[page:Curve] → [page:CurvePath] → [page:Path] →

[name]

Defines an arbitrary 2d shape plane using paths with optional holes. It can be used with [page:ExtrudeGeometry], [page:ShapeGeometry], to get points, or to get triangulated faces.

Code Example


		const heartShape = new THREE.Shape();

		heartShape.moveTo( 25, 25 );
		heartShape.bezierCurveTo( 25, 25, 20, 0, 0, 0 );
		heartShape.bezierCurveTo( - 30, 0, - 30, 35, - 30, 35 );
		heartShape.bezierCurveTo( - 30, 55, - 10, 77, 25, 95 );
		heartShape.bezierCurveTo( 60, 77, 80, 55, 80, 35 );
		heartShape.bezierCurveTo( 80, 35, 80, 0, 50, 0 );
		heartShape.bezierCurveTo( 35, 0, 25, 25, 25, 25 );

		const extrudeSettings = { depth: 8, bevelEnabled: true, bevelSegments: 2, steps: 2, bevelSize: 1, bevelThickness: 1 };

		const geometry = new THREE.ExtrudeGeometry( heartShape, extrudeSettings );

		const mesh = new THREE.Mesh( geometry, new THREE.MeshPhongMaterial() );

Examples

[example:webgl_geometry_shapes geometry / shapes ]
[example:webgl_geometry_extrude_shapes geometry / extrude / shapes ]
[example:webgl_geometry_extrude_shapes2 geometry / extrude / shapes2 ]

Constructor

[name]( [param:Array points] )

points -- (optional) array of [page:Vector2 Vector2s].

Creates a Shape from the points. The first point defines the offset, then successive points are added to the [page:CurvePath.curves curves] array as [page:LineCurve LineCurves].

If no points are specified, an empty shape is created and the [page:.currentPoint] is set to the origin.

Properties

See the base [page:Path] class for common properties.

[property:String uuid]

[link:http://en.wikipedia.org/wiki/Universally_unique_identifier UUID] of this instance. This gets automatically assigned, so this shouldn't be edited.

[property:Array holes]

An array of [page:Path paths] that define the holes in the shape.

Methods

See the base [page:Path] class for common methods.

[method:Array extractPoints]( [param:Integer divisions] )

divisions -- The fineness of the result.

Call [page:Curve.getPoints getPoints] on the shape and the [page:.holes] array, and return an object of the form: { shape holes } where shape and holes are arrays of [page:Vector2 Vector2s].

[method:Array getPointsHoles]( [param:Integer divisions] )

divisions -- The fineness of the result.

Get an array of [page:Vector2 Vector2s] that represent the holes in the shape.

Source

[link:https://github.com/mrdoob/three.js/blob/master/src/[path].js src/[path].js]