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OneAuth/oaweb/public/cherry/drawio/Graph.js

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/**
* Copyright (c) 2006-2012, JGraph Ltd
*/
// Workaround for handling named HTML entities in mxUtils.parseXml
// LATER: How to configure DOMParser to just ignore all entities?
(function()
{
var entities = [
['nbsp', '160'],
['shy', '173']
];
var parseXml = mxUtils.parseXml;
mxUtils.parseXml = function(text)
{
for (var i = 0; i < entities.length; i++)
{
text = text.replace(new RegExp(
'&' + entities[i][0] + ';', 'g'),
'&#' + entities[i][1] + ';');
}
return parseXml(text);
};
})();
// Shim for missing toISOString in older versions of IE
// See https://stackoverflow.com/questions/12907862
if (!Date.prototype.toISOString)
{
(function()
{
function pad(number)
{
var r = String(number);
if (r.length === 1)
{
r = '0' + r;
}
return r;
};
Date.prototype.toISOString = function()
{
return this.getUTCFullYear()
+ '-' + pad( this.getUTCMonth() + 1 )
+ '-' + pad( this.getUTCDate() )
+ 'T' + pad( this.getUTCHours() )
+ ':' + pad( this.getUTCMinutes() )
+ ':' + pad( this.getUTCSeconds() )
+ '.' + String( (this.getUTCMilliseconds()/1000).toFixed(3) ).slice( 2, 5 )
+ 'Z';
};
}());
}
// Shim for Date.now()
if (!Date.now)
{
Date.now = function()
{
return new Date().getTime();
};
}
// Polyfill for Uint8Array.from in IE11 used in Graph.decompress
// See https://stackoverflow.com/questions/36810940/alternative-or-polyfill-for-array-from-on-the-internet-explorer
if (!Uint8Array.from) {
Uint8Array.from = (function () {
var toStr = Object.prototype.toString;
var isCallable = function (fn) {
return typeof fn === 'function' || toStr.call(fn) === '[object Function]';
};
var toInteger = function (value) {
var number = Number(value);
if (isNaN(number)) { return 0; }
if (number === 0 || !isFinite(number)) { return number; }
return (number > 0 ? 1 : -1) * Math.floor(Math.abs(number));
};
var maxSafeInteger = Math.pow(2, 53) - 1;
var toLength = function (value) {
var len = toInteger(value);
return Math.min(Math.max(len, 0), maxSafeInteger);
};
// The length property of the from method is 1.
return function from(arrayLike/*, mapFn, thisArg */) {
// 1. Let C be the this value.
var C = this;
// 2. Let items be ToObject(arrayLike).
var items = Object(arrayLike);
// 3. ReturnIfAbrupt(items).
if (arrayLike == null) {
throw new TypeError("Array.from requires an array-like object - not null or undefined");
}
// 4. If mapfn is undefined, then let mapping be false.
var mapFn = arguments.length > 1 ? arguments[1] : void undefined;
var T;
if (typeof mapFn !== 'undefined') {
// 5. else
// 5. a If IsCallable(mapfn) is false, throw a TypeError exception.
if (!isCallable(mapFn)) {
throw new TypeError('Array.from: when provided, the second argument must be a function');
}
// 5. b. If thisArg was supplied, let T be thisArg; else let T be undefined.
if (arguments.length > 2) {
T = arguments[2];
}
}
// 10. Let lenValue be Get(items, "length").
// 11. Let len be ToLength(lenValue).
var len = toLength(items.length);
// 13. If IsConstructor(C) is true, then
// 13. a. Let A be the result of calling the [[Construct]] internal method of C with an argument list containing the single item len.
// 14. a. Else, Let A be ArrayCreate(len).
var A = isCallable(C) ? Object(new C(len)) : new Array(len);
// 16. Let k be 0.
var k = 0;
// 17. Repeat, while k < len… (also steps a - h)
var kValue;
while (k < len) {
kValue = items[k];
if (mapFn) {
A[k] = typeof T === 'undefined' ? mapFn(kValue, k) : mapFn.call(T, kValue, k);
} else {
A[k] = kValue;
}
k += 1;
}
// 18. Let putStatus be Put(A, "length", len, true).
A.length = len;
// 20. Return A.
return A;
};
}());
}
/**
* Measurements Units
*/
mxConstants.POINTS = 1;
mxConstants.MILLIMETERS = 2;
mxConstants.INCHES = 3;
mxConstants.METERS = 4;
/**
* This ratio is with page scale 1
*/
mxConstants.PIXELS_PER_MM = 3.937;
mxConstants.PIXELS_PER_INCH = 100;
mxConstants.SHADOW_OPACITY = 0.25;
mxConstants.SHADOWCOLOR = '#000000';
mxConstants.VML_SHADOWCOLOR = '#d0d0d0';
mxCodec.allowlist = ['mxStylesheet', 'Array', 'mxGraphModel', 'html',
'mxCell', 'mxGeometry', 'mxRectangle', 'mxPoint',
'mxChildChange', 'mxRootChange', 'mxTerminalChange',
'mxValueChange', 'mxStyleChange', 'mxGeometryChange',
'mxCollapseChange', 'mxVisibleChange', 'mxCellAttributeChange'];
mxGraph.prototype.pageBreakColor = '#c0c0c0';
mxGraph.prototype.pageScale = 1;
// Letter page format is default in US, Canada and Mexico
(function()
{
try
{
if (navigator != null && navigator.language != null)
{
var lang = navigator.language.toLowerCase();
mxGraph.prototype.pageFormat = (lang === 'en-us' || lang === 'en-ca' || lang === 'es-mx') ?
mxConstants.PAGE_FORMAT_LETTER_PORTRAIT : mxConstants.PAGE_FORMAT_A4_PORTRAIT;
}
}
catch (e)
{
// ignore
}
})();
// Matches label positions of mxGraph 1.x
mxText.prototype.baseSpacingTop = 5;
mxText.prototype.baseSpacingBottom = 1;
// Keeps edges between relative child cells inside parent
mxGraphModel.prototype.ignoreRelativeEdgeParent = false;
// Defines grid properties
mxGraphView.prototype.gridImage = (mxClient.IS_SVG) ? 'data:image/gif;base64,R0lGODlhCgAKAJEAAAAAAP///8zMzP///yH5BAEAAAMALAAAAAAKAAoAAAIJ1I6py+0Po2wFADs=' :
IMAGE_PATH + '/grid.gif';
mxGraphView.prototype.gridSteps = 4;
mxGraphView.prototype.minGridSize = 4;
// UrlParams is null in embed mode
mxGraphView.prototype.defaultGridColor = '#d0d0d0';
mxGraphView.prototype.defaultDarkGridColor = '#424242';
mxGraphView.prototype.gridColor = mxGraphView.prototype.defaultGridColor;
// Units
mxGraphView.prototype.unit = mxConstants.POINTS;
mxGraphView.prototype.setUnit = function(unit)
{
if (this.unit != unit)
{
this.unit = unit;
this.fireEvent(new mxEventObject('unitChanged', 'unit', unit));
}
};
// Alternative text for unsupported foreignObjects
mxSvgCanvas2D.prototype.foAltText = '[Not supported by viewer]';
// Hook for custom constraints
mxShape.prototype.getConstraints = function(style, w, h)
{
return null;
};
// Override for clipSvg style
mxImageShape.prototype.getImageDataUri = function()
{
var src = this.image;
if (src.substring(0, 26) == 'data:image/svg+xml;base64,' && this.style != null &&
mxUtils.getValue(this.style, 'clipSvg', '0') == '1')
{
if (this.clippedSvg == null || this.clippedImage != src)
{
this.clippedSvg = Graph.clipSvgDataUri(src, true);
this.clippedImage = src;
}
src = this.clippedSvg;
}
return src;
};
// Override to use key as fallback
(function()
{
var mxResourcesGet = mxResources.get;
mxResources.get = function(key, params, defaultValue)
{
if (defaultValue == null)
{
defaultValue = key;
}
return mxResourcesGet.apply(this, [key, params, defaultValue]);
};
})();
/**
* Constructs a new graph instance. Note that the constructor does not take a
* container because the graph instance is needed for creating the UI, which
* in turn will create the container for the graph. Hence, the container is
* assigned later in EditorUi.
*/
/**
* Defines graph class.
*/
Graph = function(container, model, renderHint, stylesheet, themes, standalone)
{
mxGraph.call(this, container, model, renderHint, stylesheet);
this.themes = themes || this.defaultThemes;
this.currentEdgeStyle = mxUtils.clone(this.defaultEdgeStyle);
this.currentVertexStyle = mxUtils.clone(this.defaultVertexStyle);
this.standalone = (standalone != null) ? standalone : false;
// Sets the base domain URL and domain path URL for relative links.
var b = this.baseUrl;
var p = b.indexOf('//');
this.domainUrl = '';
this.domainPathUrl = '';
if (p > 0)
{
var d = b.indexOf('/', p + 2);
if (d > 0)
{
this.domainUrl = b.substring(0, d);
}
d = b.lastIndexOf('/');
if (d > 0)
{
this.domainPathUrl = b.substring(0, d + 1);
}
}
// Adds support for HTML labels via style. Note: Currently, only the Java
// backend supports HTML labels but CSS support is limited to the following:
// http://docs.oracle.com/javase/6/docs/api/index.html?javax/swing/text/html/CSS.html
// TODO: Wrap should not affect isHtmlLabel output (should be handled later)
this.isHtmlLabel = function(cell)
{
var style = this.getCurrentCellStyle(cell);
return (style != null) ? (style['html'] == '1' || style[mxConstants.STYLE_WHITE_SPACE] == 'wrap') : false;
};
// Implements a listener for hover and click handling on edges and tables
if (this.immediateHandling)
{
var start = {
point: null,
event: null,
state: null,
handle: null,
selected: false
};
var initialSelected = false;
// Uses this event to process mouseDown to check the selection state before it is changed
this.addListener(mxEvent.FIRE_MOUSE_EVENT, mxUtils.bind(this, function(sender, evt)
{
if (evt.getProperty('eventName') == 'mouseDown' && this.isEnabled())
{
var me = evt.getProperty('event');
var state = me.getState();
var s = this.view.scale;
if (!mxEvent.isAltDown(me.getEvent()) && state != null)
{
initialSelected = this.isCellSelected(state.cell);
if (!this.panningHandler.isActive() && !mxEvent.isControlDown(me.getEvent()))
{
var handler = this.selectionCellsHandler.getHandler(state.cell);
// Cell handles have precedence over row and col resize
if (handler == null || handler.getHandleForEvent(me) == null)
{
var box = new mxRectangle(me.getGraphX() - 1, me.getGraphY() - 1);
var tol = mxEvent.isTouchEvent(me.getEvent()) ?
mxShape.prototype.svgStrokeTolerance - 1 :
(mxShape.prototype.svgStrokeTolerance + 2) / 2;
var t1 = tol + 2;
box.grow(tol);
// Ignores clicks inside cell to avoid delayed selection on
// merged cells when clicking on invisible part of dividers
if (this.isTableCell(state.cell) && this.isCellMovable(state.cell) &&
!this.isCellSelected(state.cell) &&
(!mxUtils.contains(state, me.getGraphX() - t1, me.getGraphY() - t1) ||
!mxUtils.contains(state, me.getGraphX() - t1, me.getGraphY() + t1) ||
!mxUtils.contains(state, me.getGraphX() + t1, me.getGraphY() + t1) ||
!mxUtils.contains(state, me.getGraphX() + t1, me.getGraphY() - t1)))
{
var row = this.model.getParent(state.cell);
var table = this.model.getParent(row);
if (!this.isCellSelected(table))
{
var b = tol * s;
var b2 = 2 * b;
// Ignores events on top line of top row and left line of left column
if ((this.model.getChildAt(table, 0) != row) && mxUtils.intersects(box,
new mxRectangle(state.x, state.y - b, state.width, b2)) ||
(this.model.getChildAt(row, 0) != state.cell) && mxUtils.intersects(box,
new mxRectangle(state.x - b, state.y, b2, state.height)) ||
mxUtils.intersects(box, new mxRectangle(state.x, state.y + state.height - b, state.width, b2)) ||
mxUtils.intersects(box, new mxRectangle(state.x + state.width - b, state.y, b2, state.height)))
{
var wasSelected = this.selectionCellsHandler.isHandled(table);
this.selectCellForEvent(table, me.getEvent());
handler = this.selectionCellsHandler.getHandler(table);
if (handler != null)
{
var handle = handler.getHandleForEvent(me);
if (handle != null)
{
handler.start(me.getGraphX(), me.getGraphY(), handle);
handler.blockDelayedSelection = !wasSelected;
me.consume();
}
}
}
}
}
// Hover for swimlane start sizes inside tables
var current = state;
while (!me.isConsumed() && current != null && (this.isTableCell(current.cell) ||
this.isTableRow(current.cell) || this.isTable(current.cell)))
{
if (this.isSwimlane(current.cell) && this.isCellMovable(current.cell))
{
var offset = this.getActualStartSize(current.cell);
if (((offset.x > 0 || offset.width > 0) && mxUtils.intersects(box, new mxRectangle(
current.x + (offset.x - offset.width - 1) * s + ((offset.x == 0) ? current.width : 0),
current.y, 1, current.height))) || ((offset.y > 0 || offset.height > 0) &&
mxUtils.intersects(box, new mxRectangle(current.x, current.y + (offset.y -
offset.height - 1) * s + ((offset.y == 0) ? current.height : 0), current.width, 1))))
{
this.selectCellForEvent(current.cell, me.getEvent());
handler = this.selectionCellsHandler.getHandler(current.cell);
if (handler != null && handler.customHandles != null)
{
// Swimlane start size handle is last custom handle
var handle = mxEvent.CUSTOM_HANDLE - handler.customHandles.length + 1;
handler.start(me.getGraphX(), me.getGraphY(), handle);
me.consume();
}
}
}
current = this.view.getState(this.model.getParent(current.cell));
}
}
}
}
}
}));
// Uses this event to process mouseDown to check the selection state before it is changed
this.addListener(mxEvent.CONSUME_MOUSE_EVENT, mxUtils.bind(this, function(sender, evt)
{
if (evt.getProperty('eventName') == 'mouseDown' && this.isEnabled())
{
var me = evt.getProperty('event');
var state = me.getState();
if (!mxEvent.isAltDown(me.getEvent()) && !mxEvent.isControlDown(evt) &&
!mxEvent.isShiftDown(evt) && !initialSelected &&
state != null && this.model.isEdge(state.cell))
{
start.point = new mxPoint(me.getGraphX(), me.getGraphY());
start.selected = this.isCellSelected(state.cell);
start.state = state;
start.event = me;
if (state.text != null && state.text.boundingBox != null &&
mxUtils.contains(state.text.boundingBox, me.getGraphX(), me.getGraphY()))
{
start.handle = mxEvent.LABEL_HANDLE;
}
else
{
var handler = this.selectionCellsHandler.getHandler(state.cell);
if (handler != null && handler.bends != null && handler.bends.length > 0)
{
start.handle = handler.getHandleForEvent(me);
}
}
}
}
}));
this.addMouseListener(
{
mouseDown: function(sender, me) {},
mouseMove: mxUtils.bind(this, function(sender, me)
{
// Checks if any other handler is active
var handlerMap = this.selectionCellsHandler.handlers.map;
for (var key in handlerMap)
{
if (handlerMap[key].index != null)
{
return;
}
}
if (this.isEnabled() && !this.panningHandler.isActive() && !mxEvent.isAltDown(me.getEvent()))
{
var tol = this.tolerance;
if (start.point != null && start.state != null && start.event != null)
{
var state = start.state;
if (start.handle != null || Math.abs(start.point.x - me.getGraphX()) > tol ||
Math.abs(start.point.y - me.getGraphY()) > tol)
{
var handler = null;
if (!mxEvent.isControlDown(me.getEvent()) &&
!mxEvent.isShiftDown(me.getEvent()))
{
handler = this.selectionCellsHandler.getHandler(state.cell);
}
if (handler != null && handler.bends != null && handler.bends.length > 0)
{
handler.redrawHandles();
var handle = (start.handle != null) ? start.handle :
handler.getHandleForEvent(start.event);
var edgeStyle = this.view.getEdgeStyle(state);
var entity = edgeStyle == mxEdgeStyle.EntityRelation;
// Handles special case where label was clicked on unselected edge in which
// case the label will be moved regardless of the handle that is returned
if (!start.selected && start.handle == mxEvent.LABEL_HANDLE)
{
handle = start.handle;
}
if (!entity || handle == 0 || handle == handler.bends.length - 1 || handle == mxEvent.LABEL_HANDLE)
{
// Source or target handle or connected for direct handle access or orthogonal line
// with just two points where the central handle is moved regardless of mouse position
if (handle == mxEvent.LABEL_HANDLE || handle == 0 || state.visibleSourceState != null ||
handle == handler.bends.length - 1 || state.visibleTargetState != null)
{
if (!entity && handle != mxEvent.LABEL_HANDLE)
{
var pts = state.absolutePoints;
// Default case where handles are at corner points handles
// drag of corner as drag of existing point
if (pts != null && ((edgeStyle == null && handle == null) ||
edgeStyle == mxEdgeStyle.SegmentConnector ||
edgeStyle == mxEdgeStyle.OrthConnector))
{
// Does not use handles if they were not initially visible
handle = start.handle;
if (handle == null)
{
var box = new mxRectangle(start.point.x, start.point.y);
box.grow(mxEdgeHandler.prototype.handleImage.width / 2);
if (mxUtils.contains(box, pts[0].x, pts[0].y))
{
// Moves source terminal handle
handle = 0;
}
else if (mxUtils.contains(box, pts[pts.length - 1].x, pts[pts.length - 1].y))
{
// Moves target terminal handle
handle = handler.bends.length - 1;
}
else
{
// Checks if edge has no bends
var nobends = edgeStyle != null && (pts.length == 2 || (pts.length == 3 &&
((Math.round(pts[0].x - pts[1].x) == 0 && Math.round(pts[1].x - pts[2].x) == 0) ||
(Math.round(pts[0].y - pts[1].y) == 0 && Math.round(pts[1].y - pts[2].y) == 0))));
if (nobends)
{
// Moves central handle for straight orthogonal edges
handle = 2;
}
else
{
// Finds and moves vertical or horizontal segment
handle = mxUtils.findNearestSegment(state, start.point.x, start.point.y);
// Converts segment to virtual handle index
if (edgeStyle == null)
{
handle = mxEvent.VIRTUAL_HANDLE - handle;
}
// Maps segment to handle
else
{
handle += 1;
}
}
}
}
}
// Creates a new waypoint and starts moving it
if (handle == null)
{
handle = mxEvent.VIRTUAL_HANDLE;
}
}
handler.start(me.getGraphX(), me.getGraphX(), handle);
me.consume();
// Removes preview rectangle in graph handler
this.graphHandler.reset();
}
}
else if (entity && (state.visibleSourceState != null || state.visibleTargetState != null))
{
// Disables moves on entity to make it consistent
this.graphHandler.reset();
me.consume();
}
}
if (handler != null)
{
// Lazy selection for edges inside groups
if (this.selectionCellsHandler.isHandlerActive(handler))
{
if (!this.isCellSelected(state.cell))
{
this.selectionCellsHandler.handlers.put(state.cell, handler);
this.selectCellForEvent(state.cell, me.getEvent());
}
}
else if (!this.isCellSelected(state.cell))
{
// Destroy temporary handler
handler.destroy();
}
}
// Reset start state
start.selected = false;
start.handle = null;
start.state = null;
start.event = null;
start.point = null;
}
}
else
{
// Updates cursor for unselected edges under the mouse
var state = me.getState();
if (state != null && this.isCellEditable(state.cell))
{
var cursor = null;
// Checks if state was removed in call to stopEditing above
if (this.model.isEdge(state.cell) &&
!this.isCellSelected(state.cell) &&
!mxEvent.isAltDown(me.getEvent()) &&
!mxEvent.isControlDown(me.getEvent()) &&
!mxEvent.isShiftDown(me.getEvent()))
{
var box = new mxRectangle(me.getGraphX(), me.getGraphY());
box.grow(mxEdgeHandler.prototype.handleImage.width / 2);
var pts = state.absolutePoints;
if (pts != null)
{
if (state.text != null && state.text.boundingBox != null &&
mxUtils.contains(state.text.boundingBox, me.getGraphX(), me.getGraphY()))
{
cursor = 'move';
}
else if (mxUtils.contains(box, pts[0].x, pts[0].y) ||
mxUtils.contains(box, pts[pts.length - 1].x, pts[pts.length - 1].y))
{
cursor = 'pointer';
}
else if (state.visibleSourceState != null || state.visibleTargetState != null)
{
// Moving is not allowed for entity relation but still indicate hover state
var tmp = this.view.getEdgeStyle(state);
cursor = 'crosshair';
if (tmp != mxEdgeStyle.EntityRelation && this.isOrthogonal(state))
{
var idx = mxUtils.findNearestSegment(state, me.getGraphX(), me.getGraphY());
if (idx < pts.length - 1 && idx >= 0)
{
cursor = (Math.round(pts[idx].x - pts[idx + 1].x) == 0) ?
'col-resize' : 'row-resize';
}
}
}
}
}
else if (!mxEvent.isControlDown(me.getEvent()))
{
var tol = mxShape.prototype.svgStrokeTolerance / 2;
var box = new mxRectangle(me.getGraphX(), me.getGraphY());
box.grow(tol);
if (this.isTableCell(state.cell) && this.isCellMovable(state.cell))
{
var row = this.model.getParent(state.cell);
var table = this.model.getParent(row);
if (!this.isCellSelected(table))
{
if ((mxUtils.intersects(box, new mxRectangle(state.x, state.y - 2, state.width, 4)) &&
this.model.getChildAt(table, 0) != row) || mxUtils.intersects(box,
new mxRectangle(state.x, state.y + state.height - 2, state.width, 4)))
{
cursor ='row-resize';
}
else if ((mxUtils.intersects(box, new mxRectangle(state.x - 2, state.y, 4, state.height)) &&
this.model.getChildAt(row, 0) != state.cell) || mxUtils.intersects(box,
new mxRectangle(state.x + state.width - 2, state.y, 4, state.height)))
{
cursor ='col-resize';
}
}
}
// Hover for swimlane start sizes inside tables
var current = state;
while (cursor == null && current != null && (this.isTableCell(current.cell) ||
this.isTableRow(current.cell) || this.isTable(current.cell)))
{
if (this.isSwimlane(current.cell) && this.isCellMovable(current.cell))
{
var offset = this.getActualStartSize(current.cell);
var s = this.view.scale;
if ((offset.x > 0 || offset.width > 0) && mxUtils.intersects(box, new mxRectangle(
current.x + (offset.x - offset.width - 1) * s + ((offset.x == 0) ? current.width * s : 0),
current.y, 1, current.height)))
{
cursor ='col-resize';
}
else if ((offset.y > 0 || offset.height > 0) && mxUtils.intersects(box, new mxRectangle(
current.x, current.y + (offset.y - offset.height - 1) * s + ((offset.y == 0) ? current.height : 0),
current.width, 1)))
{
cursor ='row-resize';
}
}
current = this.view.getState(this.model.getParent(current.cell));
}
}
if (cursor != null)
{
state.setCursor(cursor);
}
}
}
}
}),
mouseUp: mxUtils.bind(this, function(sender, me)
{
start.state = null;
start.event = null;
start.point = null;
start.handle = null;
})
});
}
this.cellRenderer.minSvgStrokeWidth = 0.1;
// HTML entities are displayed as plain text in wrapped plain text labels
this.cellRenderer.getLabelValue = function(state)
{
var result = mxCellRenderer.prototype.getLabelValue.apply(this, arguments);
if (state.view.graph.isHtmlLabel(state.cell))
{
if (state.style['html'] != 1)
{
result = mxUtils.htmlEntities(result, false);
}
else
{
// Skips sanitizeHtml for unchanged labels
if (state.lastLabelValue != result)
{
state.lastLabelValue = result;
state.lastSanitizedLabelValue = Graph.sanitizeHtml(result);
}
result = state.lastSanitizedLabelValue;
}
}
return result;
};
// All code below not available and not needed in embed mode
if (typeof mxVertexHandler !== 'undefined')
{
this.setConnectable(true);
this.setDropEnabled(true);
this.setPanning(true);
this.setTooltips(true);
this.setAllowLoops(true);
this.allowAutoPanning = true;
this.resetEdgesOnConnect = false;
this.constrainChildren = false;
this.constrainRelativeChildren = true;
// Do not scroll after moving cells
this.graphHandler.scrollOnMove = false;
this.graphHandler.scaleGrid = true;
// Disables cloning of connection sources by default
this.connectionHandler.setCreateTarget(false);
this.connectionHandler.insertBeforeSource = true;
// Disables built-in connection starts
this.connectionHandler.isValidSource = function(cell, me)
{
return false;
};
// Sets the style to be used when an elbow edge is double clicked
this.alternateEdgeStyle = 'vertical';
if (stylesheet == null)
{
this.loadStylesheet();
}
// Adds page centers to the guides for moving cells
var graphHandlerGetGuideStates = this.graphHandler.getGuideStates;
this.graphHandler.getGuideStates = function()
{
var result = graphHandlerGetGuideStates.apply(this, arguments);
// Create virtual cell state for page centers
if (this.graph.pageVisible)
{
var guides = [];
var pf = this.graph.pageFormat;
var ps = this.graph.pageScale;
var pw = pf.width * ps;
var ph = pf.height * ps;
var t = this.graph.view.translate;
var s = this.graph.view.scale;
var layout = this.graph.getPageLayout();
for (var i = 0; i < layout.width; i++)
{
guides.push(new mxRectangle(((layout.x + i) * pw + t.x) * s,
(layout.y * ph + t.y) * s, pw * s, ph * s));
}
for (var j = 1; j < layout.height; j++)
{
guides.push(new mxRectangle((layout.x * pw + t.x) * s,
((layout.y + j) * ph + t.y) * s, pw * s, ph * s));
}
// Page center guides have precedence over normal guides
result = guides.concat(result);
}
return result;
};
// Overrides zIndex for dragElement
mxDragSource.prototype.dragElementZIndex = mxPopupMenu.prototype.zIndex;
// Overrides color for virtual guides for page centers
mxGuide.prototype.getGuideColor = function(state, horizontal)
{
return (state.cell == null) ? '#ffa500' /* orange */ : mxConstants.GUIDE_COLOR;
};
// Changes color of move preview for black backgrounds
this.graphHandler.createPreviewShape = function(bounds)
{
this.previewColor = (this.graph.background == '#000000') ? '#ffffff' : mxGraphHandler.prototype.previewColor;
return mxGraphHandler.prototype.createPreviewShape.apply(this, arguments);
};
// Handles parts of cells by checking if part=1 is in the style and returning the parent
// if the parent is not already in the list of cells. container style is used to disable
// step into swimlanes and dropTarget style is used to disable acting as a drop target.
// LATER: Handle recursive parts
var graphHandlerGetCells = this.graphHandler.getCells;
this.graphHandler.getCells = function(initialCell)
{
var cells = graphHandlerGetCells.apply(this, arguments);
var lookup = new mxDictionary();
var newCells = [];
for (var i = 0; i < cells.length; i++)
{
// Propagates to composite parents or moves selected table rows
var cell = (this.graph.isTableCell(initialCell) &&
this.graph.isTableCell(cells[i]) &&
this.graph.isCellSelected(cells[i])) ?
this.graph.model.getParent(cells[i]) :
((this.graph.isTableRow(initialCell) &&
this.graph.isTableRow(cells[i]) &&
this.graph.isCellSelected(cells[i])) ?
cells[i] : this.graph.getCompositeParent(cells[i]));
if (cell != null && !lookup.get(cell))
{
lookup.put(cell, true);
newCells.push(cell);
}
}
return newCells;
};
// Handles parts and selected rows in tables of cells for drag and drop
var graphHandlerStart = this.graphHandler.start;
this.graphHandler.start = function(cell, x, y, cells)
{
// Propagates to selected table row to start move
var ignoreParent = false;
if (this.graph.isTableCell(cell))
{
if (!this.graph.isCellSelected(cell))
{
cell = this.graph.model.getParent(cell);
}
else
{
ignoreParent = true;
}
}
if (!ignoreParent && (!this.graph.isTableRow(cell) || !this.graph.isCellSelected(cell)))
{
cell = this.graph.getCompositeParent(cell);
}
graphHandlerStart.apply(this, arguments);
};
// Handles parts of cells when cloning the source for new connections
this.connectionHandler.createTargetVertex = function(evt, source)
{
source = this.graph.getCompositeParent(source);
return mxConnectionHandler.prototype.createTargetVertex.apply(this, arguments);
};
// Applies newEdgeStyle
this.connectionHandler.insertEdge = function(parent, id, value, source, target, style)
{
var edge = mxConnectionHandler.prototype.insertEdge.apply(this, arguments);
if (source != null)
{
this.graph.applyNewEdgeStyle(source, [edge]);
}
return edge
};
// Creates rubberband selection and associates with graph instance
var rubberband = new mxRubberband(this);
this.getRubberband = function()
{
return rubberband;
};
// Timer-based activation of outline connect in connection handler
var startTime = new Date().getTime();
var timeOnTarget = 0;
var connectionHandlerMouseMove = this.connectionHandler.mouseMove;
this.connectionHandler.mouseMove = function()
{
var prev = this.currentState;
connectionHandlerMouseMove.apply(this, arguments);
if (prev != this.currentState)
{
startTime = new Date().getTime();
timeOnTarget = 0;
}
else
{
timeOnTarget = new Date().getTime() - startTime;
}
};
// Activates outline connect after 1500ms with touch event or if alt is pressed inside the shape
// outlineConnect=0 is a custom style that means do not connect to strokes inside the shape,
// or in other words, connect to the shape's perimeter if the highlight is under the mouse
// (the name is because the highlight, including all strokes, is called outline in the code)
var connectionHandleIsOutlineConnectEvent = this.connectionHandler.isOutlineConnectEvent;
this.connectionHandler.isOutlineConnectEvent = function(me)
{
if (mxEvent.isShiftDown(me.getEvent()) && mxEvent.isAltDown(me.getEvent()))
{
return false;
}
else
{
return (this.currentState != null && me.getState() == this.currentState && timeOnTarget > 2000) ||
((this.currentState == null || mxUtils.getValue(this.currentState.style, 'outlineConnect', '1') != '0') &&
connectionHandleIsOutlineConnectEvent.apply(this, arguments));
}
};
// Adds shift+click to toggle selection state
var isToggleEvent = this.isToggleEvent;
this.isToggleEvent = function(evt)
{
return isToggleEvent.apply(this, arguments) || (!mxClient.IS_CHROMEOS && mxEvent.isShiftDown(evt));
};
// Workaround for Firefox where first mouse down is received
// after tap and hold if scrollbars are visible, which means
// start rubberband immediately if no cell is under mouse.
var isForceRubberBandEvent = rubberband.isForceRubberbandEvent;
rubberband.isForceRubberbandEvent = function(me)
{
return isForceRubberBandEvent.apply(this, arguments) ||
(mxClient.IS_CHROMEOS && mxEvent.isShiftDown(me.getEvent())) ||
(mxUtils.hasScrollbars(this.graph.container) && mxClient.IS_FF &&
mxClient.IS_WIN && me.getState() == null && mxEvent.isTouchEvent(me.getEvent()));
};
// Shows hand cursor while panning
var prevCursor = null;
this.panningHandler.addListener(mxEvent.PAN_START, mxUtils.bind(this, function()
{
if (this.isEnabled())
{
prevCursor = this.container.style.cursor;
this.container.style.cursor = 'move';
}
}));
this.panningHandler.addListener(mxEvent.PAN_END, mxUtils.bind(this, function()
{
if (this.isEnabled())
{
this.container.style.cursor = prevCursor;
}
}));
this.popupMenuHandler.autoExpand = true;
this.popupMenuHandler.isSelectOnPopup = function(me)
{
return mxEvent.isMouseEvent(me.getEvent());
};
// Handles links in read-only graphs
// and cells in locked layers
var click = this.click;
this.click = function(me)
{
var locked = me.state == null && me.sourceState != null &&
this.isCellLocked(this.getLayerForCell(
me.sourceState.cell));
if ((!this.isEnabled() || locked) && !me.isConsumed())
{
var cell = (locked) ? me.sourceState.cell : me.getCell();
if (cell != null)
{
var link = this.getClickableLinkForCell(cell);
if (link != null)
{
if (this.isCustomLink(link))
{
this.customLinkClicked(link);
}
else
{
this.openLink(link);
}
}
}
}
else
{
return click.apply(this, arguments);
}
};
// Redirects tooltips for locked cells
this.tooltipHandler.getStateForEvent = function(me)
{
return me.sourceState;
};
// Opens links in tooltips in new windows
var tooltipHandlerShow = this.tooltipHandler.show;
this.tooltipHandler.show = function()
{
tooltipHandlerShow.apply(this, arguments);
if (this.div != null)
{
var links = this.div.getElementsByTagName('a');
for (var i = 0; i < links.length; i++)
{
if (links[i].getAttribute('href') != null &&
links[i].getAttribute('target') == null)
{
links[i].setAttribute('target', '_blank');
}
}
}
};
// Redirects tooltips for locked cells
this.tooltipHandler.getStateForEvent = function(me)
{
return me.sourceState;
};
// Redirects cursor for locked cells
var getCursorForMouseEvent = this.getCursorForMouseEvent;
this.getCursorForMouseEvent = function(me)
{
var locked = me.state == null && me.sourceState != null && this.isCellLocked(me.sourceState.cell);
return this.getCursorForCell((locked) ? me.sourceState.cell : me.getCell());
};
// Shows pointer cursor for clickable cells with links
// ie. if the graph is disabled and cells cannot be selected
var getCursorForCell = this.getCursorForCell;
this.getCursorForCell = function(cell)
{
if (!this.isEnabled() || this.isCellLocked(cell))
{
var link = this.getClickableLinkForCell(cell);
if (link != null)
{
return 'pointer';
}
else if (this.isCellLocked(cell))
{
return 'default';
}
}
return getCursorForCell.apply(this, arguments);
};
// Changes rubberband selection ignore locked cells
this.selectRegion = function(rect, evt)
{
var isect = (mxEvent.isAltDown(evt)) ? rect : null;
var cells = this.getCells(rect.x, rect.y,
rect.width, rect.height, null, null,
isect, null, true);
if (this.isToggleEvent(evt))
{
for (var i = 0; i < cells.length; i++)
{
this.selectCellForEvent(cells[i], evt);
}
}
else
{
this.selectCellsForEvent(cells, evt);
}
return cells;
};
// Never removes cells from parents that are being moved
var graphHandlerShouldRemoveCellsFromParent = this.graphHandler.shouldRemoveCellsFromParent;
this.graphHandler.shouldRemoveCellsFromParent = function(parent, cells, evt)
{
if (this.graph.isCellSelected(parent))
{
return false;
}
return graphHandlerShouldRemoveCellsFromParent.apply(this, arguments);
};
// Enables rubberband selection on cells in locked layers
var graphUpdateMouseEvent = this.updateMouseEvent;
this.updateMouseEvent = function(me)
{
me = graphUpdateMouseEvent.apply(this, arguments);
if (me.state != null && this.isCellLocked(this.getLayerForCell(me.getCell())))
{
me.state = null;
}
return me;
};
// Cells in locked layers are not selectable
var graphIsCellSelectable = this.isCellSelectable;
this.isCellSelectable = function(cell)
{
return graphIsCellSelectable.apply(this, arguments) &&
!this.isCellLocked(this.getLayerForCell(cell));
};
// Returns true if the given cell is locked
this.isCellLocked = function(cell)
{
while (cell != null)
{
if (mxUtils.getValue(this.getCurrentCellStyle(cell), 'locked', '0') == '1')
{
return true;
}
cell = this.model.getParent(cell);
}
return false;
};
var tapAndHoldSelection = null;
// Uses this event to process mouseDown to check the selection state before it is changed
this.addListener(mxEvent.FIRE_MOUSE_EVENT, mxUtils.bind(this, function(sender, evt)
{
if (evt.getProperty('eventName') == 'mouseDown')
{
var me = evt.getProperty('event');
var state = me.getState();
if (state != null && !this.isSelectionEmpty() && !this.isCellSelected(state.cell))
{
tapAndHoldSelection = this.getSelectionCells();
}
else
{
tapAndHoldSelection = null;
}
}
}));
// Tap and hold on background starts rubberband for multiple selected
// cells the cell associated with the event is deselected
this.addListener(mxEvent.TAP_AND_HOLD, mxUtils.bind(this, function(sender, evt)
{
if (!mxEvent.isMultiTouchEvent(evt))
{
var me = evt.getProperty('event');
var cell = evt.getProperty('cell');
if (cell == null)
{
var pt = mxUtils.convertPoint(this.container,
mxEvent.getClientX(me), mxEvent.getClientY(me));
rubberband.start(pt.x, pt.y);
}
else if (tapAndHoldSelection != null)
{
this.addSelectionCells(tapAndHoldSelection);
}
else if (this.getSelectionCount() > 1 && this.isCellSelected(cell))
{
this.removeSelectionCell(cell);
}
// Blocks further processing of the event
tapAndHoldSelection = null;
evt.consume();
}
}));
// On connect the target is selected and we clone the cell of the preview edge for insert
this.connectionHandler.selectCells = function(edge, target)
{
this.graph.setSelectionCell(target || edge);
};
// Shows connection points only if cell not selected and parent table not handled
this.connectionHandler.constraintHandler.isStateIgnored = function(state, source)
{
var graph = state.view.graph;
return source && (graph.isCellSelected(state.cell) || (graph.isTableRow(state.cell) &&
graph.selectionCellsHandler.isHandled(graph.model.getParent(state.cell))));
};
// Updates constraint handler if the selection changes
this.selectionModel.addListener(mxEvent.CHANGE, mxUtils.bind(this, function()
{
var ch = this.connectionHandler.constraintHandler;
if (ch.currentFocus != null && ch.isStateIgnored(ch.currentFocus, true))
{
ch.currentFocus = null;
ch.constraints = null;
ch.destroyIcons();
}
ch.destroyFocusHighlight();
}));
// Initializes touch interface
if (Graph.touchStyle)
{
this.initTouch();
}
}
//Create a unique offset object for each graph instance.
this.currentTranslate = new mxPoint(0, 0);
};
/**
* Specifies if the touch UI should be used (cannot detect touch in FF so always on for Windows/Linux)
*/
Graph.touchStyle = mxClient.IS_TOUCH || (mxClient.IS_FF && mxClient.IS_WIN) || navigator.maxTouchPoints > 0 ||
navigator.msMaxTouchPoints > 0 || window.urlParams == null || urlParams['touch'] == '1';
/**
* Shortcut for capability check.
*/
Graph.fileSupport = window.File != null && window.FileReader != null && window.FileList != null &&
(window.urlParams == null || urlParams['filesupport'] != '0');
/**
* Shortcut for capability check.
*/
Graph.translateDiagram = urlParams['translate-diagram'] == '1';
/**
* Shortcut for capability check.
*/
Graph.diagramLanguage = (urlParams['diagram-language'] != null) ? urlParams['diagram-language'] : mxClient.language;
/**
* Default size for line jumps.
*/
Graph.lineJumpsEnabled = true;
/**
* Default size for line jumps.
*/
Graph.defaultJumpSize = 6;
/**
* Specifies if the mouse wheel is used for zoom without any modifiers.
*/
Graph.zoomWheel = false;
/**
* Minimum width for table columns.
*/
Graph.minTableColumnWidth = 20;
/**
* Minimum height for table rows.
*/
Graph.minTableRowHeight = 20;
/**
* Text for foreign object warning.
*/
Graph.foreignObjectWarningText = 'Text is not SVG - cannot display';
/**
* Link for foreign object warning.
*/
Graph.foreignObjectWarningLink = 'https://www.drawio.com/doc/faq/svg-export-text-problems';
/**
*
*/
Graph.xmlDeclaration = '<?xml version="1.0" encoding="UTF-8"?>';
/**
*
*/
Graph.svgDoctype = '<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN" ' +
'"http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">';
/**
*
*/
Graph.svgFileComment = '<!-- Do not edit this file with editors other than draw.io -->'
/**
* Minimum height for table rows.
*/
Graph.pasteStyles = ['rounded', 'shadow', 'dashed', 'dashPattern', 'fontFamily', 'fontSource', 'fontSize', 'fontColor', 'fontStyle',
'align', 'verticalAlign', 'strokeColor', 'strokeWidth', 'fillColor', 'gradientColor', 'swimlaneFillColor',
'textOpacity', 'gradientDirection', 'glass', 'labelBackgroundColor', 'labelBorderColor', 'opacity',
'spacing', 'spacingTop', 'spacingLeft', 'spacingBottom', 'spacingRight', 'endFill', 'endArrow',
'endSize', 'targetPerimeterSpacing', 'startFill', 'startArrow', 'startSize', 'sourcePerimeterSpacing',
'arcSize', 'comic', 'sketch', 'fillWeight', 'hachureGap', 'hachureAngle', 'jiggle', 'disableMultiStroke',
'disableMultiStrokeFill', 'fillStyle', 'curveFitting', 'simplification', 'comicStyle'];
/**
* Whitelist for known layout names.
*/
Graph.layoutNames = ['mxHierarchicalLayout', 'mxCircleLayout', 'mxCompactTreeLayout',
'mxEdgeLabelLayout', 'mxFastOrganicLayout', 'mxParallelEdgeLayout',
'mxPartitionLayout', 'mxRadialTreeLayout', 'mxStackLayout'];
/**
* Creates a temporary graph instance for rendering off-screen content.
*/
Graph.createOffscreenGraph = function(stylesheet)
{
var graph = new Graph(document.createElement('div'));
graph.stylesheet.styles = mxUtils.clone(stylesheet.styles);
graph.resetViewOnRootChange = false;
graph.setConnectable(false);
graph.gridEnabled = false;
graph.autoScroll = false;
graph.setTooltips(false);
graph.setEnabled(false);
// Container must be in the DOM for correct HTML rendering
graph.container.style.visibility = 'hidden';
graph.container.style.position = 'absolute';
graph.container.style.overflow = 'hidden';
graph.container.style.height = '1px';
graph.container.style.width = '1px';
return graph;
};
/**
* Helper function for creating SVG data URI.
*/
Graph.createSvgImage = function(w, h, data, coordWidth, coordHeight)
{
var tmp = unescape(encodeURIComponent(Graph.svgDoctype +
'<svg xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" width="' + w + 'px" height="' + h + 'px" ' +
((coordWidth != null && coordHeight != null) ? 'viewBox="0 0 ' + coordWidth + ' ' + coordHeight + '" ' : '') +
'version="1.1">' + data + '</svg>'));
return new mxImage('data:image/svg+xml;base64,' + ((window.btoa) ? btoa(tmp) : Base64.encode(tmp, true)), w, h)
};
/**
* Helper function for creating an SVG node.
*/
Graph.createSvgNode = function(x, y, w, h, background)
{
var svgDoc = mxUtils.createXmlDocument();
var root = (svgDoc.createElementNS != null) ?
svgDoc.createElementNS(mxConstants.NS_SVG, 'svg') :
svgDoc.createElement('svg');
if (background != null)
{
if (root.style != null)
{
root.style.backgroundColor = background;
}
else
{
root.setAttribute('style', 'background-color:' + background);
}
}
if (svgDoc.createElementNS == null)
{
root.setAttribute('xmlns', mxConstants.NS_SVG);
root.setAttribute('xmlns:xlink', mxConstants.NS_XLINK);
}
else
{
// KNOWN: Ignored in IE9-11, adds namespace for each image element instead. No workaround.
root.setAttributeNS('http://www.w3.org/2000/xmlns/', 'xmlns:xlink', mxConstants.NS_XLINK);
}
root.setAttribute('version', '1.1');
root.setAttribute('width', w + 'px');
root.setAttribute('height', h + 'px');
root.setAttribute('viewBox', x + ' ' + y + ' ' + w + ' ' + h);
svgDoc.appendChild(root);
return root;
};
/**
* Helper function for creating an SVG node.
*/
Graph.htmlToPng = function(html, w, h, fn)
{
var canvas = document.createElement('canvas');
canvas.width = w;
canvas.height = h;
var img = document.createElement('img');
img.onload = mxUtils.bind(this, function()
{
var ctx = canvas.getContext('2d');
ctx.drawImage(img, 0, 0)
fn(canvas.toDataURL());
});
img.src = 'data:image/svg+xml,' + encodeURIComponent('<svg xmlns="http://www.w3.org/2000/svg" width="100" height="100">' +
'<foreignObject width="100%" height="100%"><div xmlns="http://www.w3.org/1999/xhtml"><style>em{color:red;}</style><em>I</em> lick <span>cheese</span></div></foreignObject></svg>');
};
/**
* Removes all illegal control characters with ASCII code <32 except TAB, LF
* and CR.
*/
Graph.zapGremlins = function(text)
{
var lastIndex = 0;
var checked = [];
for (var i = 0; i < text.length; i++)
{
var code = text.charCodeAt(i);
// Removes all control chars except TAB, LF and CR
if (!((code >= 32 || code == 9 || code == 10 || code == 13) &&
code != 0xFFFF && code != 0xFFFE))
{
checked.push(text.substring(lastIndex, i));
lastIndex = i + 1;
}
}
if (lastIndex > 0 && lastIndex < text.length)
{
checked.push(text.substring(lastIndex));
}
return (checked.length == 0) ? text : checked.join('');
};
/**
* Turns the given string into an array.
*/
Graph.stringToBytes = function(str)
{
var arr = new Array(str.length);
for (var i = 0; i < str.length; i++)
{
arr[i] = str.charCodeAt(i);
}
return arr;
};
/**
* Turns the given array into a string.
*/
Graph.bytesToString = function(arr)
{
var result = new Array(arr.length);
for (var i = 0; i < arr.length; i++)
{
result[i] = String.fromCharCode(arr[i]);
}
return result.join('');
};
/**
* Turns the given array into a string.
*/
Graph.base64EncodeUnicode = function(str)
{
return btoa(encodeURIComponent(str).replace(/%([0-9A-F]{2})/g, function(match, p1) {
return String.fromCharCode(parseInt(p1, 16))
}));
};
/**
* Turns the given array into a string.
*/
Graph.base64DecodeUnicode = function(str)
{
return decodeURIComponent(Array.prototype.map.call(atob(str), function(c) {
return '%' + ('00' + c.charCodeAt(0).toString(16)).slice(-2)
}).join(''));
};
/**
* Returns a base64 encoded version of the compressed outer XML of the given node.
*/
Graph.compressNode = function(node, checked)
{
var xml = mxUtils.getXml(node);
return Graph.compress((checked) ? xml : Graph.zapGremlins(xml));
};
/**
* Returns a string for the given array buffer.
*/
Graph.arrayBufferToString = function(buffer)
{
var binary = '';
var bytes = new Uint8Array(buffer);
var len = bytes.byteLength;
for (var i = 0; i < len; i++)
{
binary += String.fromCharCode(bytes[i]);
}
return binary;
};
/**
* Returns an array buffer for the given string.
*/
Graph.stringToArrayBuffer = function(data)
{
return Uint8Array.from(data, function (c)
{
return c.charCodeAt(0);
});
};
/**
* Returns index of a string in an array buffer (UInt8Array)
*/
Graph.arrayBufferIndexOfString = function (uint8Array, str, start)
{
var c0 = str.charCodeAt(0), j = 1, p = -1;
//Index of first char
for (var i = start || 0; i < uint8Array.byteLength; i++)
{
if (uint8Array[i] == c0)
{
p = i;
break;
}
}
for (var i = p + 1; p > -1 && i < uint8Array.byteLength && i < p + str.length - 1; i++)
{
if (uint8Array[i] != str.charCodeAt(j))
{
return Graph.arrayBufferIndexOfString(uint8Array, str, p + 1);
}
j++;
}
return j == str.length - 1? p : -1;
};
/**
* Returns a base64 encoded version of the compressed string.
*/
Graph.compress = function(data, deflate)
{
if (data == null || data.length == 0 || typeof(pako) === 'undefined')
{
return data;
}
else
{
var tmp = (deflate) ? pako.deflate(encodeURIComponent(data)) :
pako.deflateRaw(encodeURIComponent(data));
return btoa(Graph.arrayBufferToString(new Uint8Array(tmp)));
}
};
/**
* Returns a decompressed version of the base64 encoded string.
*/
Graph.decompress = function(data, inflate, checked)
{
if (data == null || data.length == 0 || typeof(pako) === 'undefined')
{
return data;
}
else
{
var tmp = Graph.stringToArrayBuffer(atob(data));
var inflated = decodeURIComponent((inflate) ?
pako.inflate(tmp, {to: 'string'}) :
pako.inflateRaw(tmp, {to: 'string'}));
return (checked) ? inflated : Graph.zapGremlins(inflated);
}
};
/**
* Fades the given nodes in or out.
*/
Graph.fadeNodes = function(nodes, start, end, done, delay)
{
delay = (delay != null) ? delay : 1000;
Graph.setTransitionForNodes(nodes, null);
Graph.setOpacityForNodes(nodes, start);
window.setTimeout(function()
{
Graph.setTransitionForNodes(nodes,
'all ' + delay + 'ms ease-in-out');
Graph.setOpacityForNodes(nodes, end);
window.setTimeout(function()
{
Graph.setTransitionForNodes(nodes, null);
if (done != null)
{
done();
}
}, delay);
}, 0);
};
/**
* Removes the elements from the map where the given function returns true.
*/
Graph.removeKeys = function(map, ignoreFn)
{
for (var key in map)
{
if (ignoreFn(key))
{
delete map[key];
}
}
};
/**
* Sets the transition for the given nodes.
*/
Graph.setTransitionForNodes = function(nodes, transition)
{
for (var i = 0; i < nodes.length; i++)
{
mxUtils.setPrefixedStyle(nodes[i].style, 'transition', transition);
}
};
/**
* Sets the opacity for the given nodes.
*/
Graph.setOpacityForNodes = function(nodes, opacity)
{
for (var i = 0; i < nodes.length; i++)
{
nodes[i].style.opacity = opacity;
}
};
/**
* Removes formatting from pasted HTML.
*/
Graph.removePasteFormatting = function(elt, ignoreTabs)
{
while (elt != null)
{
if (elt.firstChild != null)
{
Graph.removePasteFormatting(elt.firstChild, true);
}
var next = elt.nextSibling;
if (elt.nodeType == mxConstants.NODETYPE_ELEMENT && elt.style != null)
{
elt.style.whiteSpace = '';
if (elt.style.color == '#000000')
{
elt.style.color = '';
}
// Replaces tabs from macOS TextEdit
if (elt.nodeName == 'SPAN' && elt.className == 'Apple-tab-span')
{
var temp = Graph.createTabNode(4);
elt.parentNode.replaceChild(temp, elt);
elt = temp;
}
// Replaces paragraphs from macOS TextEdit
if (elt.nodeName == 'P' && elt.className == 'p1')
{
while (elt.firstChild != null)
{
elt.parentNode.insertBefore(elt.firstChild, elt);
}
if (next != null && next.nodeName == 'P' &&
next.className == 'p1')
{
elt.parentNode.insertBefore(elt.ownerDocument.
createElement('br'), elt);
}
elt.parentNode.removeChild(elt);
}
// Replaces tabs
if (!ignoreTabs && elt.innerHTML != null)
{
var tabNode = Graph.createTabNode(4);
elt.innerHTML = elt.innerHTML.replace(/\t/g,
tabNode.outerHTML);
}
}
elt = next;
}
};
/**
* Removes formatting from pasted HTML.
*/
Graph.createTabNode = function(spaces)
{
var str = '\t';
if (spaces != null)
{
str = '';
while (spaces > 0)
{
str += '\xa0';
spaces--;
}
}
// LATER: Fix normalized tab after editing plain text labels
var tabNode = document.createElement('span');
tabNode.style.whiteSpace = 'pre';
tabNode.appendChild(document.createTextNode(str));
return tabNode;
};
/**
* Sanitizes the given HTML markup, allowing target attributes and
* data: protocol links to pages and custom actions.
*/
Graph.sanitizeHtml = function(value, editing)
{
return Graph.domPurify(value, false);
};
/**
* Returns the size of the page format scaled with the page size.
*/
Graph.sanitizeLink = function(href)
{
if (href == null)
{
return null;
}
else
{
var a = document.createElement('a');
a.setAttribute('href', href);
Graph.sanitizeNode(a);
return a.getAttribute('href');
}
};
/**
* Sanitizes the given DOM node in-place.
*/
Graph.sanitizeNode = function(value)
{
return Graph.domPurify(value, true);
};
// Allows use tag in SVG with local references only
DOMPurify.addHook('afterSanitizeAttributes', function(node)
{
if (node.nodeName == 'use' && ((node.getAttribute('xlink:href') != null &&
!node.getAttribute('xlink:href').startsWith('#')) ||
(node.getAttribute('href') != null && !node.getAttribute('href').startsWith('#'))))
{
node.remove();
}
});
// Workaround for removed content with empty nodes
DOMPurify.addHook('uponSanitizeAttribute', function (node, evt)
{
if (node.nodeName == 'svg' && evt.attrName == 'content')
{
evt.forceKeepAttr = true;
}
return node;
});
/**
* Sanitizes the given value.
*/
Graph.domPurify = function(value, inPlace)
{
window.DOM_PURIFY_CONFIG.IN_PLACE = inPlace;
return DOMPurify.sanitize(value, window.DOM_PURIFY_CONFIG);
};
/**
* Updates the viewbox, width and height in the given SVG data URI
* and returns the updated data URI with all script tags and event
* handlers removed.
*/
Graph.clipSvgDataUri = function(dataUri, ignorePreserveAspect)
{
// LATER Add workaround for non-default NS declarations with empty URI not allowed in IE11
if (!mxClient.IS_IE && !mxClient.IS_IE11 && dataUri != null &&
dataUri.substring(0, 26) == 'data:image/svg+xml;base64,')
{
try
{
var div = document.createElement('div');
div.style.position = 'absolute';
div.style.visibility = 'hidden';
// Adds the text and inserts into DOM for updating of size
var data = decodeURIComponent(escape(atob(dataUri.substring(26))));
var idx = data.indexOf('<svg');
if (idx >= 0)
{
// Strips leading XML declaration and doctypes
div.innerHTML = Graph.sanitizeHtml(data.substring(idx));
// Gets the size and removes from DOM
var svgs = div.getElementsByTagName('svg');
if (svgs.length > 0)
{
// Avoids getBBox as it ignores stroke option
if (ignorePreserveAspect || svgs[0].getAttribute('preserveAspectRatio') != null)
{
document.body.appendChild(div);
try
{
var fx = 1;
var fy = 1;
var w = svgs[0].getAttribute('width');
var h = svgs[0].getAttribute('height');
if (w != null && w.charAt(w.length - 1) != '%')
{
w = parseFloat(w);
}
else
{
w = NaN;
}
if (h != null && h.charAt(h.length - 1) != '%')
{
h = parseFloat(h);
}
else
{
h = NaN;
}
var vb = svgs[0].getAttribute('viewBox');
if (vb != null && !isNaN(w) && !isNaN(h))
{
var tokens = vb.split(' ');
if (vb.length >= 4)
{
fx = parseFloat(tokens[2]) / w;
fy = parseFloat(tokens[3]) / h;
}
}
var size = svgs[0].getBBox();
if (size.width > 0 && size.height > 0)
{
div.getElementsByTagName('svg')[0].setAttribute('viewBox', size.x +
' ' + size.y + ' ' + size.width + ' ' + size.height);
div.getElementsByTagName('svg')[0].setAttribute('width', size.width / fx);
div.getElementsByTagName('svg')[0].setAttribute('height', size.height / fy);
}
}
catch (e)
{
// ignore
}
finally
{
document.body.removeChild(div);
}
}
dataUri = Editor.createSvgDataUri(mxUtils.getXml(svgs[0]));
}
}
}
catch (e)
{
// ignore
}
}
return dataUri;
};
/**
* Returns the CSS font family from the given computed style.
*/
Graph.stripQuotes = function(text)
{
if (text != null)
{
if (text.charAt(0) == '\'')
{
text = text.substring(1);
}
if (text.charAt(text.length - 1) == '\'')
{
text = text.substring(0, text.length - 1);
}
if (text.charAt(0) == '"')
{
text = text.substring(1);
}
if (text.charAt(text.length - 1) == '"')
{
text = text.substring(0, text.length - 1);
}
}
return text;
};
/**
* Create remove icon.
*/
Graph.createRemoveIcon = function(title, onclick)
{
var removeLink = document.createElement('img');
removeLink.setAttribute('src', Dialog.prototype.clearImage);
removeLink.setAttribute('title', title);
removeLink.setAttribute('width', '13');
removeLink.setAttribute('height', '10');
removeLink.style.marginLeft = '4px';
removeLink.style.marginBottom = '-1px';
removeLink.style.cursor = 'pointer';
mxEvent.addListener(removeLink, 'click', onclick);
return removeLink;
};
/**
* Returns true if the given string is a page link.
*/
Graph.isPageLink = function(text)
{
return text != null && text.substring(0, 13) == 'data:page/id,';
};
/**
* Returns true if the given string is a page link.
*/
Graph.rewritePageLinks = function(doc)
{
var links = doc.getElementsByTagName('a');
function rewriteLink(link, attrib)
{
var href = link.getAttribute(attrib);
if (href != null && Graph.isPageLink(href))
{
link.setAttribute(attrib, '#' + href.substring(href.indexOf(':') + 1));
}
};
for (var i = 0; i < links.length; i++)
{
rewriteLink(links[i], 'href');
rewriteLink(links[i], 'xlink:href');
}
};
/**
* Returns true if the given string is a link.
*
* See https://stackoverflow.com/questions/5717093/check-if-a-javascript-string-is-a-url
*/
Graph.isLink = function(text)
{
return text != null && Graph.linkPattern.test(text);
};
/**
* Regular expression for links.
*/
Graph.linkPattern = new RegExp('^(https?:\\/\\/)?'+ // protocol
'((([a-z\\d]([a-z\\d-]*[a-z\\d])*)\\.)+[a-z]{2,}|'+ // domain name
'((\\d{1,3}\\.){3}\\d{1,3}))'+ // OR ip (v4) address
'(\\:\\d+)?(\\/[-a-z\\d%_.~+]*)*'+ // port and path
'(\\?[;&a-z\\d%_.~+=-]*)?'+ // query string
'(\\#[-a-z\\d_]*)?$','i'); // fragment locator
/**
* Graph inherits from mxGraph.
*/
mxUtils.extend(Graph, mxGraph);
/**
* Allows all values in fit.
*/
Graph.prototype.minFitScale = null;
/**
* Allows all values in fit.
*/
Graph.prototype.maxFitScale = null;
/**
* Sets the policy for links. Possible values are "self" to replace any framesets,
* "blank" to load the URL in <linkTarget> and "auto" (default).
*/
Graph.prototype.linkPolicy = (urlParams['target'] == 'frame') ? 'blank' : (urlParams['target'] || 'auto');
/**
* Target for links that open in a new window. Default is _blank.
*/
Graph.prototype.linkTarget = (urlParams['target'] == 'frame') ? '_self' : '_blank';
/**
* Value to the rel attribute of links. Default is 'nofollow noopener noreferrer'.
* NOTE: There are security implications when this is changed and if noopener is removed,
* then <openLink> must be overridden to allow for the opener to be set by default.
*/
Graph.prototype.linkRelation = 'nofollow noopener noreferrer';
/**
* Scrollbars setting is overriden in the editor, but not in the viewer.
*/
Graph.prototype.defaultScrollbars = true;
/**
* Specifies if the page should be visible for new files. Default is true.
*/
Graph.prototype.defaultPageVisible = true;
/**
* Specifies if the page should be visible for new files. Default is true.
*/
Graph.prototype.defaultGridEnabled = urlParams['grid'] != '0';
/**
* Specifies if the app should run in chromeless mode. Default is false.
* This default is only used if the contructor argument is null.
*/
Graph.prototype.lightbox = false;
/**
*
*/
Graph.prototype.defaultPageBackgroundColor = '#ffffff';
/**
*
*/
Graph.prototype.diagramBackgroundColor = '#f0f0f0';
/**
* Whether to use diagramBackgroundColor for no page views.
*/
Graph.prototype.enableDiagramBackground = false;
/**
*
*/
Graph.prototype.defaultPageBorderColor = '#ffffff';
/**
*
*/
Graph.prototype.shapeForegroundColor = '#000000';
/**
*
*/
Graph.prototype.shapeBackgroundColor = '#ffffff';
/**
* Specifies the size of the size for "tiles" to be used for a graph with
* scrollbars but no visible background page. A good value is large
* enough to reduce the number of repaints that is caused for auto-
* translation, which depends on this value, and small enough to give
* a small empty buffer around the graph. Default is 400x400.
*/
Graph.prototype.scrollTileSize = new mxRectangle(0, 0, 400, 400);
/**
* Overrides the background color and paints a transparent background.
*/
Graph.prototype.transparentBackground = true;
/**
* Sets global constants.
*/
Graph.prototype.selectParentAfterDelete = false;
/**
* Sets the default target for all links in cells.
*/
Graph.prototype.defaultEdgeLength = 80;
/**
* Enables activation of special handles on unselected cells.
*/
Graph.prototype.immediateHandling = true;
/**
* Allows all values in fit.
*/
Graph.prototype.connectionArrowsEnabled = true;
/**
* Specifies the regular expression for matching placeholders.
*/
Graph.prototype.placeholderPattern = new RegExp('%(date\{.*\}|[^%^\{^\}^ ^"^ \'^=^;]+)%', 'g');
/**
* Specifies the regular expression for matching placeholders.
*/
Graph.prototype.absoluteUrlPattern = new RegExp('^(?:[a-z]+:)?//', 'i');
/**
* Specifies the default name for the theme. Default is 'default'.
*/
Graph.prototype.defaultThemeName = 'default';
/**
* Specifies the default name for the theme. Default is 'default'.
*/
Graph.prototype.defaultThemes = {};
/**
* Base URL for relative links.
*/
Graph.prototype.baseUrl = (urlParams['base'] != null) ?
decodeURIComponent(urlParams['base']) :
(((window != window.top) ? document.referrer :
document.location.toString()).split('#')[0]);
/**
* Specifies if the label should be edited after an insert.
*/
Graph.prototype.editAfterInsert = false;
/**
* Defines the built-in properties to be ignored in tooltips.
*/
Graph.prototype.builtInProperties = ['label', 'tooltip', 'placeholders', 'placeholder'];
/**
* Defines if the graph is part of an EditorUi. If this is false the graph can
* be used in an EditorUi instance but will not have a UI added, functions
* overridden or event handlers added.
*/
Graph.prototype.standalone = false;
/**
* Enables move of bends/segments without selecting.
*/
Graph.prototype.enableFlowAnimation = false;
/**
* Background color for inactive tabs.
*/
Graph.prototype.roundableShapes = ['label', 'rectangle', 'internalStorage', 'corner',
'parallelogram', 'swimlane', 'triangle', 'trapezoid', 'ext', 'step', 'tee', 'process',
'link', 'rhombus', 'offPageConnector', 'loopLimit', 'hexagon', 'manualInput', 'card',
'curlyBracket', 'singleArrow', 'callout', 'doubleArrow', 'flexArrow', 'umlLifeline'];
/**
* Installs child layout styles.
*/
Graph.prototype.init = function(container)
{
mxGraph.prototype.init.apply(this, arguments);
// Intercepts links with no target attribute and opens in new window
this.cellRenderer.initializeLabel = function(state, shape)
{
mxCellRenderer.prototype.initializeLabel.apply(this, arguments);
// Checks tolerance for clicks on links
var tol = state.view.graph.tolerance;
var handleClick = true;
var first = null;
var down = mxUtils.bind(this, function(evt)
{
handleClick = true;
first = new mxPoint(mxEvent.getClientX(evt), mxEvent.getClientY(evt));
});
var move = mxUtils.bind(this, function(evt)
{
handleClick = handleClick && first != null &&
Math.abs(first.x - mxEvent.getClientX(evt)) < tol &&
Math.abs(first.y - mxEvent.getClientY(evt)) < tol;
});
var up = mxUtils.bind(this, function(evt)
{
if (handleClick)
{
var elt = mxEvent.getSource(evt)
while (elt != null && elt != shape.node)
{
if (elt.nodeName.toLowerCase() == 'a')
{
state.view.graph.labelLinkClicked(state, elt, evt);
break;
}
elt = elt.parentNode;
}
}
});
mxEvent.addGestureListeners(shape.node, down, move, up);
mxEvent.addListener(shape.node, 'click', function(evt)
{
mxEvent.consume(evt);
});
};
// Handles custom links in tooltips
if (this.tooltipHandler != null)
{
var tooltipHandlerInit = this.tooltipHandler.init;
this.tooltipHandler.init = function()
{
tooltipHandlerInit.apply(this, arguments);
if (this.div != null)
{
mxEvent.addListener(this.div, 'click', mxUtils.bind(this, function(evt)
{
var source = mxEvent.getSource(evt);
if (source.nodeName == 'A')
{
var href = source.getAttribute('href');
if (href != null && this.graph.isCustomLink(href) &&
(mxEvent.isTouchEvent(evt) || !mxEvent.isPopupTrigger(evt)) &&
this.graph.customLinkClicked(href))
{
mxEvent.consume(evt);
}
}
}));
}
};
}
// Adds or updates CSS for flowAnimation style
this.addListener(mxEvent.SIZE, mxUtils.bind(this, function(sender, evt)
{
if (this.container != null && this.flowAnimationStyle)
{
var id = this.flowAnimationStyle.getAttribute('id');
this.flowAnimationStyle.innerHTML = this.getFlowAnimationStyleCss(id);
}
}));
this.initLayoutManager();
};
/**
* Implements zoom and offset via CSS transforms. This is currently only used
* in read-only as there are fewer issues with the mxCellState not being scaled
* and translated.
*
* KNOWN ISSUES TO FIX:
* - Apply CSS transforms to HTML labels in IE11
*/
(function()
{
/**
* Uses CSS transforms for scale and translate.
*/
Graph.prototype.useCssTransforms = false;
/**
* Contains the scale.
*/
Graph.prototype.currentScale = 1;
/**
* Contains the offset.
*/
Graph.prototype.currentTranslate = new mxPoint(0, 0);
/**
* Returns information about the current selection.
*/
Graph.prototype.isFillState = function(state)
{
return !this.isSpecialColor(state.style[mxConstants.STYLE_FILLCOLOR]) &&
mxUtils.getValue(state.style, 'lineShape', null) != '1' &&
(this.model.isVertex(state.cell) ||
mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null) == 'arrow' ||
mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null) == 'wire' ||
mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null) == 'filledEdge' ||
mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null) == 'flexArrow' ||
mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null) == 'mxgraph.arrows2.wedgeArrow');
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isGradientState = function(state)
{
return this.isFillState(state) && mxUtils.getValue(state.style,
mxConstants.STYLE_SHAPE, null) != 'wire';
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isStrokeState = function(state)
{
return true;
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isSpecialColor = function(color)
{
return mxUtils.indexOf([mxConstants.STYLE_STROKECOLOR,
mxConstants.STYLE_FILLCOLOR, 'inherit', 'swimlane',
'indicated'], color) >= 0;
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isGlassState = function(state)
{
var shape = mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null);
return (shape == 'label' || shape == 'rectangle' || shape == 'internalStorage' ||
shape == 'ext' || shape == 'umlLifeline' || shape == 'swimlane' ||
shape == 'process');
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isRoundedState = function(state)
{
return (state.shape != null) ? state.shape.isRoundable() :
mxUtils.indexOf(this.roundableShapes, mxUtils.getValue(state.style,
mxConstants.STYLE_SHAPE, null)) >= 0;
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isLineJumpState = function(state)
{
var shape = mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null);
var curved = mxUtils.getValue(state.style, mxConstants.STYLE_CURVED, false);
return !curved && (shape == 'connector' || shape == 'filledEdge' || shape == 'wire');
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isAutoSizeState = function(state)
{
return mxUtils.getValue(state.style, mxConstants.STYLE_AUTOSIZE, null) == '1';
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isImageState = function(state)
{
return mxUtils.getValue(state.style, mxConstants.STYLE_IMAGE, null) != null;
};
/**
* Returns information about the current selection.
*/
Graph.prototype.isShadowState = function(state)
{
var shape = mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null);
return (shape != 'image');
};
/**
*
*/
Graph.prototype.getVerticesAndEdges = function(vertices, edges)
{
vertices = (vertices != null) ? vertices : true;
edges = (edges != null) ? edges : true;
var model = this.model;
return model.filterDescendants(function(cell)
{
return (vertices && model.isVertex(cell)) || (edges && model.isEdge(cell));
}, model.getRoot());
};
/**
* Returns information about the current selection.
*/
Graph.prototype.applyNewEdgeStyle = function(source, edges, dir)
{
var style = this.getCellStyle(source);
var temp = style['newEdgeStyle'];
if (temp != null)
{
this.model.beginUpdate();
try
{
var styles = JSON.parse(temp);
for (var key in styles)
{
this.setCellStyles(key, styles[key], edges);
// Sets elbow direction
if (key == 'edgeStyle' && styles[key] == 'elbowEdgeStyle' && dir != null)
{
this.setCellStyles('elbow', (dir == mxConstants.DIRECTION_SOUTH ||
dir == mxConstants.DIRECTION_NOTH) ? 'vertical' : 'horizontal',
edges);
}
}
}
finally
{
this.model.endUpdate();
}
}
};
/**
* Returns information about the current selection.
*/
Graph.prototype.getCommonStyle = function(cells)
{
var style = {};
for (var i = 0; i < cells.length; i++)
{
var state = this.view.getState(cells[i]);
if (state != null)
{
this.mergeStyle(state.style, style, i == 0);
}
}
return style;
};
/**
* Returns information about the current selection.
*/
Graph.prototype.mergeStyle = function(style, into, initial)
{
if (style != null)
{
var keys = {};
for (var key in style)
{
var value = style[key];
if (value != null)
{
keys[key] = true;
if (into[key] == null && initial)
{
into[key] = value;
}
else if (into[key] != value)
{
delete into[key];
}
}
}
for (var key in into)
{
if (!keys[key])
{
delete into[key];
}
}
}
};
/**
* Returns the cell for editing the given cell.
*/
Graph.prototype.getStartEditingCell = function(cell, trigger)
{
// Redirect editing for tables
var style = this.getCellStyle(cell);
var size = parseInt(mxUtils.getValue(style, mxConstants.STYLE_STARTSIZE, 0));
if (this.isTable(cell) && (!this.isSwimlane(cell) ||
size == 0) && this.getLabel(cell) == '' &&
this.model.getChildCount(cell) > 0)
{
cell = this.model.getChildAt(cell, 0);
style = this.getCellStyle(cell);
size = parseInt(mxUtils.getValue(style, mxConstants.STYLE_STARTSIZE, 0));
}
// Redirect editing for table rows
if (this.isTableRow(cell) && (!this.isSwimlane(cell) ||
size == 0) && this.getLabel(cell) == '' &&
this.model.getChildCount(cell) > 0)
{
for (var i = 0; i < this.model.getChildCount(cell); i++)
{
var temp = this.model.getChildAt(cell, i);
if (this.isCellEditable(temp))
{
cell = temp;
break;
}
}
}
return cell;
};
/**
* Returns the style of the given cell as an object.
*/
Graph.prototype.copyStyle = function(cell)
{
return this.getCellStyle(cell, false);
};
/**
* Returns true if fast zoom preview should be used.
*/
Graph.prototype.pasteStyle = function(style, cells, keys)
{
keys = (keys != null) ? keys : Graph.pasteStyles;
Graph.removeKeys(style, function(key)
{
return mxUtils.indexOf(keys, key) < 0;
});
this.updateCellStyles(style, cells);
};
/**
* Removes implicit styles from cell styles so that dark mode works using the
* default values from the stylesheet.
*/
Graph.prototype.updateCellStyles = function(style, cells)
{
this.model.beginUpdate();
try
{
for (var i = 0; i < cells.length; i++)
{
if (this.model.isVertex(cells[i]) || this.model.isEdge(cells[i]))
{
var cellStyle = this.getCellStyle(cells[i], false);
var perimeter = cellStyle[mxConstants.STYLE_PERIMETER];
var restorePerimeter = false;
for (var key in style)
{
var value = style[key];
if (cellStyle[key] != value)
{
// Handles paste of shape to UML lifeline
if (key == mxConstants.STYLE_SHAPE &&
cellStyle[key] == 'umlLifeline' &&
value != 'umlLifeline')
{
restorePerimeter = true;
key = 'participant';
}
this.setCellStyles(key, value, [cells[i]]);
}
}
if (restorePerimeter)
{
this.setCellStyles(mxConstants.STYLE_PERIMETER, perimeter, [cells[i]]);
}
}
}
}
finally
{
this.model.endUpdate();
}
};
/**
* Returns true if fast zoom preview should be used.
*/
Graph.prototype.isFastZoomEnabled = function()
{
return urlParams['zoom'] != 'nocss' && !mxClient.NO_FO && !mxClient.IS_EDGE &&
!this.useCssTransforms && (this.isCssTransformsSupported() || mxClient.IS_IOS);
};
/**
* Only foreignObject supported for now (no IE11). Safari disabled as it ignores
* overflow visible on foreignObject in negative space (lightbox and viewer).
* Check the following test case on page 1 before enabling this in production:
* https://devhost.jgraph.com/git/drawio/etc/embed/sf-math-fo-clipping.html?dev=1
*/
Graph.prototype.isCssTransformsSupported = function()
{
return this.dialect == mxConstants.DIALECT_SVG && !mxClient.NO_FO &&
(!this.lightbox || !mxClient.IS_SF);
};
/**
* Function: getCellAt
*
* Needs to modify original method for recursive call.
*/
Graph.prototype.getCellAt = function(x, y, parent, vertices, edges, ignoreFn)
{
if (this.useCssTransforms)
{
x = x / this.currentScale - this.currentTranslate.x;
y = y / this.currentScale - this.currentTranslate.y;
}
return this.getScaledCellAt.apply(this, arguments);
};
/**
* Function: getScaledCellAt
*
* Overridden for recursion.
*/
Graph.prototype.getScaledCellAt = function(x, y, parent, vertices, edges, ignoreFn)
{
vertices = (vertices != null) ? vertices : true;
edges = (edges != null) ? edges : true;
if (parent == null)
{
parent = this.getCurrentRoot();
if (parent == null)
{
parent = this.getModel().getRoot();
}
}
if (parent != null)
{
var childCount = this.model.getChildCount(parent);
for (var i = childCount - 1; i >= 0; i--)
{
var cell = this.model.getChildAt(parent, i);
var result = this.getScaledCellAt(x, y, cell, vertices, edges, ignoreFn);
if (result != null)
{
return result;
}
else if (this.isCellVisible(cell) && (edges && this.model.isEdge(cell) ||
vertices && this.model.isVertex(cell)))
{
var state = this.view.getState(cell);
if (state != null && (ignoreFn == null || !ignoreFn(state, x, y)) &&
this.intersects(state, x, y))
{
return cell;
}
}
}
}
return null;
};
/**
* Returns if the child cells of the given vertex cell state should be resized.
*/
Graph.prototype.isRecursiveVertexResize = function(state)
{
return !this.isSwimlane(state.cell) && this.model.getChildCount(state.cell) > 0 &&
!this.isCellCollapsed(state.cell) && mxUtils.getValue(state.style, 'recursiveResize', '1') == '1' &&
mxUtils.getValue(state.style, 'childLayout', null) == null;
}
/**
* Returns the first parent with an absolute or no geometry.
*/
Graph.prototype.getAbsoluteParent = function(cell)
{
var result = cell;
var geo = this.getCellGeometry(result);
while (geo != null && geo.relative)
{
result = this.getModel().getParent(result);
geo = this.getCellGeometry(result);
}
return result;
};
/**
* Returns the first parent that is not a part.
*/
Graph.prototype.isPart = function(cell)
{
return mxUtils.getValue(this.getCurrentCellStyle(cell), 'part', '0') == '1' ||
this.isTableCell(cell) || this.isTableRow(cell);
};
/**
* Returns the first parent that is not a part.
*/
Graph.prototype.getCompositeParents = function(cells)
{
var lookup = new mxDictionary();
var newCells = [];
for (var i = 0; i < cells.length; i++)
{
var cell = this.getCompositeParent(cells[i]);
if (this.isTableCell(cell))
{
cell = this.graph.model.getParent(cell);
}
if (this.isTableRow(cell))
{
cell = this.graph.model.getParent(cell);
}
if (cell != null && !lookup.get(cell))
{
lookup.put(cell, true);
newCells.push(cell);
}
}
return newCells;
};
/**
* Returns the given terminal that is not relative, an edge or a part.
*/
Graph.prototype.getReferenceTerminal = function(terminal)
{
if (terminal != null)
{
var geo = this.getCellGeometry(terminal);
if (geo != null && geo.relative)
{
terminal = this.model.getParent(terminal);
}
}
if (terminal != null && this.model.isEdge(terminal))
{
terminal = this.model.getParent(terminal);
}
if (terminal != null)
{
terminal = this.getCompositeParent(terminal);
}
return terminal;
};
/**
* Returns the first parent that is not a part.
*/
Graph.prototype.getCompositeParent = function(cell)
{
while (this.isPart(cell))
{
var temp = this.model.getParent(cell);
if (!this.model.isVertex(temp))
{
break;
}
cell = temp;
}
return cell;
};
/**
* Returns the selection cells where the given function returns false.
*/
Graph.prototype.filterSelectionCells = function(ignoreFn)
{
var cells = this.getSelectionCells();
if (ignoreFn != null)
{
var temp = [];
for (var i = 0; i < cells.length; i++)
{
if (!ignoreFn(cells[i]))
{
temp.push(cells[i]);
}
}
cells = temp;
}
return cells;
};
/**
* Overrides scrollRectToVisible to fix ignored transform.
*/
var graphScrollRectToVisible = mxGraph.prototype.scrollRectToVisible;
Graph.prototype.scrollRectToVisible = function(r)
{
if (this.useCssTransforms)
{
var s = this.currentScale;
var t = this.currentTranslate;
r = new mxRectangle((r.x + 2 * t.x) * s - t.x,
(r.y + 2 * t.y) * s - t.y,
r.width * s, r.height * s);
}
graphScrollRectToVisible.apply(this, arguments);
};
/**
* Function: repaint
*
* Updates the highlight after a change of the model or view.
*/
mxCellHighlight.prototype.getStrokeWidth = function(state)
{
var s = this.strokeWidth;
if (this.graph.useCssTransforms)
{
s /= this.graph.currentScale;
}
return s;
};
/**
* Function: getGraphBounds
*
* Overrides getGraphBounds to use bounding box from SVG.
*/
mxGraphView.prototype.getGraphBounds = function()
{
var b = this.graphBounds;
if (this.graph.useCssTransforms)
{
var t = this.graph.currentTranslate;
var s = this.graph.currentScale;
b = new mxRectangle(
(b.x + t.x) * s, (b.y + t.y) * s,
b.width * s, b.height * s);
}
return b;
};
/**
* Overrides to bypass full cell tree validation.
* TODO: Check if this improves performance
*/
mxGraphView.prototype.viewStateChanged = function()
{
if (this.graph.useCssTransforms)
{
this.validate();
this.graph.sizeDidChange();
}
else
{
this.revalidate();
this.graph.sizeDidChange();
}
};
/**
* Overrides validate to normalize validation view state and pass
* current state to CSS transform.
*/
var graphViewValidate = mxGraphView.prototype.validate;
mxGraphView.prototype.validate = function(cell)
{
if (this.graph.useCssTransforms)
{
this.graph.currentScale = this.scale;
this.graph.currentTranslate.x = this.translate.x;
this.graph.currentTranslate.y = this.translate.y;
this.scale = 1;
this.translate.x = 0;
this.translate.y = 0;
}
graphViewValidate.apply(this, arguments);
if (this.graph.useCssTransforms)
{
this.graph.updateCssTransform();
this.scale = this.graph.currentScale;
this.translate.x = this.graph.currentTranslate.x;
this.translate.y = this.graph.currentTranslate.y;
}
};
/**
* Overrides function to exclude table cells and rows from groups.
*/
var graphGetCellsForGroup = mxGraph.prototype.getCellsForGroup;
Graph.prototype.getCellsForGroup = function(cells)
{
cells = graphGetCellsForGroup.apply(this, arguments);
var result = [];
// Filters selection cells with the same parent
for (var i = 0; i < cells.length; i++)
{
if (!this.isTableRow(cells[i]) &&
!this.isTableCell(cells[i]))
{
result.push(cells[i]);
}
}
return result;
};
/**
* Overrides function to exclude tables, rows and cells from ungrouping.
*/
var graphGetCellsForUngroup = mxGraph.prototype.getCellsForUngroup;
Graph.prototype.getCellsForUngroup = function(cells)
{
cells = graphGetCellsForUngroup.apply(this, arguments);
var result = [];
// Filters selection cells with the same parent
for (var i = 0; i < cells.length; i++)
{
if (!this.isTable(cells[i]) &&
!this.isTableRow(cells[i]) &&
!this.isTableCell(cells[i]))
{
result.push(cells[i]);
}
}
return result;
};
/**
* Function: updateCssTransform
*
* Zooms out of the graph by <zoomFactor>.
*/
Graph.prototype.updateCssTransform = function()
{
var temp = this.view.getDrawPane();
if (temp != null)
{
var g = temp.parentNode;
if (!this.useCssTransforms)
{
g.removeAttribute('transformOrigin');
g.removeAttribute('transform');
}
else
{
var prev = g.getAttribute('transform');
g.setAttribute('transformOrigin', '0 0');
var s = Math.round(this.currentScale * 100) / 100;
var dx = Math.round(this.currentTranslate.x * 100) / 100;
var dy = Math.round(this.currentTranslate.y * 100) / 100;
g.setAttribute('transform', 'scale(' + s + ',' + s + ')' +
'translate(' + dx + ',' + dy + ')');
// Applies workarounds only if translate has changed
if (prev != g.getAttribute('transform'))
{
this.fireEvent(new mxEventObject('cssTransformChanged'),
'transform', g.getAttribute('transform'));
}
}
}
};
var graphViewValidateBackgroundPage = mxGraphView.prototype.validateBackgroundPage;
mxGraphView.prototype.validateBackgroundPage = function()
{
var useCssTranforms = this.graph.useCssTransforms, scale = this.scale,
translate = this.translate;
if (useCssTranforms)
{
this.scale = this.graph.currentScale;
this.translate = this.graph.currentTranslate;
}
graphViewValidateBackgroundPage.apply(this, arguments);
if (useCssTranforms)
{
this.scale = scale;
this.translate = translate;
}
};
var graphUpdatePageBreaks = mxGraph.prototype.updatePageBreaks;
mxGraph.prototype.updatePageBreaks = function(visible, width, height)
{
var useCssTranforms = this.useCssTransforms, scale = this.view.scale,
translate = this.view.translate;
if (useCssTranforms)
{
this.view.scale = 1;
this.view.translate = new mxPoint(0, 0);
this.useCssTransforms = false;
}
graphUpdatePageBreaks.apply(this, arguments);
if (useCssTranforms)
{
this.view.scale = scale;
this.view.translate = translate;
this.useCssTransforms = true;
}
};
})();
/**
* Sets the XML node for the current diagram.
*/
Graph.prototype.isLightboxView = function()
{
return this.lightbox;
};
/**
* Sets the XML node for the current diagram.
*/
Graph.prototype.isViewer = function()
{
return false;
};
/**
* Installs automatic layout via styles
*/
Graph.prototype.labelLinkClicked = function(state, elt, evt)
{
var href = elt.getAttribute('href');
// Blocks and removes unsafe links in labels
if (href != Graph.sanitizeLink(href))
{
Graph.sanitizeNode(elt);
}
if (href != null && !this.isCustomLink(href) && ((mxEvent.isLeftMouseButton(evt) &&
!mxEvent.isPopupTrigger(evt)) || mxEvent.isTouchEvent(evt)))
{
if (!this.isEnabled() || this.isCellLocked(state.cell))
{
var target = this.isBlankLink(href) ? this.linkTarget : '_top';
this.openLink(this.getAbsoluteUrl(href), target);
}
mxEvent.consume(evt);
}
};
/**
* Returns the size of the page format scaled with the page size.
*/
Graph.prototype.openLink = function(href, target, allowOpener)
{
var result = window;
try
{
href = Graph.sanitizeLink(href);
if (href != null)
{
// Workaround for blocking in same iframe
if (target == '_self' && window != window.top)
{
window.location.href = href;
}
else
{
// Avoids page reload for anchors (workaround for IE but used everywhere)
if (href.substring(0, this.baseUrl.length) == this.baseUrl &&
href.charAt(this.baseUrl.length) == '#' &&
target == '_top' && window == window.top)
{
var hash = href.split('#')[1];
// Forces navigation if on same hash
if (window.location.hash == '#' + hash)
{
window.location.hash = '';
}
window.location.hash = hash;
}
else
{
result = window.open(href, (target != null) ?
target : '_blank', (!allowOpener) ?
'noopener,noreferrer' : null);
if (result != null && !allowOpener)
{
result.opener = null;
}
}
}
}
}
catch (e)
{
// ignores permission denied
}
return result;
};
/**
* Adds support for page links.
*/
Graph.prototype.getLinkTitle = function(href)
{
return href.substring(href.lastIndexOf('/') + 1);
};
/**
* Adds support for page links.
*/
Graph.prototype.isCustomLink = function(href)
{
return href.substring(0, 5) == 'data:';
};
/**
* Adds support for page links.
*/
Graph.prototype.customLinkClicked = function(link)
{
return false;
};
/**
* Returns true if the given href references an external protocol that
* should never open in a new window. Default returns true for mailto.
*/
Graph.prototype.isExternalProtocol = function(href)
{
return href.substring(0, 7) === 'mailto:';
};
/**
* Hook for links to open in same window. Default returns true for anchors,
* links to same domain or if target == 'self' in the config.
*/
Graph.prototype.isBlankLink = function(href)
{
return !this.isExternalProtocol(href) &&
(this.linkPolicy === 'blank' ||
(this.linkPolicy !== 'self' &&
!this.isRelativeUrl(href) &&
href.substring(0, this.domainUrl.length) !== this.domainUrl));
};
/**
*
*/
Graph.prototype.isRelativeUrl = function(url)
{
return url != null && !this.absoluteUrlPattern.test(url) &&
url.substring(0, 5) !== 'data:' &&
!this.isExternalProtocol(url);
};
/**
*
*/
Graph.prototype.getAbsoluteUrl = function(url)
{
if (url != null && this.isRelativeUrl(url))
{
if (url.charAt(0) == '#')
{
url = this.baseUrl + url;
}
else if (url.charAt(0) == '/')
{
url = this.domainUrl + url;
}
else
{
url = this.domainPathUrl + url;
}
}
return url;
};
/**
* Installs automatic layout via styles
*/
Graph.prototype.initLayoutManager = function()
{
this.layoutManager = new mxLayoutManager(this);
this.layoutManager.hasLayout = function(cell)
{
return this.graph.getCellStyle(cell)['childLayout'] != null;
};
this.layoutManager.getLayout = function(cell, eventName)
{
var parent = this.graph.model.getParent(cell);
// Executes layouts from top to bottom except for nested layouts where
// child layouts are executed before and after the parent layout runs
// in case the layout changes the size of the child cell
if (!this.graph.isCellCollapsed(cell) && (eventName != mxEvent.BEGIN_UPDATE ||
this.hasLayout(parent, eventName)))
{
var style = this.graph.getCellStyle(cell);
if (style['childLayout'] == 'stackLayout')
{
var stackLayout = new mxStackLayout(this.graph, true);
stackLayout.resizeParentMax = mxUtils.getValue(style, 'resizeParentMax', '1') == '1';
stackLayout.horizontal = mxUtils.getValue(style, 'horizontalStack', '1') == '1';
stackLayout.resizeParent = mxUtils.getValue(style, 'resizeParent', '1') == '1';
stackLayout.resizeLast = mxUtils.getValue(style, 'resizeLast', '0') == '1';
stackLayout.spacing = style['stackSpacing'] || stackLayout.spacing;
stackLayout.border = style['stackBorder'] || stackLayout.border;
stackLayout.marginLeft = style['marginLeft'] || 0;
stackLayout.marginRight = style['marginRight'] || 0;
stackLayout.marginTop = style['marginTop'] || 0;
stackLayout.marginBottom = style['marginBottom'] || 0;
stackLayout.allowGaps = style['allowGaps'] || 0;
stackLayout.fill = true;
if (stackLayout.allowGaps)
{
stackLayout.gridSize = parseFloat(mxUtils.getValue(style, 'stackUnitSize', 20));
}
return stackLayout;
}
else if (style['childLayout'] == 'treeLayout')
{
var treeLayout = new mxCompactTreeLayout(this.graph);
treeLayout.horizontal = mxUtils.getValue(style, 'horizontalTree', '1') == '1';
treeLayout.resizeParent = mxUtils.getValue(style, 'resizeParent', '1') == '1';
treeLayout.groupPadding = mxUtils.getValue(style, 'parentPadding', 20);
treeLayout.levelDistance = mxUtils.getValue(style, 'treeLevelDistance', 30);
treeLayout.maintainParentLocation = true;
treeLayout.edgeRouting = false;
treeLayout.resetEdges = false;
return treeLayout;
}
else if (style['childLayout'] == 'flowLayout')
{
var flowLayout = new mxHierarchicalLayout(this.graph, mxUtils.getValue(style,
'flowOrientation', mxConstants.DIRECTION_EAST));
flowLayout.resizeParent = mxUtils.getValue(style, 'resizeParent', '1') == '1';
flowLayout.parentBorder = mxUtils.getValue(style, 'parentPadding', 20);
flowLayout.maintainParentLocation = true;
// Special undocumented styles for changing the hierarchical
flowLayout.intraCellSpacing = mxUtils.getValue(style, 'intraCellSpacing',
mxHierarchicalLayout.prototype.intraCellSpacing);
flowLayout.interRankCellSpacing = mxUtils.getValue(style, 'interRankCellSpacing',
mxHierarchicalLayout.prototype.interRankCellSpacing);
flowLayout.interHierarchySpacing = mxUtils.getValue(style, 'interHierarchySpacing',
mxHierarchicalLayout.prototype.interHierarchySpacing);
flowLayout.parallelEdgeSpacing = mxUtils.getValue(style, 'parallelEdgeSpacing',
mxHierarchicalLayout.prototype.parallelEdgeSpacing);
return flowLayout;
}
else if (style['childLayout'] == 'circleLayout')
{
return new mxCircleLayout(this.graph);
}
else if (style['childLayout'] == 'organicLayout')
{
return new mxFastOrganicLayout(this.graph);
}
else if (style['childLayout'] == 'tableLayout')
{
return new TableLayout(this.graph);
}
else if (style['childLayout'] != null && style['childLayout'].charAt(0) == '[')
{
try
{
return new mxCompositeLayout(this.graph,
this.graph.createLayouts(JSON.parse(
style['childLayout'])));
}
catch (e)
{
if (window.console != null)
{
console.error(e);
}
}
}
}
return null;
};
};
/**
* Creates an array of graph layouts from the given array of the form [{layout: name, config: obj}, ...]
* where name is the layout constructor name and config contains the properties of the layout instance.
*/
Graph.prototype.createLayouts = function(list)
{
var layouts = [];
for (var i = 0; i < list.length; i++)
{
if (mxUtils.indexOf(Graph.layoutNames, list[i].layout) >= 0)
{
// Handles special case of branch optimizer in orgchart
var layout = (list[i].layout == 'mxOrgChartLayout' && list[i].config != null) ?
new window[list[i].layout](this, list[i].config['branchOptimizer']) :
new window[list[i].layout](this);
if (list[i].config != null)
{
for (var key in list[i].config)
{
// Ignores branch optimizer in orgchart (handled above)
if (list[i].layout != 'mxOrgChartLayout' ||
key != 'branchOptimizer')
{
layout[key] = list[i].config[key];
}
}
}
layouts.push(layout);
}
else
{
throw Error(mxResources.get('invalidCallFnNotFound', [list[i].layout]));
}
}
return layouts;
};
/**
* Returns the metadata of the given cells as a JSON object.
*/
Graph.prototype.getDataForCells = function(cells)
{
var result = [];
for (var i = 0; i < cells.length; i++)
{
var attrs = (cells[i].value != null) ? cells[i].value.attributes : null;
var row = {};
row.id = cells[i].id;
if (attrs != null)
{
for (var j = 0; j < attrs.length; j++)
{
row[attrs[j].nodeName] = attrs[j].nodeValue;
}
}
else
{
row.label = this.convertValueToString(cells[i]);
}
result.push(row);
}
return result;
};
/**
* Returns the DOM nodes for the given cells.
*/
Graph.prototype.getNodesForCells = function(cells)
{
var nodes = [];
for (var i = 0; i < cells.length; i++)
{
var state = this.view.getState(cells[i]);
if (state != null)
{
var shapes = this.cellRenderer.getShapesForState(state);
for (var j = 0; j < shapes.length; j++)
{
if (shapes[j] != null && shapes[j].node != null)
{
nodes.push(shapes[j].node);
}
}
// Adds folding icon
if (state.control != null && state.control.node != null)
{
nodes.push(state.control.node);
}
}
}
return nodes;
};
/**
* Creates animations for the given cells.
*/
Graph.prototype.createWipeAnimations = function(cells, wipeIn)
{
var animations = [];
for (var i = 0; i < cells.length; i++)
{
var state = this.view.getState(cells[i]);
if (state != null && state.shape != null)
{
// TODO: include descendants
if (this.model.isEdge(state.cell) &&
state.absolutePoints != null &&
state.absolutePoints.length > 1)
{
animations.push(this.createEdgeWipeAnimation(state, wipeIn));
}
else if (this.model.isVertex(state.cell) &&
state.shape.bounds != null)
{
animations.push(this.createVertexWipeAnimation(state, wipeIn));
}
}
}
return animations;
};
/**
* Creates an object to show the given edge cell state.
*/
Graph.prototype.createEdgeWipeAnimation = function(state, wipeIn)
{
var pts = state.absolutePoints.slice();
var segs = state.segments;
var total = state.length;
var n = pts.length;
return {
execute: mxUtils.bind(this, function(step, steps)
{
if (state.shape != null)
{
var pts2 = [pts[0]];
var f = step / steps;
if (!wipeIn)
{
f = 1 - f;
}
var dist = total * f;
for (var i = 1; i < n; i++)
{
if (dist <= segs[i - 1])
{
pts2.push(new mxPoint(pts[i - 1].x + (pts[i].x - pts[i - 1].x) * dist / segs[i - 1],
pts[i - 1].y + (pts[i].y - pts[i - 1].y) * dist / segs[i - 1]));
break;
}
else
{
dist -= segs[i - 1];
pts2.push(pts[i]);
}
}
state.shape.points = pts2;
state.shape.redraw();
if (step == 0)
{
Graph.setOpacityForNodes(this.getNodesForCells([state.cell]), 1);
}
if (state.text != null && state.text.node != null)
{
state.text.node.style.opacity = f;
}
}
}),
stop: mxUtils.bind(this, function()
{
if (state.shape != null)
{
state.shape.points = pts;
state.shape.redraw();
if (state.text != null && state.text.node != null)
{
state.text.node.style.opacity = ''
}
Graph.setOpacityForNodes(this.getNodesForCells([state.cell]), (wipeIn) ? 1 : 0);
}
})
};
};
/**
* Creates an object to show the given vertex cell state.
*/
Graph.prototype.createVertexWipeAnimation = function(state, wipeIn)
{
var bds = new mxRectangle.fromRectangle(state.shape.bounds);
return {
execute: mxUtils.bind(this, function(step, steps)
{
if (state.shape != null)
{
var f = step / steps;
if (!wipeIn)
{
f = 1 - f;
}
state.shape.bounds = new mxRectangle(bds.x, bds.y, bds.width * f, bds.height);
state.shape.redraw();
if (step == 0)
{
Graph.setOpacityForNodes(this.getNodesForCells([state.cell]), 1);
}
if (state.text != null && state.text.node != null)
{
state.text.node.style.opacity = f;
}
}
}),
stop: mxUtils.bind(this, function()
{
if (state.shape != null)
{
state.shape.bounds = bds;
state.shape.redraw();
if (state.text != null && state.text.node != null)
{
state.text.node.style.opacity = ''
}
Graph.setOpacityForNodes(this.getNodesForCells([state.cell]), (wipeIn) ? 1 : 0);
}
})
};
};
/**
* Runs the animations for the given cells.
*/
Graph.prototype.executeAnimations = function(animations, done, steps, delay)
{
steps = (steps != null) ? steps : 30;
delay = (delay != null) ? delay : 30;
var thread = null;
var step = 0;
var animate = mxUtils.bind(this, function()
{
if (step == steps || this.stoppingCustomActions)
{
window.clearInterval(thread);
for (var i = 0; i < animations.length; i++)
{
animations[i].stop();
}
if (done != null)
{
done();
}
}
else
{
for (var i = 0; i < animations.length; i++)
{
animations[i].execute(step, steps);
}
}
step++;
});
thread = window.setInterval(animate, delay);
animate();
};
/**
* Returns the size of the page format scaled with the page size.
*/
Graph.prototype.getPageSize = function()
{
return (this.pageVisible) ? new mxRectangle(0, 0, this.pageFormat.width * this.pageScale,
this.pageFormat.height * this.pageScale) : this.scrollTileSize;
};
/**
* Returns a rectangle describing the position and count of the
* background pages, where x and y are the position of the top,
* left page and width and height are the vertical and horizontal
* page count.
*/
Graph.prototype.getPageLayout = function(bounds, tr, s)
{
bounds = (bounds != null) ? bounds : this.getGraphBounds();
tr = (tr != null) ? tr : this.view.translate;
s = (s != null) ? s : this.view.scale;
var size = this.getPageSize();
if (bounds.width == 0 || bounds.height == 0)
{
return new mxRectangle(0, 0, 1, 1);
}
else
{
var x0 = Math.floor(Math.ceil(bounds.x / s - tr.x) / size.width);
var y0 = Math.floor(Math.ceil(bounds.y / s - tr.y) / size.height);
var w0 = Math.ceil((Math.floor((bounds.x + bounds.width) /
s) - tr.x) / size.width) - x0;
var h0 = Math.ceil((Math.floor((bounds.y + bounds.height) /
s) - tr.y) / size.height) - y0;
return new mxRectangle(x0, y0, w0, h0);
}
};
/**
* Returns the default view translation for the given page layout.
*/
Graph.prototype.getDefaultTranslate = function(pageLayout)
{
var pad = this.getPagePadding();
var size = this.getPageSize();
return new mxPoint(pad.x - pageLayout.x * size.width,
pad.y - pageLayout.y * size.height);
};
/**
* Updates the minimum graph size
*/
Graph.prototype.updateMinimumSize = function()
{
var pageLayout = this.getPageLayout();
var pad = this.getPagePadding();
var size = this.getPageSize();
var minw = Math.ceil(2 * pad.x + pageLayout.width * size.width);
var minh = Math.ceil(2 * pad.y + pageLayout.height * size.height);
if (this.minimumGraphSize == null ||
this.minimumGraphSize.width != minw ||
this.minimumGraphSize.height != minh)
{
this.minimumGraphSize = new mxRectangle(0, 0, minw, minh);
}
};
/**
* Sanitizes the given HTML markup.
*/
Graph.prototype.sanitizeHtml = function(value, editing)
{
return Graph.sanitizeHtml(value, editing);
};
/**
* Revalidates all cells with placeholders in the current graph model.
*/
Graph.prototype.updatePlaceholders = function()
{
var model = this.model;
var validate = false;
for (var key in this.model.cells)
{
var cell = this.model.cells[key];
if (this.isReplacePlaceholders(cell))
{
this.view.invalidate(cell, false, false);
validate = true;
}
}
if (validate)
{
this.view.validate();
}
};
/**
* Adds support for placeholders in labels.
*/
Graph.prototype.isReplacePlaceholders = function(cell)
{
return cell.value != null && typeof(cell.value) == 'object' &&
cell.value.getAttribute('placeholders') == '1';
};
/**
* Returns true if the given mouse wheel event should be used for zooming. This
* is invoked if no dialogs are showing and returns true with Alt or Control
* (or cmd in macOS only) is pressed.
*/
Graph.prototype.isZoomWheelEvent = function(evt)
{
return (Graph.zoomWheel && !mxEvent.isShiftDown(evt) && !mxEvent.isMetaDown(evt) &&
!mxEvent.isAltDown(evt) && (!mxEvent.isControlDown(evt) || mxClient.IS_MAC)) ||
(!Graph.zoomWheel && (mxEvent.isAltDown(evt) || mxEvent.isControlDown(evt)));
};
/**
* Returns true if the given scroll wheel event should be used for scrolling.
*/
Graph.prototype.isScrollWheelEvent = function(evt)
{
return !this.isZoomWheelEvent(evt);
};
/**
* Adds Alt+click to select cells behind cells (Shift+Click on Chrome OS).
*/
Graph.prototype.isTransparentClickEvent = function(evt)
{
return mxEvent.isAltDown(evt) || (mxClient.IS_CHROMEOS && mxEvent.isShiftDown(evt));
};
/**
* Adds ctrl+shift+connect to disable connections.
*/
Graph.prototype.isIgnoreTerminalEvent = function(evt)
{
return mxEvent.isAltDown(evt) && !mxEvent.isShiftDown(evt) &&
!mxEvent.isControlDown(evt) && !mxEvent.isMetaDown(evt);
};
/**
* Returns true if the given edge should be ignored.
*/
Graph.prototype.isEdgeIgnored = function(cell)
{
var result = false;
if (cell != null)
{
var style = this.getCurrentCellStyle(cell);
result = mxUtils.getValue(style, 'ignoreEdge', '0') == '1';
}
return result;
};
/**
* Adds support for placeholders in labels.
*/
Graph.prototype.isSplitTarget = function(target, cells, evt)
{
return !this.model.isEdge(cells[0]) &&
!mxEvent.isAltDown(evt) && !mxEvent.isShiftDown(evt) &&
mxGraph.prototype.isSplitTarget.apply(this, arguments);
};
/**
* Adds support for placeholders in labels.
*/
Graph.prototype.getLabel = function(cell)
{
var result = mxGraph.prototype.getLabel.apply(this, arguments);
if (result != null && this.isReplacePlaceholders(cell) && cell.getAttribute('placeholder') == null)
{
result = this.replacePlaceholders(cell, result);
}
return result;
};
/**
* Adds labelMovable style.
*/
Graph.prototype.isLabelMovable = function(cell)
{
var style = this.getCurrentCellStyle(cell);
return !this.isCellLocked(cell) &&
((this.model.isEdge(cell) && this.edgeLabelsMovable) ||
(this.model.isVertex(cell) && (this.vertexLabelsMovable ||
mxUtils.getValue(style, 'labelMovable', '0') == '1')));
};
/**
* Adds event if grid size is changed.
*/
Graph.prototype.setGridSize = function(value)
{
this.gridSize = value;
this.fireEvent(new mxEventObject('gridSizeChanged'));
};
/**
* Adds event if default parent is changed.
*/
Graph.prototype.setDefaultParent = function(cell)
{
this.defaultParent = cell;
this.fireEvent(new mxEventObject('defaultParentChanged'));
};
/**
* Function: getClickableLinkForCell
*
* Returns the first non-null link for the cell or its ancestors.
*
* Parameters:
*
* cell - <mxCell> whose link should be returned.
*/
Graph.prototype.getClickableLinkForCell = function(cell)
{
do
{
var link = this.getLinkForCell(cell);
if (link != null)
{
return link;
}
cell = this.model.getParent(cell);
} while (cell != null);
return null;
};
/**
* Private helper method.
*/
Graph.prototype.getGlobalVariable = function(name)
{
var val = null;
if (name == 'date')
{
val = new Date().toLocaleDateString();
}
else if (name == 'time')
{
val = new Date().toLocaleTimeString();
}
else if (name == 'timestamp')
{
val = new Date().toLocaleString();
}
else if (name.substring(0, 5) == 'date{')
{
var fmt = name.substring(5, name.length - 1);
val = this.formatDate(new Date(), fmt);
}
return val;
};
/**
* Formats a date, see http://blog.stevenlevithan.com/archives/date-time-format
*/
Graph.prototype.formatDate = function(date, mask, utc)
{
// LATER: Cache regexs
if (this.dateFormatCache == null)
{
this.dateFormatCache = {
i18n: {
dayNames: [
"Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat",
"Sunday", "Monday", "Tuesday", "Wednesday", "Thursday", "Friday", "Saturday"
],
monthNames: [
"Jan", "Feb", "Mar", "Apr", "May", "Jun", "Jul", "Aug", "Sep", "Oct", "Nov", "Dec",
"January", "February", "March", "April", "May", "June", "July", "August", "September", "October", "November", "December"
]
},
masks: {
"default": "ddd mmm dd yyyy HH:MM:ss",
shortDate: "m/d/yy",
mediumDate: "mmm d, yyyy",
longDate: "mmmm d, yyyy",
fullDate: "dddd, mmmm d, yyyy",
shortTime: "h:MM TT",
mediumTime: "h:MM:ss TT",
longTime: "h:MM:ss TT Z",
isoDate: "yyyy-mm-dd",
isoTime: "HH:MM:ss",
isoDateTime: "yyyy-mm-dd'T'HH:MM:ss",
isoUtcDateTime: "UTC:yyyy-mm-dd'T'HH:MM:ss'Z'"
}
};
}
var dF = this.dateFormatCache;
var token = /d{1,4}|m{1,4}|yy(?:yy)?|([HhMsTt])\1?|[LloSZ]|"[^"]*"|'[^']*'/g,
timezone = /\b(?:[PMCEA][SDP]T|(?:Pacific|Mountain|Central|Eastern|Atlantic) (?:Standard|Daylight|Prevailing) Time|(?:GMT|UTC)(?:[-+]\d{4})?)\b/g,
timezoneClip = /[^-+\dA-Z]/g,
pad = function (val, len) {
val = String(val);
len = len || 2;
while (val.length < len) val = "0" + val;
return val;
};
// You can't provide utc if you skip other args (use the "UTC:" mask prefix)
if (arguments.length == 1 && Object.prototype.toString.call(date) == "[object String]" && !/\d/.test(date)) {
mask = date;
date = undefined;
}
// Passing date through Date applies Date.parse, if necessary
date = date ? new Date(date) : new Date;
if (isNaN(date)) throw SyntaxError("invalid date");
mask = String(dF.masks[mask] || mask || dF.masks["default"]);
// Allow setting the utc argument via the mask
if (mask.slice(0, 4) == "UTC:") {
mask = mask.slice(4);
utc = true;
}
var _ = utc ? "getUTC" : "get",
d = date[_ + "Date"](),
D = date[_ + "Day"](),
m = date[_ + "Month"](),
y = date[_ + "FullYear"](),
H = date[_ + "Hours"](),
M = date[_ + "Minutes"](),
s = date[_ + "Seconds"](),
L = date[_ + "Milliseconds"](),
o = utc ? 0 : date.getTimezoneOffset(),
flags = {
d: d,
dd: pad(d),
ddd: dF.i18n.dayNames[D],
dddd: dF.i18n.dayNames[D + 7],
m: m + 1,
mm: pad(m + 1),
mmm: dF.i18n.monthNames[m],
mmmm: dF.i18n.monthNames[m + 12],
yy: String(y).slice(2),
yyyy: y,
h: H % 12 || 12,
hh: pad(H % 12 || 12),
H: H,
HH: pad(H),
M: M,
MM: pad(M),
s: s,
ss: pad(s),
l: pad(L, 3),
L: pad(L > 99 ? Math.round(L / 10) : L),
t: H < 12 ? "a" : "p",
tt: H < 12 ? "am" : "pm",
T: H < 12 ? "A" : "P",
TT: H < 12 ? "AM" : "PM",
Z: utc ? "UTC" : (String(date).match(timezone) || [""]).pop().replace(timezoneClip, ""),
o: (o > 0 ? "-" : "+") + pad(Math.floor(Math.abs(o) / 60) * 100 + Math.abs(o) % 60, 4),
S: ["th", "st", "nd", "rd"][d % 10 > 3 ? 0 : (d % 100 - d % 10 != 10) * d % 10]
};
return mask.replace(token, function ($0)
{
return $0 in flags ? flags[$0] : $0.slice(1, $0.length - 1);
});
};
/**
*
*/
Graph.prototype.getLayerForCell = function(cell)
{
while (cell != null && !this.model.isLayer(cell))
{
cell = this.model.getParent(cell);
}
return cell;
};
/**
*
*/
Graph.prototype.getLayerForCells = function(cells)
{
var result = null;
if (cells.length > 0)
{
result = this.getLayerForCell(cells[0]);
for (var i = 1; i < cells.length; i++)
{
if (!this.model.isAncestor(result, cells[i]))
{
result = null;
break;
}
}
}
return result;
};
/**
*
*/
Graph.prototype.createLayersDialog = function(onchange, inverted)
{
var div = document.createElement('div');
div.style.position = 'absolute';
var model = this.getModel();
var childCount = model.getChildCount(model.root);
for (var i = 0; i < childCount; i++)
{
(mxUtils.bind(this, function(layer)
{
var title = this.convertValueToString(layer) ||
(mxResources.get('background') || 'Background');
var span = document.createElement('div');
span.style.overflow = 'hidden';
span.style.textOverflow = 'ellipsis';
span.style.padding = '2px';
span.style.whiteSpace = 'nowrap';
span.style.cursor = 'pointer';
span.setAttribute('title', mxResources.get(
model.isVisible(layer) ?
'hideIt' : 'show', [title]));
var inp = document.createElement('img');
inp.setAttribute('draggable', 'false');
inp.setAttribute('align', 'absmiddle');
inp.setAttribute('border', '0');
inp.style.position = 'relative';
inp.style.width = '16px';
inp.style.padding = '0px 6px 0 4px';
if (inverted)
{
inp.style.filter = 'invert(100%)';
inp.style.top = '-2px';
}
span.appendChild(inp);
mxUtils.write(span, title);
div.appendChild(span);
function update()
{
if (model.isVisible(layer))
{
inp.setAttribute('src', Editor.visibleImage);
mxUtils.setOpacity(span, 75);
}
else
{
inp.setAttribute('src', Editor.hiddenImage);
mxUtils.setOpacity(span, 25);
}
};
mxEvent.addListener(span, 'click', function()
{
model.setVisible(layer, !model.isVisible(layer));
update();
if (onchange != null)
{
onchange(layer);
}
});
update();
})(model.getChildAt(model.root, i)));
}
return div;
};
/**
* Private helper method.
*/
Graph.prototype.replacePlaceholders = function(cell, str, vars, translate)
{
var result = [];
if (str != null)
{
var last = 0;
while (match = this.placeholderPattern.exec(str))
{
var val = match[0];
if (val.length > 2 && val != '%label%' && val != '%tooltip%')
{
var tmp = null;
if (match.index > last && str.charAt(match.index - 1) == '%')
{
tmp = val.substring(1);
}
else
{
var name = val.substring(1, val.length - 1);
// Workaround for invalid char for getting attribute in older versions of IE
if (name == 'id')
{
tmp = cell.id;
}
else if (name.indexOf('{') < 0)
{
var current = cell;
while (tmp == null && current != null)
{
if (current.value != null && typeof(current.value) == 'object')
{
if (Graph.translateDiagram && Graph.diagramLanguage != null)
{
tmp = current.getAttribute(name + '_' + Graph.diagramLanguage);
}
if (tmp == null)
{
tmp = (current.hasAttribute(name)) ? ((current.getAttribute(name) != null) ?
current.getAttribute(name) : '') : null;
}
}
current = this.model.getParent(current);
}
}
if (tmp == null)
{
tmp = this.getGlobalVariable(name);
}
if (tmp == null && vars != null)
{
tmp = vars[name];
}
}
result.push(str.substring(last, match.index) + ((tmp != null) ? tmp : val));
last = match.index + val.length;
}
}
result.push(str.substring(last));
}
return result.join('');
};
/**
* Resolves the given cells in the model and selects them.
*/
Graph.prototype.restoreSelection = function(cells)
{
if (cells != null && cells.length > 0)
{
var temp = [];
for (var i = 0; i < cells.length; i++)
{
var newCell = this.model.getCell(cells[i].id);
if (newCell != null)
{
temp.push(newCell);
}
}
this.setSelectionCells(temp);
}
else
{
this.clearSelection();
}
};
/**
* Adds table range selection with Shift+Click.
*/
Graph.prototype.selectCellForEvent = function(cell, evt)
{
if (!mxEvent.isShiftDown(evt) || this.isSelectionEmpty() ||
!this.selectTableRange(this.getSelectionCell(), cell))
{
mxGraph.prototype.selectCellForEvent.apply(this, arguments);
}
};
/**
* Returns true if
*/
Graph.prototype.selectTableRange = function(startCell, endCell)
{
var result = false;
if (this.isTableCell(startCell) && this.isTableCell(endCell))
{
var startRow = this.model.getParent(startCell);
var table = this.model.getParent(startRow);
var endRow = this.model.getParent(endCell);
if (table == this.model.getParent(endRow))
{
var startCellIndex = startRow.getIndex(startCell);
var startRowIndex = table.getIndex(startRow);
var endCellIndex = endRow.getIndex(endCell);
var endRowIndex = table.getIndex(endRow);
var fromRow = Math.min(startRowIndex, endRowIndex);
var toRow = Math.max(startRowIndex, endRowIndex);
var fromCell = Math.min(startCellIndex, endCellIndex);
var toCell = Math.max(startCellIndex, endCellIndex);
var cells = [];
for (var row = fromRow; row <= toRow; row++)
{
var currentRow = this.model.getChildAt(table, row);
for (var col = fromCell; col <= toCell; col++)
{
cells.push(this.model.getChildAt(currentRow, col));
}
}
if (cells.length > 0 && (cells.length > 1 ||
this.getSelectionCount() > 1 ||
!this.isCellSelected(cells[0])))
{
this.setSelectionCells(cells);
result = true;
}
}
}
return result;
};
/**
* Returns the cells for the given table range.
*/
Graph.prototype.snapCellsToGrid = function(cells, gridSize)
{
this.getModel().beginUpdate();
try
{
for (var i = 0; i < cells.length; i++)
{
var cell = cells[i];
var geo = this.getCellGeometry(cell);
if (geo != null)
{
geo = geo.clone();
if (this.getModel().isVertex(cell))
{
geo.x = Math.round(geo.x / gridSize) * gridSize;
geo.y = Math.round(geo.y / gridSize) * gridSize;
geo.width = Math.round(geo.width / gridSize) * gridSize;
geo.height = Math.round(geo.height / gridSize) * gridSize;
}
else if (this.getModel().isEdge(cell) && geo.points != null)
{
for (var j = 0; j < geo.points.length; j++)
{
geo.points[j].x = Math.round(geo.points[j].x / gridSize) * gridSize;
geo.points[j].y = Math.round(geo.points[j].y / gridSize) * gridSize;
}
}
this.getModel().setGeometry(cell, geo);
}
}
}
finally
{
this.getModel().endUpdate();
}
};
/**
* Creates a drop handler for inserting the given cells.
*/
Graph.prototype.removeChildCells = function(cell)
{
this.model.beginUpdate();
try
{
var childCount = this.model.getChildCount(cell);
for (var j = childCount; j >= 0; j--)
{
this.model.remove(this.model.getChildAt(cell, j));
}
}
finally
{
this.model.endUpdate();
}
};
/**
* Creates a drop handler for inserting the given cells.
*/
Graph.prototype.updateShapes = function(source, targets)
{
this.model.beginUpdate();
try
{
// Replaces target styles and removes composite childs
for (var i = 0; i < targets.length; i++)
{
if ((this.model.isVertex(source) && this.model.isVertex(targets[i])) ||
this.model.isEdge(source) && this.model.isEdge(targets[i]))
{
var style = this.copyStyle(targets[i]);
this.model.setStyle(targets[i], this.model.getStyle(source));
this.pasteStyle(style, [targets[i]]);
}
if (mxUtils.getValue(this.getCellStyle(targets[i],
false), 'composite', '0') == '1')
{
this.removeChildCells(targets[i]);
}
}
}
finally
{
this.model.endUpdate();
}
};
/**
* Selects cells for connect vertex return value.
*/
Graph.prototype.selectCellsForConnectVertex = function(cells, evt, hoverIcons)
{
// Selects only target vertex if one exists
if (cells.length == 2 && this.model.isVertex(cells[1]))
{
this.setSelectionCell(cells[1]);
this.scrollCellToVisible(cells[1]);
if (hoverIcons != null)
{
// Adds hover icons for cloned vertex or hides icons
if (mxEvent.isTouchEvent(evt))
{
hoverIcons.update(hoverIcons.getState(this.view.getState(cells[1])));
}
else
{
hoverIcons.reset();
}
}
}
else
{
this.setSelectionCells(cells);
}
};
/**
* Never connects children in stack layouts or tables.
*/
Graph.prototype.isCloneConnectSource = function(source)
{
var layout = null;
if (this.layoutManager != null)
{
layout = this.layoutManager.getLayout(this.model.getParent(source));
}
return this.isTableRow(source) || this.isTableCell(source) ||
(layout != null && layout.constructor == mxStackLayout);
};
/**
* Inserts the given edge before the given cell.
*/
Graph.prototype.insertEdgeBeforeCell = function(edge, cell)
{
var index = null;
var tmp = cell;
while (tmp.parent != null && tmp.geometry != null &&
tmp.geometry.relative && tmp.parent != edge.parent)
{
tmp = this.model.getParent(tmp);
}
if (tmp != null && tmp.parent != null && tmp.parent == edge.parent)
{
var index = tmp.parent.getIndex(tmp);
this.model.add(tmp.parent, edge, index);
}
};
/**
* Adds a connection to the given vertex or clones the vertex in special layout
* containers without creating a connection.
*/
Graph.prototype.connectVertex = function(source, direction, length, evt, forceClone, ignoreCellAt, createTarget, done)
{
ignoreCellAt = (ignoreCellAt) ? ignoreCellAt : false;
// Ignores relative edge labels
if (source.geometry.relative && this.model.isEdge(source.parent))
{
return [];
}
// Uses parent for relative child cells
while (source.geometry.relative && this.model.isVertex(source.parent))
{
source = source.parent;
}
// Handles clone connect sources
var cloneSource = this.isCloneConnectSource(source);
var composite = (cloneSource) ? source : this.getCompositeParent(source);
var pt = (source.geometry.relative && source.parent.geometry != null) ?
new mxPoint(source.parent.geometry.width * source.geometry.x,
source.parent.geometry.height * source.geometry.y) :
new mxPoint(composite.geometry.x, composite.geometry.y);
if (direction == mxConstants.DIRECTION_NORTH)
{
pt.x += composite.geometry.width / 2;
pt.y -= length ;
}
else if (direction == mxConstants.DIRECTION_SOUTH)
{
pt.x += composite.geometry.width / 2;
pt.y += composite.geometry.height + length;
}
else if (direction == mxConstants.DIRECTION_WEST)
{
pt.x -= length;
pt.y += composite.geometry.height / 2;
}
else
{
pt.x += composite.geometry.width + length;
pt.y += composite.geometry.height / 2;
}
var parentState = this.view.getState(this.model.getParent(source));
var s = this.view.scale;
var t = this.view.translate;
var dx = t.x * s;
var dy = t.y * s;
if (parentState != null && this.model.isVertex(parentState.cell))
{
dx = parentState.x;
dy = parentState.y;
}
// Workaround for relative child cells
if (this.model.isVertex(source.parent) && source.geometry.relative)
{
pt.x += source.parent.geometry.x;
pt.y += source.parent.geometry.y;
}
// Checks end point for target cell and container
var rect = (!ignoreCellAt) ? new mxRectangle(dx + pt.x * s, dy + pt.y * s).grow(40 * s) : null;
var tempCells = (rect != null) ? this.getCells(0, 0, 0, 0, null, null, rect, null, true) : null;
var sourceState = this.view.getState(source);
var container = null;
var target = null;
if (tempCells != null)
{
tempCells = tempCells.reverse();
for (var i = 0; i < tempCells.length; i++)
{
if (!this.isCellLocked(tempCells[i]) && !this.model.isEdge(tempCells[i]) && tempCells[i] != source)
{
// Direct parent overrides all possible containers
if (!this.model.isAncestor(source, tempCells[i]) && this.isContainer(tempCells[i]) &&
(container == null || tempCells[i] == this.model.getParent(source)))
{
container = tempCells[i];
}
// Containers are used as target cells but swimlanes are used as parents
else if (target == null && this.isCellConnectable(tempCells[i]) &&
!this.model.isAncestor(tempCells[i], source) &&
!this.isSwimlane(tempCells[i]))
{
var targetState = this.view.getState(tempCells[i]);
if (sourceState != null && targetState != null && !mxUtils.intersects(sourceState, targetState))
{
target = tempCells[i];
}
}
}
}
}
var duplicate = (!mxEvent.isShiftDown(evt) || mxEvent.isControlDown(evt)) || forceClone;
if (duplicate && (urlParams['sketch'] != '1' || forceClone))
{
if (direction == mxConstants.DIRECTION_NORTH)
{
pt.y -= source.geometry.height / 2;
}
else if (direction == mxConstants.DIRECTION_SOUTH)
{
pt.y += source.geometry.height / 2;
}
else if (direction == mxConstants.DIRECTION_WEST)
{
pt.x -= source.geometry.width / 2;
}
else
{
pt.x += source.geometry.width / 2;
}
}
var result = [];
var realTarget = target;
target = container;
var execute = mxUtils.bind(this, function(targetCell)
{
if (createTarget == null || targetCell != null || (target == null && cloneSource))
{
this.model.beginUpdate();
try
{
if (realTarget == null && duplicate)
{
// Handles relative and composite cells
var cellToClone = this.getAbsoluteParent((targetCell != null) ? targetCell : source);
cellToClone = (cloneSource) ? source : this.getCompositeParent(cellToClone);
realTarget = (targetCell != null) ? targetCell : this.duplicateCells([cellToClone], false)[0];
if (targetCell != null)
{
this.addCells([realTarget], this.model.getParent(source), null, null, null, true);
}
var geo = this.getCellGeometry(realTarget);
if (geo != null)
{
if (targetCell != null && urlParams['sketch'] == '1')
{
if (direction == mxConstants.DIRECTION_NORTH)
{
pt.y -= geo.height / 2;
}
else if (direction == mxConstants.DIRECTION_SOUTH)
{
pt.y += geo.height / 2;
}
else if (direction == mxConstants.DIRECTION_WEST)
{
pt.x -= geo.width / 2;
}
else
{
pt.x += geo.width / 2;
}
}
geo.x = pt.x - geo.width / 2;
geo.y = pt.y - geo.height / 2;
}
if (container != null)
{
this.addCells([realTarget], container, null, null, null, true);
target = null;
}
else if (duplicate && !cloneSource)
{
this.addCells([realTarget], this.getDefaultParent(), null, null, null, true);
}
}
var edge = ((mxEvent.isControlDown(evt) && mxEvent.isShiftDown(evt) && duplicate) ||
(target == null && cloneSource)) ? null : this.insertEdge(this.model.getParent(source),
null, '', source, realTarget, this.createCurrentEdgeStyle());
if (edge != null)
{
result.push(edge);
this.applyNewEdgeStyle(source, [edge], direction);
if (this.connectionHandler.insertBeforeSource)
{
this.insertEdgeBeforeCell(edge, source);
}
}
// Special case: Click on west icon puts clone before cell
if (target == null && realTarget != null && source.parent != null &&
cloneSource && direction == mxConstants.DIRECTION_WEST)
{
var index = source.parent.getIndex(source);
this.model.add(source.parent, realTarget, index);
}
if (target == null && realTarget != null)
{
result.push(realTarget);
}
if (realTarget == null && edge != null)
{
edge.geometry.setTerminalPoint(pt, false);
}
if (edge != null)
{
this.fireEvent(new mxEventObject('cellsInserted', 'cells', [edge]));
}
}
finally
{
this.model.endUpdate();
}
}
if (done != null)
{
done(result);
}
else
{
return result;
}
});
if (createTarget != null && realTarget == null && duplicate &&
(target != null || !cloneSource))
{
createTarget(dx + pt.x * s, dy + pt.y * s, execute);
}
else
{
return execute(realTarget);
}
};
/**
* Returns all labels in the diagram as a string.
*/
Graph.prototype.getIndexableText = function(cells)
{
cells = (cells != null) ? cells : this.model.
getDescendants(this.model.root);
var tmp = document.createElement('div');
var labels = [];
var label = '';
for (var i = 0; i < cells.length; i++)
{
var cell = cells[i];
if (this.model.isVertex(cell) || this.model.isEdge(cell))
{
if (this.isHtmlLabel(cell))
{
tmp.innerHTML = Graph.sanitizeHtml(this.getLabel(cell));
label = mxUtils.extractTextWithWhitespace([tmp]);
}
else
{
label = this.getLabel(cell);
}
label = mxUtils.trim(label.replace(/[\x00-\x1F\x7F-\x9F]|\s+/g, ' '));
if (label.length > 0)
{
labels.push(label);
}
}
}
return labels.join(' ');
};
/**
* Returns the label for the given cell.
*/
Graph.prototype.convertValueToString = function(cell)
{
var value = this.model.getValue(cell);
if (value != null && typeof(value) == 'object')
{
var result = null;
if (this.isReplacePlaceholders(cell) && cell.getAttribute('placeholder') != null)
{
var name = cell.getAttribute('placeholder');
var current = cell;
while (result == null && current != null)
{
if (current.value != null && typeof(current.value) == 'object')
{
result = (current.hasAttribute(name)) ? ((current.getAttribute(name) != null) ?
current.getAttribute(name) : '') : null;
}
current = this.model.getParent(current);
}
}
else
{
var result = null;
if (Graph.translateDiagram && Graph.diagramLanguage != null)
{
result = value.getAttribute('label_' + Graph.diagramLanguage);
}
if (result == null)
{
result = value.getAttribute('label') || '';
}
}
return result || '';
}
return mxGraph.prototype.convertValueToString.apply(this, arguments);
};
/**
* Returns the link for the given cell.
*/
Graph.prototype.getLinksForState = function(state)
{
if (state != null && state.text != null && state.text.node != null)
{
return state.text.node.getElementsByTagName('a');
}
return null;
};
/**
* Returns the link for the given cell.
*/
Graph.prototype.getLinkForCell = function(cell)
{
if (cell.value != null && typeof(cell.value) == 'object')
{
var link = cell.value.getAttribute('link');
// Removes links with leading javascript: protocol
// TODO: Check more possible attack vectors
if (link != null && link.toLowerCase().substring(0, 11) === 'javascript:')
{
link = link.substring(11);
}
return link;
}
return null;
};
/**
* Returns the link target for the given cell.
*/
Graph.prototype.getLinkTargetForCell = function(cell)
{
if (cell.value != null && typeof(cell.value) == 'object')
{
return cell.value.getAttribute('linkTarget');
}
return null;
};
/**
* Adds style post processing steps.
*/
Graph.prototype.postProcessCellStyle = function(cell, style)
{
return this.updateHorizontalStyle(cell,this.replaceDefaultColors(cell,
mxGraph.prototype.postProcessCellStyle.apply(this, arguments)));
};
/**
* Overrides label orientation for collapsed swimlanes inside stack and
* for partial rectangles inside tables.
*/
Graph.prototype.updateHorizontalStyle = function(cell, style)
{
if (cell != null && style != null && this.layoutManager != null)
{
var parent = this.model.getParent(cell);
if (this.model.isVertex(parent) && this.isCellCollapsed(cell))
{
var layout = this.layoutManager.getLayout(parent);
if (layout != null && layout.constructor == mxStackLayout)
{
style[mxConstants.STYLE_HORIZONTAL] = !layout.horizontal;
}
}
}
return style;
};
/**
* Replaces default colors.
*/
Graph.prototype.replaceDefaultColors = function(cell, style)
{
if (style != null)
{
var bg = mxUtils.hex2rgb(this.shapeBackgroundColor);
var fg = mxUtils.hex2rgb(this.shapeForegroundColor);
this.replaceDefaultColor(style, mxConstants.STYLE_FONTCOLOR, fg, bg);
this.replaceDefaultColor(style, mxConstants.STYLE_FILLCOLOR, bg, fg);
this.replaceDefaultColor(style, mxConstants.STYLE_GRADIENTCOLOR, fg, bg);
this.replaceDefaultColor(style, mxConstants.STYLE_STROKECOLOR, fg, bg);
this.replaceDefaultColor(style, mxConstants.STYLE_IMAGE_BORDER, fg, bg);
this.replaceDefaultColor(style, mxConstants.STYLE_IMAGE_BACKGROUND, bg, fg);
this.replaceDefaultColor(style, mxConstants.STYLE_LABEL_BORDERCOLOR, fg, bg);
this.replaceDefaultColor(style, mxConstants.STYLE_SWIMLANE_FILLCOLOR, bg, fg);
this.replaceDefaultColor(style, mxConstants.STYLE_LABEL_BACKGROUNDCOLOR, bg, fg);
}
return style;
};
/**
* Replaces the colors for the given key.
*/
Graph.prototype.replaceDefaultColor = function(style, key, value, inverseValue)
{
if (style != null && style[key] == 'default' && value != null)
{
style[key] = this.getDefaultColor(style, key, value, inverseValue);
}
};
/**
* Replaces the colors for the given key.
*/
Graph.prototype.getDefaultColor = function(style, key, defaultValue, inverseDefaultValue)
{
var temp = 'default' + key.charAt(0).toUpperCase() + key.substring(1);
if (style[temp] == 'invert')
{
defaultValue = inverseDefaultValue;
}
return defaultValue;
};
/**
* Disables alternate width persistence for stack layout parents
*/
Graph.prototype.updateAlternateBounds = function(cell, geo, willCollapse)
{
if (cell != null && geo != null && this.layoutManager != null && geo.alternateBounds != null)
{
var layout = this.layoutManager.getLayout(this.model.getParent(cell));
if (layout != null && layout.constructor == mxStackLayout)
{
if (layout.horizontal)
{
geo.alternateBounds.height = 0;
}
else
{
geo.alternateBounds.width = 0;
}
}
}
mxGraph.prototype.updateAlternateBounds.apply(this, arguments);
};
/**
* Adds Shift+collapse/expand and size management for folding inside stack
*/
Graph.prototype.isMoveCellsEvent = function(evt, state)
{
return mxEvent.isShiftDown(evt) || mxUtils.getValue(state.style, 'moveCells', '0') == '1';
};
/**
* Adds Shift+collapse/expand and size management for folding inside stack
*/
Graph.prototype.foldCells = function(collapse, recurse, cells, checkFoldable, evt)
{
recurse = (recurse != null) ? recurse : false;
if (cells == null)
{
cells = this.getFoldableCells(this.getSelectionCells(), collapse);
}
if (cells != null)
{
this.model.beginUpdate();
try
{
mxGraph.prototype.foldCells.apply(this, arguments);
// Resizes all parent stacks if alt is not pressed
if (this.layoutManager != null)
{
for (var i = 0; i < cells.length; i++)
{
var state = this.view.getState(cells[i]);
var geo = this.getCellGeometry(cells[i]);
if (state != null && geo != null)
{
var dx = Math.round(geo.width - state.width / this.view.scale);
var dy = Math.round(geo.height - state.height / this.view.scale);
if (dy != 0 || dx != 0)
{
var parent = this.model.getParent(cells[i]);
var layout = this.layoutManager.getLayout(parent);
if (layout == null)
{
// Moves cells to the right and down after collapse/expand
if (evt != null && this.isMoveCellsEvent(evt, state))
{
this.moveSiblings(state, parent, dx, dy);
}
}
else if ((evt == null || !mxEvent.isAltDown(evt)) &&
layout.constructor == mxStackLayout && !layout.resizeLast)
{
this.resizeParentStacks(parent, layout, dx, dy);
}
}
}
}
}
}
finally
{
this.model.endUpdate();
}
// Selects cells after folding
if (this.isEnabled())
{
this.setSelectionCells(cells);
}
}
};
/**
* Overrides label orientation for collapsed swimlanes inside stack.
*/
Graph.prototype.moveSiblings = function(state, parent, dx, dy)
{
this.model.beginUpdate();
try
{
var cells = this.getCellsBeyond(state.x, state.y, parent, true, true);
for (var i = 0; i < cells.length; i++)
{
if (cells[i] != state.cell)
{
var tmp = this.view.getState(cells[i]);
var geo = this.getCellGeometry(cells[i]);
if (tmp != null && geo != null)
{
geo = geo.clone();
geo.translate(Math.round(dx * Math.max(0, Math.min(1, (tmp.x - state.x) / state.width))),
Math.round(dy * Math.max(0, Math.min(1, (tmp.y - state.y) / state.height))));
this.model.setGeometry(cells[i], geo);
}
}
}
}
finally
{
this.model.endUpdate();
}
};
/**
* Overrides label orientation for collapsed swimlanes inside stack.
*/
Graph.prototype.resizeParentStacks = function(parent, layout, dx, dy)
{
if (this.layoutManager != null && layout != null && layout.constructor == mxStackLayout && !layout.resizeLast)
{
this.model.beginUpdate();
try
{
var dir = layout.horizontal;
// Bubble resize up for all parent stack layouts with same orientation
while (parent != null && layout != null && layout.constructor == mxStackLayout &&
layout.horizontal == dir && !layout.resizeLast)
{
var pgeo = this.getCellGeometry(parent);
var pstate = this.view.getState(parent);
if (pstate != null && pgeo != null)
{
pgeo = pgeo.clone();
if (layout.horizontal)
{
pgeo.width += dx + Math.min(0, pstate.width / this.view.scale - pgeo.width);
}
else
{
pgeo.height += dy + Math.min(0, pstate.height / this.view.scale - pgeo.height);
}
this.model.setGeometry(parent, pgeo);
}
parent = this.model.getParent(parent);
layout = this.layoutManager.getLayout(parent);
}
}
finally
{
this.model.endUpdate();
}
}
};
/**
* Disables drill-down for non-swimlanes.
*/
Graph.prototype.isContainer = function(cell)
{
var style = this.getCurrentCellStyle(cell);
if (this.isSwimlane(cell))
{
return style['container'] != '0';
}
else
{
return style['container'] == '1';
}
};
/**
* Adds a connectable style.
*/
Graph.prototype.isCellConnectable = function(cell)
{
var style = this.getCurrentCellStyle(cell);
return (style['connectable'] != null) ? style['connectable'] != '0' :
mxGraph.prototype.isCellConnectable.apply(this, arguments);
};
/**
* Adds labelMovable style.
*/
Graph.prototype.isLabelMovable = function(cell)
{
var style = this.getCurrentCellStyle(cell);
return (style['movableLabel'] != null) ? style['movableLabel'] != '0' :
mxGraph.prototype.isLabelMovable.apply(this, arguments);
};
/**
* Function: selectAll
*
* Selects all children of the given parent cell or the children of the
* default parent if no parent is specified. To select leaf vertices and/or
* edges use <selectCells>.
*
* Parameters:
*
* parent - Optional <mxCell> whose children should be selected.
* Default is <defaultParent>.
*/
Graph.prototype.selectAll = function(parent)
{
parent = parent || this.getDefaultParent();
if (!this.isCellLocked(parent))
{
mxGraph.prototype.selectAll.apply(this, arguments);
}
};
/**
* Function: selectCells
*
* Selects all vertices and/or edges depending on the given boolean
* arguments recursively, starting at the given parent or the default
* parent if no parent is specified. Use <selectAll> to select all cells.
* For vertices, only cells with no children are selected.
*
* Parameters:
*
* vertices - Boolean indicating if vertices should be selected.
* edges - Boolean indicating if edges should be selected.
* parent - Optional <mxCell> that acts as the root of the recursion.
* Default is <defaultParent>.
*/
Graph.prototype.selectCells = function(vertices, edges, parent)
{
parent = parent || this.getDefaultParent();
if (!this.isCellLocked(parent))
{
mxGraph.prototype.selectCells.apply(this, arguments);
}
};
/**
* Function: getSwimlaneAt
*
* Returns the bottom-most swimlane that intersects the given point (x, y)
* in the cell hierarchy that starts at the given parent.
*
* Parameters:
*
* x - X-coordinate of the location to be checked.
* y - Y-coordinate of the location to be checked.
* parent - <mxCell> that should be used as the root of the recursion.
* Default is <defaultParent>.
*/
Graph.prototype.getSwimlaneAt = function (x, y, parent)
{
var result = mxGraph.prototype.getSwimlaneAt.apply(this, arguments);
if (this.isCellLocked(result))
{
result = null;
}
return result;
};
/**
* Disables folding for non-swimlanes.
*/
Graph.prototype.isCellFoldable = function(cell)
{
var style = this.getCurrentCellStyle(cell);
return this.foldingEnabled && mxUtils.getValue(style,
mxConstants.STYLE_RESIZABLE, '1') != '0' &&
(style['treeFolding'] == '1' ||
(!this.isCellLocked(cell) &&
((this.isContainer(cell) && style['collapsible'] != '0') ||
(!this.isContainer(cell) && style['collapsible'] == '1'))));
};
/**
* Stops all interactions and clears the selection.
*/
Graph.prototype.reset = function()
{
if (this.isEditing())
{
this.stopEditing(true);
}
this.escape();
if (!this.isSelectionEmpty())
{
this.clearSelection();
}
};
/**
* Overridden to limit zoom to 1% - 16.000%.
*/
Graph.prototype.zoom = function(factor, center)
{
factor = Math.max(0.01, Math.min(this.view.scale * factor, 160)) / this.view.scale;
mxGraph.prototype.zoom.apply(this, arguments);
};
/**
* Function: zoomIn
*
* Zooms into the graph by <zoomFactor>.
*/
Graph.prototype.zoomIn = function()
{
// Switches to 1% zoom steps below 15%
if (this.view.scale < 0.15)
{
this.zoom((this.view.scale + 0.01) / this.view.scale);
}
else
{
// Uses to 5% zoom steps for better grid rendering in webkit
// and to avoid rounding errors for zoom steps
this.zoom((Math.round(this.view.scale * this.zoomFactor * 20) / 20) / this.view.scale);
}
};
/**
* Function: zoomOut
*
* Zooms out of the graph by <zoomFactor>.
*/
Graph.prototype.zoomOut = function()
{
// Switches to 1% zoom steps below 15%
if (this.view.scale <= 0.15)
{
this.zoom((this.view.scale - 0.01) / this.view.scale);
}
else
{
// Uses to 5% zoom steps for better grid rendering in webkit
// and to avoid rounding errors for zoom steps
this.zoom((Math.round(this.view.scale * (1 / this.zoomFactor) * 20) / 20) / this.view.scale);
}
};
/**
* Function: fitPages
*
* Fits the given number of pages to the current view horizontally.
* If pageCount is null then all pages will be used. This should not
* be called if pages are not visible.
*/
Graph.prototype.fitPages = function(pageCount, ignoreHeight)
{
var vcount = 1;
if (pageCount == null)
{
var layout = this.getPageLayout();
pageCount = layout.width;
vcount = layout.height;
}
var ps = this.pageScale;
var fmt = this.pageFormat;
var cw = this.container.clientWidth - 10;
var ch = this.container.clientHeight - 10;
var sx = cw / (pageCount * fmt.width) / ps;
var scale = Math.floor(20 * ((ignoreHeight) ? sx :
Math.min(sx, ch / (vcount * fmt.height) / ps))) / 20;
this.zoomTo(scale);
if (mxUtils.hasScrollbars(this.container))
{
var pad = this.getPagePadding();
this.container.scrollLeft = Math.min(pad.x * this.view.scale,
(this.container.scrollWidth - this.container.clientWidth) / 2) - 1;
if (!ignoreHeight)
{
if (pageCount >= 2)
{
this.container.scrollTop = Math.min(pad.y,
(this.container.scrollHeight -
this.container.clientHeight) / 2);
}
else
{
this.container.scrollTop = pad.y * this.view.scale - 1;
}
}
}
};
/**
* Function: fitWindow
*
* Sets the current visible rectangle of the window in graph coordinates.
*/
Graph.prototype.fitWindow = function(bounds, border)
{
border = (border != null) ? border : 10;
var cw = this.container.clientWidth - border;
var ch = this.container.clientHeight - border;
var scale = Math.floor(20 * Math.min(cw / bounds.width, ch / bounds.height)) / 20;
this.zoomTo(scale);
if (mxUtils.hasScrollbars(this.container))
{
var t = this.view.translate;
this.container.scrollLeft = (bounds.x + t.x) * this.view.scale -
Math.max((cw - bounds.width * this.view.scale) / 2 + border / 2, 0);
this.container.scrollTop = (bounds.y + t.y) * this.view.scale -
Math.max((ch - bounds.height * this.view.scale) / 2 + border / 2, 0);
}
};
/**
* Overrides tooltips to show custom tooltip or metadata.
*/
Graph.prototype.convertValueToTooltip = function(cell)
{
var tmp = null;
if (mxUtils.isNode(cell.value))
{
if (Graph.translateDiagram && Graph.diagramLanguage != null)
{
tmp = cell.value.getAttribute('tooltip_' + Graph.diagramLanguage);
}
if (tmp == null)
{
tmp = cell.value.getAttribute('tooltip');
}
if (tmp != null)
{
if (tmp != null && this.isReplacePlaceholders(cell))
{
tmp = this.replacePlaceholders(cell, tmp);
}
tmp = Graph.sanitizeHtml(tmp);
}
}
return tmp;
};
/**
* Overrides tooltips to show custom tooltip or metadata.
*/
Graph.prototype.getTooltipForCell = function(cell)
{
var tip = '';
if (mxUtils.isNode(cell.value))
{
tip = this.convertValueToTooltip(cell);
if (tip == null)
{
var ignored = this.builtInProperties;
var attrs = cell.value.attributes;
var temp = [];
tip = '';
// Hides links in edit mode
if (this.isEnabled())
{
ignored.push('linkTarget');
ignored.push('link');
}
for (var i = 0; i < attrs.length; i++)
{
if (((Graph.translateDiagram && attrs[i].nodeName == 'label') ||
mxUtils.indexOf(ignored, attrs[i].nodeName) < 0) &&
attrs[i].nodeValue.length > 0)
{
temp.push({name: attrs[i].nodeName, value: attrs[i].nodeValue});
}
}
// Sorts by name
temp.sort(function(a, b)
{
if (a.name < b.name)
{
return -1;
}
else if (a.name > b.name)
{
return 1;
}
else
{
return 0;
}
});
for (var i = 0; i < temp.length; i++)
{
if (temp[i].name != 'link' || !this.isCustomLink(temp[i].value))
{
tip += ((temp[i].name != 'link') ? '<b>' + mxUtils.htmlEntities(temp[i].name) +
':</b> ' : '') + mxUtils.htmlEntities(temp[i].value) + '\n';
}
}
if (tip.length > 0)
{
tip = tip.substring(0, tip.length - 1);
if (mxClient.IS_SVG)
{
tip = '<div style="max-width:360px;text-overflow:ellipsis;overflow:hidden;">' +
tip + '</div>';
}
}
}
}
return tip;
};
/**
* Adds rack child layout style.
*/
Graph.prototype.getFlowAnimationStyle = function()
{
var head = document.getElementsByTagName('head')[0];
if (head != null && this.flowAnimationStyle == null)
{
this.flowAnimationStyle = document.createElement('style')
this.flowAnimationStyle.setAttribute('id',
'geEditorFlowAnimation-' + Editor.guid());
this.flowAnimationStyle.type = 'text/css';
var id = this.flowAnimationStyle.getAttribute('id');
this.flowAnimationStyle.innerHTML = this.getFlowAnimationStyleCss(id);
head.appendChild(this.flowAnimationStyle);
}
return this.flowAnimationStyle;
};
/**
* Adds rack child layout style.
*/
Graph.prototype.getFlowAnimationStyleCss = function(id)
{
return '.' + id + ' {\n' +
'animation: ' + id + ' 0.5s linear;\n' +
'animation-iteration-count: infinite;\n' +
'}\n' +
'@keyframes ' + id + ' {\n' +
'to {\n' +
'stroke-dashoffset: ' + (this.view.scale * -16) + ';\n' +
'}\n' +
'}';
};
/**
* Turns the given string into an array.
*/
Graph.prototype.stringToBytes = function(str)
{
return Graph.stringToBytes(str);
};
/**
* Turns the given array into a string.
*/
Graph.prototype.bytesToString = function(arr)
{
return Graph.bytesToString(arr);
};
/**
* Returns a base64 encoded version of the compressed outer XML of the given node.
*/
Graph.prototype.compressNode = function(node)
{
return Graph.compressNode(node);
};
/**
* Returns a base64 encoded version of the compressed string.
*/
Graph.prototype.compress = function(data, deflate)
{
return Graph.compress(data, deflate);
};
/**
* Returns a decompressed version of the base64 encoded string.
*/
Graph.prototype.decompress = function(data, inflate)
{
return Graph.decompress(data, inflate);
};
/**
* Redirects to Graph.zapGremlins.
*/
Graph.prototype.zapGremlins = function(text)
{
return Graph.zapGremlins(text);
};
/**
* Hover icons are used for hover, vertex handler and drag from sidebar.
*/
HoverIcons = function(graph)
{
mxEventSource.call(this);
this.graph = graph;
this.init();
};
// Extends mxEventSource
mxUtils.extend(HoverIcons, mxEventSource);
/**
* Up arrow.
*/
HoverIcons.prototype.arrowSpacing = 2;
/**
* Delay to switch to another state for overlapping bbox. Default is 500ms.
*/
HoverIcons.prototype.updateDelay = 500;
/**
* Delay to switch between states. Default is 140ms.
*/
HoverIcons.prototype.activationDelay = 140;
/**
* Up arrow.
*/
HoverIcons.prototype.currentState = null;
/**
* Up arrow.
*/
HoverIcons.prototype.activeArrow = null;
/**
* Up arrow.
*/
HoverIcons.prototype.inactiveOpacity = 15;
/**
* Up arrow.
*/
HoverIcons.prototype.cssCursor = 'copy';
/**
* Whether to hide arrows that collide with vertices.
* LATER: Add keyboard override, touch support.
*/
HoverIcons.prototype.checkCollisions = true;
/**
* Up arrow.
*/
HoverIcons.prototype.arrowFill = '#29b6f2';
/**
* Up arrow.
*/
HoverIcons.prototype.triangleUp = (!mxClient.IS_SVG) ? new mxImage(IMAGE_PATH + '/triangle-up.png', 26, 14) :
Graph.createSvgImage(18, 28, '<path d="m 6 26 L 12 26 L 12 12 L 18 12 L 9 1 L 1 12 L 6 12 z" ' +
'stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
/**
* Right arrow.
*/
HoverIcons.prototype.triangleRight = (!mxClient.IS_SVG) ? new mxImage(IMAGE_PATH + '/triangle-right.png', 14, 26) :
Graph.createSvgImage(26, 18, '<path d="m 1 6 L 14 6 L 14 1 L 26 9 L 14 18 L 14 12 L 1 12 z" ' +
'stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
/**
* Down arrow.
*/
HoverIcons.prototype.triangleDown = (!mxClient.IS_SVG) ? new mxImage(IMAGE_PATH + '/triangle-down.png', 26, 14) :
Graph.createSvgImage(18, 26, '<path d="m 6 1 L 6 14 L 1 14 L 9 26 L 18 14 L 12 14 L 12 1 z" ' +
'stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
/**
* Left arrow.
*/
HoverIcons.prototype.triangleLeft = (!mxClient.IS_SVG) ? new mxImage(IMAGE_PATH + '/triangle-left.png', 14, 26) :
Graph.createSvgImage(28, 18, '<path d="m 1 9 L 12 1 L 12 6 L 26 6 L 26 12 L 12 12 L 12 18 z" ' +
'stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
/**
* Round target.
*/
HoverIcons.prototype.roundDrop = (!mxClient.IS_SVG) ? new mxImage(IMAGE_PATH + '/round-drop.png', 26, 26) :
Graph.createSvgImage(26, 26, '<circle cx="13" cy="13" r="12" ' +
'stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
/**
* Refresh target.
*/
HoverIcons.prototype.refreshTarget = new mxImage((mxClient.IS_SVG) ? 'data:image/svg+xml;base64,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' :
IMAGE_PATH + '/refresh.png', 38, 38);
/**
* Tolerance for hover icon clicks.
*/
HoverIcons.prototype.tolerance = (mxClient.IS_TOUCH) ? 6 : 0;
/**
*
*/
HoverIcons.prototype.init = function()
{
this.arrowUp = this.createArrow(this.triangleUp, mxResources.get('plusTooltip'), mxConstants.DIRECTION_NORTH);
this.arrowRight = this.createArrow(this.triangleRight, mxResources.get('plusTooltip'), mxConstants.DIRECTION_EAST);
this.arrowDown = this.createArrow(this.triangleDown, mxResources.get('plusTooltip'), mxConstants.DIRECTION_SOUTH);
this.arrowLeft = this.createArrow(this.triangleLeft, mxResources.get('plusTooltip'), mxConstants.DIRECTION_WEST);
this.elts = [this.arrowUp, this.arrowRight, this.arrowDown, this.arrowLeft];
this.resetHandler = mxUtils.bind(this, function()
{
this.reset();
});
this.repaintHandler = mxUtils.bind(this, function()
{
this.repaint();
});
this.graph.selectionModel.addListener(mxEvent.CHANGE, this.resetHandler);
this.graph.model.addListener(mxEvent.CHANGE, this.repaintHandler);
this.graph.view.addListener(mxEvent.SCALE_AND_TRANSLATE, this.repaintHandler);
this.graph.view.addListener(mxEvent.TRANSLATE, this.repaintHandler);
this.graph.view.addListener(mxEvent.SCALE, this.repaintHandler);
this.graph.view.addListener(mxEvent.DOWN, this.repaintHandler);
this.graph.view.addListener(mxEvent.UP, this.repaintHandler);
this.graph.addListener(mxEvent.ROOT, this.repaintHandler);
this.graph.addListener(mxEvent.ESCAPE, this.resetHandler);
mxEvent.addListener(this.graph.container, 'scroll', this.resetHandler);
// Resets the mouse point on escape
this.graph.addListener(mxEvent.ESCAPE, mxUtils.bind(this, function()
{
this.mouseDownPoint = null;
}));
// Removes hover icons if mouse leaves the container
mxEvent.addListener(this.graph.container, 'mouseleave', mxUtils.bind(this, function(evt)
{
// Workaround for IE11 firing mouseleave for touch in diagram
if (evt.relatedTarget != null && mxEvent.getSource(evt) == this.graph.container)
{
this.setDisplay('none');
}
}));
// Resets current state when in-place editor starts
this.graph.addListener(mxEvent.START_EDITING, mxUtils.bind(this, function(evt)
{
this.reset();
}));
// Resets current state after update of selection state for touch events
var graphClick = this.graph.click;
this.graph.click = mxUtils.bind(this, function(me)
{
graphClick.apply(this.graph, arguments);
if (this.currentState != null && !this.graph.isCellSelected(this.currentState.cell) &&
mxEvent.isTouchEvent(me.getEvent()) && !this.graph.model.isVertex(me.getCell()))
{
this.reset();
}
});
// Checks if connection handler was active in mouse move
// as workaround for possible double connection inserted
var connectionHandlerActive = false;
// Implements a listener for hover and click handling
this.graph.addMouseListener(
{
mouseDown: mxUtils.bind(this, function(sender, me)
{
connectionHandlerActive = false;
var evt = me.getEvent();
if (this.isResetEvent(evt))
{
this.reset();
}
else if (!this.isActive())
{
var state = this.getState(me.getState());
if (state != null || !mxEvent.isTouchEvent(evt))
{
this.update(state);
}
}
this.setDisplay('none');
}),
mouseMove: mxUtils.bind(this, function(sender, me)
{
var evt = me.getEvent();
if (this.isResetEvent(evt))
{
this.reset();
}
else if (!this.graph.isMouseDown && !mxEvent.isTouchEvent(evt))
{
this.update(this.getState(me.getState()),
me.getGraphX(), me.getGraphY());
}
if (this.graph.connectionHandler != null &&
this.graph.connectionHandler.shape != null)
{
connectionHandlerActive = true;
}
}),
mouseUp: mxUtils.bind(this, function(sender, me)
{
var evt = me.getEvent();
var pt = mxUtils.convertPoint(this.graph.container,
mxEvent.getClientX(evt), mxEvent.getClientY(evt))
if (this.isResetEvent(evt))
{
this.reset();
}
else if (this.isActive() && !connectionHandlerActive &&
this.mouseDownPoint != null)
{
this.click(this.currentState, this.getDirection(), me);
}
else if (this.isActive())
{
// Selects target vertex after drag and clone if not only new edge was inserted
if (this.graph.getSelectionCount() != 1 || !this.graph.model.isEdge(
this.graph.getSelectionCell()))
{
this.update(this.getState(this.graph.view.getState(
this.graph.getCellAt(me.getGraphX(), me.getGraphY()))));
}
else
{
this.reset();
}
}
else if (mxEvent.isTouchEvent(evt) || (this.bbox != null &&
mxUtils.contains(this.bbox, me.getGraphX(), me.getGraphY())))
{
// Shows existing hover icons if inside bounding box
this.setDisplay('');
this.repaint();
}
else if (!mxEvent.isTouchEvent(evt))
{
this.reset();
}
connectionHandlerActive = false;
this.resetActiveArrow();
})
});
};
/**
*
*/
HoverIcons.prototype.isResetEvent = function(evt, allowShift)
{
return mxEvent.isAltDown(evt) || (this.activeArrow == null && mxEvent.isShiftDown(evt)) ||
(mxEvent.isPopupTrigger(evt) && !this.graph.isCloneEvent(evt));
};
/**
*
*/
HoverIcons.prototype.createArrow = function(img, tooltip, direction)
{
var arrow = null;
arrow = mxUtils.createImage(img.src);
arrow.style.width = img.width + 'px';
arrow.style.height = img.height + 'px';
arrow.style.padding = this.tolerance + 'px';
if (tooltip != null)
{
arrow.setAttribute('title', tooltip);
}
arrow.style.position = 'absolute';
arrow.style.cursor = this.cssCursor;
mxEvent.addGestureListeners(arrow, mxUtils.bind(this, function(evt)
{
if (this.currentState != null && !this.isResetEvent(evt))
{
this.mouseDownPoint = mxUtils.convertPoint(this.graph.container,
mxEvent.getClientX(evt), mxEvent.getClientY(evt));
this.drag(evt, this.mouseDownPoint.x, this.mouseDownPoint.y);
this.activeArrow = arrow;
this.setDisplay('none');
mxEvent.consume(evt);
}
}));
// Captures mouse events as events on graph
mxEvent.redirectMouseEvents(arrow, this.graph, this.currentState);
mxEvent.addListener(arrow, 'mouseenter', mxUtils.bind(this, function(evt)
{
// Workaround for Firefox firing mouseenter on touchend
if (mxEvent.isMouseEvent(evt))
{
if (this.activeArrow != null && this.activeArrow != arrow)
{
mxUtils.setOpacity(this.activeArrow, this.inactiveOpacity);
}
this.graph.connectionHandler.constraintHandler.reset();
mxUtils.setOpacity(arrow, 100);
this.activeArrow = arrow;
this.fireEvent(new mxEventObject('focus', 'arrow', arrow,
'direction', direction, 'event', evt));
}
}));
mxEvent.addListener(arrow, 'mouseleave', mxUtils.bind(this, function(evt)
{
if (mxEvent.isMouseEvent(evt))
{
this.fireEvent(new mxEventObject('blur', 'arrow', arrow,
'direction', direction, 'event', evt));
}
// Workaround for IE11 firing this event on touch
if (!this.graph.isMouseDown)
{
this.resetActiveArrow();
}
}));
return arrow;
};
/**
*
*/
HoverIcons.prototype.resetActiveArrow = function()
{
if (this.activeArrow != null)
{
mxUtils.setOpacity(this.activeArrow, this.inactiveOpacity);
this.activeArrow = null;
}
};
/**
*
*/
HoverIcons.prototype.getDirection = function()
{
var dir = mxConstants.DIRECTION_EAST;
if (this.activeArrow == this.arrowUp)
{
dir = mxConstants.DIRECTION_NORTH;
}
else if (this.activeArrow == this.arrowDown)
{
dir = mxConstants.DIRECTION_SOUTH;
}
else if (this.activeArrow == this.arrowLeft)
{
dir = mxConstants.DIRECTION_WEST;
}
return dir;
};
/**
*
*/
HoverIcons.prototype.visitNodes = function(visitor)
{
for (var i = 0; i < this.elts.length; i++)
{
if (this.elts[i] != null)
{
visitor(this.elts[i]);
}
}
};
/**
*
*/
HoverIcons.prototype.removeNodes = function()
{
this.visitNodes(function(elt)
{
if (elt.parentNode != null)
{
elt.parentNode.removeChild(elt);
}
});
};
/**
*
*/
HoverIcons.prototype.setDisplay = function(display)
{
this.visitNodes(function(elt)
{
elt.style.display = display;
});
};
/**
*
*/
HoverIcons.prototype.isActive = function()
{
return this.activeArrow != null && this.currentState != null;
};
/**
*
*/
HoverIcons.prototype.drag = function(evt, x, y)
{
this.graph.popupMenuHandler.hideMenu();
this.graph.stopEditing(false);
// Checks if state was removed in call to stopEditing above
if (this.currentState != null)
{
this.graph.connectionHandler.start(this.currentState, x, y);
this.graph.isMouseTrigger = mxEvent.isMouseEvent(evt);
this.graph.isMouseDown = true;
// Hides handles for selection cell
var handler = this.graph.selectionCellsHandler.getHandler(this.currentState.cell);
if (handler != null)
{
handler.setHandlesVisible(false);
}
// Ctrl+shift drag sets source constraint
var es = this.graph.connectionHandler.edgeState;
if (evt != null && mxEvent.isShiftDown(evt) && mxEvent.isControlDown(evt) && es != null &&
mxUtils.getValue(es.style, mxConstants.STYLE_EDGE, null) === 'orthogonalEdgeStyle')
{
var direction = this.getDirection();
es.cell.style = mxUtils.setStyle(es.cell.style, 'sourcePortConstraint', direction);
es.style['sourcePortConstraint'] = direction;
}
}
};
/**
*
*/
HoverIcons.prototype.getStateAt = function(state, x, y)
{
return this.graph.view.getState(this.graph.getCellAt(x, y));
};
/**
*
*/
HoverIcons.prototype.click = function(state, dir, me)
{
var evt = me.getEvent();
var x = me.getGraphX();
var y = me.getGraphY();
var tmp = this.getStateAt(state, x, y);
if (tmp != null && this.graph.model.isEdge(tmp.cell) && !this.graph.isCloneEvent(evt) &&
(tmp.getVisibleTerminalState(true) == state || tmp.getVisibleTerminalState(false) == state))
{
this.graph.setSelectionCell(tmp.cell);
this.reset();
}
else if (state != null)
{
this.execute(state, dir, me);
}
me.consume();
};
/**
*
*/
HoverIcons.prototype.execute = function(state, dir, me)
{
var evt = me.getEvent();
this.graph.selectCellsForConnectVertex(this.graph.connectVertex(
state.cell, dir, this.graph.defaultEdgeLength, evt, this.graph.isCloneEvent(evt),
this.graph.isCloneEvent(evt)), evt, this);
};
/**
*
*/
HoverIcons.prototype.reset = function(clearTimeout)
{
clearTimeout = (clearTimeout == null) ? true : clearTimeout;
if (clearTimeout && this.updateThread != null)
{
window.clearTimeout(this.updateThread);
}
this.mouseDownPoint = null;
this.currentState = null;
this.activeArrow = null;
this.removeNodes();
this.bbox = null;
this.fireEvent(new mxEventObject('reset'));
};
/**
*
*/
HoverIcons.prototype.repaint = function()
{
this.bbox = null;
if (this.currentState != null)
{
// Checks if cell was deleted
this.currentState = this.getState(this.currentState);
// Cell was deleted
if (this.currentState != null &&
this.graph.model.isVertex(this.currentState.cell) &&
this.graph.isCellConnectable(this.currentState.cell))
{
var bds = mxRectangle.fromRectangle(this.currentState);
// Uses outer bounding box to take rotation into account
if (this.currentState.shape != null && this.currentState.shape.boundingBox != null)
{
bds = mxRectangle.fromRectangle(this.currentState.shape.boundingBox);
}
bds.grow(this.graph.tolerance);
bds.grow(this.arrowSpacing);
var handler = this.graph.selectionCellsHandler.getHandler(this.currentState.cell);
if (this.graph.isTableRow(this.currentState.cell))
{
handler = this.graph.selectionCellsHandler.getHandler(
this.graph.model.getParent(this.currentState.cell));
}
var rotationBbox = null;
if (handler != null)
{
bds.x -= handler.horizontalOffset / 2;
bds.y -= handler.verticalOffset / 2;
bds.width += handler.horizontalOffset;
bds.height += handler.verticalOffset;
// Adds bounding box of rotation handle to avoid overlap
if (handler.rotationShape != null && handler.rotationShape.node != null &&
handler.rotationShape.node.style.visibility != 'hidden' &&
handler.rotationShape.node.style.display != 'none' &&
handler.rotationShape.boundingBox != null)
{
rotationBbox = handler.rotationShape.boundingBox;
}
}
// Positions arrows avoid collisions with rotation handle
var positionArrow = mxUtils.bind(this, function(arrow, x, y)
{
if (rotationBbox != null)
{
var bbox = new mxRectangle(x, y, arrow.clientWidth, arrow.clientHeight);
if (mxUtils.intersects(bbox, rotationBbox))
{
if (arrow == this.arrowUp)
{
y -= bbox.y + bbox.height - rotationBbox.y;
}
else if (arrow == this.arrowRight)
{
x += rotationBbox.x + rotationBbox.width - bbox.x;
}
else if (arrow == this.arrowDown)
{
y += rotationBbox.y + rotationBbox.height - bbox.y;
}
else if (arrow == this.arrowLeft)
{
x -= bbox.x + bbox.width - rotationBbox.x;
}
}
}
arrow.style.left = x + 'px';
arrow.style.top = y + 'px';
mxUtils.setOpacity(arrow, this.inactiveOpacity);
});
positionArrow(this.arrowUp,
Math.round(this.currentState.getCenterX() - this.triangleUp.width / 2 - this.tolerance),
Math.round(bds.y - this.triangleUp.height - this.tolerance));
positionArrow(this.arrowRight, Math.round(bds.x + bds.width - this.tolerance),
Math.round(this.currentState.getCenterY() - this.triangleRight.height / 2 - this.tolerance));
positionArrow(this.arrowDown, parseInt(this.arrowUp.style.left),
Math.round(bds.y + bds.height - this.tolerance));
positionArrow(this.arrowLeft, Math.round(bds.x - this.triangleLeft.width - this.tolerance),
parseInt(this.arrowRight.style.top));
if (this.checkCollisions)
{
var right = this.graph.getCellAt(bds.x + bds.width +
this.triangleRight.width / 2, this.currentState.getCenterY());
var left = this.graph.getCellAt(bds.x - this.triangleLeft.width / 2, this.currentState.getCenterY());
var top = this.graph.getCellAt(this.currentState.getCenterX(), bds.y - this.triangleUp.height / 2);
var bottom = this.graph.getCellAt(this.currentState.getCenterX(), bds.y + bds.height + this.triangleDown.height / 2);
// Shows hover icons large cell is behind all directions of current cell
if (right != null && right == left && left == top && top == bottom)
{
right = null;
left = null;
top = null;
bottom = null;
}
var currentGeo = this.graph.getCellGeometry(this.currentState.cell);
var checkCollision = mxUtils.bind(this, function(cell, arrow)
{
var geo = this.graph.model.isVertex(cell) && this.graph.getCellGeometry(cell);
// Ignores collision if vertex is more than 3 times the size of this vertex
if (cell != null && !this.graph.model.isAncestor(cell, this.currentState.cell) &&
!this.graph.isSwimlane(cell) && (geo == null || currentGeo == null ||
(geo.height < 3 * currentGeo.height && geo.width < 3 * currentGeo.width)))
{
arrow.style.visibility = 'hidden';
}
else
{
arrow.style.visibility = 'visible';
}
});
checkCollision(right, this.arrowRight);
checkCollision(left, this.arrowLeft);
checkCollision(top, this.arrowUp);
checkCollision(bottom, this.arrowDown);
}
else
{
this.arrowLeft.style.visibility = 'visible';
this.arrowRight.style.visibility = 'visible';
this.arrowUp.style.visibility = 'visible';
this.arrowDown.style.visibility = 'visible';
}
if (this.graph.tooltipHandler.isEnabled())
{
this.arrowLeft.setAttribute('title', mxResources.get('plusTooltip'));
this.arrowRight.setAttribute('title', mxResources.get('plusTooltip'));
this.arrowUp.setAttribute('title', mxResources.get('plusTooltip'));
this.arrowDown.setAttribute('title', mxResources.get('plusTooltip'));
}
else
{
this.arrowLeft.removeAttribute('title');
this.arrowRight.removeAttribute('title');
this.arrowUp.removeAttribute('title');
this.arrowDown.removeAttribute('title');
}
}
else
{
this.reset();
}
// Updates bounding box
if (this.currentState != null)
{
this.bbox = this.computeBoundingBox();
// Adds tolerance for hover
if (this.bbox != null)
{
this.bbox.grow(10);
}
}
}
};
/**
*
*/
HoverIcons.prototype.computeBoundingBox = function()
{
var bbox = (!this.graph.model.isEdge(this.currentState.cell)) ? mxRectangle.fromRectangle(this.currentState) : null;
this.visitNodes(function(elt)
{
if (elt.parentNode != null)
{
var tmp = new mxRectangle(elt.offsetLeft, elt.offsetTop, elt.offsetWidth, elt.offsetHeight);
if (bbox == null)
{
bbox = tmp;
}
else
{
bbox.add(tmp);
}
}
});
return bbox;
};
/**
*
*/
HoverIcons.prototype.getState = function(state)
{
if (state != null)
{
var cell = state.cell;
if (!this.graph.getModel().contains(cell))
{
state = null;
}
else
{
// Uses connectable parent vertex if child is not connectable
if (this.graph.getModel().isVertex(cell) && !this.graph.isCellConnectable(cell))
{
var parent = this.graph.getModel().getParent(cell);
if (this.graph.getModel().isVertex(parent) && this.graph.isCellConnectable(parent))
{
cell = parent;
}
}
// Ignores locked cells and edges
if (this.graph.isCellLocked(cell) || this.graph.model.isEdge(cell))
{
cell = null;
}
state = this.graph.view.getState(cell);
if (state != null && state.style == null)
{
state = null;
}
}
}
return state;
};
/**
*
*/
HoverIcons.prototype.update = function(state, x, y)
{
if (!this.graph.connectionArrowsEnabled ||
(this.graph.freehand != null && this.graph.freehand.isDrawing()) ||
(state != null && mxUtils.getValue(state.style, 'allowArrows', '1') == '0'))
{
this.reset();
}
else
{
if (state != null && state.cell.geometry != null && state.cell.geometry.relative &&
this.graph.model.isEdge(state.cell.parent))
{
state = null;
}
var timeOnTarget = null;
// Time on target
if (this.prev != state || this.isActive())
{
this.startTime = new Date().getTime();
this.prev = state;
timeOnTarget = 0;
if (this.updateThread != null)
{
window.clearTimeout(this.updateThread);
}
if (state != null)
{
// Starts timer to update current state with no mouse events
this.updateThread = window.setTimeout(mxUtils.bind(this, function()
{
if (!this.isActive() && !this.graph.isMouseDown &&
!this.graph.panningHandler.isActive())
{
this.prev = state;
this.update(state, x, y);
}
}), this.updateDelay + 10);
}
}
else if (this.startTime != null)
{
timeOnTarget = new Date().getTime() - this.startTime;
}
this.setDisplay('');
if (this.currentState != null && this.currentState != state && timeOnTarget < this.activationDelay &&
this.bbox != null && !mxUtils.contains(this.bbox, x, y))
{
this.reset(false);
}
else if (this.currentState != null || timeOnTarget > this.activationDelay)
{
if (this.currentState != state && ((timeOnTarget > this.updateDelay && state != null) ||
this.bbox == null || x == null || y == null || !mxUtils.contains(this.bbox, x, y)))
{
if (state != null && this.graph.isEnabled())
{
this.removeNodes();
this.setCurrentState(state);
this.repaint();
// Resets connection points on other focused cells
if (this.graph.connectionHandler.constraintHandler.currentFocus != state)
{
this.graph.connectionHandler.constraintHandler.reset();
}
}
else
{
this.reset();
}
}
}
}
};
/**
*
*/
HoverIcons.prototype.setCurrentState = function(state)
{
if (state.style['portConstraint'] != 'eastwest')
{
this.graph.container.appendChild(this.arrowUp);
this.graph.container.appendChild(this.arrowDown);
}
this.graph.container.appendChild(this.arrowRight);
this.graph.container.appendChild(this.arrowLeft);
this.currentState = state;
};
/**
* Returns true if the given cell is a table.
*/
Graph.prototype.removeTextStyleForCell = function(cell, removeCellStyles)
{
var style = this.getCurrentCellStyle(cell);
var result = false;
this.getModel().beginUpdate();
try
{
if (mxUtils.getValue(style, 'html', '0') == '1')
{
var label = this.convertValueToString(cell);
if (mxUtils.getValue(style, 'nl2Br', '1') != '0')
{
// Removes newlines from HTML and converts breaks to newlines
// to match the HTML output in plain text
label = label.replace(/\n/g, '').replace(/<br\s*.?>/g, '\n');
}
label = Editor.convertHtmlToText(label);
this.cellLabelChanged(cell, label);
result = true;
}
if (removeCellStyles)
{
this.setCellStyles('fontSource', null, [cell]);
this.setCellStyles(mxConstants.STYLE_FONTFAMILY, null, [cell]);
this.setCellStyles(mxConstants.STYLE_FONTSIZE, null, [cell]);
this.setCellStyles(mxConstants.STYLE_FONTSTYLE, null, [cell]);
this.setCellStyles(mxConstants.STYLE_FONTCOLOR, null, [cell]);
this.setCellStyles(mxConstants.STYLE_LABEL_BORDERCOLOR, null, [cell]);
this.setCellStyles(mxConstants.STYLE_LABEL_BACKGROUNDCOLOR, null, [cell]);
}
}
finally
{
this.getModel().endUpdate();
}
return result;
};
/**
* Returns true if the given cell is a table.
*/
Graph.prototype.createParent = function(parent, child, childCount, dx, dy)
{
parent = this.cloneCell(parent);
for (var i = 0; i < childCount; i++)
{
var clone = this.cloneCell(child);
var geo = this.getCellGeometry(clone)
if (geo != null)
{
geo.x += i * dx;
geo.y += i * dy;
}
parent.insert(clone);
}
return parent;
};
/**
* Returns true if the given cell is a table.
*/
Graph.prototype.createTable = function(rowCount, colCount, w, h, title, startSize, tableStyle, rowStyle, cellStyle)
{
w = (w != null) ? w : 60;
h = (h != null) ? h : 40;
startSize = (startSize != null) ? startSize : 30;
tableStyle = (tableStyle != null) ? tableStyle : 'shape=table;startSize=' +
((title != null) ? startSize : '0') + ';container=1;collapsible=0;childLayout=tableLayout;';
rowStyle = (rowStyle != null) ? rowStyle : 'shape=tableRow;horizontal=0;startSize=0;swimlaneHead=0;swimlaneBody=0;strokeColor=inherit;' +
'top=0;left=0;bottom=0;right=0;collapsible=0;dropTarget=0;fillColor=none;points=[[0,0.5],[1,0.5]];portConstraint=eastwest;';
cellStyle = (cellStyle != null) ? cellStyle : 'shape=partialRectangle;html=1;whiteSpace=wrap;connectable=0;strokeColor=inherit;' +
'overflow=hidden;fillColor=none;top=0;left=0;bottom=0;right=0;pointerEvents=1;';
return this.createParent(this.createVertex(null, null, (title != null) ? title : '',
0, 0, colCount * w, rowCount * h + ((title != null) ? startSize : 0), tableStyle),
this.createParent(this.createVertex(null, null, '', 0, 0, colCount * w, h, rowStyle),
this.createVertex(null, null, '', 0, 0, w, h, cellStyle),
colCount, w, 0), rowCount, 0, h);
};
/**
* Sets the values for the cells and rows in the given table and returns the table.
*/
Graph.prototype.setTableValues = function(table, values, rowValues)
{
var rows = this.model.getChildCells(table, true);
for (var i = 0; i < rows.length; i++)
{
if (rowValues != null)
{
rows[i].value = rowValues[i];
}
if (values != null)
{
var cells = this.model.getChildCells(rows[i], true);
for (var j = 0; j < cells.length; j++)
{
if (values[i][j] != null)
{
cells[j].value = values[i][j];
}
}
}
}
return table;
};
/**
*
*/
Graph.prototype.createCrossFunctionalSwimlane = function(rowCount, colCount, w, h, title, tableStyle, rowStyle, firstCellStyle, cellStyle)
{
w = (w != null) ? w : 120;
h = (h != null) ? h : 120;
var s = 'collapsible=0;recursiveResize=0;expand=0;';
tableStyle = (tableStyle != null) ? tableStyle : 'shape=table;childLayout=tableLayout;' +
((title == null) ? 'startSize=0;fillColor=none;' : 'startSize=40;') + s;
rowStyle = (rowStyle != null) ? rowStyle : 'shape=tableRow;horizontal=0;swimlaneHead=0;swimlaneBody=0;top=0;left=0;strokeColor=inherit;' +
'bottom=0;right=0;dropTarget=0;fontStyle=0;fillColor=none;points=[[0,0.5],[1,0.5]];portConstraint=eastwest;startSize=40;' + s;
firstCellStyle = (firstCellStyle != null) ? firstCellStyle : 'swimlane;swimlaneHead=0;swimlaneBody=0;fontStyle=0;strokeColor=inherit;' +
'connectable=0;fillColor=none;startSize=40;' + s;
cellStyle = (cellStyle != null) ? cellStyle : 'swimlane;swimlaneHead=0;swimlaneBody=0;fontStyle=0;connectable=0;strokeColor=inherit;' +
'fillColor=none;startSize=0;' + s;
var table = this.createVertex(null, null, (title != null) ? title : '', 0, 0,
colCount * w, rowCount * h, tableStyle);
var t = mxUtils.getValue(this.getCellStyle(table), mxConstants.STYLE_STARTSIZE,
mxConstants.DEFAULT_STARTSIZE);
table.geometry.width += t;
table.geometry.height += t;
var row = this.createVertex(null, null, '', 0, t, colCount * w + t, h, rowStyle);
table.insert(this.createParent(row, this.createVertex(null, null,
'', t, 0, w, h, firstCellStyle), colCount, w, 0));
if (rowCount > 1)
{
row.geometry.y = h + t;
return this.createParent(table, this.createParent(row,
this.createVertex(null, null, '', t, 0, w, h, cellStyle),
colCount, w, 0), rowCount - 1, 0, h);
}
else
{
return table;
}
};
/**
* Returns the row and column lines for the given table.
*/
Graph.prototype.visitTableCells = function(cell, visitor)
{
var lastRow = null;
var rows = this.model.getChildCells(cell, true);
var start = this.getActualStartSize(cell, true);
for (var i = 0; i < rows.length; i++)
{
var rowStart = this.getActualStartSize(rows[i], true);
var cols = this.model.getChildCells(rows[i], true);
var rowStyle = this.getCellStyle(rows[i], true);
var lastCol = null;
var row = [];
for (var j = 0; j < cols.length; j++)
{
var geo = this.getCellGeometry(cols[j]);
var col = {cell: cols[j], rospan: 1, colspan: 1, row: i, col: j, geo: geo};
geo = (geo.alternateBounds != null) ? geo.alternateBounds : geo;
col.point = new mxPoint(geo.width + (lastCol != null ? lastCol.point.x : start.x + rowStart.x),
geo.height + (lastRow != null && lastRow[0] != null ? lastRow[0].point.y : start.y + rowStart.y));
col.actual = col;
if (lastRow != null && lastRow[j] != null && lastRow[j].rowspan > 1)
{
col.rowspan = lastRow[j].rowspan - 1;
col.colspan = lastRow[j].colspan;
col.actual = lastRow[j].actual;
}
else
{
if (lastCol != null && lastCol.colspan > 1)
{
col.rowspan = lastCol.rowspan;
col.colspan = lastCol.colspan - 1;
col.actual = lastCol.actual;
}
else
{
var style = this.getCurrentCellStyle(cols[j], true);
if (style != null)
{
col.rowspan = parseInt(style['rowspan'] || 1);
col.colspan = parseInt(style['colspan'] || 1);
}
}
}
var head = mxUtils.getValue(rowStyle, mxConstants.STYLE_SWIMLANE_HEAD, 1) == 1 &&
mxUtils.getValue(rowStyle, mxConstants.STYLE_STROKECOLOR,
mxConstants.NONE) != mxConstants.NONE;
visitor(col, cols.length, rows.length,
start.x + ((head) ? rowStart.x : 0),
start.y + ((head) ? rowStart.y : 0));
row.push(col);
lastCol = col;
}
lastRow = row;
}
};
/**
* Returns the row and column lines for the given table.
*/
Graph.prototype.getTableLines = function(cell, horizontal, vertical)
{
var hl = [];
var vl = [];
if (horizontal || vertical)
{
this.visitTableCells(cell, mxUtils.bind(this, function(iter, colCount, rowCount, x0, y0)
{
// Constructs horizontal lines
if (horizontal && iter.row < rowCount - 1)
{
if (hl[iter.row] == null)
{
hl[iter.row] = [new mxPoint(x0, iter.point.y)];
}
if (iter.rowspan > 1)
{
hl[iter.row].push(null);
}
hl[iter.row].push(iter.point);
}
// Constructs vertical lines
if (vertical && iter.col < colCount - 1)
{
if (vl[iter.col] == null)
{
vl[iter.col] = [new mxPoint(iter.point.x, y0)];
}
if (iter.colspan > 1)
{
vl[iter.col].push(null);
}
vl[iter.col].push(iter.point);
}
}));
}
return hl.concat(vl);
};
/**
* Returns true if the given cell is a table cell.
*/
Graph.prototype.isTableCell = function(cell)
{
return this.model.isVertex(cell) && this.isTableRow(this.model.getParent(cell));
};
/**
* Returns true if the given cell is a table row.
*/
Graph.prototype.isTableRow = function(cell)
{
return this.model.isVertex(cell) && this.isTable(this.model.getParent(cell));
};
/**
* Returns true if the given cell is a table.
*/
Graph.prototype.isTable = function(cell)
{
var style = this.getCellStyle(cell);
return style != null && style['childLayout'] == 'tableLayout';
};
/**
* Returns true if the given cell is a table.
*/
Graph.prototype.isStack = function(cell)
{
var style = this.getCellStyle(cell);
return style != null && style['childLayout'] == 'stackLayout';
};
/**
* Returns true if the given cell is a table row.
*/
Graph.prototype.isStackChild = function(cell)
{
return this.model.isVertex(cell) && this.isStack(this.model.getParent(cell));
};
/**
* Updates the row and table heights.
*/
Graph.prototype.setTableRowHeight = function(row, dy, extend)
{
extend = (extend != null) ? extend : true;
var model = this.getModel();
model.beginUpdate();
try
{
var rgeo = this.getCellGeometry(row);
// Sets height of row
if (rgeo != null)
{
rgeo = rgeo.clone();
rgeo.height += dy;
model.setGeometry(row, rgeo);
var table = model.getParent(row);
var rows = model.getChildCells(table, true);
// Shifts and resizes neighbor row
if (!extend)
{
var index = mxUtils.indexOf(rows, row);
if (index < rows.length - 1)
{
var nextRow = rows[index + 1];
var geo = this.getCellGeometry(nextRow);
if (geo != null)
{
geo = geo.clone();
geo.y += dy;
geo.height -= dy;
model.setGeometry(nextRow, geo);
}
}
}
// Updates height of table
var tgeo = this.getCellGeometry(table);
if (tgeo != null)
{
// Always extends for last row
if (!extend)
{
extend = row == rows[rows.length - 1];
}
if (extend)
{
tgeo = tgeo.clone();
tgeo.height += dy;
model.setGeometry(table, tgeo);
}
}
}
}
finally
{
model.endUpdate();
}
};
/**
* Updates column width and row height.
*/
Graph.prototype.setTableColumnWidth = function(col, dx, extend)
{
extend = (extend != null) ? extend : false;
var model = this.getModel();
var row = model.getParent(col);
var table = model.getParent(row);
var cells = model.getChildCells(row, true);
var index = mxUtils.indexOf(cells, col);
var lastColumn = index == cells.length - 1;
model.beginUpdate();
try
{
// Sets width of child cell
var rows = model.getChildCells(table, true);
for (var i = 0; i < rows.length; i++)
{
row = rows[i];
cells = model.getChildCells(row, true);
var cell = cells[index];
var geo = this.getCellGeometry(cell);
if (geo != null)
{
geo = geo.clone();
geo.width += dx;
if (geo.alternateBounds != null)
{
geo.alternateBounds.width += dx;
}
model.setGeometry(cell, geo);
}
// Shifts and resizes neighbor column
if (index < cells.length - 1)
{
cell = cells[index + 1];
var geo = this.getCellGeometry(cell);
if (geo != null)
{
geo = geo.clone();
geo.x += dx;
if (!extend)
{
geo.width -= dx;
if (geo.alternateBounds != null)
{
geo.alternateBounds.width -= dx;
}
}
model.setGeometry(cell, geo);
}
}
}
if (lastColumn || extend)
{
// Updates width of table
var tgeo = this.getCellGeometry(table);
if (tgeo != null)
{
tgeo = tgeo.clone();
tgeo.width += dx;
model.setGeometry(table, tgeo);
}
}
if (this.layoutManager != null)
{
this.layoutManager.executeLayout(table);
}
}
finally
{
model.endUpdate();
}
};
/**
* Special Layout for tables.
*/
function TableLayout(graph)
{
mxGraphLayout.call(this, graph);
};
/**
* Extends mxGraphLayout.
*/
TableLayout.prototype = new mxStackLayout();
TableLayout.prototype.constructor = TableLayout;
/**
* Function: isHorizontal
*
* Overrides stack layout to handle row reorder.
*/
TableLayout.prototype.isHorizontal = function()
{
return false;
};
/**
* Function: isVertexIgnored
*
* Overrides to allow for table rows and cells.
*/
TableLayout.prototype.isVertexIgnored = function(vertex)
{
return !this.graph.getModel().isVertex(vertex) ||
!this.graph.isCellVisible(vertex);
};
/**
* Function: getSize
*
* Returns the total vertical or horizontal size of the given cells.
*/
TableLayout.prototype.getSize = function(cells, horizontal)
{
var total = 0;
for (var i = 0; i < cells.length; i++)
{
if (!this.isVertexIgnored(cells[i]))
{
var geo = this.graph.getCellGeometry(cells[i]);
if (geo != null)
{
total += (horizontal) ? geo.width : geo.height;
}
}
}
return total;
};
/**
* Function: getRowLayout
*
* Returns the column positions for the given row and table width.
*/
TableLayout.prototype.getRowLayout = function(row, width)
{
var cells = this.graph.model.getChildCells(row, true);
var off = this.graph.getActualStartSize(row, true);
var sw = this.getSize(cells, true);
var rw = width - off.x - off.width;
var result = [];
var x = off.x;
for (var i = 0; i < cells.length; i++)
{
var geo = this.graph.getCellGeometry(cells[i]);
if (geo != null)
{
x += (geo.alternateBounds != null ?
geo.alternateBounds.width :
geo.width) * rw / sw;
result.push(Math.round(x));
}
}
return result;
};
/**
* Function: layoutRow
*
* Places the cells at the given positions in the given row.
*/
TableLayout.prototype.layoutRow = function(row, positions, height, tw)
{
var model = this.graph.getModel();
var cells = model.getChildCells(row, true);
var off = this.graph.getActualStartSize(row, true);
var x = off.x;
var sw = 0;
if (positions != null)
{
positions = positions.slice();
positions.splice(0, 0, off.x);
}
for (var i = 0; i < cells.length; i++)
{
var geo = this.graph.getCellGeometry(cells[i]);
if (geo != null)
{
geo = geo.clone();
geo.y = off.y;
geo.height = height - off.y - off.height;
if (positions != null)
{
geo.x = positions[i];
geo.width = positions[i + 1] - geo.x;
// Fills with last geo if not enough cells
if (i == cells.length - 1 && i < positions.length - 2)
{
geo.width = tw - geo.x - off.x - off.width;
}
}
else
{
geo.x = x;
x += geo.width;
if (i == cells.length - 1)
{
geo.width = tw - off.x - off.width - sw;
}
else
{
sw += geo.width;
}
}
geo.alternateBounds = new mxRectangle(0, 0, geo.width, geo.height);
model.setGeometry(cells[i], geo);
}
}
return sw;
};
/**
* Function: execute
*
* Implements <mxGraphLayout.execute>.
*/
TableLayout.prototype.execute = function(parent)
{
if (parent != null)
{
var offset = this.graph.getActualStartSize(parent, true);
var table = this.graph.getCellGeometry(parent);
var style = this.graph.getCellStyle(parent);
var resizeLastRow = mxUtils.getValue(style,
'resizeLastRow', '0') == '1';
var resizeLast = mxUtils.getValue(style,
'resizeLast', '0') == '1';
var fixedRows = mxUtils.getValue(style,
'fixedRows', '0') == '1';
var model = this.graph.getModel();
var sw = 0;
model.beginUpdate();
try
{
var th = table.height - offset.y - offset.height;
var tw = table.width - offset.x - offset.width;
var rows = model.getChildCells(parent, true);
// Updates row visibilities
for (var i = 0; i < rows.length; i++)
{
model.setVisible(rows[i], true);
}
var sh = this.getSize(rows, false);
if (th > 0 && tw > 0 && rows.length > 0 && sh > 0)
{
if (resizeLastRow)
{
var row = this.graph.getCellGeometry(rows[rows.length - 1]);
if (row != null)
{
row = row.clone();
row.height = th - sh + row.height;
model.setGeometry(rows[rows.length - 1], row);
}
}
var pos = (resizeLast) ? null : this.getRowLayout(rows[0], tw);
var lastCells = [];
var y = offset.y;
// Updates row geometries
for (var i = 0; i < rows.length; i++)
{
var row = this.graph.getCellGeometry(rows[i]);
if (row != null)
{
row = row.clone();
row.x = offset.x;
row.width = tw;
row.y = Math.round(y);
if (resizeLastRow || fixedRows)
{
y += row.height;
}
else
{
y += (row.height / sh) * th;
}
row.height = Math.round(y) - row.y;
model.setGeometry(rows[i], row);
}
// Updates cell geometries
sw = Math.max(sw, this.layoutRow(rows[i], pos, row.height, tw, lastCells));
}
if (fixedRows && th < sh)
{
table = table.clone();
table.height = y + offset.height;
model.setGeometry(parent, table);
}
if (resizeLast && tw < sw + Graph.minTableColumnWidth)
{
table = table.clone();
table.width = sw + offset.width + offset.x + Graph.minTableColumnWidth;
model.setGeometry(parent, table);
}
// All geometries cloned at this point so can change in-place below
this.graph.visitTableCells(parent, mxUtils.bind(this, function(iter)
{
model.setVisible(iter.cell, iter.actual.cell == iter.cell);
if (iter.actual.cell != iter.cell)
{
if (iter.actual.row == iter.row)
{
var g = (iter.geo.alternateBounds != null) ?
iter.geo.alternateBounds : iter.geo;
iter.actual.geo.width += g.width;
}
if (iter.actual.col == iter.col)
{
var g = (iter.geo.alternateBounds != null) ?
iter.geo.alternateBounds : iter.geo;
iter.actual.geo.height += g.height;
}
}
}));
}
else
{
// Updates row visibilities
for (var i = 0; i < rows.length; i++)
{
model.setVisible(rows[i], false);
}
}
}
finally
{
model.endUpdate();
}
}
};
(function()
{
/**
* Reset the list of processed edges.
*/
var mxGraphViewResetValidationState = mxGraphView.prototype.resetValidationState;
mxGraphView.prototype.resetValidationState = function()
{
mxGraphViewResetValidationState.apply(this, arguments);
this.validEdges = [];
};
/**
* Updates jumps for valid edges and repaints if needed.
*/
var mxGraphViewValidateCellState = mxGraphView.prototype.validateCellState;
mxGraphView.prototype.validateCellState = function(cell, recurse)
{
recurse = (recurse != null) ? recurse : true;
var state = this.getState(cell);
// Forces repaint if jumps change on a valid edge
if (state != null && recurse && this.graph.model.isEdge(state.cell) &&
state.style != null && state.style[mxConstants.STYLE_CURVED] != 1 &&
!state.invalid && this.updateLineJumps(state))
{
this.graph.cellRenderer.redraw(state, false, this.isRendering());
}
state = mxGraphViewValidateCellState.apply(this, arguments);
// Adds to the list of edges that may intersect with later edges
if (state != null && recurse && this.graph.model.isEdge(state.cell) &&
state.style != null && state.style[mxConstants.STYLE_CURVED] != 1)
{
// LATER: Reuse jumps for valid edges
this.validEdges.push(state);
}
return state;
};
/**
* Overrides paint to add flowAnimation style.
*/
var mxShapePaint = mxShape.prototype.paint;
mxShape.prototype.paint = function()
{
mxShapePaint.apply(this, arguments);
if (this.state != null && this.node != null &&
this.state.view.graph.enableFlowAnimation &&
this.state.view.graph.model.isEdge(this.state.cell) &&
mxUtils.getValue(this.state.style, 'flowAnimation', '0') == '1')
{
var paths = this.node.getElementsByTagName('path');
if (paths.length > 1)
{
if (mxUtils.getValue(this.state.style, mxConstants.STYLE_DASHED, '0') != '1')
{
paths[1].setAttribute('stroke-dasharray', (this.state.view.scale * 8));
}
var anim = this.state.view.graph.getFlowAnimationStyle();
if (anim != null)
{
paths[1].setAttribute('class', anim.getAttribute('id'));
}
}
}
};
/**
* Forces repaint if routed points have changed.
*/
var mxCellRendererIsShapeInvalid = mxCellRenderer.prototype.isShapeInvalid;
mxCellRenderer.prototype.isShapeInvalid = function(state, shape)
{
return mxCellRendererIsShapeInvalid.apply(this, arguments) ||
(state.routedPoints != null && shape.routedPoints != null &&
!mxUtils.equalPoints(shape.routedPoints, state.routedPoints))
};
/**
* Updates jumps for invalid edges.
*/
var mxGraphViewUpdateCellState = mxGraphView.prototype.updateCellState;
mxGraphView.prototype.updateCellState = function(state)
{
mxGraphViewUpdateCellState.apply(this, arguments);
// Updates jumps on invalid edge before repaint
if (this.graph.model.isEdge(state.cell) &&
state.style[mxConstants.STYLE_CURVED] != 1)
{
this.updateLineJumps(state);
}
};
/**
* Updates the jumps between given state and processed edges.
*/
mxGraphView.prototype.updateLineJumps = function(state)
{
var pts = state.absolutePoints;
if (Graph.lineJumpsEnabled)
{
var changed = state.routedPoints != null;
var actual = null;
if (pts != null && this.validEdges != null &&
mxUtils.getValue(state.style, 'jumpStyle', 'none') !== 'none')
{
var thresh = 0.5 * this.scale;
changed = false;
actual = [];
// Type 0 means normal waypoint, 1 means jump
function addPoint(type, x, y)
{
var rpt = new mxPoint(x, y);
rpt.type = type;
actual.push(rpt);
var curr = (state.routedPoints != null) ? state.routedPoints[actual.length - 1] : null;
return curr == null || curr.type != type || curr.x != x || curr.y != y;
};
for (var i = 0; i < pts.length - 1; i++)
{
var p1 = pts[i + 1];
var p0 = pts[i];
var list = [];
// Ignores waypoints on straight segments
var pn = pts[i + 2];
while (i < pts.length - 2 &&
mxUtils.ptSegDistSq(p0.x, p0.y, pn.x, pn.y,
p1.x, p1.y) < 1 * this.scale * this.scale)
{
p1 = pn;
i++;
pn = pts[i + 2];
}
changed = addPoint(0, p0.x, p0.y) || changed;
// Processes all previous edges
for (var e = 0; e < this.validEdges.length; e++)
{
var state2 = this.validEdges[e];
var pts2 = state2.absolutePoints;
if (pts2 != null && mxUtils.intersects(state, state2) && state2.style['noJump'] != '1')
{
// Compares each segment of the edge with the current segment
for (var j = 0; j < pts2.length - 1; j++)
{
var p3 = pts2[j + 1];
var p2 = pts2[j];
// Ignores waypoints on straight segments
pn = pts2[j + 2];
while (j < pts2.length - 2 &&
mxUtils.ptSegDistSq(p2.x, p2.y, pn.x, pn.y,
p3.x, p3.y) < 1 * this.scale * this.scale)
{
p3 = pn;
j++;
pn = pts2[j + 2];
}
var pt = mxUtils.intersection(p0.x, p0.y, p1.x, p1.y, p2.x, p2.y, p3.x, p3.y);
// Handles intersection between two segments
if (pt != null && (Math.abs(pt.x - p0.x) > thresh ||
Math.abs(pt.y - p0.y) > thresh) &&
(Math.abs(pt.x - p1.x) > thresh ||
Math.abs(pt.y - p1.y) > thresh))
{
var dx = pt.x - p0.x;
var dy = pt.y - p0.y;
var temp = {distSq: dx * dx + dy * dy, x: pt.x, y: pt.y};
// Intersections must be ordered by distance from start of segment
for (var t = 0; t < list.length; t++)
{
if (list[t].distSq > temp.distSq)
{
list.splice(t, 0, temp);
temp = null;
break;
}
}
// Ignores multiple intersections at segment joint
if (temp != null && (list.length == 0 ||
list[list.length - 1].x !== temp.x ||
list[list.length - 1].y !== temp.y))
{
list.push(temp);
}
}
}
}
}
// Adds ordered intersections to routed points
for (var j = 0; j < list.length; j++)
{
changed = addPoint(1, list[j].x, list[j].y) || changed;
}
}
var pt = pts[pts.length - 1];
changed = addPoint(0, pt.x, pt.y) || changed;
}
state.routedPoints = actual;
return changed;
}
else
{
return false;
}
};
/**
* Overrides painting the actual shape for taking into account jump style.
*/
var mxConnectorPaintLine = mxConnector.prototype.paintLine;
mxConnector.prototype.paintLine = function (c, absPts, rounded)
{
// Required for checking dirty state
this.routedPoints = (this.state != null) ? this.state.routedPoints : null;
if (this.outline || this.state == null || this.style == null ||
this.state.routedPoints == null || this.state.routedPoints.length == 0)
{
mxConnectorPaintLine.apply(this, arguments);
}
else
{
var arcSize = mxUtils.getValue(this.style, mxConstants.STYLE_ARCSIZE,
mxConstants.LINE_ARCSIZE) / 2;
var size = (parseInt(mxUtils.getValue(this.style, 'jumpSize',
Graph.defaultJumpSize)) - 2) / 2 + this.strokewidth;
var style = mxUtils.getValue(this.style, 'jumpStyle', 'none');
var moveTo = true;
var last = null;
var len = null;
var pts = [];
var n = null;
c.begin();
for (var i = 0; i < this.state.routedPoints.length; i++)
{
var rpt = this.state.routedPoints[i];
var pt = new mxPoint(rpt.x / this.scale, rpt.y / this.scale);
// Takes first and last point from passed-in array
if (i == 0)
{
pt = absPts[0];
}
else if (i == this.state.routedPoints.length - 1)
{
pt = absPts[absPts.length - 1];
}
var done = false;
// Type 1 is an intersection
if (last != null && rpt.type == 1)
{
// Checks if next/previous points are too close
var next = this.state.routedPoints[i + 1];
var dx = next.x / this.scale - pt.x;
var dy = next.y / this.scale - pt.y;
var dist = dx * dx + dy * dy;
if (n == null)
{
n = new mxPoint(pt.x - last.x, pt.y - last.y);
len = Math.sqrt(n.x * n.x + n.y * n.y);
if (len > 0)
{
n.x = n.x * size / len;
n.y = n.y * size / len;
}
else
{
n = null;
}
}
if (dist > size * size && len > 0)
{
var dx = last.x - pt.x;
var dy = last.y - pt.y;
var dist = dx * dx + dy * dy;
if (dist > size * size)
{
var p0 = new mxPoint(pt.x - n.x, pt.y - n.y);
var p1 = new mxPoint(pt.x + n.x, pt.y + n.y);
pts.push(p0);
this.addPoints(c, pts, rounded, arcSize, false, null, moveTo);
var f = (Math.round(n.x) < 0 || (Math.round(n.x) == 0
&& Math.round(n.y) <= 0)) ? 1 : -1;
moveTo = false;
if (style == 'sharp')
{
c.lineTo(p0.x - n.y * f, p0.y + n.x * f);
c.lineTo(p1.x - n.y * f, p1.y + n.x * f);
c.lineTo(p1.x, p1.y);
}
else if (style == 'line')
{
c.moveTo(p0.x + n.y * f, p0.y - n.x * f);
c.lineTo(p0.x - n.y * f, p0.y + n.x * f);
c.moveTo(p1.x - n.y * f, p1.y + n.x * f);
c.lineTo(p1.x + n.y * f, p1.y - n.x * f);
c.moveTo(p1.x, p1.y);
}
else if (style == 'arc')
{
f *= 1.3;
c.curveTo(p0.x - n.y * f, p0.y + n.x * f,
p1.x - n.y * f, p1.y + n.x * f,
p1.x, p1.y);
}
else
{
c.moveTo(p1.x, p1.y);
moveTo = true;
}
pts = [p1];
done = true;
}
}
}
else
{
n = null;
}
if (!done)
{
pts.push(pt);
last = pt;
}
}
this.addPoints(c, pts, rounded, arcSize, false, null, moveTo);
c.stroke();
}
};
/**
* Adds support for centerPerimeter which is a special case of a fixed point perimeter.
*/
var mxGraphViewGetFixedTerminalPoint = mxGraphView.prototype.getFixedTerminalPoint;
mxGraphView.prototype.getFixedTerminalPoint = function(edge, terminal, source, constraint)
{
if (terminal != null && terminal.style[mxConstants.STYLE_PERIMETER] == 'centerPerimeter')
{
return new mxPoint(terminal.getCenterX(), terminal.getCenterY());
}
else
{
return mxGraphViewGetFixedTerminalPoint.apply(this, arguments);
}
};
/**
* Adds support for snapToPoint style.
*/
var mxGraphViewUpdateFloatingTerminalPoint = mxGraphView.prototype.updateFloatingTerminalPoint;
mxGraphView.prototype.updateFloatingTerminalPoint = function(edge, start, end, source)
{
if (start != null && edge != null &&
(start.style['snapToPoint'] == '1' ||
edge.style['snapToPoint'] == '1'))
{
start = this.getTerminalPort(edge, start, source);
var next = this.getNextPoint(edge, end, source);
var orth = this.graph.isOrthogonal(edge);
var alpha = mxUtils.toRadians(Number(start.style[mxConstants.STYLE_ROTATION] || '0'));
var center = new mxPoint(start.getCenterX(), start.getCenterY());
if (alpha != 0)
{
var cos = Math.cos(-alpha);
var sin = Math.sin(-alpha);
next = mxUtils.getRotatedPoint(next, cos, sin, center);
}
var border = parseFloat(edge.style[mxConstants.STYLE_PERIMETER_SPACING] || 0);
border += parseFloat(edge.style[(source) ?
mxConstants.STYLE_SOURCE_PERIMETER_SPACING :
mxConstants.STYLE_TARGET_PERIMETER_SPACING] || 0);
var pt = this.getPerimeterPoint(start, next, alpha == 0 && orth, border);
if (alpha != 0)
{
var cos = Math.cos(alpha);
var sin = Math.sin(alpha);
pt = mxUtils.getRotatedPoint(pt, cos, sin, center);
}
edge.setAbsoluteTerminalPoint(this.snapToAnchorPoint(edge, start, end, source, pt), source);
}
else
{
mxGraphViewUpdateFloatingTerminalPoint.apply(this, arguments);
}
};
mxGraphView.prototype.snapToAnchorPoint = function(edge, start, end, source, pt)
{
if (start != null && edge != null)
{
var constraints = this.graph.getAllConnectionConstraints(start)
var nearest = null;
var dist = null;
if (constraints != null)
{
for (var i = 0; i < constraints.length; i++)
{
var cp = this.graph.getConnectionPoint(start, constraints[i]);
if (cp != null)
{
var tmp = (cp.x - pt.x) * (cp.x - pt.x) + (cp.y - pt.y) * (cp.y - pt.y);
if (dist == null || tmp < dist)
{
nearest = cp;
dist = tmp;
}
}
}
}
if (nearest != null)
{
pt = nearest;
}
}
return pt;
};
/**
* Adds support for placeholders in text elements of shapes.
*/
var mxStencilEvaluateTextAttribute = mxStencil.prototype.evaluateTextAttribute;
mxStencil.prototype.evaluateTextAttribute = function(node, attribute, shape)
{
var result = mxStencilEvaluateTextAttribute.apply(this, arguments);
var placeholders = node.getAttribute('placeholders');
if (placeholders == '1' && shape.state != null)
{
result = shape.state.view.graph.replacePlaceholders(shape.state.cell, result);
}
return result;
};
/**
* Adds custom stencils defined via shape=stencil(value) style. The value is a base64 encoded, compressed and
* URL encoded XML definition of the shape according to the stencil definition language of mxGraph.
*
* Needs to be in this file to make sure its part of the embed client code. Also the check for ZLib is
* different than for the Editor code.
*/
var mxCellRendererCreateShape = mxCellRenderer.prototype.createShape;
mxCellRenderer.prototype.createShape = function(state)
{
if (state.style != null && typeof(pako) !== 'undefined')
{
var shape = mxUtils.getValue(state.style, mxConstants.STYLE_SHAPE, null);
// Extracts and decodes stencil XML if shape has the form shape=stencil(value)
if (shape != null && typeof shape === 'string' && shape.substring(0, 8) == 'stencil(')
{
try
{
var stencil = shape.substring(8, shape.length - 1);
var doc = mxUtils.parseXml(Graph.decompress(stencil));
return new mxShape(new mxStencil(doc.documentElement));
}
catch (e)
{
if (window.console != null)
{
console.log('Error in shape: ' + e);
}
}
}
}
return mxCellRendererCreateShape.apply(this, arguments);
};
})();
/**
* Overrides stencil registry for dynamic loading of stencils.
*/
/**
* Maps from library names to an array of Javascript filenames,
* which are synchronously loaded. Currently only stencil files
* (.xml) and JS files (.js) are supported.
* IMPORTANT: For embedded diagrams to work entries must also
* be added in EmbedServlet.java.
*/
mxStencilRegistry.libraries = {};
/**
* Global switch to disable dynamic loading.
*/
mxStencilRegistry.dynamicLoading = true;
/**
* Global switch to disable eval for JS (preload all JS instead).
*/
mxStencilRegistry.allowEval = true;
/**
* Stores all package names that have been dynamically loaded.
* Each package is only loaded once.
*/
mxStencilRegistry.packages = [];
/**
* Stores all package names that have been dynamically loaded.
* Each package is only loaded once.
*/
mxStencilRegistry.filesLoaded = {};
// Extends the default stencil registry to add dynamic loading
mxStencilRegistry.getStencil = function(name)
{
var result = mxStencilRegistry.stencils[name];
if (result == null && mxCellRenderer.defaultShapes[name] == null && mxStencilRegistry.dynamicLoading)
{
var basename = mxStencilRegistry.getBasenameForStencil(name);
// Loads stencil files and tries again
if (basename != null)
{
var libs = mxStencilRegistry.libraries[basename];
if (libs != null)
{
if (mxStencilRegistry.packages[basename] == null)
{
for (var i = 0; i < libs.length; i++)
{
var fname = libs[i];
if (!mxStencilRegistry.filesLoaded[fname])
{
mxStencilRegistry.filesLoaded[fname] = true;
if (fname.toLowerCase().substring(fname.length - 4, fname.length) == '.xml')
{
mxStencilRegistry.loadStencilSet(fname, null);
}
else if (fname.toLowerCase().substring(fname.length - 3, fname.length) == '.js')
{
try
{
if (mxStencilRegistry.allowEval)
{
var req = mxUtils.load(fname);
if (req != null && req.getStatus() >= 200 && req.getStatus() <= 299)
{
eval.call(window, req.getText());
}
}
}
catch (e)
{
if (window.console != null)
{
console.log('error in getStencil:', name, basename, libs, fname, e);
}
}
}
else
{
// FIXME: This does not yet work as the loading is triggered after
// the shape was used in the graph, at which point the keys have
// typically been translated in the calling method.
//mxResources.add(fname);
}
}
}
mxStencilRegistry.packages[basename] = 1;
}
}
else
{
// Replaces '_-_' with '_'
basename = basename.replace('_-_', '_');
mxStencilRegistry.loadStencilSet(STENCIL_PATH + '/' + basename + '.xml', null);
}
result = mxStencilRegistry.stencils[name];
}
}
return result;
};
// Returns the basename for the given stencil or null if no file must be
// loaded to render the given stencil.
mxStencilRegistry.getBasenameForStencil = function(name)
{
var tmp = null;
if (name != null && typeof name === 'string')
{
var parts = name.split('.');
if (parts.length > 0 && parts[0] == 'mxgraph')
{
tmp = parts[1];
for (var i = 2; i < parts.length - 1; i++)
{
tmp += '/' + parts[i];
}
}
}
return tmp;
};
// Loads the given stencil set
mxStencilRegistry.loadStencilSet = function(stencilFile, postStencilLoad, force, async)
{
force = (force != null) ? force : false;
// Uses additional cache for detecting previous load attempts
var xmlDoc = mxStencilRegistry.packages[stencilFile];
if (force || xmlDoc == null)
{
var install = false;
if (xmlDoc == null)
{
try
{
if (async)
{
mxStencilRegistry.loadStencil(stencilFile, mxUtils.bind(this, function(xmlDoc2)
{
if (xmlDoc2 != null && xmlDoc2.documentElement != null)
{
mxStencilRegistry.packages[stencilFile] = xmlDoc2;
install = true;
mxStencilRegistry.parseStencilSet(xmlDoc2.documentElement, postStencilLoad, install);
}
}));
return;
}
else
{
xmlDoc = mxStencilRegistry.loadStencil(stencilFile);
mxStencilRegistry.packages[stencilFile] = xmlDoc;
install = true;
}
}
catch (e)
{
if (window.console != null)
{
console.log('error in loadStencilSet:', stencilFile, e);
}
}
}
if (xmlDoc != null && xmlDoc.documentElement != null)
{
mxStencilRegistry.parseStencilSet(xmlDoc.documentElement, postStencilLoad, install);
}
}
};
// Loads the given stencil XML file.
mxStencilRegistry.loadStencil = function(filename, fn)
{
if (fn != null)
{
var req = mxUtils.get(filename, mxUtils.bind(this, function(req)
{
fn((req.getStatus() >= 200 && req.getStatus() <= 299) ? req.getXml() : null);
}), mxUtils.bind(this, function(req)
{
fn(null);
}));
}
else
{
return mxUtils.load(filename).getXml();
}
};
// Takes array of strings
mxStencilRegistry.parseStencilSets = function(stencils)
{
for (var i = 0; i < stencils.length; i++)
{
mxStencilRegistry.parseStencilSet(mxUtils.parseXml(stencils[i]).documentElement);
}
};
// Parses the given stencil set
mxStencilRegistry.parseStencilSet = function(root, postStencilLoad, install)
{
if (root.nodeName == 'stencils')
{
var shapes = root.firstChild;
while (shapes != null)
{
if (shapes.nodeName == 'shapes')
{
mxStencilRegistry.parseStencilSet(shapes, postStencilLoad, install);
}
shapes = shapes.nextSibling;
}
}
else
{
install = (install != null) ? install : true;
var shape = root.firstChild;
var packageName = '';
var name = root.getAttribute('name');
if (name != null)
{
packageName = name + '.';
}
while (shape != null)
{
if (shape.nodeType == mxConstants.NODETYPE_ELEMENT)
{
name = shape.getAttribute('name');
if (name != null)
{
packageName = packageName.toLowerCase();
var stencilName = name.replace(/ /g,"_");
if (install)
{
mxStencilRegistry.addStencil(packageName + stencilName.toLowerCase(), new mxStencil(shape));
}
if (postStencilLoad != null)
{
var w = shape.getAttribute('w');
var h = shape.getAttribute('h');
w = (w == null) ? 80 : parseInt(w, 10);
h = (h == null) ? 80 : parseInt(h, 10);
postStencilLoad(packageName, stencilName, name, w, h);
}
}
}
shape = shape.nextSibling;
}
}
};
/**
* These overrides are only added if mxVertexHandler is defined (ie. not in embedded graph)
*/
if (typeof mxVertexHandler !== 'undefined')
{
(function()
{
// Sets colors for handles
mxConstants.HANDLE_FILLCOLOR = '#29b6f2';
mxConstants.HANDLE_STROKECOLOR = '#0088cf';
mxConstants.VERTEX_SELECTION_COLOR = '#00a8ff';
mxConstants.OUTLINE_COLOR = '#00a8ff';
mxConstants.OUTLINE_HANDLE_FILLCOLOR = '#99ccff';
mxConstants.OUTLINE_HANDLE_STROKECOLOR = '#00a8ff';
mxConstants.CONNECT_HANDLE_FILLCOLOR = '#cee7ff';
mxConstants.EDGE_SELECTION_COLOR = '#00a8ff';
mxConstants.DEFAULT_VALID_COLOR = '#00a8ff';
mxConstants.LABEL_HANDLE_FILLCOLOR = '#cee7ff';
mxConstants.GUIDE_COLOR = '#0088cf';
mxConstants.HIGHLIGHT_STROKEWIDTH = 5;
mxConstants.HIGHLIGHT_OPACITY = 50;
mxConstants.HIGHLIGHT_SIZE = 5;
// Sets window decoration icons
mxWindow.prototype.closeImage = Graph.createSvgImage(18, 10,
'<path d="M 5 1 L 13 9 M 13 1 L 5 9" stroke="#707070" stroke-width="2"/>').src;
mxWindow.prototype.minimizeImage = Graph.createSvgImage(14, 10,
'<path d="M 3 7 L 7 3 L 11 7" stroke="#707070" stroke-width="2" fill="none"/>').src;
mxWindow.prototype.normalizeImage = Graph.createSvgImage(14, 10,
'<path d="M 3 3 L 7 7 L 11 3" stroke="#707070" stroke-width="2" fill="none"/>').src;
mxWindow.prototype.resizeImage = Graph.createSvgImage(10, 10,
'<path d="Z" stroke="#C0C0C0" stroke-width="1" fill="none"/>').src;
// Enables snapping to off-grid terminals for edge waypoints
mxEdgeHandler.prototype.snapToTerminals = true;
// Enables guides
mxGraphHandler.prototype.guidesEnabled = true;
// Removes parents where all child cells are moved out
mxGraphHandler.prototype.removeEmptyParents = true;
// Enables fading of rubberband
mxRubberband.prototype.fadeOut = true;
// Alt-move disables guides
mxGuide.prototype.isEnabledForEvent = function(evt)
{
return !mxEvent.isAltDown(evt);
};
// Ignores all table cells in layouts
var graphLayoutIsVertexIgnored = mxGraphLayout.prototype.isVertexIgnored;
mxGraphLayout.prototype.isVertexIgnored = function(vertex)
{
return graphLayoutIsVertexIgnored.apply(this, arguments) ||
this.graph.isTableRow(vertex) || this.graph.isTableCell(vertex);
};
// Adds support for ignoreEdge style
var graphLayoutIsEdgeIgnored = mxGraphLayout.prototype.isEdgeIgnored;
mxGraphLayout.prototype.isEdgeIgnored = function(edge)
{
return graphLayoutIsEdgeIgnored.apply(this, arguments) ||
this.graph.isEdgeIgnored(edge);
};
// Extends connection handler to enable ctrl+drag for cloning source cell
// since copyOnConnect is now disabled by default
var mxConnectionHandlerCreateTarget = mxConnectionHandler.prototype.isCreateTarget;
mxConnectionHandler.prototype.isCreateTarget = function(evt)
{
return this.graph.isCloneEvent(evt) != mxConnectionHandlerCreateTarget.apply(this, arguments);
};
// Overrides highlight shape for connection points
mxConstraintHandler.prototype.createHighlightShape = function()
{
var hl = new mxEllipse(null, this.highlightColor, this.highlightColor, 0);
hl.opacity = mxConstants.HIGHLIGHT_OPACITY;
return hl;
};
// Overrides edge preview to use current edge shape and default style
mxConnectionHandler.prototype.livePreview = true;
mxConnectionHandler.prototype.cursor = 'crosshair';
// Uses current edge style for connect preview
mxConnectionHandler.prototype.createEdgeState = function(me)
{
var style = this.graph.createCurrentEdgeStyle();
var edge = this.graph.createEdge(null, null, null, null, null, style);
var state = new mxCellState(this.graph.view, edge, this.graph.getCellStyle(edge));
for (var key in this.graph.currentEdgeStyle)
{
state.style[key] = this.graph.currentEdgeStyle[key];
}
// Applies newEdgeStyle for preview
if (this.previous != null)
{
var temp = this.previous.style['newEdgeStyle'];
if (temp != null)
{
try
{
var styles = JSON.parse(temp);
for (var key in styles)
{
state.style[key] = styles[key];
}
}
catch (e)
{
// ignore
}
}
}
state.style = this.graph.postProcessCellStyle(state.cell, state.style);
return state;
};
// Overrides dashed state with current edge style
var connectionHandlerCreateShape = mxConnectionHandler.prototype.createShape;
mxConnectionHandler.prototype.createShape = function()
{
var shape = connectionHandlerCreateShape.apply(this, arguments);
shape.isDashed = this.graph.currentEdgeStyle[mxConstants.STYLE_DASHED] == '1';
return shape;
}
// Overrides live preview to keep current style
mxConnectionHandler.prototype.updatePreview = function(valid)
{
// do not change color of preview
};
// Overrides connection handler to ignore edges instead of not allowing connections
var mxConnectionHandlerCreateMarker = mxConnectionHandler.prototype.createMarker;
mxConnectionHandler.prototype.createMarker = function()
{
var marker = mxConnectionHandlerCreateMarker.apply(this, arguments);
var markerGetCell = marker.getCell;
marker.getCell = mxUtils.bind(this, function(me)
{
var result = markerGetCell.apply(this, arguments);
this.error = null;
return result;
});
return marker;
};
/**
*
*/
Graph.prototype.defaultVertexStyle = {};
/**
* Contains the default style for edges.
*/
Graph.prototype.defaultEdgeStyle = {'edgeStyle': 'orthogonalEdgeStyle', 'rounded': '0',
'jettySize': 'auto', 'orthogonalLoop': '1'};
/**
* Returns the current edge style as a string.
*/
Graph.prototype.createCurrentEdgeStyle = function()
{
var style = 'edgeStyle=' + (this.currentEdgeStyle['edgeStyle'] || 'none') + ';';
var keys = ['shape', 'curved', 'rounded', 'comic', 'sketch', 'fillWeight', 'hachureGap',
'hachureAngle', 'jiggle', 'disableMultiStroke', 'disableMultiStrokeFill', 'fillStyle',
'curveFitting', 'simplification', 'comicStyle', 'jumpStyle', 'jumpSize'];
for (var i = 0; i < keys.length; i++)
{
if (this.currentEdgeStyle[keys[i]] != null)
{
style += keys[i] + '=' + this.currentEdgeStyle[keys[i]] + ';';
}
}
// Overrides the global default to match the default edge style
if (this.currentEdgeStyle['orthogonalLoop'] != null)
{
style += 'orthogonalLoop=' + this.currentEdgeStyle['orthogonalLoop'] + ';';
}
else if (Graph.prototype.defaultEdgeStyle['orthogonalLoop'] != null)
{
style += 'orthogonalLoop=' + Graph.prototype.defaultEdgeStyle['orthogonalLoop'] + ';';
}
// Overrides the global default to match the default edge style
if (this.currentEdgeStyle['jettySize'] != null)
{
style += 'jettySize=' + this.currentEdgeStyle['jettySize'] + ';';
}
else if (Graph.prototype.defaultEdgeStyle['jettySize'] != null)
{
style += 'jettySize=' + Graph.prototype.defaultEdgeStyle['jettySize'] + ';';
}
// Special logic for custom property of elbowEdgeStyle
if (this.currentEdgeStyle['edgeStyle'] == 'elbowEdgeStyle' && this.currentEdgeStyle['elbow'] != null)
{
style += 'elbow=' + this.currentEdgeStyle['elbow'] + ';';
}
if (this.currentEdgeStyle['html'] != null)
{
style += 'html=' + this.currentEdgeStyle['html'] + ';';
}
else
{
style += 'html=1;';
}
return style;
};
/**
* Hook for subclassers.
*/
Graph.prototype.getPagePadding = function()
{
return new mxPoint(0, 0);
};
/**
* Loads the stylesheet for this graph.
*/
Graph.prototype.loadStylesheet = function()
{
var node = (this.themes != null) ? this.themes[this.defaultThemeName] :
(!mxStyleRegistry.dynamicLoading) ? null :
mxUtils.load(STYLE_PATH + '/default.xml').getDocumentElement();
if (node != null)
{
var dec = new mxCodec(node.ownerDocument);
dec.decode(node, this.getStylesheet());
}
};
/**
* Creates lookup from object IDs to cell IDs.
*/
Graph.prototype.createCellLookup = function(cells, lookup)
{
lookup = (lookup != null) ? lookup : new Object();
for (var i = 0; i < cells.length; i++)
{
var cell = cells[i];
lookup[mxObjectIdentity.get(cell)] = cell.getId();
var childCount = this.model.getChildCount(cell);
for (var j = 0; j < childCount; j++)
{
this.createCellLookup([this.model.getChildAt(cell, j)], lookup);
}
}
return lookup;
};
/**
* Creates lookup from original to cloned cell IDs where mapping is
* the mapping used in cloneCells and lookup is a mapping from
* object IDs to cell IDs.
*/
Graph.prototype.createCellMapping = function(mapping, lookup, cellMapping)
{
cellMapping = (cellMapping != null) ? cellMapping : new Object();
for (var objectId in mapping)
{
var cellId = lookup[objectId];
if (cellMapping[cellId] == null)
{
// Uses empty string if clone ID was null which means
// the cell was cloned but not inserted into the model.
cellMapping[cellId] = mapping[objectId].getId() || '';
}
}
return cellMapping;
};
/**
*
*/
Graph.prototype.importGraphModel = function(node, dx, dy, crop)
{
dx = (dx != null) ? dx : 0;
dy = (dy != null) ? dy : 0;
var codec = new mxCodec(node.ownerDocument);
var tempModel = new mxGraphModel();
codec.decode(node, tempModel);
var cells = []
// Clones cells to remove invalid edges
var cloneMap = new Object();
var cellMapping = new Object();
var layers = tempModel.getChildren(this.cloneCell(tempModel.root,
this.isCloneInvalidEdges(), cloneMap));
if (layers != null)
{
// Creates lookup from object IDs to cell IDs
var lookup = this.createCellLookup([tempModel.root]);
// Uses copy as layers are removed from array inside loop
layers = layers.slice();
this.model.beginUpdate();
try
{
// Merges into unlocked current layer if one layer is pasted
if (layers.length == 1 && !this.isCellLocked(this.getDefaultParent()))
{
var children = tempModel.getChildren(layers[0]);
if (children != null)
{
cells = this.moveCells(children,
dx, dy, false, this.getDefaultParent());
// Imported default parent maps to local default parent
cellMapping[tempModel.getChildAt(tempModel.root, 0).getId()] =
this.getDefaultParent().getId();
}
}
else
{
for (var i = 0; i < layers.length; i++)
{
var children = this.model.getChildren(this.moveCells(
[layers[i]], dx, dy, false, this.model.getRoot())[0]);
if (children != null)
{
cells = cells.concat(children);
}
}
}
if (cells != null)
{
// Adds mapping for all cloned entries from imported to local cell ID
this.createCellMapping(cloneMap, lookup, cellMapping);
this.updateCustomLinks(cellMapping, cells);
if (crop)
{
if (this.isGridEnabled())
{
dx = this.snap(dx);
dy = this.snap(dy);
}
var bounds = this.getBoundingBoxFromGeometry(cells, true);
if (bounds != null)
{
this.moveCells(cells, dx - bounds.x, dy - bounds.y);
}
}
}
}
finally
{
this.model.endUpdate();
}
}
return cells;
};
/**
* Translates this point by the given vector.
*
* @param {number} dx X-coordinate of the translation.
* @param {number} dy Y-coordinate of the translation.
*/
Graph.prototype.encodeCells = function(cells)
{
var cloneMap = new Object();
var clones = this.cloneCells(cells, null, cloneMap);
// Creates a dictionary for fast lookups
var dict = new mxDictionary();
for (var i = 0; i < cells.length; i++)
{
dict.put(cells[i], true);
}
var codec = new mxCodec();
var model = new mxGraphModel();
var parent = model.getChildAt(model.getRoot(), 0);
for (var i = 0; i < clones.length; i++)
{
model.add(parent, clones[i]);
// Checks for orphaned relative children and makes absolute
var state = this.view.getState(cells[i]);
if (state != null)
{
var geo = this.getCellGeometry(clones[i]);
if (geo != null && geo.relative && !this.model.isEdge(cells[i]) &&
dict.get(this.model.getParent(cells[i])) == null)
{
geo.offset = null;
geo.relative = false;
geo.x = state.x / state.view.scale - state.view.translate.x;
geo.y = state.y / state.view.scale - state.view.translate.y;
}
}
}
this.updateCustomLinks(this.createCellMapping(cloneMap,
this.createCellLookup(cells)), clones);
return codec.encode(model);
};
/**
* Overridden to use table cell instead of table as parent.
*/
Graph.prototype.isSwimlane = function(cell, ignoreState)
{
var shape = null;
if (cell != null && !this.model.isEdge(cell) &&
this.model.getParent(cell) !=
this.model.getRoot())
{
var style = this.getCurrentCellStyle(cell, ignoreState)
shape = style[mxConstants.STYLE_SHAPE];
}
return shape == mxConstants.SHAPE_SWIMLANE ||
shape == 'table' || shape == 'tableRow';
};
/**
* Overridden to check table cells and rows.
*/
var graphIsCellEditable = Graph.prototype.isCellEditable;
Graph.prototype.isCellEditable = function(cell)
{
if (cell == null || !graphIsCellEditable.apply(this, arguments))
{
return false;
}
else if (this.isTableCell(cell) || this.isTableRow(cell))
{
return this.isCellEditable(this.model.getParent(cell));
}
else
{
return true;
}
};
/**
* Overridden to check table cells and rows.
*/
var graphIsCellMovable = Graph.prototype.isCellMovable;
Graph.prototype.isCellMovable = function(cell)
{
if (cell == null || !graphIsCellMovable.apply(this, arguments))
{
return false;
}
else if (this.isTableCell(cell) || this.isTableRow(cell))
{
return this.isCellMovable(this.model.getParent(cell));
}
else
{
return true;
}
};
/**
* Overridden to add expand style.
*/
var graphIsExtendParent = Graph.prototype.isExtendParent;
Graph.prototype.isExtendParent = function(cell)
{
var parent = this.model.getParent(cell);
if (parent != null)
{
var style = this.getCurrentCellStyle(parent);
if (style['expand'] != null)
{
return style['expand'] != '0';
}
}
return graphIsExtendParent.apply(this, arguments) &&
(parent == null || !this.isTable(parent));
};
/**
* Overridden to use table cell instead of table as parent.
*/
var graphSplitEdge = Graph.prototype.splitEdge;
Graph.prototype.splitEdge = function(edge, cells, newEdge, dx, dy, x, y, parent)
{
if (parent == null)
{
parent = this.model.getParent(edge);
if (this.isTable(parent) || this.isTableRow(parent))
{
parent = this.getCellAt(x, y, null, true, false);
}
}
var newEdge = null;
this.model.beginUpdate();
try
{
var newEdge = graphSplitEdge.apply(this, [edge, cells, newEdge, dx, dy, x, y, parent]);
// Removes cloned value on first segment
this.model.setValue(newEdge, '');
// Removes child labels on first or second segment depending on coordinate
// LATER: Split and reposition labels based on x and y
var sourceLabels = this.getChildCells(newEdge, true);
for (var i = 0; i < sourceLabels.length; i++)
{
var geo = this.getCellGeometry(sourceLabels[i]);
if (geo != null && geo.relative && geo.x > 0)
{
this.model.remove(sourceLabels[i]);
}
}
var targetLabels = this.getChildCells(edge, true);
for (var i = 0; i < targetLabels.length; i++)
{
var geo = this.getCellGeometry(targetLabels[i]);
if (geo != null && geo.relative && geo.x <= 0)
{
this.model.remove(targetLabels[i]);
}
}
// Removes entryX/Y and exitX/Y if snapToPoint is used
var target = this.model.getTerminal(newEdge, false);
if (target != null)
{
var style = this.getCurrentCellStyle(target);
if (style != null && style['snapToPoint'] == '1')
{
this.setCellStyles(mxConstants.STYLE_EXIT_X, null, [edge]);
this.setCellStyles(mxConstants.STYLE_EXIT_Y, null, [edge]);
this.setCellStyles(mxConstants.STYLE_ENTRY_X, null, [newEdge]);
this.setCellStyles(mxConstants.STYLE_ENTRY_Y, null, [newEdge]);
}
}
}
finally
{
this.model.endUpdate();
}
return newEdge;
};
/**
* Overridden to flatten cell hierarchy for selecting next and previous.
*/
var graphSelectCell = Graph.prototype.selectCell;
Graph.prototype.selectCell = function(isNext, isParent, isChild)
{
if (isParent || isChild)
{
graphSelectCell.apply(this, arguments);
}
else
{
var cell = this.getSelectionCell();
var index = null;
var cells = [];
// LATER: Reverse traverse order for !isNext
var flatten = mxUtils.bind(this, function(temp)
{
if (this.view.getState(temp) != null &&
(this.model.isVertex(temp) ||
this.model.isEdge(temp)))
{
cells.push(temp);
if (temp == cell)
{
index = cells.length - 1;
}
else if ((isNext && cell == null && cells.length > 0) ||
(index != null && ((isNext && cells.length > index)) ||
(!isNext && index > 0)))
{
return;
}
}
for (var i = 0; i < this.model.getChildCount(temp); i++)
{
flatten(this.model.getChildAt(temp, i));
}
});
flatten(this.model.root);
if (cells.length > 0)
{
if (index != null)
{
index = mxUtils.mod(index + ((isNext) ? 1 : -1), cells.length)
}
else
{
index = 0;
}
this.setSelectionCell(cells[index]);
}
}
};
/**
* Swaps the given shapes.
*/
Graph.prototype.swapShapes = function(cells, dx, dy, clone, target, evt, mapping)
{
var result = false;
if (!clone && target != null && cells.length == 1)
{
var targetState = this.view.getState(target);
var sourceState = this.view.getState(cells[0]);
if (targetState != null && sourceState != null &&
(evt != null && mxEvent.isShiftDown(evt)))
{
var g1 = this.getCellGeometry(target);
var g2 = this.getCellGeometry(cells[0]);
if (g1 != null && g2 != null)
{
var ng1 = g1.clone();
var ng2 = g2.clone();
ng2.x = ng1.x;
ng2.y = ng1.y;
ng1.x = g2.x;
ng1.y = g2.y;
this.model.beginUpdate();
try
{
this.model.setGeometry(target, ng1);
this.model.setGeometry(cells[0], ng2);
}
finally
{
this.model.endUpdate();
}
result = true;
}
}
}
return result;
};
/**
* Overrides cloning cells in moveCells.
*/
var graphMoveCells = Graph.prototype.moveCells;
Graph.prototype.moveCells = function(cells, dx, dy, clone, target, evt, mapping)
{
if (this.swapShapes(cells, dx, dy, clone, target, evt, mapping))
{
return cells;
}
mapping = (mapping != null) ? mapping : new Object();
// Replaces source tables with rows
if (this.isTable(target))
{
var newCells = [];
for (var i = 0; i < cells.length; i++)
{
if (this.isTable(cells[i]))
{
newCells = newCells.concat(this.model.getChildCells(cells[i], true).reverse());
}
else
{
newCells.push(cells[i]);
}
}
cells = newCells;
}
this.model.beginUpdate();
try
{
// Updates source and target table heights and matches
// column count for moving rows between tables
var sourceTables = [];
for (var i = 0; i < cells.length; i++)
{
if (target != null && this.isTableRow(cells[i]))
{
var parent = this.model.getParent(cells[i]);
var row = this.getCellGeometry(cells[i]);
if (this.isTable(parent))
{
sourceTables.push(parent);
}
if (parent != null && row != null &&
this.isTable(parent) &&
this.isTable(target) &&
(clone || parent != target))
{
if (!clone)
{
var table = this.getCellGeometry(parent);
if (table != null)
{
table = table.clone();
table.height -= row.height;
this.model.setGeometry(parent, table);
}
}
var table = this.getCellGeometry(target);
if (table != null)
{
table = table.clone();
table.height += row.height;
this.model.setGeometry(target, table);
}
// Matches column count
var rows = this.model.getChildCells(target, true);
if (rows.length > 0)
{
cells[i] = (clone) ? this.cloneCell(cells[i]) : cells[i];
var sourceCols = this.model.getChildCells(cells[i], true);
var cols = this.model.getChildCells(rows[0], true);
var count = cols.length - sourceCols.length;
if (count > 0)
{
for (var j = 0; j < count; j++)
{
var col = this.cloneCell(sourceCols[sourceCols.length - 1]);
if (col != null)
{
col.value = '';
this.model.add(cells[i], col);
}
}
}
else if (count < 0)
{
for (var j = 0; j > count; j--)
{
this.model.remove(sourceCols[sourceCols.length + j - 1]);
}
}
// Updates column widths
sourceCols = this.model.getChildCells(cells[i], true);
for (var j = 0; j < cols.length; j++)
{
var geo = this.getCellGeometry(cols[j]);
var geo2 = this.getCellGeometry(sourceCols[j]);
if (geo != null && geo2 != null)
{
geo2 = geo2.clone();
geo2.width = geo.width;
this.model.setGeometry(sourceCols[j], geo2);
}
}
}
}
}
}
var result = graphMoveCells.apply(this, arguments);
// Removes empty tables
for (var i = 0; i < sourceTables.length; i++)
{
if (!clone && this.model.contains(sourceTables[i]) &&
this.model.getChildCount(sourceTables[i]) == 0)
{
this.model.remove(sourceTables[i]);
}
}
if (clone)
{
this.updateCustomLinks(this.createCellMapping(mapping,
this.createCellLookup(cells)), result);
}
}
finally
{
this.model.endUpdate();
}
return result;
};
/**
* Overriddes to delete label for table cells.
*/
var graphRemoveCells = Graph.prototype.removeCells;
Graph.prototype.removeCells = function(cells, includeEdges)
{
var result = [];
this.model.beginUpdate();
try
{
// Clears labels on table cells
for (var i = 0; i < cells.length; i++)
{
if (this.isTableCell(cells[i]))
{
var row = this.model.getParent(cells[i]);
var table = this.model.getParent(row);
// Removes table if one cell in one row left
if (this.model.getChildCount(row) == 1 &&
this.model.getChildCount(table) == 1)
{
if (mxUtils.indexOf(cells, table) < 0 &&
mxUtils.indexOf(result, table) < 0)
{
result.push(table);
}
}
else
{
this.labelChanged(cells[i], '');
}
}
else
{
// Deletes table if all rows are removed
if (this.isTableRow(cells[i]))
{
var table = this.model.getParent(cells[i]);
if (mxUtils.indexOf(cells, table) < 0 &&
mxUtils.indexOf(result, table) < 0)
{
var rows = this.model.getChildCells(table, true);
var deleteCount = 0;
for (var j = 0; j < rows.length; j++)
{
if (mxUtils.indexOf(cells, rows[j]) >= 0)
{
deleteCount++;
}
}
if (deleteCount == rows.length)
{
result.push(table);
}
}
}
result.push(cells[i]);
}
}
result = graphRemoveCells.apply(this, [result, includeEdges]);
}
finally
{
this.model.endUpdate();
}
return result;
};
/**
* Updates cells IDs for custom links in the given cells using an
* optional graph to avoid changing the undo history.
*/
Graph.prototype.updateCustomLinks = function(mapping, cells, graph)
{
graph = (graph != null) ? graph : new Graph();
for (var i = 0; i < cells.length; i++)
{
if (cells[i] != null)
{
graph.updateCustomLinksForCell(mapping, cells[i], graph);
}
}
};
/**
* Updates cell IDs in custom links on the given cell and its label.
*/
Graph.prototype.updateCustomLinksForCell = function(mapping, cell)
{
this.doUpdateCustomLinksForCell(mapping, cell);
var childCount = this.model.getChildCount(cell);
for (var i = 0; i < childCount; i++)
{
this.updateCustomLinksForCell(mapping,
this.model.getChildAt(cell, i));
}
};
/**
* Updates cell IDs in custom links on the given cell and its label.
*/
Graph.prototype.doUpdateCustomLinksForCell = function(mapping, cell)
{
// Hook for subclassers
};
/**
* Overrides method to provide connection constraints for shapes.
*/
Graph.prototype.getAllConnectionConstraints = function(terminal, source)
{
if (terminal != null)
{
var constraints = mxUtils.getValue(terminal.style, 'points', null);
if (constraints != null)
{
// Requires an array of arrays with x, y (0..1), an optional
// [perimeter (0 or 1), dx, and dy] eg. points=[[0,0,1,-10,10],[0,1,0],[1,1]]
var result = [];
try
{
var c = JSON.parse(constraints);
for (var i = 0; i < c.length; i++)
{
var tmp = c[i];
result.push(new mxConnectionConstraint(new mxPoint(tmp[0], tmp[1]), (tmp.length > 2) ? tmp[2] != '0' : true,
null, (tmp.length > 3) ? tmp[3] : 0, (tmp.length > 4) ? tmp[4] : 0));
}
}
catch (e)
{
// ignore
}
return result;
}
else if (terminal.shape != null && terminal.shape.bounds != null)
{
var dir = terminal.shape.direction;
var bounds = terminal.shape.bounds;
var scale = terminal.shape.scale;
var w = bounds.width / scale;
var h = bounds.height / scale;
if (dir == mxConstants.DIRECTION_NORTH || dir == mxConstants.DIRECTION_SOUTH)
{
var tmp = w;
w = h;
h = tmp;
}
constraints = terminal.shape.getConstraints(terminal.style, w, h);
if (constraints != null)
{
return constraints;
}
else if (terminal.shape.stencil != null && terminal.shape.stencil.constraints != null)
{
return terminal.shape.stencil.constraints;
}
else if (terminal.shape.constraints != null)
{
return terminal.shape.constraints;
}
}
}
return null;
};
/**
* Inverts the elbow edge style without removing existing styles.
*/
Graph.prototype.flipEdge = function(edge)
{
if (edge != null)
{
var style = this.getCurrentCellStyle(edge);
var elbow = mxUtils.getValue(style, mxConstants.STYLE_ELBOW,
mxConstants.ELBOW_HORIZONTAL);
var value = (elbow == mxConstants.ELBOW_HORIZONTAL) ?
mxConstants.ELBOW_VERTICAL : mxConstants.ELBOW_HORIZONTAL;
this.setCellStyles(mxConstants.STYLE_ELBOW, value, [edge]);
}
};
/**
* Disables drill-down for non-swimlanes.
*/
Graph.prototype.isValidRoot = function(cell)
{
// Counts non-relative children
var childCount = this.model.getChildCount(cell);
var realChildCount = 0;
for (var i = 0; i < childCount; i++)
{
var child = this.model.getChildAt(cell, i);
if (this.model.isVertex(child))
{
var geometry = this.getCellGeometry(child);
if (geometry != null && !geometry.relative)
{
realChildCount++;
}
}
}
return realChildCount > 0 || this.isContainer(cell);
};
/**
* Disables drill-down for non-swimlanes.
*/
Graph.prototype.isValidDropTarget = function(cell, cells, evt)
{
var style = this.getCurrentCellStyle(cell);
var tables = true;
var rows = true;
for (var i = 0; i < cells.length && rows; i++)
{
tables = tables && this.isTable(cells[i]);
rows = rows && this.isTableRow(cells[i]);
}
return !this.isCellLocked(cell) && ((cells.length == 1 && evt != null &&
mxEvent.isShiftDown(evt) && !mxEvent.isControlDown(evt) &&
!mxEvent.isAltDown(evt)) || this.isTargetShape(cell, cells, evt) ||
((mxUtils.getValue(style, 'part', '0') != '1' || this.isContainer(cell)) &&
mxUtils.getValue(style, 'dropTarget', '1') != '0' && (mxGraph.prototype.
isValidDropTarget.apply(this, arguments) || this.isContainer(cell)) &&
!this.isTableRow(cell) && (!this.isTable(cell) || rows || tables)));
};
/**
* Overrides createGroupCell to set the group style for new groups to 'group'.
*/
Graph.prototype.createGroupCell = function()
{
var group = mxGraph.prototype.createGroupCell.apply(this, arguments);
group.setStyle('group');
return group;
};
/**
* Disables extending parents with stack layouts on add
*/
Graph.prototype.isExtendParentsOnAdd = function(cell)
{
var result = mxGraph.prototype.isExtendParentsOnAdd.apply(this, arguments);
if (result && cell != null && this.layoutManager != null)
{
var parent = this.model.getParent(cell);
if (parent != null)
{
var layout = this.layoutManager.getLayout(parent);
if (layout != null && layout.constructor == mxStackLayout)
{
result = false;
}
}
}
return result;
};
/**
* Overrides autosize to add a border.
*/
Graph.prototype.getPreferredSizeForCell = function(cell)
{
var result = mxGraph.prototype.getPreferredSizeForCell.apply(this, arguments);
// Adds buffer
if (result != null)
{
result.width += 10;
result.height += 4;
if (this.gridEnabled)
{
result.width = this.snap(result.width);
result.height = this.snap(result.height);
}
}
return result;
}
/**
* Turns the given cells and returns the changed cells.
*/
Graph.prototype.turnShapes = function(cells, backwards)
{
var model = this.getModel();
var select = [];
model.beginUpdate();
try
{
for (var i = 0; i < cells.length; i++)
{
var cell = cells[i];
if (model.isEdge(cell))
{
var src = model.getTerminal(cell, true);
var trg = model.getTerminal(cell, false);
model.setTerminal(cell, trg, true);
model.setTerminal(cell, src, false);
var geo = model.getGeometry(cell);
if (geo != null)
{
geo = geo.clone();
if (geo.points != null)
{
geo.points.reverse();
}
var sp = geo.getTerminalPoint(true);
var tp = geo.getTerminalPoint(false)
geo.setTerminalPoint(sp, false);
geo.setTerminalPoint(tp, true);
model.setGeometry(cell, geo);
// Inverts constraints
var edgeState = this.view.getState(cell);
var sourceState = this.view.getState(src);
var targetState = this.view.getState(trg);
if (edgeState != null)
{
var sc = (sourceState != null) ? this.getConnectionConstraint(edgeState, sourceState, true) : null;
var tc = (targetState != null) ? this.getConnectionConstraint(edgeState, targetState, false) : null;
this.setConnectionConstraint(cell, src, true, tc);
this.setConnectionConstraint(cell, trg, false, sc);
// Inverts perimeter spacings
var temp = mxUtils.getValue(edgeState.style, mxConstants.STYLE_SOURCE_PERIMETER_SPACING);
this.setCellStyles(mxConstants.STYLE_SOURCE_PERIMETER_SPACING, mxUtils.getValue(
edgeState.style, mxConstants.STYLE_TARGET_PERIMETER_SPACING), [cell]);
this.setCellStyles(mxConstants.STYLE_TARGET_PERIMETER_SPACING, temp, [cell]);
}
select.push(cell);
}
}
else if (model.isVertex(cell))
{
var geo = this.getCellGeometry(cell);
if (geo != null)
{
// Rotates the size and position in the geometry
if (!this.isTable(cell) && !this.isTableRow(cell) &&
!this.isTableCell(cell) && !this.isSwimlane(cell))
{
geo = geo.clone();
geo.x += geo.width / 2 - geo.height / 2;
geo.y += geo.height / 2 - geo.width / 2;
var tmp = geo.width;
geo.width = geo.height;
geo.height = tmp;
model.setGeometry(cell, geo);
}
// Reads the current direction and advances by 90 degrees
var state = this.view.getState(cell);
if (state != null)
{
var dirs = [mxConstants.DIRECTION_EAST, mxConstants.DIRECTION_SOUTH,
mxConstants.DIRECTION_WEST, mxConstants.DIRECTION_NORTH];
var dir = mxUtils.getValue(state.style, mxConstants.STYLE_DIRECTION,
mxConstants.DIRECTION_EAST);
this.setCellStyles(mxConstants.STYLE_DIRECTION,
dirs[mxUtils.mod(mxUtils.indexOf(dirs, dir) +
((backwards) ? -1 : 1), dirs.length)], [cell]);
}
select.push(cell);
}
}
}
}
finally
{
model.endUpdate();
}
return select;
};
/**
* Returns true if the given stencil contains any placeholder text.
*/
Graph.prototype.stencilHasPlaceholders = function(stencil)
{
if (stencil != null && stencil.fgNode != null)
{
var node = stencil.fgNode.firstChild;
while (node != null)
{
if (node.nodeName == 'text' && node.getAttribute('placeholders') == '1')
{
return true;
}
node = node.nextSibling;
}
}
return false;
};
/**
* Updates the child cells with placeholders if metadata of a
* cell has changed and propagates geometry changes in tables.
*/
var graphProcessChange = Graph.prototype.processChange;
Graph.prototype.processChange = function(change)
{
if (change instanceof mxGeometryChange &&
(this.isTableCell(change.cell) || this.isTableRow(change.cell)) &&
((change.previous == null && change.geometry != null) ||
(change.previous != null && !change.previous.equals(change.geometry))))
{
var cell = change.cell;
if (this.isTableCell(cell))
{
cell = this.model.getParent(cell);
}
if (this.isTableRow(cell))
{
cell = this.model.getParent(cell);
}
// Forces repaint of table with unchanged style and geometry
var state = this.view.getState(cell);
if (state != null && state.shape != null)
{
this.view.invalidate(cell);
state.shape.bounds = null;
}
}
graphProcessChange.apply(this, arguments);
if (change instanceof mxValueChange && change.cell != null &&
change.cell.value != null && typeof(change.cell.value) == 'object')
{
this.invalidateDescendantsWithPlaceholders(change.cell);
}
};
/**
* Replaces the given element with a span.
*/
Graph.prototype.invalidateDescendantsWithPlaceholders = function(cell)
{
// Invalidates all descendants with placeholders
var desc = this.model.getDescendants(cell);
// LATER: Check if only label or tooltip have changed
if (desc.length > 0)
{
for (var i = 0; i < desc.length; i++)
{
var state = this.view.getState(desc[i]);
if (state != null && state.shape != null && state.shape.stencil != null &&
this.stencilHasPlaceholders(state.shape.stencil))
{
this.removeStateForCell(desc[i]);
}
else if (this.isReplacePlaceholders(desc[i]))
{
this.view.invalidate(desc[i], false, false);
}
}
}
};
/**
* Replaces the given element with a span.
*/
Graph.prototype.replaceElement = function(elt, tagName)
{
var span = elt.ownerDocument.createElement((tagName != null) ? tagName : 'span');
var attributes = Array.prototype.slice.call(elt.attributes);
while (attr = attributes.pop())
{
span.setAttribute(attr.nodeName, attr.nodeValue);
}
span.innerHTML = elt.innerHTML;
elt.parentNode.replaceChild(span, elt);
};
/**
*
*/
Graph.prototype.processElements = function(elt, fn)
{
if (elt != null)
{
var elts = elt.getElementsByTagName('*');
for (var i = 0; i < elts.length; i++)
{
fn(elts[i]);
}
}
};
/**
* Handles label changes for XML user objects.
*/
Graph.prototype.updateLabelElements = function(cells, fn, tagName)
{
cells = (cells != null) ? cells : this.getSelectionCells();
var div = document.createElement('div');
for (var i = 0; i < cells.length; i++)
{
// Changes font tags inside HTML labels
var style = this.getCurrentCellStyle(cells[i]);
if (style != null && style['html'] == '1')
{
var label = this.convertValueToString(cells[i]);
if (label != null && label.length > 0)
{
div.innerHTML = label;
var elts = div.getElementsByTagName((tagName != null) ? tagName : '*');
for (var j = 0; j < elts.length; j++)
{
fn(elts[j]);
}
if (div.innerHTML != label)
{
this.cellLabelChanged(cells[i], div.innerHTML);
}
}
}
}
};
/**
* Handles label changes for XML user objects.
*/
Graph.prototype.cellLabelChanged = function(cell, value, autoSize)
{
// Removes all illegal control characters in user input
value = Graph.zapGremlins(value);
this.model.beginUpdate();
try
{
if (cell.value != null && typeof cell.value == 'object')
{
if (this.isReplacePlaceholders(cell) &&
cell.getAttribute('placeholder') != null)
{
// LATER: Handle delete, name change
var name = cell.getAttribute('placeholder');
var current = cell;
while (current != null)
{
if (current == this.model.getRoot() || (current.value != null &&
typeof(current.value) == 'object' && current.hasAttribute(name)))
{
this.setAttributeForCell(current, name, value);
break;
}
current = this.model.getParent(current);
}
}
var tmp = cell.value.cloneNode(true);
if (Graph.translateDiagram && Graph.diagramLanguage != null &&
tmp.hasAttribute('label_' + Graph.diagramLanguage))
{
tmp.setAttribute('label_' + Graph.diagramLanguage, value);
}
else
{
tmp.setAttribute('label', value);
}
value = tmp;
}
mxGraph.prototype.cellLabelChanged.apply(this, arguments);
}
finally
{
this.model.endUpdate();
}
};
/**
* Removes transparent empty groups if all children are removed.
*/
Graph.prototype.cellsRemoved = function(cells)
{
if (cells != null)
{
var dict = new mxDictionary();
for (var i = 0; i < cells.length; i++)
{
dict.put(cells[i], true);
}
// LATER: Recurse up the cell hierarchy
var parents = [];
for (var i = 0; i < cells.length; i++)
{
var parent = this.model.getParent(cells[i]);
if (parent != null && !dict.get(parent))
{
dict.put(parent, true);
parents.push(parent);
}
}
for (var i = 0; i < parents.length; i++)
{
var state = this.view.getState(parents[i]);
if (state != null && (this.model.isEdge(state.cell) ||
this.model.isVertex(state.cell)) &&
this.isCellDeletable(state.cell) &&
this.isTransparentState(state))
{
var allChildren = true;
for (var j = 0; j < this.model.getChildCount(state.cell) && allChildren; j++)
{
if (!dict.get(this.model.getChildAt(state.cell, j)))
{
allChildren = false;
}
}
if (allChildren)
{
cells.push(state.cell);
}
}
}
}
mxGraph.prototype.cellsRemoved.apply(this, arguments);
};
/**
* Overrides ungroup to check if group should be removed.
*/
Graph.prototype.removeCellsAfterUngroup = function(cells)
{
var cellsToRemove = [];
for (var i = 0; i < cells.length; i++)
{
if (this.isCellDeletable(cells[i]) &&
this.isTransparentState(
this.view.getState(cells[i])))
{
cellsToRemove.push(cells[i]);
}
}
cells = cellsToRemove;
mxGraph.prototype.removeCellsAfterUngroup.apply(this, arguments);
};
/**
* Sets the link for the given cell.
*/
Graph.prototype.setLinkForCell = function(cell, link)
{
this.setAttributeForCell(cell, 'link', link);
};
/**
* Sets the link for the given cell.
*/
Graph.prototype.setTooltipForCell = function(cell, link)
{
var key = 'tooltip';
if (Graph.translateDiagram && Graph.diagramLanguage != null &&
mxUtils.isNode(cell.value) && cell.value.hasAttribute('tooltip_' + Graph.diagramLanguage))
{
key = 'tooltip_' + Graph.diagramLanguage;
}
this.setAttributeForCell(cell, key, link);
};
/**
* Returns the cells in the model (or given array) that have all of the
* given tags in their tags property.
*/
Graph.prototype.getAttributeForCell = function(cell, attributeName, defaultValue)
{
var value = (cell.value != null && typeof cell.value === 'object') ?
cell.value.getAttribute(attributeName) : null;
return (value != null) ? value : defaultValue;
};
/**
* Sets the link for the given cell.
*/
Graph.prototype.setAttributeForCell = function(cell, attributeName, attributeValue)
{
var value = null;
if (cell.value != null && typeof(cell.value) == 'object')
{
value = cell.value.cloneNode(true);
}
else
{
var doc = mxUtils.createXmlDocument();
value = doc.createElement('UserObject');
value.setAttribute('label', cell.value || '');
}
if (attributeValue != null)
{
value.setAttribute(attributeName, attributeValue);
}
else
{
value.removeAttribute(attributeName);
}
this.model.setValue(cell, value);
};
/**
*
*/
Graph.prototype.isTargetShape = function(target, cells, evt)
{
var shape = mxUtils.getValue(
this.getCurrentCellStyle(target),
mxConstants.STYLE_SHAPE, '');
for (var i = 0; i < cells.length; i++)
{
var shapes = mxUtils.getValue(
this.getCurrentCellStyle(cells[i]),
'targetShapes', '').split(',');
if (mxUtils.indexOf(shapes, shape) >= 0)
{
return true;
}
}
return false;
};
/**
* Overridden to stop moving edge labels between cells.
*/
var graphGetDropTarget = Graph.prototype.getDropTarget;
Graph.prototype.getDropTarget = function(cells, evt, cell, clone)
{
// Disables drop into group if alt is pressed
if (mxEvent.isAltDown(evt))
{
return null;
}
// Disables dragging edge labels out of edges
for (var i = 0; i < cells.length; i++)
{
var parent = this.model.getParent(cells[i]);
if (this.model.isEdge(parent) && mxUtils.indexOf(cells, parent) < 0)
{
return null;
}
}
var target = graphGetDropTarget.apply(this, arguments);
// Always drops rows to tables
var rows = true;
for (var i = 0; i < cells.length && rows; i++)
{
rows = rows && this.isTableRow(cells[i]);
}
if (rows)
{
if (this.isTableCell(target))
{
target = this.model.getParent(target);
}
if (this.isTableRow(target))
{
target = this.model.getParent(target);
}
if (!this.isTable(target))
{
target = null;
}
}
return target;
};
/**
* Overrides double click handling to avoid accidental inserts of new labels in dblClick below.
*/
Graph.prototype.click = function(me)
{
mxGraph.prototype.click.call(this, me);
// Stores state and source for checking in dblClick
this.firstClickState = me.getState();
this.firstClickSource = me.getSource();
};
/**
* Overrides double click handling to add the tolerance and inserting text.
*/
Graph.prototype.dblClick = function(evt, cell)
{
if (this.isEnabled())
{
cell = this.insertTextForEvent(evt, cell);
mxGraph.prototype.dblClick.call(this, evt, cell);
}
};
/**
* Overrides double click handling to add the tolerance and inserting text.
*/
Graph.prototype.insertTextForEvent = function(evt, cell)
{
var pt = mxUtils.convertPoint(this.container, mxEvent.getClientX(evt), mxEvent.getClientY(evt));
// Automatically adds new child cells to edges on double click
if (evt != null && !this.model.isVertex(cell))
{
var state = (this.model.isEdge(cell)) ? this.view.getState(cell) : null;
var src = mxEvent.getSource(evt);
if ((this.firstClickState == state && this.firstClickSource == src) &&
(state == null || (state.text == null || state.text.node == null ||
state.text.boundingBox == null || (!mxUtils.contains(state.text.boundingBox,
pt.x, pt.y) && !mxUtils.isAncestorNode(state.text.node, mxEvent.getSource(evt))))) &&
((state == null && !this.isCellLocked(this.getDefaultParent())) ||
(state != null && !this.isCellLocked(state.cell))) &&
(state != null ||
(mxClient.IS_SVG && src == this.view.getCanvas().ownerSVGElement)))
{
if (state == null)
{
state = this.view.getState(this.getCellAt(pt.x, pt.y));
}
cell = this.addText(pt.x, pt.y, state);
}
}
return cell;
};
/**
* Returns a point that specifies the location for inserting cells.
*/
Graph.prototype.getInsertPoint = function()
{
var gs = this.getGridSize();
var dx = this.container.scrollLeft / this.view.scale - this.view.translate.x;
var dy = this.container.scrollTop / this.view.scale - this.view.translate.y;
if (this.pageVisible)
{
var layout = this.getPageLayout();
var page = this.getPageSize();
dx = Math.max(dx, layout.x * page.width);
dy = Math.max(dy, layout.y * page.height);
}
return new mxPoint(this.snap(dx + gs), this.snap(dy + gs));
};
/**
*
*/
Graph.prototype.getFreeInsertPoint = function()
{
var view = this.view;
var bds = this.getGraphBounds();
var pt = this.getInsertPoint();
// Places at same x-coord and 2 grid sizes below existing graph
var x = this.snap(Math.round(Math.max(pt.x, bds.x / view.scale - view.translate.x +
((bds.width == 0) ? 2 * this.gridSize : 0))));
var y = this.snap(Math.round(Math.max(pt.y, (bds.y + bds.height) / view.scale - view.translate.y +
2 * this.gridSize)));
return new mxPoint(x, y);
};
/**
*
*/
Graph.prototype.getCenterInsertPoint = function(bbox)
{
bbox = (bbox != null) ? bbox : new mxRectangle();
if (mxUtils.hasScrollbars(this.container))
{
return new mxPoint(
this.snap(Math.round((this.container.scrollLeft + this.container.clientWidth / 2) /
this.view.scale - this.view.translate.x - bbox.width / 2)),
this.snap(Math.round((this.container.scrollTop + this.container.clientHeight / 2) /
this.view.scale - this.view.translate.y - bbox.height / 2)));
}
else
{
return new mxPoint(
this.snap(Math.round(this.container.clientWidth / 2 / this.view.scale -
this.view.translate.x - bbox.width / 2)),
this.snap(Math.round(this.container.clientHeight / 2 / this.view.scale -
this.view.translate.y - bbox.height / 2)));
}
};
/**
* Hook for subclassers to return true if the current insert point was defined
* using a mouse hover event.
*/
Graph.prototype.isMouseInsertPoint = function()
{
return false;
};
/**
* Adds a new label at the given position and returns the new cell. State is
* an optional edge state to be used as the parent for the label. Vertices
* are not allowed currently as states.
*/
Graph.prototype.addText = function(x, y, state)
{
// Creates a new edge label with a predefined text
var label = new mxCell();
label.value = 'Text';
label.geometry = new mxGeometry(0, 0, 0, 0);
label.vertex = true;
var style = 'html=1;align=center;verticalAlign=middle;resizable=0;points=[];';
if (state != null && this.model.isEdge(state.cell))
{
label.style = 'edgeLabel;' + style;
label.geometry.relative = true;
label.connectable = false;
// Resets the relative location stored inside the geometry
var pt2 = this.view.getRelativePoint(state, x, y);
label.geometry.x = Math.round(pt2.x * 10000) / 10000;
label.geometry.y = Math.round(pt2.y);
// Resets the offset inside the geometry to find the offset from the resulting point
label.geometry.offset = new mxPoint(0, 0);
pt2 = this.view.getPoint(state, label.geometry);
var scale = this.view.scale;
label.geometry.offset = new mxPoint(Math.round((x - pt2.x) / scale), Math.round((y - pt2.y) / scale));
}
else
{
var tr = this.view.translate;
label.style = 'text;' + style;
label.geometry.width = 40;
label.geometry.height = 20;
label.geometry.x = Math.round(x / this.view.scale) -
tr.x - ((state != null) ? state.origin.x : 0);
label.geometry.y = Math.round(y / this.view.scale) -
tr.y - ((state != null) ? state.origin.y : 0);
label.style += 'autosize=1;'
}
this.getModel().beginUpdate();
try
{
this.addCells([label], (state != null) ? state.cell : null);
this.fireEvent(new mxEventObject('textInserted', 'cells', [label]));
// Updates size of text after possible change of style via event
this.autoSizeCell(label);
}
finally
{
this.getModel().endUpdate();
}
return label;
};
/**
* Adds a handler for clicking on shapes with links. This replaces all links in labels.
*/
Graph.prototype.addClickHandler = function(highlight, beforeClick, onClick)
{
// Replaces links in labels for consistent right-clicks
var checkLinks = mxUtils.bind(this, function()
{
var links = this.container.getElementsByTagName('a');
if (links != null)
{
for (var i = 0; i < links.length; i++)
{
var href = this.getAbsoluteUrl(links[i].getAttribute('href'));
if (href != null)
{
links[i].setAttribute('rel', this.linkRelation);
links[i].setAttribute('href', href);
if (beforeClick != null)
{
mxEvent.addGestureListeners(links[i], null, null, beforeClick);
}
}
}
}
});
this.model.addListener(mxEvent.CHANGE, checkLinks);
checkLinks();
var cursor = this.container.style.cursor;
var tol = this.getTolerance();
var graph = this;
var mouseListener =
{
currentState: null,
currentLink: null,
currentTarget: null,
highlight: (highlight != null && highlight != '' && highlight != mxConstants.NONE) ?
new mxCellHighlight(graph, highlight, 4) : null,
startX: 0,
startY: 0,
scrollLeft: 0,
scrollTop: 0,
updateCurrentState: function(me)
{
var tmp = me.sourceState;
// Gets first intersecting ancestor with link
if (tmp == null || graph.getLinkForCell(tmp.cell) == null)
{
var cell = graph.getCellAt(me.getGraphX(), me.getGraphY(), null, null, null, function(state, x, y)
{
return graph.getLinkForCell(state.cell) == null;
});
tmp = (tmp != null && !graph.model.isAncestor(cell, tmp.cell)) ? null : graph.view.getState(cell);
}
if (tmp != this.currentState)
{
if (this.currentState != null)
{
this.clear();
}
this.currentState = tmp;
if (this.currentState != null)
{
this.activate(this.currentState);
}
}
},
mouseDown: function(sender, me)
{
this.startX = me.getGraphX();
this.startY = me.getGraphY();
this.scrollLeft = graph.container.scrollLeft;
this.scrollTop = graph.container.scrollTop;
if (this.currentLink == null && graph.container.style.overflow == 'auto')
{
graph.container.style.cursor = 'move';
}
this.updateCurrentState(me);
},
mouseMove: function(sender, me)
{
if (graph.isMouseDown)
{
if (this.currentLink != null)
{
var dx = Math.abs(this.startX - me.getGraphX());
var dy = Math.abs(this.startY - me.getGraphY());
if (dx > tol || dy > tol)
{
this.clear();
}
}
}
else
{
// Checks for parent link
var linkNode = me.getSource();
while (linkNode != null && linkNode.nodeName.toLowerCase() != 'a')
{
linkNode = linkNode.parentNode;
}
if (linkNode != null)
{
this.clear();
}
else
{
if (graph.tooltipHandler != null && this.currentLink != null && this.currentState != null)
{
graph.tooltipHandler.reset(me, true, this.currentState);
}
if (this.currentState != null && (me.getState() == this.currentState || me.sourceState == null) &&
graph.intersects(this.currentState, me.getGraphX(), me.getGraphY()))
{
return;
}
this.updateCurrentState(me);
}
}
},
mouseUp: function(sender, me)
{
var source = me.getSource();
var evt = me.getEvent();
// Checks for parent link
var linkNode = source;
while (linkNode != null && linkNode.nodeName.toLowerCase() != 'a')
{
linkNode = linkNode.parentNode;
}
// Ignores clicks on links and collapse/expand icon
if (linkNode == null &&
(((Math.abs(this.scrollLeft - graph.container.scrollLeft) < tol &&
Math.abs(this.scrollTop - graph.container.scrollTop) < tol) &&
(me.sourceState == null || !me.isSource(me.sourceState.control))) &&
(((mxEvent.isLeftMouseButton(evt) || mxEvent.isMiddleMouseButton(evt)) &&
!mxEvent.isPopupTrigger(evt)) || mxEvent.isTouchEvent(evt))))
{
if (this.currentLink != null)
{
var blank = graph.isBlankLink(this.currentLink);
if ((this.currentLink.substring(0, 5) === 'data:' ||
!blank) && beforeClick != null)
{
beforeClick(evt, this.currentLink);
}
if (!mxEvent.isConsumed(evt))
{
var target = (this.currentTarget != null) ?
this.currentTarget : ((mxEvent.isMiddleMouseButton(evt)) ? '_blank' :
((blank) ? graph.linkTarget : '_top'));
graph.openLink(this.currentLink, target);
me.consume();
}
}
else if (onClick != null && !me.isConsumed() &&
(Math.abs(this.scrollLeft - graph.container.scrollLeft) < tol &&
Math.abs(this.scrollTop - graph.container.scrollTop) < tol) &&
(Math.abs(this.startX - me.getGraphX()) < tol &&
Math.abs(this.startY - me.getGraphY()) < tol))
{
onClick(me.getEvent());
}
}
this.clear();
},
activate: function(state)
{
this.currentLink = graph.getAbsoluteUrl(graph.getLinkForCell(state.cell));
if (this.currentLink != null)
{
this.currentTarget = graph.getLinkTargetForCell(state.cell)
graph.container.style.cursor = 'pointer';
if (this.highlight != null)
{
this.highlight.highlight(state);
}
}
},
clear: function()
{
if (graph.container != null)
{
graph.container.style.cursor = cursor;
}
this.currentTarget = null;
this.currentState = null;
this.currentLink = null;
if (this.highlight != null)
{
this.highlight.hide();
}
if (graph.tooltipHandler != null)
{
graph.tooltipHandler.hide();
}
}
};
// Ignores built-in click handling
graph.click = function(me) {};
graph.addMouseListener(mouseListener);
mxEvent.addListener(document, 'mouseleave', function(evt)
{
mouseListener.clear();
});
};
/**
* Duplicates the given cells and returns the duplicates.
*/
Graph.prototype.duplicateCells = function(cells, append)
{
cells = (cells != null) ? cells : this.getSelectionCells();
append = (append != null) ? append : true;
// Duplicates rows for table cells
for (var i = 0; i < cells.length; i++)
{
if (this.isTableCell(cells[i]))
{
cells[i] = this.model.getParent(cells[i]);
}
}
cells = this.model.getTopmostCells(cells);
var model = this.getModel();
var s = this.gridSize;
var select = [];
model.beginUpdate();
try
{
var cloneMap = new Object();
var lookup = this.createCellLookup(cells);
var clones = this.cloneCells(cells, false, cloneMap, true);
for (var i = 0; i < cells.length; i++)
{
var parent = model.getParent(cells[i]);
if (parent != null)
{
var child = this.moveCells([clones[i]], s, s, false)[0];
select.push(child);
if (append)
{
model.add(parent, clones[i]);
}
else
{
// Maintains child index by inserting after clone in parent
var index = parent.getIndex(cells[i]);
model.add(parent, clones[i], index + 1);
}
// Extends tables
if (this.isTable(parent))
{
var row = this.getCellGeometry(clones[i]);
var table = this.getCellGeometry(parent);
if (row != null && table != null)
{
table = table.clone();
table.height += row.height;
model.setGeometry(parent, table);
}
}
}
else
{
select.push(clones[i]);
}
}
// Updates custom links after inserting into the model for cells to have new IDs
this.updateCustomLinks(this.createCellMapping(cloneMap, lookup), clones, this);
this.fireEvent(new mxEventObject(mxEvent.CELLS_ADDED, 'cells', clones));
}
finally
{
model.endUpdate();
}
return select;
};
/**
* Inserts the given image at the cursor in a content editable text box using
* the insertimage command on the document instance.
*/
Graph.prototype.insertImage = function(newValue, w, h)
{
// To find the new image, we create a list of all existing links first
if (newValue != null && this.cellEditor.textarea != null)
{
var tmp = this.cellEditor.textarea.getElementsByTagName('img');
var oldImages = [];
for (var i = 0; i < tmp.length; i++)
{
oldImages.push(tmp[i]);
}
// LATER: Fix inserting link/image in IE8/quirks after focus lost
document.execCommand('insertimage', false, newValue);
// Sets size of new image
var newImages = this.cellEditor.textarea.getElementsByTagName('img');
if (newImages.length == oldImages.length + 1)
{
// Inverse order in favor of appended images
for (var i = newImages.length - 1; i >= 0; i--)
{
if (i == 0 || newImages[i] != oldImages[i - 1])
{
// Workaround for lost styles during undo and redo is using attributes
newImages[i].setAttribute('width', w);
newImages[i].setAttribute('height', h);
break;
}
}
}
}
};
/**
* Inserts the given image at the cursor in a content editable text box using
* the insertimage command on the document instance.
*/
Graph.prototype.insertLink = function(value)
{
if (this.cellEditor.textarea != null)
{
if (value.length == 0)
{
document.execCommand('unlink', false);
}
else if (mxClient.IS_FF)
{
// Workaround for Firefox that adds a new link and removes
// the href from the inner link if its parent is a span is
// to remove all inner links inside the new outer link
var tmp = this.cellEditor.textarea.getElementsByTagName('a');
var oldLinks = [];
for (var i = 0; i < tmp.length; i++)
{
oldLinks.push(tmp[i]);
}
document.execCommand('createlink', false, mxUtils.trim(value));
// Finds the new link element
var newLinks = this.cellEditor.textarea.getElementsByTagName('a');
if (newLinks.length == oldLinks.length + 1)
{
// Inverse order in favor of appended links
for (var i = newLinks.length - 1; i >= 0; i--)
{
if (newLinks[i] != oldLinks[i - 1])
{
// Removes all inner links from the new link and
// moves the children to the inner link parent
var tmp = newLinks[i].getElementsByTagName('a');
while (tmp.length > 0)
{
var parent = tmp[0].parentNode;
while (tmp[0].firstChild != null)
{
parent.insertBefore(tmp[0].firstChild, tmp[0]);
}
parent.removeChild(tmp[0]);
}
break;
}
}
}
}
else
{
// LATER: Fix inserting link/image in IE8/quirks after focus lost
document.execCommand('createlink', false, mxUtils.trim(value));
}
}
};
/**
*
* @param cell
* @returns {Boolean}
*/
Graph.prototype.isCellResizable = function(cell)
{
var result = mxGraph.prototype.isCellResizable.apply(this, arguments);
var style = this.getCurrentCellStyle(cell);
return !this.isTableCell(cell) && !this.isTableRow(cell) && (result ||
(mxUtils.getValue(style, mxConstants.STYLE_RESIZABLE, '1') != '0' &&
style[mxConstants.STYLE_WHITE_SPACE] == 'wrap'));
};
/**
* Function: distributeCells
*
* Distribuets the centers of the given cells equally along the available
* horizontal or vertical space.
*
* Parameters:
*
* horizontal - Boolean that specifies the direction of the distribution.
* cells - Optional array of <mxCells> to be distributed. Edges are ignored.
*/
Graph.prototype.distributeCells = function(horizontal, cells, spacing)
{
if (cells == null)
{
cells = this.getSelectionCells();
}
if (cells != null && cells.length > 1)
{
var vertices = [];
var max = null;
var min = null;
var cellsSize = 0;
for (var i = 0; i < cells.length; i++)
{
if (this.getModel().isVertex(cells[i]))
{
var state = this.view.getState(cells[i]);
if (state != null)
{
var tmp = (horizontal) ? state.getCenterX() : state.getCenterY();
max = (max != null) ? Math.max(max, tmp) : tmp;
min = (min != null) ? Math.min(min, tmp) : tmp;
if (spacing)
{
cellsSize += (horizontal) ? state.width : state.height;
}
vertices.push(state);
}
}
}
if (vertices.length > 2)
{
vertices.sort(function(a, b)
{
return (horizontal) ? a.x - b.x : a.y - b.y;
});
if (spacing)
{
cellsSize -= (horizontal? (vertices[0].width / 2 + vertices[vertices.length - 1].width / 2) :
(vertices[0].height / 2 + vertices[vertices.length - 1].height / 2))
}
var t = this.view.translate;
var s = this.view.scale;
min = min / s - ((horizontal) ? t.x : t.y);
max = max / s - ((horizontal) ? t.x : t.y);
this.getModel().beginUpdate();
try
{
var dt = (max - min - cellsSize) / (vertices.length - 1);
var t0 = min + (spacing? (horizontal? vertices[0].width / 2 : vertices[0].height / 2) : 0);
for (var i = 1; i < vertices.length - 1; i++)
{
var pstate = this.view.getState(this.model.getParent(vertices[i].cell));
var geo = this.getCellGeometry(vertices[i].cell);
t0 += dt;
if (geo != null && pstate != null)
{
geo = geo.clone();
if (horizontal)
{
geo.x = Math.round(t0 - (spacing? 0 : geo.width / 2)) - pstate.origin.x;
}
else
{
geo.y = Math.round(t0 - (spacing? 0 : geo.height / 2)) - pstate.origin.y;
}
this.getModel().setGeometry(vertices[i].cell, geo);
}
if (spacing)
{
t0 += horizontal? vertices[i].width : vertices[i].height;
}
}
}
finally
{
this.getModel().endUpdate();
}
}
}
return cells;
};
/**
* Adds meta-drag an Mac.
* @param evt
* @returns
*/
Graph.prototype.isCloneEvent = function(evt)
{
return (mxClient.IS_MAC && mxEvent.isMetaDown(evt)) || mxEvent.isControlDown(evt);
};
/**
* Translates this point by the given vector.
*
* @param {number} dx X-coordinate of the translation.
* @param {number} dy Y-coordinate of the translation.
*/
Graph.prototype.createSvgImageExport = function()
{
var exp = new mxImageExport();
// Adds hyperlinks (experimental)
exp.getLinkForCellState = mxUtils.bind(this, function(state, canvas)
{
return this.getLinkForCell(state.cell);
});
// Adds tooltips (experimental)
exp.getTitleForCellState = mxUtils.bind(this, function(state, canvas)
{
return Editor.convertHtmlToText(this.convertValueToTooltip(state.cell));
});
return exp;
};
/**
* Parses the given background image.
*/
Graph.prototype.parseBackgroundImage = function(json)
{
var result = null;
if (json != null && json.length > 0)
{
var obj = JSON.parse(json);
result = new mxImage(obj.src, obj.width, obj.height)
}
return result;
};
/**
* Parses the given background image.
*/
Graph.prototype.getBackgroundImageObject = function(obj)
{
return obj;
};
/**
* Translates this point by the given vector.
*
* @param {number} dx X-coordinate of the translation.
* @param {number} dy Y-coordinate of the translation.
*/
Graph.prototype.getSvg = function(background, scale, border, nocrop, crisp,
ignoreSelection, showText, imgExport, linkTarget, hasShadow, incExtFonts,
keepTheme, exportType, cells)
{
var lookup = null;
if (cells != null)
{
lookup = new mxDictionary();
for (var i = 0; i < cells.length; i++)
{
lookup.put(cells[i], true);
}
}
//Disable Css Transforms if it is used
var origUseCssTrans = this.useCssTransforms;
if (origUseCssTrans)
{
this.useCssTransforms = false;
this.view.revalidate();
this.sizeDidChange();
}
try
{
scale = (scale != null) ? scale : 1;
border = (border != null) ? border : 0;
crisp = (crisp != null) ? crisp : true;
ignoreSelection = (ignoreSelection != null) ? ignoreSelection : true;
showText = (showText != null) ? showText : true;
hasShadow = (hasShadow != null) ? hasShadow : false;
var bounds = (exportType == 'page') ? this.view.getBackgroundPageBounds() :
(((ignoreSelection && lookup == null) || nocrop ||
exportType == 'diagram') ? this.getGraphBounds() :
this.getBoundingBox(this.getSelectionCells()));
var vs = this.view.scale;
if (exportType == 'diagram' && this.backgroundImage != null)
{
bounds = mxRectangle.fromRectangle(bounds);
bounds.add(new mxRectangle(
(this.view.translate.x + this.backgroundImage.x) * vs,
(this.view.translate.y + this.backgroundImage.y) * vs,
this.backgroundImage.width * vs,
this.backgroundImage.height * vs));
}
if (bounds == null)
{
throw Error(mxResources.get('drawingEmpty'));
}
// Prepares SVG document that holds the output
var s = scale / vs;
var w = Math.max(1, Math.ceil(bounds.width * s) + 2 * border) +
((hasShadow && border == 0) ? 5 : 0);
var h = Math.max(1, Math.ceil(bounds.height * s) + 2 * border) +
((hasShadow && border == 0) ? 5 : 0);
var tmp = (crisp) ? -0.5 : 0;
var root = Graph.createSvgNode(tmp, tmp, w, h, background);
var svgDoc = root.ownerDocument;
// Renders graph. Offset will be multiplied with state's scale when painting state.
// TextOffset only seems to affect FF output but used everywhere for consistency.
var group = (svgDoc.createElementNS != null) ?
svgDoc.createElementNS(mxConstants.NS_SVG, 'g') : svgDoc.createElement('g');
root.appendChild(group);
var svgCanvas = this.createSvgCanvas(group);
svgCanvas.foOffset = (crisp) ? -0.5 : 0;
svgCanvas.textOffset = (crisp) ? -0.5 : 0;
svgCanvas.imageOffset = (crisp) ? -0.5 : 0;
svgCanvas.translate(Math.floor(border / scale - bounds.x / vs),
Math.floor(border / scale - bounds.y / vs));
// Convert HTML entities
var htmlConverter = document.createElement('div');
// Adds simple text fallback for viewers with no support for foreignObjects
var getAlternateText = svgCanvas.getAlternateText;
svgCanvas.getAlternateText = function(fo, x, y, w, h, str,
align, valign, wrap, format, overflow, clip, rotation)
{
// Assumes a max character width of 0.5em
if (str != null && this.state.fontSize > 0)
{
try
{
if (mxUtils.isNode(str))
{
str = str.innerText;
}
else
{
htmlConverter.innerHTML = str;
str = mxUtils.extractTextWithWhitespace(htmlConverter.childNodes);
}
// Workaround for substring breaking double byte UTF
var exp = Math.ceil(2 * w / this.state.fontSize);
var result = [];
var length = 0;
var index = 0;
while ((exp == 0 || length < exp) && index < str.length)
{
var char = str.charCodeAt(index);
if (char == 10 || char == 13)
{
if (length > 0)
{
break;
}
}
else
{
result.push(str.charAt(index));
if (char < 255)
{
length++;
}
}
index++;
}
// Uses result and adds ellipsis if more than 1 char remains
if (result.length < str.length && str.length - result.length > 1)
{
str = mxUtils.trim(result.join('')) + '...';
}
return str;
}
catch (e)
{
return getAlternateText.apply(this, arguments);
}
}
else
{
return getAlternateText.apply(this, arguments);
}
};
// Paints background image
var bgImg = this.backgroundImage;
if (bgImg != null)
{
var s2 = vs / scale;
var tr = this.view.translate;
var tmp = new mxRectangle((bgImg.x + tr.x) * s2, (bgImg.y + tr.y) * s2,
bgImg.width * s2, bgImg.height * s2);
// Checks if visible
if (mxUtils.intersects(bounds, tmp))
{
svgCanvas.image(bgImg.x + tr.x, bgImg.y + tr.y,
bgImg.width, bgImg.height, bgImg.src, true);
}
}
svgCanvas.scale(s);
svgCanvas.textEnabled = showText;
imgExport = (imgExport != null) ? imgExport : this.createSvgImageExport();
var imgExportDrawCellState = imgExport.drawCellState;
// Ignores custom links
var imgExportGetLinkForCellState = imgExport.getLinkForCellState;
imgExport.getLinkForCellState = function(state, canvas)
{
var result = imgExportGetLinkForCellState.apply(this, arguments);
return (result != null && !state.view.graph.isCustomLink(result)) ? result : null;
};
imgExport.getLinkTargetForCellState = function(state, canvas)
{
return state.view.graph.getLinkTargetForCell(state.cell);
};
// Implements ignoreSelection flag
imgExport.drawCellState = function(state, canvas)
{
var graph = state.view.graph;
var selected = (lookup != null) ? lookup.get(state.cell) :
graph.isCellSelected(state.cell);
var parent = graph.model.getParent(state.cell);
// Checks if parent cell is selected
while ((!ignoreSelection || lookup != null) &&
!selected && parent != null)
{
selected = (lookup != null) ? lookup.get(parent) :
graph.isCellSelected(parent);
parent = graph.model.getParent(parent);
}
if ((ignoreSelection && lookup == null) || selected)
{
graph.view.redrawEnumerationState(state);
imgExportDrawCellState.apply(this, arguments);
this.doDrawShape(state.secondLabel, canvas);
}
};
var viewRoot = (this.view.currentRoot != null) ?
this.view.currentRoot : this.model.root;
imgExport.drawState(this.getView().getState(viewRoot), svgCanvas);
this.updateSvgLinks(root, linkTarget, true);
this.addForeignObjectWarning(svgCanvas, root);
return root;
}
finally
{
if (origUseCssTrans)
{
this.useCssTransforms = true;
this.view.revalidate();
this.sizeDidChange();
}
}
};
/**
* Adds warning for truncated labels in older viewers.
*/
Graph.prototype.addForeignObjectWarning = function(canvas, root)
{
if (urlParams['svg-warning'] != '0' && root.getElementsByTagName('foreignObject').length > 0)
{
var sw = canvas.createElement('switch');
var g1 = canvas.createElement('g');
g1.setAttribute('requiredFeatures', 'http://www.w3.org/TR/SVG11/feature#Extensibility');
var a = canvas.createElement('a');
a.setAttribute('transform', 'translate(0,-5)');
// Workaround for implicit namespace handling in HTML5 export, IE adds NS1 namespace so use code below
// in all IE versions except quirks mode. KNOWN: Adds xlink namespace to each image tag in output.
if (a.setAttributeNS == null || (root.ownerDocument != document && document.documentMode == null))
{
a.setAttribute('xlink:href', Graph.foreignObjectWarningLink);
a.setAttribute('target', '_blank');
}
else
{
a.setAttributeNS(mxConstants.NS_XLINK, 'xlink:href', Graph.foreignObjectWarningLink);
a.setAttributeNS(mxConstants.NS_XLINK, 'target', '_blank');
}
var text = canvas.createElement('text');
text.setAttribute('text-anchor', 'middle');
text.setAttribute('font-size', '10px');
text.setAttribute('x', '50%');
text.setAttribute('y', '100%');
mxUtils.write(text, Graph.foreignObjectWarningText);
sw.appendChild(g1);
a.appendChild(text);
sw.appendChild(a);
root.appendChild(sw);
}
};
/**
* Hook for creating the canvas used in getSvg.
*/
Graph.prototype.updateSvgLinks = function(node, target, removeCustom)
{
var links = node.getElementsByTagName('a');
for (var i = 0; i < links.length; i++)
{
if (links[i].getAttribute('target') == null)
{
var href = links[i].getAttribute('href');
if (href == null)
{
href = links[i].getAttribute('xlink:href');
}
if (href != null)
{
if (target != null && /^https?:\/\//.test(href))
{
links[i].setAttribute('target', target);
}
else if (removeCustom && this.isCustomLink(href))
{
links[i].setAttribute('href', 'javascript:void(0);');
}
}
}
}
};
/**
* Hook for creating the canvas used in getSvg.
*/
Graph.prototype.createSvgCanvas = function(node)
{
var canvas = new mxSvgCanvas2D(node);
canvas.minStrokeWidth = this.cellRenderer.minSvgStrokeWidth;
canvas.pointerEvents = true;
return canvas;
};
/**
*
*/
Graph.prototype.getSelectedTextBlocks = function()
{
// See https://stackoverflow.com/questions/667951/how-to-get-nodes-lying-inside-a-range-with-javascript
function getNextNode(node)
{
if (node.firstChild)
return node.firstChild;
while (node)
{
if (node.nextSibling)
return node.nextSibling;
node = node.parentNode;
}
};
function getNodesInRange(range)
{
var start = range.startContainer;
var end = range.endContainer;
var commonAncestor = range.commonAncestorContainer;
var nodes = [];
var node;
// walk parent nodes from start to common ancestor
for (node = start.parentNode; node; node = node.parentNode)
{
nodes.push(node);
if (node == commonAncestor)
break;
}
nodes.reverse();
// walk children and siblings from start until end is found
for (node = start; node; node = getNextNode(node))
{
nodes.push(node);
if (node == end)
break;
}
return nodes;
};
var nodes = [this.getSelectedElement()];
if (window.getSelection)
{
var sel = window.getSelection();
if (sel.getRangeAt && sel.rangeCount)
{
nodes = getNodesInRange(sel.getRangeAt(0));
}
}
var result = [];
for (var i = 0; i < nodes.length; i++)
{
var node = nodes[i];
while (this.cellEditor.textarea != null &&
this.cellEditor.textarea.contains(node) &&
node != this.cellEditor.textarea &&
node.parentNode != null)
{
if (node.nodeType == mxConstants.NODETYPE_ELEMENT &&
mxUtils.getCurrentStyle(node).display == 'block')
{
if (mxUtils.indexOf(result, node) < 0)
{
result.push(node);
}
break;
}
else
{
node = node.parentNode;
}
}
}
return result;
};
/**
* Returns the first ancestor of the current selection with the given name.
*/
Graph.prototype.getSelectedElement = function()
{
var node = null;
if (window.getSelection)
{
var sel = window.getSelection();
if (sel.getRangeAt && sel.rangeCount)
{
var range = sel.getRangeAt(0);
node = range.commonAncestorContainer;
}
}
else if (document.selection)
{
node = document.selection.createRange().parentElement();
}
return node;
};
/**
* Returns the text editing element.
*/
Graph.prototype.getSelectedEditingElement = function()
{
var node = this.getSelectedElement();
while (node != null && node.nodeType != mxConstants.NODETYPE_ELEMENT)
{
node = node.parentNode;
}
if (node != null)
{
// Workaround for commonAncestor on range in IE11 returning parent of common ancestor
if (node == this.cellEditor.textarea && this.cellEditor.textarea.children.length == 1 &&
this.cellEditor.textarea.firstChild.nodeType == mxConstants.NODETYPE_ELEMENT)
{
node = this.cellEditor.textarea.firstChild;
}
}
return node;
};
/**
* Returns the first ancestor of the current selection with the given name.
*/
Graph.prototype.getParentByName = function(node, name, stopAt)
{
while (node != null)
{
if (node.nodeName == name)
{
return node;
}
if (node == stopAt)
{
return null;
}
node = node.parentNode;
}
return node;
};
/**
* Returns the first ancestor of the current selection with the given name.
*/
Graph.prototype.getParentByNames = function(node, names, stopAt)
{
while (node != null)
{
if (mxUtils.indexOf(names, node.nodeName) >= 0)
{
return node;
}
if (node == stopAt)
{
return null;
}
node = node.parentNode;
}
return node;
};
/**
* Selects the given node.
*/
Graph.prototype.selectNode = function(node)
{
var sel = null;
// IE9 and non-IE
if (window.getSelection)
{
sel = window.getSelection();
if (sel.getRangeAt && sel.rangeCount)
{
var range = document.createRange();
range.selectNode(node);
sel.removeAllRanges();
sel.addRange(range);
}
}
// IE < 9
else if ((sel = document.selection) && sel.type != 'Control')
{
var originalRange = sel.createRange();
originalRange.collapse(true);
var range = sel.createRange();
range.setEndPoint('StartToStart', originalRange);
range.select();
}
};
/**
* Flips the given cells horizontally or vertically.
*/
Graph.prototype.flipEdgePoints = function(cell, horizontal, c)
{
var geo = this.getCellGeometry(cell);
if (geo != null)
{
geo = geo.clone();
if (geo.points != null)
{
for (var i = 0; i < geo.points.length; i++)
{
if (horizontal)
{
geo.points[i].x = c + (c - geo.points[i].x);
}
else
{
geo.points[i].y = c + (c - geo.points[i].y);
}
}
}
var flipTerminalPoint = function(pt)
{
if (pt != null)
{
if (horizontal)
{
pt.x = c + (c - pt.x);
}
else
{
pt.y = c + (c - pt.y);
}
}
};
flipTerminalPoint(geo.getTerminalPoint(true));
flipTerminalPoint(geo.getTerminalPoint(false));
this.model.setGeometry(cell, geo);
}
};
/**
* Flips the given cells horizontally or vertically.
*/
Graph.prototype.flipChildren = function(cell, horizontal, c)
{
this.model.beginUpdate();
try
{
var childCount = this.model.getChildCount(cell);
for (var i = 0; i < childCount; i++)
{
var child = this.model.getChildAt(cell, i);
if (this.model.isEdge(child))
{
this.flipEdgePoints(child, horizontal, c);
}
else
{
var geo = this.getCellGeometry(child);
if (geo != null)
{
geo = geo.clone();
if (horizontal)
{
geo.x = c + (c - geo.x - geo.width);
}
else
{
geo.y = c + (c - geo.y - geo.height);
}
this.model.setGeometry(child, geo);
}
}
}
}
finally
{
this.model.endUpdate();
}
};
/**
* Flips the given cells horizontally or vertically.
*/
Graph.prototype.flipCells = function(cells, horizontal)
{
this.model.beginUpdate();
try
{
cells = this.model.getTopmostCells(cells);
var vertices = [];
for (var i = 0; i < cells.length; i++)
{
if (this.model.isEdge(cells[i]))
{
var state = this.view.getState(cells[i]);
if (state != null)
{
this.flipEdgePoints(cells[i], horizontal, ((horizontal ? state.getCenterX() :
state.getCenterY()) / this.view.scale) - ((horizontal) ?
state.origin.x : state.origin.y) - ((horizontal) ?
this.view.translate.x : this.view.translate.y));
}
}
else
{
var geo = this.getCellGeometry(cells[i]);
if (geo != null)
{
this.flipChildren(cells[i], horizontal, horizontal ?
geo.getCenterX() - geo.x :
geo.getCenterY() - geo.y);
}
vertices.push(cells[i]);
}
}
this.toggleCellStyles(horizontal ? mxConstants.STYLE_FLIPH :
mxConstants.STYLE_FLIPV, false, vertices);
}
finally
{
this.model.endUpdate();
}
};
/**
* Deletes the given cells and returns the cells to be selected.
*/
Graph.prototype.deleteCells = function(cells, includeEdges)
{
var select = null;
if (cells != null && cells.length > 0)
{
this.model.beginUpdate();
try
{
// Shrinks tables
for (var i = 0; i < cells.length; i++)
{
var parent = this.model.getParent(cells[i]);
if (this.isTable(parent))
{
var row = this.getCellGeometry(cells[i]);
var table = this.getCellGeometry(parent);
if (row != null && table != null)
{
table = table.clone();
table.height -= row.height;
this.model.setGeometry(parent, table);
}
}
}
var parents = (this.selectParentAfterDelete) ? this.model.getParents(cells) : null;
this.removeCells(cells, includeEdges);
}
finally
{
this.model.endUpdate();
}
// Selects parents for easier editing of groups
if (parents != null)
{
select = [];
for (var i = 0; i < parents.length; i++)
{
if (this.model.contains(parents[i]) &&
(this.model.isVertex(parents[i]) ||
this.model.isEdge(parents[i])))
{
select.push(parents[i]);
}
}
}
}
return select;
};
/**
* Inserts a column in the table for the given cell.
*/
Graph.prototype.insertTableColumn = function(cell, before)
{
var model = this.getModel();
model.beginUpdate();
try
{
var table = cell;
var index = 0;
if (this.isTableCell(cell))
{
var row = model.getParent(cell);
table = model.getParent(row);
index = mxUtils.indexOf(model.getChildCells(row, true), cell);
}
else
{
if (this.isTableRow(cell))
{
table = model.getParent(cell);
}
else
{
cell = model.getChildCells(table, true)[0];
}
if (!before)
{
index = model.getChildCells(cell, true).length - 1;
}
}
var rows = model.getChildCells(table, true);
var dw = Graph.minTableColumnWidth;
for (var i = 0; i < rows.length; i++)
{
var child = model.getChildCells(rows[i], true)[index];
var clone = model.cloneCell(child, false);
// Handles possible missing child in row
if (clone == null)
{
clone = this.createVertex();
}
var geo = this.getCellGeometry(clone);
// Removes value, col/rowspan and alternate bounds
clone.value = null;
clone.style = mxUtils.setStyle(mxUtils.setStyle(
clone.style, 'rowspan', null), 'colspan', null);
if (geo != null)
{
if (geo.alternateBounds != null)
{
geo.width = geo.alternateBounds.width;
geo.height = geo.alternateBounds.height;
geo.alternateBounds = null;
}
dw = geo.width;
var rowGeo = this.getCellGeometry(rows[i]);
if (rowGeo != null)
{
geo.height = rowGeo.height;
}
}
model.add(rows[i], clone, index + ((before) ? 0 : 1));
}
var tableGeo = this.getCellGeometry(table);
if (tableGeo != null)
{
tableGeo = tableGeo.clone();
tableGeo.width += dw;
model.setGeometry(table, tableGeo);
}
}
finally
{
model.endUpdate();
}
};
/**
* Inserts a row in the table for the given cell.
*/
Graph.prototype.deleteLane = function(cell)
{
var model = this.getModel();
model.beginUpdate();
try
{
var pool = null;
var lane = cell;
var style = this.getCurrentCellStyle(lane);
if (style['childLayout'] == 'stackLayout')
{
pool = lane;
}
else
{
pool = model.getParent(lane);
}
var lanes = model.getChildCells(pool, true);
if (lanes.length == 0)
{
model.remove(pool);
}
else
{
if (pool == lane)
{
lane = lanes[lanes.length - 1];
}
model.remove(lane);
}
}
finally
{
model.endUpdate();
}
};
/**
* Inserts a row in the table for the given cell.
*/
Graph.prototype.insertLane = function(cell, before)
{
var model = this.getModel();
model.beginUpdate();
try
{
var pool = null;
var lane = cell;
var style = this.getCurrentCellStyle(lane);
if (style['childLayout'] == 'stackLayout')
{
pool = lane;
var lanes = model.getChildCells(pool, true);
lane = lanes[(before) ? 0 : lanes.length - 1];
}
else
{
pool = model.getParent(lane);
}
var index = pool.getIndex(lane);
lane = model.cloneCell(lane, false);
lane.value = null;
model.add(pool, lane, index + ((before) ? 0 : 1));
}
finally
{
model.endUpdate();
}
};
/**
* Inserts a row in the table for the given cell.
*/
Graph.prototype.insertTableRow = function(cell, before)
{
var model = this.getModel();
model.beginUpdate();
try
{
var table = cell;
var row = cell;
if (this.isTableCell(cell))
{
row = model.getParent(cell);
table = model.getParent(row);
}
else if (this.isTableRow(cell))
{
table = model.getParent(cell);
}
else
{
var rows = model.getChildCells(table, true);
row = rows[(before) ? 0 : rows.length - 1];
}
var cells = model.getChildCells(row, true);
var index = table.getIndex(row);
row = model.cloneCell(row, false);
row.value = null;
var rowGeo = this.getCellGeometry(row);
if (rowGeo != null)
{
for (var i = 0; i < cells.length; i++)
{
var cell = model.cloneCell(cells[i], false);
// Removes value, col/rowspan and alternate bounds
cell.value = null;
cell.style = mxUtils.setStyle(mxUtils.setStyle(
cell.style, 'rowspan', null), 'colspan', null);
var geo = this.getCellGeometry(cell);
if (geo != null)
{
if (geo.alternateBounds != null)
{
geo.width = geo.alternateBounds.width;
geo.height = geo.alternateBounds.height;
geo.alternateBounds = null;
}
geo.height = rowGeo.height;
}
row.insert(cell);
}
model.add(table, row, index + ((before) ? 0 : 1));
var tableGeo = this.getCellGeometry(table);
if (tableGeo != null)
{
tableGeo = tableGeo.clone();
tableGeo.height += rowGeo.height;
model.setGeometry(table, tableGeo);
}
}
}
finally
{
model.endUpdate();
}
};
/**
*
*/
Graph.prototype.deleteTableColumn = function(cell)
{
var model = this.getModel();
model.beginUpdate();
try
{
var table = cell;
var row = cell;
if (this.isTableCell(cell))
{
row = model.getParent(cell);
}
if (this.isTableRow(row))
{
table = model.getParent(row);
}
var rows = model.getChildCells(table, true);
if (rows.length == 0)
{
model.remove(table);
}
else
{
if (!this.isTableRow(row))
{
row = rows[0];
}
var cells = model.getChildCells(row, true);
if (cells.length <= 1)
{
model.remove(table);
}
else
{
var index = cells.length - 1;
if (this.isTableCell(cell))
{
index = mxUtils.indexOf(cells, cell);
}
var width = 0;
for (var i = 0; i < rows.length; i++)
{
var child = model.getChildCells(rows[i], true)[index];
model.remove(child);
var geo = this.getCellGeometry(child);
if (geo != null)
{
width = Math.max(width, geo.width);
}
}
var tableGeo = this.getCellGeometry(table);
if (tableGeo != null)
{
tableGeo = tableGeo.clone();
tableGeo.width -= width;
model.setGeometry(table, tableGeo);
}
}
}
}
finally
{
model.endUpdate();
}
};
/**
*
*/
Graph.prototype.deleteTableRow = function(cell)
{
var model = this.getModel();
model.beginUpdate();
try
{
var table = cell;
var row = cell;
if (this.isTableCell(cell))
{
row = model.getParent(cell);
cell = row;
}
if (this.isTableRow(cell))
{
table = model.getParent(row);
}
var rows = model.getChildCells(table, true);
if (rows.length <= 1)
{
model.remove(table);
}
else
{
if (!this.isTableRow(row))
{
row = rows[rows.length - 1];
}
model.remove(row);
var height = 0;
var geo = this.getCellGeometry(row);
if (geo != null)
{
height = geo.height;
}
var tableGeo = this.getCellGeometry(table);
if (tableGeo != null)
{
tableGeo = tableGeo.clone();
tableGeo.height -= height;
model.setGeometry(table, tableGeo);
}
}
}
finally
{
model.endUpdate();
}
};
/**
* Inserts a new row into the given table.
*/
Graph.prototype.insertRow = function(table, index)
{
var bd = table.tBodies[0];
var cells = bd.rows[0].cells;
var cols = 0;
// Counts columns including colspans
for (var i = 0; i < cells.length; i++)
{
var colspan = cells[i].getAttribute('colspan');
cols += (colspan != null) ? parseInt(colspan) : 1;
}
var row = bd.insertRow(index);
for (var i = 0; i < cols; i++)
{
mxUtils.br(row.insertCell(-1));
}
return row.cells[0];
};
/**
* Deletes the given column.
*/
Graph.prototype.deleteRow = function(table, index)
{
table.tBodies[0].deleteRow(index);
};
/**
* Deletes the given column.
*/
Graph.prototype.insertColumn = function(table, index)
{
var hd = table.tHead;
if (hd != null)
{
// TODO: use colIndex
for (var h = 0; h < hd.rows.length; h++)
{
var th = document.createElement('th');
hd.rows[h].appendChild(th);
mxUtils.br(th);
}
}
var bd = table.tBodies[0];
for (var i = 0; i < bd.rows.length; i++)
{
var cell = bd.rows[i].insertCell(index);
mxUtils.br(cell);
}
return bd.rows[0].cells[(index >= 0) ? index : bd.rows[0].cells.length - 1];
};
/**
* Deletes the given column.
*/
Graph.prototype.deleteColumn = function(table, index)
{
if (index >= 0)
{
var bd = table.tBodies[0];
var rows = bd.rows;
for (var i = 0; i < rows.length; i++)
{
if (rows[i].cells.length > index)
{
rows[i].deleteCell(index);
}
}
}
};
/**
* Inserts the given HTML at the caret position (no undo).
*/
Graph.prototype.pasteHtmlAtCaret = function(html)
{
var sel, range;
// IE9 and non-IE
if (window.getSelection)
{
sel = window.getSelection();
if (sel.getRangeAt && sel.rangeCount)
{
range = sel.getRangeAt(0);
range.deleteContents();
// Range.createContextualFragment() would be useful here but is
// only relatively recently standardized and is not supported in
// some browsers (IE9, for one)
var el = document.createElement("div");
el.innerHTML = html;
var frag = document.createDocumentFragment(), node;
while ((node = el.firstChild))
{
lastNode = frag.appendChild(node);
}
range.insertNode(frag);
}
}
// IE < 9
else if ((sel = document.selection) && sel.type != "Control")
{
// FIXME: Does not work if selection is empty
sel.createRange().pasteHTML(html);
}
};
/**
* Creates an anchor elements for handling the given link in the
* hint that is shown when the cell is selected.
*/
Graph.prototype.createLinkForHint = function(link, label)
{
link = (link != null) ? link : 'javascript:void(0);';
if (label == null || label.length == 0)
{
if (this.isCustomLink(link))
{
label = this.getLinkTitle(link);
}
else
{
label = link;
}
}
// Helper function to shorten strings
function short(str, max)
{
if (str.length > max)
{
str = str.substring(0, Math.round(max / 2)) + '...' +
str.substring(str.length - Math.round(max / 4));
}
return str;
};
var a = document.createElement('a');
a.setAttribute('rel', this.linkRelation);
a.setAttribute('href', this.getAbsoluteUrl(link));
a.setAttribute('title', short((this.isCustomLink(link)) ?
this.getLinkTitle(link) : link, 80));
if (this.linkTarget != null)
{
a.setAttribute('target', this.linkTarget);
}
// Adds shortened label to link
mxUtils.write(a, short(label, 40));
// Handles custom links
if (this.isCustomLink(link))
{
mxEvent.addListener(a, 'click', mxUtils.bind(this, function(evt)
{
this.customLinkClicked(link);
mxEvent.consume(evt);
}));
}
return a;
};
/**
* Customized graph for touch devices.
*/
Graph.prototype.initTouch = function()
{
// Disables new connections via "hotspot"
this.connectionHandler.marker.isEnabled = function()
{
return this.graph.connectionHandler.first != null;
};
// Hides menu when editing starts
this.addListener(mxEvent.START_EDITING, function(sender, evt)
{
this.popupMenuHandler.hideMenu();
});
// Adds custom hit detection if native hit detection found no cell
var graphUpdateMouseEvent = this.updateMouseEvent;
this.updateMouseEvent = function(me)
{
me = graphUpdateMouseEvent.apply(this, arguments);
if (mxEvent.isTouchEvent(me.getEvent()) && me.getState() == null)
{
var cell = this.getCellAt(me.graphX, me.graphY);
if (cell != null && this.isSwimlane(cell) && this.hitsSwimlaneContent(cell, me.graphX, me.graphY))
{
cell = null;
}
else
{
me.state = this.view.getState(cell);
if (me.state != null && me.state.shape != null)
{
this.container.style.cursor = me.state.shape.node.style.cursor;
}
}
}
if (me.getState() == null && this.isEnabled())
{
this.container.style.cursor = 'default';
}
return me;
};
// Context menu trigger implementation depending on current selection state
// combined with support for normal popup trigger.
var cellSelected = false;
var selectionEmpty = false;
var menuShowing = false;
var oldFireMouseEvent = this.fireMouseEvent;
this.fireMouseEvent = function(evtName, me, sender)
{
if (evtName == mxEvent.MOUSE_DOWN)
{
// For hit detection on edges
me = this.updateMouseEvent(me);
cellSelected = this.isCellSelected(me.getCell());
selectionEmpty = this.isSelectionEmpty();
menuShowing = this.popupMenuHandler.isMenuShowing();
}
oldFireMouseEvent.apply(this, arguments);
};
// Shows popup menu if cell was selected or selection was empty and background was clicked
// FIXME: Conflicts with mxPopupMenuHandler.prototype.getCellForPopupEvent in Editor.js by
// selecting parent for selected children in groups before this check can be made.
this.popupMenuHandler.mouseUp = mxUtils.bind(this, function(sender, me)
{
var isMouseEvent = mxEvent.isMouseEvent(me.getEvent());
this.popupMenuHandler.popupTrigger = !this.isEditing() && this.isEnabled() &&
(me.getState() == null || !me.isSource(me.getState().control)) &&
(this.popupMenuHandler.popupTrigger || (!menuShowing && !isMouseEvent &&
((selectionEmpty && me.getCell() == null && this.isSelectionEmpty()) ||
(cellSelected && this.isCellSelected(me.getCell())))));
// Delays popup menu to allow for double tap to start editing
var popup = (!cellSelected || isMouseEvent) ? null : mxUtils.bind(this, function(cell)
{
window.setTimeout(mxUtils.bind(this, function()
{
if (!this.isEditing())
{
var origin = mxUtils.getScrollOrigin();
this.popupMenuHandler.popup(me.getX() + origin.x + 1,
me.getY() + origin.y + 1, cell, me.getEvent());
}
}), 300);
});
mxPopupMenuHandler.prototype.mouseUp.apply(this.popupMenuHandler, [sender, me, popup]);
});
};
/**
* HTML in-place editor
*/
mxCellEditor.prototype.isContentEditing = function()
{
var state = this.graph.view.getState(this.editingCell);
return state != null && state.style['html'] == 1;
};
/**
* Returns true if all selected text is inside a table element.
*/
mxCellEditor.prototype.isTableSelected = function()
{
return this.graph.getParentByName(
this.graph.getSelectedElement(),
'TABLE', this.textarea) != null;
};
/**
* Returns true if text is selected.
*/
mxCellEditor.prototype.isTextSelected = function()
{
var txt = '';
if (window.getSelection)
{
txt = window.getSelection();
}
else if (document.getSelection)
{
txt = document.getSelection();
}
else if (document.selection)
{
txt = document.selection.createRange().text;
}
return txt != '';
};
/**
* Inserts a tab at the cursor position.
*/
mxCellEditor.prototype.insertTab = function(spaces)
{
var editor = this.textarea;
var doc = editor.ownerDocument.defaultView;
var sel = doc.getSelection();
var range = sel.getRangeAt(0);
var tabNode = Graph.createTabNode(spaces);
range.insertNode(tabNode);
range.setStartAfter(tabNode);
range.setEndAfter(tabNode);
sel.removeAllRanges();
sel.addRange(range);
};
/**
* Sets the alignment of the current selected cell. This sets the
* alignment in the cell style, removes all alignment within the
* text and invokes the built-in alignment function.
*
* Only the built-in function is invoked if shift is pressed or
* if table cells are selected and shift is not pressed.
*/
mxCellEditor.prototype.alignText = function(align, evt)
{
var shiftPressed = evt != null && mxEvent.isShiftDown(evt);
if (shiftPressed || (window.getSelection != null && window.getSelection().containsNode != null))
{
var allSelected = true;
this.graph.processElements(this.textarea, function(node)
{
if (shiftPressed || window.getSelection().containsNode(node, true))
{
node.removeAttribute('align');
node.style.textAlign = null;
}
else
{
allSelected = false;
}
});
if (allSelected)
{
this.graph.cellEditor.setAlign(align);
}
}
document.execCommand('justify' + align.toLowerCase(), false, null);
};
/**
* Creates the keyboard event handler for the current graph and history.
*/
mxCellEditor.prototype.saveSelection = function()
{
if (window.getSelection)
{
var sel = window.getSelection();
if (sel.getRangeAt && sel.rangeCount)
{
var ranges = [];
for (var i = 0, len = sel.rangeCount; i < len; ++i)
{
ranges.push(sel.getRangeAt(i));
}
return ranges;
}
}
else if (document.selection && document.selection.createRange)
{
return document.selection.createRange();
}
return null;
};
/**
* Creates the keyboard event handler for the current graph and history.
*/
mxCellEditor.prototype.restoreSelection = function(savedSel)
{
try
{
if (savedSel)
{
if (window.getSelection)
{
sel = window.getSelection();
sel.removeAllRanges();
for (var i = 0, len = savedSel.length; i < len; ++i)
{
sel.addRange(savedSel[i]);
}
}
else if (document.selection && savedSel.select)
{
savedSel.select();
}
}
}
catch (e)
{
// ignore
}
};
/**
* Handling of special nl2Br style for not converting newlines to breaks in HTML labels.
* NOTE: Since it's easier to set this when the label is created we assume that it does
* not change during the lifetime of the mxText instance.
*/
var mxCellRendererInitializeLabel = mxCellRenderer.prototype.initializeLabel;
mxCellRenderer.prototype.initializeLabel = function(state)
{
if (state.text != null)
{
state.text.replaceLinefeeds = mxUtils.getValue(state.style, 'nl2Br', '1') != '0';
}
mxCellRendererInitializeLabel.apply(this, arguments);
};
var mxConstraintHandlerUpdate = mxConstraintHandler.prototype.update;
mxConstraintHandler.prototype.update = function(me, source)
{
if (this.isKeepFocusEvent(me) || !mxEvent.isAltDown(me.getEvent()))
{
mxConstraintHandlerUpdate.apply(this, arguments);
}
else
{
this.reset();
}
};
/**
* No dashed shapes.
*/
mxGuide.prototype.createGuideShape = function(horizontal)
{
var guide = new mxPolyline([], mxConstants.GUIDE_COLOR, mxConstants.GUIDE_STROKEWIDTH);
return guide;
};
/**
* HTML in-place editor
*/
mxCellEditor.prototype.escapeCancelsEditing = false;
/**
* Overridden to set CSS classes.
*/
var mxCellEditorStartEditing = mxCellEditor.prototype.startEditing;
mxCellEditor.prototype.startEditing = function(cell, trigger)
{
cell = this.graph.getStartEditingCell(cell, trigger);
mxCellEditorStartEditing.apply(this, arguments);
// Overrides class in case of HTML content to add
// dashed borders for divs and table cells
var state = this.graph.view.getState(cell);
if (state != null && state.style['html'] == 1)
{
this.textarea.className = 'mxCellEditor geContentEditable';
}
else
{
this.textarea.className = 'mxCellEditor mxPlainTextEditor';
}
// Toggles markup vs wysiwyg mode
this.codeViewMode = false;
// Stores current selection range when switching between markup and code
this.switchSelectionState = null;
// Selects editing cell
this.graph.setSelectionCell(cell);
// Enables focus outline for edges and edge labels
var parent = this.graph.getModel().getParent(cell);
var geo = this.graph.getCellGeometry(cell);
if ((this.graph.getModel().isEdge(parent) && geo != null && geo.relative) ||
this.graph.getModel().isEdge(cell))
{
// IE>8 and FF on Windows uses outline default of none
if (mxClient.IS_IE || mxClient.IS_IE11 || (mxClient.IS_FF && mxClient.IS_WIN))
{
this.textarea.style.outline = 'gray dotted 1px';
}
else
{
this.textarea.style.outline = '';
}
}
}
/**
* HTML in-place editor
*/
var cellEditorInstallListeners = mxCellEditor.prototype.installListeners;
mxCellEditor.prototype.installListeners = function(elt)
{
cellEditorInstallListeners.apply(this, arguments);
// Adds a reference from the clone to the original node, recursively
function reference(node, clone)
{
clone.originalNode = node;
node = node.firstChild;
var child = clone.firstChild;
while (node != null && child != null)
{
reference(node, child);
node = node.nextSibling;
child = child.nextSibling;
}
return clone;
};
// Checks the given node for new nodes, recursively
function checkNode(node, clone)
{
if (node != null)
{
if (clone.originalNode != node)
{
cleanNode(node);
}
else
{
node = node.firstChild;
clone = clone.firstChild;
while (node != null)
{
var nextNode = node.nextSibling;
if (clone == null)
{
cleanNode(node);
}
else
{
checkNode(node, clone);
clone = clone.nextSibling;
}
node = nextNode;
}
}
}
};
// Removes unused DOM nodes and attributes, recursively
function cleanNode(node)
{
var child = node.firstChild;
while (child != null)
{
var next = child.nextSibling;
cleanNode(child);
child = next;
}
if ((node.nodeType != 1 || (node.nodeName !== 'BR' && node.firstChild == null)) &&
(node.nodeType != 3 || mxUtils.trim(mxUtils.getTextContent(node)).length == 0))
{
node.parentNode.removeChild(node);
}
else
{
// Removes linefeeds
if (node.nodeType == 3)
{
mxUtils.setTextContent(node, mxUtils.getTextContent(node).replace(/\n|\r/g, ''));
}
// Removes CSS classes and styles (for Word and Excel)
if (node.nodeType == 1)
{
node.removeAttribute('style');
node.removeAttribute('class');
node.removeAttribute('width');
node.removeAttribute('cellpadding');
node.removeAttribute('cellspacing');
node.removeAttribute('border');
}
}
};
// Handles paste from Word, Excel etc by removing styles, classnames and unused nodes
// LATER: Fix undo/redo for paste
if (document.documentMode !== 7 && document.documentMode !== 8)
{
mxEvent.addListener(this.textarea, 'paste', mxUtils.bind(this, function(evt)
{
var clone = reference(this.textarea, this.textarea.cloneNode(true));
window.setTimeout(mxUtils.bind(this, function()
{
if (this.textarea != null)
{
// Paste from Word or Excel
if (this.textarea.innerHTML.indexOf('<o:OfficeDocumentSettings>') >= 0 ||
this.textarea.innerHTML.indexOf('<!--[if !mso]>') >= 0)
{
checkNode(this.textarea, clone);
}
else
{
Graph.removePasteFormatting(this.textarea.firstChild);
}
}
}), 0);
}));
}
};
mxCellEditor.prototype.toggleViewMode = function()
{
var state = this.graph.view.getState(this.editingCell);
if (state != null)
{
var nl2Br = state != null && mxUtils.getValue(state.style, 'nl2Br', '1') != '0';
var tmp = this.saveSelection();
if (!this.codeViewMode)
{
// Clears the initial empty label on the first keystroke
if (this.clearOnChange && this.textarea.innerHTML == this.getEmptyLabelText())
{
this.clearOnChange = false;
this.textarea.innerText = '';
}
// Removes newlines from HTML and converts breaks to newlines
// to match the HTML output in plain text
var content = mxUtils.htmlEntities(this.textarea.innerHTML);
// Workaround for trailing line breaks being ignored in the editor
if (document.documentMode != 8)
{
content = mxUtils.replaceTrailingNewlines(content, '<div><br></div>');
}
content = Graph.sanitizeHtml((nl2Br) ? content.replace(/\n/g, '').
replace(/&lt;br\s*.?&gt;/g, '<br>') : content, true);
this.textarea.className = 'mxCellEditor mxPlainTextEditor';
var size = mxConstants.DEFAULT_FONTSIZE;
this.textarea.style.lineHeight = (mxConstants.ABSOLUTE_LINE_HEIGHT) ?
Math.round(size * mxConstants.LINE_HEIGHT) + 'px' : mxConstants.LINE_HEIGHT;
this.textarea.style.fontSize = Math.round(size) + 'px';
this.textarea.style.textDecoration = '';
this.textarea.style.fontWeight = 'normal';
this.textarea.style.fontStyle = '';
this.textarea.style.fontFamily = mxConstants.DEFAULT_FONTFAMILY;
this.textarea.style.textAlign = 'left';
this.textarea.style.width = '';
// Adds padding to make cursor visible with borders
this.textarea.style.padding = '2px';
if (this.textarea.innerHTML != content)
{
this.textarea.innerHTML = content;
}
this.codeViewMode = true;
}
else
{
var content = mxUtils.extractTextWithWhitespace(this.textarea.childNodes);
// Strips trailing line break
if (content.length > 0 && content.charAt(content.length - 1) == '\n')
{
content = content.substring(0, content.length - 1);
}
content = Graph.sanitizeHtml((nl2Br) ? content.replace(/\n/g, '<br/>') : content, true)
this.textarea.className = 'mxCellEditor geContentEditable';
var size = mxUtils.getValue(state.style, mxConstants.STYLE_FONTSIZE, mxConstants.DEFAULT_FONTSIZE);
var family = mxUtils.getValue(state.style, mxConstants.STYLE_FONTFAMILY, mxConstants.DEFAULT_FONTFAMILY);
var align = mxUtils.getValue(state.style, mxConstants.STYLE_ALIGN, mxConstants.ALIGN_LEFT);
var bold = (mxUtils.getValue(state.style, mxConstants.STYLE_FONTSTYLE, 0) &
mxConstants.FONT_BOLD) == mxConstants.FONT_BOLD;
var italic = (mxUtils.getValue(state.style, mxConstants.STYLE_FONTSTYLE, 0) &
mxConstants.FONT_ITALIC) == mxConstants.FONT_ITALIC;
var txtDecor = [];
if ((mxUtils.getValue(state.style, mxConstants.STYLE_FONTSTYLE, 0) &
mxConstants.FONT_UNDERLINE) == mxConstants.FONT_UNDERLINE)
{
txtDecor.push('underline');
}
if ((mxUtils.getValue(state.style, mxConstants.STYLE_FONTSTYLE, 0) &
mxConstants.FONT_STRIKETHROUGH) == mxConstants.FONT_STRIKETHROUGH)
{
txtDecor.push('line-through');
}
this.textarea.style.lineHeight = (mxConstants.ABSOLUTE_LINE_HEIGHT) ? Math.round(size * mxConstants.LINE_HEIGHT) + 'px' : mxConstants.LINE_HEIGHT;
this.textarea.style.fontSize = Math.round(size) + 'px';
this.textarea.style.textDecoration = txtDecor.join(' ');
this.textarea.style.fontWeight = (bold) ? 'bold' : 'normal';
this.textarea.style.fontStyle = (italic) ? 'italic' : '';
this.textarea.style.fontFamily = family;
this.textarea.style.textAlign = align;
this.textarea.style.padding = '0px';
if (this.textarea.innerHTML != content)
{
this.textarea.innerHTML = content;
if (this.textarea.innerHTML.length == 0)
{
this.textarea.innerHTML = this.getEmptyLabelText();
this.clearOnChange = this.textarea.innerHTML.length > 0;
}
}
this.codeViewMode = false;
}
this.textarea.focus();
if (this.switchSelectionState != null)
{
this.restoreSelection(this.switchSelectionState);
}
this.switchSelectionState = tmp;
this.resize();
}
};
var mxCellEditorResize = mxCellEditor.prototype.resize;
mxCellEditor.prototype.resize = function(state, trigger)
{
if (this.textarea != null)
{
var state = this.graph.getView().getState(this.editingCell);
if (this.codeViewMode && state != null)
{
var scale = state.view.scale;
this.bounds = mxRectangle.fromRectangle(state);
// General placement of code editor if cell has no size
// LATER: Fix HTML editor bounds for edge labels
if (this.bounds.width == 0 && this.bounds.height == 0)
{
this.bounds.width = 160 * scale;
this.bounds.height = 60 * scale;
var m = (state.text != null) ? state.text.margin : null;
if (m == null)
{
m = mxUtils.getAlignmentAsPoint(mxUtils.getValue(state.style, mxConstants.STYLE_ALIGN, mxConstants.ALIGN_CENTER),
mxUtils.getValue(state.style, mxConstants.STYLE_VERTICAL_ALIGN, mxConstants.ALIGN_MIDDLE));
}
this.bounds.x += m.x * this.bounds.width;
this.bounds.y += m.y * this.bounds.height;
}
this.textarea.style.width = Math.round((this.bounds.width - 4) / scale) + 'px';
this.textarea.style.height = Math.round((this.bounds.height - 4) / scale) + 'px';
this.textarea.style.overflow = 'auto';
// Adds scrollbar offset if visible
if (this.textarea.clientHeight < this.textarea.offsetHeight)
{
this.textarea.style.height = Math.round((this.bounds.height / scale)) + (this.textarea.offsetHeight - this.textarea.clientHeight) + 'px';
this.bounds.height = parseInt(this.textarea.style.height) * scale;
}
if (this.textarea.clientWidth < this.textarea.offsetWidth)
{
this.textarea.style.width = Math.round((this.bounds.width / scale)) + (this.textarea.offsetWidth - this.textarea.clientWidth) + 'px';
this.bounds.width = parseInt(this.textarea.style.width) * scale;
}
this.textarea.style.left = Math.round(this.bounds.x) + 'px';
this.textarea.style.top = Math.round(this.bounds.y) + 'px';
mxUtils.setPrefixedStyle(this.textarea.style, 'transform', 'scale(' + scale + ',' + scale + ')');
}
else
{
this.textarea.style.height = '';
this.textarea.style.overflow = '';
mxCellEditorResize.apply(this, arguments);
}
}
};
mxCellEditorGetInitialValue = mxCellEditor.prototype.getInitialValue;
mxCellEditor.prototype.getInitialValue = function(state, trigger)
{
if (mxUtils.getValue(state.style, 'html', '0') == '0')
{
return mxCellEditorGetInitialValue.apply(this, arguments);
}
else
{
var result = this.graph.getEditingValue(state.cell, trigger)
if (mxUtils.getValue(state.style, 'nl2Br', '1') == '1')
{
result = result.replace(/\n/g, '<br/>');
}
result = Graph.sanitizeHtml(result, true);
return result;
}
};
mxCellEditorGetCurrentValue = mxCellEditor.prototype.getCurrentValue;
mxCellEditor.prototype.getCurrentValue = function(state)
{
if (mxUtils.getValue(state.style, 'html', '0') == '0')
{
return mxCellEditorGetCurrentValue.apply(this, arguments);
}
else
{
var result = Graph.sanitizeHtml(this.textarea.innerHTML, true);
if (mxUtils.getValue(state.style, 'nl2Br', '1') == '1')
{
result = result.replace(/\r\n/g, '<br/>').replace(/\n/g, '<br/>');
}
else
{
result = result.replace(/\r\n/g, '').replace(/\n/g, '');
}
return result;
}
};
var mxCellEditorStopEditing = mxCellEditor.prototype.stopEditing;
mxCellEditor.prototype.stopEditing = function(cancel)
{
// Restores default view mode before applying value
if (this.codeViewMode)
{
this.toggleViewMode();
}
mxCellEditorStopEditing.apply(this, arguments);
// Tries to move focus back to container after editing if possible
this.focusContainer();
};
mxCellEditor.prototype.focusContainer = function()
{
try
{
this.graph.container.focus();
}
catch (e)
{
// ignore
}
};
var mxCellEditorApplyValue = mxCellEditor.prototype.applyValue;
mxCellEditor.prototype.applyValue = function(state, value)
{
// Removes empty relative child labels in edges
this.graph.getModel().beginUpdate();
try
{
mxCellEditorApplyValue.apply(this, arguments);
if (value == '' && this.graph.isCellDeletable(state.cell) &&
this.graph.model.getChildCount(state.cell) == 0 &&
this.graph.isTransparentState(state))
{
this.graph.removeCells([state.cell], false);
}
}
finally
{
this.graph.getModel().endUpdate();
}
};
/**
* Returns the background color to be used for the editing box. This returns
* the label background for edge labels and null for all other cases.
*/
mxCellEditor.prototype.getBackgroundColor = function(state)
{
var color = mxUtils.getValue(state.style, mxConstants.STYLE_LABEL_BACKGROUNDCOLOR, null);
if ((color == null || color == mxConstants.NONE) &&
(state.cell.geometry != null && state.cell.geometry.width > 0) &&
(mxUtils.getValue(state.style, mxConstants.STYLE_ROTATION, 0) != 0 ||
mxUtils.getValue(state.style, mxConstants.STYLE_HORIZONTAL, 1) == 0))
{
color = mxUtils.getValue(state.style, mxConstants.STYLE_FILLCOLOR, null);
}
if (color == mxConstants.NONE)
{
color = null;
}
return color;
};
/**
* Returns the border color to be used for the editing box. This returns
* the label border for edge labels and null for all other cases.
*/
mxCellEditor.prototype.getBorderColor = function(state)
{
var color = mxUtils.getValue(state.style, mxConstants.STYLE_LABEL_BORDERCOLOR, null);
if ((color == null || color == mxConstants.NONE) &&
(state.cell.geometry != null && state.cell.geometry.width > 0) &&
(mxUtils.getValue(state.style, mxConstants.STYLE_ROTATION, 0) != 0 ||
mxUtils.getValue(state.style, mxConstants.STYLE_HORIZONTAL, 1) == 0))
{
color = mxUtils.getValue(state.style, mxConstants.STYLE_STROKECOLOR, null);
}
if (color == mxConstants.NONE)
{
color = null;
}
return color;
};
/**
* Returns the minimum editing size.
*/
mxCellEditor.prototype.getMinimumSize = function(state)
{
var scale = this.graph.getView().scale;
return new mxRectangle(0, 0, (state.text == null) ? 30 : state.text.size * scale + 20, 30);
};
/**
* Hold Alt to ignore drop target.
*/
mxGraphHandlerIsValidDropTarget = mxGraphHandler.prototype.isValidDropTarget;
mxGraphHandler.prototype.isValidDropTarget = function(target, me)
{
return mxGraphHandlerIsValidDropTarget.apply(this, arguments) &&
!mxEvent.isAltDown(me.getEvent);
};
/**
* Hints on handlers
*/
function createHint()
{
var hint = document.createElement('div');
hint.className = 'geHint';
hint.style.whiteSpace = 'nowrap';
hint.style.position = 'absolute';
return hint;
};
/**
* Format pixels in the given unit
*/
function formatHintText(pixels, unit)
{
switch(unit)
{
case mxConstants.POINTS:
return pixels;
case mxConstants.MILLIMETERS:
return (pixels / mxConstants.PIXELS_PER_MM).toFixed(1);
case mxConstants.METERS:
return (pixels / (mxConstants.PIXELS_PER_MM * 1000)).toFixed(4);
case mxConstants.INCHES:
return (pixels / mxConstants.PIXELS_PER_INCH).toFixed(2);
}
};
mxGraphView.prototype.formatUnitText = function(pixels)
{
return pixels? formatHintText(pixels, this.unit) : pixels;
};
/**
* Updates the hint for the current operation.
*/
mxGraphHandler.prototype.updateHint = function(me)
{
if (this.pBounds != null && (this.shape != null || this.livePreviewActive))
{
if (this.hint == null)
{
this.hint = createHint();
this.graph.container.appendChild(this.hint);
}
var t = this.graph.view.translate;
var s = this.graph.view.scale;
var x = this.roundLength((this.bounds.x + this.currentDx) / s - t.x);
var y = this.roundLength((this.bounds.y + this.currentDy) / s - t.y);
var unit = this.graph.view.unit;
this.hint.innerHTML = formatHintText(x, unit) + ', ' + formatHintText(y, unit);
this.hint.style.left = (this.pBounds.x + this.currentDx +
Math.round((this.pBounds.width - this.hint.clientWidth) / 2)) + 'px';
this.hint.style.top = (this.pBounds.y + this.currentDy +
this.pBounds.height + Editor.hintOffset) + 'px';
}
};
/**
* Updates the hint for the current operation.
*/
mxGraphHandler.prototype.removeHint = function()
{
if (this.hint != null)
{
this.hint.parentNode.removeChild(this.hint);
this.hint = null;
}
};
/**
* Overridden to allow for shrinking pools when lanes are resized.
*/
var stackLayoutResizeCell = mxStackLayout.prototype.resizeCell;
mxStackLayout.prototype.resizeCell = function(cell, bounds)
{
stackLayoutResizeCell.apply(this, arguments);
var style = this.graph.getCellStyle(cell);
if (style['childLayout'] == null)
{
var parent = this.graph.model.getParent(cell);
var geo = (parent != null) ? this.graph.getCellGeometry(parent) : null;
if (geo != null)
{
style = this.graph.getCellStyle(parent);
if (style['childLayout'] == 'stackLayout')
{
var border = parseFloat(mxUtils.getValue(style, 'stackBorder', mxStackLayout.prototype.border));
var horizontal = mxUtils.getValue(style, 'horizontalStack', '1') == '1';
var start = this.graph.getActualStartSize(parent);
geo = geo.clone();
if (horizontal)
{
geo.height = bounds.height + start.y + start.height + 2 * border;
}
else
{
geo.width = bounds.width + start.x + start.width + 2 * border;
}
this.graph.model.setGeometry(parent, geo);
}
}
}
};
/**
* Shows handle for table instead of rows and cells.
*/
var selectionCellsHandlerGetHandledSelectionCells = mxSelectionCellsHandler.prototype.getHandledSelectionCells;
mxSelectionCellsHandler.prototype.getHandledSelectionCells = function()
{
var cells = selectionCellsHandlerGetHandledSelectionCells.apply(this, arguments);
var dict = new mxDictionary();
var model = this.graph.model;
var result = [];
function addCell(cell)
{
if (!dict.get(cell))
{
dict.put(cell, true);
result.push(cell);
}
};
for (var i = 0; i < cells.length; i++)
{
var cell = cells[i];
if (this.graph.isTableCell(cell))
{
addCell(model.getParent(model.getParent(cell)));
}
else if (this.graph.isTableRow(cell))
{
addCell(model.getParent(cell));
}
addCell(cell);
}
return result;
};
/**
* Disables starting new connections if control is pressed.
*/
var connectionHandlerIsStartEvent = mxConnectionHandler.prototype.isStartEvent;
mxConnectionHandler.prototype.isStartEvent = function(me)
{
return connectionHandlerIsStartEvent.apply(this, arguments) &&
!mxEvent.isControlDown(me.getEvent()) &&
!mxEvent.isShiftDown(me.getEvent());
};
/**
* Forces preview for title size in tables, table rows, table cells and swimlanes.
*/
var vertexHandlerIsGhostPreview = mxVertexHandler.prototype.isGhostPreview;
mxVertexHandler.prototype.isGhostPreview = function()
{
return vertexHandlerIsGhostPreview.apply(this, arguments) && !this.graph.isTable(this.state.cell) &&
!this.graph.isTableRow(this.state.cell) && !this.graph.isTableCell(this.state.cell) &&
!this.graph.isSwimlane(this.state.cell);
};
/**
* Creates the shape used to draw the selection border.
*/
var vertexHandlerCreateParentHighlightShape = mxVertexHandler.prototype.createParentHighlightShape;
mxVertexHandler.prototype.createParentHighlightShape = function(bounds)
{
var shape = vertexHandlerCreateParentHighlightShape.apply(this, arguments);
shape.stroke = '#C0C0C0';
shape.strokewidth = 1;
return shape;
};
/**
* Creates the shape used to draw the selection border.
*/
var edgeHandlerCreateParentHighlightShape = mxEdgeHandler.prototype.createParentHighlightShape;
mxEdgeHandler.prototype.createParentHighlightShape = function(bounds)
{
var shape = edgeHandlerCreateParentHighlightShape.apply(this, arguments);
shape.stroke = '#C0C0C0';
shape.strokewidth = 1;
return shape;
};
/**
* Moves rotation handle to top, right corner.
*/
mxVertexHandler.prototype.rotationHandleVSpacing = -12;
mxVertexHandler.prototype.getRotationHandlePosition = function()
{
var padding = this.getHandlePadding();
return new mxPoint(this.bounds.x + this.bounds.width - this.rotationHandleVSpacing + padding.x / 2,
this.bounds.y + this.rotationHandleVSpacing - padding.y / 2)
};
/**
* Enables recursive resize for groups.
*/
mxVertexHandler.prototype.isRecursiveResize = function(state, me)
{
return this.graph.isRecursiveVertexResize(state) &&
!mxEvent.isAltDown(me.getEvent());
};
/**
* Enables centered resize events.
*/
mxVertexHandler.prototype.isCenteredEvent = function(state, me)
{
return mxEvent.isControlDown(me.getEvent()) ||
mxEvent.isMetaDown(me.getEvent());
};
/**
* Hides rotation handle for table cells and rows.
*/
var vertexHandlerIsRotationHandleVisible = mxVertexHandler.prototype.isRotationHandleVisible;
mxVertexHandler.prototype.isRotationHandleVisible = function()
{
return vertexHandlerIsRotationHandleVisible.apply(this, arguments) &&
!this.graph.isTableCell(this.state.cell) &&
!this.graph.isTableRow(this.state.cell) &&
!this.graph.isTable(this.state.cell);
};
/**
* Hides rotation handle for table cells and rows.
*/
mxVertexHandler.prototype.getSizerBounds = function()
{
if (this.graph.isTableCell(this.state.cell))
{
return this.graph.view.getState(this.graph.model.getParent(this.graph.model.getParent(this.state.cell)));
}
else
{
return this.bounds;
}
};
/**
* Hides rotation handle for table cells and rows.
*/
var vertexHandlerIsParentHighlightVisible = mxVertexHandler.prototype.isParentHighlightVisible;
mxVertexHandler.prototype.isParentHighlightVisible = function()
{
return vertexHandlerIsParentHighlightVisible.apply(this, arguments) &&
!this.graph.isTableCell(this.state.cell) &&
!this.graph.isTableRow(this.state.cell);
};
/**
* Hides rotation handle for table cells and rows.
*/
var vertexHandlerIsCustomHandleVisible = mxVertexHandler.prototype.isCustomHandleVisible;
mxVertexHandler.prototype.isCustomHandleVisible = function(handle)
{
return handle.tableHandle ||
(vertexHandlerIsCustomHandleVisible.apply(this, arguments) &&
(!this.graph.isTable(this.state.cell) ||
this.graph.isCellSelected(this.state.cell)));
};
/**
* Adds selection border inset for table cells and rows.
*/
mxVertexHandler.prototype.getSelectionBorderInset = function()
{
var result = 0;
if (this.graph.isTableRow(this.state.cell))
{
result = 1;
}
else if (this.graph.isTableCell(this.state.cell))
{
result = 2;
}
return result;
};
/**
* Adds custom handles for table cells.
*/
var vertexHandlerGetSelectionBorderBounds = mxVertexHandler.prototype.getSelectionBorderBounds;
mxVertexHandler.prototype.getSelectionBorderBounds = function()
{
return vertexHandlerGetSelectionBorderBounds.apply(this, arguments).grow(
-this.getSelectionBorderInset());
};
var TableLineShape = null;
/**
* Adds custom handles for table cells.
*/
var vertexHandlerCreateCustomHandles = mxVertexHandler.prototype.createCustomHandles;
mxVertexHandler.prototype.createCustomHandles = function()
{
// Lazy lookup for shape constructor
if (TableLineShape == null)
{
TableLineShape = mxCellRenderer.defaultShapes['tableLine'];
}
var handles = vertexHandlerCreateCustomHandles.apply(this, arguments);
if (this.graph.isTable(this.state.cell) && this.graph.isCellMovable(this.state.cell))
{
var self = this;
var graph = this.graph;
var model = graph.model;
var s = graph.view.scale;
var tableState = this.state;
var sel = this.selectionBorder;
var x0 = this.state.origin.x + graph.view.translate.x;
var y0 = this.state.origin.y + graph.view.translate.y;
if (handles == null)
{
handles = [];
}
function moveLine(line, dx, dy)
{
var result = [];
for (var i = 0; i < line.length; i++)
{
var pt = line[i];
result.push((pt == null) ? null : new mxPoint(
(x0 + pt.x + dx) * s, (y0 + pt.y + dy) * s));
}
return result;
};
// Adds handles for rows and columns
var rows = graph.view.getCellStates(model.getChildCells(this.state.cell, true));
if (rows.length > 0)
{
var cols = model.getChildCells(rows[0].cell, true);
var colLines = graph.getTableLines(this.state.cell, false, true);
var rowLines = graph.getTableLines(this.state.cell, true, false);
// Adds row height handles
for (var i = 0; i < rows.length; i++)
{
(mxUtils.bind(this, function(index)
{
var rowState = rows[index];
var handle = null;
if (graph.isCellMovable(rowState.cell))
{
var nextRow = (index < rows.length - 1) ? rows[index + 1] : null;
var ngeo = (nextRow != null) ? graph.getCellGeometry(nextRow.cell) : null;
var ng = (ngeo != null && ngeo.alternateBounds != null) ? ngeo.alternateBounds : ngeo;
var shape = (rowLines[index] != null) ?
new TableLineShape(rowLines[index], mxConstants.NONE, 1) :
new mxLine(new mxRectangle(), mxConstants.NONE, 1, false);
shape.isDashed = sel.isDashed;
shape.svgStrokeTolerance++;
handle = new mxHandle(rowState, 'row-resize', null, shape);
handle.tableHandle = true;
var dy = 0;
handle.shape.node.parentNode.insertBefore(handle.shape.node,
handle.shape.node.parentNode.firstChild);
handle.redraw = function()
{
if (this.shape != null)
{
this.shape.stroke = (dy == 0) ? mxConstants.NONE : sel.stroke;
if (this.shape.constructor == TableLineShape)
{
this.shape.line = moveLine(rowLines[index], 0, dy);
this.shape.updateBoundsFromLine();
}
else
{
var start = graph.getActualStartSize(tableState.cell, true);
this.shape.bounds.height = 1;
this.shape.bounds.y = this.state.y + this.state.height + dy * s;
this.shape.bounds.x = tableState.x + ((index == rows.length - 1) ?
0 : start.x * s);
this.shape.bounds.width = tableState.width - ((index == rows.length - 1) ?
0 : (start.width + start.x) + s);
}
this.shape.redraw();
}
};
var shiftPressed = false;
handle.setPosition = function(bounds, pt, me)
{
dy = Math.max(Graph.minTableRowHeight - bounds.height,
pt.y - bounds.y - bounds.height);
shiftPressed = mxEvent.isShiftDown(me.getEvent());
if (ng != null && shiftPressed)
{
dy = Math.min(dy, ng.height - Graph.minTableRowHeight);
}
};
handle.execute = function(me)
{
if (dy != 0)
{
graph.setTableRowHeight(this.state.cell,
dy, !shiftPressed);
}
else if (!self.blockDelayedSelection)
{
var temp = graph.getCellAt(me.getGraphX(),
me.getGraphY()) || tableState.cell;
graph.graphHandler.selectCellForEvent(temp, me);
}
dy = 0;
};
handle.reset = function()
{
dy = 0;
};
}
handles.push(handle);
}))(i);
}
// Adds column width handles
for (var i = 0; i < cols.length; i++)
{
(mxUtils.bind(this, function(index)
{
var colState = graph.view.getState(cols[index]);
var geo = graph.getCellGeometry(cols[index]);
var g = (geo.alternateBounds != null) ? geo.alternateBounds : geo;
if (colState == null)
{
colState = new mxCellState(graph.view, cols[index],
graph.getCellStyle(cols[index]));
colState.x = tableState.x + geo.x * s;
colState.y = tableState.y + geo.y * s;
colState.width = g.width * s;
colState.height = g.height * s;
colState.updateCachedBounds();
}
var nextCol = (index < cols.length - 1) ? cols[index + 1] : null;
var ngeo = (nextCol != null) ? graph.getCellGeometry(nextCol) : null;
var ng = (ngeo != null && ngeo.alternateBounds != null) ? ngeo.alternateBounds : ngeo;
var shape = (colLines[index] != null) ?
new TableLineShape(colLines[index], mxConstants.NONE, 1) :
new mxLine(new mxRectangle(), mxConstants.NONE, 1, true);
shape.isDashed = sel.isDashed;
// Workaround for event handling on overlapping cells with tolerance
shape.svgStrokeTolerance++;
var handle = new mxHandle(colState, 'col-resize', null, shape);
handle.tableHandle = true;
var dx = 0;
handle.shape.node.parentNode.insertBefore(handle.shape.node,
handle.shape.node.parentNode.firstChild);
handle.redraw = function()
{
if (this.shape != null)
{
this.shape.stroke = (dx == 0) ? mxConstants.NONE : sel.stroke;
if (this.shape.constructor == TableLineShape)
{
this.shape.line = moveLine(colLines[index], dx, 0);
this.shape.updateBoundsFromLine();
}
else
{
var start = graph.getActualStartSize(tableState.cell, true);
this.shape.bounds.width = 1;
this.shape.bounds.x = this.state.x + (g.width + dx) * s;
this.shape.bounds.y = tableState.y + ((index == cols.length - 1) ?
0 : start.y * s);
this.shape.bounds.height = tableState.height - ((index == cols.length - 1) ?
0 : (start.height + start.y) * s);
}
this.shape.redraw();
}
};
var shiftPressed = false;
handle.setPosition = function(bounds, pt, me)
{
dx = Math.max(Graph.minTableColumnWidth - g.width,
pt.x - bounds.x - g.width);
shiftPressed = mxEvent.isShiftDown(me.getEvent());
if (ng != null && !shiftPressed)
{
dx = Math.min(dx, ng.width - Graph.minTableColumnWidth);
}
};
handle.execute = function(me)
{
if (dx != 0)
{
graph.setTableColumnWidth(this.state.cell,
dx, shiftPressed);
}
else if (!self.blockDelayedSelection)
{
var temp = graph.getCellAt(me.getGraphX(),
me.getGraphY()) || tableState.cell;
graph.graphHandler.selectCellForEvent(temp, me);
}
dx = 0;
};
// Stops repaint of text label via vertex handler
handle.positionChanged = function()
{
// do nothing
};
handle.reset = function()
{
dx = 0;
};
handles.push(handle);
}))(i);
}
}
}
// Reserve gives point handles precedence over line handles
return (handles != null) ? handles.reverse() : null;
};
/**
* Hides additional handles
*/
var vertexHandlerSetHandlesVisible = mxVertexHandler.prototype.setHandlesVisible;
mxVertexHandler.prototype.setHandlesVisible = function(visible)
{
vertexHandlerSetHandlesVisible.apply(this, arguments);
if (this.moveHandles != null)
{
for (var i = 0; i < this.moveHandles.length; i++)
{
if (this.moveHandles[i] != null)
{
this.moveHandles[i].node.style.visibility = (visible) ? '' : 'hidden';
}
}
}
if (this.cornerHandles != null)
{
for (var i = 0; i < this.cornerHandles.length; i++)
{
this.cornerHandles[i].node.style.visibility = (visible) ? '' : 'hidden';
}
}
};
/**
* Function: isMoveHandlesVisible
*
* Initializes the shapes required for this vertex handler.
*/
mxVertexHandler.prototype.isMoveHandlesVisible = function()
{
return this.graph.isTable(this.state.cell) &&
this.graph.isCellMovable(this.state.cell);
};
/**
* Creates or updates special handles for moving rows.
*/
mxVertexHandler.prototype.refreshMoveHandles = function()
{
var showMoveHandles = this.isMoveHandlesVisible();
if (showMoveHandles && this.moveHandles == null)
{
this.moveHandles = this.createMoveHandles();
}
else if (!showMoveHandles && this.moveHandles != null)
{
this.destroyMoveHandles();
}
// Destroys existing handles
if (showMoveHandles && this.moveHandles == null)
{
for (var i = 0; i < this.moveHandles.length; i++)
{
if (this.moveHandles[i] != null)
{
this.moveHandles[i].parentNode.removeChild(this.moveHandles[i]);
}
}
this.moveHandles = null;
}
};
/**
* Creates or updates special handles for moving rows.
*/
mxVertexHandler.prototype.createMoveHandles = function()
{
var graph = this.graph;
var model = graph.model;
var handles = [];
for (var i = 0; i < model.getChildCount(this.state.cell); i++)
{
(mxUtils.bind(this, function(rowState)
{
if (rowState != null && model.isVertex(rowState.cell) &&
graph.isCellMovable(rowState.cell))
{
var bounds = new mxRectangle(0, 0, this.rowHandleImage.width, this.rowHandleImage.height);
var moveHandle = new mxImageShape(bounds, this.rowHandleImage.src);
moveHandle.rowState = rowState;
moveHandle.dialect = (this.graph.dialect != mxConstants.DIALECT_SVG) ?
mxConstants.DIALECT_MIXEDHTML : mxConstants.DIALECT_SVG;
moveHandle.init(this.graph.getView().getOverlayPane());
moveHandle.node.style.cursor = 'move';
mxEvent.addGestureListeners(moveHandle.node, mxUtils.bind(this, function(evt)
{
this.graph.popupMenuHandler.hideMenu();
this.graph.stopEditing(false);
if (this.graph.isToggleEvent(evt) ||
!this.graph.isCellSelected(rowState.cell))
{
this.graph.selectCellForEvent(rowState.cell, evt);
}
if (!mxEvent.isPopupTrigger(evt))
{
this.graph.graphHandler.start(this.state.cell,
mxEvent.getClientX(evt), mxEvent.getClientY(evt),
this.graph.getSelectionCells());
this.graph.graphHandler.cellWasClicked = true;
this.graph.isMouseTrigger = mxEvent.isMouseEvent(evt);
this.graph.isMouseDown = true;
}
mxEvent.consume(evt);
}), null, mxUtils.bind(this, function(evt)
{
if (mxEvent.isPopupTrigger(evt))
{
this.graph.popupMenuHandler.popup(mxEvent.getClientX(evt),
mxEvent.getClientY(evt), rowState.cell, evt);
mxEvent.consume(evt);
}
}));
handles.push(moveHandle);
}
else
{
handles.push(null);
}
}))(this.graph.view.getState(model.getChildAt(this.state.cell, i)));
}
return handles;
};
/**
* Function: destroyCustomHandles
*
* Destroys the handler and all its resources and DOM nodes.
*/
mxVertexHandler.prototype.destroyMoveHandles = function()
{
if (this.moveHandles != null)
{
for (var i = 0; i < this.moveHandles.length; i++)
{
if (this.moveHandles[i] != null)
{
this.moveHandles[i].destroy();
// this.moveHandles[i].parentNode.removeChild(this.moveHandles[i]);
}
}
this.moveHandles = null;
}
};
/**
* Adds handle padding for editing cells and exceptions.
*/
var vertexHandlerRefresh = mxVertexHandler.prototype.refresh;
mxVertexHandler.prototype.refresh = function()
{
vertexHandlerRefresh.apply(this, arguments);
if (this.graph.isTable(this.state.cell) &&
this.graph.isCellMovable(this.state.cell))
{
this.refreshMoveHandles();
}
};
/**
* Adds handle padding for editing cells and exceptions.
*/
var vertexHandlerGetHandlePadding = mxVertexHandler.prototype.getHandlePadding;
mxVertexHandler.prototype.getHandlePadding = function()
{
var result = new mxPoint(0, 0);
var tol = this.tolerance;
var name = this.state.style['shape'];
if (mxCellRenderer.defaultShapes[name] == null &&
mxStencilRegistry.getStencil(name) == null)
{
name = mxConstants.SHAPE_RECTANGLE;
}
// Checks if custom handles are overlapping with the shape border
var handlePadding = this.graph.isTable(this.state.cell) ||
this.graph.cellEditor.getEditingCell() == this.state.cell;
if (!handlePadding)
{
if (this.customHandles != null)
{
for (var i = 0; i < this.customHandles.length; i++)
{
if (this.customHandles[i] != null &&
this.customHandles[i].shape != null &&
this.customHandles[i].shape.bounds != null)
{
var b = this.customHandles[i].shape.bounds;
var px = b.getCenterX();
var py = b.getCenterY();
if ((Math.abs(this.state.x - px) < b.width / 2) ||
(Math.abs(this.state.y - py) < b.height / 2) ||
(Math.abs(this.state.x + this.state.width - px) < b.width / 2) ||
(Math.abs(this.state.y + this.state.height - py) < b.height / 2))
{
handlePadding = true;
break;
}
}
}
}
}
if (handlePadding && this.sizers != null &&
this.sizers.length > 0 && this.sizers[0] != null)
{
tol /= 2;
// Makes room for row move handle
if (this.graph.isTable(this.state.cell))
{
tol += 7;
}
result.x = this.sizers[0].bounds.width + tol;
result.y = this.sizers[0].bounds.height + tol;
}
else
{
result = vertexHandlerGetHandlePadding.apply(this, arguments);
}
return result;
};
/**
* Updates the hint for the current operation.
*/
mxVertexHandler.prototype.updateHint = function(me)
{
if (this.index != mxEvent.LABEL_HANDLE)
{
if (this.hint == null)
{
this.hint = createHint();
this.state.view.graph.container.appendChild(this.hint);
}
if (this.index == mxEvent.ROTATION_HANDLE)
{
this.hint.innerHTML = this.currentAlpha + '&deg;';
}
else
{
var s = this.state.view.scale;
var unit = this.state.view.unit;
this.hint.innerHTML = formatHintText(this.roundLength(this.bounds.width / s), unit) + ' x ' +
formatHintText(this.roundLength(this.bounds.height / s), unit);
}
var rot = (this.currentAlpha != null) ? this.currentAlpha : this.state.style[mxConstants.STYLE_ROTATION] || '0';
var bb = mxUtils.getBoundingBox(this.bounds, rot);
if (bb == null)
{
bb = this.bounds;
}
this.hint.style.left = bb.x + Math.round((bb.width - this.hint.clientWidth) / 2) + 'px';
this.hint.style.top = (bb.y + bb.height + Editor.hintOffset) + 'px';
if (this.linkHint != null)
{
this.linkHint.style.display = 'none';
}
}
};
/**
* Updates the hint for the current operation.
*/
mxVertexHandler.prototype.removeHint = function()
{
mxGraphHandler.prototype.removeHint.apply(this, arguments);
if (this.linkHint != null)
{
this.linkHint.style.display = '';
}
};
/**
* Hides link hint while moving cells.
*/
var edgeHandlerMouseMove = mxEdgeHandler.prototype.mouseMove;
mxEdgeHandler.prototype.mouseMove = function(sender, me)
{
edgeHandlerMouseMove.apply(this, arguments);
if (this.linkHint != null && this.linkHint.style.display != 'none' &&
this.graph.graphHandler != null && this.graph.graphHandler.first != null)
{
this.linkHint.style.display = 'none';
}
}
/**
* Hides link hint while moving cells.
*/
var edgeHandlerMouseUp = mxEdgeHandler.prototype.mouseUp;
mxEdgeHandler.prototype.mouseUp = function(sender, me)
{
edgeHandlerMouseUp.apply(this, arguments);
if (this.linkHint != null && this.linkHint.style.display == 'none')
{
this.linkHint.style.display = '';
}
}
/**
* Updates the hint for the current operation.
*/
mxEdgeHandler.prototype.updateHint = function(me, point)
{
if (this.hint == null)
{
this.hint = createHint();
this.state.view.graph.container.appendChild(this.hint);
}
var t = this.graph.view.translate;
var s = this.graph.view.scale;
var x = this.roundLength(point.x / s - t.x);
var y = this.roundLength(point.y / s - t.y);
var unit = this.graph.view.unit;
this.hint.innerHTML = formatHintText(x, unit) + ', ' + formatHintText(y, unit);
this.hint.style.visibility = 'visible';
if (this.isSource || this.isTarget)
{
if (this.constraintHandler != null &&
this.constraintHandler.currentConstraint != null &&
this.constraintHandler.currentFocus != null)
{
var pt = this.constraintHandler.currentConstraint.point;
this.hint.innerHTML = '[' + Math.round(pt.x * 100) + '%, '+ Math.round(pt.y * 100) + '%]';
}
else if (this.marker.hasValidState())
{
this.hint.style.visibility = 'hidden';
}
}
this.hint.style.left = Math.round(me.getGraphX() - this.hint.clientWidth / 2) + 'px';
this.hint.style.top = (Math.max(me.getGraphY(), point.y) + Editor.hintOffset) + 'px';
if (this.linkHint != null)
{
this.linkHint.style.display = 'none';
}
};
/**
* Replaces folding icons with SVG.
*/
Graph.prototype.expandedImage = Graph.createSvgImage(9, 9, '<defs><linearGradient id="grad1" x1="50%" y1="0%" x2="50%" y2="100%">' +
'<stop offset="30%" style="stop-color:#f0f0f0;" /><stop offset="100%" style="stop-color:#AFB0B6;" /></linearGradient></defs>' +
'<rect x="0" y="0" width="9" height="9" stroke="#8A94A5" fill="url(#grad1)" stroke-width="2"/>' +
'<path d="M 2 4.5 L 7 4.5 z" stroke="#000"/>');
Graph.prototype.collapsedImage = Graph.createSvgImage(9, 9, '<defs><linearGradient id="grad1" x1="0%" y1="0%" x2="100%" y2="100%">' +
'<stop offset="30%" style="stop-color:#f0f0f0;" /><stop offset="100%" style="stop-color:#AFB0B6;" /></linearGradient></defs>' +
'<rect x="0" y="0" width="9" height="9" stroke="#8A94A5" fill="url(#grad1)" stroke-width="2"/>' +
'<path d="M 4.5 2 L 4.5 7 M 2 4.5 L 7 4.5 z" stroke="#000"/>');
/**
* Updates the hint for the current operation.
*/
mxEdgeHandler.prototype.removeHint = mxVertexHandler.prototype.removeHint;
/**
* Defines the handles for the UI. Uses data-URIs to speed-up loading time where supported.
*/
HoverIcons.prototype.mainHandle = Graph.createSvgImage(18, 18, '<circle cx="9" cy="9" r="5" stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
HoverIcons.prototype.endMainHandle = Graph.createSvgImage(18, 18, '<circle cx="9" cy="9" r="6" stroke="#fff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
HoverIcons.prototype.secondaryHandle = Graph.createSvgImage(16, 16, '<path d="m 8 3 L 13 8 L 8 13 L 3 8 z" stroke="#fff" fill="#fca000"/>');
HoverIcons.prototype.fixedHandle = Graph.createSvgImage(22, 22,
'<circle cx="11" cy="11" r="6" stroke="#fff" fill="#01bd22"/>' +
'<path d="m 8 8 L 14 14M 8 14 L 14 8" stroke="#fff"/>');
HoverIcons.prototype.endFixedHandle = Graph.createSvgImage(22, 22,
'<circle cx="11" cy="11" r="7" stroke="#fff" fill="#01bd22"/>' +
'<path d="m 8 8 L 14 14M 8 14 L 14 8" stroke="#fff"/>');
HoverIcons.prototype.terminalHandle = Graph.createSvgImage(22, 22,
'<circle cx="11" cy="11" r="6" stroke="#fff" fill="' + HoverIcons.prototype.arrowFill +
'"/><circle cx="11" cy="11" r="3" stroke="#fff" fill="transparent"/>');
HoverIcons.prototype.endTerminalHandle = Graph.createSvgImage(22, 22,
'<circle cx="11" cy="11" r="7" stroke="#fff" fill="' + HoverIcons.prototype.arrowFill +
'"/><circle cx="11" cy="11" r="3" stroke="#fff" fill="transparent"/>');
HoverIcons.prototype.rotationHandle = Graph.createSvgImage(16, 16,
'<path stroke="' + HoverIcons.prototype.arrowFill + '" fill="' + HoverIcons.prototype.arrowFill +
'" d="M15.55 5.55L11 1v3.07C7.06 4.56 4 7.92 4 12s3.05 7.44 7 7.93v-2.02c-2.84-.48-5-2.94-5-5.91s2.16-5.43 5-5.91V10l4.55-4.45zM19.93 11c-.17-1.39-.72-2.73-1.62-3.89l-1.42 1.42c.54.75.88 1.6 1.02 2.47h2.02zM13 17.9v2.02c1.39-.17 2.74-.71 3.9-1.61l-1.44-1.44c-.75.54-1.59.89-2.46 1.03zm3.89-2.42l1.42 1.41c.9-1.16 1.45-2.5 1.62-3.89h-2.02c-.14.87-.48 1.72-1.02 2.48z"/>',
24, 24);
mxConstraintHandler.prototype.pointImage = Graph.createSvgImage(5, 5,
'<path d="m 0 0 L 5 5 M 0 5 L 5 0" stroke-width="2" style="stroke-opacity:0.4" stroke="#ffffff"/>' +
'<path d="m 0 0 L 5 5 M 0 5 L 5 0" stroke="' + HoverIcons.prototype.arrowFill + '"/>');
mxVertexHandler.TABLE_HANDLE_COLOR = '#fca000';
mxVertexHandler.prototype.handleImage = HoverIcons.prototype.mainHandle;
mxVertexHandler.prototype.secondaryHandleImage = HoverIcons.prototype.secondaryHandle;
mxVertexHandler.prototype.rowHandleImage = Graph.createSvgImage(14, 12,
'<rect x="2" y="2" width="10" height="3" stroke-width="1" stroke="#ffffff" fill="' + HoverIcons.prototype.arrowFill + '"/>' +
'<rect x="2" y="7" width="10" height="3" stroke-width="1" stroke="#ffffff" fill="' + HoverIcons.prototype.arrowFill + '"/>');
mxEdgeHandler.prototype.handleImage = HoverIcons.prototype.mainHandle;
mxEdgeHandler.prototype.endHandleImage = HoverIcons.prototype.endMainHandle;
mxEdgeHandler.prototype.terminalHandleImage = HoverIcons.prototype.terminalHandle;
mxEdgeHandler.prototype.endTerminalHandleImage = HoverIcons.prototype.endTerminalHandle;
mxEdgeHandler.prototype.fixedHandleImage = HoverIcons.prototype.fixedHandle;
mxEdgeHandler.prototype.endFixedHandleImage = HoverIcons.prototype.endFixedHandle;
mxEdgeHandler.prototype.labelHandleImage = HoverIcons.prototype.secondaryHandle;
mxOutline.prototype.sizerImage = HoverIcons.prototype.mainHandle;
if (window.Sidebar != null)
{
Sidebar.prototype.triangleUp = HoverIcons.prototype.triangleUp;
Sidebar.prototype.triangleRight = HoverIcons.prototype.triangleRight;
Sidebar.prototype.triangleDown = HoverIcons.prototype.triangleDown;
Sidebar.prototype.triangleLeft = HoverIcons.prototype.triangleLeft;
Sidebar.prototype.refreshTarget = HoverIcons.prototype.refreshTarget;
Sidebar.prototype.roundDrop = HoverIcons.prototype.roundDrop;
}
// Adds rotation handle and live preview
mxVertexHandler.prototype.rotationEnabled = true;
mxVertexHandler.prototype.manageSizers = true;
mxVertexHandler.prototype.livePreview = true;
mxGraphHandler.prototype.maxLivePreview = 16;
// Increases default rubberband opacity (default is 20)
mxRubberband.prototype.defaultOpacity = 30;
// Enables connections along the outline, virtual waypoints, parent highlight etc
mxConnectionHandler.prototype.outlineConnect = true;
mxCellHighlight.prototype.keepOnTop = true;
mxVertexHandler.prototype.parentHighlightEnabled = true;
mxEdgeHandler.prototype.parentHighlightEnabled = true;
mxEdgeHandler.prototype.dblClickRemoveEnabled = true;
mxEdgeHandler.prototype.straightRemoveEnabled = true;
mxEdgeHandler.prototype.virtualBendsEnabled = true;
mxEdgeHandler.prototype.mergeRemoveEnabled = true;
mxEdgeHandler.prototype.manageLabelHandle = true;
mxEdgeHandler.prototype.outlineConnect = true;
// Disables adding waypoints if shift is pressed
mxEdgeHandler.prototype.isAddVirtualBendEvent = function(me)
{
return !mxEvent.isShiftDown(me.getEvent());
};
// Disables custom handles if shift is pressed
mxEdgeHandler.prototype.isCustomHandleEvent = function(me)
{
return !mxEvent.isShiftDown(me.getEvent());
};
/**
* Implements touch style
*/
if (Graph.touchStyle)
{
// Larger tolerance for real touch devices
if (mxClient.IS_TOUCH || navigator.maxTouchPoints > 0 || navigator.msMaxTouchPoints > 0)
{
mxShape.prototype.svgStrokeTolerance = 18;
mxVertexHandler.prototype.tolerance = 12;
mxEdgeHandler.prototype.tolerance = 12;
Graph.prototype.tolerance = 12;
mxVertexHandler.prototype.rotationHandleVSpacing = -16;
// Implements a smaller tolerance for mouse events and a larger tolerance for touch
// events on touch devices. The default tolerance (4px) is used for mouse events.
mxConstraintHandler.prototype.getTolerance = function(me)
{
return (mxEvent.isMouseEvent(me.getEvent())) ? 4 : this.graph.getTolerance();
};
}
// One finger pans (no rubberband selection) must start regardless of mouse button
mxPanningHandler.prototype.isPanningTrigger = function(me)
{
var evt = me.getEvent();
return (me.getState() == null && !mxEvent.isMouseEvent(evt)) ||
(mxEvent.isPopupTrigger(evt) && (me.getState() == null ||
mxEvent.isControlDown(evt) || mxEvent.isShiftDown(evt)));
};
// Don't clear selection if multiple cells selected
var graphHandlerMouseDown = mxGraphHandler.prototype.mouseDown;
mxGraphHandler.prototype.mouseDown = function(sender, me)
{
graphHandlerMouseDown.apply(this, arguments);
if (mxEvent.isTouchEvent(me.getEvent()) && this.graph.isCellSelected(me.getCell()) &&
this.graph.getSelectionCount() > 1)
{
this.delayedSelection = false;
}
};
}
else
{
// Removes ctrl+shift as panning trigger for space splitting
mxPanningHandler.prototype.isPanningTrigger = function(me)
{
var evt = me.getEvent();
return (mxEvent.isLeftMouseButton(evt) && ((this.useLeftButtonForPanning &&
me.getState() == null) || (mxEvent.isControlDown(evt) &&
!mxEvent.isShiftDown(evt)))) || (this.usePopupTrigger &&
mxEvent.isPopupTrigger(evt));
};
}
// Overrides/extends rubberband for space handling with Ctrl+Shift(+Alt) drag ("scissors tool")
mxRubberband.prototype.isSpaceEvent = function(me)
{
return this.graph.isEnabled() && !this.graph.isCellLocked(this.graph.getDefaultParent()) &&
(mxEvent.isControlDown(me.getEvent()) || mxEvent.isMetaDown(me.getEvent())) &&
mxEvent.isShiftDown(me.getEvent()) && mxEvent.isAltDown(me.getEvent());
};
// Cancelled state
mxRubberband.prototype.cancelled = false;
// Cancels ongoing rubberband selection but consumed event to avoid reset of selection
mxRubberband.prototype.cancel = function()
{
if (this.isActive())
{
this.cancelled = true;
this.reset();
}
};
// Handles moving of cells in both half panes
mxRubberband.prototype.mouseUp = function(sender, me)
{
if (this.cancelled)
{
this.cancelled = false;
me.consume();
}
else
{
var execute = this.div != null && this.div.style.display != 'none';
var x0 = null;
var y0 = null;
var dx = null;
var dy = null;
if (this.first != null && this.currentX != null && this.currentY != null)
{
x0 = this.first.x;
y0 = this.first.y;
dx = (this.currentX - x0) / this.graph.view.scale;
dy = (this.currentY - y0) / this.graph.view.scale;
if (!mxEvent.isAltDown(me.getEvent()))
{
dx = this.graph.snap(dx);
dy = this.graph.snap(dy);
if (!this.graph.isGridEnabled())
{
if (Math.abs(dx) < this.graph.tolerance)
{
dx = 0;
}
if (Math.abs(dy) < this.graph.tolerance)
{
dy = 0;
}
}
}
}
this.reset();
if (execute)
{
if (this.isSpaceEvent(me))
{
this.graph.model.beginUpdate();
try
{
var cells = this.graph.getCellsBeyond(x0, y0, this.graph.getDefaultParent(), true, true);
for (var i = 0; i < cells.length; i++)
{
if (this.graph.isCellMovable(cells[i]))
{
var tmp = this.graph.view.getState(cells[i]);
var geo = this.graph.getCellGeometry(cells[i]);
if (tmp != null && geo != null)
{
geo = geo.clone();
geo.translate(dx, dy);
this.graph.model.setGeometry(cells[i], geo);
}
}
}
}
finally
{
this.graph.model.endUpdate();
}
}
else
{
var rect = new mxRectangle(this.x, this.y, this.width, this.height);
this.graph.selectRegion(rect, me.getEvent());
}
me.consume();
}
}
};
// Handles preview for creating/removing space in diagram
mxRubberband.prototype.mouseMove = function(sender, me)
{
if (!me.isConsumed() && this.first != null)
{
var origin = mxUtils.getScrollOrigin(this.graph.container);
var offset = mxUtils.getOffset(this.graph.container);
origin.x -= offset.x;
origin.y -= offset.y;
var x = me.getX() + origin.x;
var y = me.getY() + origin.y;
var dx = this.first.x - x;
var dy = this.first.y - y;
var tol = this.graph.tolerance;
if (this.div != null || Math.abs(dx) > tol || Math.abs(dy) > tol)
{
if (this.div == null)
{
this.div = this.createShape();
}
// Clears selection while rubberbanding. This is required because
// the event is not consumed in mouseDown.
mxUtils.clearSelection();
this.update(x, y);
if (this.isSpaceEvent(me))
{
var right = this.x + this.width;
var bottom = this.y + this.height;
var scale = this.graph.view.scale;
if (!mxEvent.isAltDown(me.getEvent()))
{
this.width = this.graph.snap(this.width / scale) * scale;
this.height = this.graph.snap(this.height / scale) * scale;
if (!this.graph.isGridEnabled())
{
if (this.width < this.graph.tolerance)
{
this.width = 0;
}
if (this.height < this.graph.tolerance)
{
this.height = 0;
}
}
if (this.x < this.first.x)
{
this.x = right - this.width;
}
if (this.y < this.first.y)
{
this.y = bottom - this.height;
}
}
this.div.style.borderStyle = 'dashed';
this.div.style.backgroundColor = 'white';
this.div.style.left = this.x + 'px';
this.div.style.top = this.y + 'px';
this.div.style.width = Math.max(0, this.width) + 'px';
this.div.style.height = this.graph.container.clientHeight + 'px';
this.div.style.borderWidth = (this.width <= 0) ? '0px 1px 0px 0px' : '0px 1px 0px 1px';
if (this.secondDiv == null)
{
this.secondDiv = this.div.cloneNode(true);
this.div.parentNode.appendChild(this.secondDiv);
}
this.secondDiv.style.left = this.x + 'px';
this.secondDiv.style.top = this.y + 'px';
this.secondDiv.style.width = this.graph.container.clientWidth + 'px';
this.secondDiv.style.height = Math.max(0, this.height) + 'px';
this.secondDiv.style.borderWidth = (this.height <= 0) ? '1px 0px 0px 0px' : '1px 0px 1px 0px';
}
else
{
// Hides second div and restores style
this.div.style.backgroundColor = '';
this.div.style.borderWidth = '';
this.div.style.borderStyle = '';
if (this.secondDiv != null)
{
this.secondDiv.parentNode.removeChild(this.secondDiv);
this.secondDiv = null;
}
}
me.consume();
}
}
};
// Removes preview
var mxRubberbandReset = mxRubberband.prototype.reset;
mxRubberband.prototype.reset = function()
{
if (this.secondDiv != null)
{
this.secondDiv.parentNode.removeChild(this.secondDiv);
this.secondDiv = null;
}
mxRubberbandReset.apply(this, arguments);
};
// Timer-based activation of outline connect in connection handler
var startTime = new Date().getTime();
var timeOnTarget = 0;
var mxEdgeHandlerUpdatePreviewState = mxEdgeHandler.prototype.updatePreviewState;
mxEdgeHandler.prototype.updatePreviewState = function(edge, point, terminalState, me)
{
mxEdgeHandlerUpdatePreviewState.apply(this, arguments);
if (terminalState != this.currentTerminalState)
{
startTime = new Date().getTime();
timeOnTarget = 0;
}
else
{
timeOnTarget = new Date().getTime() - startTime;
}
this.currentTerminalState = terminalState;
};
// Timer-based outline connect
var mxEdgeHandlerIsOutlineConnectEvent = mxEdgeHandler.prototype.isOutlineConnectEvent;
mxEdgeHandler.prototype.isOutlineConnectEvent = function(me)
{
if (mxEvent.isShiftDown(me.getEvent()) && mxEvent.isAltDown(me.getEvent()))
{
return false;
}
else
{
return (this.currentTerminalState != null && me.getState() == this.currentTerminalState && timeOnTarget > 2000) ||
((this.currentTerminalState == null || mxUtils.getValue(this.currentTerminalState.style, 'outlineConnect', '1') != '0') &&
mxEdgeHandlerIsOutlineConnectEvent.apply(this, arguments));
}
};
// Shows secondary handle for fixed connection points
mxEdgeHandler.prototype.createHandleShape = function(index, virtual, target)
{
var source = index != null && index == 0;
var terminalState = this.state.getVisibleTerminalState(source);
var c = (index != null && (index == 0 || index >= this.state.absolutePoints.length - 1 ||
(this.constructor == mxElbowEdgeHandler && index == 2))) ?
this.graph.getConnectionConstraint(this.state, terminalState, source) : null;
var pt = (c != null) ? this.graph.getConnectionPoint(this.state.getVisibleTerminalState(source), c) : null;
var img = (pt != null) ? (!target ? this.fixedHandleImage : this.endFixedHandleImage) :
((c != null && terminalState != null) ? (!target ? this.terminalHandleImage : this.endTerminalHandleImage) :
(!target ? this.handleImage : this.endHandleImage));
if (img != null)
{
var shape = new mxImageShape(new mxRectangle(0, 0, img.width, img.height), img.src);
// Allows HTML rendering of the images
shape.preserveImageAspect = false;
return shape;
}
else
{
var s = mxConstants.HANDLE_SIZE;
if (this.preferHtml)
{
s -= 1;
}
return new mxRectangleShape(new mxRectangle(0, 0, s, s), mxConstants.HANDLE_FILLCOLOR, mxConstants.HANDLE_STROKECOLOR);
}
};
var vertexHandlerCreateSizerShape = mxVertexHandler.prototype.createSizerShape;
mxVertexHandler.prototype.createSizerShape = function(bounds, index, fillColor, image)
{
image = (index == mxEvent.ROTATION_HANDLE) ? HoverIcons.prototype.rotationHandle :
(index == mxEvent.LABEL_HANDLE) ? this.secondaryHandleImage : image;
return vertexHandlerCreateSizerShape.apply(this, arguments);
};
// Special case for single edge label handle moving in which case the text bounding box is used
var mxGraphHandlerGetBoundingBox = mxGraphHandler.prototype.getBoundingBox;
mxGraphHandler.prototype.getBoundingBox = function(cells)
{
if (cells != null && cells.length == 1)
{
var model = this.graph.getModel();
var parent = model.getParent(cells[0]);
var geo = this.graph.getCellGeometry(cells[0]);
if (model.isEdge(parent) && geo != null && geo.relative)
{
var state = this.graph.view.getState(cells[0]);
if (state != null && state.width < 2 && state.height < 2 && state.text != null &&
state.text.boundingBox != null)
{
return mxRectangle.fromRectangle(state.text.boundingBox);
}
}
}
return mxGraphHandlerGetBoundingBox.apply(this, arguments);
};
// Ignores child cells with part style as guides
var mxGraphHandlerGetGuideStates = mxGraphHandler.prototype.getGuideStates;
mxGraphHandler.prototype.getGuideStates = function()
{
var states = mxGraphHandlerGetGuideStates.apply(this, arguments);
var result = [];
// NOTE: Could do via isStateIgnored hook
for (var i = 0; i < states.length; i++)
{
if (mxUtils.getValue(states[i].style, 'part', '0') != '1')
{
result.push(states[i]);
}
}
return result;
};
// Uses text bounding box for edge labels
var mxVertexHandlerGetSelectionBounds = mxVertexHandler.prototype.getSelectionBounds;
mxVertexHandler.prototype.getSelectionBounds = function(state)
{
var model = this.graph.getModel();
var parent = model.getParent(state.cell);
var geo = this.graph.getCellGeometry(state.cell);
if (model.isEdge(parent) && geo != null && geo.relative && state.width < 2 && state.height < 2 && state.text != null && state.text.boundingBox != null)
{
var bbox = state.text.unrotatedBoundingBox || state.text.boundingBox;
return new mxRectangle(Math.round(bbox.x), Math.round(bbox.y), Math.round(bbox.width), Math.round(bbox.height));
}
else
{
return mxVertexHandlerGetSelectionBounds.apply(this, arguments);
}
};
// Redirects moving of edge labels to mxGraphHandler by not starting here.
// This will use the move preview of mxGraphHandler (see above).
var mxVertexHandlerMouseDown = mxVertexHandler.prototype.mouseDown;
mxVertexHandler.prototype.mouseDown = function(sender, me)
{
var model = this.graph.getModel();
var parent = model.getParent(this.state.cell);
var geo = this.graph.getCellGeometry(this.state.cell);
// Lets rotation events through
var handle = this.getHandleForEvent(me);
if (handle == mxEvent.ROTATION_HANDLE || !model.isEdge(parent) || geo == null || !geo.relative ||
this.state == null || this.state.width >= 2 || this.state.height >= 2)
{
mxVertexHandlerMouseDown.apply(this, arguments);
}
};
// Invokes turn on single click on rotation handle
mxVertexHandler.prototype.rotateClick = function()
{
var stroke = mxUtils.getValue(this.state.style, mxConstants.STYLE_STROKECOLOR, mxConstants.NONE);
var fill = mxUtils.getValue(this.state.style, mxConstants.STYLE_FILLCOLOR, mxConstants.NONE);
if (this.state.view.graph.model.isVertex(this.state.cell) &&
stroke == mxConstants.NONE && fill == mxConstants.NONE)
{
var angle = mxUtils.mod(mxUtils.getValue(this.state.style, mxConstants.STYLE_ROTATION, 0) + 90, 360);
this.state.view.graph.setCellStyles(mxConstants.STYLE_ROTATION, angle, [this.state.cell]);
}
else
{
this.state.view.graph.turnShapes([this.state.cell]);
}
};
var vertexHandlerMouseMove = mxVertexHandler.prototype.mouseMove;
// Workaround for "isConsumed not defined" in MS Edge is to use arguments
mxVertexHandler.prototype.mouseMove = function(sender, me)
{
vertexHandlerMouseMove.apply(this, arguments);
if (this.graph.graphHandler.first != null)
{
if (this.rotationShape != null && this.rotationShape.node != null)
{
this.rotationShape.node.style.display = 'none';
}
if (this.linkHint != null && this.linkHint.style.display != 'none')
{
this.linkHint.style.display = 'none';
}
}
};
var vertexHandlerMouseUp = mxVertexHandler.prototype.mouseUp;
mxVertexHandler.prototype.mouseUp = function(sender, me)
{
vertexHandlerMouseUp.apply(this, arguments);
// Shows rotation handle only if one vertex is selected
if (this.rotationShape != null && this.rotationShape.node != null)
{
this.rotationShape.node.style.display = (this.graph.getSelectionCount() == 1) ? '' : 'none';
}
if (this.linkHint != null && this.linkHint.style.display == 'none')
{
this.linkHint.style.display = '';
}
// Resets state after gesture
this.blockDelayedSelection = null;
};
var vertexHandlerInit = mxVertexHandler.prototype.init;
mxVertexHandler.prototype.init = function()
{
vertexHandlerInit.apply(this, arguments);
var redraw = false;
if (this.rotationShape != null)
{
this.rotationShape.node.setAttribute('title', mxResources.get('rotateTooltip'));
}
if (this.graph.isTable(this.state.cell) &&
this.graph.isCellMovable(this.state.cell))
{
this.refreshMoveHandles();
}
// Draws corner rectangles for single selected table cells and rows
else if (this.graph.getSelectionCount() == 1 &&
this.graph.isCellMovable(this.state.cell) &&
(this.graph.isTableCell(this.state.cell) ||
this.graph.isTableRow(this.state.cell)))
{
this.cornerHandles = [];
for (var i = 0; i < 4; i++)
{
var shape = new mxRectangleShape(new mxRectangle(0, 0, 6, 6),
'#ffffff', mxConstants.HANDLE_STROKECOLOR);
shape.dialect = mxConstants.DIALECT_SVG;
shape.init(this.graph.view.getOverlayPane());
this.cornerHandles.push(shape);
}
}
var update = mxUtils.bind(this, function()
{
if (this.specialHandle != null)
{
this.specialHandle.node.style.display = (this.graph.isEnabled() &&
this.graph.getSelectionCount() <= this.graph.graphHandler.maxCells) ?
'' : 'none';
}
this.redrawHandles();
});
this.changeHandler = mxUtils.bind(this, function(sender, evt)
{
this.updateLinkHint(this.graph.getLinkForCell(this.state.cell),
this.graph.getLinksForState(this.state));
update();
});
this.graph.getSelectionModel().addListener(mxEvent.CHANGE, this.changeHandler);
this.graph.getModel().addListener(mxEvent.CHANGE, this.changeHandler);
// Repaint needed when editing stops and no change event is fired
this.editingHandler = mxUtils.bind(this, function(sender, evt)
{
this.redrawHandles();
});
this.graph.addListener(mxEvent.EDITING_STOPPED, this.editingHandler);
var link = this.graph.getLinkForCell(this.state.cell);
var links = this.graph.getLinksForState(this.state);
this.updateLinkHint(link, links);
if (link != null || (links != null && links.length > 0))
{
redraw = true;
}
if (redraw)
{
this.redrawHandles();
}
};
mxVertexHandler.prototype.updateLinkHint = function(link, links)
{
try
{
if ((link == null && (links == null || links.length == 0)) ||
this.graph.getSelectionCount() > 1)
{
if (this.linkHint != null)
{
this.linkHint.parentNode.removeChild(this.linkHint);
this.linkHint = null;
}
}
else if (link != null || (links != null && links.length > 0))
{
var img = document.createElement('img');
img.className = 'geAdaptiveAsset';
img.setAttribute('src', Editor.editImage);
img.setAttribute('title', mxResources.get('editLink'));
img.setAttribute('width', '14');
img.setAttribute('height', '14');
img.style.paddingLeft = '8px';
img.style.marginLeft = 'auto';
img.style.marginBottom = '-1px';
img.style.cursor = 'pointer';
var trash = img.cloneNode(true);
trash.setAttribute('src', Editor.trashImage);
trash.setAttribute('title', mxResources.get('removeIt',
[mxResources.get('link')]));
trash.style.paddingLeft = '4px';
trash.style.marginLeft = '0';
if (this.linkHint == null)
{
this.linkHint = createHint();
this.linkHint.style.padding = '6px 8px 6px 8px';
this.linkHint.style.opacity = '1';
this.linkHint.style.filter = '';
this.graph.container.appendChild(this.linkHint);
mxEvent.addListener(this.linkHint, 'mouseenter', mxUtils.bind(this, function()
{
this.graph.tooltipHandler.hide();
}));
}
this.linkHint.innerText = '';
if (link != null)
{
var wrapper = document.createElement('div');
wrapper.style.display = 'flex';
wrapper.style.alignItems = 'center';
wrapper.appendChild(this.graph.createLinkForHint(link));
this.linkHint.appendChild(wrapper);
if (this.graph.isEnabled() && typeof this.graph.editLink === 'function' &&
!this.graph.isCellLocked(this.state.cell))
{
var changeLink = img.cloneNode(true);
wrapper.appendChild(changeLink);
mxEvent.addListener(changeLink, 'click', mxUtils.bind(this, function(evt)
{
this.graph.setSelectionCell(this.state.cell);
this.graph.editLink();
mxEvent.consume(evt);
}));
var trashLink = trash.cloneNode(true);
wrapper.appendChild(trashLink);
mxEvent.addListener(trashLink, 'click', mxUtils.bind(this, function(evt)
{
this.graph.setLinkForCell(this.state.cell, null);
mxEvent.consume(evt);
}));
}
}
if (links != null)
{
for (var i = 0; i < links.length; i++)
{
(mxUtils.bind(this, function(currentLink, index)
{
var div = document.createElement('div');
div.style.display = 'flex';
div.style.alignItems = 'center';
div.style.marginTop = (link != null || index > 0) ? '6px' : '0px';
div.appendChild(this.graph.createLinkForHint(
currentLink.getAttribute('href'),
mxUtils.getTextContent(currentLink)));
var changeLink = img.cloneNode(true);
div.appendChild(changeLink);
var updateLink = mxUtils.bind(this, function(value)
{
var tmp = document.createElement('div');
tmp.innerHTML = Graph.sanitizeHtml(this.graph.getLabel(this.state.cell));
var anchor = tmp.getElementsByTagName('a')[index];
if (value == null || value == '')
{
var child = anchor.cloneNode(true).firstChild;
while (child != null)
{
anchor.parentNode.insertBefore(child.cloneNode(true), anchor);
child = child.nextSibling;
}
anchor.parentNode.removeChild(anchor);
}
else
{
anchor.setAttribute('href', value);
}
this.graph.labelChanged(this.state.cell, tmp.innerHTML);
});
mxEvent.addListener(changeLink, 'click', mxUtils.bind(this, function(evt)
{
this.graph.showLinkDialog(currentLink.getAttribute('href') || '',
mxResources.get('apply'), updateLink);
mxEvent.consume(evt);
}));
var trashLink = trash.cloneNode(true);
div.appendChild(trashLink);
mxEvent.addListener(trashLink, 'click', mxUtils.bind(this, function(evt)
{
updateLink();
mxEvent.consume(evt);
}));
this.linkHint.appendChild(div);
}))(links[i], i);
}
}
}
if (this.linkHint != null)
{
Graph.sanitizeNode(this.linkHint);
}
}
catch (e)
{
// ignore
}
};
mxEdgeHandler.prototype.updateLinkHint = mxVertexHandler.prototype.updateLinkHint;
// Extends constraint handler
var edgeHandlerCreateConstraintHandler = mxEdgeHandler.prototype.createConstraintHandler;
mxEdgeHandler.prototype.createConstraintHandler = function()
{
var handler = edgeHandlerCreateConstraintHandler.apply(this, arguments);
// Disables connection points
handler.isEnabled = mxUtils.bind(this, function()
{
return this.state.view.graph.connectionHandler.isEnabled();
});
return handler;
};
// Creates special handles
var edgeHandlerInit = mxEdgeHandler.prototype.init;
mxEdgeHandler.prototype.init = function()
{
edgeHandlerInit.apply(this, arguments);
var update = mxUtils.bind(this, function()
{
if (this.linkHint != null)
{
this.linkHint.style.display = (this.graph.getSelectionCount() == 1) ? '' : 'none';
}
if (this.labelShape != null)
{
this.labelShape.node.style.display = (this.graph.isEnabled() &&
this.graph.getSelectionCount() <= this.graph.graphHandler.maxCells) ?
'' : 'none';
}
});
this.changeHandler = mxUtils.bind(this, function(sender, evt)
{
this.updateLinkHint(this.graph.getLinkForCell(this.state.cell),
this.graph.getLinksForState(this.state));
update();
this.redrawHandles();
});
this.graph.getSelectionModel().addListener(mxEvent.CHANGE, this.changeHandler);
this.graph.getModel().addListener(mxEvent.CHANGE, this.changeHandler);
var link = this.graph.getLinkForCell(this.state.cell);
var links = this.graph.getLinksForState(this.state);
if (link != null || (links != null && links.length > 0))
{
this.updateLinkHint(link, links);
this.redrawHandles();
}
};
// Disables connection points
var connectionHandlerInit = mxConnectionHandler.prototype.init;
mxConnectionHandler.prototype.init = function()
{
connectionHandlerInit.apply(this, arguments);
this.constraintHandler.isEnabled = mxUtils.bind(this, function()
{
return this.graph.connectionHandler.isEnabled();
});
};
// Updates special handles
var vertexHandlerRedrawHandles = mxVertexHandler.prototype.redrawHandles;
mxVertexHandler.prototype.redrawHandles = function()
{
if (this.moveHandles != null)
{
for (var i = 0; i < this.moveHandles.length; i++)
{
if (this.moveHandles[i] != null)
{
this.moveHandles[i].bounds.x = Math.round(this.moveHandles[i].rowState.x +
this.moveHandles[i].rowState.width - this.moveHandles[i].bounds.width / 2);
this.moveHandles[i].bounds.y = Math.round(this.moveHandles[i].rowState.y +
(this.moveHandles[i].rowState.height - this.moveHandles[i].bounds.height) / 2);
this.moveHandles[i].redraw();
}
}
}
if (this.cornerHandles != null)
{
var inset = this.getSelectionBorderInset();
var ch = this.cornerHandles;
var w = ch[0].bounds.width / 2;
var h = ch[0].bounds.height / 2;
ch[0].bounds.x = this.state.x - w + inset;
ch[0].bounds.y = this.state.y - h + inset;
ch[0].redraw();
ch[1].bounds.x = ch[0].bounds.x + this.state.width - 2 * inset;
ch[1].bounds.y = ch[0].bounds.y;
ch[1].redraw();
ch[2].bounds.x = ch[0].bounds.x;
ch[2].bounds.y = this.state.y + this.state.height - 2 * inset;
ch[2].redraw();
ch[3].bounds.x = ch[1].bounds.x;
ch[3].bounds.y = ch[2].bounds.y;
ch[3].redraw();
for (var i = 0; i < this.cornerHandles.length; i++)
{
this.cornerHandles[i].node.style.display = (this.graph.getSelectionCount() == 1) ? '' : 'none';
}
}
// Shows rotation handle only if one vertex is selected
if (this.rotationShape != null && this.rotationShape.node != null)
{
this.rotationShape.node.style.display = (this.moveHandles == null &&
(this.graph.getSelectionCount() == 1 && (this.index == null ||
this.index == mxEvent.ROTATION_HANDLE))) ? '' : 'none';
}
vertexHandlerRedrawHandles.apply(this);
if (this.state != null && this.linkHint != null)
{
var c = new mxPoint(this.state.getCenterX(), this.state.getCenterY());
var tmp = new mxRectangle(this.state.x, this.state.y - 22, this.state.width + 24, this.state.height + 22);
var bb = mxUtils.getBoundingBox(tmp, this.state.style[mxConstants.STYLE_ROTATION] || '0', c);
var rs = (bb != null) ? mxUtils.getBoundingBox(this.state,
this.state.style[mxConstants.STYLE_ROTATION] || '0') : this.state;
var tb = (this.state.text != null) ? this.state.text.boundingBox : null;
if (bb == null)
{
bb = this.state;
}
var b = bb.y + bb.height;
if (tb != null)
{
b = Math.max(b, tb.y + tb.height);
}
this.linkHint.style.left = Math.max(0, Math.round(rs.x + (rs.width - this.linkHint.clientWidth) / 2)) + 'px';
this.linkHint.style.top = Math.round(b + this.verticalOffset / 2 + Editor.hintOffset) + 'px';
}
};
// Destroys special handles
var vertexHandlerDestroy = mxVertexHandler.prototype.destroy;
mxVertexHandler.prototype.destroy = function()
{
vertexHandlerDestroy.apply(this, arguments);
this.destroyMoveHandles();
if (this.cornerHandles != null)
{
for (var i = 0; i < this.cornerHandles.length; i++)
{
if (this.cornerHandles[i] != null && this.cornerHandles[i].node != null &&
this.cornerHandles[i].node.parentNode != null)
{
this.cornerHandles[i].node.parentNode.removeChild(this.cornerHandles[i].node);
}
}
this.cornerHandles = null;
}
if (this.linkHint != null)
{
if (this.linkHint.parentNode != null)
{
this.linkHint.parentNode.removeChild(this.linkHint);
}
this.linkHint = null;
}
if (this.changeHandler != null)
{
this.graph.getSelectionModel().removeListener(this.changeHandler);
this.graph.getModel().removeListener(this.changeHandler);
this.changeHandler = null;
}
if (this.editingHandler != null)
{
this.graph.removeListener(this.editingHandler);
this.editingHandler = null;
}
};
var edgeHandlerRedrawHandles = mxEdgeHandler.prototype.redrawHandles;
mxEdgeHandler.prototype.redrawHandles = function()
{
// Workaround for special case where handler
// is reset before this which leads to a NPE
if (this.marker != null)
{
edgeHandlerRedrawHandles.apply(this);
if (this.state != null && this.linkHint != null)
{
var b = this.state;
if (this.state.text != null && this.state.text.bounds != null)
{
b = new mxRectangle(b.x, b.y, b.width, b.height);
b.add(this.state.text.bounds);
}
this.linkHint.style.left = Math.max(0, Math.round(b.x + (b.width - this.linkHint.clientWidth) / 2)) + 'px';
this.linkHint.style.top = Math.round(b.y + b.height + Editor.hintOffset) + 'px';
}
}
};
var edgeHandlerReset = mxEdgeHandler.prototype.reset;
mxEdgeHandler.prototype.reset = function()
{
edgeHandlerReset.apply(this, arguments);
if (this.linkHint != null)
{
this.linkHint.style.visibility = '';
}
};
var edgeHandlerDestroy = mxEdgeHandler.prototype.destroy;
mxEdgeHandler.prototype.destroy = function()
{
edgeHandlerDestroy.apply(this, arguments);
if (this.linkHint != null)
{
this.linkHint.parentNode.removeChild(this.linkHint);
this.linkHint = null;
}
if (this.changeHandler != null)
{
this.graph.getModel().removeListener(this.changeHandler);
this.graph.getSelectionModel().removeListener(this.changeHandler);
this.changeHandler = null;
}
};
})();
}