voxel/index.html

<!doctype html>
<html>
    <head>
        <style>
            html, body
            {
                margin:0;
            }
            canvas
            {
                position:absolute;
                top:0;
                left:0;
                display:block;
                width:100%;
                height:100%;
            }
        </style>
    </head>
    <body>
        <canvas></canvas>
<script type="module">
import { Scene, THREE } from './scene.js';
import { Region } from "./region.js";

let surfaceTest = () =>
{
    let limit = (x, y, z, ax, ay, az) =>
    {
        let centerX = Math.round(x);
        let centerY = Math.round(y);
        let centerZ = Math.round(z);

        let deltaX = ax-centerX;
        let deltaY = ay-centerY;
        let deltaZ = az-centerZ;

        let absDeltaX = Math.abs(deltaX);
        let absDeltaY = Math.abs(deltaY);
        let absDeltaZ = Math.abs(deltaZ);

        let max = absDeltaX;
        if(absDeltaY > max){ max = absDeltaY; }
        if(absDeltaZ > max){ max = absDeltaZ; }

        let lerp = 0.49/max;

        if(lerp <= 1)
        {
            return [
                centerX + deltaX*lerp,
                centerY + deltaY*lerp,
                centerZ + deltaZ*lerp
            ];
        }
        else
        {
            return [ax, ay, az];
        }
    }
    let average = (inArray, inPointInd, inOthersIndArray) =>
    {
        let sum = [0, 0, 0];
        for(let i=0; i<inOthersIndArray.length; i++)
        {
            let otherInd = inOthersIndArray[i]*3;
            sum[0] += inArray[otherInd+0];
            sum[1] += inArray[otherInd+1];
            sum[2] += inArray[otherInd+2];
        }
        
        let pointX = inPointInd*3 + 0;
        let pointY = inPointInd*3 + 1;
        let pointZ = inPointInd*3 + 2;
        let reducer = inOthersIndArray.length;

        let limited = limit(inArray[pointX], inArray[pointY], inArray[pointZ], sum[0]/reducer, sum[1]/reducer, sum[2]/reducer);

        inArray[pointX] = limited[0];
        inArray[pointY] = limited[1];
        inArray[pointZ] = limited[2];
    };
    let smooth = (inVertsArray, inNeighborsArray, inTimes) =>
    {
        let count = inVertsArray.length/3;
        for(let t=0; t<inTimes; t++)
        {
            for(let i=0; i<count; i++)
            {
                average(inVertsArray, i, inNeighborsArray[i]);
            }
        }
        return inVertsArray;
    }

    let voxels = [];
    voxels[Region.I(0, 0, 0)] = true;
    voxels[Region.I(1, 0, 0)] = true;
    voxels[Region.I(2, 0, 0)] = true;
    voxels[Region.I(0, 1, 0)] = true;
    voxels[Region.I(1, 1, 0)] = true;
    voxels[Region.I(0, 2, 0)] = true;

    /*
    voxels[Region.I(0, 0, 1)] = true;
    voxels[Region.I(1, 0, 1)] = true;
    voxels[Region.I(2, 0, 1)] = true;
    voxels[Region.I(0, 1, 1)] = true;
    voxels[Region.I(1, 1, 1)] = true;
    voxels[Region.I(0, 2, 1)] = true;

    voxels[Region.I(0, 0, 2)] = true;
    voxels[Region.I(1, 0, 2)] = true;
    voxels[Region.I(2, 0, 2)] = true;
    voxels[Region.I(0, 1, 2)] = true;
    voxels[Region.I(1, 1, 2)] = true;
    voxels[Region.I(0, 2, 2)] = true;

    voxels[Region.I(0, 0, 3)] = true;
    voxels[Region.I(1, 0, 3)] = true;
    voxels[Region.I(2, 0, 3)] = true;
    voxels[Region.I(0, 1, 3)] = true;
    voxels[Region.I(1, 1, 3)] = true;
    voxels[Region.I(0, 2, 3)] = true;
    */


    let surface = Region.Surface(voxels);
    let vertsCube = new Float32Array(surface.vertices.flat());
    let surfaceCubeGeometry = new THREE.BufferGeometry();
    surfaceCubeGeometry.setAttribute('position', new THREE.BufferAttribute(vertsCube, 3) );
    surfaceCubeGeometry.setIndex(surface.triPointVert);
    surfaceCubeGeometry.computeVertexNormals(true);
    let surfaceCubeObject = new THREE.Mesh(
        surfaceCubeGeometry,
        new THREE.MeshBasicMaterial({color:0x666666, wireframe:true, side:THREE.DoubleSide})
    );


    let vertsSmooth = new Float32Array(smooth(surface.vertices.flat(), surface.vertPointNeighbors, 10));
    let surfaceSmoothGeometry = new THREE.BufferGeometry();
    surfaceSmoothGeometry.setAttribute('position', new THREE.BufferAttribute(vertsSmooth, 3) );
    surfaceSmoothGeometry.setIndex(surface.triPointVert);
    surfaceSmoothGeometry.computeVertexNormals(true);
    let surfaceSmoothObject = new THREE.Mesh(
        surfaceSmoothGeometry,
        new THREE.MeshBasicMaterial({color:0xffffff, wireframe:true, side:THREE.DoubleSide, flatShading:true})
    );



    return {
        DOM:"canvas",
        Init(inScene)
        {   
            let light = new THREE.PointLight(0xffffff, 1, 100)
            light.position.set(5, 5, -5);
            inScene.add(light)
            inScene.add(surfaceCubeObject);
            inScene.add(surfaceSmoothObject);

            inScene.add(new THREE.GridHelper(10, 10));
            inScene.add(new THREE.AxesHelper( 5 ));
        },
        Update(inScene, inDelta){}
    };

}

Scene(surfaceTest());

</script>

    </body>
</html>