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debugger3d.js
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debugger3d.js
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"use strict";
const holesIn = require("../../lib/index");
const pathHelper = require("../../lib/path-helper")
const BABYLON = require("babylonjs");
const debugger3d = {
cssclass: "canvas3d",
options: {inMesh:true, outMesh:true, frontMesh:true, backMesh:true, horizontalMesh:true,
wireframe:false, backFaceCulling:false,normals:false,swapToBabylon:true, displayNormals:false, lengthU: 100, lengthV: 100, enableTexture: "./assets/logo-rasterized.jpg" },
engine: null,
scene: null,
vertexData: null,
camera: null,
holes: null,
outerShape: null,
doNotBuild: null,
meshDirty: false,
updateMesh(){
const outerShape = debugger3d.outerShape;
const holes = debugger3d.holes;
if(!debugger3d.meshDirty){return;}
if(!holes || !outerShape || !outerShape.path){return;}
const cpyOptions = JSON.parse(JSON.stringify(debugger3d.options));
const cpyOut= JSON.parse(JSON.stringify(outerShape));
const cpyHoles= JSON.parse(JSON.stringify(holes));
if(debugger3d.options.doNotBuild) {
const val = debugger3d.toClipperString(document.getElementById("doNotBuild").value);
debugger3d.pathToEdge(JSON.parse(val));
cpyOptions.doNotBuild = JSON.parse(JSON.stringify(debugger3d.doNotBuild));
pathHelper.scaleUpPath(cpyOptions.doNotBuild);
}
cpyOptions.mergeVerticalGeometries = false;
const geom= holesIn.getGeometry(cpyOut,cpyHoles,cpyOptions);
let geomMerged= holesIn.mergeMeshes([geom.frontMesh, geom.backMesh, geom.inMesh, geom.outMesh,geom.horizontalMesh]);
let nullMesh= false;
if(!geomMerged){
geomMerged={};
geomMerged.points=[];
geomMerged.faces=[];
geomMerged.normals=[];
geomMerged.uvs=[];
nullMesh=true;
}
debugger3d.meshDirty=false;
const vertexData = debugger3d.vertexData;
vertexData.positions = geomMerged.points;
vertexData.indices = geomMerged.faces;
vertexData.normals = geomMerged.normals;
vertexData.uvs = geomMerged.uvs;
vertexData.applyToMesh(debugger3d.mesh, 1);
if(nullMesh){return;}
const material = debugger3d.mesh.material;
material.wireframe=debugger3d.options.wireframe;
material.backFaceCulling=debugger3d.options.backFaceCulling;
if(debugger3d.options.enableTexture) {
material.ambientTexture = new BABYLON.Texture(debugger3d.options.enableTexture, debugger3d.scene);
} else {
material.ambientTexture = null;
}
debugger3d.scene.meshes.filter( mesh => mesh.name === "lines" ).forEach( mesh => mesh.dispose());
if(debugger3d.options.displayNormals){
debugger3d.displayNormals(geomMerged);
}
debugger3d.updateCamera();
},
updateCamera(){
//updates the camera postion
debugger3d.mesh.refreshBoundingInfo();
const boundingSphere = debugger3d.mesh.getBoundingInfo().boundingSphere;
const center = boundingSphere.maximum.add(boundingSphere.minimum).scale(0.5);
debugger3d.camera.target = center;
},
displayNormals(geom){
for(let i=0;i<geom.points.length;i+=3){
const origin = new BABYLON.Vector3(geom.points[i],geom.points[i+1],geom.points[i+2]);
const norm = new BABYLON.Vector3(geom.normals[i],geom.normals[i+1],geom.normals[i+2]).scale(5);
const dst= origin.add(norm);
const lineMesh =new BABYLON.Mesh.CreateLines("lines"+i, [origin ,dst],debugger3d.scene);
}
},
createScene(engine,canvas) {
const camera = new BABYLON.ArcRotateCamera("camera1",0, 0, 200,new BABYLON.Vector3(0,0,0), debugger3d.scene);
camera.radius = 200;
camera.setTarget(new BABYLON.Vector3(0,0,0));
camera.attachControl(canvas, false);
debugger3d.camera= camera;
const light1 = new BABYLON.HemisphericLight('light1', new BABYLON.Vector3(1,1,1), debugger3d.scene);
const light2 = new BABYLON.HemisphericLight('light2', new BABYLON.Vector3(-1,-1,0), debugger3d.scene);
light1.diffuse = new BABYLON.Color3(1, 1, 1);
light1.specular = new BABYLON.Color3(1, 1, 1);
light2.diffuse = new BABYLON.Color3(1, 1, 1);
light2.specular = new BABYLON.Color3(1, 1, 1);
debugger3d.scene.clearColor = new BABYLON.Color3(0.3,0.3,0.3);
debugger3d.scene.onPointerDown = function (evt, pickResult) {
// if the click hits the ground object, we change the impact position
const textureCoordinates = pickResult.getTextureCoordinates();
// console.log("tex ", textureCoordinates, " point ", pickResult.pickedPoint);
};
},
createMesh(){
const mesh= new BABYLON.Mesh("Mesh", debugger3d.scene);
mesh.position = BABYLON.Vector3.Zero();
debugger3d.vertexData = new BABYLON.VertexData();
const material = new BABYLON.StandardMaterial("mat1",debugger3d.scene);
material.wireframe= debugger3d.options.wireframe;
material.backFaceCulling = debugger3d.options.backFaceCulling;
material.ambientColor= new BABYLON.Color3(1,1,1);
material.diffuseColor= new BABYLON.Color3(1,1,1);
mesh.material= material;
debugger3d.mesh = mesh;
},
init() {
debugger3d.initBabylon();
debugger3d.initEvents();
},
initBabylon(){
document.querySelectorAll('input').forEach(el =>
el.checked =debugger3d.options[el.getAttribute("data-target")]);
const canvas3d= document.getElementById("babylon");
canvas3d.classList.add("canvas3d");
setTimeout(() => {
canvas3d.height = canvas3d.offsetHeight;
canvas3d.width = canvas3d.offsetWidth;
}, 200);
debugger3d.engine = new BABYLON.Engine(canvas3d, true);
debugger3d.scene = new BABYLON.Scene(debugger3d.engine);
debugger3d.createScene(debugger3d.engine,canvas3d);
debugger3d.createMesh();
debugger3d.engine.runRenderLoop(function() {
debugger3d.scene.render();
debugger3d.updateMesh();
});
},
initEvents(){
["option", "option3d"].forEach(elementId => {
[...document.getElementById(elementId).getElementsByTagName('input')].forEach(el => {
el.addEventListener("change", e => {
const value = (e.target.checked);
debugger3d.options[el.getAttribute("data-target")] = value;
debugger3d.meshDirty = true;
});
el.checked = debugger3d.options[el.getAttribute("data-target")];
});
});
document.addEventListener('resize', function(){
debugger3d.engine.resize();
});
document.getElementById("babylon").addEventListener('resize', function(){
debugger3d.engine.resize();
});
},
pathToEdge (paths) {
if (!paths || !paths.length ) return;
if(!paths[0].length) paths = [paths];
const doNotBuild = paths;
const edges = [];
for (let i = 0; i < doNotBuild.length; i++) {
const path = doNotBuild[i];
for (let j = 0; j < path.length; j++) {
const ptA = path[j];
const ptB = path[(j + 1) % path.length];
edges.push([{X:ptA.X,Y:ptA.Y},{X:ptB.X,Y:ptB.Y}]);
}
}
debugger3d.doNotBuild = edges;
},
rebuild(outerShape, holes){
debugger3d.outerShape = JSON.parse(JSON.stringify(outerShape));
debugger3d.holes = JSON.parse(JSON.stringify(holes));
debugger3d.meshDirty = true;
},
toClipperString(string) {
return string.replace(/x/g,"X").replace(/y/g, "Y");
}
};
module.exports = debugger3d;