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Viewing file: MultiLineString.js (10.44 KB) -rw-rw-rw- Select action/file-type: (+) | (+) | (+) | Code (+) | Session (+) | (+) | SDB (+) | (+) | (+) | (+) | (+) | (+) | /* Copyright (c) 2006-2010 by OpenLayers Contributors (see authors.txt for * full list of contributors). Published under the Clear BSD license. * See http://svn.openlayers.org/trunk/openlayers/license.txt for the * full text of the license. */ /** * @requires OpenLayers/Geometry/Collection.js * @requires OpenLayers/Geometry/LineString.js */ /** * Class: OpenLayers.Geometry.MultiLineString * A MultiLineString is a geometry with multiple <OpenLayers.Geometry.LineString> * components. * * Inherits from: * - <OpenLayers.Geometry.Collection> * - <OpenLayers.Geometry> */ OpenLayers.Geometry.MultiLineString = OpenLayers.Class( OpenLayers.Geometry.Collection, { /** * Property: componentTypes * {Array(String)} An array of class names representing the types of * components that the collection can include. A null value means the * component types are not restricted. */ componentTypes: ["OpenLayers.Geometry.LineString"], /** * Constructor: OpenLayers.Geometry.MultiLineString * Constructor for a MultiLineString Geometry. * * Parameters: * components - {Array(<OpenLayers.Geometry.LineString>)} * */ initialize: function(components) { OpenLayers.Geometry.Collection.prototype.initialize.apply(this, arguments); }, /** * Method: split * Use this geometry (the source) to attempt to split a target geometry. * * Parameters: * target - {<OpenLayers.Geometry>} The target geometry. * options - {Object} Properties of this object will be used to determine * how the split is conducted. * * Valid options: * mutual - {Boolean} Split the source geometry in addition to the target * geometry. Default is false. * edge - {Boolean} Allow splitting when only edges intersect. Default is * true. If false, a vertex on the source must be within the tolerance * distance of the intersection to be considered a split. * tolerance - {Number} If a non-null value is provided, intersections * within the tolerance distance of an existing vertex on the source * will be assumed to occur at the vertex. * * Returns: * {Array} A list of geometries (of this same type as the target) that * result from splitting the target with the source geometry. The * source and target geometry will remain unmodified. If no split * results, null will be returned. If mutual is true and a split * results, return will be an array of two arrays - the first will be * all geometries that result from splitting the source geometry and * the second will be all geometries that result from splitting the * target geometry. */ split: function(geometry, options) { var results = null; var mutual = options && options.mutual; var splits, sourceLine, sourceLines, sourceSplit, targetSplit; var sourceParts = []; var targetParts = [geometry]; for(var i=0, len=this.components.length; i<len; ++i) { sourceLine = this.components[i]; sourceSplit = false; for(var j=0; j < targetParts.length; ++j) { splits = sourceLine.split(targetParts[j], options); if(splits) { if(mutual) { sourceLines = splits[0]; for(var k=0, klen=sourceLines.length; k<klen; ++k) { if(k===0 && sourceParts.length) { sourceParts[sourceParts.length-1].addComponent( sourceLines[k] ); } else { sourceParts.push( new OpenLayers.Geometry.MultiLineString([ sourceLines[k] ]) ); } } sourceSplit = true; splits = splits[1]; } if(splits.length) { // splice in new target parts splits.unshift(j, 1); Array.prototype.splice.apply(targetParts, splits); break; } } } if(!sourceSplit) { // source line was not hit if(sourceParts.length) { // add line to existing multi sourceParts[sourceParts.length-1].addComponent( sourceLine.clone() ); } else { // create a fresh multi sourceParts = [ new OpenLayers.Geometry.MultiLineString( sourceLine.clone() ) ]; } } } if(sourceParts && sourceParts.length > 1) { sourceSplit = true; } else { sourceParts = []; } if(targetParts && targetParts.length > 1) { targetSplit = true; } else { targetParts = []; } if(sourceSplit || targetSplit) { if(mutual) { results = [sourceParts, targetParts]; } else { results = targetParts; } } return results; }, /** * Method: splitWith * Split this geometry (the target) with the given geometry (the source). * * Parameters: * geometry - {<OpenLayers.Geometry>} A geometry used to split this * geometry (the source). * options - {Object} Properties of this object will be used to determine * how the split is conducted. * * Valid options: * mutual - {Boolean} Split the source geometry in addition to the target * geometry. Default is false. * edge - {Boolean} Allow splitting when only edges intersect. Default is * true. If false, a vertex on the source must be within the tolerance * distance of the intersection to be considered a split. * tolerance - {Number} If a non-null value is provided, intersections * within the tolerance distance of an existing vertex on the source * will be assumed to occur at the vertex. * * Returns: * {Array} A list of geometries (of this same type as the target) that * result from splitting the target with the source geometry. The * source and target geometry will remain unmodified. If no split * results, null will be returned. If mutual is true and a split * results, return will be an array of two arrays - the first will be * all geometries that result from splitting the source geometry and * the second will be all geometries that result from splitting the * target geometry. */ splitWith: function(geometry, options) { var results = null; var mutual = options && options.mutual; var splits, targetLine, sourceLines, sourceSplit, targetSplit, sourceParts, targetParts; if(geometry instanceof OpenLayers.Geometry.LineString) { targetParts = []; sourceParts = [geometry]; for(var i=0, len=this.components.length; i<len; ++i) { targetSplit = false; targetLine = this.components[i]; for(var j=0; j<sourceParts.length; ++j) { splits = sourceParts[j].split(targetLine, options); if(splits) { if(mutual) { sourceLines = splits[0]; if(sourceLines.length) { // splice in new source parts sourceLines.unshift(j, 1); Array.prototype.splice.apply(sourceParts, sourceLines); j += sourceLines.length - 2; } splits = splits[1]; if(splits.length === 0) { splits = [targetLine.clone()]; } } for(var k=0, klen=splits.length; k<klen; ++k) { if(k===0 && targetParts.length) { targetParts[targetParts.length-1].addComponent( splits[k] ); } else { targetParts.push( new OpenLayers.Geometry.MultiLineString([ splits[k] ]) ); } } targetSplit = true; } } if(!targetSplit) { // target component was not hit if(targetParts.length) { // add it to any existing multi-line targetParts[targetParts.length-1].addComponent( targetLine.clone() ); } else { // or start with a fresh multi-line targetParts = [ new OpenLayers.Geometry.MultiLineString([ targetLine.clone() ]) ]; } } } } else { results = geometry.split(this); } if(sourceParts && sourceParts.length > 1) { sourceSplit = true; } else { sourceParts = []; } if(targetParts && targetParts.length > 1) { targetSplit = true; } else { targetParts = []; } if(sourceSplit || targetSplit) { if(mutual) { results = [sourceParts, targetParts]; } else { results = targetParts; } } return results; }, CLASS_NAME: "OpenLayers.Geometry.MultiLineString" }); |
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