Mercurial > hg-public > scubatools / file revision
stlviewer.js@b3cf0176512e
stlviewer.js
Tue, 04 Apr 2017 03:13:58 +0200
- author
- mdd
- date
- Tue, 04 Apr 2017 03:13:58 +0200
- changeset 12
- b3cf0176512e
- parent 11
- 098335a1d510
- child 13
- 39fb313ba27c
- permissions
- -rw-r--r--
finished webrenderer
$( function() { $( "#sortable1 li" ).draggable({ helper: "clone", containment:"document" }); $( "#sortable2" ).droppable({ accept: "#sortable1 li", drop: function( event, ui ) { ui.draggable.clone(false).appendTo($(this)); for (i =0; i<10; i++) clear_scene(); window.setTimeout(update_scene,500); } }); $( "#sortable2" ).sortable({ placeholder: "ui-state-highlight", start: clear_scene, stop: function() { for (i =0; i<10; i++) clear_scene(); window.setTimeout(update_scene,500) } }); $( "#sortable2" ).disableSelection(); } ); function clear_scene() { scene.children.forEach(function(v){ if(v.stlfile === true) { //v.material.dispose(); v.geometry.dispose(); scene.remove(v); } //scene.remove(object); }); } function update_scene() { var cylinders = []; $("#sortable2 li").each(function(idx, e){ cylinders.push($(e).attr('key')); }); if (cylinders.length < 2) return; // fetch new objects list $.ajax({ url: "#", method: 'post', dataType: 'json', data: { action: 'calculate', cylinders: cylinders }, success: function(data) { //console.log(data); // remove all meshes clear_scene(); // append the objects with positioning for (i = 0; i<data.objects.length; i++) { var obj = data.objects[i]; if (obj[5] == "") { // spacer filename = "stl/spacer_" + obj[4][0] + '.stl'; material = 'm_spacer'; } else { // cylinder filename = "stl/cylinder_" + obj[5] + '.stl'; material = 'm_cylinder'; } position = [data.scale3d * 0.01 * obj[0], 0, 0]; loadSTL(filename, material + "", position); } } }); } function loadSTL(filename, material, position, rotation, scale) { //console.log(filename, position); var loader = new THREE.STLLoader(); loader.load( filename, function ( geometry ) { /*if (!material) var material = new THREE.MeshPhongMaterial( { color: 0xff5533, specular: 0x111111, shininess: 200 } ); else {*/ if (material == 'm_spacer') material = m_spacer; else if (material == 'm_cylinder') material = m_cylinder; //} var mesh = new THREE.Mesh( geometry, material ); //assignUVs(mesh.geometry); mesh["stlfile"] = true; if (!position) mesh.position.set( 0, -0.25, 0 ); else mesh.position.set( position[0], position[1], position[2] ); if (!rotation) mesh.rotation.set( 0, 0, 0 ); else mesh.rotation.set( rotation[0], rotation[1], rotation[2] ); if (!scale) mesh.scale.set( 0.01, 0.01, 0.01 ); else mesh.scale.set( scale[0], scale[1], scale[2] ); mesh.castShadow = true; mesh.receiveShadow = true; scene.add( mesh ); } ); } function init() { container = document.createElement( 'div' ); document.body.appendChild( container ); camera = new THREE.PerspectiveCamera( 45, window.innerWidth / window.innerHeight, 0.1, 20 ); camera.position.set( 0.5, 0.35, 2 ); cameraTarget = new THREE.Vector3( 0, -0.25, 0 ); scene = new THREE.Scene(); scene.fog = new THREE.Fog( 0x72645b, 2, 15 ); var controls = new THREE.OrbitControls(camera); // Ground var plane = new THREE.Mesh( new THREE.PlaneBufferGeometry( 40, 40 ), new THREE.MeshPhongMaterial( { color: 0x999999, specular: 0x101010 } ) ); plane.rotation.x = -Math.PI/2; plane.position.y = -0.5; scene.add( plane ); plane.receiveShadow = true; // Lights scene.add( new THREE.HemisphereLight( 0x443333, 0x111122 ) ); addShadowedLight( 1, 1, 1, 0xffffff, 1.35 ); //addShadowedLight( 0.5, 1, -1, 0xffaa00, 1 ); // renderer renderer = new THREE.WebGLRenderer( { antialias: true } ); renderer.setClearColor( scene.fog.color ); renderer.setPixelRatio( window.devicePixelRatio ); renderer.setSize( window.innerWidth, window.innerHeight ); renderer.gammaInput = true; renderer.gammaOutput = true; renderer.shadowMap.enabled = true; renderer.shadowMap.renderReverseSided = false; container.appendChild( renderer.domElement ); window.addEventListener( 'resize', onWindowResize, false ); } function addShadowedLight( x, y, z, color, intensity ) { var directionalLight = new THREE.DirectionalLight( color, intensity ); directionalLight.position.set( x, y, z ); scene.add( directionalLight ); directionalLight.castShadow = true; var d = 5; directionalLight.shadow.camera.left = -d; directionalLight.shadow.camera.right = d; directionalLight.shadow.camera.top = d; directionalLight.shadow.camera.bottom = -d; directionalLight.shadow.camera.near = 1; directionalLight.shadow.camera.far = 20; directionalLight.shadow.mapSize.width = 1024; directionalLight.shadow.mapSize.height = 1024; directionalLight.shadow.bias = -0.005; } function onWindowResize() { camera.aspect = window.innerWidth / window.innerHeight; camera.updateProjectionMatrix(); renderer.setSize( window.innerWidth, window.innerHeight ); } function animate() { requestAnimationFrame( animate ); //render(); renderer.render( scene, camera ); //stats.update(); } function render() { var timer = Date.now() * 0.0005; camera.position.x = Math.cos( timer ) * 3; camera.position.z = Math.sin( timer ) * 3; camera.lookAt( cameraTarget ); renderer.render( scene, camera ); } function assignUVs(geometry) { geometry.faceVertexUvs[0] = []; geometry.faces.forEach(function(face) { var components = ['x', 'y', 'z'].sort(function(a, b) { return Math.abs(face.normal[a]) > Math.abs(face.normal[b]); }); var v1 = geometry.vertices[face.a]; var v2 = geometry.vertices[face.b]; var v3 = geometry.vertices[face.c]; geometry.faceVertexUvs[0].push([ new THREE.Vector2(v1[components[0]], v1[components[1]]), new THREE.Vector2(v2[components[0]], v2[components[1]]), new THREE.Vector2(v3[components[0]], v3[components[1]]) ]); }); geometry.uvsNeedUpdate = true; }
