Conversion of a CSG - (Constructive Solid Geometry) library for use with modern THREE.js
Original version: Copyright (c) 2011 Evan Wallace (http://madebyevan.com/), under the MIT license.
THREE.js rework by thrax under MIT license.
Here's a running demo https://manthrax.github.io/THREE-CSGMesh/demos/CSGDemo.html
And a shinier, slightly more complex demo: https://manthrax.github.io/THREE-CSGMesh/demos/CSGShinyDemo.html
And a more complex example showing a text mesh cut into another complex mesh via an intermediate cube:
https://manthrax.github.io/THREE-CSGMesh/v2/index.html
An example showing multiple material groups, and vertex color channel:
https://manthrax.github.io/THREE-CSGMesh/demos/CSGStress.html
CSG is the name of a technique for generating a new geometry as a function of two input geometries.
CSG is sometimes referred to as "Boolean" operators in 3d modelling packages.
Internally it uses a structure called a BSP (binary space partitioning) tree to carry out these operations.
The supported operations are .subtract, .union, and .intersect.
By using different combinations of these 3 operations, and changing the order of the input models, you can construct any combination of the input models.
In the first screenshot/demo above, I show the possible results with a cube and a sphere...
In blue is the result of the .union operation, for sphere->cube and cube->sphere (the result is same in this case )
In green is the result of the .intersect operation, for sphere->cube and cube->sphere (the result is same in this case )
In red is the result of the .subtract operation, for sphere->cube and cube->sphere. Here the result differs based on the order of the inputs.
Example usage:
//Minimal example.. subtract mesh b from mesh a:
import {CSG} from "three-csg.js"
scene.add(CSG.toMesh(CSG.subtract(CSG.fromMesh(a),CSG.fromMesh(b)),a.material))
// Make 2 box meshes..
let meshA = new THREE.Mesh(new THREE.BoxGeometry(1,1,1))
let meshB = new THREE.Mesh(new THREE.BoxGeometry(1,1,1))
//offset one of the boxes by half its width..
meshB.position.add(new THREE.Vector3( 0.5, 0.5, 0.5)
//Make sure the .matrix of each mesh is current
meshA.updateMatrix()
meshB.updateMatrix()
//Create a bsp tree from each of the meshes
let bspA = CSG.fromMesh( meshA )
let bspB = CSG.fromMesh( meshB )
// Subtract one bsp from the other via .subtract... other supported modes are .union and .intersect
let bspResult = bspA.subtract(bspB)
//Get the resulting mesh from the result bsp, and assign meshA.material to the resulting mesh
let meshResult = CSG.toMesh( bspResult, meshA.matrix, meshA.material )