/* * Copyright 2007 (c) Tim Knip, ascollada.org. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, * copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following * conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. */ package org.ascollada.core { import flash.utils.Dictionary; import org.ascollada.ASCollada; public class student_ar_org_ascollada_core_DaePrimitive extends DaeEntity { /** parent element */ public var mesh:DaeMesh; /** The number of line primitives. required */ public var count:uint; /** materialname */ public var material:String; /** vcount use by polygon primitives */ public var vcount:Array; /** primitive type */ public var type:String; public var polygons:Array; /** * * @param mesh * @param node * @return */ public function student_ar_org_ascollada_core_DaePrimitive( mesh:DaeMesh, node:XML = null ):void { this.mesh = mesh; super(node); } /** normals */ public function get normals():Array { return getFirstInput("NORMAL"); } /** vertex indices */ public function get vertices():Array { return getFirstInput("VERTEX"); } /** * gets the texcoords by set. * * @param setID * @return */ public function getTexCoords( setID:uint = 0 ):Array { return getInputBySet("TEXCOORD", setID); } /** * * @return */ override public function read( node:XML ):void { if( !checkNode(node) ) throw new Error( "expected a primitive element!" ); if( !this.mesh ) throw new Error( "parent-element 'mesh' or 'convex_mesh' not set!" ); super.read(node); this.type = String( node.localName() ); this.count = getAttributeAsInt( node, ASCollada.DAE_COUNT_ATTRIBUTE ); this.material = getAttribute( node, ASCollada.DAE_MATERIAL_ATTRIBUTE ); this.vcount = new Array(); this.polygons = new Array(); _inputs = new Dictionary(); var parent:XML = node.parent() as XML; switch( String(parent.localName()) ) { case ASCollada.DAE_MESH_ELEMENT: switch(node.name().localName.toString()) { case ASCollada.DAE_POLYGONS_ELEMENT: parsePolygons(node); break; default: parse(node); break; } break; case ASCollada.DAE_CONVEX_MESH_ELEMENT: break; default: break; } } /** * * @param node * @return */ protected function parse( node:XML ):void { var p:Array = getInts( getNode(node, ASCollada.DAE_POLYGON_ELEMENT) ); var vcountNode:XML = getNode(node, ASCollada.DAE_VERTEXCOUNT_ELEMENT); var inputList:XMLList = getNodeList( node, ASCollada.DAE_INPUT_ELEMENT ); var inputs:Array = new Array(); var input:DaeInput; var maxoffset:uint = 0; if( vcountNode is XML ) { this.vcount = getInts( vcountNode ); } for each( var inputNode:XML in inputList ) { input = new DaeInput( inputNode ); maxoffset = Math.max(maxoffset, input.offset + 1); inputs.push( input ); _inputs[ input ] = new Array(); } for( var i:int = 0; i < p.length; i += maxoffset ) { for each( input in inputs ) { var idx:int = p[i + input.offset]; var values:Array = mesh.sources[input.source]; switch( input.semantic ) { case "VERTEX": _inputs[ input ].push( idx ); break; default: _inputs[ input ].push( values[idx] ); break; } } } } private function parsePolygons(node:XML):void { var inputs:Array = new Array(); var input:DaeInput; var maxoffset:uint = 0; var inputList:XMLList = getNodeList(node, ASCollada.DAE_INPUT_ELEMENT); var pList:XMLList = getNodeList(node, ASCollada.DAE_POLYGON_ELEMENT); var i:int; for(i = 0; i < inputList.length(); i++) { input = new DaeInput(inputList[i]); maxoffset = Math.max(maxoffset, input.offset + 1); inputs.push( input ); _inputs[ input ] = new Array(); } for each(var pNode:XML in pList) { var p:Array = getInts(pNode); var poly:Array = new Array(); for(i = 0; i < p.length; i += maxoffset ) { for each(input in inputs) { var idx:int = p[i + input.offset]; var values:Array = mesh.sources[input.source]; switch( input.semantic ) { case "VERTEX": _inputs[ input ].push( idx ); poly.push(idx); break; default: _inputs[ input ].push( values[idx] ); break; } } } this.polygons.push(poly); } } /** * * @param node * @return */ private function checkNode( node:XML ):Boolean { var name:String = String(node.localName()); return (name == ASCollada.DAE_TRIANGLES_ELEMENT || name == ASCollada.DAE_TRIFANS_ELEMENT || name == ASCollada.DAE_TRISTRIPS_ELEMENT || name == ASCollada.DAE_LINESTRIPS_ELEMENT || name == ASCollada.DAE_LINES_ELEMENT || name == ASCollada.DAE_POLYGONS_ELEMENT || name == ASCollada.DAE_POLYLIST_ELEMENT); } /** * * @param semantic * @return */ private function getFirstInput( semantic:String ):Array { for( var input:* in _inputs ) { if( input.semantic == semantic ) return _inputs[ input ]; } return null; } /** * * @param semantic * @return */ private function getInputBySet( semantic:String, setID:int ):Array { if( getInputCount(semantic) == 1 ) return getFirstInput(semantic); for( var input:* in _inputs ) { if( input.semantic == semantic && input.setId == setID ) return _inputs[ input ]; } return new Array(); } /** * * @param semantic * @return */ private function getInputCount( semantic:String ):uint { var cnt:uint = 0; for( var input:* in _inputs ) { if( input.semantic == semantic ) cnt++; } return cnt; } private var _inputs:Dictionary; } }