Swiftpack.co is a collection of thousands of indexed Swift packages. Search packages.

See all packages published by hfutrell.

hfutrell/BezierKit v0.12.1

Bezier curves and paths in Swift for building vector applications

βοΈ 156

π 2 weeks ago

iOS
macOS

.package(url: "https://github.com/hfutrell/BezierKit.git", from: "v0.12.1")

BezierKit is a comprehensive Bezier Path library written in Swift.

Please note that BezierKit is currently pre-release software. Its releases follow semantic versioning which means that until it reaches 1.0 status the API may not be stable or backwards compatible.

- β Constructs linear (line segment), quadratic, and cubic BΓ©zier curves
- β Draws curves via CoreGraphics
- β Determines positions, derivatives, and normals along curves
- β Lengths of curves via Legendre-Gauss quadrature
- β Intersects curves and computes cubic curve self-intersection to any degree of accuracy
- β Determines bounding boxes, extrema,
- β Locates nearest on-curve location to point
- β to any degree of accuracy
- β Splits curves into subcurves
- β Offsets and outlines curves
- β Comprehensive Unit and Integration Test Coverage
- β Complete Documentation

CocoaPods is a dependency manager for Cocoa projects. You can install it with the following command:

```
$ gem install cocoapods
```

To integrate BezierKit into your Xcode project using CocoaPods, add it to your target in your `Podfile`

:

```
target '<Your Target Name>' do
pod 'BezierKit', '>= 0.12.1'
end
```

Then, run the following command:

```
$ pod install
```

The Swift Package Manager is a tool for automating the distribution of Swift code and is integrated into the `swift`

compiler.
Once you have your Swift package set up, adding BezierKit as a dependency is as easy as adding it to the `dependencies`

value of your `Package.swift`

.

```
// swift-tools-version:5.0
import PackageDescription
let package = Package(
name: "<Your Target Name>",
dependencies: [
.package(url: "https://github.com/hfutrell/BezierKit.git", from: "0.12.1"),
]
)
```

BezierKit supports cubic Bezier curves (`CubicCurve`

) and quadratic Bezier curves (`QuadraticCurve`

) as well as line segments (`LineSegment`

) each of which adopts the `BezierCurve`

protocol that encompasses most API functionality.

```
import BezierKit
let curve = CubicCurve(
p0: CGPoint(x: 100, y: 25),
p1: CGPoint(x: 10, y: 90),
p2: CGPoint(x: 110, y: 100),
p3: CGPoint(x: 150, y: 195)
)
let context: CGContext = ... // your graphics context here
Draw.drawSkeleton(context, curve) // draws visual representation of curve control points
Draw.drawCurve(context, curve) // draws the curve itself
```

The `intersections(with curve: BezierCurve) -> [Intersection]`

method determines each intersection between `self`

and `curve`

as an array of `Intersection`

objects. Each intersection has two fields: `t1`

represents the t-value for `self`

at the intersection while `t2`

represents the t-value for `curve`

at the intersection. You can use the `ponit(at:)`

method on either of the curves to calculate the coordinates of the intersection by passing in the corresponding t-value for the curve.

Cubic curves may self-intersect which can be determined by calling the `selfIntersections()`

method.

```
let intersections: [Intersection] = curve1.intersections(with: curve2)
let points: [CGPoint] = intersections.map { curve1.point(at: $0.t1) }
Draw.drawCurve(context, curve: curve1)
Draw.drawCurve(context, curve: curve2)
for p in points {
Draw.drawPoint(context, origin: p)
}
```

The `split(from:, to:)`

method produces a subcurve over a given range of t-values. The `split(at:)`

method can be used to produce a left subcurve and right subcurve created by splitting across a single t-value.

```
Draw.setColor(context, color: Draw.lightGrey)
Draw.drawSkeleton(context, curve: curve)
Draw.drawCurve(context, curve: curve)
let subcurve = curve.split(from: 0.25, to: 0.75) // or try (leftCurve, rightCurve) = curve.split(at:)
Draw.setColor(context, color: Draw.red)
Draw.drawCurve(context, curve: subcurve)
Draw.drawCircle(context, center: curve.point(at: 0.25), radius: 3)
Draw.drawCircle(context, center: curve.point(at: 0.75), radius: 3)
```

```
let boundingBox = curve.boundingBox
Draw.drawSkeleton(context, curve: curve)
Draw.drawCurve(context, curve: curve)
Draw.setColor(context, color: Draw.pinkish)
Draw.drawBoundingBox(context, boundingBox: curve.boundingBox)
```

BezierKit is a powerful library with *a lot* of functionality. For the time being the best way to see what it offers is to build the MacDemos target and check out each of the provided demos.

BezierKit is released under the MIT license. See LICENSE for details.

link |

Stars: 156 |

Last commit: 2 weeks ago |

2 weeks ago

- adds low overhead
`Path`

and`PathComponent`

implementation of`CGPath`

method`apply(info:, function:)`

- adds low overhead
`Path`

and`PathComponent`

implementation of`CGPath`

method`boundingBoxOfPath`

Swiftpack is being maintained by Petr Pavlik | @ptrpavlik | @swiftpackco | API | Analytics