/** * @class Ext.draw.engine.Vml * Provides specific methods to draw with VML. */ Ext.define('Ext.draw.engine.Vml', { /* Begin Definitions */ extend: 'Ext.draw.Surface', requires: ['Ext.draw.Draw', 'Ext.draw.Color', 'Ext.draw.Sprite', 'Ext.draw.Matrix', 'Ext.Element'], /* End Definitions */ engine: 'Vml', map: {M: "m", L: "l", C: "c", Z: "x", m: "t", l: "r", c: "v", z: "x"}, bitesRe: /([clmz]),?([^clmz]*)/gi, valRe: /-?[^,\s\-]+/g, fillUrlRe: /^url\(\s*['"]?([^\)]+?)['"]?\s*\)$/i, pathlike: /^(path|rect)$/, NonVmlPathRe: /[ahqstv]/ig, // Non-VML Pathing ops partialPathRe: /[clmz]/g, fontFamilyRe: /^['"]+|['"]+$/g, baseVmlCls: Ext.baseCSSPrefix + 'vml-base', vmlGroupCls: Ext.baseCSSPrefix + 'vml-group', spriteCls: Ext.baseCSSPrefix + 'vml-sprite', measureSpanCls: Ext.baseCSSPrefix + 'vml-measure-span', zoom: 21600, coordsize: 1000, coordorigin: '0 0', zIndexShift: 0, // VML uses CSS z-index and therefore doesn't need sprites to be kept in zIndex order orderSpritesByZIndex: false, // @private // Convert an SVG standard path into a VML path path2vml: function (path) { var me = this, nonVML = me.NonVmlPathRe, map = me.map, val = me.valRe, zoom = me.zoom, bites = me.bitesRe, command = Ext.Function.bind(Ext.draw.Draw.pathToAbsolute, Ext.draw.Draw), res, pa, p, r, i, ii, j, jj; if (String(path).match(nonVML)) { command = Ext.Function.bind(Ext.draw.Draw.path2curve, Ext.draw.Draw); } else if (!String(path).match(me.partialPathRe)) { res = String(path).replace(bites, function (all, command, args) { var vals = [], isMove = command.toLowerCase() == "m", res = map[command]; args.replace(val, function (value) { if (isMove && vals.length === 2) { res += vals + map[command == "m" ? "l" : "L"]; vals = []; } vals.push(Math.round(value * zoom)); }); return res + vals; }); return res; } pa = command(path); res = []; for (i = 0, ii = pa.length; i < ii; i++) { p = pa[i]; r = pa[i][0].toLowerCase(); if (r == "z") { r = "x"; } for (j = 1, jj = p.length; j < jj; j++) { r += Math.round(p[j] * me.zoom) + (j != jj - 1 ? "," : ""); } res.push(r); } return res.join(" "); }, // @private - set of attributes which need to be translated from the sprite API to the native browser API translateAttrs: { radius: "r", radiusX: "rx", radiusY: "ry", lineWidth: "stroke-width", fillOpacity: "fill-opacity", strokeOpacity: "stroke-opacity", strokeLinejoin: "stroke-linejoin" }, // @private - Minimun set of defaults for different types of sprites. minDefaults: { circle: { fill: "none", stroke: null, "stroke-width": null, opacity: null, "fill-opacity": null, "stroke-opacity": null }, ellipse: { cx: 0, cy: 0, rx: 0, ry: 0, fill: "none", stroke: null, "stroke-width": null, opacity: null, "fill-opacity": null, "stroke-opacity": null }, rect: { x: 0, y: 0, width: 0, height: 0, rx: 0, ry: 0, fill: "none", stroke: null, "stroke-width": null, opacity: null, "fill-opacity": null, "stroke-opacity": null }, text: { x: 0, y: 0, "text-anchor": "start", font: '10px "Arial"', fill: "#000", stroke: null, "stroke-width": null, opacity: null, "fill-opacity": null, "stroke-opacity": null }, path: { d: "M0,0", fill: "none", stroke: null, "stroke-width": null, opacity: null, "fill-opacity": null, "stroke-opacity": null }, image: { x: 0, y: 0, width: 0, height: 0, preserveAspectRatio: "none", opacity: null } }, // private onMouseEnter: function (e) { this.fireEvent("mouseenter", e); }, // private onMouseLeave: function (e) { this.fireEvent("mouseleave", e); }, // @private - Normalize a delegated single event from the main container to each sprite and sprite group processEvent: function (name, e) { var target = e.getTarget(), surface = this.surface, sprite; this.fireEvent(name, e); sprite = this.items.get(target.id); if (sprite) { sprite.fireEvent(name, sprite, e); } }, // Create the VML element/elements and append them to the DOM createSpriteElement: function (sprite) { var me = this, attr = sprite.attr, type = sprite.type, zoom = me.zoom, vml = sprite.vml || (sprite.vml = {}), round = Math.round, el = (type === 'image') ? me.createNode('image') : me.createNode('shape'), path, skew, textPath; el.coordsize = zoom + ' ' + zoom; el.coordorigin = attr.coordorigin || "0 0"; Ext.get(el).addCls(me.spriteCls); if (type == "text") { vml.path = path = me.createNode("path"); path.textpathok = true; vml.textpath = textPath = me.createNode("textpath"); textPath.on = true; el.appendChild(textPath); el.appendChild(path); } el.id = sprite.id; sprite.el = Ext.get(el); sprite.el.setStyle('zIndex', -me.zIndexShift); me.el.appendChild(el); if (type !== 'image') { skew = me.createNode("skew"); skew.on = true; el.appendChild(skew); sprite.skew = skew; } sprite.matrix = new Ext.draw.Matrix(); sprite.bbox = { plain: null, transform: null }; this.applyAttrs(sprite); this.applyTransformations(sprite); sprite.fireEvent("render", sprite); return sprite.el; }, getBBoxText: function (sprite) { var vml = sprite.vml; return { x: vml.X + (vml.bbx || 0) - vml.W / 2, y: vml.Y - vml.H / 2, width: vml.W, height: vml.H }; }, applyAttrs: function (sprite) { var me = this, vml = sprite.vml, group = sprite.group, spriteAttr = sprite.attr, el = sprite.el, dom = el.dom, style, name, groups, i, ln, scrubbedAttrs, font, key, cx, cy, rx, ry; if (group) { groups = [].concat(group); ln = groups.length; for (i = 0; i < ln; i++) { group = groups[i]; me.getGroup(group).add(sprite); } delete sprite.group; } scrubbedAttrs = me.scrubAttrs(sprite) || {}; if (sprite.zIndexDirty) { me.setZIndex(sprite); } // Apply minimum default attributes Ext.applyIf(scrubbedAttrs, me.minDefaults[sprite.type]); if (sprite.type == 'image') { Ext.apply(sprite.attr, { x: scrubbedAttrs.x, y: scrubbedAttrs.y, width: scrubbedAttrs.width, height: scrubbedAttrs.height }); el.setStyle({ width: scrubbedAttrs.width + 'px', height: scrubbedAttrs.height + 'px' }); dom.src = scrubbedAttrs.src; } if (dom.href) { dom.href = scrubbedAttrs.href; } if (dom.title) { dom.title = scrubbedAttrs.title; } if (dom.target) { dom.target = scrubbedAttrs.target; } if (dom.cursor) { dom.cursor = scrubbedAttrs.cursor; } // Change visibility if (sprite.dirtyHidden) { (scrubbedAttrs.hidden) ? me.hidePrim(sprite) : me.showPrim(sprite); sprite.dirtyHidden = false; } // Update path if (sprite.dirtyPath) { if (sprite.type == "circle" || sprite.type == "ellipse") { cx = scrubbedAttrs.x; cy = scrubbedAttrs.y; rx = scrubbedAttrs.rx || scrubbedAttrs.r || 0; ry = scrubbedAttrs.ry || scrubbedAttrs.r || 0; dom.path = Ext.String.format("ar{0},{1},{2},{3},{4},{1},{4},{1}", Math.round((cx - rx) * me.zoom), Math.round((cy - ry) * me.zoom), Math.round((cx + rx) * me.zoom), Math.round((cy + ry) * me.zoom), Math.round(cx * me.zoom)); sprite.dirtyPath = false; } else if (sprite.type !== "text" && sprite.type !== 'image') { sprite.attr.path = scrubbedAttrs.path = me.setPaths(sprite, scrubbedAttrs) || scrubbedAttrs.path; dom.path = me.path2vml(scrubbedAttrs.path); sprite.dirtyPath = false; } } // Apply clipping if ("clip-rect" in scrubbedAttrs) { me.setClip(sprite, scrubbedAttrs); } // Handle text (special handling required) if (sprite.type == "text") { me.setTextAttributes(sprite, scrubbedAttrs); } // Handle fill and opacity if (scrubbedAttrs.opacity || scrubbedAttrs['stroke-opacity'] || scrubbedAttrs.fill) { me.setFill(sprite, scrubbedAttrs); } // Handle stroke (all fills require a stroke element) if (scrubbedAttrs.stroke || scrubbedAttrs['stroke-opacity'] || scrubbedAttrs.fill) { me.setStroke(sprite, scrubbedAttrs); } //set styles style = spriteAttr.style; if (style) { el.setStyle(style); } sprite.dirty = false; }, setZIndex: function (sprite) { var me = this, zIndex = sprite.attr.zIndex, shift = me.zIndexShift, items, iLen, item, i; if (zIndex < shift) { // This means bad thing happened. // The algorithm below will guarantee O(n) time. items = me.items.items; iLen = items.length; for (i = 0; i < iLen; i++) { if ((zIndex = items[i].attr.zIndex) && zIndex < shift) { // zIndex is no longer useful this case shift = zIndex; } } me.zIndexShift = shift; for (i = 0; i < iLen; i++) { item = items[i]; if (item.el) { item.el.setStyle('zIndex', item.attr.zIndex - shift); } item.zIndexDirty = false; } } else if (sprite.el) { sprite.el.setStyle('zIndex', zIndex - shift); sprite.zIndexDirty = false; } }, // Normalize all virtualized types into paths. setPaths: function (sprite, params) { var spriteAttr = sprite.attr, thickness = sprite.attr['stroke-width'] || 1; // Clear bbox cache sprite.bbox.plain = null; sprite.bbox.transform = null; if (sprite.type == 'circle') { spriteAttr.rx = spriteAttr.ry = params.r; return Ext.draw.Draw.ellipsePath(sprite); } else if (sprite.type == 'ellipse') { spriteAttr.rx = params.rx; spriteAttr.ry = params.ry; return Ext.draw.Draw.ellipsePath(sprite); } else if (sprite.type == 'rect') { spriteAttr.rx = spriteAttr.ry = params.r; return Ext.draw.Draw.rectPath(sprite); } else if (sprite.type == 'path' && spriteAttr.path) { return Ext.draw.Draw.pathToAbsolute(spriteAttr.path); } return false; }, setFill: function (sprite, params) { var me = this, el = sprite.el.dom, fillEl = el.fill, newfill = false, opacity, gradient, fillUrl, rotation, angle; if (!fillEl) { // NOT an expando (but it sure looks like one)... fillEl = el.fill = me.createNode("fill"); newfill = true; } if (Ext.isArray(params.fill)) { params.fill = params.fill[0]; } if (params.fill == "none") { fillEl.on = false; } else { if (typeof params.opacity == "number") { fillEl.opacity = params.opacity; } if (typeof params["fill-opacity"] == "number") { fillEl.opacity = params["fill-opacity"]; } fillEl.on = true; if (typeof params.fill == "string") { fillUrl = params.fill.match(me.fillUrlRe); if (fillUrl) { fillUrl = fillUrl[1]; // If the URL matches one of the registered gradients, render that gradient if (fillUrl.charAt(0) == "#") { gradient = me.gradientsColl.getByKey(fillUrl.substring(1)); } if (gradient) { // VML angle is offset and inverted from standard, and must be adjusted to match rotation transform rotation = params.rotation; angle = -(gradient.angle + 270 + (rotation ? rotation.degrees : 0)) % 360; // IE will flip the angle at 0 degrees... if (angle === 0) { angle = 180; } fillEl.angle = angle; fillEl.type = "gradient"; fillEl.method = "sigma"; if (fillEl.colors) { fillEl.colors.value = gradient.colors; } else { fillEl.colors = gradient.colors; } } // Otherwise treat it as an image else { fillEl.src = fillUrl; fillEl.type = "tile"; } } else { fillEl.color = Ext.draw.Color.toHex(params.fill); fillEl.src = ""; fillEl.type = "solid"; } } } if (newfill) { el.appendChild(fillEl); } }, setStroke: function (sprite, params) { var me = this, el = sprite.el.dom, strokeEl = sprite.strokeEl, newStroke = false, width, opacity; if (!strokeEl) { strokeEl = sprite.strokeEl = me.createNode("stroke"); newStroke = true; } if (Ext.isArray(params.stroke)) { params.stroke = params.stroke[0]; } if (!params.stroke || params.stroke == "none" || params.stroke == 0 || params["stroke-width"] == 0) { strokeEl.on = false; } else { strokeEl.on = true; if (params.stroke && !params.stroke.match(me.fillUrlRe)) { // VML does NOT support a gradient stroke :( strokeEl.color = Ext.draw.Color.toHex(params.stroke); } strokeEl.dashstyle = params["stroke-dasharray"] ? "dash" : "solid"; strokeEl.joinstyle = params["stroke-linejoin"]; strokeEl.endcap = params["stroke-linecap"] || "round"; strokeEl.miterlimit = params["stroke-miterlimit"] || 8; width = parseFloat(params["stroke-width"] || 1) * 0.75; opacity = params["stroke-opacity"] || 1; // VML Does not support stroke widths under 1, so we're going to fiddle with stroke-opacity instead. if (Ext.isNumber(width) && width < 1) { strokeEl.weight = 1; strokeEl.opacity = opacity * width; } else { strokeEl.weight = width; strokeEl.opacity = opacity; } } if (newStroke) { el.appendChild(strokeEl); } }, setClip: function (sprite, params) { var me = this, el = sprite.el, clipEl = sprite.clipEl, rect = String(params["clip-rect"]).split(me.separatorRe); if (!clipEl) { clipEl = sprite.clipEl = me.el.insertFirst(Ext.getDoc().dom.createElement("div")); clipEl.addCls(Ext.baseCSSPrefix + 'vml-sprite'); } if (rect.length == 4) { rect[2] = +rect[2] + (+rect[0]); rect[3] = +rect[3] + (+rect[1]); clipEl.setStyle("clip", Ext.String.format("rect({1}px {2}px {3}px {0}px)", rect[0], rect[1], rect[2], rect[3])); clipEl.setSize(me.el.width, me.el.height); } else { clipEl.setStyle("clip", ""); } }, setTextAttributes: function (sprite, params) { var me = this, vml = sprite.vml, textStyle = vml.textpath.style, spanCacheStyle = me.span.style, zoom = me.zoom, round = Math.round, fontObj = { fontSize: "font-size", fontWeight: "font-weight", fontStyle: "font-style" }, fontProp, paramProp; if (sprite.dirtyFont) { if (params.font) { textStyle.font = spanCacheStyle.font = params.font; } if (params["font-family"]) { textStyle.fontFamily = '"' + params["font-family"].split(",")[0].replace(me.fontFamilyRe, "") + '"'; spanCacheStyle.fontFamily = params["font-family"]; } for (fontProp in fontObj) { paramProp = params[fontObj[fontProp]]; if (paramProp) { textStyle[fontProp] = spanCacheStyle[fontProp] = paramProp; } } me.setText(sprite, params.text); if (vml.textpath.string) { me.span.innerHTML = String(vml.textpath.string).replace(/</g, "<").replace(/&/g, "&").replace(/\n/g, "<br/>"); } vml.W = me.span.offsetWidth; vml.H = me.span.offsetHeight + 2; // TODO handle baseline differences and offset in VML Textpath // text-anchor emulation if (params["text-anchor"] == "middle") { textStyle["v-text-align"] = "center"; } else if (params["text-anchor"] == "end") { textStyle["v-text-align"] = "right"; vml.bbx = -Math.round(vml.W / 2); } else { textStyle["v-text-align"] = "left"; vml.bbx = Math.round(vml.W / 2); } } vml.X = params.x; vml.Y = params.y; vml.path.v = Ext.String.format("m{0},{1}l{2},{1}", Math.round(vml.X * zoom), Math.round(vml.Y * zoom), Math.round(vml.X * zoom) + 1); // Clear bbox cache sprite.bbox.plain = null; sprite.bbox.transform = null; sprite.dirtyFont = false; }, setText: function (sprite, text) { sprite.vml.textpath.string = Ext.htmlDecode(text); }, hide: function () { this.el.hide(); }, show: function () { this.el.show(); }, hidePrim: function (sprite) { sprite.el.addCls(Ext.baseCSSPrefix + 'hide-visibility'); }, showPrim: function (sprite) { sprite.el.removeCls(Ext.baseCSSPrefix + 'hide-visibility'); }, setSize: function (width, height) { var me = this; width = width || me.width; height = height || me.height; me.width = width; me.height = height; if (me.el) { // Size outer div if (width != undefined) { me.el.setWidth(width); } if (height != undefined) { me.el.setHeight(height); } } me.callParent(arguments); }, /** * @private Using the current viewBox property and the surface's width and height, calculate the * appropriate viewBoxShift that will be applied as a persistent transform to all sprites. */ applyViewBox: function () { var me = this, viewBox = me.viewBox, width = me.width, height = me.height, items, iLen, i; me.callParent(); if (viewBox && (width || height)) { items = me.items.items; iLen = items.length; for (i = 0; i < iLen; i++) { me.applyTransformations(items[i]); } } }, onAdd: function (item) { this.callParent(arguments); if (this.el) { this.renderItem(item); } }, onRemove: function (sprite) { if (sprite.el) { sprite.el.remove(); delete sprite.el; } this.callParent(arguments); }, render: function (container) { var me = this, doc = Ext.getDoc().dom, el; // VML Node factory method (createNode) if (!me.createNode) { try { if (!doc.namespaces.rvml) { doc.namespaces.add("rvml", "urn:schemas-microsoft-com:vml"); } me.createNode = function (tagName) { return doc.createElement("<rvml:" + tagName + ' class="rvml">'); }; } catch (e) { me.createNode = function (tagName) { return doc.createElement("<" + tagName + ' xmlns="urn:schemas-microsoft.com:vml" class="rvml">'); }; } } if (!me.el) { el = doc.createElement("div"); me.el = Ext.get(el); me.el.addCls(me.baseVmlCls); // Measuring span (offscrren) me.span = doc.createElement("span"); Ext.get(me.span).addCls(me.measureSpanCls); el.appendChild(me.span); me.el.setSize(me.width || 0, me.height || 0); container.appendChild(el); me.el.on({ scope: me, mouseup: me.onMouseUp, mousedown: me.onMouseDown, mouseover: me.onMouseOver, mouseout: me.onMouseOut, mousemove: me.onMouseMove, mouseenter: me.onMouseEnter, mouseleave: me.onMouseLeave, click: me.onClick, dblclick: me.onDblClick }); } me.renderAll(); }, renderAll: function () { this.items.each(this.renderItem, this); }, redraw: function (sprite) { sprite.dirty = true; this.renderItem(sprite); }, renderItem: function (sprite) { // Does the surface element exist? if (!this.el) { return; } // Create sprite element if necessary if (!sprite.el) { this.createSpriteElement(sprite); } if (sprite.dirty) { this.applyAttrs(sprite); if (sprite.dirtyTransform) { this.applyTransformations(sprite); } } }, rotationCompensation: function (deg, dx, dy) { var matrix = new Ext.draw.Matrix(); matrix.rotate(-deg, 0.5, 0.5); return { x: matrix.x(dx, dy), y: matrix.y(dx, dy) }; }, transform: function (sprite, matrixOnly) { var me = this, bbox = me.getBBox(sprite, true), cx = bbox.x + bbox.width * 0.5, cy = bbox.y + bbox.height * 0.5, matrix = new Ext.draw.Matrix(), transforms = sprite.transformations, transformsLength = transforms.length, i = 0, deltaDegrees = 0, deltaScaleX = 1, deltaScaleY = 1, flip = "", el = sprite.el, dom = el.dom, domStyle = dom.style, zoom = me.zoom, skew = sprite.skew, shift = me.viewBoxShift, deltaX, deltaY, transform, type, compensate, y, fill, newAngle, zoomScaleX, zoomScaleY, newOrigin, offset; for (; i < transformsLength; i++) { transform = transforms[i]; type = transform.type; if (type == "translate") { matrix.translate(transform.x, transform.y); } else if (type == "rotate") { matrix.rotate(transform.degrees, transform.x, transform.y); deltaDegrees += transform.degrees; } else if (type == "scale") { matrix.scale(transform.x, transform.y, transform.centerX, transform.centerY); deltaScaleX *= transform.x; deltaScaleY *= transform.y; } } sprite.matrix = matrix.clone(); if (matrixOnly) { return; } if (shift) { matrix.prepend(shift.scale, 0, 0, shift.scale, shift.dx * shift.scale, shift.dy * shift.scale); } // Hide element while we transform if (sprite.type != "image" && skew) { skew.origin = "0,0"; // matrix transform via VML skew skew.matrix = matrix.toString(); // skew.offset = '32767,1' OK // skew.offset = '32768,1' Crash // M$, R U kidding?? offset = matrix.offset(); if (offset[0] > 32767) { offset[0] = 32767; } else if (offset[0] < -32768) { offset[0] = -32768; } if (offset[1] > 32767) { offset[1] = 32767; } else if (offset[1] < -32768) { offset[1] = -32768; } skew.offset = offset; } else { domStyle.filter = matrix.toFilter(); domStyle.left = Math.min( matrix.x(bbox.x, bbox.y), matrix.x(bbox.x + bbox.width, bbox.y), matrix.x(bbox.x, bbox.y + bbox.height), matrix.x(bbox.x + bbox.width, bbox.y + bbox.height)) + 'px'; domStyle.top = Math.min( matrix.y(bbox.x, bbox.y), matrix.y(bbox.x + bbox.width, bbox.y), matrix.y(bbox.x, bbox.y + bbox.height), matrix.y(bbox.x + bbox.width, bbox.y + bbox.height)) + 'px'; } }, createItem: function (config) { return Ext.create('Ext.draw.Sprite', config); }, getRegion: function () { return this.el.getRegion(); }, addCls: function (sprite, className) { if (sprite && sprite.el) { sprite.el.addCls(className); } }, removeCls: function (sprite, className) { if (sprite && sprite.el) { sprite.el.removeCls(className); } }, /** * Adds a definition to this Surface for a linear gradient. We convert the gradient definition * to its corresponding VML attributes and store it for later use by individual sprites. * @param {Object} gradient */ addGradient: function (gradient) { var gradients = this.gradientsColl || (this.gradientsColl = Ext.create('Ext.util.MixedCollection')), colors = [], stops = Ext.create('Ext.util.MixedCollection'), keys, items, iLen, key, item, i; // Build colors string stops.addAll(gradient.stops); stops.sortByKey("ASC", function (a, b) { a = parseInt(a, 10); b = parseInt(b, 10); return a > b ? 1 : (a < b ? -1 : 0); }); keys = stops.keys; items = stops.items; iLen = keys.length; for (i = 0; i < iLen; i++) { key = keys[i]; item = items[i]; colors.push(key + '% ' + item.color); } gradients.add(gradient.id, { colors: colors.join(","), angle: gradient.angle }); }, destroy: function () { var me = this; me.callParent(arguments); if (me.el) { me.el.remove(); } delete me.el; } });