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authorChris Schlaeger <chris@linux.com>2014-08-12 21:56:44 +0200
committerChris Schlaeger <chris@linux.com>2014-08-12 21:56:44 +0200
commitea346a785dc1b3f7c156f6fc33da634e1f1a627b (patch)
treeaf67530553d20b6e82ad60fd79593e9c4abf5565 /misc/openlayers/lib/OpenLayers/Renderer/Elements.js
parent59741cd535c47f25971bf8c32b25da25ceadc6d5 (diff)
downloadpostrunner-ea346a785dc1b3f7c156f6fc33da634e1f1a627b.zip
Adding jquery, flot and openlayers to be included with the GEM.v0.0.4
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+/* Copyright (c) 2006-2013 by OpenLayers Contributors (see authors.txt for
+ * full list of contributors). Published under the 2-clause BSD license.
+ * See license.txt in the OpenLayers distribution or repository for the
+ * full text of the license. */
+
+/**
+ * @requires OpenLayers/Renderer.js
+ */
+
+/**
+ * Class: OpenLayers.ElementsIndexer
+ * This class takes care of figuring out which order elements should be
+ * placed in the DOM based on given indexing methods.
+ */
+OpenLayers.ElementsIndexer = OpenLayers.Class({
+
+ /**
+ * Property: maxZIndex
+ * {Integer} This is the largest-most z-index value for a node
+ * contained within the indexer.
+ */
+ maxZIndex: null,
+
+ /**
+ * Property: order
+ * {Array<String>} This is an array of node id's stored in the
+ * order that they should show up on screen. Id's higher up in the
+ * array (higher array index) represent nodes with higher z-indeces.
+ */
+ order: null,
+
+ /**
+ * Property: indices
+ * {Object} This is a hash that maps node ids to their z-index value
+ * stored in the indexer. This is done to make finding a nodes z-index
+ * value O(1).
+ */
+ indices: null,
+
+ /**
+ * Property: compare
+ * {Function} This is the function used to determine placement of
+ * of a new node within the indexer. If null, this defaults to to
+ * the Z_ORDER_DRAWING_ORDER comparison method.
+ */
+ compare: null,
+
+ /**
+ * APIMethod: initialize
+ * Create a new indexer with
+ *
+ * Parameters:
+ * yOrdering - {Boolean} Whether to use y-ordering.
+ */
+ initialize: function(yOrdering) {
+
+ this.compare = yOrdering ?
+ OpenLayers.ElementsIndexer.IndexingMethods.Z_ORDER_Y_ORDER :
+ OpenLayers.ElementsIndexer.IndexingMethods.Z_ORDER_DRAWING_ORDER;
+
+ this.clear();
+ },
+
+ /**
+ * APIMethod: insert
+ * Insert a new node into the indexer. In order to find the correct
+ * positioning for the node to be inserted, this method uses a binary
+ * search. This makes inserting O(log(n)).
+ *
+ * Parameters:
+ * newNode - {DOMElement} The new node to be inserted.
+ *
+ * Returns
+ * {DOMElement} the node before which we should insert our newNode, or
+ * null if newNode can just be appended.
+ */
+ insert: function(newNode) {
+ // If the node is known to the indexer, remove it so we can
+ // recalculate where it should go.
+ if (this.exists(newNode)) {
+ this.remove(newNode);
+ }
+
+ var nodeId = newNode.id;
+
+ this.determineZIndex(newNode);
+
+ var leftIndex = -1;
+ var rightIndex = this.order.length;
+ var middle;
+
+ while (rightIndex - leftIndex > 1) {
+ middle = parseInt((leftIndex + rightIndex) / 2);
+
+ var placement = this.compare(this, newNode,
+ OpenLayers.Util.getElement(this.order[middle]));
+
+ if (placement > 0) {
+ leftIndex = middle;
+ } else {
+ rightIndex = middle;
+ }
+ }
+
+ this.order.splice(rightIndex, 0, nodeId);
+ this.indices[nodeId] = this.getZIndex(newNode);
+
+ // If the new node should be before another in the index
+ // order, return the node before which we have to insert the new one;
+ // else, return null to indicate that the new node can be appended.
+ return this.getNextElement(rightIndex);
+ },
+
+ /**
+ * APIMethod: remove
+ *
+ * Parameters:
+ * node - {DOMElement} The node to be removed.
+ */
+ remove: function(node) {
+ var nodeId = node.id;
+ var arrayIndex = OpenLayers.Util.indexOf(this.order, nodeId);
+ if (arrayIndex >= 0) {
+ // Remove it from the order array, as well as deleting the node
+ // from the indeces hash.
+ this.order.splice(arrayIndex, 1);
+ delete this.indices[nodeId];
+
+ // Reset the maxium z-index based on the last item in the
+ // order array.
+ if (this.order.length > 0) {
+ var lastId = this.order[this.order.length - 1];
+ this.maxZIndex = this.indices[lastId];
+ } else {
+ this.maxZIndex = 0;
+ }
+ }
+ },
+
+ /**
+ * APIMethod: clear
+ */
+ clear: function() {
+ this.order = [];
+ this.indices = {};
+ this.maxZIndex = 0;
+ },
+
+ /**
+ * APIMethod: exists
+ *
+ * Parameters:
+ * node - {DOMElement} The node to test for existence.
+ *
+ * Returns:
+ * {Boolean} Whether or not the node exists in the indexer?
+ */
+ exists: function(node) {
+ return (this.indices[node.id] != null);
+ },
+
+ /**
+ * APIMethod: getZIndex
+ * Get the z-index value for the current node from the node data itself.
+ *
+ * Parameters:
+ * node - {DOMElement} The node whose z-index to get.
+ *
+ * Returns:
+ * {Integer} The z-index value for the specified node (from the node
+ * data itself).
+ */
+ getZIndex: function(node) {
+ return node._style.graphicZIndex;
+ },
+
+ /**
+ * Method: determineZIndex
+ * Determine the z-index for the current node if there isn't one,
+ * and set the maximum value if we've found a new maximum.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ */
+ determineZIndex: function(node) {
+ var zIndex = node._style.graphicZIndex;
+
+ // Everything must have a zIndex. If none is specified,
+ // this means the user *must* (hint: assumption) want this
+ // node to succomb to drawing order. To enforce drawing order
+ // over all indexing methods, we'll create a new z-index that's
+ // greater than any currently in the indexer.
+ if (zIndex == null) {
+ zIndex = this.maxZIndex;
+ node._style.graphicZIndex = zIndex;
+ } else if (zIndex > this.maxZIndex) {
+ this.maxZIndex = zIndex;
+ }
+ },
+
+ /**
+ * APIMethod: getNextElement
+ * Get the next element in the order stack.
+ *
+ * Parameters:
+ * index - {Integer} The index of the current node in this.order.
+ *
+ * Returns:
+ * {DOMElement} the node following the index passed in, or
+ * null.
+ */
+ getNextElement: function(index) {
+ var nextIndex = index + 1;
+ if (nextIndex < this.order.length) {
+ var nextElement = OpenLayers.Util.getElement(this.order[nextIndex]);
+ if (nextElement == undefined) {
+ nextElement = this.getNextElement(nextIndex);
+ }
+ return nextElement;
+ } else {
+ return null;
+ }
+ },
+
+ CLASS_NAME: "OpenLayers.ElementsIndexer"
+});
+
+/**
+ * Namespace: OpenLayers.ElementsIndexer.IndexingMethods
+ * These are the compare methods for figuring out where a new node should be
+ * placed within the indexer. These methods are very similar to general
+ * sorting methods in that they return -1, 0, and 1 to specify the
+ * direction in which new nodes fall in the ordering.
+ */
+OpenLayers.ElementsIndexer.IndexingMethods = {
+
+ /**
+ * Method: Z_ORDER
+ * This compare method is used by other comparison methods.
+ * It can be used individually for ordering, but is not recommended,
+ * because it doesn't subscribe to drawing order.
+ *
+ * Parameters:
+ * indexer - {<OpenLayers.ElementsIndexer>}
+ * newNode - {DOMElement}
+ * nextNode - {DOMElement}
+ *
+ * Returns:
+ * {Integer}
+ */
+ Z_ORDER: function(indexer, newNode, nextNode) {
+ var newZIndex = indexer.getZIndex(newNode);
+
+ var returnVal = 0;
+ if (nextNode) {
+ var nextZIndex = indexer.getZIndex(nextNode);
+ returnVal = newZIndex - nextZIndex;
+ }
+
+ return returnVal;
+ },
+
+ /**
+ * APIMethod: Z_ORDER_DRAWING_ORDER
+ * This method orders nodes by their z-index, but does so in a way
+ * that, if there are other nodes with the same z-index, the newest
+ * drawn will be the front most within that z-index. This is the
+ * default indexing method.
+ *
+ * Parameters:
+ * indexer - {<OpenLayers.ElementsIndexer>}
+ * newNode - {DOMElement}
+ * nextNode - {DOMElement}
+ *
+ * Returns:
+ * {Integer}
+ */
+ Z_ORDER_DRAWING_ORDER: function(indexer, newNode, nextNode) {
+ var returnVal = OpenLayers.ElementsIndexer.IndexingMethods.Z_ORDER(
+ indexer,
+ newNode,
+ nextNode
+ );
+
+ // Make Z_ORDER subscribe to drawing order by pushing it above
+ // all of the other nodes with the same z-index.
+ if (nextNode && returnVal == 0) {
+ returnVal = 1;
+ }
+
+ return returnVal;
+ },
+
+ /**
+ * APIMethod: Z_ORDER_Y_ORDER
+ * This one should really be called Z_ORDER_Y_ORDER_DRAWING_ORDER, as it
+ * best describes which ordering methods have precedence (though, the
+ * name would be too long). This method orders nodes by their z-index,
+ * but does so in a way that, if there are other nodes with the same
+ * z-index, the nodes with the lower y position will be "closer" than
+ * those with a higher y position. If two nodes have the exact same y
+ * position, however, then this method will revert to using drawing
+ * order to decide placement.
+ *
+ * Parameters:
+ * indexer - {<OpenLayers.ElementsIndexer>}
+ * newNode - {DOMElement}
+ * nextNode - {DOMElement}
+ *
+ * Returns:
+ * {Integer}
+ */
+ Z_ORDER_Y_ORDER: function(indexer, newNode, nextNode) {
+ var returnVal = OpenLayers.ElementsIndexer.IndexingMethods.Z_ORDER(
+ indexer,
+ newNode,
+ nextNode
+ );
+
+ if (nextNode && returnVal === 0) {
+ var result = nextNode._boundsBottom - newNode._boundsBottom;
+ returnVal = (result === 0) ? 1 : result;
+ }
+
+ return returnVal;
+ }
+};
+
+/**
+ * Class: OpenLayers.Renderer.Elements
+ * This is another virtual class in that it should never be instantiated by
+ * itself as a Renderer. It exists because there is *tons* of shared
+ * functionality between different vector libraries which use nodes/elements
+ * as a base for rendering vectors.
+ *
+ * The highlevel bits of code that are implemented here are the adding and
+ * removing of geometries, which is essentially the same for any
+ * element-based renderer. The details of creating each node and drawing the
+ * paths are of course different, but the machinery is the same.
+ *
+ * Inherits:
+ * - <OpenLayers.Renderer>
+ */
+OpenLayers.Renderer.Elements = OpenLayers.Class(OpenLayers.Renderer, {
+
+ /**
+ * Property: rendererRoot
+ * {DOMElement}
+ */
+ rendererRoot: null,
+
+ /**
+ * Property: root
+ * {DOMElement}
+ */
+ root: null,
+
+ /**
+ * Property: vectorRoot
+ * {DOMElement}
+ */
+ vectorRoot: null,
+
+ /**
+ * Property: textRoot
+ * {DOMElement}
+ */
+ textRoot: null,
+
+ /**
+ * Property: xmlns
+ * {String}
+ */
+ xmlns: null,
+
+ /**
+ * Property: xOffset
+ * {Number} Offset to apply to the renderer viewport translation in x
+ * direction. If the renderer extent's center is on the right of the
+ * dateline (i.e. exceeds the world bounds), we shift the viewport to the
+ * left by one world width. This avoids that features disappear from the
+ * map viewport. Because our dateline handling logic in other places
+ * ensures that extents crossing the dateline always have a center
+ * exceeding the world bounds on the left, we need this offset to make sure
+ * that the same is true for the renderer extent in pixel space as well.
+ */
+ xOffset: 0,
+
+ /**
+ * Property: rightOfDateLine
+ * {Boolean} Keeps track of the location of the map extent relative to the
+ * date line. The <setExtent> method compares this value (which is the one
+ * from the previous <setExtent> call) with the current position of the map
+ * extent relative to the date line and updates the xOffset when the extent
+ * has moved from one side of the date line to the other.
+ */
+
+ /**
+ * Property: Indexer
+ * {<OpenLayers.ElementIndexer>} An instance of OpenLayers.ElementsIndexer
+ * created upon initialization if the zIndexing or yOrdering options
+ * passed to this renderer's constructor are set to true.
+ */
+ indexer: null,
+
+ /**
+ * Constant: BACKGROUND_ID_SUFFIX
+ * {String}
+ */
+ BACKGROUND_ID_SUFFIX: "_background",
+
+ /**
+ * Constant: LABEL_ID_SUFFIX
+ * {String}
+ */
+ LABEL_ID_SUFFIX: "_label",
+
+ /**
+ * Constant: LABEL_OUTLINE_SUFFIX
+ * {String}
+ */
+ LABEL_OUTLINE_SUFFIX: "_outline",
+
+ /**
+ * Constructor: OpenLayers.Renderer.Elements
+ *
+ * Parameters:
+ * containerID - {String}
+ * options - {Object} options for this renderer.
+ *
+ * Supported options are:
+ * yOrdering - {Boolean} Whether to use y-ordering
+ * zIndexing - {Boolean} Whether to use z-indexing. Will be ignored
+ * if yOrdering is set to true.
+ */
+ initialize: function(containerID, options) {
+ OpenLayers.Renderer.prototype.initialize.apply(this, arguments);
+
+ this.rendererRoot = this.createRenderRoot();
+ this.root = this.createRoot("_root");
+ this.vectorRoot = this.createRoot("_vroot");
+ this.textRoot = this.createRoot("_troot");
+
+ this.root.appendChild(this.vectorRoot);
+ this.root.appendChild(this.textRoot);
+
+ this.rendererRoot.appendChild(this.root);
+ this.container.appendChild(this.rendererRoot);
+
+ if(options && (options.zIndexing || options.yOrdering)) {
+ this.indexer = new OpenLayers.ElementsIndexer(options.yOrdering);
+ }
+ },
+
+ /**
+ * Method: destroy
+ */
+ destroy: function() {
+
+ this.clear();
+
+ this.rendererRoot = null;
+ this.root = null;
+ this.xmlns = null;
+
+ OpenLayers.Renderer.prototype.destroy.apply(this, arguments);
+ },
+
+ /**
+ * Method: clear
+ * Remove all the elements from the root
+ */
+ clear: function() {
+ var child;
+ var root = this.vectorRoot;
+ if (root) {
+ while (child = root.firstChild) {
+ root.removeChild(child);
+ }
+ }
+ root = this.textRoot;
+ if (root) {
+ while (child = root.firstChild) {
+ root.removeChild(child);
+ }
+ }
+ if (this.indexer) {
+ this.indexer.clear();
+ }
+ },
+
+ /**
+ * Method: setExtent
+ * Set the visible part of the layer.
+ *
+ * Parameters:
+ * extent - {<OpenLayers.Bounds>}
+ * resolutionChanged - {Boolean}
+ *
+ * Returns:
+ * {Boolean} true to notify the layer that the new extent does not exceed
+ * the coordinate range, and the features will not need to be redrawn.
+ * False otherwise.
+ */
+ setExtent: function(extent, resolutionChanged) {
+ var coordSysUnchanged = OpenLayers.Renderer.prototype.setExtent.apply(this, arguments);
+ var resolution = this.getResolution();
+ if (this.map.baseLayer && this.map.baseLayer.wrapDateLine) {
+ var rightOfDateLine,
+ ratio = extent.getWidth() / this.map.getExtent().getWidth(),
+ extent = extent.scale(1 / ratio),
+ world = this.map.getMaxExtent();
+ if (world.right > extent.left && world.right < extent.right) {
+ rightOfDateLine = true;
+ } else if (world.left > extent.left && world.left < extent.right) {
+ rightOfDateLine = false;
+ }
+ if (rightOfDateLine !== this.rightOfDateLine || resolutionChanged) {
+ coordSysUnchanged = false;
+ this.xOffset = rightOfDateLine === true ?
+ world.getWidth() / resolution : 0;
+ }
+ this.rightOfDateLine = rightOfDateLine;
+ }
+ return coordSysUnchanged;
+ },
+
+ /**
+ * Method: getNodeType
+ * This function is in charge of asking the specific renderer which type
+ * of node to create for the given geometry and style. All geometries
+ * in an Elements-based renderer consist of one node and some
+ * attributes. We have the nodeFactory() function which creates a node
+ * for us, but it takes a 'type' as input, and that is precisely what
+ * this function tells us.
+ *
+ * Parameters:
+ * geometry - {<OpenLayers.Geometry>}
+ * style - {Object}
+ *
+ * Returns:
+ * {String} The corresponding node type for the specified geometry
+ */
+ getNodeType: function(geometry, style) { },
+
+ /**
+ * Method: drawGeometry
+ * Draw the geometry, creating new nodes, setting paths, setting style,
+ * setting featureId on the node. This method should only be called
+ * by the renderer itself.
+ *
+ * Parameters:
+ * geometry - {<OpenLayers.Geometry>}
+ * style - {Object}
+ * featureId - {String}
+ *
+ * Returns:
+ * {Boolean} true if the geometry has been drawn completely; null if
+ * incomplete; false otherwise
+ */
+ drawGeometry: function(geometry, style, featureId) {
+ var className = geometry.CLASS_NAME;
+ var rendered = true;
+ if ((className == "OpenLayers.Geometry.Collection") ||
+ (className == "OpenLayers.Geometry.MultiPoint") ||
+ (className == "OpenLayers.Geometry.MultiLineString") ||
+ (className == "OpenLayers.Geometry.MultiPolygon")) {
+ for (var i = 0, len=geometry.components.length; i<len; i++) {
+ rendered = this.drawGeometry(
+ geometry.components[i], style, featureId) && rendered;
+ }
+ return rendered;
+ }
+
+ rendered = false;
+ var removeBackground = false;
+ if (style.display != "none") {
+ if (style.backgroundGraphic) {
+ this.redrawBackgroundNode(geometry.id, geometry, style,
+ featureId);
+ } else {
+ removeBackground = true;
+ }
+ rendered = this.redrawNode(geometry.id, geometry, style,
+ featureId);
+ }
+ if (rendered == false) {
+ var node = document.getElementById(geometry.id);
+ if (node) {
+ if (node._style.backgroundGraphic) {
+ removeBackground = true;
+ }
+ node.parentNode.removeChild(node);
+ }
+ }
+ if (removeBackground) {
+ var node = document.getElementById(
+ geometry.id + this.BACKGROUND_ID_SUFFIX);
+ if (node) {
+ node.parentNode.removeChild(node);
+ }
+ }
+ return rendered;
+ },
+
+ /**
+ * Method: redrawNode
+ *
+ * Parameters:
+ * id - {String}
+ * geometry - {<OpenLayers.Geometry>}
+ * style - {Object}
+ * featureId - {String}
+ *
+ * Returns:
+ * {Boolean} true if the complete geometry could be drawn, null if parts of
+ * the geometry could not be drawn, false otherwise
+ */
+ redrawNode: function(id, geometry, style, featureId) {
+ style = this.applyDefaultSymbolizer(style);
+ // Get the node if it's already on the map.
+ var node = this.nodeFactory(id, this.getNodeType(geometry, style));
+
+ // Set the data for the node, then draw it.
+ node._featureId = featureId;
+ node._boundsBottom = geometry.getBounds().bottom;
+ node._geometryClass = geometry.CLASS_NAME;
+ node._style = style;
+
+ var drawResult = this.drawGeometryNode(node, geometry, style);
+ if(drawResult === false) {
+ return false;
+ }
+
+ node = drawResult.node;
+
+ // Insert the node into the indexer so it can show us where to
+ // place it. Note that this operation is O(log(n)). If there's a
+ // performance problem (when dragging, for instance) this is
+ // likely where it would be.
+ if (this.indexer) {
+ var insert = this.indexer.insert(node);
+ if (insert) {
+ this.vectorRoot.insertBefore(node, insert);
+ } else {
+ this.vectorRoot.appendChild(node);
+ }
+ } else {
+ // if there's no indexer, simply append the node to root,
+ // but only if the node is a new one
+ if (node.parentNode !== this.vectorRoot){
+ this.vectorRoot.appendChild(node);
+ }
+ }
+
+ this.postDraw(node);
+
+ return drawResult.complete;
+ },
+
+ /**
+ * Method: redrawBackgroundNode
+ * Redraws the node using special 'background' style properties. Basically
+ * just calls redrawNode(), but instead of directly using the
+ * 'externalGraphic', 'graphicXOffset', 'graphicYOffset', and
+ * 'graphicZIndex' properties directly from the specified 'style'
+ * parameter, we create a new style object and set those properties
+ * from the corresponding 'background'-prefixed properties from
+ * specified 'style' parameter.
+ *
+ * Parameters:
+ * id - {String}
+ * geometry - {<OpenLayers.Geometry>}
+ * style - {Object}
+ * featureId - {String}
+ *
+ * Returns:
+ * {Boolean} true if the complete geometry could be drawn, null if parts of
+ * the geometry could not be drawn, false otherwise
+ */
+ redrawBackgroundNode: function(id, geometry, style, featureId) {
+ var backgroundStyle = OpenLayers.Util.extend({}, style);
+
+ // Set regular style attributes to apply to the background styles.
+ backgroundStyle.externalGraphic = backgroundStyle.backgroundGraphic;
+ backgroundStyle.graphicXOffset = backgroundStyle.backgroundXOffset;
+ backgroundStyle.graphicYOffset = backgroundStyle.backgroundYOffset;
+ backgroundStyle.graphicZIndex = backgroundStyle.backgroundGraphicZIndex;
+ backgroundStyle.graphicWidth = backgroundStyle.backgroundWidth || backgroundStyle.graphicWidth;
+ backgroundStyle.graphicHeight = backgroundStyle.backgroundHeight || backgroundStyle.graphicHeight;
+
+ // Erase background styles.
+ backgroundStyle.backgroundGraphic = null;
+ backgroundStyle.backgroundXOffset = null;
+ backgroundStyle.backgroundYOffset = null;
+ backgroundStyle.backgroundGraphicZIndex = null;
+
+ return this.redrawNode(
+ id + this.BACKGROUND_ID_SUFFIX,
+ geometry,
+ backgroundStyle,
+ null
+ );
+ },
+
+ /**
+ * Method: drawGeometryNode
+ * Given a node, draw a geometry on the specified layer.
+ * node and geometry are required arguments, style is optional.
+ * This method is only called by the render itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ * style - {Object}
+ *
+ * Returns:
+ * {Object} a hash with properties "node" (the drawn node) and "complete"
+ * (null if parts of the geometry could not be drawn, false if nothing
+ * could be drawn)
+ */
+ drawGeometryNode: function(node, geometry, style) {
+ style = style || node._style;
+
+ var options = {
+ 'isFilled': style.fill === undefined ?
+ true :
+ style.fill,
+ 'isStroked': style.stroke === undefined ?
+ !!style.strokeWidth :
+ style.stroke
+ };
+ var drawn;
+ switch (geometry.CLASS_NAME) {
+ case "OpenLayers.Geometry.Point":
+ if(style.graphic === false) {
+ options.isFilled = false;
+ options.isStroked = false;
+ }
+ drawn = this.drawPoint(node, geometry);
+ break;
+ case "OpenLayers.Geometry.LineString":
+ options.isFilled = false;
+ drawn = this.drawLineString(node, geometry);
+ break;
+ case "OpenLayers.Geometry.LinearRing":
+ drawn = this.drawLinearRing(node, geometry);
+ break;
+ case "OpenLayers.Geometry.Polygon":
+ drawn = this.drawPolygon(node, geometry);
+ break;
+ case "OpenLayers.Geometry.Rectangle":
+ drawn = this.drawRectangle(node, geometry);
+ break;
+ default:
+ break;
+ }
+
+ node._options = options;
+
+ //set style
+ //TBD simplify this
+ if (drawn != false) {
+ return {
+ node: this.setStyle(node, style, options, geometry),
+ complete: drawn
+ };
+ } else {
+ return false;
+ }
+ },
+
+ /**
+ * Method: postDraw
+ * Things that have do be done after the geometry node is appended
+ * to its parent node. To be overridden by subclasses.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ */
+ postDraw: function(node) {},
+
+ /**
+ * Method: drawPoint
+ * Virtual function for drawing Point Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or false if the renderer could not draw the point
+ */
+ drawPoint: function(node, geometry) {},
+
+ /**
+ * Method: drawLineString
+ * Virtual function for drawing LineString Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or null if the renderer could not draw all components of
+ * the linestring, or false if nothing could be drawn
+ */
+ drawLineString: function(node, geometry) {},
+
+ /**
+ * Method: drawLinearRing
+ * Virtual function for drawing LinearRing Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or null if the renderer could not draw all components
+ * of the linear ring, or false if nothing could be drawn
+ */
+ drawLinearRing: function(node, geometry) {},
+
+ /**
+ * Method: drawPolygon
+ * Virtual function for drawing Polygon Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or null if the renderer could not draw all components
+ * of the polygon, or false if nothing could be drawn
+ */
+ drawPolygon: function(node, geometry) {},
+
+ /**
+ * Method: drawRectangle
+ * Virtual function for drawing Rectangle Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or false if the renderer could not draw the rectangle
+ */
+ drawRectangle: function(node, geometry) {},
+
+ /**
+ * Method: drawCircle
+ * Virtual function for drawing Circle Geometry.
+ * Should be implemented by subclasses.
+ * This method is only called by the renderer itself.
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * geometry - {<OpenLayers.Geometry>}
+ *
+ * Returns:
+ * {DOMElement} or false if the renderer could not draw the circle
+ */
+ drawCircle: function(node, geometry) {},
+
+ /**
+ * Method: removeText
+ * Removes a label
+ *
+ * Parameters:
+ * featureId - {String}
+ */
+ removeText: function(featureId) {
+ var label = document.getElementById(featureId + this.LABEL_ID_SUFFIX);
+ if (label) {
+ this.textRoot.removeChild(label);
+ }
+ var outline = document.getElementById(featureId + this.LABEL_OUTLINE_SUFFIX);
+ if (outline) {
+ this.textRoot.removeChild(outline);
+ }
+ },
+
+ /**
+ * Method: getFeatureIdFromEvent
+ *
+ * Parameters:
+ * evt - {Object} An <OpenLayers.Event> object
+ *
+ * Returns:
+ * {String} A feature id or undefined.
+ */
+ getFeatureIdFromEvent: function(evt) {
+ var target = evt.target;
+ var useElement = target && target.correspondingUseElement;
+ var node = useElement ? useElement : (target || evt.srcElement);
+ return node._featureId;
+ },
+
+ /**
+ * Method: eraseGeometry
+ * Erase a geometry from the renderer. In the case of a multi-geometry,
+ * we cycle through and recurse on ourselves. Otherwise, we look for a
+ * node with the geometry.id, destroy its geometry, and remove it from
+ * the DOM.
+ *
+ * Parameters:
+ * geometry - {<OpenLayers.Geometry>}
+ * featureId - {String}
+ */
+ eraseGeometry: function(geometry, featureId) {
+ if ((geometry.CLASS_NAME == "OpenLayers.Geometry.MultiPoint") ||
+ (geometry.CLASS_NAME == "OpenLayers.Geometry.MultiLineString") ||
+ (geometry.CLASS_NAME == "OpenLayers.Geometry.MultiPolygon") ||
+ (geometry.CLASS_NAME == "OpenLayers.Geometry.Collection")) {
+ for (var i=0, len=geometry.components.length; i<len; i++) {
+ this.eraseGeometry(geometry.components[i], featureId);
+ }
+ } else {
+ var element = OpenLayers.Util.getElement(geometry.id);
+ if (element && element.parentNode) {
+ if (element.geometry) {
+ element.geometry.destroy();
+ element.geometry = null;
+ }
+ element.parentNode.removeChild(element);
+
+ if (this.indexer) {
+ this.indexer.remove(element);
+ }
+
+ if (element._style.backgroundGraphic) {
+ var backgroundId = geometry.id + this.BACKGROUND_ID_SUFFIX;
+ var bElem = OpenLayers.Util.getElement(backgroundId);
+ if (bElem && bElem.parentNode) {
+ // No need to destroy the geometry since the element and the background
+ // node share the same geometry.
+ bElem.parentNode.removeChild(bElem);
+ }
+ }
+ }
+ }
+ },
+
+ /**
+ * Method: nodeFactory
+ * Create new node of the specified type, with the (optional) specified id.
+ *
+ * If node already exists with same ID and a different type, we remove it
+ * and then call ourselves again to recreate it.
+ *
+ * Parameters:
+ * id - {String}
+ * type - {String} type Kind of node to draw.
+ *
+ * Returns:
+ * {DOMElement} A new node of the given type and id.
+ */
+ nodeFactory: function(id, type) {
+ var node = OpenLayers.Util.getElement(id);
+ if (node) {
+ if (!this.nodeTypeCompare(node, type)) {
+ node.parentNode.removeChild(node);
+ node = this.nodeFactory(id, type);
+ }
+ } else {
+ node = this.createNode(type, id);
+ }
+ return node;
+ },
+
+ /**
+ * Method: nodeTypeCompare
+ *
+ * Parameters:
+ * node - {DOMElement}
+ * type - {String} Kind of node
+ *
+ * Returns:
+ * {Boolean} Whether or not the specified node is of the specified type
+ * This function must be overridden by subclasses.
+ */
+ nodeTypeCompare: function(node, type) {},
+
+ /**
+ * Method: createNode
+ *
+ * Parameters:
+ * type - {String} Kind of node to draw.
+ * id - {String} Id for node.
+ *
+ * Returns:
+ * {DOMElement} A new node of the given type and id.
+ * This function must be overridden by subclasses.
+ */
+ createNode: function(type, id) {},
+
+ /**
+ * Method: moveRoot
+ * moves this renderer's root to a different renderer.
+ *
+ * Parameters:
+ * renderer - {<OpenLayers.Renderer>} target renderer for the moved root
+ */
+ moveRoot: function(renderer) {
+ var root = this.root;
+ if(renderer.root.parentNode == this.rendererRoot) {
+ root = renderer.root;
+ }
+ root.parentNode.removeChild(root);
+ renderer.rendererRoot.appendChild(root);
+ },
+
+ /**
+ * Method: getRenderLayerId
+ * Gets the layer that this renderer's output appears on. If moveRoot was
+ * used, this will be different from the id of the layer containing the
+ * features rendered by this renderer.
+ *
+ * Returns:
+ * {String} the id of the output layer.
+ */
+ getRenderLayerId: function() {
+ return this.root.parentNode.parentNode.id;
+ },
+
+ /**
+ * Method: isComplexSymbol
+ * Determines if a symbol cannot be rendered using drawCircle
+ *
+ * Parameters:
+ * graphicName - {String}
+ *
+ * Returns
+ * {Boolean} true if the symbol is complex, false if not
+ */
+ isComplexSymbol: function(graphicName) {
+ return (graphicName != "circle") && !!graphicName;
+ },
+
+ CLASS_NAME: "OpenLayers.Renderer.Elements"
+});
+