| /* |
| Copyright (c) 2004-2006, The Dojo Foundation |
| All Rights Reserved. |
| |
| Licensed under the Academic Free License version 2.1 or above OR the |
| modified BSD license. For more information on Dojo licensing, see: |
| |
| http://dojotoolkit.org/community/licensing.shtml |
| */ |
| |
| dojo.provide("dojo.gfx.vml"); |
| |
| dojo.require("dojo.dom"); |
| dojo.require("dojo.math"); |
| dojo.require("dojo.lang.declare"); |
| dojo.require("dojo.lang.extras"); |
| dojo.require("dojo.string.*"); |
| dojo.require("dojo.html.metrics"); |
| |
| dojo.require("dojo.gfx.color"); |
| dojo.require("dojo.gfx.common"); |
| dojo.require("dojo.gfx.shape"); |
| dojo.require("dojo.gfx.path"); |
| |
| dojo.require("dojo.experimental"); |
| dojo.experimental("dojo.gfx.vml"); |
| |
| // dojo.gfx.vml.xmlns: String: a VML's namespace |
| dojo.gfx.vml.xmlns = "urn:schemas-microsoft-com:vml"; |
| |
| dojo.gfx.vml._parseFloat = function(str) { |
| // summary: a helper function to parse VML-specific floating-point values |
| // str: String: a representation of a floating-point number |
| return str.match(/^\d+f$/i) ? parseInt(str) / 65536 : parseFloat(str); // Number |
| }; |
| |
| // dojo.gfx.vml.cm_in_pt: Number: centimeters per inch |
| dojo.gfx.vml.cm_in_pt = 72 / 2.54; |
| |
| // dojo.gfx.vml.mm_in_pt: Number: millimeters per inch |
| dojo.gfx.vml.mm_in_pt = 7.2 / 2.54; |
| |
| dojo.gfx.vml.px_in_pt = function(){ |
| // summary: returns a number of pixels per point |
| return dojo.html.getCachedFontMeasurements()["12pt"] / 12; // Number |
| }; |
| dojo.gfx.vml.pt2px = function(len){ |
| // summary: converts points to pixels |
| // len: Number: a value in points |
| return len * this.px_in_pt(); // Number |
| }; |
| dojo.gfx.vml.px2pt = function(len){ |
| // summary: converts pixels to points |
| // len: Number: a value in pixels |
| return len / this.px_in_pt(); // Number |
| }; |
| |
| dojo.gfx.vml.normalizedLength = function(len) { |
| // summary: converts any length value to points |
| // len: String: a length, e.g., "12pc" |
| if(len.length == 0) return 0; |
| if(len.length > 2){ |
| var px_in_pt = this.px_in_pt(); |
| var val = parseFloat(len); |
| switch(len.slice(-2)){ |
| case "px": return val; |
| case "pt": return val * px_in_pt; |
| case "in": return val * 72 * px_in_pt; |
| case "pc": return val * 12 * px_in_pt; |
| case "mm": return val / this.mm_in_pt * px_in_pt; |
| case "cm": return val / this.cm_in_pt * px_in_pt; |
| } |
| } |
| return parseFloat(len); // Number |
| }; |
| |
| dojo.lang.extend(dojo.gfx.Shape, { |
| // summary: VML-specific implementation of dojo.gfx.Shape methods |
| |
| setFill: function(fill){ |
| // summary: sets a fill object (VML) |
| // fill: Object: a fill object |
| // (see dojo.gfx.defaultLinearGradient, |
| // dojo.gfx.defaultRadialGradient, |
| // dojo.gfx.defaultPattern, |
| // or dojo.gfx.color.Color) |
| |
| if(!fill){ |
| // don't fill |
| this.fillStyle = null; |
| this.rawNode.filled = false; |
| return this; |
| } |
| if(typeof(fill) == "object" && "type" in fill){ |
| // gradient |
| switch(fill.type){ |
| case "linear": |
| var f = dojo.gfx.makeParameters(dojo.gfx.defaultLinearGradient, fill); |
| this.fillStyle = f; |
| var s = ""; |
| for(var i = 0; i < f.colors.length; ++i){ |
| f.colors[i].color = dojo.gfx.normalizeColor(f.colors[i].color); |
| s += f.colors[i].offset.toFixed(8) + " " + f.colors[i].color.toHex() + ";"; |
| } |
| var fo = this.rawNode.fill; |
| fo.colors.value = s; |
| fo.method = "sigma"; |
| fo.type = "gradient"; |
| fo.angle = (dojo.math.radToDeg(Math.atan2(f.x2 - f.x1, f.y2 - f.y1)) + 180) % 360; |
| fo.on = true; |
| break; |
| case "radial": |
| var f = dojo.gfx.makeParameters(dojo.gfx.defaultRadialGradient, fill); |
| this.fillStyle = f; |
| var w = parseFloat(this.rawNode.style.width); |
| var h = parseFloat(this.rawNode.style.height); |
| var c = isNaN(w) ? 1 : 2 * f.r / w; |
| var i = f.colors.length - 1; |
| f.colors[i].color = dojo.gfx.normalizeColor(f.colors[i].color); |
| var s = "0 " + f.colors[i].color.toHex(); |
| for(; i >= 0; --i){ |
| f.colors[i].color = dojo.gfx.normalizeColor(f.colors[i].color); |
| s += (1 - c * f.colors[i].offset).toFixed(8) + " " + f.colors[i].color.toHex() + ";"; |
| } |
| var fo = this.rawNode.fill; |
| fo.colors.value = s; |
| fo.method = "sigma"; |
| fo.type = "gradientradial"; |
| if(isNaN(w) || isNaN(h)){ |
| fo.focusposition = "0.5 0.5"; |
| }else{ |
| fo.focusposition = (f.cx / w).toFixed(8) + " " + (f.cy / h).toFixed(8); |
| } |
| fo.focussize = "0 0"; |
| fo.on = true; |
| break; |
| case "pattern": |
| var f = dojo.gfx.makeParameters(dojo.gfx.defaultPattern, fill); |
| this.fillStyle = f; |
| var fo = this.rawNode.fill; |
| fo.type = "tile"; |
| fo.src = f.src; |
| if(f.width && f.height){ |
| // in points |
| fo.size.x = dojo.gfx.vml.px2pt(f.width); |
| fo.size.y = dojo.gfx.vml.px2pt(f.height); |
| } |
| fo.alignShape = false; |
| fo.position.x = 0; |
| fo.position.y = 0; |
| fo.origin.x = f.width ? f.x / f.width : 0; |
| fo.origin.y = f.height ? f.y / f.height : 0; |
| fo.on = true; |
| break; |
| } |
| this.rawNode.fill.opacity = 1; |
| return this; |
| } |
| // color object |
| this.fillStyle = dojo.gfx.normalizeColor(fill); |
| this.rawNode.fillcolor = this.fillStyle.toHex(); |
| this.rawNode.fill.opacity = this.fillStyle.a; |
| this.rawNode.filled = true; |
| return this; // self |
| }, |
| |
| setStroke: function(stroke){ |
| // summary: sets a stroke object (VML) |
| // stroke: Object: a stroke object |
| // (see dojo.gfx.defaultStroke) |
| |
| if(!stroke){ |
| // don't stroke |
| this.strokeStyle = null; |
| this.rawNode.stroked = false; |
| return this; |
| } |
| // normalize the stroke |
| this.strokeStyle = dojo.gfx.makeParameters(dojo.gfx.defaultStroke, stroke); |
| this.strokeStyle.color = dojo.gfx.normalizeColor(this.strokeStyle.color); |
| // generate attributes |
| var s = this.strokeStyle; |
| this.rawNode.stroked = true; |
| this.rawNode.strokecolor = s.color.toCss(); |
| this.rawNode.strokeweight = s.width + "px"; // TODO: should we assume that the width is always in pixels? |
| if(this.rawNode.stroke) { |
| this.rawNode.stroke.opacity = s.color.a; |
| this.rawNode.stroke.endcap = this._translate(this._capMap, s.cap); |
| if(typeof(s.join) == "number") { |
| this.rawNode.stroke.joinstyle = "miter"; |
| this.rawNode.stroke.miterlimit = s.join; |
| }else{ |
| this.rawNode.stroke.joinstyle = s.join; |
| // this.rawNode.stroke.miterlimit = s.width; |
| } |
| } |
| return this; // self |
| }, |
| |
| _capMap: { butt: 'flat' }, |
| _capMapReversed: { flat: 'butt' }, |
| |
| _translate: function(dict, value) { |
| return (value in dict) ? dict[value] : value; |
| }, |
| |
| _applyTransform: function() { |
| var matrix = this._getRealMatrix(); |
| if(!matrix) return this; |
| var skew = this.rawNode.skew; |
| if(typeof(skew) == "undefined"){ |
| for(var i = 0; i < this.rawNode.childNodes.length; ++i){ |
| if(this.rawNode.childNodes[i].tagName == "skew"){ |
| skew = this.rawNode.childNodes[i]; |
| break; |
| } |
| } |
| } |
| if(skew){ |
| skew.on = false; |
| var mt = matrix.xx.toFixed(8) + " " + matrix.xy.toFixed(8) + " " + |
| matrix.yx.toFixed(8) + " " + matrix.yy.toFixed(8) + " 0 0"; |
| var offset = Math.floor(matrix.dx).toFixed() + "px " + Math.floor(matrix.dy).toFixed() + "px"; |
| var l = parseFloat(this.rawNode.style.left); |
| var t = parseFloat(this.rawNode.style.top); |
| var w = parseFloat(this.rawNode.style.width); |
| var h = parseFloat(this.rawNode.style.height); |
| if(isNaN(l)) l = 0; |
| if(isNaN(t)) t = 0; |
| if(isNaN(w)) w = 1; |
| if(isNaN(h)) h = 1; |
| var origin = (-l / w - 0.5).toFixed(8) + " " + (-t / h - 0.5).toFixed(8); |
| skew.matrix = mt; |
| skew.origin = origin; |
| skew.offset = offset; |
| skew.on = true; |
| } |
| return this; |
| }, |
| |
| setRawNode: function(rawNode){ |
| // summary: |
| // assigns and clears the underlying node that will represent this |
| // shape. Once set, transforms, gradients, etc, can be applied. |
| // (no fill & stroke by default) |
| rawNode.stroked = false; |
| rawNode.filled = false; |
| this.rawNode = rawNode; |
| }, |
| |
| // Attach family |
| |
| attachFill: function(rawNode){ |
| // summary: deduces a fill style from a Node. |
| // rawNode: Node: an VML node |
| var fillStyle = null; |
| var fo = rawNode.fill; |
| if(rawNode) { |
| if(fo.on && fo.type == "gradient"){ |
| var fillStyle = dojo.lang.shallowCopy(dojo.gfx.defaultLinearGradient, true); |
| var rad = dojo.math.degToRad(fo.angle); |
| fillStyle.x2 = Math.cos(rad); |
| fillStyle.y2 = Math.sin(rad); |
| fillStyle.colors = []; |
| var stops = fo.colors.value.split(";"); |
| for(var i = 0; i < stops.length; ++i){ |
| var t = stops[i].match(/\S+/g); |
| if(!t || t.length != 2) continue; |
| fillStyle.colors.push({offset: dojo.gfx.vml._parseFloat(t[0]), color: new dojo.gfx.color.Color(t[1])}); |
| } |
| }else if(fo.on && fo.type == "gradientradial"){ |
| var fillStyle = dojo.lang.shallowCopy(dojo.gfx.defaultRadialGradient, true); |
| var w = parseFloat(rawNode.style.width); |
| var h = parseFloat(rawNode.style.height); |
| fillStyle.cx = isNaN(w) ? 0 : fo.focusposition.x * w; |
| fillStyle.cy = isNaN(h) ? 0 : fo.focusposition.y * h; |
| fillStyle.r = isNaN(w) ? 1 : w / 2; |
| fillStyle.colors = []; |
| var stops = fo.colors.value.split(";"); |
| for(var i = stops.length - 1; i >= 0; --i){ |
| var t = stops[i].match(/\S+/g); |
| if(!t || t.length != 2) continue; |
| fillStyle.colors.push({offset: dojo.gfx.vml._parseFloat(t[0]), color: new dojo.gfx.color.Color(t[1])}); |
| } |
| }else if(fo.on && fo.type == "tile"){ |
| var fillStyle = dojo.lang.shallowCopy(dojo.gfx.defaultPattern, true); |
| fillStyle.width = dojo.gfx.vml.pt2px(fo.size.x); // from pt |
| fillStyle.height = dojo.gfx.vml.pt2px(fo.size.y); // from pt |
| fillStyle.x = fo.origin.x * fillStyle.width; |
| fillStyle.y = fo.origin.y * fillStyle.height; |
| fillStyle.src = fo.src; |
| }else if(fo.on && rawNode.fillcolor){ |
| // a color object ! |
| fillStyle = new dojo.gfx.color.Color(rawNode.fillcolor+""); |
| fillStyle.a = fo.opacity; |
| } |
| } |
| return fillStyle; // Object |
| }, |
| |
| attachStroke: function(rawNode) { |
| // summary: deduces a stroke style from a Node. |
| // rawNode: Node: an VML node |
| var strokeStyle = dojo.lang.shallowCopy(dojo.gfx.defaultStroke, true); |
| if(rawNode && rawNode.stroked){ |
| strokeStyle.color = new dojo.gfx.color.Color(rawNode.strokecolor.value); |
| dojo.debug("We are expecting an .75pt here, instead of strokeweight = " + rawNode.strokeweight ); |
| strokeStyle.width = dojo.gfx.vml.normalizedLength(rawNode.strokeweight+""); |
| strokeStyle.color.a = rawNode.stroke.opacity; |
| strokeStyle.cap = this._translate(this._capMapReversed, rawNode.stroke.endcap); |
| strokeStyle.join = rawNode.stroke.joinstyle == "miter" ? rawNode.stroke.miterlimit : rawNode.stroke.joinstyle; |
| }else{ |
| return null; |
| } |
| return strokeStyle; // Object |
| }, |
| |
| attachTransform: function(rawNode) { |
| // summary: deduces a transformation matrix from a Node. |
| // rawNode: Node: an VML node |
| var matrix = {}; |
| if(rawNode){ |
| var s = rawNode.skew; |
| matrix.xx = s.matrix.xtox; |
| matrix.xy = s.matrix.ytox; |
| matrix.yx = s.matrix.xtoy; |
| matrix.yy = s.matrix.ytoy; |
| matrix.dx = dojo.gfx.vml.pt2px(s.offset.x); |
| matrix.dy = dojo.gfx.vml.pt2px(s.offset.y); |
| } |
| return dojo.gfx.matrix.normalize(matrix); // dojo.gfx.matrix.Matrix |
| }, |
| |
| attach: function(rawNode){ |
| // summary: reconstructs all shape parameters from a Node. |
| // rawNode: Node: an VML node |
| if(rawNode){ |
| this.rawNode = rawNode; |
| this.shape = this.attachShape(rawNode); |
| this.fillStyle = this.attachFill(rawNode); |
| this.strokeStyle = this.attachStroke(rawNode); |
| this.matrix = this.attachTransform(rawNode); |
| } |
| } |
| }); |
| |
| dojo.declare("dojo.gfx.Group", dojo.gfx.shape.VirtualGroup, { |
| // summary: a group shape (VML), which can be used |
| // to logically group shapes (e.g, to propagate matricies) |
| add: function(shape){ |
| // summary: adds a shape to a group/surface |
| // shape: dojo.gfx.Shape: an VML shape object |
| if(this != shape.getParent()){ |
| this.rawNode.appendChild(shape.rawNode); |
| dojo.gfx.Group.superclass.add.apply(this, arguments); |
| } |
| return this; // self |
| }, |
| remove: function(shape, silently){ |
| // summary: remove a shape from a group/surface |
| // shape: dojo.gfx.Shape: an VML shape object |
| // silently: Boolean?: if true, regenerate a picture |
| if(this == shape.getParent()){ |
| if(this.rawNode == shape.rawNode.parentNode){ |
| this.rawNode.removeChild(shape.rawNode); |
| } |
| dojo.gfx.Group.superclass.remove.apply(this, arguments); |
| } |
| return this; // self |
| }, |
| attach: function(rawNode){ |
| // summary: reconstructs all group shape parameters from a Node (VML). |
| // rawNode: Node: a node |
| if(rawNode){ |
| this.rawNode = rawNode; |
| this.shape = null; |
| this.fillStyle = null; |
| this.strokeStyle = null; |
| this.matrix = null; |
| } |
| } |
| }); |
| dojo.gfx.Group.nodeType = "group"; |
| |
| var zIndex = { |
| moveToFront: function(){ |
| // summary: moves a shape to front of its parent's list of shapes (VML) |
| this.rawNode.parentNode.appendChild(this.rawNode); |
| return this; |
| }, |
| moveToBack: function(){ |
| // summary: moves a shape to back of its parent's list of shapes (VML) |
| this.rawNode.parentNode.insertBefore(this.rawNode, this.rawNode.parentNode.firstChild); |
| return this; |
| } |
| }; |
| dojo.lang.extend(dojo.gfx.Shape, zIndex); |
| dojo.lang.extend(dojo.gfx.Group, zIndex); |
| delete zIndex; |
| |
| dojo.declare("dojo.gfx.Rect", dojo.gfx.shape.Rect, { |
| // summary: a rectangle shape (VML) |
| |
| attachShape: function(rawNode){ |
| // summary: builds a rectangle shape from a Node. |
| // rawNode: Node: a VML node |
| |
| // a workaround for the VML's arcsize bug: cannot read arcsize of an instantiated node |
| var arcsize = rawNode.outerHTML.match(/arcsize = \"(\d*\.?\d+[%f]?)\"/)[1]; |
| arcsize = (arcsize.indexOf("%") >= 0) ? parseFloat(arcsize) / 100 : dojo.gfx.vml._parseFloat(arcsize); |
| var style = rawNode.style; |
| var width = parseFloat(style.width); |
| var height = parseFloat(style.height); |
| // make an object |
| var o = dojo.gfx.makeParameters(dojo.gfx.defaultRect, { |
| x: parseInt(style.left), |
| y: parseInt(style.top), |
| width: width, |
| height: height, |
| r: Math.min(width, height) * arcsize |
| }); |
| return o; // dojo.gfx.shape.Rect |
| }, |
| setShape: function(newShape){ |
| // summary: sets a rectangle shape object (VML) |
| // newShape: Object: a rectangle shape object |
| var shape = this.shape = dojo.gfx.makeParameters(this.shape, newShape); |
| this.bbox = null; |
| var style = this.rawNode.style; |
| style.left = shape.x.toFixed(); |
| style.top = shape.y.toFixed(); |
| style.width = (typeof(shape.width) == "string" && shape.width.indexOf("%") >= 0) ? shape.width : shape.width.toFixed(); |
| style.height = (typeof(shape.width) == "string" && shape.height.indexOf("%") >= 0) ? shape.height : shape.height.toFixed(); |
| var r = Math.min(1, (shape.r / Math.min(parseFloat(shape.width), parseFloat(shape.height)))).toFixed(8); |
| // a workaround for the VML's arcsize bug: cannot read arcsize of an instantiated node |
| var parent = this.rawNode.parentNode; |
| var before = null; |
| if(parent){ |
| if(parent.lastChild != this.rawNode){ |
| for(var i = 0; i < parent.childNodes.length; ++i){ |
| if(parent.childNodes[i] == this.rawNode){ |
| before = parent.childNodes[i+1]; |
| break; |
| } |
| } |
| } |
| parent.removeChild(this.rawNode); |
| } |
| this.rawNode.arcsize = r; |
| if(parent){ |
| if(before){ |
| parent.insertBefore(this.rawNode, before); |
| }else{ |
| parent.appendChild(this.rawNode); |
| } |
| } |
| return this.setTransform(this.matrix); // self |
| } |
| }); |
| dojo.gfx.Rect.nodeType = "roundrect"; // use a roundrect so the stroke join type is respected |
| |
| dojo.declare("dojo.gfx.Ellipse", dojo.gfx.shape.Ellipse, { |
| // summary: an ellipse shape (VML) |
| |
| attachShape: function(rawNode){ |
| // summary: builds an ellipse shape from a Node. |
| // rawNode: Node: an VML node |
| var style = this.rawNode.style; |
| var rx = parseInt(style.width ) / 2; |
| var ry = parseInt(style.height) / 2; |
| var o = dojo.gfx.makeParameters(dojo.gfx.defaultEllipse, { |
| cx: parseInt(style.left) + rx, |
| cy: parseInt(style.top ) + ry, |
| rx: rx, |
| ry: ry |
| }); |
| return o; // dojo.gfx.shape.Ellipse |
| }, |
| setShape: function(newShape){ |
| // summary: sets an ellipse shape object (VML) |
| // newShape: Object: an ellipse shape object |
| var shape = this.shape = dojo.gfx.makeParameters(this.shape, newShape); |
| this.bbox = null; |
| var style = this.rawNode.style; |
| style.left = (shape.cx - shape.rx).toFixed(); |
| style.top = (shape.cy - shape.ry).toFixed(); |
| style.width = (shape.rx * 2).toFixed(); |
| style.height = (shape.ry * 2).toFixed(); |
| return this.setTransform(this.matrix); // self |
| } |
| }); |
| dojo.gfx.Ellipse.nodeType = "oval"; |
| |
| dojo.declare("dojo.gfx.Circle", dojo.gfx.shape.Circle, { |
| // summary: a circle shape (VML) |
| |
| attachShape: function(rawNode){ |
| // summary: builds a circle shape from a Node. |
| // rawNode: Node: an VML node |
| var style = this.rawNode.style; |
| var r = parseInt(style.width) / 2; |
| var o = dojo.gfx.makeParameters(dojo.gfx.defaultCircle, { |
| cx: parseInt(style.left) + r, |
| cy: parseInt(style.top) + r, |
| r: r |
| }); |
| return o; // dojo.gfx.shape.Circle |
| }, |
| setShape: function(newShape){ |
| // summary: sets a circle shape object (VML) |
| // newShape: Object: a circle shape object |
| var shape = this.shape = dojo.gfx.makeParameters(this.shape, newShape); |
| this.bbox = null; |
| var style = this.rawNode.style; |
| style.left = (shape.cx - shape.r).toFixed(); |
| style.top = (shape.cy - shape.r).toFixed(); |
| style.width = (shape.r * 2).toFixed(); |
| style.height = (shape.r * 2).toFixed(); |
| return this; // self |
| } |
| }); |
| dojo.gfx.Circle.nodeType = "oval"; |
| |
| dojo.declare("dojo.gfx.Line", dojo.gfx.shape.Line, |
| function(rawNode){ |
| if(rawNode) rawNode.setAttribute("dojoGfxType", "line"); |
| }, { |
| // summary: a line shape (VML) |
| |
| attachShape: function(rawNode){ |
| // summary: builds a line shape from a Node. |
| // rawNode: Node: an VML node |
| var p = rawNode.path.v.match(dojo.gfx.pathRegExp); |
| var shape = {}; |
| do{ |
| if(p.length < 7 || p[0] != "m" || p[3] != "l" || p[6] != "e") break; |
| shape.x1 = parseInt(p[1]); |
| shape.y1 = parseInt(p[2]); |
| shape.x2 = parseInt(p[4]); |
| shape.y2 = parseInt(p[5]); |
| }while(false); |
| return dojo.gfx.makeParameters(dojo.gfx.defaultLine, shape); // dojo.gfx.shape.Line |
| }, |
| setShape: function(newShape){ |
| // summary: sets a line shape object (VML) |
| // newShape: Object: a line shape object |
| var shape = this.shape = dojo.gfx.makeParameters(this.shape, newShape); |
| this.bbox = null; |
| this.rawNode.path.v = "m" + shape.x1.toFixed() + " " + shape.y1.toFixed() + |
| "l" + shape.x2.toFixed() + " " + shape.y2.toFixed() + "e"; |
| return this.setTransform(this.matrix); // self |
| } |
| }); |
| dojo.gfx.Line.nodeType = "shape"; |
| |
| dojo.declare("dojo.gfx.Polyline", dojo.gfx.shape.Polyline, |
| function(rawNode){ |
| if(rawNode) rawNode.setAttribute("dojoGfxType", "polyline"); |
| }, { |
| // summary: a polyline/polygon shape (VML) |
| |
| attachShape: function(rawNode){ |
| // summary: builds a polyline/polygon shape from a Node. |
| // rawNode: Node: an VML node |
| var shape = dojo.lang.shallowCopy(dojo.gfx.defaultPolyline, true); |
| var p = rawNode.path.v.match(dojo.gfx.pathRegExp); |
| do{ |
| if(p.length < 3 || p[0] != "m") break; |
| var x = parseInt(p[0]); |
| var y = parseInt(p[1]); |
| if(isNaN(x) || isNaN(y)) break; |
| shape.points.push({x: x, y: y}); |
| if(p.length < 6 || p[3] != "l") break; |
| for(var i = 4; i < p.length; i += 2){ |
| x = parseInt(p[i]); |
| y = parseInt(p[i + 1]); |
| if(isNaN(x) || isNaN(y)) break; |
| shape.points.push({x: x, y: y}); |
| } |
| }while(false); |
| return shape; // dojo.gfx.shape.Polyline |
| }, |
| setShape: function(points, closed){ |
| // summary: sets a polyline/polygon shape object (SVG) |
| // points: Object: a polyline/polygon shape object |
| // closed: Boolean?: if true, close the polyline explicitely |
| if(points && points instanceof Array){ |
| // branch |
| // points: Array: an array of points |
| this.shape = dojo.gfx.makeParameters(this.shape, { points: points }); |
| if(closed && this.shape.points.length) this.shape.points.push(this.shape.points[0]); |
| }else{ |
| this.shape = dojo.gfx.makeParameters(this.shape, points); |
| } |
| this.bbox = null; |
| var attr = []; |
| var p = this.shape.points; |
| if(p.length > 0){ |
| attr.push("m"); |
| attr.push(p[0].x.toFixed()); |
| attr.push(p[0].y.toFixed()); |
| if(p.length > 1){ |
| attr.push("l"); |
| for(var i = 1; i < p.length; ++i){ |
| attr.push(p[i].x.toFixed()); |
| attr.push(p[i].y.toFixed()); |
| } |
| } |
| } |
| attr.push("e"); |
| this.rawNode.path.v = attr.join(" "); |
| return this.setTransform(this.matrix); // self |
| } |
| }); |
| dojo.gfx.Polyline.nodeType = "shape"; |
| |
| dojo.declare("dojo.gfx.Image", dojo.gfx.shape.Image, { |
| // summary: an image (VML) |
| |
| getEventSource: function() { |
| // summary: returns a Node, which is used as |
| // a source of events for this shape |
| return this.rawNode ? this.rawNode.firstChild : null; // Node |
| }, |
| attachShape: function(rawNode){ |
| // summary: builds an image shape from a Node. |
| // rawNode: Node: an VML node |
| var shape = dojo.lang.shallowCopy(dojo.gfx.defaultImage, true); |
| shape.src = rawNode.firstChild.src; |
| return shape; // dojo.gfx.shape.Image |
| }, |
| setShape: function(newShape){ |
| // summary: sets an image shape object (VML) |
| // newShape: Object: an image shape object |
| var shape = this.shape = dojo.gfx.makeParameters(this.shape, newShape); |
| this.bbox = null; |
| var firstChild = this.rawNode.firstChild; |
| firstChild.src = shape.src; |
| if(shape.width || shape.height){ |
| firstChild.style.width = shape.width; |
| firstChild.style.height = shape.height; |
| } |
| return this.setTransform(this.matrix); // self |
| }, |
| setStroke: function(){ |
| // summary: ignore setting a stroke style |
| return this; // self |
| }, |
| setFill: function(){ |
| // summary: ignore setting a fill style |
| return this; // self |
| }, |
| attachStroke: function(rawNode){ |
| // summary: ignore attaching a stroke style |
| return null; |
| }, |
| attachFill: function(rawNode){ |
| // summary: ignore attaching a fill style |
| return null; |
| }, |
| attachTransform: function(rawNode) { |
| // summary: deduces a transformation matrix from a Node. |
| // rawNode: Node: an VML node |
| var matrix = {}; |
| if(rawNode){ |
| var m = rawNode.filters["DXImageTransform.Microsoft.Matrix"]; |
| matrix.xx = m.M11; |
| matrix.xy = m.M12; |
| matrix.yx = m.M21; |
| matrix.yy = m.M22; |
| matrix.dx = m.Dx; |
| matrix.dy = m.Dy; |
| } |
| return dojo.gfx.matrix.normalize(matrix); // dojo.gfx.matrix.Matrix |
| }, |
| _applyTransform: function() { |
| var matrix = this._getRealMatrix(); |
| if(!matrix) return this; |
| with(this.rawNode.filters["DXImageTransform.Microsoft.Matrix"]){ |
| M11 = matrix.xx; |
| M12 = matrix.xy; |
| M21 = matrix.yx; |
| M22 = matrix.yy; |
| Dx = matrix.dx; |
| Dy = matrix.dy; |
| } |
| return this; |
| } |
| }); |
| dojo.gfx.Image.nodeType = "image"; |
| |
| dojo.gfx.path._calcArc = function(alpha){ |
| var cosa = Math.cos(alpha); |
| var sina = Math.sin(alpha); |
| // return a start point, 1st and 2nd control points, and an end point |
| var p2 = {x: cosa + (4 / 3) * (1 - cosa), y: sina - (4 / 3) * cosa * (1 - cosa) / sina}; |
| return { |
| s: {x: cosa, y: sina}, |
| c1: p2, |
| c2: {x: p2.x, y: -p2.y}, |
| e: {x: cosa, y: -sina} |
| }; |
| }; |
| |
| dojo.declare("dojo.gfx.Path", dojo.gfx.path.Path, |
| function(rawNode){ |
| if(rawNode) rawNode.setAttribute("dojoGfxType", "path"); |
| this.vmlPath = ""; |
| this.lastControl = {}; |
| }, { |
| // summary: a path shape (VML) |
| |
| _updateWithSegment: function(segment){ |
| // summary: updates the bounding box of path with new segment |
| // segment: Object: a segment |
| var last = dojo.lang.shallowCopy(this.last); |
| dojo.gfx.Path.superclass._updateWithSegment.apply(this, arguments); |
| // add a VML path segment |
| var path = this[this.renderers[segment.action]](segment, last); |
| if(typeof(this.vmlPath) == "string"){ |
| this.vmlPath += path.join(""); |
| }else{ |
| this.vmlPath = this.vmlPath.concat(path); |
| } |
| if(typeof(this.vmlPath) == "string"){ |
| this.rawNode.path.v = this.vmlPath + " e"; |
| } |
| }, |
| attachShape: function(rawNode){ |
| // summary: builds a path shape from a Node. |
| // rawNode: Node: an VML node |
| var shape = dojo.lang.shallowCopy(dojo.gfx.defaultPath, true); |
| var p = rawNode.path.v.match(dojo.gfx.pathRegExp); |
| var t = [], skip = false; |
| for(var i = 0; i < p.length; ++p){ |
| var s = p[i]; |
| if(s in this._pathVmlToSvgMap) { |
| skip = false; |
| t.push(this._pathVmlToSvgMap[s]); |
| } else if(!skip){ |
| var n = parseInt(s); |
| if(isNaN(n)){ |
| skip = true; |
| }else{ |
| t.push(n); |
| } |
| } |
| } |
| if(t.length) shape.path = t.join(" "); |
| return shape; // dojo.gfx.path.Path |
| }, |
| setShape: function(newShape){ |
| // summary: forms a path using a shape (VML) |
| // newShape: Object: an VML path string or a path object (see dojo.gfx.defaultPath) |
| this.vmlPath = []; |
| this.lastControl = {}; |
| dojo.gfx.Path.superclass.setShape.apply(this, arguments); |
| this.vmlPath = this.vmlPath.join(""); |
| this.rawNode.path.v = this.vmlPath + " e"; |
| return this; |
| }, |
| _pathVmlToSvgMap: {m: "M", l: "L", t: "m", r: "l", c: "C", v: "c", qb: "Q", x: "z", e: ""}, |
| // VML-specific segment renderers |
| renderers: { |
| M: "_moveToA", m: "_moveToR", |
| L: "_lineToA", l: "_lineToR", |
| H: "_hLineToA", h: "_hLineToR", |
| V: "_vLineToA", v: "_vLineToR", |
| C: "_curveToA", c: "_curveToR", |
| S: "_smoothCurveToA", s: "_smoothCurveToR", |
| Q: "_qCurveToA", q: "_qCurveToR", |
| T: "_qSmoothCurveToA", t: "_qSmoothCurveToR", |
| A: "_arcTo", a: "_arcTo", |
| Z: "_closePath", z: "_closePath" |
| }, |
| _addArgs: function(path, args, from, upto){ |
| if(typeof(upto) == "undefined"){ |
| upto = args.length; |
| } |
| if(typeof(from) == "undefined"){ |
| from = 0; |
| } |
| for(var i = from; i < upto; ++i){ |
| path.push(" "); |
| path.push(args[i].toFixed()); |
| } |
| }, |
| _addArgsAdjusted: function(path, last, args, from, upto){ |
| if(typeof(upto) == "undefined"){ |
| upto = args.length; |
| } |
| if(typeof(from) == "undefined"){ |
| from = 0; |
| } |
| for(var i = from; i < upto; i += 2){ |
| path.push(" "); |
| path.push((last.x + args[i]).toFixed()); |
| path.push(" "); |
| path.push((last.y + args[i + 1]).toFixed()); |
| } |
| }, |
| _moveToA: function(segment){ |
| var p = [" m"]; |
| var n = segment.args; |
| var l = n.length; |
| if(l == 2){ |
| this._addArgs(p, n); |
| }else{ |
| this._addArgs(p, n, 0, 2); |
| p.push(" l"); |
| this._addArgs(p, n, 2); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _moveToR: function(segment, last){ |
| var p = ["x" in last ? " t" : " m"]; |
| var n = segment.args; |
| var l = n.length; |
| if(l == 2){ |
| this._addArgs(p, n); |
| }else{ |
| this._addArgs(p, n, 0, 2); |
| p.push(" r"); |
| this._addArgs(p, n, 2); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _lineToA: function(segment){ |
| var p = [" l"]; |
| this._addArgs(p, segment.args); |
| this.lastControl = {}; |
| return p; |
| }, |
| _lineToR: function(segment){ |
| var p = [" r"]; |
| this._addArgs(p, segment.args); |
| this.lastControl = {}; |
| return p; |
| }, |
| _hLineToA: function(segment, last){ |
| var p = [" l"]; |
| var n = segment.args; |
| var l = n.length; |
| var y = " " + last.y.toFixed(); |
| for(var i = 0; i < l; ++i){ |
| p.push(" "); |
| p.push(n[i].toFixed()); |
| p.push(y); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _hLineToR: function(segment){ |
| var p = [" r"]; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; ++i){ |
| p.push(" "); |
| p.push(n[i].toFixed()); |
| p.push(" 0"); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _vLineToA: function(segment, last){ |
| var p = [" l"]; |
| var n = segment.args; |
| var l = n.length; |
| var x = " " + last.x.toFixed(); |
| for(var i = 0; i < l; ++i){ |
| p.push(x); |
| p.push(" "); |
| p.push(n[i].toFixed()); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _vLineToR: function(segment){ |
| var p = [" r"]; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; ++i){ |
| p.push(" 0 "); |
| p.push(n[i].toFixed()); |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _curveToA: function(segment){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 6){ |
| p.push(" c"); |
| this._addArgs(p, n, i, i + 6); |
| } |
| this.lastControl = {x: n[l - 4], y: n[l - 3], type: "C"}; |
| return p; |
| }, |
| _curveToR: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 6){ |
| p.push(" v"); |
| this._addArgs(p, n, i, i + 6); |
| this.lastControl = {x: last.x + n[i + 2], y: last.y + n[i + 3]}; |
| last.x += n[i + 4]; |
| last.y += n[i + 5]; |
| } |
| this.lastControl.type = "C"; |
| return p; |
| }, |
| _smoothCurveToA: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 4){ |
| p.push(" c"); |
| if(this.lastControl.type == "C"){ |
| this._addArgs(p, [ |
| 2 * last.x - this.lastControl.x, |
| 2 * last.y - this.lastControl.y |
| ]); |
| }else{ |
| this._addArgs(p, [last.x, last.y]); |
| } |
| this._addArgs(p, n, i, i + 4); |
| } |
| this.lastControl = {x: n[l - 4], y: n[l - 3], type: "C"}; |
| return p; |
| }, |
| _smoothCurveToR: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 4){ |
| p.push(" v"); |
| if(this.lastControl.type == "C"){ |
| this._addArgs(p, [ |
| last.x - this.lastControl.x, |
| last.y - this.lastControl.y |
| ]); |
| }else{ |
| this._addArgs(p, [0, 0]); |
| } |
| this._addArgs(p, n, i, i + 4); |
| this.lastControl = {x: last.x + n[i], y: last.y + n[i + 1]}; |
| last.x += n[i + 2]; |
| last.y += n[i + 3]; |
| } |
| this.lastControl.type = "C"; |
| return p; |
| }, |
| _qCurveToA: function(segment){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 4){ |
| p.push(" qb"); |
| this._addArgs(p, n, i, i + 4); |
| } |
| this.lastControl = {x: n[l - 4], y: n[l - 3], type: "Q"}; |
| return p; |
| }, |
| _qCurveToR: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 4){ |
| p.push(" qb"); |
| this._addArgsAdjusted(p, last, n, i, i + 4); |
| this.lastControl = {x: last.x + n[i], y: last.y + n[i + 1]}; |
| last.x += n[i + 2]; |
| last.y += n[i + 3]; |
| } |
| this.lastControl.type = "Q"; |
| return p; |
| }, |
| _qSmoothCurveToA: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 2){ |
| p.push(" qb"); |
| if(this.lastControl.type == "Q"){ |
| this._addArgs(p, [ |
| this.lastControl.x = 2 * last.x - this.lastControl.x, |
| this.lastControl.y = 2 * last.y - this.lastControl.y |
| ]); |
| }else{ |
| this._addArgs(p, [ |
| this.lastControl.x = last.x, |
| this.lastControl.y = last.y |
| ]); |
| } |
| this._addArgs(p, n, i, i + 2); |
| } |
| this.lastControl.type = "Q"; |
| return p; |
| }, |
| _qSmoothCurveToR: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| for(var i = 0; i < l; i += 2){ |
| p.push(" qb"); |
| if(this.lastControl.type == "Q"){ |
| this._addArgs(p, [ |
| this.lastControl.x = 2 * last.x - this.lastControl.x, |
| this.lastControl.y = 2 * last.y - this.lastControl.y |
| ]); |
| }else{ |
| this._addArgs(p, [ |
| this.lastControl.x = last.x, |
| this.lastControl.y = last.y |
| ]); |
| } |
| this._addArgsAdjusted(p, last, n, i, i + 2); |
| } |
| this.lastControl.type = "Q"; |
| return p; |
| }, |
| _PI4: Math.PI / 4, |
| _curvePI4: dojo.gfx.path._calcArc(Math.PI / 8), |
| _calcArcTo: function(path, last, rx, ry, xRotg, large, cw, x, y){ |
| var m = dojo.gfx.matrix; |
| // calculate parameters |
| var xRot = -dojo.math.degToRad(xRotg); |
| var rx2 = rx * rx; |
| var ry2 = ry * ry; |
| var pa = m.multiplyPoint( |
| m.rotate(-xRot), |
| {x: (last.x - x) / 2, y: (last.y - y) / 2} |
| ); |
| var pax2 = pa.x * pa.x; |
| var pay2 = pa.y * pa.y; |
| var c1 = Math.sqrt((rx2 * ry2 - rx2 * pay2 - ry2 * pax2) / (rx2 * pay2 + ry2 * pax2)); |
| var ca = { |
| x: c1 * rx * pa.y / ry, |
| y: -c1 * ry * pa.x / rx |
| }; |
| if(large == cw){ |
| ca = {x: -ca.x, y: -ca.y}; |
| } |
| // our center |
| var c = m.multiplyPoint( |
| [ |
| m.translate( |
| (last.x + x) / 2, |
| (last.y + y) / 2 |
| ), |
| m.rotate(xRot) |
| ], |
| ca |
| ); |
| // start of our arc |
| var startAngle = Math.atan2(c.y - last.y, last.x - c.x) - xRot; |
| var endAngle = Math.atan2(c.y - y, x - c.x) - xRot; |
| // size of our arc in radians |
| var theta = cw ? startAngle - endAngle : endAngle - startAngle; |
| if(theta < 0){ |
| theta += this._2PI; |
| }else if(theta > this._2PI){ |
| theta = this._2PI; |
| } |
| // calculate our elliptic transformation |
| var elliptic_transform = m.normalize([ |
| m.translate(c.x, c.y), |
| m.rotate(xRot), |
| m.scale(rx, ry) |
| ]); |
| // draw curve chunks |
| var alpha = this._PI4 / 2; |
| var curve = this._curvePI4; |
| var step = cw ? -alpha : alpha; |
| for(var angle = theta; angle > 0; angle -= this._PI4){ |
| if(angle < this._PI4){ |
| alpha = angle / 2; |
| curve = dojo.gfx.path._calcArc(alpha); |
| step = cw ? -alpha : alpha; |
| } |
| var c1, c2, e; |
| var M = m.normalize([elliptic_transform, m.rotate(startAngle + step)]); |
| if(cw){ |
| c1 = m.multiplyPoint(M, curve.c2); |
| c2 = m.multiplyPoint(M, curve.c1); |
| e = m.multiplyPoint(M, curve.s ); |
| }else{ |
| c1 = m.multiplyPoint(M, curve.c1); |
| c2 = m.multiplyPoint(M, curve.c2); |
| e = m.multiplyPoint(M, curve.e ); |
| } |
| // draw the curve |
| path.push(" c"); |
| this._addArgs(path, [c1.x, c1.y, c2.x, c2.y, e.x, e.y]); |
| startAngle += 2 * step; |
| } |
| }, |
| _arcTo: function(segment, last){ |
| var p = []; |
| var n = segment.args; |
| var l = n.length; |
| var relative = segment.action == "a"; |
| for(var i = 0; i < l; i += 7){ |
| var x1 = n[i + 5]; |
| var y1 = n[i + 6]; |
| if(relative){ |
| x1 += last.x; |
| y1 += last.y; |
| } |
| this._calcArcTo( |
| p, last, n[i], n[i + 1], n[i + 2], |
| n[i + 3] ? 1 : 0, n[i + 4] ? 1 : 0, |
| x1, y1 |
| ); |
| last = {x: x1, y: y1}; |
| } |
| this.lastControl = {}; |
| return p; |
| }, |
| _closePath: function(){ |
| this.lastControl = {}; |
| return ["x"]; |
| } |
| }); |
| dojo.gfx.Path.nodeType = "shape"; |
| |
| |
| dojo.gfx._creators = { |
| // summary: VML shape creators |
| createPath: function(path){ |
| // summary: creates an SVG path shape |
| // path: Object: a path object (see dojo.gfx.defaultPath) |
| return this.createObject(dojo.gfx.Path, path, true); // dojo.gfx.Path |
| }, |
| createRect: function(rect){ |
| // summary: creates an VML rectangle shape |
| // rect: Object: a path object (see dojo.gfx.defaultRect) |
| return this.createObject(dojo.gfx.Rect, rect); // dojo.gfx.Rect |
| }, |
| createCircle: function(circle){ |
| // summary: creates an VML circle shape |
| // circle: Object: a circle object (see dojo.gfx.defaultCircle) |
| return this.createObject(dojo.gfx.Circle, circle); // dojo.gfx.Circle |
| }, |
| createEllipse: function(ellipse){ |
| // summary: creates an VML ellipse shape |
| // ellipse: Object: an ellipse object (see dojo.gfx.defaultEllipse) |
| return this.createObject(dojo.gfx.Ellipse, ellipse); // dojo.gfx.Ellipse |
| }, |
| createLine: function(line){ |
| // summary: creates an VML line shape |
| // line: Object: a line object (see dojo.gfx.defaultLine) |
| return this.createObject(dojo.gfx.Line, line, true); // dojo.gfx.Line |
| }, |
| createPolyline: function(points){ |
| // summary: creates an VML polyline/polygon shape |
| // points: Object: a points object (see dojo.gfx.defaultPolyline) |
| // or an Array of points |
| return this.createObject(dojo.gfx.Polyline, points, true); // dojo.gfx.Polyline |
| }, |
| createImage: function(image){ |
| // summary: creates an VML image shape |
| // image: Object: an image object (see dojo.gfx.defaultImage) |
| if(!this.rawNode) return null; |
| var shape = new dojo.gfx.Image(); |
| var node = document.createElement('div'); |
| node.style.position = "relative"; |
| node.style.width = this.rawNode.style.width; |
| node.style.height = this.rawNode.style.height; |
| node.style.filter = "progid:DXImageTransform.Microsoft.Matrix(M11=1, M12=0, M21=0, M22=1, Dx=0, Dy=0)"; |
| var img = document.createElement('img'); |
| node.appendChild(img); |
| shape.setRawNode(node); |
| this.rawNode.appendChild(node); |
| shape.setShape(image); |
| this.add(shape); |
| return shape; // dojo.gfx.Image |
| }, |
| createGroup: function(){ |
| // summary: creates an VML group shape |
| return this.createObject(dojo.gfx.Group, null, true); // dojo.gfx.Group |
| }, |
| createObject: function(shapeType, rawShape, overrideSize) { |
| // summary: creates an instance of the passed shapeType class |
| // shapeType: Function: a class constructor to create an instance of |
| // rawShape: Object: properties to be passed in to the classes "setShape" method |
| if(!this.rawNode) return null; |
| var shape = new shapeType(); |
| var node = document.createElement('v:' + shapeType.nodeType); |
| shape.setRawNode(node); |
| this.rawNode.appendChild(node); |
| if(overrideSize) this._overrideSize(node); |
| shape.setShape(rawShape); |
| this.add(shape); |
| return shape; // dojo.gfx.Shape |
| }, |
| _overrideSize: function(node){ |
| node.style.width = this.rawNode.style.width; |
| node.style.height = this.rawNode.style.height; |
| node.coordsize = parseFloat(node.style.width) + " " + parseFloat(node.style.height); |
| } |
| }; |
| |
| dojo.lang.extend(dojo.gfx.Group, dojo.gfx._creators); |
| dojo.lang.extend(dojo.gfx.Surface, dojo.gfx._creators); |
| |
| delete dojo.gfx._creators; |
| |
| dojo.gfx.attachNode = function(node){ |
| // summary: creates a shape from a Node |
| // node: Node: an VML node |
| if(!node) return null; |
| var s = null; |
| switch(node.tagName.toLowerCase()){ |
| case dojo.gfx.Rect.nodeType: |
| s = new dojo.gfx.Rect(); |
| break; |
| case dojo.gfx.Ellipse.nodeType: |
| s = (node.style.width == node.style.height) |
| ? new dojo.gfx.Circle() |
| : new dojo.gfx.Ellipse(); |
| break; |
| case dojo.gfx.Path.nodeType: |
| switch(node.getAttribute("dojoGfxType")){ |
| case "line": |
| s = new dojo.gfx.Line(); |
| break; |
| case "polyline": |
| s = new dojo.gfx.Polyline(); |
| break; |
| case "path": |
| s = new dojo.gfx.Path(); |
| break; |
| } |
| break; |
| case dojo.gfx.Image.nodeType: |
| s = new dojo.gfx.Image(); |
| break; |
| default: |
| dojo.debug("FATAL ERROR! tagName = " + node.tagName); |
| } |
| s.attach(node); |
| return s; // dojo.gfx.Shape |
| }; |
| |
| dojo.lang.extend(dojo.gfx.Surface, { |
| // summary: a surface object to be used for drawings (VML) |
| |
| setDimensions: function(width, height){ |
| // summary: sets the width and height of the rawNode |
| // width: String: width of surface, e.g., "100px" |
| // height: String: height of surface, e.g., "100px" |
| if(!this.rawNode) return this; |
| this.rawNode.style.width = width; |
| this.rawNode.style.height = height; |
| this.rawNode.coordsize = width + " " + height; |
| return this; // self |
| }, |
| getDimensions: function(){ |
| // summary: returns an object with properties "width" and "height" |
| return this.rawNode ? { width: this.rawNode.style.width, height: this.rawNode.style.height } : null; // Object |
| }, |
| // group control |
| add: function(shape){ |
| // summary: adds a shape to a group/surface |
| // shape: dojo.gfx.Shape: an VMLshape object |
| var oldParent = shape.getParent(); |
| if(this != oldParent){ |
| this.rawNode.appendChild(shape.rawNode); |
| if(oldParent){ |
| oldParent.remove(shape, true); |
| } |
| shape._setParent(this, null); |
| } |
| return this; // self |
| }, |
| remove: function(shape, silently){ |
| // summary: remove a shape from a group/surface |
| // shape: dojo.gfx.Shape: an VML shape object |
| // silently: Boolean?: if true, regenerate a picture |
| if(this == shape.getParent()){ |
| if(this.rawNode == shape.rawNode.parentNode){ |
| this.rawNode.removeChild(shape.rawNode); |
| } |
| shape._setParent(null, null); |
| } |
| return this; // self |
| } |
| }); |
| |
| dojo.gfx.createSurface = function(parentNode, width, height){ |
| // summary: creates a surface (VML) |
| // parentNode: Node: a parent node |
| // width: String: width of surface, e.g., "100px" |
| // height: String: height of surface, e.g., "100px" |
| |
| var s = new dojo.gfx.Surface(); |
| s.rawNode = document.createElement("v:group"); |
| s.rawNode.style.width = width ? width : "100%"; |
| s.rawNode.style.height = height ? height : "100%"; |
| s.rawNode.coordsize = (width && height) |
| ? (parseFloat(width) + " " + parseFloat(height)) |
| : "100% 100%"; |
| s.rawNode.coordorigin = "0 0"; |
| dojo.byId(parentNode).appendChild(s.rawNode); |
| return s; // dojo.gfx.Surface |
| }; |
| |
| dojo.gfx.attachSurface = function(node){ |
| // summary: creates a surface from a Node |
| // node: Node: an VML node |
| var s = new dojo.gfx.Surface(); |
| s.rawNode = node; |
| return s; // dojo.gfx.Surface |
| }; |