@daeinc/geom
A collection of gemetry-related functions. Breaking changes expected in the future.
Installation
npm i @daeinc/geom
then,
import { blendPath, ... } from "@daeinc/geom";
Types
type Pt = number[];
type Pts = number[][];
type GenericObject = Record<string, any>;
Three custom types are used.
Functions
blendPath
const blendPath: (
path1: Pts,
path2: Pts,
numBlends: number,
guidePath?: Pts
) => number[][][];
Interpolates two paths to create in-between paths. numBlends
does not count the two original paths. In other words, the two original paths are not included in the return array. guidePath
parameter is not yet implemented.
createShapeFunc
const createShapeFunc: (
pts: Pts,
anchor?: Pt
) => (x: number, y: number, w: number, h: number) => Pts;
dist
const dist: (pt1: Pt, pt2: Pt) => number;
Returns a distance between two points.
distSq
const distSq: (pt1: Pt, pt2: Pt) => number;
Returns a squared distance between two points. There's another version in @daeinc/math
that takes number
arguments.
extrudePath
const extrudePath: (
path: Pts,
numPointsToExtrude: number,
offset: Pt,
mode?: "start" | "end" | "both",
shapeFunc?: () => Pts
) => number[][];
Extrudes a path in 2d space.
generateSmoothPath
const generateSmoothPath: (pts: Pts, smoothFactor: number) => number[][];
Generates extra points for smooth corners of path. Use with drawSmoothPath()
from another package, @daeinc/canvas
getAngleBetween
const getAngleBetween: (pt1: Pt, pt2: Pt) => number;
Get angle between two points using Math.atan2()
. Return value is between -pi and pi. pt2 - pt1
is the order of subtraction.
getPathLength
const getPathLength: (path: Pts) => number;
Returns the total length of path
getPositiveAngleBetween
const getPositiveAngleBetween: (pt1: Pt, pt2: Pt) => number;
Return value is between 0 and 2pi.
getSegmentLengths
const getSegmentLengths: (pts: Pts) => number[];
Returns an array with each segment length (distance between points).
interpolateArray
const interpolateArray: (
arrStart: number[],
arrTarget: number[],
t: number
) => number[];
interpolatePath
const interpolatePath: (
pathStart: Pts,
pathTarget: Pts,
t: number
) => number[][];
Interpolates between two number arrays. Usually used for path data of [x, y]
.
interpolateObject
const interpolateObject: (
objStart: GenericObject,
objTarget: GenericObject,
t: number
) => GenericObject;
Interpolates between two objects formatted { string: number }
. For example, { x: 10, y: 20 }
.
interpolate
const interpolate: <T>(
start: T,
target: T,
t: number
) => number | GenericObject | T;
Interpolates number
, number[]
, number[][]
or generic object.
projectPointOnLine
const projectPointOnLine: (pt: Pt, line: Pts) => Pt;
Projects a point on a line.
reflectPoint
const reflectPoint: (pt: Pt, axis: Pt | Pts) => Pt;
Reflects a point on another point or a line.
reflectPath
const reflectPath: (pts: Pts, axis: Pt | Pts) => Pts;
Reflects a path either on a point or a line.
scalePoint
const scalePoint: (pt: Pt, size: Pt) => Pt;
Scales a single point.
scalePath
const scalePath: (path: Pts, size: Pt) => Pts;
Takes in normalized path data and returns [ x, y ]
that is scaled to size, [ width, height ]
.
To Dos
- reconcile the use of both
Float32Array
(gl-vec2
) and regular array - add Canvas mock tests
License
MIT