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ColladaLoader.js
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ColladaLoader.js
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/**
* @author Tim Knip / http://www.floorplanner.com/ / tim at floorplanner.com
* @author Tony Parisi / http://www.tonyparisi.com/
*/
THREE.ColladaLoader = function () {
var COLLADA = null;
var scene = null;
var daeScene;
var readyCallbackFunc = null;
var sources = {};
var images = {};
var animations = {};
var controllers = {};
var geometries = {};
var materials = {};
var effects = {};
var cameras = {};
var lights = {};
var animData;
var visualScenes;
var baseUrl;
var morphs;
var skins;
var flip_uv = true;
var preferredShading = THREE.SmoothShading;
var options = {
// Force Geometry to always be centered at the local origin of the
// containing Mesh.
centerGeometry: false,
// Axis conversion is done for geometries, animations, and controllers.
// If we ever pull cameras or lights out of the COLLADA file, they'll
// need extra work.
convertUpAxis: false,
subdivideFaces: true,
upAxis: 'Y',
// For reflective or refractive materials we'll use this cubemap
defaultEnvMap: null
};
var colladaUnit = 1.0;
var colladaUp = 'Y';
var upConversion = null;
function load ( url, readyCallback, progressCallback ) {
var length = 0;
if ( document.implementation && document.implementation.createDocument ) {
var request = new XMLHttpRequest();
request.onreadystatechange = function() {
if( request.readyState == 4 ) {
if( request.status == 0 || request.status == 200 ) {
if ( request.responseXML ) {
readyCallbackFunc = readyCallback;
parse( request.responseXML, undefined, url );
} else if ( request.responseText ) {
readyCallbackFunc = readyCallback;
var xmlParser = new DOMParser();
var responseXML = xmlParser.parseFromString( request.responseText, "application/xml" );
parse( responseXML, undefined, url );
} else {
console.error( "ColladaLoader: Empty or non-existing file (" + url + ")" );
}
}
} else if ( request.readyState == 3 ) {
if ( progressCallback ) {
if ( length == 0 ) {
length = request.getResponseHeader( "Content-Length" );
}
progressCallback( { total: length, loaded: request.responseText.length } );
}
}
}
request.open( "GET", url, true );
request.send( null );
} else {
alert( "Don't know how to parse XML!" );
}
}
function parse( doc, callBack, url ) {
COLLADA = doc;
callBack = callBack || readyCallbackFunc;
if ( url !== undefined ) {
var parts = url.split( '/' );
parts.pop();
baseUrl = ( parts.length < 1 ? '.' : parts.join( '/' ) ) + '/';
}
parseAsset();
setUpConversion();
images = parseLib( "library_images image", _Image, "image" );
materials = parseLib( "library_materials material", Material, "material" );
effects = parseLib( "library_effects effect", Effect, "effect" );
geometries = parseLib( "library_geometries geometry", Geometry, "geometry" );
cameras = parseLib( "library_cameras camera", Camera, "camera" );
lights = parseLib( "library_lights light", Light, "light" );
controllers = parseLib( "library_controllers controller", Controller, "controller" );
animations = parseLib( "library_animations animation", Animation, "animation" );
visualScenes = parseLib( "library_visual_scenes visual_scene", VisualScene, "visual_scene" );
morphs = [];
skins = [];
daeScene = parseScene();
scene = new THREE.Object3D();
for ( var i = 0; i < daeScene.nodes.length; i ++ ) {
scene.add( createSceneGraph( daeScene.nodes[ i ] ) );
}
// unit conversion
scene.scale.multiplyScalar( colladaUnit );
createAnimations();
var result = {
scene: scene,
morphs: morphs,
skins: skins,
animations: animData,
dae: {
images: images,
materials: materials,
cameras: cameras,
lights: lights,
effects: effects,
geometries: geometries,
controllers: controllers,
animations: animations,
visualScenes: visualScenes,
scene: daeScene
}
};
if ( callBack ) {
callBack( result );
}
return result;
}
function setPreferredShading ( shading ) {
preferredShading = shading;
}
function parseAsset () {
var elements = COLLADA.querySelectorAll('asset');
var element = elements[0];
if ( element && element.childNodes ) {
for ( var i = 0; i < element.childNodes.length; i ++ ) {
var child = element.childNodes[ i ];
switch ( child.nodeName ) {
case 'unit':
var meter = child.getAttribute( 'meter' );
if ( meter ) {
colladaUnit = parseFloat( meter );
}
break;
case 'up_axis':
colladaUp = child.textContent.charAt(0);
break;
}
}
}
}
function parseLib ( q, classSpec, prefix ) {
var elements = COLLADA.querySelectorAll(q);
var lib = {};
var i = 0;
var elementsLength = elements.length;
for ( var j = 0; j < elementsLength; j ++ ) {
var element = elements[j];
var daeElement = ( new classSpec() ).parse( element );
if ( !daeElement.id || daeElement.id.length == 0 ) daeElement.id = prefix + ( i ++ );
lib[ daeElement.id ] = daeElement;
}
return lib;
}
function parseScene() {
var sceneElement = COLLADA.querySelectorAll('scene instance_visual_scene')[0];
if ( sceneElement ) {
var url = sceneElement.getAttribute( 'url' ).replace( /^#/, '' );
return visualScenes[ url.length > 0 ? url : 'visual_scene0' ];
} else {
return null;
}
}
function createAnimations() {
animData = [];
// fill in the keys
recurseHierarchy( scene );
}
function recurseHierarchy( node ) {
var n = daeScene.getChildById( node.id, true ),
newData = null;
if ( n && n.keys ) {
newData = {
fps: 60,
hierarchy: [ {
node: n,
keys: n.keys,
sids: n.sids
} ],
node: node,
name: 'animation_' + node.name,
length: 0
};
animData.push(newData);
for ( var i = 0, il = n.keys.length; i < il; i++ ) {
newData.length = Math.max( newData.length, n.keys[i].time );
}
} else {
newData = {
hierarchy: [ {
keys: [],
sids: []
} ]
}
}
for ( var i = 0, il = node.children.length; i < il; i++ ) {
var d = recurseHierarchy( node.children[i] );
for ( var j = 0, jl = d.hierarchy.length; j < jl; j ++ ) {
newData.hierarchy.push( {
keys: [],
sids: []
} );
}
}
return newData;
}
function calcAnimationBounds () {
var start = 1000000;
var end = -start;
var frames = 0;
var ID;
for ( var id in animations ) {
var animation = animations[ id ];
ID = ID || animation.id;
for ( var i = 0; i < animation.sampler.length; i ++ ) {
var sampler = animation.sampler[ i ];
sampler.create();
start = Math.min( start, sampler.startTime );
end = Math.max( end, sampler.endTime );
frames = Math.max( frames, sampler.input.length );
}
}
return { start:start, end:end, frames:frames,ID:ID };
}
function createMorph ( geometry, ctrl ) {
var morphCtrl = ctrl instanceof InstanceController ? controllers[ ctrl.url ] : ctrl;
if ( !morphCtrl || !morphCtrl.morph ) {
console.log("could not find morph controller!");
return;
}
var morph = morphCtrl.morph;
for ( var i = 0; i < morph.targets.length; i ++ ) {
var target_id = morph.targets[ i ];
var daeGeometry = geometries[ target_id ];
if ( !daeGeometry.mesh ||
!daeGeometry.mesh.primitives ||
!daeGeometry.mesh.primitives.length ) {
continue;
}
var target = daeGeometry.mesh.primitives[ 0 ].geometry;
if ( target.vertices.length === geometry.vertices.length ) {
geometry.morphTargets.push( { name: "target_1", vertices: target.vertices } );
}
}
geometry.morphTargets.push( { name: "target_Z", vertices: geometry.vertices } );
};
function createSkin ( geometry, ctrl, applyBindShape ) {
var skinCtrl = controllers[ ctrl.url ];
if ( !skinCtrl || !skinCtrl.skin ) {
console.log( "could not find skin controller!" );
return;
}
if ( !ctrl.skeleton || !ctrl.skeleton.length ) {
console.log( "could not find the skeleton for the skin!" );
return;
}
var skin = skinCtrl.skin;
var skeleton = daeScene.getChildById( ctrl.skeleton[ 0 ] );
var hierarchy = [];
applyBindShape = applyBindShape !== undefined ? applyBindShape : true;
var bones = [];
geometry.skinWeights = [];
geometry.skinIndices = [];
//createBones( geometry.bones, skin, hierarchy, skeleton, null, -1 );
//createWeights( skin, geometry.bones, geometry.skinIndices, geometry.skinWeights );
/*
geometry.animation = {
name: 'take_001',
fps: 30,
length: 2,
JIT: true,
hierarchy: hierarchy
};
*/
if ( applyBindShape ) {
for ( var i = 0; i < geometry.vertices.length; i ++ ) {
geometry.vertices[ i ].applyMatrix4( skin.bindShapeMatrix );
}
}
}
function setupSkeleton ( node, bones, frame, parent ) {
node.world = node.world || new THREE.Matrix4();
node.localworld = node.localworld || new THREE.Matrix4();
node.world.copy( node.matrix );
node.localworld.copy( node.matrix );
if ( node.channels && node.channels.length ) {
var channel = node.channels[ 0 ];
var m = channel.sampler.output[ frame ];
if ( m instanceof THREE.Matrix4 ) {
node.world.copy( m );
node.localworld.copy(m);
if(frame == 0)
node.matrix.copy(m);
}
}
if ( parent ) {
node.world.multiplyMatrices( parent, node.world );
}
bones.push( node );
for ( var i = 0; i < node.nodes.length; i ++ ) {
setupSkeleton( node.nodes[ i ], bones, frame, node.world );
}
}
function setupSkinningMatrices ( bones, skin ) {
// FIXME: this is dumb...
for ( var i = 0; i < bones.length; i ++ ) {
var bone = bones[ i ];
var found = -1;
if ( bone.type != 'JOINT' ) continue;
for ( var j = 0; j < skin.joints.length; j ++ ) {
if ( bone.sid == skin.joints[ j ] ) {
found = j;
break;
}
}
if ( found >= 0 ) {
var inv = skin.invBindMatrices[ found ];
bone.invBindMatrix = inv;
bone.skinningMatrix = new THREE.Matrix4();
bone.skinningMatrix.multiplyMatrices(bone.world, inv); // (IBMi * JMi)
bone.animatrix = new THREE.Matrix4();
bone.animatrix.copy(bone.localworld);
bone.weights = [];
for ( var j = 0; j < skin.weights.length; j ++ ) {
for (var k = 0; k < skin.weights[ j ].length; k ++ ) {
var w = skin.weights[ j ][ k ];
if ( w.joint == found ) {
bone.weights.push( w );
}
}
}
} else {
console.warn( "ColladaLoader: Could not find joint '" + bone.sid + "'." );
bone.skinningMatrix = new THREE.Matrix4();
bone.weights = [];
}
}
}
//Walk the Collada tree and flatten the bones into a list, extract the position, quat and scale from the matrix
function flattenSkeleton(skeleton) {
var list = [];
var walk = function(parentid, node, list) {
var bone = {};
bone.name = node.sid;
bone.parent = parentid;
bone.matrix = node.matrix;
var data = [new THREE.Vector3(),new THREE.Quaternion(),new THREE.Vector3()];
bone.matrix.decompose(data[0],data[1],data[2]);
bone.pos = [data[0].x,data[0].y,data[0].z];
bone.scl = [data[2].x,data[2].y,data[2].z];
bone.rotq = [data[1].x,data[1].y,data[1].z,data[1].w];
list.push(bone);
for(var i in node.nodes) {
walk(node.sid,node.nodes[i],list);
}
};
walk(-1,skeleton,list);
return list;
}
//Move the vertices into the pose that is proper for the start of the animation
function skinToBindPose(geometry,skeleton,skinController) {
var bones = [];
setupSkeleton( skeleton, bones, -1 );
setupSkinningMatrices( bones, skinController.skin );
v = new THREE.Vector3();
var skinned = [];
for(var i =0; i < geometry.vertices.length; i++) {
skinned.push(new THREE.Vector3());
}
for ( i = 0; i < bones.length; i ++ ) {
if ( bones[ i ].type != 'JOINT' ) continue;
for ( j = 0; j < bones[ i ].weights.length; j ++ ) {
w = bones[ i ].weights[ j ];
vidx = w.index;
weight = w.weight;
o = geometry.vertices[vidx];
s = skinned[vidx];
v.x = o.x;
v.y = o.y;
v.z = o.z;
v.applyMatrix4( bones[i].skinningMatrix );
s.x += (v.x * weight);
s.y += (v.y * weight);
s.z += (v.z * weight);
}
}
for(var i =0; i < geometry.vertices.length; i++) {
geometry.vertices[i] = skinned[i];
}
}
function applySkin ( geometry, instanceCtrl, frame ) {
// TODO: get this from the renderer or options
var maxbones = 30;
var skinController = controllers[ instanceCtrl.url ];
frame = frame !== undefined ? frame : 40;
if ( !skinController || !skinController.skin ) {
console.log( 'ColladaLoader: Could not find skin controller.' );
return;
}
if ( !instanceCtrl.skeleton || !instanceCtrl.skeleton.length ) {
console.log( 'ColladaLoader: Could not find the skeleton for the skin. ' );
return;
}
var animationBounds = calcAnimationBounds();
var skeleton = daeScene.getChildById( instanceCtrl.skeleton[0], true ) ||
daeScene.getChildBySid( instanceCtrl.skeleton[0], true );
//flatten the skeleton into a list of bones
var bonelist = flattenSkeleton(skeleton);
var joints = skinController.skin.joints;
//sort that list so that the order reflects the order in the joint list
var sortedbones = [];
for(var i = 0; i < joints.length; i++) {
for(var j =0; j < bonelist.length; j++) {
if(bonelist[j].name == joints[i]) {
sortedbones[i] = bonelist[j];
}
}
}
//hook up the parents by index instead of name
for(var i = 0; i < sortedbones.length; i++) {
for(var j =0; j < sortedbones.length; j++) {
if(sortedbones[i].parent == sortedbones[j].name) {
sortedbones[i].parent = j;
}
}
}
var i, j, w, vidx, weight;
var v = new THREE.Vector3(), o, s;
// move vertices to bind shape
for ( i = 0; i < geometry.vertices.length; i ++ ) {
geometry.vertices[i].applyMatrix4( skinController.skin.bindShapeMatrix );
}
var skinIndices = [];
var skinWeights = [];
var weights = skinController.skin.weights;
//hook up the skin weights
// TODO - this might be a good place to choose greatest 4 weights
for(var i =0; i < weights.length; i++) {
var indicies = new THREE.Vector4(weights[i][0]?weights[i][0].joint:0,weights[i][1]?weights[i][1].joint:0,weights[i][2]?weights[i][2].joint:0,weights[i][3]?weights[i][3].joint:0);
var weight = new THREE.Vector4(weights[i][0]?weights[i][0].weight:0,weights[i][1]?weights[i][1].weight:0,weights[i][2]?weights[i][2].weight:0,weights[i][3]?weights[i][3].weight:0);
skinIndices.push(indicies);
skinWeights.push(weight);
}
geometry.skinIndices = skinIndices;
geometry.skinWeights = skinWeights;
geometry.bones = sortedbones;
// process animation, or simply pose the rig if no animation
//create an animation for the animated bones
//NOTE: this has no effect when using morphtargets
var animationdata = {"name":animationBounds.ID,"fps":30,"length":animationBounds.frames/30,"hierarchy":[]};
for(var j =0; j < sortedbones.length; j++) {
animationdata.hierarchy.push({parent:sortedbones[j].parent, name:sortedbones[j].name, keys:[]});
}
//if using hardware skinning, move the vertices into the binding pose
if(sortedbones.length < maxbones) {
skinToBindPose(geometry,skeleton,skinController);
}
for ( frame = 0; frame < animationBounds.frames; frame ++ ) {
var bones = [];
var skinned = [];
// process the frame and setup the rig with a fresh
// transform, possibly from the bone's animation channel(s)
setupSkeleton( skeleton, bones, frame );
setupSkinningMatrices( bones, skinController.skin );
//if using hardware skinning, just hook up the animiation data
if(sortedbones.length < maxbones) {
for(var i = 0; i < bones.length; i ++) {
for(var j = 0; j < animationdata.hierarchy.length; j ++) {
if(animationdata.hierarchy[j].name == bones[i].sid) {
var key = {};
key.time = (frame/30);
key.matrix = bones[i].animatrix;
if(frame == 0)
bones[i].matrix = key.matrix;
var data = [new THREE.Vector3(),new THREE.Quaternion(),new THREE.Vector3()];
key.matrix.decompose(data[0],data[1],data[2]);
key.pos = [data[0].x,data[0].y,data[0].z];
key.scl = [data[2].x,data[2].y,data[2].z];
key.rot = data[1];
animationdata.hierarchy[j].keys.push(key);
}
}
}
geometry.animation = animationdata;
} else {
// otherwise, process the animation into morphtargets
for ( i = 0; i < geometry.vertices.length; i++ ) {
skinned.push( new THREE.Vector3() );
}
for ( i = 0; i < bones.length; i ++ ) {
if ( bones[ i ].type != 'JOINT' ) continue;
for ( j = 0; j < bones[ i ].weights.length; j ++ ) {
w = bones[ i ].weights[ j ];
vidx = w.index;
weight = w.weight;
o = geometry.vertices[vidx];
s = skinned[vidx];
v.x = o.x;
v.y = o.y;
v.z = o.z;
v.applyMatrix4( bones[i].skinningMatrix );
s.x += (v.x * weight);
s.y += (v.y * weight);
s.z += (v.z * weight);
}
}
geometry.morphTargets.push( { name: "target_" + frame, vertices: skinned } );
}
}
};
function createSceneGraph ( node, parent ) {
var obj = new THREE.Object3D();
var skinned = false;
var skinController;
var morphController;
var i, j;
// FIXME: controllers
for ( i = 0; i < node.controllers.length; i ++ ) {
var controller = controllers[ node.controllers[ i ].url ];
switch ( controller.type ) {
case 'skin':
if ( geometries[ controller.skin.source ] ) {
var inst_geom = new InstanceGeometry();
inst_geom.url = controller.skin.source;
inst_geom.instance_material = node.controllers[ i ].instance_material;
node.geometries.push( inst_geom );
skinned = true;
skinController = node.controllers[ i ];
} else if ( controllers[ controller.skin.source ] ) {
// urgh: controller can be chained
// handle the most basic case...
var second = controllers[ controller.skin.source ];
morphController = second;
// skinController = node.controllers[i];
if ( second.morph && geometries[ second.morph.source ] ) {
var inst_geom = new InstanceGeometry();
inst_geom.url = second.morph.source;
inst_geom.instance_material = node.controllers[ i ].instance_material;
node.geometries.push( inst_geom );
}
}
break;
case 'morph':
if ( geometries[ controller.morph.source ] ) {
var inst_geom = new InstanceGeometry();
inst_geom.url = controller.morph.source;
inst_geom.instance_material = node.controllers[ i ].instance_material;
node.geometries.push( inst_geom );
morphController = node.controllers[ i ];
}
console.log( 'ColladaLoader: Morph-controller partially supported.' );
default:
break;
}
}
// geometries
var double_sided_materials = {};
for ( i = 0; i < node.geometries.length; i ++ ) {
var instance_geometry = node.geometries[i];
var instance_materials = instance_geometry.instance_material;
var geometry = geometries[ instance_geometry.url ];
var used_materials = {};
var used_materials_array = [];
var num_materials = 0;
var first_material;
if ( geometry ) {
if ( !geometry.mesh || !geometry.mesh.primitives )
continue;
if ( obj.name.length == 0 ) {
obj.name = geometry.id;
}
// collect used fx for this geometry-instance
if ( instance_materials ) {
for ( j = 0; j < instance_materials.length; j ++ ) {
var instance_material = instance_materials[ j ];
var mat = materials[ instance_material.target ];
var effect_id = mat.instance_effect.url;
var shader = effects[ effect_id ].shader;
var material3js = shader.material;
if ( geometry.doubleSided ) {
if ( !( instance_material.symbol in double_sided_materials ) ) {
var _copied_material = material3js.clone();
_copied_material.side = THREE.DoubleSide;
double_sided_materials[ instance_material.symbol ] = _copied_material;
}
material3js = double_sided_materials[ instance_material.symbol ];
}
material3js.opacity = !material3js.opacity ? 1 : material3js.opacity;
used_materials[ instance_material.symbol ] = num_materials;
used_materials_array.push( material3js );
first_material = material3js;
first_material.name = mat.name == null || mat.name === '' ? mat.id : mat.name;
num_materials ++;
}
}
var mesh;
var material = first_material || new THREE.MeshLambertMaterial( { color: 0xdddddd, shading: THREE.FlatShading, side: geometry.doubleSided ? THREE.DoubleSide : THREE.FrontSide } );
var geom = geometry.mesh.geometry3js;
if ( num_materials > 1 ) {
material = new THREE.MeshFaceMaterial( used_materials_array );
for ( j = 0; j < geom.faces.length; j ++ ) {
var face = geom.faces[ j ];
face.materialIndex = used_materials[ face.daeMaterial ]
}
}
if ( skinController !== undefined ) {