/** * Copyright (c) 2006-2015, JGraph Ltd */ /** * Registers shapes. */ (function() { // Cube Shape, supports size style function CubeShape() { mxCylinder.call(this); }; mxUtils.extend(CubeShape, mxCylinder); CubeShape.prototype.size = 20; CubeShape.prototype.darkOpacity = 0; CubeShape.prototype.darkOpacity2 = 0; CubeShape.prototype.paintVertexShape = function(c, x, y, w, h) { var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); var op = Math.max(-1, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'darkOpacity', this.darkOpacity)))); var op2 = Math.max(-1, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'darkOpacity2', this.darkOpacity2)))); c.translate(x, y); c.begin(); c.moveTo(0, 0); c.lineTo(w - s, 0); c.lineTo(w, s); c.lineTo(w, h); c.lineTo(s, h); c.lineTo(0, h - s); c.lineTo(0, 0); c.close(); c.end(); c.fillAndStroke(); if (!this.outline) { c.setShadow(false); if (op != 0) { c.setFillAlpha(Math.abs(op)); c.setFillColor((op < 0) ? '#FFFFFF' : '#000000'); c.begin(); c.moveTo(0, 0); c.lineTo(w - s, 0); c.lineTo(w, s); c.lineTo(s, s); c.close(); c.fill(); } if (op2 != 0) { c.setFillAlpha(Math.abs(op2)); c.setFillColor((op2 < 0) ? '#FFFFFF' : '#000000'); c.begin(); c.moveTo(0, 0); c.lineTo(s, s); c.lineTo(s, h); c.lineTo(0, h - s); c.close(); c.fill(); } c.begin(); c.moveTo(s, h); c.lineTo(s, s); c.lineTo(0, 0); c.moveTo(s, s); c.lineTo(w, s); c.end(); c.stroke(); } }; CubeShape.prototype.getLabelMargins = function(rect) { if (mxUtils.getValue(this.style, 'boundedLbl', false)) { var s = parseFloat(mxUtils.getValue(this.style, 'size', this.size)) * this.scale; return new mxRectangle(s, s, 0, 0); } return null; }; mxCellRenderer.registerShape('cube', CubeShape); var tan30 = Math.tan(mxUtils.toRadians(30)); var tan30Dx = (0.5 - tan30) / 2; // Cube Shape, supports size style function IsoRectangleShape() { mxActor.call(this); }; mxUtils.extend(IsoRectangleShape, mxActor); IsoRectangleShape.prototype.size = 20; IsoRectangleShape.prototype.redrawPath = function(path, x, y, w, h) { var m = Math.min(w, h / tan30); path.translate((w - m) / 2, (h - m) / 2 + m / 4); path.moveTo(0, 0.25 * m); path.lineTo(0.5 * m, m * tan30Dx); path.lineTo(m, 0.25 * m); path.lineTo(0.5 * m, (0.5 - tan30Dx) * m); path.lineTo(0, 0.25 * m); path.close(); path.end(); }; mxCellRenderer.registerShape('isoRectangle', IsoRectangleShape); // Cube Shape, supports size style function IsoCubeShape() { mxCylinder.call(this); }; mxUtils.extend(IsoCubeShape, mxCylinder); IsoCubeShape.prototype.size = 20; IsoCubeShape.prototype.redrawPath = function(path, x, y, w, h, isForeground) { var m = Math.min(w, h / (0.5 + tan30)); if (isForeground) { path.moveTo(0, 0.25 * m); path.lineTo(0.5 * m, (0.5 - tan30Dx) * m); path.lineTo(m, 0.25 * m); path.moveTo(0.5 * m, (0.5 - tan30Dx) * m); path.lineTo(0.5 * m, (1 - tan30Dx) * m); path.end(); } else { path.translate((w - m) / 2, (h - m) / 2); path.moveTo(0, 0.25 * m); path.lineTo(0.5 * m, m * tan30Dx); path.lineTo(m, 0.25 * m); path.lineTo(m, 0.75 * m); path.lineTo(0.5 * m, (1 - tan30Dx) * m); path.lineTo(0, 0.75 * m); path.close(); path.end(); } }; mxCellRenderer.registerShape('isoCube', IsoCubeShape); // DataStore Shape, supports size style function DataStoreShape() { mxCylinder.call(this); }; mxUtils.extend(DataStoreShape, mxCylinder); DataStoreShape.prototype.redrawPath = function(c, x, y, w, h, isForeground) { var dy = Math.min(h / 2, Math.round(h / 8) + this.strokewidth - 1); if ((isForeground && this.fill != null) || (!isForeground && this.fill == null)) { c.moveTo(0, dy); c.curveTo(0, 2 * dy, w, 2 * dy, w, dy); // Needs separate shapes for correct hit-detection if (!isForeground) { c.stroke(); c.begin(); } c.translate(0, dy / 2); c.moveTo(0, dy); c.curveTo(0, 2 * dy, w, 2 * dy, w, dy); // Needs separate shapes for correct hit-detection if (!isForeground) { c.stroke(); c.begin(); } c.translate(0, dy / 2); c.moveTo(0, dy); c.curveTo(0, 2 * dy, w, 2 * dy, w, dy); // Needs separate shapes for correct hit-detection if (!isForeground) { c.stroke(); c.begin(); } c.translate(0, -dy); } if (!isForeground) { c.moveTo(0, dy); c.curveTo(0, -dy / 3, w, -dy / 3, w, dy); c.lineTo(w, h - dy); c.curveTo(w, h + dy / 3, 0, h + dy / 3, 0, h - dy); c.close(); } }; DataStoreShape.prototype.getLabelMargins = function(rect) { return new mxRectangle(0, 2.5 * Math.min(rect.height / 2, Math.round(rect.height / 8) + this.strokewidth - 1), 0, 0); } mxCellRenderer.registerShape('datastore', DataStoreShape); // Note Shape, supports size style function NoteShape() { mxCylinder.call(this); }; mxUtils.extend(NoteShape, mxCylinder); NoteShape.prototype.size = 30; NoteShape.prototype.darkOpacity = 0; NoteShape.prototype.paintVertexShape = function(c, x, y, w, h) { var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); var op = Math.max(-1, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'darkOpacity', this.darkOpacity)))); c.translate(x, y); c.begin(); c.moveTo(0, 0); c.lineTo(w - s, 0); c.lineTo(w, s); c.lineTo(w, h); c.lineTo(0, h); c.lineTo(0, 0); c.close(); c.end(); c.fillAndStroke(); if (!this.outline) { c.setShadow(false); if (op != 0) { c.setFillAlpha(Math.abs(op)); c.setFillColor((op < 0) ? '#FFFFFF' : '#000000'); c.begin(); c.moveTo(w - s, 0); c.lineTo(w - s, s); c.lineTo(w, s); c.close(); c.fill(); } c.begin(); c.moveTo(w - s, 0); c.lineTo(w - s, s); c.lineTo(w, s); c.end(); c.stroke(); } }; mxCellRenderer.registerShape('note', NoteShape); // Note Shape, supports size style function SwitchShape() { mxActor.call(this); }; mxUtils.extend(SwitchShape, mxActor); SwitchShape.prototype.redrawPath = function(c, x, y, w, h) { var curve = 0.5; c.moveTo(0, 0); c.quadTo(w / 2, h * curve, w, 0); c.quadTo(w * (1 - curve), h / 2, w, h); c.quadTo(w / 2, h * (1 - curve), 0, h); c.quadTo(w * curve, h / 2, 0, 0); c.end(); }; mxCellRenderer.registerShape('switch', SwitchShape); // Folder Shape, supports tabWidth, tabHeight styles function FolderShape() { mxCylinder.call(this); }; mxUtils.extend(FolderShape, mxCylinder); FolderShape.prototype.tabWidth = 60; FolderShape.prototype.tabHeight = 20; FolderShape.prototype.tabPosition = 'right'; FolderShape.prototype.redrawPath = function(path, x, y, w, h, isForeground) { var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'tabWidth', this.tabWidth)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'tabHeight', this.tabHeight)))); var tp = mxUtils.getValue(this.style, 'tabPosition', this.tabPosition); if (isForeground) { if (tp == 'left') { path.moveTo(0, dy); path.lineTo(dx, dy); } // Right is default else { path.moveTo(w - dx, dy); path.lineTo(w, dy); } path.end(); } else { if (tp == 'left') { path.moveTo(0, 0); path.lineTo(dx, 0); path.lineTo(dx, dy); path.lineTo(w, dy); } // Right is default else { path.moveTo(0, dy); path.lineTo(w - dx, dy); path.lineTo(w - dx, 0); path.lineTo(w, 0); } path.lineTo(w, h); path.lineTo(0, h); path.lineTo(0, dy); path.close(); path.end(); } }; mxCellRenderer.registerShape('folder', FolderShape); // Card shape function CardShape() { mxActor.call(this); }; mxUtils.extend(CardShape, mxActor); CardShape.prototype.size = 30; CardShape.prototype.isRoundable = function() { return true; }; CardShape.prototype.redrawPath = function(c, x, y, w, h) { var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(s, 0), new mxPoint(w, 0), new mxPoint(w, h), new mxPoint(0, h), new mxPoint(0, s)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('card', CardShape); // Tape shape function TapeShape() { mxActor.call(this); }; mxUtils.extend(TapeShape, mxActor); TapeShape.prototype.size = 0.4; TapeShape.prototype.redrawPath = function(c, x, y, w, h) { var dy = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var fy = 1.4; c.moveTo(0, dy / 2); c.quadTo(w / 4, dy * fy, w / 2, dy / 2); c.quadTo(w * 3 / 4, dy * (1 - fy), w, dy / 2); c.lineTo(w, h - dy / 2); c.quadTo(w * 3 / 4, h - dy * fy, w / 2, h - dy / 2); c.quadTo(w / 4, h - dy * (1 - fy), 0, h - dy / 2); c.lineTo(0, dy / 2); c.close(); c.end(); }; TapeShape.prototype.getLabelBounds = function(rect) { if (mxUtils.getValue(this.style, 'boundedLbl', false)) { var size = mxUtils.getValue(this.style, 'size', this.size); var w = rect.width; var h = rect.height; if (this.direction == null || this.direction == mxConstants.DIRECTION_EAST || this.direction == mxConstants.DIRECTION_WEST) { var dy = h * size; return new mxRectangle(rect.x, rect.y + dy, w, h - 2 * dy); } else { var dx = w * size; return new mxRectangle(rect.x + dx, rect.y, w - 2 * dx, h); } } return rect; }; mxCellRenderer.registerShape('tape', TapeShape); // Document shape function DocumentShape() { mxActor.call(this); }; mxUtils.extend(DocumentShape, mxActor); DocumentShape.prototype.size = 0.3; DocumentShape.prototype.getLabelMargins = function(rect) { if (mxUtils.getValue(this.style, 'boundedLbl', false)) { return new mxRectangle(0, 0, 0, parseFloat(mxUtils.getValue( this.style, 'size', this.size)) * rect.height); } return null; }; DocumentShape.prototype.redrawPath = function(c, x, y, w, h) { var dy = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var fy = 1.4; c.moveTo(0, 0); c.lineTo(w, 0); c.lineTo(w, h - dy / 2); c.quadTo(w * 3 / 4, h - dy * fy, w / 2, h - dy / 2); c.quadTo(w / 4, h - dy * (1 - fy), 0, h - dy / 2); c.lineTo(0, dy / 2); c.close(); c.end(); }; mxCellRenderer.registerShape('document', DocumentShape); var cylinderGetCylinderSize = mxCylinder.prototype.getCylinderSize; mxCylinder.prototype.getCylinderSize = function(x, y, w, h) { var size = mxUtils.getValue(this.style, 'size'); if (size != null) { return h * Math.max(0, Math.min(1, size)); } else { return cylinderGetCylinderSize.apply(this, arguments); } }; mxCylinder.prototype.getLabelMargins = function(rect) { if (mxUtils.getValue(this.style, 'boundedLbl', false)) { var size = mxUtils.getValue(this.style, 'size', 0.15) * 2; return new mxRectangle(0, Math.min(this.maxHeight * this.scale, rect.height * size), 0, 0); } return null; }; // Parallelogram shape function ParallelogramShape() { mxActor.call(this); }; mxUtils.extend(ParallelogramShape, mxActor); ParallelogramShape.prototype.size = 0.2; ParallelogramShape.prototype.isRoundable = function() { return true; }; ParallelogramShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, h), new mxPoint(dx, 0), new mxPoint(w, 0), new mxPoint(w - dx, h)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('parallelogram', ParallelogramShape); // Trapezoid shape function TrapezoidShape() { mxActor.call(this); }; mxUtils.extend(TrapezoidShape, mxActor); TrapezoidShape.prototype.size = 0.2; TrapezoidShape.prototype.isRoundable = function() { return true; }; TrapezoidShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = w * Math.max(0, Math.min(0.5, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, h), new mxPoint(dx, 0), new mxPoint(w - dx, 0), new mxPoint(w, h)], this.isRounded, arcSize, true); }; mxCellRenderer.registerShape('trapezoid', TrapezoidShape); // Curly Bracket shape function CurlyBracketShape() { mxActor.call(this); }; mxUtils.extend(CurlyBracketShape, mxActor); CurlyBracketShape.prototype.size = 0.5; CurlyBracketShape.prototype.redrawPath = function(c, x, y, w, h) { c.setFillColor(null); var s = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(w, 0), new mxPoint(s, 0), new mxPoint(s, h / 2), new mxPoint(0, h / 2), new mxPoint(s, h / 2), new mxPoint(s, h), new mxPoint(w, h)], this.isRounded, arcSize, false); c.end(); }; mxCellRenderer.registerShape('curlyBracket', CurlyBracketShape); // Parallel marker shape function ParallelMarkerShape() { mxActor.call(this); }; mxUtils.extend(ParallelMarkerShape, mxActor); ParallelMarkerShape.prototype.redrawPath = function(c, x, y, w, h) { c.setStrokeWidth(1); c.setFillColor(this.stroke); var w2 = w / 5; c.rect(0, 0, w2, h); c.fillAndStroke(); c.rect(2 * w2, 0, w2, h); c.fillAndStroke(); c.rect(4 * w2, 0, w2, h); c.fillAndStroke(); }; mxCellRenderer.registerShape('parallelMarker', ParallelMarkerShape); /** * Adds handJiggle style (jiggle=n sets jiggle) */ function HandJiggle(canvas, defaultVariation) { this.canvas = canvas; // Avoids "spikes" in the output this.canvas.setLineJoin('round'); this.canvas.setLineCap('round'); this.defaultVariation = defaultVariation; this.originalLineTo = this.canvas.lineTo; this.canvas.lineTo = mxUtils.bind(this, HandJiggle.prototype.lineTo); this.originalMoveTo = this.canvas.moveTo; this.canvas.moveTo = mxUtils.bind(this, HandJiggle.prototype.moveTo); this.originalClose = this.canvas.close; this.canvas.close = mxUtils.bind(this, HandJiggle.prototype.close); this.originalQuadTo = this.canvas.quadTo; this.canvas.quadTo = mxUtils.bind(this, HandJiggle.prototype.quadTo); this.originalCurveTo = this.canvas.curveTo; this.canvas.curveTo = mxUtils.bind(this, HandJiggle.prototype.curveTo); this.originalArcTo = this.canvas.arcTo; this.canvas.arcTo = mxUtils.bind(this, HandJiggle.prototype.arcTo); }; HandJiggle.prototype.moveTo = function(endX, endY) { this.originalMoveTo.apply(this.canvas, arguments); this.lastX = endX; this.lastY = endY; this.firstX = endX; this.firstY = endY; }; HandJiggle.prototype.close = function() { if (this.firstX != null && this.firstY != null) { this.lineTo(this.firstX, this.firstY); this.originalClose.apply(this.canvas, arguments); } this.originalClose.apply(this.canvas, arguments); }; HandJiggle.prototype.quadTo = function(x1, y1, x2, y2) { this.originalQuadTo.apply(this.canvas, arguments); this.lastX = x2; this.lastY = y2; }; HandJiggle.prototype.curveTo = function(x1, y1, x2, y2, x3, y3) { this.originalCurveTo.apply(this.canvas, arguments); this.lastX = x3; this.lastY = y3; }; HandJiggle.prototype.arcTo = function(rx, ry, angle, largeArcFlag, sweepFlag, x, y) { this.originalArcTo.apply(this.canvas, arguments); this.lastX = x; this.lastY = y; }; HandJiggle.prototype.lineTo = function(endX, endY) { // LATER: Check why this.canvas.lastX cannot be used if (this.lastX != null && this.lastY != null) { var dx = Math.abs(endX - this.lastX); var dy = Math.abs(endY - this.lastY); var dist = Math.sqrt(dx * dx + dy * dy); if (dist < 2) { this.originalLineTo.apply(this.canvas, arguments); this.lastX = endX; this.lastY = endY; return; } var segs = Math.round(dist / 10); var variation = this.defaultVariation; if (segs < 5) { segs = 5; variation /= 3; } function sign(x) { return typeof x === 'number' ? x ? x < 0 ? -1 : 1 : x === x ? 0 : NaN : NaN; } var stepX = sign(endX - this.lastX) * dx / segs; var stepY = sign(endY - this.lastY) * dy / segs; var fx = dx / dist; var fy = dy / dist; for (var s = 0; s < segs; s++) { var x = stepX * s + this.lastX; var y = stepY * s + this.lastY; var offset = (Math.random() - 0.5) * variation; this.originalLineTo.call(this.canvas, x - offset * fy, y - offset * fx); } this.originalLineTo.call(this.canvas, endX, endY); this.lastX = endX; this.lastY = endY; } else { this.originalLineTo.apply(this.canvas, arguments); this.lastX = endX; this.lastY = endY; } }; HandJiggle.prototype.destroy = function() { this.canvas.lineTo = this.originalLineTo; this.canvas.moveTo = this.originalMoveTo; this.canvas.close = this.originalClose; this.canvas.quadTo = this.originalQuadTo; this.canvas.curveTo = this.originalCurveTo; this.canvas.arcTo = this.originalArcTo; }; // Installs hand jiggle in all shapes var mxShapePaint0 = mxShape.prototype.paint; mxShape.prototype.defaultJiggle = 1.5; mxShape.prototype.paint = function(c) { // NOTE: getValue does not return a boolean value so !('0') would return true here and below if (this.style != null && mxUtils.getValue(this.style, 'comic', '0') != '0' && c.handHiggle == null) { c.handJiggle = new HandJiggle(c, mxUtils.getValue(this.style, 'jiggle', this.defaultJiggle)); } mxShapePaint0.apply(this, arguments); if (c.handJiggle != null) { c.handJiggle.destroy(); delete c.handJiggle; } }; // Sets default jiggle for diamond mxRhombus.prototype.defaultJiggle = 2; /** * Overrides to avoid call to rect */ var mxRectangleShapeIsHtmlAllowed0 = mxRectangleShape.prototype.isHtmlAllowed; mxRectangleShape.prototype.isHtmlAllowed = function() { return (this.style == null || mxUtils.getValue(this.style, 'comic', '0') == '0') && mxRectangleShapeIsHtmlAllowed0.apply(this, arguments); }; var mxRectangleShapePaintBackground0 = mxRectangleShape.prototype.paintBackground; mxRectangleShape.prototype.paintBackground = function(c, x, y, w, h) { if (c.handJiggle == null) { mxRectangleShapePaintBackground0.apply(this, arguments); } else { var events = true; if (this.style != null) { events = mxUtils.getValue(this.style, mxConstants.STYLE_POINTER_EVENTS, '1') == '1'; } if (events || (this.fill != null && this.fill != mxConstants.NONE) || (this.stroke != null && this.stroke != mxConstants.NONE)) { if (!events && (this.fill == null || this.fill == mxConstants.NONE)) { c.pointerEvents = false; } c.begin(); if (this.isRounded) { var r = 0; if (mxUtils.getValue(this.style, mxConstants.STYLE_ABSOLUTE_ARCSIZE, 0) == '1') { r = Math.min(w / 2, Math.min(h / 2, mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2)); } else { var f = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.RECTANGLE_ROUNDING_FACTOR * 100) / 100; r = Math.min(w * f, h * f); } c.moveTo(x + r, y); c.lineTo(x + w - r, y); c.quadTo(x + w, y, x + w, y + r); c.lineTo(x + w, y + h - r); c.quadTo(x + w, y + h, x + w - r, y + h); c.lineTo(x + r, y + h); c.quadTo(x, y + h, x, y + h - r); c.lineTo(x, y + r); c.quadTo(x, y, x + r, y); } else { c.moveTo(x, y); c.lineTo(x + w, y); c.lineTo(x + w, y + h); c.lineTo(x, y + h); c.lineTo(x, y); } // LATER: Check if close is needed here c.close(); c.end(); c.fillAndStroke(); } } }; /** * Disables glass effect with hand jiggle. */ var mxRectangleShapePaintForeground0 = mxRectangleShape.prototype.paintForeground; mxRectangleShape.prototype.paintForeground = function(c, x, y, w, h) { if (c.handJiggle == null) { mxRectangleShapePaintForeground0.apply(this, arguments); } }; // End of hand jiggle integration // Process Shape function ProcessShape() { mxRectangleShape.call(this); }; mxUtils.extend(ProcessShape, mxRectangleShape); ProcessShape.prototype.size = 0.1; ProcessShape.prototype.isHtmlAllowed = function() { return false; }; ProcessShape.prototype.getLabelBounds = function(rect) { if (mxUtils.getValue(this.state.style, mxConstants.STYLE_HORIZONTAL, true) == (this.direction == null || this.direction == mxConstants.DIRECTION_EAST || this.direction == mxConstants.DIRECTION_WEST)) { var w = rect.width; var h = rect.height; var r = new mxRectangle(rect.x, rect.y, w, h); var inset = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); if (this.isRounded) { var f = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.RECTANGLE_ROUNDING_FACTOR * 100) / 100; inset = Math.max(inset, Math.min(w * f, h * f)); } r.x += Math.round(inset); r.width -= Math.round(2 * inset); return r; } return rect; }; ProcessShape.prototype.paintForeground = function(c, x, y, w, h) { var inset = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); if (this.isRounded) { var f = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.RECTANGLE_ROUNDING_FACTOR * 100) / 100; inset = Math.max(inset, Math.min(w * f, h * f)); } // Crisp rendering of inner lines inset = Math.round(inset); c.begin(); c.moveTo(x + inset, y); c.lineTo(x + inset, y + h); c.moveTo(x + w - inset, y); c.lineTo(x + w - inset, y + h); c.end(); c.stroke(); mxRectangleShape.prototype.paintForeground.apply(this, arguments); }; mxCellRenderer.registerShape('process', ProcessShape); // Transparent Shape function TransparentShape() { mxRectangleShape.call(this); }; mxUtils.extend(TransparentShape, mxRectangleShape); TransparentShape.prototype.paintBackground = function(c, x, y, w, h) { c.setFillColor(mxConstants.NONE); c.rect(x, y, w, h); c.fill(); }; TransparentShape.prototype.paintForeground = function(c, x, y, w, h) { }; mxCellRenderer.registerShape('transparent', TransparentShape); // Callout shape function CalloutShape() { mxActor.call(this); }; mxUtils.extend(CalloutShape, mxHexagon); CalloutShape.prototype.size = 30; CalloutShape.prototype.position = 0.5; CalloutShape.prototype.position2 = 0.5; CalloutShape.prototype.base = 20; CalloutShape.prototype.getLabelMargins = function() { return new mxRectangle(0, 0, 0, parseFloat(mxUtils.getValue( this.style, 'size', this.size)) * this.scale); }; CalloutShape.prototype.isRoundable = function() { return true; }; CalloutShape.prototype.redrawPath = function(c, x, y, w, h) { var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; var s = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var dx = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'position', this.position)))); var dx2 = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'position2', this.position2)))); var base = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'base', this.base)))); this.addPoints(c, [new mxPoint(0, 0), new mxPoint(w, 0), new mxPoint(w, h - s), new mxPoint(Math.min(w, dx + base), h - s), new mxPoint(dx2, h), new mxPoint(Math.max(0, dx), h - s), new mxPoint(0, h - s)], this.isRounded, arcSize, true, [4]); }; mxCellRenderer.registerShape('callout', CalloutShape); // Step shape function StepShape() { mxActor.call(this); }; mxUtils.extend(StepShape, mxActor); StepShape.prototype.size = 0.2; StepShape.prototype.fixedSize = 20; StepShape.prototype.isRoundable = function() { return true; }; StepShape.prototype.redrawPath = function(c, x, y, w, h) { var fixed = mxUtils.getValue(this.style, 'fixedSize', '0') != '0'; var s = (fixed) ? Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'size', this.fixedSize)))) : w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, 0), new mxPoint(w - s, 0), new mxPoint(w, h / 2), new mxPoint(w - s, h), new mxPoint(0, h), new mxPoint(s, h / 2)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('step', StepShape); // Hexagon shape function HexagonShape() { mxActor.call(this); }; mxUtils.extend(HexagonShape, mxHexagon); HexagonShape.prototype.size = 0.25; HexagonShape.prototype.isRoundable = function() { return true; }; HexagonShape.prototype.redrawPath = function(c, x, y, w, h) { var s = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(s, 0), new mxPoint(w - s, 0), new mxPoint(w, 0.5 * h), new mxPoint(w - s, h), new mxPoint(s, h), new mxPoint(0, 0.5 * h)], this.isRounded, arcSize, true); }; mxCellRenderer.registerShape('hexagon', HexagonShape); // Plus Shape function PlusShape() { mxRectangleShape.call(this); }; mxUtils.extend(PlusShape, mxRectangleShape); PlusShape.prototype.isHtmlAllowed = function() { return false; }; PlusShape.prototype.paintForeground = function(c, x, y, w, h) { var border = Math.min(w / 5, h / 5) + 1; c.begin(); c.moveTo(x + w / 2, y + border); c.lineTo(x + w / 2, y + h - border); c.moveTo(x + border, y + h / 2); c.lineTo(x + w - border, y + h / 2); c.end(); c.stroke(); mxRectangleShape.prototype.paintForeground.apply(this, arguments); }; mxCellRenderer.registerShape('plus', PlusShape); // Overrides painting of rhombus shape to allow for double style var mxRhombusPaintVertexShape = mxRhombus.prototype.paintVertexShape; mxRhombus.prototype.getLabelBounds = function(rect) { if (this.style['double'] == 1) { var margin = (Math.max(2, this.strokewidth + 1) * 2 + parseFloat( this.style[mxConstants.STYLE_MARGIN] || 0)) * this.scale; return new mxRectangle(rect.x + margin, rect.y + margin, rect.width - 2 * margin, rect.height - 2 * margin); } return rect; }; mxRhombus.prototype.paintVertexShape = function(c, x, y, w, h) { mxRhombusPaintVertexShape.apply(this, arguments); if (!this.outline && this.style['double'] == 1) { var margin = Math.max(2, this.strokewidth + 1) * 2 + parseFloat(this.style[mxConstants.STYLE_MARGIN] || 0); x += margin; y += margin; w -= 2 * margin; h -= 2 * margin; if (w > 0 && h > 0) { c.setShadow(false); // Workaround for closure compiler bug where the lines with x and y above // are removed if arguments is used as second argument in call below. mxRhombusPaintVertexShape.apply(this, [c, x, y, w, h]); } } }; // CompositeShape function ExtendedShape() { mxRectangleShape.call(this); }; mxUtils.extend(ExtendedShape, mxRectangleShape); ExtendedShape.prototype.isHtmlAllowed = function() { return false; }; ExtendedShape.prototype.getLabelBounds = function(rect) { if (this.style['double'] == 1) { var margin = (Math.max(2, this.strokewidth + 1) + parseFloat( this.style[mxConstants.STYLE_MARGIN] || 0)) * this.scale; return new mxRectangle(rect.x + margin, rect.y + margin, rect.width - 2 * margin, rect.height - 2 * margin); } return rect; }; ExtendedShape.prototype.paintForeground = function(c, x, y, w, h) { if (this.style != null) { if (!this.outline && this.style['double'] == 1) { var margin = Math.max(2, this.strokewidth + 1) + parseFloat(this.style[mxConstants.STYLE_MARGIN] || 0); x += margin; y += margin; w -= 2 * margin; h -= 2 * margin; if (w > 0 && h > 0) { mxRectangleShape.prototype.paintBackground.apply(this, arguments); } } c.setDashed(false); // Draws the symbols defined in the style. The symbols are // numbered from 1...n. Possible postfixes are align, // verticalAlign, spacing, arcSpacing, width, height var counter = 0; var shape = null; do { shape = mxCellRenderer.defaultShapes[this.style['symbol' + counter]]; if (shape != null) { var align = this.style['symbol' + counter + 'Align']; var valign = this.style['symbol' + counter + 'VerticalAlign']; var width = this.style['symbol' + counter + 'Width']; var height = this.style['symbol' + counter + 'Height']; var spacing = this.style['symbol' + counter + 'Spacing'] || 0; var vspacing = this.style['symbol' + counter + 'VSpacing'] || spacing; var arcspacing = this.style['symbol' + counter + 'ArcSpacing']; if (arcspacing != null) { var arcSize = this.getArcSize(w + this.strokewidth, h + this.strokewidth) * arcspacing; spacing += arcSize; vspacing += arcSize; } var x2 = x; var y2 = y; if (align == mxConstants.ALIGN_CENTER) { x2 += (w - width) / 2; } else if (align == mxConstants.ALIGN_RIGHT) { x2 += w - width - spacing; } else { x2 += spacing; } if (valign == mxConstants.ALIGN_MIDDLE) { y2 += (h - height) / 2; } else if (valign == mxConstants.ALIGN_BOTTOM) { y2 += h - height - vspacing; } else { y2 += vspacing; } c.save(); // Small hack to pass style along into subshape var tmp = new shape(); // TODO: Clone style and override settings (eg. strokewidth) tmp.style = this.style; shape.prototype.paintVertexShape.call(tmp, c, x2, y2, width, height); c.restore(); } counter++; } while (shape != null); } // Paints glass effect mxRectangleShape.prototype.paintForeground.apply(this, arguments); }; mxCellRenderer.registerShape('ext', ExtendedShape); // Tape Shape, supports size style function MessageShape() { mxCylinder.call(this); }; mxUtils.extend(MessageShape, mxCylinder); MessageShape.prototype.redrawPath = function(path, x, y, w, h, isForeground) { if (isForeground) { path.moveTo(0, 0); path.lineTo(w / 2, h / 2); path.lineTo(w, 0); path.end(); } else { path.moveTo(0, 0); path.lineTo(w, 0); path.lineTo(w, h); path.lineTo(0, h); path.close(); } }; mxCellRenderer.registerShape('message', MessageShape); // UML Actor Shape function UmlActorShape() { mxShape.call(this); }; mxUtils.extend(UmlActorShape, mxShape); UmlActorShape.prototype.paintBackground = function(c, x, y, w, h) { c.translate(x, y); // Head c.ellipse(w / 4, 0, w / 2, h / 4); c.fillAndStroke(); c.begin(); c.moveTo(w / 2, h / 4); c.lineTo(w / 2, 2 * h / 3); // Arms c.moveTo(w / 2, h / 3); c.lineTo(0, h / 3); c.moveTo(w / 2, h / 3); c.lineTo(w, h / 3); // Legs c.moveTo(w / 2, 2 * h / 3); c.lineTo(0, h); c.moveTo(w / 2, 2 * h / 3); c.lineTo(w, h); c.end(); c.stroke(); }; // Replaces existing actor shape mxCellRenderer.registerShape('umlActor', UmlActorShape); // UML Boundary Shape function UmlBoundaryShape() { mxShape.call(this); }; mxUtils.extend(UmlBoundaryShape, mxShape); UmlBoundaryShape.prototype.getLabelMargins = function(rect) { return new mxRectangle(rect.width / 6, 0, 0, 0); }; UmlBoundaryShape.prototype.paintBackground = function(c, x, y, w, h) { c.translate(x, y); // Base line c.begin(); c.moveTo(0, h / 4); c.lineTo(0, h * 3 / 4); c.end(); c.stroke(); // Horizontal line c.begin(); c.moveTo(0, h / 2); c.lineTo(w / 6, h / 2); c.end(); c.stroke(); // Circle c.ellipse(w / 6, 0, w * 5 / 6, h); c.fillAndStroke(); }; // Replaces existing actor shape mxCellRenderer.registerShape('umlBoundary', UmlBoundaryShape); // UML Entity Shape function UmlEntityShape() { mxEllipse.call(this); }; mxUtils.extend(UmlEntityShape, mxEllipse); UmlEntityShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxEllipse.prototype.paintVertexShape.apply(this, arguments); c.begin(); c.moveTo(x + w / 8, y + h); c.lineTo(x + w * 7 / 8, y + h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('umlEntity', UmlEntityShape); // UML Destroy Shape function UmlDestroyShape() { mxShape.call(this); }; mxUtils.extend(UmlDestroyShape, mxShape); UmlDestroyShape.prototype.paintVertexShape = function(c, x, y, w, h) { c.translate(x, y); c.begin(); c.moveTo(w, 0); c.lineTo(0, h); c.moveTo(0, 0); c.lineTo(w, h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('umlDestroy', UmlDestroyShape); // UML Control Shape function UmlControlShape() { mxShape.call(this); }; mxUtils.extend(UmlControlShape, mxShape); UmlControlShape.prototype.getLabelBounds = function(rect) { return new mxRectangle(rect.x, rect.y + rect.height / 8, rect.width, rect.height * 7 / 8); }; UmlControlShape.prototype.paintBackground = function(c, x, y, w, h) { c.translate(x, y); // Upper line c.begin(); c.moveTo(w * 3 / 8, h / 8 * 1.1); c.lineTo(w * 5 / 8, 0); c.end(); c.stroke(); // Circle c.ellipse(0, h / 8, w, h * 7 / 8); c.fillAndStroke(); }; UmlControlShape.prototype.paintForeground = function(c, x, y, w, h) { // Lower line c.begin(); c.moveTo(w * 3 / 8, h / 8 * 1.1); c.lineTo(w * 5 / 8, h / 4); c.end(); c.stroke(); }; // Replaces existing actor shape mxCellRenderer.registerShape('umlControl', UmlControlShape); // UML Lifeline Shape function UmlLifeline() { mxRectangleShape.call(this); }; mxUtils.extend(UmlLifeline, mxRectangleShape); UmlLifeline.prototype.size = 40; UmlLifeline.prototype.isHtmlAllowed = function() { return false; }; UmlLifeline.prototype.getLabelBounds = function(rect) { var size = Math.max(0, Math.min(rect.height, parseFloat( mxUtils.getValue(this.style, 'size', this.size)) * this.scale)); return new mxRectangle(rect.x, rect.y, rect.width, size); }; UmlLifeline.prototype.paintBackground = function(c, x, y, w, h) { var size = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var participant = mxUtils.getValue(this.style, 'participant'); if (participant == null || this.state == null) { mxRectangleShape.prototype.paintBackground.call(this, c, x, y, w, size); } else { var ctor = this.state.view.graph.cellRenderer.getShape(participant); if (ctor != null && ctor != UmlLifeline) { var shape = new ctor(); shape.apply(this.state); c.save(); shape.paintVertexShape(c, x, y, w, size); c.restore(); } } if (size < h) { c.setDashed(true); c.begin(); c.moveTo(x + w / 2, y + size); c.lineTo(x + w / 2, y + h); c.end(); c.stroke(); } }; UmlLifeline.prototype.paintForeground = function(c, x, y, w, h) { var size = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); mxRectangleShape.prototype.paintForeground.call(this, c, x, y, w, Math.min(h, size)); }; mxCellRenderer.registerShape('umlLifeline', UmlLifeline); // UML Frame Shape function UmlFrame() { mxShape.call(this); }; mxUtils.extend(UmlFrame, mxShape); UmlFrame.prototype.width = 60; UmlFrame.prototype.height = 30; UmlFrame.prototype.corner = 10; UmlFrame.prototype.getLabelMargins = function(rect) { return new mxRectangle(0, 0, rect.width - (parseFloat(mxUtils.getValue(this.style, 'width', this.width) * this.scale)), rect.height - (parseFloat(mxUtils.getValue(this.style, 'height', this.height) * this.scale))); }; UmlFrame.prototype.paintBackground = function(c, x, y, w, h) { var co = this.corner; var w0 = Math.min(w, Math.max(co, parseFloat(mxUtils.getValue(this.style, 'width', this.width)))); var h0 = Math.min(h, Math.max(co * 1.5, parseFloat(mxUtils.getValue(this.style, 'height', this.height)))); var bg = mxUtils.getValue(this.style, mxConstants.STYLE_SWIMLANE_FILLCOLOR, mxConstants.NONE); if (bg != mxConstants.NONE) { c.setFillColor(bg); c.rect(x, y, w, h); c.fill(); } if (this.fill != null && this.fill != mxConstants.NONE && this.gradient && this.gradient != mxConstants.NONE) { var b = this.getGradientBounds(c, x, y, w, h); c.setGradient(this.fill, this.gradient, x, y, w, h, this.gradientDirection); } else { c.setFillColor(this.fill); } c.begin(); c.moveTo(x, y); c.lineTo(x + w0, y); c.lineTo(x + w0, y + Math.max(0, h0 - co * 1.5)); c.lineTo(x + Math.max(0, w0 - co), y + h0); c.lineTo(x, y + h0); c.close(); c.fillAndStroke(); c.begin(); c.moveTo(x + w0, y); c.lineTo(x + w, y); c.lineTo(x + w, y + h); c.lineTo(x, y + h); c.lineTo(x, y + h0); c.stroke(); }; mxCellRenderer.registerShape('umlFrame', UmlFrame); mxPerimeter.LifelinePerimeter = function (bounds, vertex, next, orthogonal) { var size = UmlLifeline.prototype.size; if (vertex != null) { size = mxUtils.getValue(vertex.style, 'size', size) * vertex.view.scale; } var sw = (parseFloat(vertex.style[mxConstants.STYLE_STROKEWIDTH] || 1) * vertex.view.scale / 2) - 1; if (next.x < bounds.getCenterX()) { sw += 1; sw *= -1; } return new mxPoint(bounds.getCenterX() + sw, Math.min(bounds.y + bounds.height, Math.max(bounds.y + size, next.y))); }; mxStyleRegistry.putValue('lifelinePerimeter', mxPerimeter.LifelinePerimeter); mxPerimeter.OrthogonalPerimeter = function (bounds, vertex, next, orthogonal) { orthogonal = true; return mxPerimeter.RectanglePerimeter.apply(this, arguments); }; mxStyleRegistry.putValue('orthogonalPerimeter', mxPerimeter.OrthogonalPerimeter); mxPerimeter.BackbonePerimeter = function (bounds, vertex, next, orthogonal) { var sw = (parseFloat(vertex.style[mxConstants.STYLE_STROKEWIDTH] || 1) * vertex.view.scale / 2) - 1; if (vertex.style['backboneSize'] != null) { sw += (parseFloat(vertex.style['backboneSize']) * vertex.view.scale / 2) - 1; } if (vertex.style[mxConstants.STYLE_DIRECTION] == 'south' || vertex.style[mxConstants.STYLE_DIRECTION] == 'north') { if (next.x < bounds.getCenterX()) { sw += 1; sw *= -1; } return new mxPoint(bounds.getCenterX() + sw, Math.min(bounds.y + bounds.height, Math.max(bounds.y, next.y))); } else { if (next.y < bounds.getCenterY()) { sw += 1; sw *= -1; } return new mxPoint(Math.min(bounds.x + bounds.width, Math.max(bounds.x, next.x)), bounds.getCenterY() + sw); } }; mxStyleRegistry.putValue('backbonePerimeter', mxPerimeter.BackbonePerimeter); // Callout Perimeter mxPerimeter.CalloutPerimeter = function (bounds, vertex, next, orthogonal) { return mxPerimeter.RectanglePerimeter(mxUtils.getDirectedBounds(bounds, new mxRectangle(0, 0, 0, Math.max(0, Math.min(bounds.height, parseFloat(mxUtils.getValue(vertex.style, 'size', CalloutShape.prototype.size)) * vertex.view.scale))), vertex.style), vertex, next, orthogonal); }; mxStyleRegistry.putValue('calloutPerimeter', mxPerimeter.CalloutPerimeter); // Parallelogram Perimeter mxPerimeter.ParallelogramPerimeter = function (bounds, vertex, next, orthogonal) { var size = ParallelogramShape.prototype.size; if (vertex != null) { size = mxUtils.getValue(vertex.style, 'size', size); } var x = bounds.x; var y = bounds.y; var w = bounds.width; var h = bounds.height; var direction = (vertex != null) ? mxUtils.getValue( vertex.style, mxConstants.STYLE_DIRECTION, mxConstants.DIRECTION_EAST) : mxConstants.DIRECTION_EAST; var vertical = direction == mxConstants.DIRECTION_NORTH || direction == mxConstants.DIRECTION_SOUTH; var points; if (vertical) { var dy = h * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y), new mxPoint(x + w, y + dy), new mxPoint(x + w, y + h), new mxPoint(x, y + h - dy), new mxPoint(x, y)]; } else { var dx = w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x + dx, y), new mxPoint(x + w, y), new mxPoint(x + w - dx, y + h), new mxPoint(x, y + h), new mxPoint(x + dx, y)]; } var cx = bounds.getCenterX(); var cy = bounds.getCenterY(); var p1 = new mxPoint(cx, cy); if (orthogonal) { if (next.x < x || next.x > x + w) { p1.y = next.y; } else { p1.x = next.x; } } return mxUtils.getPerimeterPoint(points, p1, next); }; mxStyleRegistry.putValue('parallelogramPerimeter', mxPerimeter.ParallelogramPerimeter); // Trapezoid Perimeter mxPerimeter.TrapezoidPerimeter = function (bounds, vertex, next, orthogonal) { var size = TrapezoidShape.prototype.size; if (vertex != null) { size = mxUtils.getValue(vertex.style, 'size', size); } var x = bounds.x; var y = bounds.y; var w = bounds.width; var h = bounds.height; var direction = (vertex != null) ? mxUtils.getValue( vertex.style, mxConstants.STYLE_DIRECTION, mxConstants.DIRECTION_EAST) : mxConstants.DIRECTION_EAST; var points; if (direction == mxConstants.DIRECTION_EAST) { var dx = w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x + dx, y), new mxPoint(x + w - dx, y), new mxPoint(x + w, y + h), new mxPoint(x, y + h), new mxPoint(x + dx, y)]; } else if (direction == mxConstants.DIRECTION_WEST) { var dx = w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y), new mxPoint(x + w, y), new mxPoint(x + w - dx, y + h), new mxPoint(x + dx, y + h), new mxPoint(x, y)]; } else if (direction == mxConstants.DIRECTION_NORTH) { var dy = h * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y + dy), new mxPoint(x + w, y), new mxPoint(x + w, y + h), new mxPoint(x, y + h - dy), new mxPoint(x, y + dy)]; } else { var dy = h * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y), new mxPoint(x + w, y + dy), new mxPoint(x + w, y + h - dy), new mxPoint(x, y + h), new mxPoint(x, y)]; } var cx = bounds.getCenterX(); var cy = bounds.getCenterY(); var p1 = new mxPoint(cx, cy); if (orthogonal) { if (next.x < x || next.x > x + w) { p1.y = next.y; } else { p1.x = next.x; } } return mxUtils.getPerimeterPoint(points, p1, next); }; mxStyleRegistry.putValue('trapezoidPerimeter', mxPerimeter.TrapezoidPerimeter); // Step Perimeter mxPerimeter.StepPerimeter = function (bounds, vertex, next, orthogonal) { var fixed = mxUtils.getValue(vertex.style, 'fixedSize', '0') != '0'; var size = (fixed) ? StepShape.prototype.fixedSize : StepShape.prototype.size; if (vertex != null) { size = mxUtils.getValue(vertex.style, 'size', size); } var x = bounds.x; var y = bounds.y; var w = bounds.width; var h = bounds.height; var cx = bounds.getCenterX(); var cy = bounds.getCenterY(); var direction = (vertex != null) ? mxUtils.getValue( vertex.style, mxConstants.STYLE_DIRECTION, mxConstants.DIRECTION_EAST) : mxConstants.DIRECTION_EAST; var points; if (direction == mxConstants.DIRECTION_EAST) { var dx = (fixed) ? Math.max(0, Math.min(w, size)) : w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y), new mxPoint(x + w - dx, y), new mxPoint(x + w, cy), new mxPoint(x + w - dx, y + h), new mxPoint(x, y + h), new mxPoint(x + dx, cy), new mxPoint(x, y)]; } else if (direction == mxConstants.DIRECTION_WEST) { var dx = (fixed) ? Math.max(0, Math.min(w, size)) : w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x + dx, y), new mxPoint(x + w, y), new mxPoint(x + w - dx, cy), new mxPoint(x + w, y + h), new mxPoint(x + dx, y + h), new mxPoint(x, cy), new mxPoint(x + dx, y)]; } else if (direction == mxConstants.DIRECTION_NORTH) { var dy = (fixed) ? Math.max(0, Math.min(h, size)) : h * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y + dy), new mxPoint(cx, y), new mxPoint(x + w, y + dy), new mxPoint(x + w, y + h), new mxPoint(cx, y + h - dy), new mxPoint(x, y + h), new mxPoint(x, y + dy)]; } else { var dy = (fixed) ? Math.max(0, Math.min(h, size)) : h * Math.max(0, Math.min(1, size)); points = [new mxPoint(x, y), new mxPoint(cx, y + dy), new mxPoint(x + w, y), new mxPoint(x + w, y + h - dy), new mxPoint(cx, y + h), new mxPoint(x, y + h - dy), new mxPoint(x, y)]; } var p1 = new mxPoint(cx, cy); if (orthogonal) { if (next.x < x || next.x > x + w) { p1.y = next.y; } else { p1.x = next.x; } } return mxUtils.getPerimeterPoint(points, p1, next); }; mxStyleRegistry.putValue('stepPerimeter', mxPerimeter.StepPerimeter); // Hexagon Perimeter 2 (keep existing one) mxPerimeter.HexagonPerimeter2 = function (bounds, vertex, next, orthogonal) { var size = HexagonShape.prototype.size; if (vertex != null) { size = mxUtils.getValue(vertex.style, 'size', size); } var x = bounds.x; var y = bounds.y; var w = bounds.width; var h = bounds.height; var cx = bounds.getCenterX(); var cy = bounds.getCenterY(); var direction = (vertex != null) ? mxUtils.getValue( vertex.style, mxConstants.STYLE_DIRECTION, mxConstants.DIRECTION_EAST) : mxConstants.DIRECTION_EAST; var vertical = direction == mxConstants.DIRECTION_NORTH || direction == mxConstants.DIRECTION_SOUTH; var points; if (vertical) { var dy = h * Math.max(0, Math.min(1, size)); points = [new mxPoint(cx, y), new mxPoint(x + w, y + dy), new mxPoint(x + w, y + h - dy), new mxPoint(cx, y + h), new mxPoint(x, y + h - dy), new mxPoint(x, y + dy), new mxPoint(cx, y)]; } else { var dx = w * Math.max(0, Math.min(1, size)); points = [new mxPoint(x + dx, y), new mxPoint(x + w - dx, y), new mxPoint(x + w, cy), new mxPoint(x + w - dx, y + h), new mxPoint(x + dx, y + h), new mxPoint(x, cy), new mxPoint(x + dx, y)]; } var p1 = new mxPoint(cx, cy); if (orthogonal) { if (next.x < x || next.x > x + w) { p1.y = next.y; } else { p1.x = next.x; } } return mxUtils.getPerimeterPoint(points, p1, next); }; mxStyleRegistry.putValue('hexagonPerimeter2', mxPerimeter.HexagonPerimeter2); // Provided Interface Shape (aka Lollipop) function LollipopShape() { mxShape.call(this); }; mxUtils.extend(LollipopShape, mxShape); LollipopShape.prototype.size = 10; LollipopShape.prototype.paintBackground = function(c, x, y, w, h) { var sz = parseFloat(mxUtils.getValue(this.style, 'size', this.size)); c.translate(x, y); c.ellipse((w - sz) / 2, 0, sz, sz); c.fillAndStroke(); c.begin(); c.moveTo(w / 2, sz); c.lineTo(w / 2, h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('lollipop', LollipopShape); // Required Interface Shape function RequiresShape() { mxShape.call(this); }; mxUtils.extend(RequiresShape, mxShape); RequiresShape.prototype.size = 10; RequiresShape.prototype.inset = 2; RequiresShape.prototype.paintBackground = function(c, x, y, w, h) { var sz = parseFloat(mxUtils.getValue(this.style, 'size', this.size)); var inset = parseFloat(mxUtils.getValue(this.style, 'inset', this.inset)) + this.strokewidth; c.translate(x, y); c.begin(); c.moveTo(w / 2, sz + inset); c.lineTo(w / 2, h); c.end(); c.stroke(); c.begin(); c.moveTo((w - sz) / 2 - inset, sz / 2); c.quadTo((w - sz) / 2 - inset, sz + inset, w / 2, sz + inset); c.quadTo((w + sz) / 2 + inset, sz + inset, (w + sz) / 2 + inset, sz / 2); c.end(); c.stroke(); }; mxCellRenderer.registerShape('requires', RequiresShape); // Required Interface Shape function RequiredInterfaceShape() { mxShape.call(this); }; mxUtils.extend(RequiredInterfaceShape, mxShape); RequiredInterfaceShape.prototype.paintBackground = function(c, x, y, w, h) { c.translate(x, y); c.begin(); c.moveTo(0, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, 0, h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('requiredInterface', RequiredInterfaceShape); // Provided and Required Interface Shape function ProvidedRequiredInterfaceShape() { mxShape.call(this); }; mxUtils.extend(ProvidedRequiredInterfaceShape, mxShape); ProvidedRequiredInterfaceShape.prototype.inset = 2; ProvidedRequiredInterfaceShape.prototype.paintBackground = function(c, x, y, w, h) { var inset = parseFloat(mxUtils.getValue(this.style, 'inset', this.inset)) + this.strokewidth; c.translate(x, y); c.ellipse(0, inset, w - 2 * inset, h - 2 * inset); c.fillAndStroke(); c.begin(); c.moveTo(w / 2, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, w / 2, h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('providedRequiredInterface', ProvidedRequiredInterfaceShape); // Component shape function ComponentShape() { mxCylinder.call(this); }; mxUtils.extend(ComponentShape, mxCylinder); ComponentShape.prototype.jettyWidth = 32; ComponentShape.prototype.jettyHeight = 12; ComponentShape.prototype.redrawPath = function(path, x, y, w, h, isForeground) { var dx = parseFloat(mxUtils.getValue(this.style, 'jettyWidth', this.jettyWidth)); var dy = parseFloat(mxUtils.getValue(this.style, 'jettyHeight', this.jettyHeight)); var x0 = dx / 2; var x1 = x0 + dx / 2; var y0 = 0.3 * h - dy / 2; var y1 = 0.7 * h - dy / 2; if (isForeground) { path.moveTo(x0, y0); path.lineTo(x1, y0); path.lineTo(x1, y0 + dy); path.lineTo(x0, y0 + dy); path.moveTo(x0, y1); path.lineTo(x1, y1); path.lineTo(x1, y1 + dy); path.lineTo(x0, y1 + dy); path.end(); } else { path.moveTo(x0, 0); path.lineTo(w, 0); path.lineTo(w, h); path.lineTo(x0, h); path.lineTo(x0, y1 + dy); path.lineTo(0, y1 + dy); path.lineTo(0, y1); path.lineTo(x0, y1); path.lineTo(x0, y0 + dy); path.lineTo(0, y0 + dy); path.lineTo(0, y0); path.lineTo(x0, y0); path.close(); path.end(); } }; mxCellRenderer.registerShape('component', ComponentShape); // State Shapes derives from double ellipse function StateShape() { mxDoubleEllipse.call(this); }; mxUtils.extend(StateShape, mxDoubleEllipse); StateShape.prototype.outerStroke = true; StateShape.prototype.paintVertexShape = function(c, x, y, w, h) { var inset = Math.min(4, Math.min(w / 5, h / 5)); if (w > 0 && h > 0) { c.ellipse(x + inset, y + inset, w - 2 * inset, h - 2 * inset); c.fillAndStroke(); } c.setShadow(false); if (this.outerStroke) { c.ellipse(x, y, w, h); c.stroke(); } }; mxCellRenderer.registerShape('endState', StateShape); function StartStateShape() { StateShape.call(this); }; mxUtils.extend(StartStateShape, StateShape); StartStateShape.prototype.outerStroke = false; mxCellRenderer.registerShape('startState', StartStateShape); // Link shape function LinkShape() { mxArrowConnector.call(this); this.spacing = 0; }; mxUtils.extend(LinkShape, mxArrowConnector); LinkShape.prototype.defaultWidth = 4; LinkShape.prototype.isOpenEnded = function() { return true; }; LinkShape.prototype.getEdgeWidth = function() { return mxUtils.getNumber(this.style, 'width', this.defaultWidth) + Math.max(0, this.strokewidth - 1); }; LinkShape.prototype.isArrowRounded = function() { return this.isRounded; }; // Registers the link shape mxCellRenderer.registerShape('link', LinkShape); // Generic arrow function FlexArrowShape() { mxArrowConnector.call(this); this.spacing = 0; }; mxUtils.extend(FlexArrowShape, mxArrowConnector); FlexArrowShape.prototype.defaultWidth = 10; FlexArrowShape.prototype.defaultArrowWidth = 20; FlexArrowShape.prototype.getStartArrowWidth = function() { return this.getEdgeWidth() + mxUtils.getNumber(this.style, 'startWidth', this.defaultArrowWidth); }; FlexArrowShape.prototype.getEndArrowWidth = function() { return this.getEdgeWidth() + mxUtils.getNumber(this.style, 'endWidth', this.defaultArrowWidth);; }; FlexArrowShape.prototype.getEdgeWidth = function() { return mxUtils.getNumber(this.style, 'width', this.defaultWidth) + Math.max(0, this.strokewidth - 1); }; // Registers the link shape mxCellRenderer.registerShape('flexArrow', FlexArrowShape); // Manual Input shape function ManualInputShape() { mxActor.call(this); }; mxUtils.extend(ManualInputShape, mxActor); ManualInputShape.prototype.size = 30; ManualInputShape.prototype.isRoundable = function() { return true; }; ManualInputShape.prototype.redrawPath = function(c, x, y, w, h) { var s = Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, h), new mxPoint(0, s), new mxPoint(w, 0), new mxPoint(w, h)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('manualInput', ManualInputShape); // Internal storage function InternalStorageShape() { mxRectangleShape.call(this); }; mxUtils.extend(InternalStorageShape, mxRectangleShape); InternalStorageShape.prototype.dx = 20; InternalStorageShape.prototype.dy = 20; InternalStorageShape.prototype.isHtmlAllowed = function() { return false; }; InternalStorageShape.prototype.paintForeground = function(c, x, y, w, h) { mxRectangleShape.prototype.paintForeground.apply(this, arguments); var inset = 0; if (this.isRounded) { var f = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.RECTANGLE_ROUNDING_FACTOR * 100) / 100; inset = Math.max(inset, Math.min(w * f, h * f)); } var dx = Math.max(inset, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'dx', this.dx)))); var dy = Math.max(inset, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'dy', this.dy)))); c.begin(); c.moveTo(x, y + dy); c.lineTo(x + w, y + dy); c.end(); c.stroke(); c.begin(); c.moveTo(x + dx, y); c.lineTo(x + dx, y + h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('internalStorage', InternalStorageShape); // Internal storage function CornerShape() { mxActor.call(this); }; mxUtils.extend(CornerShape, mxActor); CornerShape.prototype.dx = 20; CornerShape.prototype.dy = 20; // Corner CornerShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'dx', this.dx)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'dy', this.dy)))); var s = Math.min(w / 2, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, 0), new mxPoint(w, 0), new mxPoint(w, dy), new mxPoint(dx, dy), new mxPoint(dx, h), new mxPoint(0, h)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('corner', CornerShape); // Crossbar shape function CrossbarShape() { mxActor.call(this); }; mxUtils.extend(CrossbarShape, mxActor); CrossbarShape.prototype.redrawPath = function(c, x, y, w, h) { c.moveTo(0, 0); c.lineTo(0, h); c.end(); c.moveTo(w, 0); c.lineTo(w, h); c.end(); c.moveTo(0, h / 2); c.lineTo(w, h / 2); c.end(); }; mxCellRenderer.registerShape('crossbar', CrossbarShape); // Internal storage function TeeShape() { mxActor.call(this); }; mxUtils.extend(TeeShape, mxActor); TeeShape.prototype.dx = 20; TeeShape.prototype.dy = 20; // Corner TeeShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'dx', this.dx)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'dy', this.dy)))); var w2 = Math.abs(w - dx) / 2; var s = Math.min(w / 2, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, 0), new mxPoint(w, 0), new mxPoint(w, dy), new mxPoint((w + dx) / 2, dy), new mxPoint((w + dx) / 2, h), new mxPoint((w - dx) / 2, h), new mxPoint((w - dx) / 2, dy), new mxPoint(0, dy)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('tee', TeeShape); // Arrow function SingleArrowShape() { mxActor.call(this); }; mxUtils.extend(SingleArrowShape, mxActor); SingleArrowShape.prototype.arrowWidth = 0.3; SingleArrowShape.prototype.arrowSize = 0.2; SingleArrowShape.prototype.redrawPath = function(c, x, y, w, h) { var aw = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowWidth', this.arrowWidth)))); var as = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowSize', this.arrowSize)))); var at = (h - aw) / 2; var ab = at + aw; var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, at), new mxPoint(w - as, at), new mxPoint(w - as, 0), new mxPoint(w, h / 2), new mxPoint(w - as, h), new mxPoint(w - as, ab), new mxPoint(0, ab)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('singleArrow', SingleArrowShape); // Arrow function DoubleArrowShape() { mxActor.call(this); }; mxUtils.extend(DoubleArrowShape, mxActor); DoubleArrowShape.prototype.redrawPath = function(c, x, y, w, h) { var aw = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowWidth', SingleArrowShape.prototype.arrowWidth)))); var as = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowSize', SingleArrowShape.prototype.arrowSize)))); var at = (h - aw) / 2; var ab = at + aw; var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, h / 2), new mxPoint(as, 0), new mxPoint(as, at), new mxPoint(w - as, at), new mxPoint(w - as, 0), new mxPoint(w, h / 2), new mxPoint(w - as, h), new mxPoint(w - as, ab), new mxPoint(as, ab), new mxPoint(as, h)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('doubleArrow', DoubleArrowShape); // Data storage function DataStorageShape() { mxActor.call(this); }; mxUtils.extend(DataStorageShape, mxActor); DataStorageShape.prototype.size = 0.1; DataStorageShape.prototype.redrawPath = function(c, x, y, w, h) { var s = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); c.moveTo(s, 0); c.lineTo(w, 0); c.quadTo(w - s * 2, h / 2, w, h); c.lineTo(s, h); c.quadTo(s - s * 2, h / 2, s, 0); c.close(); c.end(); }; mxCellRenderer.registerShape('dataStorage', DataStorageShape); // Or function OrShape() { mxActor.call(this); }; mxUtils.extend(OrShape, mxActor); OrShape.prototype.redrawPath = function(c, x, y, w, h) { c.moveTo(0, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, 0, h); c.close(); c.end(); }; mxCellRenderer.registerShape('or', OrShape); // Xor function XorShape() { mxActor.call(this); }; mxUtils.extend(XorShape, mxActor); XorShape.prototype.redrawPath = function(c, x, y, w, h) { c.moveTo(0, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, 0, h); c.quadTo(w / 2, h / 2, 0, 0); c.close(); c.end(); }; mxCellRenderer.registerShape('xor', XorShape); // Loop limit function LoopLimitShape() { mxActor.call(this); }; mxUtils.extend(LoopLimitShape, mxActor); LoopLimitShape.prototype.size = 20; LoopLimitShape.prototype.isRoundable = function() { return true; }; LoopLimitShape.prototype.redrawPath = function(c, x, y, w, h) { var s = Math.min(w / 2, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(s, 0), new mxPoint(w - s, 0), new mxPoint(w, s * 0.8), new mxPoint(w, h), new mxPoint(0, h), new mxPoint(0, s * 0.8)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('loopLimit', LoopLimitShape); // Off page connector function OffPageConnectorShape() { mxActor.call(this); }; mxUtils.extend(OffPageConnectorShape, mxActor); OffPageConnectorShape.prototype.size = 3 / 8; OffPageConnectorShape.prototype.isRoundable = function() { return true; }; OffPageConnectorShape.prototype.redrawPath = function(c, x, y, w, h) { var s = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; this.addPoints(c, [new mxPoint(0, 0), new mxPoint(w, 0), new mxPoint(w, h - s), new mxPoint(w / 2, h), new mxPoint(0, h - s)], this.isRounded, arcSize, true); c.end(); }; mxCellRenderer.registerShape('offPageConnector', OffPageConnectorShape); // Internal storage function TapeDataShape() { mxEllipse.call(this); }; mxUtils.extend(TapeDataShape, mxEllipse); TapeDataShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxEllipse.prototype.paintVertexShape.apply(this, arguments); c.begin(); c.moveTo(x + w / 2, y + h); c.lineTo(x + w, y + h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('tapeData', TapeDataShape); // OrEllipseShape function OrEllipseShape() { mxEllipse.call(this); }; mxUtils.extend(OrEllipseShape, mxEllipse); OrEllipseShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxEllipse.prototype.paintVertexShape.apply(this, arguments); c.setShadow(false); c.begin(); c.moveTo(x, y + h / 2); c.lineTo(x + w, y + h / 2); c.end(); c.stroke(); c.begin(); c.moveTo(x + w / 2, y); c.lineTo(x + w / 2, y + h); c.end(); c.stroke(); }; mxCellRenderer.registerShape('orEllipse', OrEllipseShape); // SumEllipseShape function SumEllipseShape() { mxEllipse.call(this); }; mxUtils.extend(SumEllipseShape, mxEllipse); SumEllipseShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxEllipse.prototype.paintVertexShape.apply(this, arguments); var s2 = 0.145; c.setShadow(false); c.begin(); c.moveTo(x + w * s2, y + h * s2); c.lineTo(x + w * (1 - s2), y + h * (1 - s2)); c.end(); c.stroke(); c.begin(); c.moveTo(x + w * (1 - s2), y + h * s2); c.lineTo(x + w * s2, y + h * (1 - s2)); c.end(); c.stroke(); }; mxCellRenderer.registerShape('sumEllipse', SumEllipseShape); // SortShape function SortShape() { mxRhombus.call(this); }; mxUtils.extend(SortShape, mxRhombus); SortShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxRhombus.prototype.paintVertexShape.apply(this, arguments); c.setShadow(false); c.begin(); c.moveTo(x, y + h / 2); c.lineTo(x + w, y + h / 2); c.end(); c.stroke(); }; mxCellRenderer.registerShape('sortShape', SortShape); // CollateShape function CollateShape() { mxEllipse.call(this); }; mxUtils.extend(CollateShape, mxEllipse); CollateShape.prototype.paintVertexShape = function(c, x, y, w, h) { c.begin(); c.moveTo(x, y); c.lineTo(x + w, y); c.lineTo(x + w / 2, y + h / 2); c.close(); c.fillAndStroke(); c.begin(); c.moveTo(x, y + h); c.lineTo(x + w, y + h); c.lineTo(x + w / 2, y + h / 2); c.close(); c.fillAndStroke(); }; mxCellRenderer.registerShape('collate', CollateShape); // DimensionShape function DimensionShape() { mxEllipse.call(this); }; mxUtils.extend(DimensionShape, mxEllipse); DimensionShape.prototype.paintVertexShape = function(c, x, y, w, h) { // Arrow size var al = 10; var cy = y + h - al / 2; c.begin(); c.moveTo(x, y); c.lineTo(x, y + h); c.moveTo(x, cy); c.lineTo(x + al, cy - al / 2); c.moveTo(x, cy); c.lineTo(x + al, cy + al / 2); c.moveTo(x, cy); c.lineTo(x + w, cy); // Opposite side c.moveTo(x + w, y); c.lineTo(x + w, y + h); c.moveTo(x + w, cy); c.lineTo(x + w - al, cy - al / 2); c.moveTo(x + w, cy); c.lineTo(x + w - al, cy + al / 2); c.end(); c.stroke(); }; mxCellRenderer.registerShape('dimension', DimensionShape); // PartialRectangleShape function PartialRectangleShape() { mxEllipse.call(this); }; mxUtils.extend(PartialRectangleShape, mxEllipse); PartialRectangleShape.prototype.paintVertexShape = function(c, x, y, w, h) { if (!this.outline) { c.setStrokeColor(null); } mxRectangleShape.prototype.paintBackground.apply(this, arguments); if (this.style != null) { c.setStrokeColor(this.stroke); c.rect(x, y, w, h); c.fill(); c.begin(); c.moveTo(x, y); if (mxUtils.getValue(this.style, 'top', '1') == '1') { c.lineTo(x + w, y); } else { c.moveTo(x + w, y); } if (mxUtils.getValue(this.style, 'right', '1') == '1') { c.lineTo(x + w, y + h); } else { c.moveTo(x + w, y + h); } if (mxUtils.getValue(this.style, 'bottom', '1') == '1') { c.lineTo(x, y + h); } else { c.moveTo(x, y + h); } if (mxUtils.getValue(this.style, 'left', '1') == '1') { c.lineTo(x, y - this.strokewidth / 2); } c.end(); c.stroke(); } }; mxCellRenderer.registerShape('partialRectangle', PartialRectangleShape); // LineEllipseShape function LineEllipseShape() { mxEllipse.call(this); }; mxUtils.extend(LineEllipseShape, mxEllipse); LineEllipseShape.prototype.paintVertexShape = function(c, x, y, w, h) { mxEllipse.prototype.paintVertexShape.apply(this, arguments); c.setShadow(false); c.begin(); if (mxUtils.getValue(this.style, 'line') == 'vertical') { c.moveTo(x + w / 2, y); c.lineTo(x + w / 2, y + h); } else { c.moveTo(x, y + h / 2); c.lineTo(x + w, y + h / 2); } c.end(); c.stroke(); }; mxCellRenderer.registerShape('lineEllipse', LineEllipseShape); // Delay function DelayShape() { mxActor.call(this); }; mxUtils.extend(DelayShape, mxActor); DelayShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = Math.min(w, h / 2); c.moveTo(0, 0); c.lineTo(w - dx, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, w - dx, h); c.lineTo(0, h); c.close(); c.end(); }; mxCellRenderer.registerShape('delay', DelayShape); // Cross Shape function CrossShape() { mxActor.call(this); }; mxUtils.extend(CrossShape, mxActor); CrossShape.prototype.size = 0.2; CrossShape.prototype.redrawPath = function(c, x, y, w, h) { var m = Math.min(h, w); var size = Math.max(0, Math.min(m, m * parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var t = (h - size) / 2; var b = t + size; var l = (w - size) / 2; var r = l + size; c.moveTo(0, t); c.lineTo(l, t); c.lineTo(l, 0); c.lineTo(r, 0); c.lineTo(r, t); c.lineTo(w, t); c.lineTo(w, b); c.lineTo(r, b); c.lineTo(r, h); c.lineTo(l, h); c.lineTo(l, b); c.lineTo(0, b); c.close(); c.end(); }; mxCellRenderer.registerShape('cross', CrossShape); // Display function DisplayShape() { mxActor.call(this); }; mxUtils.extend(DisplayShape, mxActor); DisplayShape.prototype.size = 0.25; DisplayShape.prototype.redrawPath = function(c, x, y, w, h) { var dx = Math.min(w, h / 2); var s = Math.min(w - dx, Math.max(0, parseFloat(mxUtils.getValue(this.style, 'size', this.size))) * w); c.moveTo(0, h / 2); c.lineTo(s, 0); c.lineTo(w - dx, 0); c.quadTo(w, 0, w, h / 2); c.quadTo(w, h, w - dx, h); c.lineTo(s, h); c.close(); c.end(); }; mxCellRenderer.registerShape('display', DisplayShape); // FilledEdge shape function FilledEdge() { mxConnector.call(this); }; mxUtils.extend(FilledEdge, mxConnector); FilledEdge.prototype.origPaintEdgeShape = FilledEdge.prototype.paintEdgeShape; FilledEdge.prototype.paintEdgeShape = function(c, pts, rounded) { // Markers modify incoming points array var temp = []; for (var i = 0; i < pts.length; i++) { temp.push(mxUtils.clone(pts[i])); } // paintEdgeShape resets dashed to false var dashed = c.state.dashed; var fixDash = c.state.fixDash; FilledEdge.prototype.origPaintEdgeShape.apply(this, [c, temp, rounded]); if (c.state.strokeWidth >= 3) { var fillClr = mxUtils.getValue(this.style, 'fillColor', null); if (fillClr != null) { c.setStrokeColor(fillClr); c.setStrokeWidth(c.state.strokeWidth - 2); c.setDashed(dashed, fixDash); FilledEdge.prototype.origPaintEdgeShape.apply(this, [c, pts, rounded]); } } }; // Registers the link shape mxCellRenderer.registerShape('filledEdge', FilledEdge); // Implements custom colors for shapes if (typeof StyleFormatPanel !== 'undefined') { (function() { var styleFormatPanelGetCustomColors = StyleFormatPanel.prototype.getCustomColors; StyleFormatPanel.prototype.getCustomColors = function() { var ss = this.format.getSelectionState(); var result = styleFormatPanelGetCustomColors.apply(this, arguments); if (ss.style.shape == 'umlFrame') { result.push({title: mxResources.get('laneColor'), key: 'swimlaneFillColor', defaultValue: '#ffffff'}); } return result; }; })(); } // Registers and defines the custom marker mxMarker.addMarker('dash', function(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { var nx = unitX * (size + sw + 1); var ny = unitY * (size + sw + 1); return function() { c.begin(); c.moveTo(pe.x - nx / 2 - ny / 2, pe.y - ny / 2 + nx / 2); c.lineTo(pe.x + ny / 2 - 3 * nx / 2, pe.y - 3 * ny / 2 - nx / 2); c.stroke(); }; }); // Registers and defines the custom marker mxMarker.addMarker('cross', function(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { var nx = unitX * (size + sw + 1); var ny = unitY * (size + sw + 1); return function() { c.begin(); c.moveTo(pe.x - nx / 2 - ny / 2, pe.y - ny / 2 + nx / 2); c.lineTo(pe.x + ny / 2 - 3 * nx / 2, pe.y - 3 * ny / 2 - nx / 2); c.moveTo(pe.x - nx / 2 + ny / 2, pe.y - ny / 2 - nx / 2); c.lineTo(pe.x - ny / 2 - 3 * nx / 2, pe.y - 3 * ny / 2 + nx / 2); c.stroke(); }; }); function circleMarker(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { var a = size / 2; var size = size + sw; var pt = pe.clone(); pe.x -= unitX * (2 * size + sw); pe.y -= unitY * (2 * size + sw); unitX = unitX * (size + sw); unitY = unitY * (size + sw); return function() { c.ellipse(pt.x - unitX - size, pt.y - unitY - size, 2 * size, 2 * size); if (filled) { c.fillAndStroke(); } else { c.stroke(); } }; }; mxMarker.addMarker('circle', circleMarker); mxMarker.addMarker('circlePlus', function(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { var pt = pe.clone(); var fn = circleMarker.apply(this, arguments); var nx = unitX * (size + 2 * sw); // (size + sw + 1); var ny = unitY * (size + 2 * sw); //(size + sw + 1); return function() { fn.apply(this, arguments); c.begin(); c.moveTo(pt.x - unitX * (sw), pt.y - unitY * (sw)); c.lineTo(pt.x - 2 * nx + unitX * (sw), pt.y - 2 * ny + unitY * (sw)); c.moveTo(pt.x - nx - ny + unitY * sw, pt.y - ny + nx - unitX * sw); c.lineTo(pt.x + ny - nx - unitY * sw, pt.y - ny - nx + unitX * sw); c.stroke(); }; }); mxMarker.addMarker('async', function(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { // The angle of the forward facing arrow sides against the x axis is // 26.565 degrees, 1/sin(26.565) = 2.236 / 2 = 1.118 ( / 2 allows for // only half the strokewidth is processed ). var endOffsetX = unitX * sw * 1.118; var endOffsetY = unitY * sw * 1.118; unitX = unitX * (size + sw); unitY = unitY * (size + sw); var pt = pe.clone(); pt.x -= endOffsetX; pt.y -= endOffsetY; var f = 1; pe.x += -unitX * f - endOffsetX; pe.y += -unitY * f - endOffsetY; return function() { c.begin(); c.moveTo(pt.x, pt.y); if (source) { c.lineTo(pt.x - unitX - unitY / 2, pt.y - unitY + unitX / 2); } else { c.lineTo(pt.x + unitY / 2 - unitX, pt.y - unitY - unitX / 2); } c.lineTo(pt.x - unitX, pt.y - unitY); c.close(); if (filled) { c.fillAndStroke(); } else { c.stroke(); } }; }); function createOpenAsyncArrow(widthFactor) { widthFactor = (widthFactor != null) ? widthFactor : 2; return function(c, shape, type, pe, unitX, unitY, size, source, sw, filled) { unitX = unitX * (size + sw); unitY = unitY * (size + sw); var pt = pe.clone(); return function() { c.begin(); c.moveTo(pt.x, pt.y); if (source) { c.lineTo(pt.x - unitX - unitY / widthFactor, pt.y - unitY + unitX / widthFactor); } else { c.lineTo(pt.x + unitY / widthFactor - unitX, pt.y - unitY - unitX / widthFactor); } c.stroke(); }; } }; mxMarker.addMarker('openAsync', createOpenAsyncArrow(2)); function arrow(canvas, shape, type, pe, unitX, unitY, size, source, sw, filled) { // The angle of the forward facing arrow sides against the x axis is // 26.565 degrees, 1/sin(26.565) = 2.236 / 2 = 1.118 ( / 2 allows for // only half the strokewidth is processed ). var endOffsetX = unitX * sw * 1.118; var endOffsetY = unitY * sw * 1.118; unitX = unitX * (size + sw); unitY = unitY * (size + sw); var pt = pe.clone(); pt.x -= endOffsetX; pt.y -= endOffsetY; var f = (type != mxConstants.ARROW_CLASSIC && type != mxConstants.ARROW_CLASSIC_THIN) ? 1 : 3 / 4; pe.x += -unitX * f - endOffsetX; pe.y += -unitY * f - endOffsetY; return function() { canvas.begin(); canvas.moveTo(pt.x, pt.y); canvas.lineTo(pt.x - unitX - unitY / widthFactor, pt.y - unitY + unitX / widthFactor); if (type == mxConstants.ARROW_CLASSIC || type == mxConstants.ARROW_CLASSIC_THIN) { canvas.lineTo(pt.x - unitX * 3 / 4, pt.y - unitY * 3 / 4); } canvas.lineTo(pt.x + unitY / widthFactor - unitX, pt.y - unitY - unitX / widthFactor); canvas.close(); if (filled) { canvas.fillAndStroke(); } else { canvas.stroke(); } }; } // Handlers are only added if mxVertexHandler is defined (ie. not in embedded graph) if (typeof mxVertexHandler !== 'undefined') { function createHandle(state, keys, getPositionFn, setPositionFn, ignoreGrid, redrawEdges) { var handle = new mxHandle(state, null, mxVertexHandler.prototype.secondaryHandleImage); handle.execute = function() { for (var i = 0; i < keys.length; i++) { this.copyStyle(keys[i]); } }; handle.getPosition = getPositionFn; handle.setPosition = setPositionFn; handle.ignoreGrid = (ignoreGrid != null) ? ignoreGrid : true; // Overridden to update connected edges if (redrawEdges) { var positionChanged = handle.positionChanged; handle.positionChanged = function() { positionChanged.apply(this, arguments); // Redraws connected edges TODO: Include child edges state.view.invalidate(this.state.cell); state.view.validate(); }; } return handle; }; function createArcHandle(state, yOffset) { return createHandle(state, [mxConstants.STYLE_ARCSIZE], function(bounds) { var tmp = (yOffset != null) ? yOffset : bounds.height / 8; if (mxUtils.getValue(state.style, mxConstants.STYLE_ABSOLUTE_ARCSIZE, 0) == '1') { var arcSize = mxUtils.getValue(state.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; return new mxPoint(bounds.x + bounds.width - Math.min(bounds.width / 2, arcSize), bounds.y + tmp); } else { var arcSize = Math.max(0, parseFloat(mxUtils.getValue(state.style, mxConstants.STYLE_ARCSIZE, mxConstants.RECTANGLE_ROUNDING_FACTOR * 100))) / 100; return new mxPoint(bounds.x + bounds.width - Math.min(Math.max(bounds.width / 2, bounds.height / 2), Math.min(bounds.width, bounds.height) * arcSize), bounds.y + tmp); } }, function(bounds, pt, me) { if (mxUtils.getValue(state.style, mxConstants.STYLE_ABSOLUTE_ARCSIZE, 0) == '1') { this.state.style[mxConstants.STYLE_ARCSIZE] = Math.round(Math.max(0, Math.min(bounds.width, (bounds.x + bounds.width - pt.x) * 2))); } else { var f = Math.min(50, Math.max(0, (bounds.width - pt.x + bounds.x) * 100 / Math.min(bounds.width, bounds.height))); this.state.style[mxConstants.STYLE_ARCSIZE] = Math.round(f); } }); } function createArcHandleFunction() { return function(state) { var handles = []; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }; }; function createTrapezoidHandleFunction(max) { return function(state) { var handles = [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(max, parseFloat(mxUtils.getValue(this.state.style, 'size', TrapezoidShape.prototype.size)))); return new mxPoint(bounds.x + size * bounds.width * 0.75, bounds.y + bounds.height / 4); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(max, (pt.x - bounds.x) / (bounds.width * 0.75))); }, null, true)]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }; }; function createDisplayHandleFunction(defaultValue, allowArcHandle, max, redrawEdges, fixedDefaultValue) { max = (max != null) ? max : 1; return function(state) { var handles = [createHandle(state, ['size'], function(bounds) { var fixed = (fixedDefaultValue != null) ? mxUtils.getValue(this.state.style, 'fixedSize', '0') != '0' : null; var size = parseFloat(mxUtils.getValue(this.state.style, 'size', (fixed) ? fixedDefaultValue : defaultValue)); return new mxPoint(bounds.x + Math.max(0, Math.min(bounds.width, size * ((fixed) ? 1 : bounds.width))), bounds.getCenterY()); }, function(bounds, pt, me) { var fixed = (fixedDefaultValue != null) ? mxUtils.getValue(this.state.style, 'fixedSize', '0') != '0' : null; var size = (fixed) ? (pt.x - bounds.x) : Math.max(0, Math.min(max, (pt.x - bounds.x) / bounds.width)); if (fixed && !mxEvent.isAltDown(me.getEvent())) { size = state.view.graph.snap(size); } this.state.style['size'] = size; }, null, redrawEdges)]; if (allowArcHandle && mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }; }; function createCubeHandleFunction(factor, defaultValue, allowArcHandle) { return function(state) { var handles = [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(bounds.width, Math.min(bounds.height, parseFloat( mxUtils.getValue(this.state.style, 'size', defaultValue))))) * factor; return new mxPoint(bounds.x + size, bounds.y + size); }, function(bounds, pt) { this.state.style['size'] = Math.round(Math.max(0, Math.min(Math.min(bounds.width, pt.x - bounds.x), Math.min(bounds.height, pt.y - bounds.y))) / factor); })]; if (allowArcHandle && mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }; }; function createArrowHandleFunction(maxSize) { return function(state) { return [createHandle(state, ['arrowWidth', 'arrowSize'], function(bounds) { var aw = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'arrowWidth', SingleArrowShape.prototype.arrowWidth))); var as = Math.max(0, Math.min(maxSize, mxUtils.getValue(this.state.style, 'arrowSize', SingleArrowShape.prototype.arrowSize))); return new mxPoint(bounds.x + (1 - as) * bounds.width, bounds.y + (1 - aw) * bounds.height / 2); }, function(bounds, pt) { this.state.style['arrowWidth'] = Math.max(0, Math.min(1, Math.abs(bounds.y + bounds.height / 2 - pt.y) / bounds.height * 2)); this.state.style['arrowSize'] = Math.max(0, Math.min(maxSize, (bounds.x + bounds.width - pt.x) / (bounds.width))); })]; }; }; function createEdgeHandle(state, keys, start, getPosition, setPosition) { return createHandle(state, keys, function(bounds) { var pts = state.absolutePoints; var n = pts.length - 1; var tr = state.view.translate; var s = state.view.scale; var p0 = (start) ? pts[0] : pts[n]; var p1 = (start) ? pts[1] : pts[n - 1]; var dx = (start) ? p1.x - p0.x : p1.x - p0.x; var dy = (start) ? p1.y - p0.y : p1.y - p0.y; var dist = Math.sqrt(dx * dx + dy * dy); var pt = getPosition.call(this, dist, dx / dist, dy / dist, p0, p1); return new mxPoint(pt.x / s - tr.x, pt.y / s - tr.y); }, function(bounds, pt, me) { var pts = state.absolutePoints; var n = pts.length - 1; var tr = state.view.translate; var s = state.view.scale; var p0 = (start) ? pts[0] : pts[n]; var p1 = (start) ? pts[1] : pts[n - 1]; var dx = (start) ? p1.x - p0.x : p1.x - p0.x; var dy = (start) ? p1.y - p0.y : p1.y - p0.y; var dist = Math.sqrt(dx * dx + dy * dy); pt.x = (pt.x + tr.x) * s; pt.y = (pt.y + tr.y) * s; setPosition.call(this, dist, dx / dist, dy / dist, p0, p1, pt, me); }); }; function createEdgeWidthHandle(state, start, spacing) { return createEdgeHandle(state, ['width'], start, function(dist, nx, ny, p0, p1) { var w = state.shape.getEdgeWidth() * state.view.scale + spacing; return new mxPoint(p0.x + nx * dist / 4 + ny * w / 2, p0.y + ny * dist / 4 - nx * w / 2); }, function(dist, nx, ny, p0, p1, pt) { var w = Math.sqrt(mxUtils.ptSegDistSq(p0.x, p0.y, p1.x, p1.y, pt.x, pt.y)); state.style['width'] = Math.round(w * 2) / state.view.scale - spacing; }); }; function ptLineDistance(x1, y1, x2, y2, x0, y0) { return Math.abs((y2 - y1) * x0 - (x2 - x1) * y0 + x2 * y1 - y2 * x1) / Math.sqrt((y2 - y1) * (y2 - y1) + (x2 - x1) * (x2 - x1)); } var handleFactory = { 'link': function(state) { var spacing = 10; return [createEdgeWidthHandle(state, true, spacing), createEdgeWidthHandle(state, false, spacing)]; }, 'flexArrow': function(state) { // Do not use state.shape.startSize/endSize since it is cached var tol = state.view.graph.gridSize / state.view.scale; var handles = []; if (mxUtils.getValue(state.style, mxConstants.STYLE_STARTARROW, mxConstants.NONE) != mxConstants.NONE) { handles.push(createEdgeHandle(state, ['width', mxConstants.STYLE_STARTSIZE, mxConstants.STYLE_ENDSIZE], true, function(dist, nx, ny, p0, p1) { var w = (state.shape.getEdgeWidth() - state.shape.strokewidth) * state.view.scale; var l = mxUtils.getNumber(state.style, mxConstants.STYLE_STARTSIZE, mxConstants.ARROW_SIZE / 5) * 3 * state.view.scale; return new mxPoint(p0.x + nx * (l + state.shape.strokewidth * state.view.scale) + ny * w / 2, p0.y + ny * (l + state.shape.strokewidth * state.view.scale) - nx * w / 2); }, function(dist, nx, ny, p0, p1, pt, me) { var w = Math.sqrt(mxUtils.ptSegDistSq(p0.x, p0.y, p1.x, p1.y, pt.x, pt.y)); var l = mxUtils.ptLineDist(p0.x, p0.y, p0.x + ny, p0.y - nx, pt.x, pt.y); state.style[mxConstants.STYLE_STARTSIZE] = Math.round((l - state.shape.strokewidth) * 100 / 3) / 100 / state.view.scale; state.style['width'] = Math.round(w * 2) / state.view.scale; // Applies to opposite side if (mxEvent.isControlDown(me.getEvent())) { state.style[mxConstants.STYLE_ENDSIZE] = state.style[mxConstants.STYLE_STARTSIZE]; } // Snaps to end geometry if (!mxEvent.isAltDown(me.getEvent())) { if (Math.abs(parseFloat(state.style[mxConstants.STYLE_STARTSIZE]) - parseFloat(state.style[mxConstants.STYLE_ENDSIZE])) < tol / 6) { state.style[mxConstants.STYLE_STARTSIZE] = state.style[mxConstants.STYLE_ENDSIZE]; } } })); handles.push(createEdgeHandle(state, ['startWidth', 'endWidth', mxConstants.STYLE_STARTSIZE, mxConstants.STYLE_ENDSIZE], true, function(dist, nx, ny, p0, p1) { var w = (state.shape.getStartArrowWidth() - state.shape.strokewidth) * state.view.scale; var l = mxUtils.getNumber(state.style, mxConstants.STYLE_STARTSIZE, mxConstants.ARROW_SIZE / 5) * 3 * state.view.scale; return new mxPoint(p0.x + nx * (l + state.shape.strokewidth * state.view.scale) + ny * w / 2, p0.y + ny * (l + state.shape.strokewidth * state.view.scale) - nx * w / 2); }, function(dist, nx, ny, p0, p1, pt, me) { var w = Math.sqrt(mxUtils.ptSegDistSq(p0.x, p0.y, p1.x, p1.y, pt.x, pt.y)); var l = mxUtils.ptLineDist(p0.x, p0.y, p0.x + ny, p0.y - nx, pt.x, pt.y); state.style[mxConstants.STYLE_STARTSIZE] = Math.round((l - state.shape.strokewidth) * 100 / 3) / 100 / state.view.scale; state.style['startWidth'] = Math.max(0, Math.round(w * 2) - state.shape.getEdgeWidth()) / state.view.scale; // Applies to opposite side if (mxEvent.isControlDown(me.getEvent())) { state.style[mxConstants.STYLE_ENDSIZE] = state.style[mxConstants.STYLE_STARTSIZE]; state.style['endWidth'] = state.style['startWidth']; } // Snaps to endWidth if (!mxEvent.isAltDown(me.getEvent())) { if (Math.abs(parseFloat(state.style[mxConstants.STYLE_STARTSIZE]) - parseFloat(state.style[mxConstants.STYLE_ENDSIZE])) < tol / 6) { state.style[mxConstants.STYLE_STARTSIZE] = state.style[mxConstants.STYLE_ENDSIZE]; } if (Math.abs(parseFloat(state.style['startWidth']) - parseFloat(state.style['endWidth'])) < tol) { state.style['startWidth'] = state.style['endWidth']; } } })); } if (mxUtils.getValue(state.style, mxConstants.STYLE_ENDARROW, mxConstants.NONE) != mxConstants.NONE) { handles.push(createEdgeHandle(state, ['width', mxConstants.STYLE_STARTSIZE, mxConstants.STYLE_ENDSIZE], false, function(dist, nx, ny, p0, p1) { var w = (state.shape.getEdgeWidth() - state.shape.strokewidth) * state.view.scale; var l = mxUtils.getNumber(state.style, mxConstants.STYLE_ENDSIZE, mxConstants.ARROW_SIZE / 5) * 3 * state.view.scale; return new mxPoint(p0.x + nx * (l + state.shape.strokewidth * state.view.scale) - ny * w / 2, p0.y + ny * (l + state.shape.strokewidth * state.view.scale) + nx * w / 2); }, function(dist, nx, ny, p0, p1, pt, me) { var w = Math.sqrt(mxUtils.ptSegDistSq(p0.x, p0.y, p1.x, p1.y, pt.x, pt.y)); var l = mxUtils.ptLineDist(p0.x, p0.y, p0.x + ny, p0.y - nx, pt.x, pt.y); state.style[mxConstants.STYLE_ENDSIZE] = Math.round((l - state.shape.strokewidth) * 100 / 3) / 100 / state.view.scale; state.style['width'] = Math.round(w * 2) / state.view.scale; // Applies to opposite side if (mxEvent.isControlDown(me.getEvent())) { state.style[mxConstants.STYLE_STARTSIZE] = state.style[mxConstants.STYLE_ENDSIZE]; } // Snaps to start geometry if (!mxEvent.isAltDown(me.getEvent())) { if (Math.abs(parseFloat(state.style[mxConstants.STYLE_ENDSIZE]) - parseFloat(state.style[mxConstants.STYLE_STARTSIZE])) < tol / 6) { state.style[mxConstants.STYLE_ENDSIZE] = state.style[mxConstants.STYLE_STARTSIZE]; } } })); handles.push(createEdgeHandle(state, ['startWidth', 'endWidth', mxConstants.STYLE_STARTSIZE, mxConstants.STYLE_ENDSIZE], false, function(dist, nx, ny, p0, p1) { var w = (state.shape.getEndArrowWidth() - state.shape.strokewidth) * state.view.scale; var l = mxUtils.getNumber(state.style, mxConstants.STYLE_ENDSIZE, mxConstants.ARROW_SIZE / 5) * 3 * state.view.scale; return new mxPoint(p0.x + nx * (l + state.shape.strokewidth * state.view.scale) - ny * w / 2, p0.y + ny * (l + state.shape.strokewidth * state.view.scale) + nx * w / 2); }, function(dist, nx, ny, p0, p1, pt, me) { var w = Math.sqrt(mxUtils.ptSegDistSq(p0.x, p0.y, p1.x, p1.y, pt.x, pt.y)); var l = mxUtils.ptLineDist(p0.x, p0.y, p0.x + ny, p0.y - nx, pt.x, pt.y); state.style[mxConstants.STYLE_ENDSIZE] = Math.round((l - state.shape.strokewidth) * 100 / 3) / 100 / state.view.scale; state.style['endWidth'] = Math.max(0, Math.round(w * 2) - state.shape.getEdgeWidth()) / state.view.scale; // Applies to opposite side if (mxEvent.isControlDown(me.getEvent())) { state.style[mxConstants.STYLE_STARTSIZE] = state.style[mxConstants.STYLE_ENDSIZE]; state.style['startWidth'] = state.style['endWidth']; } // Snaps to start geometry if (!mxEvent.isAltDown(me.getEvent())) { if (Math.abs(parseFloat(state.style[mxConstants.STYLE_ENDSIZE]) - parseFloat(state.style[mxConstants.STYLE_STARTSIZE])) < tol / 6) { state.style[mxConstants.STYLE_ENDSIZE] = state.style[mxConstants.STYLE_STARTSIZE]; } if (Math.abs(parseFloat(state.style['endWidth']) - parseFloat(state.style['startWidth'])) < tol) { state.style['endWidth'] = state.style['startWidth']; } } })); } return handles; }, 'swimlane': function(state) { var handles = [createHandle(state, [mxConstants.STYLE_STARTSIZE], function(bounds) { var size = parseFloat(mxUtils.getValue(state.style, mxConstants.STYLE_STARTSIZE, mxConstants.DEFAULT_STARTSIZE)); if (mxUtils.getValue(state.style, mxConstants.STYLE_HORIZONTAL, 1) == 1) { return new mxPoint(bounds.getCenterX(), bounds.y + Math.max(0, Math.min(bounds.height, size))); } else { return new mxPoint(bounds.x + Math.max(0, Math.min(bounds.width, size)), bounds.getCenterY()); } }, function(bounds, pt) { state.style[mxConstants.STYLE_STARTSIZE] = (mxUtils.getValue(this.state.style, mxConstants.STYLE_HORIZONTAL, 1) == 1) ? Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))) : Math.round(Math.max(0, Math.min(bounds.width, pt.x - bounds.x))); })]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED)) { var size = parseFloat(mxUtils.getValue(state.style, mxConstants.STYLE_STARTSIZE, mxConstants.DEFAULT_STARTSIZE)); handles.push(createArcHandle(state, size / 2)); } return handles; }, 'label': createArcHandleFunction(), 'ext': createArcHandleFunction(), 'rectangle': createArcHandleFunction(), 'triangle': createArcHandleFunction(), 'rhombus': createArcHandleFunction(), 'umlLifeline': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(bounds.height, parseFloat(mxUtils.getValue(this.state.style, 'size', UmlLifeline.prototype.size)))); return new mxPoint(bounds.getCenterX(), bounds.y + size); }, function(bounds, pt) { this.state.style['size'] = Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))); }, false)]; }, 'umlFrame': function(state) { var handles = [createHandle(state, ['width', 'height'], function(bounds) { var w0 = Math.max(UmlFrame.prototype.corner, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'width', UmlFrame.prototype.width))); var h0 = Math.max(UmlFrame.prototype.corner * 1.5, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'height', UmlFrame.prototype.height))); return new mxPoint(bounds.x + w0, bounds.y + h0); }, function(bounds, pt) { this.state.style['width'] = Math.round(Math.max(UmlFrame.prototype.corner, Math.min(bounds.width, pt.x - bounds.x))); this.state.style['height'] = Math.round(Math.max(UmlFrame.prototype.corner * 1.5, Math.min(bounds.height, pt.y - bounds.y))); }, false)]; return handles; }, 'process': function(state) { var handles = [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(0.5, parseFloat(mxUtils.getValue(this.state.style, 'size', ProcessShape.prototype.size)))); return new mxPoint(bounds.x + bounds.width * size, bounds.y + bounds.height / 4); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(0.5, (pt.x - bounds.x) / bounds.width)); })]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }, 'cross': function(state) { return [createHandle(state, ['size'], function(bounds) { var m = Math.min(bounds.width, bounds.height); var size = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'size', CrossShape.prototype.size))) * m / 2; return new mxPoint(bounds.getCenterX() - size, bounds.getCenterY() - size); }, function(bounds, pt) { var m = Math.min(bounds.width, bounds.height); this.state.style['size'] = Math.max(0, Math.min(1, Math.min((Math.max(0, bounds.getCenterY() - pt.y) / m) * 2, (Math.max(0, bounds.getCenterX() - pt.x) / m) * 2))); })]; }, 'note': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(bounds.width, Math.min(bounds.height, parseFloat( mxUtils.getValue(this.state.style, 'size', NoteShape.prototype.size))))); return new mxPoint(bounds.x + bounds.width - size, bounds.y + size); }, function(bounds, pt) { this.state.style['size'] = Math.round(Math.max(0, Math.min(Math.min(bounds.width, bounds.x + bounds.width - pt.x), Math.min(bounds.height, pt.y - bounds.y)))); })]; }, 'manualInput': function(state) { var handles = [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'size', ManualInputShape.prototype.size))); return new mxPoint(bounds.x + bounds.width / 4, bounds.y + size * 3 / 4); }, function(bounds, pt) { this.state.style['size'] = Math.round(Math.max(0, Math.min(bounds.height, (pt.y - bounds.y) * 4 / 3))); })]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }, 'dataStorage': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.state.style, 'size', DataStorageShape.prototype.size)))); return new mxPoint(bounds.x + (1 - size) * bounds.width, bounds.getCenterY()); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(1, (bounds.x + bounds.width - pt.x) / bounds.width)); })]; }, 'callout': function(state) { var handles = [createHandle(state, ['size', 'position'], function(bounds) { var size = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'size', CalloutShape.prototype.size))); var position = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'position', CalloutShape.prototype.position))); var base = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'base', CalloutShape.prototype.base))); return new mxPoint(bounds.x + position * bounds.width, bounds.y + bounds.height - size); }, function(bounds, pt) { var base = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'base', CalloutShape.prototype.base))); this.state.style['size'] = Math.round(Math.max(0, Math.min(bounds.height, bounds.y + bounds.height - pt.y))); this.state.style['position'] = Math.round(Math.max(0, Math.min(1, (pt.x - bounds.x) / bounds.width)) * 100) / 100; }), createHandle(state, ['position2'], function(bounds) { var position2 = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'position2', CalloutShape.prototype.position2))); return new mxPoint(bounds.x + position2 * bounds.width, bounds.y + bounds.height); }, function(bounds, pt) { this.state.style['position2'] = Math.round(Math.max(0, Math.min(1, (pt.x - bounds.x) / bounds.width)) * 100) / 100; }), createHandle(state, ['base'], function(bounds) { var size = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'size', CalloutShape.prototype.size))); var position = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'position', CalloutShape.prototype.position))); var base = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'base', CalloutShape.prototype.base))); return new mxPoint(bounds.x + Math.min(bounds.width, position * bounds.width + base), bounds.y + bounds.height - size); }, function(bounds, pt) { var position = Math.max(0, Math.min(1, mxUtils.getValue(this.state.style, 'position', CalloutShape.prototype.position))); this.state.style['base'] = Math.round(Math.max(0, Math.min(bounds.width, pt.x - bounds.x - position * bounds.width))); })]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }, 'internalStorage': function(state) { var handles = [createHandle(state, ['dx', 'dy'], function(bounds) { var dx = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'dx', InternalStorageShape.prototype.dx))); var dy = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'dy', InternalStorageShape.prototype.dy))); return new mxPoint(bounds.x + dx, bounds.y + dy); }, function(bounds, pt) { this.state.style['dx'] = Math.round(Math.max(0, Math.min(bounds.width, pt.x - bounds.x))); this.state.style['dy'] = Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))); })]; if (mxUtils.getValue(state.style, mxConstants.STYLE_ROUNDED, false)) { handles.push(createArcHandle(state)); } return handles; }, 'corner': function(state) { return [createHandle(state, ['dx', 'dy'], function(bounds) { var dx = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'dx', CornerShape.prototype.dx))); var dy = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'dy', CornerShape.prototype.dy))); return new mxPoint(bounds.x + dx, bounds.y + dy); }, function(bounds, pt) { this.state.style['dx'] = Math.round(Math.max(0, Math.min(bounds.width, pt.x - bounds.x))); this.state.style['dy'] = Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))); })]; }, 'tee': function(state) { return [createHandle(state, ['dx', 'dy'], function(bounds) { var dx = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'dx', TeeShape.prototype.dx))); var dy = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'dy', TeeShape.prototype.dy))); return new mxPoint(bounds.x + (bounds.width + dx) / 2, bounds.y + dy); }, function(bounds, pt) { this.state.style['dx'] = Math.round(Math.max(0, Math.min(bounds.width / 2, (pt.x - bounds.x - bounds.width / 2)) * 2)); this.state.style['dy'] = Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))); })]; }, 'singleArrow': createArrowHandleFunction(1), 'doubleArrow': createArrowHandleFunction(0.5), 'folder': function(state) { return [createHandle(state, ['tabWidth', 'tabHeight'], function(bounds) { var tw = Math.max(0, Math.min(bounds.width, mxUtils.getValue(this.state.style, 'tabWidth', FolderShape.prototype.tabWidth))); var th = Math.max(0, Math.min(bounds.height, mxUtils.getValue(this.state.style, 'tabHeight', FolderShape.prototype.tabHeight))); if (mxUtils.getValue(this.state.style, 'tabPosition', FolderShape.prototype.tabPosition) == mxConstants.ALIGN_RIGHT) { tw = bounds.width - tw; } return new mxPoint(bounds.x + tw, bounds.y + th); }, function(bounds, pt) { var tw = Math.max(0, Math.min(bounds.width, pt.x - bounds.x)); if (mxUtils.getValue(this.state.style, 'tabPosition', FolderShape.prototype.tabPosition) == mxConstants.ALIGN_RIGHT) { tw = bounds.width - tw; } this.state.style['tabWidth'] = Math.round(tw); this.state.style['tabHeight'] = Math.round(Math.max(0, Math.min(bounds.height, pt.y - bounds.y))); })]; }, 'document': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.state.style, 'size', DocumentShape.prototype.size)))); return new mxPoint(bounds.x + 3 * bounds.width / 4, bounds.y + (1 - size) * bounds.height); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(1, (bounds.y + bounds.height - pt.y) / bounds.height)); })]; }, 'tape': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.state.style, 'size', TapeShape.prototype.size)))); return new mxPoint(bounds.getCenterX(), bounds.y + size * bounds.height / 2); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(1, ((pt.y - bounds.y) / bounds.height) * 2)); })]; }, 'offPageConnector': function(state) { return [createHandle(state, ['size'], function(bounds) { var size = Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.state.style, 'size', OffPageConnectorShape.prototype.size)))); return new mxPoint(bounds.getCenterX(), bounds.y + (1 - size) * bounds.height); }, function(bounds, pt) { this.state.style['size'] = Math.max(0, Math.min(1, (bounds.y + bounds.height - pt.y) / bounds.height)); })]; }, 'step': createDisplayHandleFunction(StepShape.prototype.size, true, null, true, StepShape.prototype.fixedSize), 'hexagon': createDisplayHandleFunction(HexagonShape.prototype.size, true, 0.5, true), 'curlyBracket': createDisplayHandleFunction(CurlyBracketShape.prototype.size, false), 'display': createDisplayHandleFunction(DisplayShape.prototype.size, false), 'cube': createCubeHandleFunction(1, CubeShape.prototype.size, false), 'card': createCubeHandleFunction(0.5, CardShape.prototype.size, true), 'loopLimit': createCubeHandleFunction(0.5, LoopLimitShape.prototype.size, true), 'trapezoid': createTrapezoidHandleFunction(0.5), 'parallelogram': createTrapezoidHandleFunction(1) }; // Exposes custom handles Graph.createHandle = createHandle; Graph.handleFactory = handleFactory; mxVertexHandler.prototype.createCustomHandles = function() { // Not rotatable means locked if (this.state.view.graph.getSelectionCount() == 1) { if (this.graph.isCellRotatable(this.state.cell)) // LATER: Make locked state independent of rotatable flag, fix toggle if default is false //if (this.graph.isCellResizable(this.state.cell) || this.graph.isCellMovable(this.state.cell)) { var name = this.state.style['shape']; if (mxCellRenderer.defaultShapes[name] == null && mxStencilRegistry.getStencil(name) == null) { name = mxConstants.SHAPE_RECTANGLE; } var fn = handleFactory[name]; if (fn == null && this.state.shape != null && this.state.shape.isRoundable()) { fn = handleFactory[mxConstants.SHAPE_RECTANGLE]; } if (fn != null) { return fn(this.state); } } } return null; }; mxEdgeHandler.prototype.createCustomHandles = function() { if (this.state.view.graph.getSelectionCount() == 1) { var name = this.state.style['shape']; if (mxCellRenderer.defaultShapes[name] == null && mxStencilRegistry.getStencil(name) == null) { name = mxConstants.SHAPE_CONNECTOR; } var fn = handleFactory[name]; if (fn != null) { return fn(this.state); } } return null; } } else { // Dummy entries to avoid NPE in embed mode Graph.createHandle = function() {}; Graph.handleFactory = {}; } var isoHVector = new mxPoint(1, 0); var isoVVector = new mxPoint(1, 0); var alpha1 = mxUtils.toRadians(-30); var cos1 = Math.cos(alpha1); var sin1 = Math.sin(alpha1); isoHVector = mxUtils.getRotatedPoint(isoHVector, cos1, sin1); var alpha2 = mxUtils.toRadians(-150); var cos2 = Math.cos(alpha2); var sin2 = Math.sin(alpha2); isoVVector = mxUtils.getRotatedPoint(isoVVector, cos2, sin2); mxEdgeStyle.IsometricConnector = function (state, source, target, points, result) { var view = state.view; var pt = (points != null && points.length > 0) ? points[0] : null; var pts = state.absolutePoints; var p0 = pts[0]; var pe = pts[pts.length-1]; if (pt != null) { pt = view.transformControlPoint(state, pt); } if (p0 == null) { if (source != null) { p0 = new mxPoint(source.getCenterX(), source.getCenterY()); } } if (pe == null) { if (target != null) { pe = new mxPoint(target.getCenterX(), target.getCenterY()); } } var a1 = isoHVector.x; var a2 = isoHVector.y; var b1 = isoVVector.x; var b2 = isoVVector.y; var elbow = mxUtils.getValue(state.style, 'elbow', 'horizontal') == 'horizontal'; if (pe != null && p0 != null) { var last = p0; function isoLineTo(x, y, ignoreFirst) { var c1 = x - last.x; var c2 = y - last.y; // Solves for isometric base vectors var h = (b2 * c1 - b1 * c2) / (a1 * b2 - a2 * b1); var v = (a2 * c1 - a1 * c2) / (a2 * b1 - a1 * b2); if (elbow) { if (ignoreFirst) { last = new mxPoint(last.x + a1 * h, last.y + a2 * h); result.push(last); } last = new mxPoint(last.x + b1 * v, last.y + b2 * v); result.push(last); } else { if (ignoreFirst) { last = new mxPoint(last.x + b1 * v, last.y + b2 * v); result.push(last); } last = new mxPoint(last.x + a1 * h, last.y + a2 * h); result.push(last); } }; if (pt == null) { pt = new mxPoint(p0.x + (pe.x - p0.x) / 2, p0.y + (pe.y - p0.y) / 2); } isoLineTo(pt.x, pt.y, true); isoLineTo(pe.x, pe.y, false); } }; mxStyleRegistry.putValue('isometricEdgeStyle', mxEdgeStyle.IsometricConnector); var graphCreateEdgeHandler = Graph.prototype.createEdgeHandler; Graph.prototype.createEdgeHandler = function(state, edgeStyle) { if (edgeStyle == mxEdgeStyle.IsometricConnector) { var handler = new mxElbowEdgeHandler(state); handler.snapToTerminals = false; return handler; } return graphCreateEdgeHandler.apply(this, arguments); }; // Defines connection points for all shapes IsoRectangleShape.prototype.constraints = []; IsoCubeShape.prototype.getConstraints = function(style, w, h) { var constr = []; var tan30 = Math.tan(mxUtils.toRadians(30)); var tan30Dx = (0.5 - tan30) / 2; var m = Math.min(w, h / (0.5 + tan30)); var dx = (w - m) / 2; var dy = (h - m) / 2; constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, dy + 0.25 * m)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx + 0.5 * m, dy + m * tan30Dx)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx + m, dy + 0.25 * m)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx + m, dy + 0.75 * m)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx + 0.5 * m, dy + (1 - tan30Dx) * m)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, dy + 0.75 * m)); return (constr); }; CalloutShape.prototype.getConstraints = function(style, w, h) { var constr = []; var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE, mxConstants.LINE_ARCSIZE) / 2; var s = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var dx = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'position', this.position)))); var dx2 = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'position2', this.position2)))); var base = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'base', this.base)))); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.25, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.75, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h - s) * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, h - s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx2, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, h - s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h - s) * 0.5)); if (w >= s * 2) { constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); } return (constr); }; mxRectangleShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.75, 0), true), new mxConnectionConstraint(new mxPoint(0, 0.25), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(1, 0.25), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.75), true), new mxConnectionConstraint(new mxPoint(0.25, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.75, 1), true)]; mxEllipse.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0), true), new mxConnectionConstraint(new mxPoint(1, 0), true), new mxConnectionConstraint(new mxPoint(0, 1), true), new mxConnectionConstraint(new mxPoint(1, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.5))]; mxLabel.prototype.constraints = mxRectangleShape.prototype.constraints; mxImageShape.prototype.constraints = mxRectangleShape.prototype.constraints; mxSwimlane.prototype.constraints = mxRectangleShape.prototype.constraints; PlusShape.prototype.constraints = mxRectangleShape.prototype.constraints; NoteShape.prototype.getConstraints = function(style, w, h) { var constr = []; var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - s) * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - s, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - s * 0.5, s * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h + s) * 0.5 )); constr.push(new mxConnectionConstraint(new mxPoint(1, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false)); if (w >= s * 2) { constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); } return (constr); }; CardShape.prototype.getConstraints = function(style, w, h) { var constr = []; var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); constr.push(new mxConnectionConstraint(new mxPoint(1, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + s) * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s * 0.5, s * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h + s) * 0.5 )); constr.push(new mxConnectionConstraint(new mxPoint(0, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(1, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0.5), false)); if (w >= s * 2) { constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); } return (constr); }; CubeShape.prototype.getConstraints = function(style, w, h) { var constr = []; var s = Math.max(0, Math.min(w, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'size', this.size))))); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - s) * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - s, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - s * 0.5, s * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h + s) * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(1, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + s) * 0.5, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s * 0.5, h - s * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, h - s)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h - s) * 0.5)); return (constr); }; FolderShape.prototype.getConstraints = function(style, w, h) { var constr = []; var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'tabWidth', this.tabWidth)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'tabHeight', this.tabHeight)))); var tp = mxUtils.getValue(this.style, 'tabPosition', this.tabPosition); if (tp == 'left') { constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + dx) * 0.5, dy)); } else { constr.push(new mxConnectionConstraint(new mxPoint(1, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - dx * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - dx, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - dx, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - dx) * 0.5, dy)); } constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h - dy) * 0.25 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h - dy) * 0.5 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, (h - dy) * 0.75 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h - dy) * 0.25 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h - dy) * 0.5 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, (h - dy) * 0.75 + dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, h)); constr.push(new mxConnectionConstraint(new mxPoint(0.25, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.75, 1), false)); return (constr); } InternalStorageShape.prototype.constraints = mxRectangleShape.prototype.constraints; DataStorageShape.prototype.constraints = mxRectangleShape.prototype.constraints; TapeDataShape.prototype.constraints = mxEllipse.prototype.constraints; OrEllipseShape.prototype.constraints = mxEllipse.prototype.constraints; SumEllipseShape.prototype.constraints = mxEllipse.prototype.constraints; LineEllipseShape.prototype.constraints = mxEllipse.prototype.constraints; ManualInputShape.prototype.constraints = mxRectangleShape.prototype.constraints; DelayShape.prototype.constraints = mxRectangleShape.prototype.constraints; DisplayShape.prototype.getConstraints = function(style, w, h) { var constr = []; var dx = Math.min(w, h / 2); var s = Math.min(w - dx, Math.max(0, parseFloat(mxUtils.getValue(this.style, 'size', this.size))) * w); constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false, null)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (s + w - dx) * 0.5, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - dx, 0)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0.5), false, null)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - dx, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (s + w - dx) * 0.5, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, s, h)); return (constr); }; LoopLimitShape.prototype.constraints = mxRectangleShape.prototype.constraints; OffPageConnectorShape.prototype.constraints = mxRectangleShape.prototype.constraints; mxCylinder.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.15, 0.05), false), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.85, 0.05), false), new mxConnectionConstraint(new mxPoint(0, 0.3), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.7), true), new mxConnectionConstraint(new mxPoint(1, 0.3), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.7), true), new mxConnectionConstraint(new mxPoint(0.15, 0.95), false), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.85, 0.95), false)]; UmlActorShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0.1), false), new mxConnectionConstraint(new mxPoint(0.5, 0), false), new mxConnectionConstraint(new mxPoint(0.75, 0.1), false), new mxConnectionConstraint(new mxPoint(0, 1/3), false), new mxConnectionConstraint(new mxPoint(0, 1), false), new mxConnectionConstraint(new mxPoint(1, 1/3), false), new mxConnectionConstraint(new mxPoint(1, 1), false), new mxConnectionConstraint(new mxPoint(0.5, 0.5), false)]; ComponentShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.75, 0), true), new mxConnectionConstraint(new mxPoint(0, 0.3), true), new mxConnectionConstraint(new mxPoint(0, 0.7), true), new mxConnectionConstraint(new mxPoint(1, 0.25), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.75), true), new mxConnectionConstraint(new mxPoint(0.25, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.75, 1), true)]; mxActor.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.25, 0.2), false), new mxConnectionConstraint(new mxPoint(0.1, 0.5), false), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(0.75, 0.25), false), new mxConnectionConstraint(new mxPoint(0.9, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0.75), true), new mxConnectionConstraint(new mxPoint(0.25, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.75, 1), true)]; SwitchShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0), false), new mxConnectionConstraint(new mxPoint(0.5, 0.25), false), new mxConnectionConstraint(new mxPoint(1, 0), false), new mxConnectionConstraint(new mxPoint(0.25, 0.5), false), new mxConnectionConstraint(new mxPoint(0.75, 0.5), false), new mxConnectionConstraint(new mxPoint(0, 1), false), new mxConnectionConstraint(new mxPoint(0.5, 0.75), false), new mxConnectionConstraint(new mxPoint(1, 1), false)]; TapeShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.35), false), new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(0, 0.65), false), new mxConnectionConstraint(new mxPoint(1, 0.35), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0.65), false), new mxConnectionConstraint(new mxPoint(0.25, 1), false), new mxConnectionConstraint(new mxPoint(0.75, 0), false)]; StepShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.75, 0), true), new mxConnectionConstraint(new mxPoint(0.25, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.75, 1), true), new mxConnectionConstraint(new mxPoint(0, 0.25), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(1, 0.25), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.75), true)]; mxLine.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(0.25, 0.5), false), new mxConnectionConstraint(new mxPoint(0.75, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false)]; LollipopShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.5, 0), false), new mxConnectionConstraint(new mxPoint(0.5, 1), false)]; mxDoubleEllipse.prototype.constraints = mxEllipse.prototype.constraints; mxRhombus.prototype.constraints = mxEllipse.prototype.constraints; mxTriangle.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.25), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true)]; mxHexagon.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.375, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.625, 0), true), new mxConnectionConstraint(new mxPoint(0, 0.25), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(1, 0.25), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.75), true), new mxConnectionConstraint(new mxPoint(0.375, 1), true), new mxConnectionConstraint(new mxPoint(0.5, 1), true), new mxConnectionConstraint(new mxPoint(0.625, 1), true)]; mxCloud.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0.25), false), new mxConnectionConstraint(new mxPoint(0.4, 0.1), false), new mxConnectionConstraint(new mxPoint(0.16, 0.55), false), new mxConnectionConstraint(new mxPoint(0.07, 0.4), false), new mxConnectionConstraint(new mxPoint(0.31, 0.8), false), new mxConnectionConstraint(new mxPoint(0.13, 0.77), false), new mxConnectionConstraint(new mxPoint(0.8, 0.8), false), new mxConnectionConstraint(new mxPoint(0.55, 0.95), false), new mxConnectionConstraint(new mxPoint(0.875, 0.5), false), new mxConnectionConstraint(new mxPoint(0.96, 0.7), false), new mxConnectionConstraint(new mxPoint(0.625, 0.2), false), new mxConnectionConstraint(new mxPoint(0.88, 0.25), false)]; ParallelogramShape.prototype.constraints = mxRectangleShape.prototype.constraints; TrapezoidShape.prototype.constraints = mxRectangleShape.prototype.constraints; DocumentShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.25, 0), true), new mxConnectionConstraint(new mxPoint(0.5, 0), true), new mxConnectionConstraint(new mxPoint(0.75, 0), true), new mxConnectionConstraint(new mxPoint(0, 0.25), true), new mxConnectionConstraint(new mxPoint(0, 0.5), true), new mxConnectionConstraint(new mxPoint(0, 0.75), true), new mxConnectionConstraint(new mxPoint(1, 0.25), true), new mxConnectionConstraint(new mxPoint(1, 0.5), true), new mxConnectionConstraint(new mxPoint(1, 0.75), true)]; mxArrow.prototype.constraints = null; TeeShape.prototype.getConstraints = function(style, w, h) { var constr = []; var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'dx', this.dx)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'dy', this.dy)))); var w2 = Math.abs(w - dx) / 2; constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, dy * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w * 0.75 + dx * 0.25, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + dx) * 0.5, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + dx) * 0.5, (h + dy) * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + dx) * 0.5, h)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - dx) * 0.5, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - dx) * 0.5, (h + dy) * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - dx) * 0.5, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w * 0.25 - dx * 0.25, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, dy * 0.5)); return (constr); }; CornerShape.prototype.getConstraints = function(style, w, h) { var constr = []; var dx = Math.max(0, Math.min(w, parseFloat(mxUtils.getValue(this.style, 'dx', this.dx)))); var dy = Math.max(0, Math.min(h, parseFloat(mxUtils.getValue(this.style, 'dy', this.dy)))); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, dy * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + dx) * 0.5, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, dy)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, (h + dy) * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, dx * 0.5, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 1), false)); return (constr); }; CrossbarShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0), false), new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(0, 1), false), new mxConnectionConstraint(new mxPoint(0.25, 0.5), false), new mxConnectionConstraint(new mxPoint(0.5, 0.5), false), new mxConnectionConstraint(new mxPoint(0.75, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 1), false)]; SingleArrowShape.prototype.getConstraints = function(style, w, h) { var constr = []; var aw = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowWidth', this.arrowWidth)))); var as = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowSize', this.arrowSize)))); var at = (h - aw) / 2; var ab = at + aw; constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, at)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - as) * 0.5, at)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - as, 0)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - as, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w - as) * 0.5, h - at)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, h - at)); return (constr); }; DoubleArrowShape.prototype.getConstraints = function(style, w, h) { var constr = []; var aw = h * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowWidth', SingleArrowShape.prototype.arrowWidth)))); var as = w * Math.max(0, Math.min(1, parseFloat(mxUtils.getValue(this.style, 'arrowSize', SingleArrowShape.prototype.arrowSize)))); var at = (h - aw) / 2; var ab = at + aw; constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, as, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w * 0.5, at)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - as, 0)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w - as, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w * 0.5, h - at)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, as, h)); return (constr); }; CrossShape.prototype.getConstraints = function(style, w, h) { var constr = []; var m = Math.min(h, w); var size = Math.max(0, Math.min(m, m * parseFloat(mxUtils.getValue(this.style, 'size', this.size)))); var t = (h - size) / 2; var b = t + size; var l = (w - size) / 2; var r = l + size; constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, t * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 0), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, 0)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, t * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, t)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, h - t * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, h)); constr.push(new mxConnectionConstraint(new mxPoint(0.5, 1), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, h)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, h - t * 0.5)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, r, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + r) * 0.5, t)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, t)); constr.push(new mxConnectionConstraint(new mxPoint(1, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, w, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, (w + r) * 0.5, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l * 0.5, t)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, t)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0.5), false)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, 0, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l * 0.5, b)); constr.push(new mxConnectionConstraint(new mxPoint(0, 0), false, null, l, t)); return (constr); }; UmlLifeline.prototype.constraints = null; OrShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.25), false), new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(0, 0.75), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false), new mxConnectionConstraint(new mxPoint(0.7, 0.1), false), new mxConnectionConstraint(new mxPoint(0.7, 0.9), false)]; XorShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0.175, 0.25), false), new mxConnectionConstraint(new mxPoint(0.25, 0.5), false), new mxConnectionConstraint(new mxPoint(0.175, 0.75), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false), new mxConnectionConstraint(new mxPoint(0.7, 0.1), false), new mxConnectionConstraint(new mxPoint(0.7, 0.9), false)]; RequiredInterfaceShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false)]; ProvidedRequiredInterfaceShape.prototype.constraints = [new mxConnectionConstraint(new mxPoint(0, 0.5), false), new mxConnectionConstraint(new mxPoint(1, 0.5), false)]; })();