/* Copyright (c) 2006-2008 MetaCarta, Inc., published under the Clear BSD * license. See http://svn.openlayers.org/trunk/openlayers/license.txt for the * full text of the license. */ // TRASH THIS OpenLayers.State = { /** states */ UNKNOWN: 'Unknown', INSERT: 'Insert', UPDATE: 'Update', DELETE: 'Delete' }; /** * @requires OpenLayers/Feature.js * @requires OpenLayers/Util.js */ /** * Class: OpenLayers.Feature.Vector * Vector features use the OpenLayers.Geometry classes as geometry description. * They have an 'attributes' property, which is the data object, and a 'style' * property, the default values of which are defined in the * objects. * * Inherits from: * - */ OpenLayers.Feature.Vector = OpenLayers.Class(OpenLayers.Feature, { /** * Property: fid * {String} */ fid: null, /** * APIProperty: geometry * {} */ geometry: null, /** * APIProperty: attributes * {Object} This object holds arbitrary properties that describe the * feature. */ attributes: null, /** * Property: state * {String} */ state: null, /** * APIProperty: style * {Object} */ style: null, /** * Property: renderIntent * {String} rendering intent currently being used */ renderIntent: "default", /** * Constructor: OpenLayers.Feature.Vector * Create a vector feature. * * Parameters: * geometry - {} The geometry that this feature * represents. * attributes - {Object} An optional object that will be mapped to the * property. * style - {Object} An optional style object. */ initialize: function(geometry, attributes, style) { OpenLayers.Feature.prototype.initialize.apply(this, [null, null, attributes]); this.lonlat = null; this.geometry = geometry ? geometry : null; this.state = null; this.attributes = {}; if (attributes) { this.attributes = OpenLayers.Util.extend(this.attributes, attributes); } this.style = style ? style : null; }, /** * Method: destroy * nullify references to prevent circular references and memory leaks */ destroy: function() { if (this.layer) { this.layer.removeFeatures(this); this.layer = null; } this.geometry = null; OpenLayers.Feature.prototype.destroy.apply(this, arguments); }, /** * Method: clone * Create a clone of this vector feature. Does not set any non-standard * properties. * * Returns: * {} An exact clone of this vector feature. */ clone: function () { return new OpenLayers.Feature.Vector( this.geometry ? this.geometry.clone() : null, this.attributes, this.style); }, /** * Method: onScreen * Determine whether the feature is within the map viewport. This method * tests for an intersection between the geometry and the viewport * bounds. If a more effecient but less precise geometry bounds * intersection is desired, call the method with the boundsOnly * parameter true. * * Parameters: * boundsOnly - {Boolean} Only test whether a feature's bounds intersects * the viewport bounds. Default is false. If false, the feature's * geometry must intersect the viewport for onScreen to return true. * * Returns: * {Boolean} The feature is currently visible on screen (optionally * based on its bounds if boundsOnly is true). */ onScreen:function(boundsOnly) { var onScreen = false; if(this.layer && this.layer.map) { var screenBounds = this.layer.map.getExtent(); if(boundsOnly) { var featureBounds = this.geometry.getBounds(); onScreen = screenBounds.intersectsBounds(featureBounds); } else { var screenPoly = screenBounds.toGeometry(); onScreen = screenPoly.intersects(this.geometry); } } return onScreen; }, /** * Method: createMarker * HACK - we need to decide if all vector features should be able to * create markers * * Returns: * {} For now just returns null */ createMarker: function() { return null; }, /** * Method: destroyMarker * HACK - we need to decide if all vector features should be able to * delete markers * * If user overrides the createMarker() function, s/he should be able * to also specify an alternative function for destroying it */ destroyMarker: function() { // pass }, /** * Method: createPopup * HACK - we need to decide if all vector features should be able to * create popups * * Returns: * {} For now just returns null */ createPopup: function() { return null; }, /** * Method: atPoint * Determins whether the feature intersects with the specified location. * * Parameters: * lonlat - {} * toleranceLon - {float} Optional tolerance in Geometric Coords * toleranceLat - {float} Optional tolerance in Geographic Coords * * Returns: * {Boolean} Whether or not the feature is at the specified location */ atPoint: function(lonlat, toleranceLon, toleranceLat) { var atPoint = false; if(this.geometry) { atPoint = this.geometry.atPoint(lonlat, toleranceLon, toleranceLat); } return atPoint; }, /** * Method: destroyPopup * HACK - we need to decide if all vector features should be able to * delete popups */ destroyPopup: function() { // pass }, /** * Method: move * Moves the feature and redraws it at its new location * * Parameters: * state - {OpenLayers.LonLat or OpenLayers.Pixel} the * location to which to move the feature. */ move: function(location) { if(!this.layer || !this.geometry.move){ //do nothing if no layer or immoveable geometry return; } var pixel; if (location.CLASS_NAME == "OpenLayers.LonLat") { pixel = this.layer.getViewPortPxFromLonLat(location); } else { pixel = location; } var lastPixel = this.layer.getViewPortPxFromLonLat(this.geometry.getBounds().getCenterLonLat()); var res = this.layer.map.getResolution(); this.geometry.move(res * (pixel.x - lastPixel.x), res * (lastPixel.y - pixel.y)); this.layer.drawFeature(this); return lastPixel; }, /** * Method: toState * Sets the new state * * Parameters: * state - {String} */ toState: function(state) { if (state == OpenLayers.State.UPDATE) { switch (this.state) { case OpenLayers.State.UNKNOWN: case OpenLayers.State.DELETE: this.state = state; break; case OpenLayers.State.UPDATE: case OpenLayers.State.INSERT: break; } } else if (state == OpenLayers.State.INSERT) { switch (this.state) { case OpenLayers.State.UNKNOWN: break; default: this.state = state; break; } } else if (state == OpenLayers.State.DELETE) { switch (this.state) { case OpenLayers.State.INSERT: // the feature should be destroyed break; case OpenLayers.State.DELETE: break; case OpenLayers.State.UNKNOWN: case OpenLayers.State.UPDATE: this.state = state; break; } } else if (state == OpenLayers.State.UNKNOWN) { this.state = state; } }, CLASS_NAME: "OpenLayers.Feature.Vector" }); /** * Constant: OpenLayers.Feature.Vector.style * OpenLayers features can have a number of style attributes. The 'default' * style will typically be used if no other style is specified. * * Default style properties: * * - fillColor: "#ee9900", * - fillOpacity: 0.4, * - hoverFillColor: "white", * - hoverFillOpacity: 0.8, * - strokeColor: "#ee9900", * - strokeOpacity: 1, * - strokeWidth: 1, * - strokeLinecap: "round", [butt | round | square] * - strokeDashstyle: "solid", [dot | dash | dashdot | longdash | longdashdot | solid] * - hoverStrokeColor: "red", * - hoverStrokeOpacity: 1, * - hoverStrokeWidth: 0.2, * - pointRadius: 6, * - hoverPointRadius: 1, * - hoverPointUnit: "%", * - pointerEvents: "visiblePainted" * - cursor: "" * * Other style properties that have no default values: * * - externalGraphic, * - graphicWidth, * - graphicHeight, * - graphicOpacity, * - graphicXOffset, * - graphicYOffset, * - graphicName, * - display */ OpenLayers.Feature.Vector.style = { 'default': { fillColor: "#ee9900", fillOpacity: 0.4, hoverFillColor: "white", hoverFillOpacity: 0.8, strokeColor: "#ee9900", strokeOpacity: 1, strokeWidth: 1, strokeLinecap: "round", strokeDashstyle: "solid", hoverStrokeColor: "red", hoverStrokeOpacity: 1, hoverStrokeWidth: 0.2, pointRadius: 6, hoverPointRadius: 1, hoverPointUnit: "%", pointerEvents: "visiblePainted", cursor: "inherit" }, 'select': { fillColor: "blue", fillOpacity: 0.4, hoverFillColor: "white", hoverFillOpacity: 0.8, strokeColor: "blue", strokeOpacity: 1, strokeWidth: 2, strokeLinecap: "round", strokeDashstyle: "solid", hoverStrokeColor: "red", hoverStrokeOpacity: 1, hoverStrokeWidth: 0.2, pointRadius: 6, hoverPointRadius: 1, hoverPointUnit: "%", pointerEvents: "visiblePainted", cursor: "pointer" }, 'temporary': { fillColor: "yellow", fillOpacity: 0.2, hoverFillColor: "white", hoverFillOpacity: 0.8, strokeColor: "yellow", strokeOpacity: 1, strokeLinecap: "round", strokeWidth: 4, strokeDashstyle: "solid", hoverStrokeColor: "red", hoverStrokeOpacity: 1, hoverStrokeWidth: 0.2, pointRadius: 6, hoverPointRadius: 1, hoverPointUnit: "%", pointerEvents: "visiblePainted", cursor: "inherit" } };