],
},
],
}Multiple levels of nesting.
Here's a graphic with two levels of nesting. If this looks familiar then you may have once read Noise: A Flaw in Human Judgement by Daniel Kahneman, Olivier Sibony, and Cass Sunstein.
This was my motivation for creating this library. I wanted to create an interactive graphic that allowed the user to adjust each square and see the effect on other squares. The biggest square is to represent mean squared error (c1) while the other squares represent bias (b1) and a breakdown of the various types of noise in judgement (a1, a2, a3, b3).
const geometry = generateGeometry({
a: {
a: {
a: 30,
b: 60,
},
b: 90,
},
b: 120,
})
geometryToSvg converts geometry generated via generateGeometry and creates a hierarchy of SVG HTML elements. Render the elements in a web page to visualise.
Only basic styling is applied so you'll need to descend the element tree, setting your own styles, if you want something pretty.
You can render the geometry directly (without this function) using a canvas or web framework tooling. I've created a Svelte component so I can add user interaction.
- geometry: A geometry
objectproduced by thegenerateGeometryfunction.
A HTMLElement representing an <svg> containing the shapes using <polygon>. Appending this to an appropriate DOM element will render it on a web page.