All Downloads are FREE. Search and download functionalities are using the official Maven repository.

tgtools.activiti.resource.editor-app.editor.oryx.debug.js Maven / Gradle / Ivy

There is a newer version: 5.22.0.8
Show newest version
/**
 * @namespace Oryx name space for different utility methods
 * @name ORYX.Utils
*/

if(!ORYX) var ORYX = {};

ORYX.Utils = {
    /**
     * General helper method for parsing a param out of current location url
     * @example
     * // Current url in Browser => "http://oryx.org?param=value"
     * ORYX.Utils.getParamFromUrl("param") // => "value" 
     * @param {Object} name
     */
    getParamFromUrl: function(name){
        name = name.replace(/[\[]/, "\\\[").replace(/[\]]/, "\\\]");
        var regexS = "[\\?&]" + name + "=([^&#]*)";
        var regex = new RegExp(regexS);
        var results = regex.exec(window.location.href);
        if (results == null) {
            return null;
        }
        else {
            return results[1];
        }
    },
	
	adjustLightness: function(){
		return arguments[0];	
	},
	
	adjustGradient: function(gradient, reference){
		
		if (ORYX.CONFIG.DISABLE_GRADIENT && gradient){
		
			var col = reference.getAttributeNS(null, "stop-color") || "#ffffff";
			
			$A(gradient.getElementsByTagName("stop")).each(function(stop){
				if (stop == reference){ return; }
				stop.setAttributeNS(null, "stop-color", col);
			});
		}
	}
}
/*
 * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved.
 * License rights for this program may be obtained from Alfresco Software, Ltd.
 * pursuant to a written agreement and any use of this program without such an
 * agreement is prohibited.
 */
/*
 * All code Copyright 2013 KIS Consultancy all rights reserved
 */

XMLNS = {
	ATOM:	"http://www.w3.org/2005/Atom",
	XHTML:	"http://www.w3.org/1999/xhtml",
	ERDF:	"http://purl.org/NET/erdf/profile",
	RDFS:	"http://www.w3.org/2000/01/rdf-schema#",
	RDF:	"http://www.w3.org/1999/02/22-rdf-syntax-ns#",
	RAZIEL: "http://b3mn.org/Raziel",

	SCHEMA: ""
};

//TODO kann kickstart sich vielleicht auch um die erzeugung von paketen/
// namespaces k???mmern? z.b. requireNamespace("ORYX.Core.SVG");
var Kickstart = {
 	started: false,
	callbacks: [],
	alreadyLoaded: [],
	PATH: '',

	load: function() { Kickstart.kick(); },

	kick: function() {
		//console.profile("loading");
		if(!Kickstart.started) {
			Kickstart.started = true;
			Kickstart.callbacks.each(function(callback){
				// call the registered callback asynchronously.
				window.setTimeout(callback, 1);
			});
		}
	},

	register: function(callback) {
		//TODO Add some mutual exclusion between kick and register calls.
		with(Kickstart) {
			if(started) window.setTimeout(callback, 1);
			else Kickstart.callbacks.push(callback)
		}
	},

	/**
	 * Loads a js, assuring that it has only been downloaded once.
	 * @param {String} url the script to load.
	 */
	require: function(url) {
		// if not already loaded, include it.
		if(Kickstart.alreadyLoaded.member(url))
			return false;
		return Kickstart.include(url);
	},

	/**
	 * Loads a js, regardless of whether it has only been already downloaded.
	 * @param {String} url the script to load.
	 */
	include: function(url) {

		// prepare a script tag and place it in html head.
		var head = document.getElementsByTagNameNS(XMLNS.XHTML, 'head')[0];
		var s = document.createElementNS(XMLNS.XHTML, "script");
		s.setAttributeNS(XMLNS.XHTML, 'type', 'text/javascript');
	   	s.src = Kickstart.PATH + url;

		//TODO macht es sinn, dass neue skript als letztes kind in den head
		// einzubinden (stichwort reihenfolge der skript tags)?
	   	head.appendChild(s);

		// remember this url.
		Kickstart.alreadyLoaded.push(url);

		return true;
	}
}

// register kickstart as the new onload event listener on current window.
// previous listener(s) are triggered to launch with kickstart.
Event.observe(window, 'load', Kickstart.load);/*
 * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved.
 * License rights for this program may be obtained from Alfresco Software, Ltd.
 * pursuant to a written agreement and any use of this program without such an
 * agreement is prohibited.
 */
/*
 * All code Copyright 2013 KIS Consultancy all rights reserved
 */

var ERDF = {

	LITERAL: 0x01,
	RESOURCE: 0x02,
	DELIMITERS: ['.', '-'],
	HASH: '#',
	HYPHEN: "-",

	schemas: [],
	callback: undefined,
	log: undefined,

	init: function(callback) {
		
		// init logging.
		//ERDF.log = Log4js.getLogger("oryx");
		//ERDF.log.setLevel(Log4js.Level.ALL);
		//ERDF.log.addAppender(new ConsoleAppender(ERDF.log, false));

		//if(ERDF.log.isTraceEnabled())
		//	ERDF.log.trace("ERDF Parser is initialized.");

		// register callbacks and default schemas.
		ERDF.callback = callback;
		ERDF.registerSchema('schema', XMLNS.SCHEMA);
		ERDF.registerSchema('rdfs', XMLNS.RDFS);
	},

	run: function() {

		//if(ERDF.log.isTraceEnabled())
		//	ERDF.log.trace("ERDF Parser is running.");

		// do the work.
		return ERDF._checkProfile() && ERDF.parse();
	},
	
	parse: function() {
		
		//(ERDF.log.isDebugEnabled())
		//	ERDF.log.debug("Begin parsing document metadata.");
		
		// time measuring
		ERDF.__startTime = new Date();

		var bodies = document.getElementsByTagNameNS(XMLNS.XHTML, 'body');
		var subject = {type: ERDF.RESOURCE, value: ''};

		var result = ERDF._parseDocumentMetadata() &&
			ERDF._parseFromTag(bodies[0], subject);
			
		// time measuring
		ERDF.__stopTime = new Date();

		var duration = (ERDF.__stopTime - ERDF.__startTime)/1000.;
		//alert('ERDF parsing took ' + duration + ' s.');
		
		return result;
	},
	
	_parseDocumentMetadata: function() {

		// get links from head element.
		var heads = document.getElementsByTagNameNS(XMLNS.XHTML, 'head');
		var links = heads[0].getElementsByTagNameNS(XMLNS.XHTML, 'link');
		var metas = heads[0].getElementsByTagNameNS(XMLNS.XHTML, 'meta');

		// process links first, since they could contain schema definitions.
		$A(links).each(function(link) {
			var properties = link.getAttribute('rel');
			var reversedProperties = link.getAttribute('rev');
			var value = link.getAttribute('href');
			
			ERDF._parseTriplesFrom(
				ERDF.RESOURCE, '',
				properties,
				ERDF.RESOURCE, value);
				
			ERDF._parseTriplesFrom(
				ERDF.RESOURCE, value,
				reversedProperties,
				ERDF.RESOURCE, '');
		});

		// continue with metas.
		$A(metas).each(function(meta) {
			var property = meta.getAttribute('name');
			var value = meta.getAttribute('content');
			
			ERDF._parseTriplesFrom(
				ERDF.RESOURCE, '',
				property,
				ERDF.LITERAL, value);
		});

		return true;
	},
	
	_parseFromTag: function(node, subject, depth) {
		
		// avoid parsing non-xhtml content.
		if(!node || !node.namespaceURI || node.namespaceURI != XMLNS.XHTML) { return; }
		
		// housekeeping.
		if(!depth) depth=0;
		var id = node.getAttribute('id');

		// some logging.
		//if(ERDF.log.isTraceEnabled())
		//	ERDF.log.trace(">".times(depth) + " Parsing " + node.nodeName + " ("+node.nodeType+") for data on " +
		//		((subject.type == ERDF.RESOURCE) ? ('<' + subject.value + '>') : '') +
		//		((subject.type == ERDF.LITERAL) ? '"' + subject.value + '"' : ''));
		
		/* triple finding! */
		
		// in a-tags...
		if(node.nodeName.endsWith(':a') || node.nodeName == 'a') {
			var properties = node.getAttribute('rel');
			var reversedProperties = node.getAttribute('rev');
			var value = node.getAttribute('href');
			var title = node.getAttribute('title');
			var content = node.textContent;

			// rel triples
			ERDF._parseTriplesFrom(
				subject.type, subject.value,
				properties,
				ERDF.RESOURCE, value,
				function(triple) {
					var label = title? title : content;
					
					// label triples
					ERDF._parseTriplesFrom(
						triple.object.type, triple.object.value,
						'rdfs.label',
						ERDF.LITERAL, label);
				});

			// rev triples
			ERDF._parseTriplesFrom(
				subject.type, subject.value,
				reversedProperties,
				ERDF.RESOURCE, '');
				
			// type triples
			ERDF._parseTypeTriplesFrom(
				subject.type, subject.value,
				properties);

		// in img-tags...
		} else if(node.nodeName.endsWith(':img') || node.nodeName == 'img') {
			var properties = node.getAttribute('class');
			var value = node.getAttribute('src');
			var alt = node.getAttribute('alt');

			ERDF._parseTriplesFrom(
				subject.type, subject.value,
				properties,
				ERDF.RESOURCE, value,
				function(triple) {
					var label = alt;
					
					// label triples
					ERDF._parseTriplesFrom(
						triple.object.type, triple.object.value,
						'rdfs.label',
						ERDF.LITERAL, label);
				});

		}
		
		// in every tag
		var properties = node.getAttribute('class');
		var title = node.getAttribute('title');
		var content = node.textContent;
		var label = title ? title : content;
		
		// regular triples
		ERDF._parseTriplesFrom(
			subject.type, subject.value,
			properties,
			ERDF.LITERAL, label);

		if(id) subject = {type: ERDF.RESOURCE, value: ERDF.HASH+id};
		
		// type triples
		ERDF._parseTypeTriplesFrom(
			subject.type, subject.value,
			properties);

		// parse all children that are element nodes.
		var children = node.childNodes;
		if(children) $A(children).each(function(_node) {
			if(_node.nodeType == _node.ELEMENT_NODE)
				ERDF._parseFromTag(_node, subject, depth+1); });
	},
	
	_parseTriplesFrom: function(subjectType, subject, properties,
		objectType, object, callback) {
		
		if(!properties) return;
		properties.toLowerCase().split(' ').each( function(property) {
			
			//if(ERDF.log.isTraceEnabled())
			//	ERDF.log.trace("Going for property " + property);

			var schema = ERDF.schemas.find( function(schema) {
				return false || ERDF.DELIMITERS.find( function(delimiter) {
					return property.startsWith(schema.prefix + delimiter);
				});
			});
			
			if(schema && object) {
				property = property.substring(
					schema.prefix.length+1, property.length);
				var triple = ERDF.registerTriple(
					new ERDF.Resource(subject),
					{prefix: schema.prefix, name: property},
					(objectType == ERDF.RESOURCE) ?
						new ERDF.Resource(object) :
						new ERDF.Literal(object));
						
				if(callback) callback(triple);
			}
		});
	},
	
	_parseTypeTriplesFrom: function(subjectType, subject, properties, callback) {
		
		if(!properties) return;
		properties.toLowerCase().split(' ').each( function(property) {
			
			//if(ERDF.log.isTraceEnabled())
			//	ERDF.log.trace("Going for property " + property);
				
			var schema = ERDF.schemas.find( function(schema) {
				return false || ERDF.DELIMITERS.find( function(delimiter) {
					return property.startsWith(ERDF.HYPHEN + schema.prefix + delimiter);
				});
			});
			
			if(schema && subject) {
				property = property.substring(schema.prefix.length+2, property.length);
				var triple = ERDF.registerTriple(
					(subjectType == ERDF.RESOURCE) ?
						new ERDF.Resource(subject) :
						new ERDF.Literal(subject),
					{prefix: 'rdf', name: 'type'},
					new ERDF.Resource(schema.namespace+property));
				if(callback) callback(triple);
			}
		});
	},
	
	/**
	 * Checks for ERDF profile declaration in head of document.
	 */
	_checkProfile: function() {

		// get profiles from head element.
		var heads = document.getElementsByTagNameNS(XMLNS.XHTML, 'head');
		var profiles = heads[0].getAttribute("profile");
		var found = false;

		// if erdf profile is contained.
		if(profiles && profiles.split(" ").member(XMLNS.ERDF)) {

			// pass check.
			//if(ERDF.log.isTraceEnabled())
			//	ERDF.log.trace("Found ERDF profile " + XMLNS.ERDF);
			return true;
			
		} else {
		
			// otherwise fail check.
			//if(ERDF.log.isFatalEnabled())
			//	ERDF.log.fatal("No ERDF profile found.");
			return false;
		}
	},
	
	__stripHashes: function(s) {
		return (s && (typeof s.substring == 'function') && s.substring(0, 1)=='#') ? s.substring(1, s.length) : s;
	},
	
	registerSchema: function(prefix, namespace) {
		
		// TODO check whether already registered, if so, complain.
		ERDF.schemas.push({
			prefix: prefix,
			namespace: namespace
		});
		
		//if(ERDF.log.isDebugEnabled())
		//	ERDF.log.debug("Prefix '"+prefix+"' for '"+namespace+"' registered.");
	},
	
	registerTriple: function(subject, predicate, object) {
		
		// if prefix is schema, this is a schema definition.
		if(predicate.prefix.toLowerCase() == 'schema')
			this.registerSchema(predicate.name, object.value);
			
		var triple = new ERDF.Triple(subject, predicate, object);
		ERDF.callback(triple);
		
		//if(ERDF.log.isInfoEnabled())
		//	ERDF.log.info(triple)
		
		// return the registered triple.
		return triple;
	},
	
	__enhanceObject: function() {
		
		/* Resource state querying methods */
		this.isResource = function() {
			return this.type == ERDF.RESOURCE };
		this.isLocal = function() {
			return this.isResource() && this.value.startsWith('#') };
		this.isCurrentDocument = function() {
			return this.isResource() && (this.value == '') };
		
		/* Resource getter methods.*/
		this.getId = function() {
			return this.isLocal() ? ERDF.__stripHashes(this.value) : false; };

		/* Liiteral state querying methods  */
		this.isLiteral = function() {
			return this.type == ERDF.LIITERAL };
	},
	
	serialize: function(literal) {
		
		if(!literal){
			return "";
		}else if(literal.constructor == String) {
			return literal;
		} else if(literal.constructor == Boolean) {
			return literal? 'true':'false';
		} else {
			return literal.toString();
		}
	}
};


ERDF.Triple = function(subject, predicate, object) {
	
	this.subject = subject;
	this.predicate = predicate;
	this.object = object;
	
	this.toString = function() {
		
		return "[ERDF.Triple] " +
			this.subject.toString() + ' ' +
			this.predicate.prefix + ':' + this.predicate.name + ' ' +
			this.object.toString();
		};
};

ERDF.Resource = function(uri) {
	
	this.type = ERDF.RESOURCE;
	this.value = uri;
	ERDF.__enhanceObject.apply(this);
	
	this.toString = function() {
		return '<' + this.value + '>';
	}
	
};

ERDF.Literal = function(literal) {
	
	this.type = ERDF.LITERAL;
	this.value = ERDF.serialize(literal);
	ERDF.__enhanceObject.apply(this);

	this.toString = function() {
		return '"' + this.value + '"';
	}
};/*
 * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved.
 * License rights for this program may be obtained from Alfresco Software, Ltd.
 * pursuant to a written agreement and any use of this program without such an
 * agreement is prohibited.
 */
/*
 * All code Copyright 2013 KIS Consultancy all rights reserved
 */

/*
 * Save and triple generation behaviour. Use this area to configure
 * data management to your needs.
 */
var USE_ASYNCHRONOUS_REQUESTS =		true;
var DISCARD_UNUSED_TRIPLES =			true;
var PREFER_SPANS_OVER_DIVS =			true;
var PREFER_TITLE_OVER_TEXTNODE =		false;
var RESOURCE_ID_PREFIX =				'resource';

var SHOW_DEBUG_ALERTS_WHEN_SAVING =	false;
var SHOW_EXTENDED_DEBUG_INFORMATION =	false;

/*
 * Back end specific workarounds.
 */

var USE_ARESS_WORKAROUNDS =		true;

/*
 * Data management constants. Do not change these, as they are used
 * both internally and externally to communicate on events and to identify
 * command object actions in triple production and embedding rules.
 */

// Resource constants
var RESOURCE_CREATED =			0x01;
var RESOURCE_REMOVED =			0x02;
var RESOURCE_SAVED =				0x04;
var RESOURCE_RELOADED =			0x08;
var RESOURCE_SYNCHRONIZED = 		0x10;

// Triple constants
var TRIPLE_REMOVE =	0x01;
var TRIPLE_ADD =		0x02;
var TRIPLE_RELOAD =	0x04;
var TRIPLE_SAVE =		0x08;

var PROCESSDATA_REF = 'processdata';

// HTTP status code constants
//
//// 2xx
//const 200_OK =			'Ok';
//const 201_CREATED =		'Created';
//const 202_ACCEPTED =		'Accepted';
//const 204_NO_CONTENT =	'No Content';
//
//// 3xx
//const 301_MOVED_PERMANENTLY =	'Moved Permanently';
//const 302_MOVED_TEMPORARILY =	'Moved Temporarily';
//const 304_NOT_MODIFIED =		'Not Modified';
//
//// 4xx
//const 400_BAD_REQUEST =	'Bad Request';
//const 401_UNAUTHORIZED =	'Unauthorized';
//const 403_FORBIDDEN =		'Forbidden';
//const 404_NOT_FOUND =		'Not Found';
//const 409_CONFLICT =		'Conflict';
//
//// 5xx
//const 500_INTERNAL_SERVER_ERROR =		'Internal Server Error';
//const 501_NOT_IMPLEMENTED =			'Not Implemented';
//const 502_BAD_GATEWAY =				'Bad Gateway';
//const 503_SERVICE_UNAVAILABLE =		'Service Unavailable';
//
/**
 * The Data Management object. Use this one when interacting with page internal
 * data. Initialize data management by DataManager.init();
 * @class DataManager
 */
var DataManager = {
	
	/**
	 * The init method should be called once in the DataManagers lifetime.
	 * It causes the DataManager to initialize itself, the erdf parser, do all
	 * neccessary registrations and configurations, to run the parser and
	 * from then on deliver all resulting triples.
	 * No parameters needed are needed in a call to this method.
	 */
	init: function() {
		ERDF.init(DataManager._registerTriple);
		DataManager.__synclocal();
	},
	
	/**
	 * This triple array is meant to be the whole knowledge of the DataManager.
	 */
	_triples: [],
	
	/**
	 * This method is meant for callback from erdf parsing. It is not to be
	 * used in another way than to add triples to the triple store.
	 * @param {Object} triple the triple to add to the triple store.
	 */
	_registerTriple: function(triple) {
		DataManager._triples.push(triple)
	},
	
	/**
	 * The __synclocal method is for internal usage only.
	 * It performs synchronization with the local document, that is, the triple
	 * store is adjustet to the content of the document, which could have been
	 * changed by any other applications running on the same page.
	 */
	__synclocal: function() {
		DataManager._triples = [];
		ERDF.run();
	},
	
	/**
	 * Makes the shape passed into this method synchronize itself with the DOM.
	 * This method returns the shapes resource object for further manipulation.
	 * @param {Object} shape
	 */
	__synchronizeShape: function(shape) {

		var r = ResourceManager.getResource(shape.resourceId);
		var serialize = shape.serialize();

		// store all serialize values
		serialize.each( function(ser) {
			
			var resource = (ser.type == 'resource');
			var _triple = new ERDF.Triple(
				new ERDF.Resource(shape.resourceId),
				{prefix: ser.prefix, name: ser.name},
				resource ?
					new ERDF.Resource(ser.value) :
					new ERDF.Literal(ser.value)
			);
			DataManager.setObject(_triple);
		});
		
		return r;
	},

	__storeShape: function(shape) {
		
		// first synchronize the shape,
		var resource = DataManager.__synchronizeShape(shape);
		
		// then save the synchronized dom.
		resource.save();
	},
		
	__forceExistance: function(shape) {
		
		if(!$(shape.resourceId)) {
			
			if(!$$('.' + PROCESSDATA_REF)[0])
				DataManager.graft(XMLNS.XHTML,
					document.getElementsByTagNameNS(XMLNS.XHTML, 'body').item(0), ['div', {'class': PROCESSDATA_REF, 'style':'display:none;'}]);
				
			// object is literal
			DataManager.graft(XMLNS.XHTML,
				$$('.' + PROCESSDATA_REF)[0], [
				
				'div', {
                    'id': shape.resourceId,
                    //This should be done in a more dynamic way!!!!!
                    'class': (shape instanceof ORYX.Core.Canvas) ? "-oryx-canvas" : undefined
                }
			]);
			
		} else {
			var resource = $(shape.resourceId)
			var children = $A(resource.childNodes)
			children.each( function(child) {
				resource.removeChild(child);
			});
		};
	},
	
	__persistShape: function(shape) {

		// a shape serialization.
		var shapeData = shape.serialize();
		
		// initialize a triple array and construct a shape resource
		// to be used in triple generation.
		var triplesArray = [];
		var shapeResource = new ERDF.Resource(shape.resourceId);

		// remove all triples for this particular shape's resource
		DataManager.removeTriples( DataManager.query(
			shapeResource, undefined, undefined));

		// for each data set in the shape's serialization
		shapeData.each( function(data) {

			// construct a triple's value
			var value = (data.type == 'resource') ?
				new ERDF.Resource(data.value) :
				new ERDF.Literal(data.value);

			// construct triple and add it to the DOM.
			DataManager.addTriple( new ERDF.Triple(
				shapeResource,
				{prefix: data.prefix, name: data.name},
				value
			));
		});
	},
	
	__persistDOM: function(facade) {

		// getChildShapes gets all shapes (nodes AND edges), deep flag
		// makes it return a flattened child hierarchy.
		
		var canvas = facade.getCanvas();
		var shapes = canvas.getChildShapes(true);
		var result = '';
		
		// persist all shapes.
		shapes.each( function(shape) {
			DataManager.__forceExistance(shape);
		});
		//DataManager.__synclocal();
		
		DataManager.__renderCanvas(facade);
		result += DataManager.serialize(
				$(ERDF.__stripHashes(facade.getCanvas().resourceId)), true);
				
		shapes.each( function(shape) {
			
			DataManager.__persistShape(shape);
			result += DataManager.serialize(
				$(ERDF.__stripHashes(shape.resourceId)), true);
		});
		
		//result += DataManager.__renderCanvas(facade);
		
		return result;
	},

	__renderCanvas: function(facade) {

		var canvas = facade.getCanvas();
		var stencilSets = facade.getStencilSets();
		var shapes = canvas.getChildShapes(true);
		
		DataManager.__forceExistance(canvas);
		
		DataManager.__persistShape(canvas);
		
		var shapeResource = new ERDF.Resource(canvas.resourceId);

		// remove all triples for this particular shape's resource
		DataManager.removeTriples( DataManager.query(
			shapeResource, undefined, undefined));

		DataManager.addTriple( new ERDF.Triple(
			shapeResource,
			{prefix: "oryx", name: "mode"},
			new ERDF.Literal("writable")
		));

		DataManager.addTriple( new ERDF.Triple(
			shapeResource,
			{prefix: "oryx", name: "mode"},
			new ERDF.Literal("fullscreen")
		));

		stencilSets.values().each(function(stencilset) {
			DataManager.addTriple( new ERDF.Triple(
				shapeResource,
				{prefix: "oryx", name: "stencilset"},
				new ERDF.Resource(stencilset.source().replace(/&/g, "%26"))
			));
			
			DataManager.addTriple( new ERDF.Triple(
				shapeResource,
				{prefix: "oryx", name: "ssnamespace"},
				new ERDF.Resource(stencilset.namespace())
			));
			
			stencilset.extensions().keys().each(function(extension) {
				DataManager.addTriple( new ERDF.Triple(
					shapeResource,
					{prefix: "oryx", name: "ssextension"},
					new ERDF.Literal(extension)
				));
			});
		});
						
		shapes.each(function(shape) {
			DataManager.addTriple( new ERDF.Triple(
				shapeResource,
				{prefix: "oryx", name: "render"},
				new ERDF.Resource("#" + shape.resourceId)
			));
		});
	},

	__counter: 0,
	__provideId: function() {
		
		while($(RESOURCE_ID_PREFIX+DataManager.__counter))
			DataManager.__counter++;
			
		return RESOURCE_ID_PREFIX+DataManager.__counter;
	},
		
	serializeDOM: function(facade) {
		
		return DataManager.__persistDOM(facade);
	},
	
	syncGlobal: function(facade) {
		
		return DataManager.__syncglobal(facade);
	},
	
	/**
	 * This method is used to synchronize local DOM with remote resources.
	 * Local changes are commited to the server, and remote changes are
	 * performed to the local document.
	 * @param {Object} facade The facade of the editor that holds certain
	 * resource representations as shapes.
	 */
	__syncglobal: function(facade) {

		// getChildShapes gets all shapes (nodes AND edges), deep flag
		// makes it return a flattened child hierarchy.
		
		var canvas = facade.getCanvas();
		var shapes = canvas.getChildShapes(true);

		// create dummy resource representations in the dom
		// for all shapes that were newly created.

		shapes.select( function(shape) {

			// select shapes without resource id.

			return !($(shape.resourceId));

		}).each( function(shape) {

			// create new resources for them.
			if(USE_ARESS_WORKAROUNDS) {
				
				/*
				 * This is a workaround due to a bug in aress. Resources are
				 * ignoring changes to raziel:type property once they are
				 * created. As long as this is not fixed, the resource is now
				 * being created using a randomly guessed id, this temporary id
				 * is then used in references and the appropriate div is being
				 * populated with properties.
				 * 
				 * AFTER THIS PHASE THE DATA IS INCONSISTENT AS REFERENCES POINT
				 * TO IDS THAT ARE UNKNOWN TO THE BACK END.
				 * 
				 * After the resource is actually created in aress, it gets an id
				 * that is persistent. All shapes are then being populated with the
				 * correct id references and stored on the server.
				 * 
				 * AFTER THE SAVE PROCESS HAS RETURNED, THE DATA IS CONSISTENT
				 * REGARDING THE ID REFERENCES AGAIN.
				 */
				
				var razielType = shape.properties['raziel-type'];
				
				var div = '
' + ''+razielType+'
'; var r = ResourceManager.__createResource(div); shape.resourceId = r.id(); } else { var r = ResourceManager.__createResource(); shape.resourceId = r.id(); } }); shapes.each( function(shape) { // store all shapes. DataManager.__storeShape(shape); }); }, /** * This method serializes a single div into a string that satisfies the * client/server communication protocol. It ingnores all elements that have * an attribute named class that includes 'transient'. * @param {Object} node the element to serialize. * @param {Object} preserveNamespace whether to preserve the parent's * namespace. If you are not sure about namespaces, provide * just the element to be serialized. */ serialize: function(node, preserveNamespace) { if (node.nodeType == node.ELEMENT_NODE) { // serialize an element node. var children = $A(node.childNodes); var attributes = $A(node.attributes); var clazz = new String(node.getAttribute('class')); var ignore = clazz.split(' ').member('transient'); // ignore transients. if(ignore) return ''; // start serialization. var result = '<' + node.nodeName; // preserve namespace? if(!preserveNamespace) result += ' xmlns="' + (node.namespaceURI ? node.namespaceURI : XMLNS.XHTML) + '" xmlns:oryx="http://oryx-editor.org"'; // add all attributes. attributes.each(function(attribute) { result += ' ' + attribute.nodeName + '="' + attribute.nodeValue + '"';}); // close if no children. if(children.length == 0) result += '/>'; else { // serialize all children. result += '>'; children.each(function(_node) { result += DataManager.serialize(_node, true)}); result += '' } return result; } else if (node.nodeType == node.TEXT_NODE) { // serialize a text node. return node.nodeValue; } //TODO serialize cdata areas also. //TODO work on namespace awareness. }, addTriple: function(triple) { // assert the subject is a resource if(!triple.subject.type == ERDF.LITERAL) throw 'Cannot add the triple ' + triple.toString() + ' because the subject is not a resource.' // get the element which represents this triple's subject. var elementId = ERDF.__stripHashes(triple.subject.value); var element = $(elementId); // assert the subject is inside this document. if(!element) throw 'Cannot add the triple ' + triple.toString() + ' because the subject "'+elementId+'" is not in the document.'; if(triple.object.type == ERDF.LITERAL) // object is literal DataManager.graft(XMLNS.XHTML, element, [ 'span', {'class': (triple.predicate.prefix + "-" + triple.predicate.name)}, triple.object.value.escapeHTML() ]); else { // object is resource DataManager.graft(XMLNS.XHTML, element, [ 'a', {'rel': (triple.predicate.prefix + "-" + triple.predicate.name), 'href': triple.object.value} ]); } return true; }, removeTriples: function(triples) { // alert('Removing ' +triples.length+' triples.'); // from all the triples select those ... var removed = triples.select( function(triple) { // TODO remove also from triple store. // ... that were actually removed. return DataManager.__removeTriple(triple); }); // sync and return removed triples. // DataManager.__synclocal(); return removed; }, removeTriple: function(triple) { // remember whether the triple was actually removed. var result = DataManager.__removeTriple(triple); // sync and return removed triples. // DataManager.__synclocal(); return result; }, __removeTriple: function(triple) { // assert the subject is a resource if(!triple.subject.type == ERDF.LITERAL) throw 'Cannot remove the triple ' + triple.toString() + ' because the subject is not a resource.'; // get the element which represents this triple's subject. var elementId = ERDF.__stripHashes(triple.subject.value); var element = $(elementId); // assert the subject is inside this document. if(!element) throw 'Cannot remove the triple ' + triple.toString() + ' because the subject is not in the document.'; if(triple.object.type == ERDF.LITERAL) { // continue searching actively for the triple. var result = DataManager.__removeTripleRecursively(triple, element); return result; } }, __removeTripleRecursively: function(triple, continueFrom) { // return when this node is not an element node. if(continueFrom.nodeType != continueFrom.ELEMENT_NODE) return false; var classes = new String(continueFrom.getAttribute('class')); var children = $A(continueFrom.childNodes); if(classes.include(triple.predicate.prefix + '-' + triple.predicate.name)) { var content = continueFrom.textContent; if( (triple.object.type == ERDF.LITERAL) && (triple.object.value == content)) continueFrom.parentNode.removeChild(continueFrom); return true; } else { children.each(function(_node) { DataManager.__removeTripleRecursively(triple, _node)}); return false; } }, /** * graft() function * Originally by Sean M. Burke from interglacial.com, altered for usage with * SVG and namespace (xmlns) support. Be sure you understand xmlns before * using this funtion, as it creates all grafted elements in the xmlns * provided by you and all element's attribures in default xmlns. If you * need to graft elements in a certain xmlns and wish to assign attributes * in both that and another xmlns, you will need to do stepwise grafting, * adding non-default attributes yourself or you'll have to enhance this * function. Latter, I would appreciate: martin???apfelfabrik.de * @param {Object} namespace The namespace in which * elements should be grafted. * @param {Object} parent The element that should contain the grafted * structure after the function returned. * @param {Object} t the crafting structure. * @param {Object} doc the document in which grafting is performed. */ graft: function(namespace, parent, t, doc) { doc = (doc || (parent && parent.ownerDocument) || document); var e; if(t === undefined) { echo( "Can't graft an undefined value"); } else if(t.constructor == String) { e = doc.createTextNode( t ); } else { for(var i = 0; i < t.length; i++) { if( i === 0 && t[i].constructor == String ) { var snared = t[i].match( /^([a-z][a-z0-9]*)\.([^\s\.]+)$/i ); if( snared ) { e = doc.createElementNS(namespace, snared[1]); e.setAttributeNS(null, 'class', snared[2] ); continue; } snared = t[i].match( /^([a-z][a-z0-9]*)$/i ); if( snared ) { e = doc.createElementNS(namespace, snared[1]); // but no class continue; } // Otherwise: e = doc.createElementNS(namespace, "span"); e.setAttribute(null, "class", "namelessFromLOL" ); } if( t[i] === undefined ) { echo("Can't graft an undefined value in a list!"); } else if( t[i].constructor == String || t[i].constructor == Array) { this.graft(namespace, e, t[i], doc ); } else if( t[i].constructor == Number ) { this.graft(namespace, e, t[i].toString(), doc ); } else if( t[i].constructor == Object ) { // hash's properties => element's attributes for(var k in t[i]) { e.setAttributeNS(null, k, t[i][k] ); } } else if( t[i].constructor == Boolean ) { this.graft(namespace, e, t[i] ? 'true' : 'false', doc ); } else throw "Object " + t[i] + " is inscrutable as an graft arglet."; } } if(parent) parent.appendChild(e); return Element.extend(e); // return the topmost created node }, setObject: function(triple) { /** * Erwartungen von Arvid an diese Funktion: * - Es existiert genau ein triple mit dem Subjekt und Praedikat, * das uebergeben wurde, und dieses haelt uebergebenes Objekt. */ var triples = DataManager.query( triple.subject, triple.predicate, undefined ); DataManager.removeTriples(triples); DataManager.addTriple(triple); return true; }, query: function(subject, predicate, object) { /* * Typical triple. * {value: subject, type: subjectType}, * {prefix: schema.prefix, name: property}, * {value: object, type: objectType}); */ return DataManager._triples.select(function(triple) { var select = ((subject) ? (triple.subject.type == subject.type) && (triple.subject.value == subject.value) : true); if(predicate) { select = select && ((predicate.prefix) ? (triple.predicate.prefix == predicate.prefix) : true); select = select && ((predicate.name) ? (triple.predicate.name == predicate.name) : true); } select = select && ((object) ? (triple.object.type == object.type) && (triple.object.value == object.value) : true); return select; }); } } Kickstart.register(DataManager.init); function assert(expr, m) { if(!expr) throw m; }; function DMCommand(action, triple) { // store action and triple. this.action = action; this.triple = triple; this.toString = function() { return 'Command('+action+', '+triple+')'; }; } function DMCommandHandler(nextHandler) { /** * Private method to set the next handler in the Chain of Responsibility * (see http://en.wikipedia.org/wiki/Chain-of-responsibility_pattern for * details). * @param {DMCommandHandler} handler The handler that is next in the chain. */ this.__setNext = function(handler) { var _next = this.__next; this.__next = nextHandler; return _next ? _next : true; }; this.__setNext(nextHandler); /** * Invokes the next handler. If there is no next handler, this method * returns false, otherwise it forwards the result of the handling. * @param {Object} command The command object to be processed. */ this.__invokeNext = function(command) { return this.__next ? this.__next.handle(command) : false; }; /** * Handles a command. The abstract method process() is called with the * command object that has been passed. If the process method catches the * command (returns true on completion), the handle() method returns true. * If the process() method doesn't catch the command, the next handler will * be invoked. * @param {Object} command The command object to be processed. */ this.handle = function(command) { return this.process(command) ? true : this.__invokeNext(command); } /** * Empty process() method returning false. If javascript knew abstract * class members, this would be one. * @param {Object} command The command object to process. */ this.process = function(command) { return false; }; }; /** * This Handler manages the addition and the removal of meta elements in the * head of the document. * @param {DMCommandHandler} next The handler that is next in the chain. */ function MetaTagHandler(next) { DMCommandHandler.apply(this, [next]); this.process = function(command) { with(command.triple) { /* assert prerequisites */ if( !( (subject instanceof ERDF.Resource) && (subject.isCurrentDocument()) && (object instanceof ERDF.Literal) )) return false; } }; }; var chain = new MetaTagHandler(); var command = new DMCommand(TRIPLE_ADD, new ERDF.Triple( new ERDF.Resource(''), 'rdf:tool', new ERDF.Literal('') )); /* if(chain.handle(command)) alert('Handled!'); */ ResourceManager = { __corrupt: false, __latelyCreatedResource: undefined, __listeners: $H(), __token: 1, addListener: function(listener, mask) { if(!(listener instanceof Function)) throw 'Resource event listener is not a function!'; if(!(mask)) throw 'Invalid mask for resource event listener registration.'; // construct controller and token. var controller = {listener: listener, mask: mask}; var token = ResourceManager.__token++; // add new listener. ResourceManager.__listeners[token] = controller; // return the token generated. return token; }, removeListener: function(token) { // remove the listener with the token and return it. return ResourceManager.__listners.remove(token); }, __Event: function(action, resourceId) { this.action = action; this.resourceId = resourceId; }, __dispatchEvent: function(event) { // get all listeners. for each listener, ... ResourceManager.__listeners.values().each(function(controller) { // .. if listener subscribed to this type of event ... if(event.action & controller.mask) return controller.listener(event); }); }, getResource: function(id) { // get all possible resources for this. id = ERDF.__stripHashes(id); var resources = DataManager.query( new ERDF.Resource('#'+id), {prefix: 'raziel', name: 'entry'}, undefined ); // check for consistency. if((resources.length == 1) && (resources[0].object.isResource())) { var entryUrl = resources[0].object.value; return new ResourceManager.__Resource(id, entryUrl); } // else throw an error message. throw ('Resource with id ' +id+ ' not recognized as such. ' + ((resources.length > 1) ? ' There is more than one raziel:entry URL.' : ' There is no raziel:entry URL.')); return false; }, __createResource: function(alternativeDiv) { var collectionUrls = DataManager.query( new ERDF.Resource(''), // TODO This will become raziel:collection in near future. {prefix: 'raziel', name: 'collection'}, undefined ); // check for consistency. if( (collectionUrls.length == 1) && (collectionUrls[0].object.isResource())) { // get the collection url. var collectionUrl = collectionUrls[0].object.value; var resource = undefined; // if there is an old id, serialize the dummy div from there, // otherwise create a dummy div on the fly. var serialization = alternativeDiv? alternativeDiv : '
'; ResourceManager.__request( 'POST', collectionUrl, serialization, // on success function() { // get div and id that have been generated by the server. var response = (this.responseXML); var div = response.childNodes[0]; var id = div.getAttribute('id'); // store div in DOM if(!$$('.' + PROCESSDATA_REF)[0]) DataManager.graft(XMLNS.XHTML, document.getElementsByTagNameNS(XMLNS.XHTML, 'body').item(0), ['div', {'class': PROCESSDATA_REF, 'style':'display:none;'}]); $$('.' + PROCESSDATA_REF)[0].appendChild(div.cloneNode(true)); // parse local erdf data once more. DataManager.__synclocal(); // get new resource object. resource = new ResourceManager.getResource(id); // set up an action informing of the creation. ResourceManager.__resourceActionSucceeded( this, RESOURCE_CREATED, undefined); }, function() { ResourceManager.__resourceActionFailed( this, RESOURCE_CREATED, undefined);}, false ); return resource; } // else throw 'Could not create resource! raziel:collection URL is missing!'; return false; }, __Resource: function(id, url) { this.__id = id; this.__url = url; /* * Process URL is no longer needed to refer to the shape element on the * canvas. AReSS uses the id's to gather information on fireing * behaviour now. */ // // find the process url. // var processUrl = undefined; // // var urls = DataManager.query( // new ERDF.Resource('#'+this.__id), // {prefix: 'raziel', name: 'process'}, // undefined // ); // // if(urls.length == 0) { throw 'The resource with the id ' +id+ ' has no process url.'}; // // urls.each( function(triple) { // // // if there are more urls, use the last one. // processUrl = triple.object.value; // }); // // this.__processUrl = processUrl; // // // convenience function for getting the process url. // this.processUrl = function() { // return this.__processUrl; // } // convenience finction for getting the id. this.id = function() { return this.__id; } // convenience finction for getting the entry url. this.url = function() { return this.__url; } this.reload = function() { var _url = this.__url; var _id = this.__id; ResourceManager.__request( 'GET', _url, null, function() { ResourceManager.__resourceActionSucceeded( this, RESOURCE_RELOADED, _id); }, function() { ResourceManager.__resourceActionFailed( this, RESURCE_RELOADED, _id); }, USE_ASYNCHRONOUS_REQUESTS ); }; this.save = function(synchronize) { var _url = this.__url; var _id = this.__id; data = DataManager.serialize($(_id)); ResourceManager.__request( 'PUT', _url, data, function() { ResourceManager.__resourceActionSucceeded( this, synchronize ? RESOURCE_SAVED | RESOURCE_SYNCHRONIZED : RESOURCE_SAVED, _id); }, function() { ResourceManager.__resourceActionFailed( this, synchronize ? RESOURCE_SAVED | RESOURCE_SYNCHRONIZED : RESOURCE.SAVED, _id); }, USE_ASYNCHRONOUS_REQUESTS ); }; this.remove = function() { var _url = this.__url; var _id = this.__id; ResourceManager.__request( 'DELETE', _url, null, function() { ResourceManager.__resourceActionSucceeded( this, RESOURCE_REMOVED, _id); }, function() { ResourceManager.__resourceActionFailed( this, RESOURCE_REMOVED, _id);}, USE_ASYNCHRONOUS_REQUESTS ); }; }, request: function(url, requestOptions) { var options = { method: 'get', asynchronous: true, parameters: {} }; Object.extend(options, requestOptions || {}); var params = Hash.toQueryString(options.parameters); if (params) url += (url.include('?') ? '&' : '?') + params; return ResourceManager.__request( options.method, url, options.data, (options.onSuccess instanceof Function ? function() { options.onSuccess(this); } : undefined ), (options.onFailure instanceof Function ? function() { options.onFailure(this); } : undefined ), options.asynchronous && USE_ASYNCHRONOUS_REQUESTS, options.headers); }, __request: function(method, url, data, success, error, async, headers) { // get a request object var httpRequest = Try.these( /* do the Mozilla/Safari/Opera stuff */ function() { return new XMLHttpRequest(); }, /* do the IE stuff */ function() { return new ActiveXObject("Msxml2.XMLHTTP"); }, function() { return new ActiveXObject("Microsoft.XMLHTTP") } ); // if there is no request object ... if (!httpRequest) { if(!this.__corrupt) throw 'This browser does not provide any AJAX functionality. You will not be able to use the software provided with the page you are viewing. Please consider installing appropriate extensions.'; this.__corrupt = true; return false; } if(success instanceof Function) httpRequest.onload = success; if(error instanceof Function) { httpRequest.onerror = error; } var h = $H(headers) h.keys().each(function(key) { httpRequest.setRequestHeader(key, h[key]); }); try { if(SHOW_DEBUG_ALERTS_WHEN_SAVING) alert(method + ' ' + url + '\n' + SHOW_EXTENDED_DEBUG_INFORMATION ? data : ''); // TODO Remove synchronous calls to the server as soon as xenodot // handles asynchronous requests without failure. httpRequest.open(method, url, !async?false:true); httpRequest.send(data); } catch(e) { return false; } return true; }, __resourceActionSucceeded: function(transport, action, id) { var status = transport.status; var response = transport.responseText; if(SHOW_DEBUG_ALERTS_WHEN_SAVING) alert(status + ' ' + url + '\n' + SHOW_EXTENDED_DEBUG_INFORMATION ? data : ''); // if the status code is not in 2xx, throw an error. if(status >= 300) throw 'The server responded with an error: ' + status + '\n' + (SHOW_EXTENDED_DEBUG_INFORMATION ? + data : 'If you need additional information here, including the data sent by the server, consider setting SHOW_EXTENDED_DEBUG_INFORMATION to true.'); switch(action) { case RESOURCE_REMOVED: // get div and id var response = (transport.responseXML); var div = response.childNodes[0]; var id = div.getAttribute('id'); // remove the resource from DOM var localDiv = document.getElementById(id); localDiv.parentNode.removeChild(localDiv); break; case RESOURCE_CREATED: // nothing remains to be done. break; case RESOURCE_SAVED | RESOURCE_SYNCHRONIZED: DataManager.__synclocal(); case RESOURCE_SAVED: // nothing remains to be done. break; case RESOURCE_RELOADED: // get div and id var response = (transport.responseXML); var div = response.childNodes[0]; var id = div.getAttribute('id'); // remove the local resource representation from DOM var localDiv = document.getElementById(id) localDiv.parentNode.removeChild(localDiv); // store div in DOM if(!$$(PROCESSDATA_REF)[0]) DataManager.graft(XMLNS.XHTML, document.getElementsByTagNameNS(XMLNS.XHTML, 'body').item(0), ['div', {'class': PROCESSDATA_REF, 'style':'display:none;'}]); $$(PROCESSDATA_REF)[0].appendChild(div.cloneNode(true)); DataManager.__synclocal(); break; default: DataManager.__synclocal(); } // dispatch to all listeners ... ResourceManager.__dispatchEvent( // ... an event describing the change that happened here. new ResourceManager.__Event(action, id) ); }, __resourceActionFailed: function(transport, action, id) { throw "Fatal: Resource action failed. There is something horribly " + "wrong with either the server, the transport protocol or your " + "online status. Sure you're online?"; } }/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * The super class for all classes in ORYX. Adds some OOP feeling to javascript. * See article "Object Oriented Super Class Method Calling with JavaScript" on * http://truecode.blogspot.com/2006/08/object-oriented-super-class-method.html * for a documentation on this. Fairly good article that points out errors in * Douglas Crockford's inheritance and super method calling approach. * Worth reading. * @class Clazz */ var Clazz = function() {}; /** * Empty constructor. * @methodOf Clazz.prototype */ Clazz.prototype.construct = function() {}; /** * Can be used to build up inheritances of classes. * @example * var MyClass = Clazz.extend({ * construct: function(myParam){ * // Do sth. * } * }); * var MySubClass = MyClass.extend({ * construct: function(myParam){ * // Use this to call constructor of super class * arguments.callee.$.construct.apply(this, arguments); * // Do sth. * } * }); * @param {Object} def The definition of the new class. */ Clazz.extend = function(def) { var classDef = function() { if (arguments[0] !== Clazz) { this.construct.apply(this, arguments); } }; var proto = new this(Clazz); var superClass = this.prototype; for (var n in def) { var item = def[n]; if (item instanceof Function) item.$ = superClass; proto[n] = item; } classDef.prototype = proto; //Give this new class the same static extend method classDef.extend = this.extend; return classDef; };/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX) var ORYX = {}; if(!ORYX.CONFIG) ORYX.CONFIG = {}; /** * This file contains URI constants that may be used for XMLHTTPRequests. */ ORYX.CONFIG.ROOT_PATH = "editor/"; //TODO: Remove last slash!! ORYX.CONFIG.EXPLORER_PATH = "explorer"; ORYX.CONFIG.LIBS_PATH = "libs"; /** * Regular Config */ ORYX.CONFIG.SERVER_HANDLER_ROOT = "service"; ORYX.CONFIG.SERVER_EDITOR_HANDLER = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/editor"; ORYX.CONFIG.SERVER_MODEL_HANDLER = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/model"; ORYX.CONFIG.STENCILSET_HANDLER = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/editor_stencilset?embedsvg=true&url=true&namespace="; ORYX.CONFIG.STENCIL_SETS_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/editor_stencilset"; ORYX.CONFIG.PLUGINS_CONFIG = "editor-app/plugins.xml"; ORYX.CONFIG.SYNTAXCHECKER_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/syntaxchecker"; ORYX.CONFIG.DEPLOY_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/model/deploy"; ORYX.CONFIG.MODEL_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/models"; ORYX.CONFIG.FORM_FLOW_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/formflows"; ORYX.CONFIG.FORM_FLOW_IMAGE_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/formflow"; ORYX.CONFIG.FORM_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/forms"; ORYX.CONFIG.FORM_IMAGE_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/form"; ORYX.CONFIG.SUB_PROCESS_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/subprocesses"; ORYX.CONFIG.SUB_PROCESS_IMAGE_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/subprocess"; ORYX.CONFIG.TEST_SERVICE_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/service/"; ORYX.CONFIG.SERVICE_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/services"; ORYX.CONFIG.CONDITION_ELEMENT_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/conditionelements"; ORYX.CONFIG.VARIABLEDEF_ELEMENT_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/variabledefinitionelements"; ORYX.CONFIG.VALIDATOR_LIST_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/validators"; ORYX.CONFIG.SS_EXTENSIONS_FOLDER = ORYX.CONFIG.ROOT_PATH + "stencilsets/extensions/"; ORYX.CONFIG.SS_EXTENSIONS_CONFIG = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/editor_ssextensions"; ORYX.CONFIG.ORYX_NEW_URL = "/new"; ORYX.CONFIG.BPMN_LAYOUTER = ORYX.CONFIG.ROOT_PATH + "bpmnlayouter"; ORYX.CONFIG.EXPRESSION_METADATA_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/expression-metadata"; ORYX.CONFIG.DATASOURCE_METADATA_URL = ORYX.CONFIG.SERVER_HANDLER_ROOT + "/datasource-metadata";/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX) var ORYX = {}; if(!ORYX.CONFIG) ORYX.CONFIG = {}; /** * Signavio specific variables */ ORYX.CONFIG.BACKEND_SWITCH = true; ORYX.CONFIG.PANEL_LEFT_WIDTH = 250; ORYX.CONFIG.PANEL_RIGHT_COLLAPSED = true; ORYX.CONFIG.PANEL_RIGHT_WIDTH = 300; ORYX.CONFIG.APPNAME = 'KISBPM'; ORYX.CONFIG.WEB_URL = "."; ORYX.CONFIG.BLANK_IMAGE = ORYX.CONFIG.LIBS_PATH + '/ext-2.0.2/resources/images/default/s.gif'; /* Specify offset of header */ ORYX.CONFIG.OFFSET_HEADER = 61; /* Show grid line while dragging */ ORYX.CONFIG.SHOW_GRIDLINE = true; /* Editor-Mode */ ORYX.CONFIG.MODE_READONLY = "readonly"; ORYX.CONFIG.MODE_FULLSCREEN = "fullscreen"; ORYX.CONFIG.WINDOW_HEIGHT = 800; ORYX.CONFIG.PREVENT_LOADINGMASK_AT_READY = false; /* Plugins */ ORYX.CONFIG.PLUGINS_ENABLED = true; ORYX.CONFIG.PLUGINS_FOLDER = "Plugins/"; ORYX.CONFIG.BPMN20_SCHEMA_VALIDATION_ON = true; /* Namespaces */ ORYX.CONFIG.NAMESPACE_ORYX = "http://www.b3mn.org/oryx"; ORYX.CONFIG.NAMESPACE_SVG = "http://www.w3.org/2000/svg"; /* UI */ ORYX.CONFIG.CANVAS_WIDTH = 1200; ORYX.CONFIG.CANVAS_HEIGHT = 1050; ORYX.CONFIG.CANVAS_RESIZE_INTERVAL = 100; ORYX.CONFIG.CANVAS_MIN_WIDTH = 800; ORYX.CONFIG.CANVAS_MIN_HEIGHT = 300; ORYX.CONFIG.SELECTED_AREA_PADDING = 4; ORYX.CONFIG.CANVAS_BACKGROUND_COLOR = "none"; ORYX.CONFIG.GRID_DISTANCE = 30; ORYX.CONFIG.GRID_ENABLED = true; ORYX.CONFIG.ZOOM_OFFSET = 0.1; ORYX.CONFIG.DEFAULT_SHAPE_MARGIN = 60; ORYX.CONFIG.SCALERS_SIZE = 7; ORYX.CONFIG.MINIMUM_SIZE = 20; ORYX.CONFIG.MAXIMUM_SIZE = 10000; ORYX.CONFIG.OFFSET_MAGNET = 15; ORYX.CONFIG.OFFSET_EDGE_LABEL_TOP = 8; ORYX.CONFIG.OFFSET_EDGE_LABEL_BOTTOM = 8; ORYX.CONFIG.OFFSET_EDGE_BOUNDS = 5; ORYX.CONFIG.COPY_MOVE_OFFSET = 30; ORYX.CONFIG.BORDER_OFFSET = 14; ORYX.CONFIG.MAX_NUM_SHAPES_NO_GROUP = 20; // Updated so the form editor shows all elements at once ORYX.CONFIG.SHAPEMENU_CREATE_OFFSET_CORNER = 30; ORYX.CONFIG.SHAPEMENU_CREATE_OFFSET = 45; /* Shape-Menu Align */ ORYX.CONFIG.SHAPEMENU_RIGHT = "Oryx_Right"; ORYX.CONFIG.SHAPEMENU_BOTTOM = "Oryx_Bottom"; ORYX.CONFIG.SHAPEMENU_LEFT = "Oryx_Left"; ORYX.CONFIG.SHAPEMENU_TOP = "Oryx_Top"; /* Morph-Menu Item */ ORYX.CONFIG.MORPHITEM_DISABLED = "Oryx_MorphItem_disabled"; /* Property type names */ ORYX.CONFIG.TYPE_STRING = "string"; ORYX.CONFIG.TYPE_BOOLEAN = "boolean"; ORYX.CONFIG.TYPE_INTEGER = "integer"; ORYX.CONFIG.TYPE_FLOAT = "float"; ORYX.CONFIG.TYPE_COLOR = "color"; ORYX.CONFIG.TYPE_DATE = "date"; ORYX.CONFIG.TYPE_CHOICE = "choice"; ORYX.CONFIG.TYPE_URL = "url"; ORYX.CONFIG.TYPE_DIAGRAM_LINK = "diagramlink"; ORYX.CONFIG.TYPE_COMPLEX = "complex"; ORYX.CONFIG.TYPE_MULTIPLECOMPLEX = "multiplecomplex"; ORYX.CONFIG.TYPE_TEXT = "text"; ORYX.CONFIG.TYPE_KISBPM_MULTIINSTANCE = "kisbpm-multiinstance"; ORYX.CONFIG.TYPE_MODEL_LINK = "modellink"; ORYX.CONFIG.TYPE_FORM_FLOW_LINK = "formflowlink"; ORYX.CONFIG.TYPE_FORM_LINK = "formlink"; ORYX.CONFIG.TYPE_SUB_PROCESS_LINK = "subprocesslink"; ORYX.CONFIG.TYPE_SERVICE_LINK = "servicelink"; ORYX.CONFIG.TYPE_CONDITIONS = "conditions"; ORYX.CONFIG.TYPE_VARIABLES = "variables"; ORYX.CONFIG.TYPE_LISTENER = "listener"; ORYX.CONFIG.TYPE_EPC_FREQ = "epcfrequency"; ORYX.CONFIG.TYPE_GLOSSARY_LINK = "glossarylink"; ORYX.CONFIG.TYPE_EXPRESSION = "expression"; ORYX.CONFIG.TYPE_DATASOURCE = "datasource"; ORYX.CONFIG.TYPE_DATASOURCE_MINIMAL = "datasource-minimal"; ORYX.CONFIG.TYPE_VALIDATORS = "validators"; /* Vertical line distance of multiline labels */ ORYX.CONFIG.LABEL_LINE_DISTANCE = 2; ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT = 12; /* Open Morph Menu with Hover */ ORYX.CONFIG.ENABLE_MORPHMENU_BY_HOVER = false; /* Editor constants come here */ ORYX.CONFIG.EDITOR_ALIGN_BOTTOM = 0x01; ORYX.CONFIG.EDITOR_ALIGN_MIDDLE = 0x02; ORYX.CONFIG.EDITOR_ALIGN_TOP = 0x04; ORYX.CONFIG.EDITOR_ALIGN_LEFT = 0x08; ORYX.CONFIG.EDITOR_ALIGN_CENTER = 0x10; ORYX.CONFIG.EDITOR_ALIGN_RIGHT = 0x20; ORYX.CONFIG.EDITOR_ALIGN_SIZE = 0x30; /* Event types */ ORYX.CONFIG.EVENT_MOUSEDOWN = "mousedown"; ORYX.CONFIG.EVENT_MOUSEUP = "mouseup"; ORYX.CONFIG.EVENT_MOUSEOVER = "mouseover"; ORYX.CONFIG.EVENT_MOUSEOUT = "mouseout"; ORYX.CONFIG.EVENT_MOUSEMOVE = "mousemove"; ORYX.CONFIG.EVENT_DBLCLICK = "dblclick"; ORYX.CONFIG.EVENT_KEYDOWN = "keydown"; ORYX.CONFIG.EVENT_KEYUP = "keyup"; ORYX.CONFIG.EVENT_LOADED = "editorloaded"; ORYX.CONFIG.EVENT_SAVED = "editorSaved"; ORYX.CONFIG.EVENT_EXECUTE_COMMANDS = "executeCommands"; ORYX.CONFIG.EVENT_STENCIL_SET_LOADED = "stencilSetLoaded"; ORYX.CONFIG.EVENT_SELECTION_CHANGED = "selectionchanged"; ORYX.CONFIG.EVENT_SHAPEADDED = "shapeadded"; ORYX.CONFIG.EVENT_SHAPEREMOVED = "shaperemoved"; ORYX.CONFIG.EVENT_PROPERTY_CHANGED = "propertyChanged"; ORYX.CONFIG.EVENT_DRAGDROP_START = "dragdrop.start"; ORYX.CONFIG.EVENT_SHAPE_MENU_CLOSE = "shape.menu.close"; ORYX.CONFIG.EVENT_DRAGDROP_END = "dragdrop.end"; ORYX.CONFIG.EVENT_RESIZE_START = "resize.start"; ORYX.CONFIG.EVENT_RESIZE_END = "resize.end"; ORYX.CONFIG.EVENT_DRAGDOCKER_DOCKED = "dragDocker.docked"; ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW = "highlight.showHighlight"; ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE = "highlight.hideHighlight"; ORYX.CONFIG.EVENT_LOADING_ENABLE = "loading.enable"; ORYX.CONFIG.EVENT_LOADING_DISABLE = "loading.disable"; ORYX.CONFIG.EVENT_LOADING_STATUS = "loading.status"; ORYX.CONFIG.EVENT_OVERLAY_SHOW = "overlay.show"; ORYX.CONFIG.EVENT_OVERLAY_HIDE = "overlay.hide"; ORYX.CONFIG.EVENT_ARRANGEMENT_TOP = "arrangement.setToTop"; ORYX.CONFIG.EVENT_ARRANGEMENT_BACK = "arrangement.setToBack"; ORYX.CONFIG.EVENT_ARRANGEMENT_FORWARD = "arrangement.setForward"; ORYX.CONFIG.EVENT_ARRANGEMENT_BACKWARD = "arrangement.setBackward"; ORYX.CONFIG.EVENT_PROPWINDOW_PROP_CHANGED = "propertyWindow.propertyChanged"; ORYX.CONFIG.EVENT_LAYOUT_ROWS = "layout.rows"; ORYX.CONFIG.EVENT_LAYOUT_BPEL = "layout.BPEL"; ORYX.CONFIG.EVENT_LAYOUT_BPEL_VERTICAL = "layout.BPEL.vertical"; ORYX.CONFIG.EVENT_LAYOUT_BPEL_HORIZONTAL = "layout.BPEL.horizontal"; ORYX.CONFIG.EVENT_LAYOUT_BPEL_SINGLECHILD = "layout.BPEL.singlechild"; ORYX.CONFIG.EVENT_LAYOUT_BPEL_AUTORESIZE = "layout.BPEL.autoresize"; ORYX.CONFIG.EVENT_AUTOLAYOUT_LAYOUT = "autolayout.layout"; ORYX.CONFIG.EVENT_UNDO_EXECUTE = "undo.execute"; ORYX.CONFIG.EVENT_UNDO_ROLLBACK = "undo.rollback"; ORYX.CONFIG.EVENT_BUTTON_UPDATE = "toolbar.button.update"; ORYX.CONFIG.EVENT_LAYOUT = "layout.dolayout"; ORYX.CONFIG.EVENT_GLOSSARY_LINK_EDIT = "glossary.link.edit"; ORYX.CONFIG.EVENT_GLOSSARY_SHOW = "glossary.show.info"; ORYX.CONFIG.EVENT_GLOSSARY_NEW = "glossary.show.new"; ORYX.CONFIG.EVENT_DOCKERDRAG = "dragTheDocker"; ORYX.CONFIG.EVENT_CANVAS_SCROLL = "canvas.scroll"; ORYX.CONFIG.EVENT_SHOW_PROPERTYWINDOW = "propertywindow.show"; ORYX.CONFIG.EVENT_ABOUT_TO_SAVE = "file.aboutToSave"; /* Selection Shapes Highlights */ ORYX.CONFIG.SELECTION_HIGHLIGHT_SIZE = 5; ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR = "#4444FF"; ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR2 = "#9999FF"; ORYX.CONFIG.SELECTION_HIGHLIGHT_STYLE_CORNER = "corner"; ORYX.CONFIG.SELECTION_HIGHLIGHT_STYLE_RECTANGLE = "rectangle"; ORYX.CONFIG.SELECTION_VALID_COLOR = "#00FF00"; ORYX.CONFIG.SELECTION_INVALID_COLOR = "#FF0000"; ORYX.CONFIG.DOCKER_DOCKED_COLOR = "#00FF00"; ORYX.CONFIG.DOCKER_UNDOCKED_COLOR = "#FF0000"; ORYX.CONFIG.DOCKER_SNAP_OFFSET = 10; /* Copy & Paste */ ORYX.CONFIG.EDIT_OFFSET_PASTE = 10; /* Key-Codes */ ORYX.CONFIG.KEY_CODE_X = 88; ORYX.CONFIG.KEY_CODE_C = 67; ORYX.CONFIG.KEY_CODE_V = 86; ORYX.CONFIG.KEY_CODE_DELETE = 46; ORYX.CONFIG.KEY_CODE_META = 224; ORYX.CONFIG.KEY_CODE_BACKSPACE = 8; ORYX.CONFIG.KEY_CODE_LEFT = 37; ORYX.CONFIG.KEY_CODE_RIGHT = 39; ORYX.CONFIG.KEY_CODE_UP = 38; ORYX.CONFIG.KEY_CODE_DOWN = 40; // TODO Determine where the lowercase constants are still used and remove them from here. ORYX.CONFIG.KEY_Code_enter = 12; ORYX.CONFIG.KEY_Code_left = 37; ORYX.CONFIG.KEY_Code_right = 39; ORYX.CONFIG.KEY_Code_top = 38; ORYX.CONFIG.KEY_Code_bottom = 40; /* Supported Meta Keys */ ORYX.CONFIG.META_KEY_META_CTRL = "metactrl"; ORYX.CONFIG.META_KEY_ALT = "alt"; ORYX.CONFIG.META_KEY_SHIFT = "shift"; /* Key Actions */ ORYX.CONFIG.KEY_ACTION_DOWN = "down"; ORYX.CONFIG.KEY_ACTION_UP = "up"; /* Form Rowlayouting */ ORYX.CONFIG.FORM_ROW_WIDTH = 350; ORYX.CONFIG.FORM_GROUP_MARGIN = 5; ORYX.CONFIG.FORM_GROUP_EMPTY_HEIGHT = 100; /* Form element types */ ORYX.CONFIG.FORM_ELEMENT_ID_PREFIX = 'http://b3mn.org/stencilset/xforms'; ORYX.CONFIG.FORM_ELEMENT_TYPE_ROOT = 'http://b3mn.org/stencilset/xforms#XForm'; ORYX.CONFIG.FORM_ELEMENT_TYPE_GROUP = 'http://b3mn.org/stencilset/xforms#Group'; ORYX.CONFIG.FORM_ELEMENT_TYPE_REPEATING_GROUP = 'http://b3mn.org/stencilset/xforms#RepeatingGroup'; ORYX.CONFIG.FORM_ELEMENT_TYPE_LABEL_FIELD = 'http://b3mn.org/stencilset/xforms#LabelField'; /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ function printf() { var result = arguments[0]; for (var i=1; i= ORYX_LOGLEVEL_TRACE) ORYX.Log.__log('TRACE', arguments); }, debug: function() { if(ORYX_LOGLEVEL >= ORYX_LOGLEVEL_DEBUG) ORYX.Log.__log('DEBUG', arguments); }, info: function() { if(ORYX_LOGLEVEL >= ORYX_LOGLEVEL_INFO) ORYX.Log.__log('INFO', arguments); }, warn: function() { if(ORYX_LOGLEVEL >= ORYX_LOGLEVEL_WARN) ORYX.Log.__log('WARN', arguments); }, error: function() { if(ORYX_LOGLEVEL >= ORYX_LOGLEVEL_ERROR) ORYX.Log.__log('ERROR', arguments); }, fatal: function() { if(ORYX_LOGLEVEL >= ORYX_LOGLEVEL_FATAL) ORYX.Log.__log('FATAL', arguments); }, __log: function(prefix, messageParts) { messageParts[0] = (new Date()).getTime() + " " + prefix + " " + messageParts[0]; var message = printf.apply(null, messageParts); ORYX.Log.__appenders.each(function(appender) { appender.append(message); }); }, addAppender: function(appender) { ORYX.Log.__appenders.push(appender); } }, /** * First bootstrapping layer. The Oryx loading procedure begins. In this * step, all preliminaries that are not in the responsibility of Oryx to be * met have to be checked here, such as the existance of the prototpe * library in the current execution environment. After that, the second * bootstrapping layer is being invoked. Failing to ensure that any * preliminary condition is not met has to fail with an error. */ load: function() { ORYX.Log.debug("Oryx begins loading procedure."); // check for prototype if( (typeof Prototype=='undefined') || (typeof Element == 'undefined') || (typeof Element.Methods=='undefined') || parseFloat(Prototype.Version.split(".")[0] + "." + Prototype.Version.split(".")[1]) < 1.5) throw("Application requires the Prototype JavaScript framework >= 1.5.3"); ORYX.Log.debug("Prototype > 1.5 found."); // continue loading. ORYX._load(); }, /** * Second bootstrapping layer. The oryx configuration is checked. When not * yet loaded, config.js is being requested from the server. A repeated * error in retrieving the configuration will result in an error to be * thrown after a certain time of retries. Once the configuration is there, * all urls that are registered with oryx loading are being requested from * the server. Once everything is loaded, the third layer is being invoked. */ _load: function() { /* // if configuration not there already, if(!(ORYX.CONFIG)) { // if this is the first attempt... if(ORYX.configrationRetries == 0) { // get the path and filename. var configuration = ORYX.PATH + ORYX.CONFIGURATION; ORYX.Log.debug("Configuration not found, loading from '%0'.", configuration); // require configuration file. Kickstart.require(configuration); // else if attempts exceeded ... } else if(ORYX.configrationRetries >= ORYX_CONFIGURATION_WAIT_ATTEMPTS) { throw "Tried to get configuration" + ORYX_CONFIGURATION_WAIT_ATTEMPTS + " times from '" + configuration + "'. Giving up." } else if(ORYX.configrationRetries > 0){ // point out how many attempts are left... ORYX.Log.debug("Waiting once more (%0 attempts left)", (ORYX_CONFIGURATION_WAIT_ATTEMPTS - ORYX.configrationRetries)); } // any case: continue in a moment with increased retry count. ORYX.configrationRetries++; window.setTimeout(ORYX._load, ORYX_CONFIGURATION_DELAY); return; } ORYX.Log.info("Configuration loaded."); // load necessary scripts. ORYX.URLS.each(function(url) { ORYX.Log.debug("Requireing '%0'", url); Kickstart.require(ORYX.PATH + url) }); */ // configurate logging and load plugins. ORYX.loadPlugins(); }, /** * Third bootstrapping layer. This is where first the plugin coniguration * file is loaded into oryx, analyzed, and where all plugins are being * requested by the server. Afterwards, all editor instances will be * initialized. */ loadPlugins: function() { // load plugins if enabled. if(ORYX.CONFIG.PLUGINS_ENABLED) ORYX._loadPlugins() else ORYX.Log.warn("Ignoring plugins, loading Core only."); // init the editor instances. init(); }, _loadPlugins: function() { // load plugin configuration file. var source = ORYX.CONFIG.PLUGINS_CONFIG; ORYX.Log.debug("Loading plugin configuration from '%0'.", source); new Ajax.Request(source, { asynchronous: false, method: 'get', onSuccess: function(result) { /* * This is the method that is being called when the plugin * configuration was successfully loaded from the server. The * file has to be processed and the contents need to be * considered for further plugin requireation. */ ORYX.Log.info("Plugin configuration file loaded."); // get plugins.xml content var resultXml = result.responseXML; // TODO: Describe how properties are handled. // Get the globale Properties var globalProperties = []; var preferences = $A(resultXml.getElementsByTagName("properties")); preferences.each( function(p) { var props = $A(p.childNodes); props.each( function(prop) { var property = new Hash(); // get all attributes from the node and set to global properties var attributes = $A(prop.attributes) attributes.each(function(attr){property[attr.nodeName] = attr.nodeValue}); if(attributes.length > 0) { globalProperties.push(property) }; }); }); // TODO Why are we using XML if we don't respect structure anyway? // for each plugin element in the configuration.. var plugin = resultXml.getElementsByTagName("plugin"); $A(plugin).each( function(node) { // get all element's attributes. // TODO: What about: var pluginData = $H(node.attributes) !? var pluginData = new Hash(); $A(node.attributes).each( function(attr){ pluginData[attr.nodeName] = attr.nodeValue}); // ensure there's a name attribute. if(!pluginData['name']) { ORYX.Log.error("A plugin is not providing a name. Ingnoring this plugin."); return; } // ensure there's a source attribute. if(!pluginData['source']) { ORYX.Log.error("Plugin with name '%0' doesn't provide a source attribute.", pluginData['name']); return; } // Get all private Properties var propertyNodes = node.getElementsByTagName("property"); var properties = []; $A(propertyNodes).each(function(prop) { var property = new Hash(); // Get all Attributes from the Node var attributes = $A(prop.attributes) attributes.each(function(attr){property[attr.nodeName] = attr.nodeValue}); if(attributes.length > 0) { properties.push(property) }; }); // Set all Global-Properties to the Properties properties = properties.concat(globalProperties); // Set Properties to Plugin-Data pluginData['properties'] = properties; // Get the RequieredNodes var requireNodes = node.getElementsByTagName("requires"); var requires; $A(requireNodes).each(function(req) { var namespace = $A(req.attributes).find(function(attr){ return attr.name == "namespace"}) if( namespace && namespace.nodeValue ){ if( !requires ){ requires = {namespaces:[]} } requires.namespaces.push(namespace.nodeValue) } }); // Set Requires to the Plugin-Data, if there is one if( requires ){ pluginData['requires'] = requires; } // Get the RequieredNodes var notUsesInNodes = node.getElementsByTagName("notUsesIn"); var notUsesIn; $A(notUsesInNodes).each(function(not) { var namespace = $A(not.attributes).find(function(attr){ return attr.name == "namespace"}) if( namespace && namespace.nodeValue ){ if( !notUsesIn ){ notUsesIn = {namespaces:[]} } notUsesIn.namespaces.push(namespace.nodeValue) } }); // Set Requires to the Plugin-Data, if there is one if( notUsesIn ){ pluginData['notUsesIn'] = notUsesIn; } var url = ORYX.PATH + ORYX.CONFIG.PLUGINS_FOLDER + pluginData['source']; ORYX.Log.debug("Requireing '%0'", url); // Add the Script-Tag to the Site //Kickstart.require(url); ORYX.Log.info("Plugin '%0' successfully loaded.", pluginData['name']); // Add the Plugin-Data to all available Plugins ORYX.availablePlugins.push(pluginData); }); }, onFailure:this._loadPluginsOnFails }); }, _loadPluginsOnFails: function(result) { ORYX.Log.error("Plugin configuration file not available."); } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} /** * EditPathHandler * * Edit SVG paths' coordinates according to specified from-to movement and * horizontal and vertical scaling factors. * The resulting path's d attribute is stored in instance variable d. * * @constructor */ ORYX.Core.SVG.EditPathHandler = Clazz.extend({ construct: function() { arguments.callee.$.construct.apply(this, arguments); this.x = 0; this.y = 0; this.oldX = 0; this.oldY = 0; this.deltaWidth = 1; this.deltaHeight = 1; this.d = ""; }, /** * init * * @param {float} x Target point's x-coordinate * @param {float} y Target point's y-coordinate * @param {float} oldX Reference point's x-coordinate * @param {float} oldY Reference point's y-coordinate * @param {float} deltaWidth Horizontal scaling factor * @param {float} deltaHeight Vertical scaling factor */ init: function(x, y, oldX, oldY, deltaWidth, deltaHeight) { this.x = x; this.y = y; this.oldX = oldX; this.oldY = oldY; this.deltaWidth = deltaWidth; this.deltaHeight = deltaHeight; this.d = ""; }, /** * editPointsAbs * * @param {Array} points Array of absolutePoints */ editPointsAbs: function(points) { if(points instanceof Array) { var newPoints = []; var x, y; for(var i = 0; i < points.length; i++) { x = (parseFloat(points[i]) - this.oldX)*this.deltaWidth + this.x; i++; y = (parseFloat(points[i]) - this.oldY)*this.deltaHeight + this.y; newPoints.push(x); newPoints.push(y); } return newPoints; } else { //TODO error } }, /** * editPointsRel * * @param {Array} points Array of absolutePoints */ editPointsRel: function(points) { if(points instanceof Array) { var newPoints = []; var x, y; for(var i = 0; i < points.length; i++) { x = parseFloat(points[i])*this.deltaWidth; i++; y = parseFloat(points[i])*this.deltaHeight; newPoints.push(x); newPoints.push(y); } return newPoints; } else { //TODO error } }, /** * arcAbs - A * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcAbs: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { var pointsAbs = this.editPointsAbs([x, y]); var pointsRel = this.editPointsRel([rx, ry]); this.d = this.d.concat(" A" + pointsRel[0] + " " + pointsRel[1] + " " + xAxisRotation + " " + largeArcFlag + " " + sweepFlag + " " + pointsAbs[0] + " " + pointsAbs[1] + " "); }, /** * arcRel - a * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcRel: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { var pointsRel = this.editPointsRel([rx, ry, x, y]); this.d = this.d.concat(" a" + pointsRel[0] + " " + pointsRel[1] + " " + xAxisRotation + " " + largeArcFlag + " " + sweepFlag + " " + pointsRel[2] + " " + pointsRel[3] + " "); }, /** * curvetoCubicAbs - C * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicAbs: function(x1, y1, x2, y2, x, y) { var pointsAbs = this.editPointsAbs([x1, y1, x2, y2, x, y]); this.d = this.d.concat(" C" + pointsAbs[0] + " " + pointsAbs[1] + " " + pointsAbs[2] + " " + pointsAbs[3] + " " + pointsAbs[4] + " " + pointsAbs[5] + " "); }, /** * curvetoCubicRel - c * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicRel: function(x1, y1, x2, y2, x, y) { var pointsRel = this.editPointsRel([x1, y1, x2, y2, x, y]); this.d = this.d.concat(" c" + pointsRel[0] + " " + pointsRel[1] + " " + pointsRel[2] + " " + pointsRel[3] + " " + pointsRel[4] + " " + pointsRel[5] + " "); }, /** * linetoHorizontalAbs - H * * @param {Number} x */ linetoHorizontalAbs: function(x) { var pointsAbs = this.editPointsAbs([x, 0]); this.d = this.d.concat(" H" + pointsAbs[0] + " "); }, /** * linetoHorizontalRel - h * * @param {Number} x */ linetoHorizontalRel: function(x) { var pointsRel = this.editPointsRel([x, 0]); this.d = this.d.concat(" h" + pointsRel[0] + " "); }, /** * linetoAbs - L * * @param {Number} x * @param {Number} y */ linetoAbs: function(x, y) { var pointsAbs = this.editPointsAbs([x, y]); this.d = this.d.concat(" L" + pointsAbs[0] + " " + pointsAbs[1] + " "); }, /** * linetoRel - l * * @param {Number} x * @param {Number} y */ linetoRel: function(x, y) { var pointsRel = this.editPointsRel([x, y]); this.d = this.d.concat(" l" + pointsRel[0] + " " + pointsRel[1] + " "); }, /** * movetoAbs - M * * @param {Number} x * @param {Number} y */ movetoAbs: function(x, y) { var pointsAbs = this.editPointsAbs([x, y]); this.d = this.d.concat(" M" + pointsAbs[0] + " " + pointsAbs[1] + " "); }, /** * movetoRel - m * * @param {Number} x * @param {Number} y */ movetoRel: function(x, y) { var pointsRel; if(this.d === "") { pointsRel = this.editPointsAbs([x, y]); } else { pointsRel = this.editPointsRel([x, y]); } this.d = this.d.concat(" m" + pointsRel[0] + " " + pointsRel[1] + " "); }, /** * curvetoQuadraticAbs - Q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticAbs: function(x1, y1, x, y) { var pointsAbs = this.editPointsAbs([x1, y1, x, y]); this.d = this.d.concat(" Q" + pointsAbs[0] + " " + pointsAbs[1] + " " + pointsAbs[2] + " " + pointsAbs[3] + " "); }, /** * curvetoQuadraticRel - q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticRel: function(x1, y1, x, y) { var pointsRel = this.editPointsRel([x1, y1, x, y]); this.d = this.d.concat(" q" + pointsRel[0] + " " + pointsRel[1] + " " + pointsRel[2] + " " + pointsRel[3] + " "); }, /** * curvetoCubicSmoothAbs - S * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothAbs: function(x2, y2, x, y) { var pointsAbs = this.editPointsAbs([x2, y2, x, y]); this.d = this.d.concat(" S" + pointsAbs[0] + " " + pointsAbs[1] + " " + pointsAbs[2] + " " + pointsAbs[3] + " "); }, /** * curvetoCubicSmoothRel - s * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothRel: function(x2, y2, x, y) { var pointsRel = this.editPointsRel([x2, y2, x, y]); this.d = this.d.concat(" s" + pointsRel[0] + " " + pointsRel[1] + " " + pointsRel[2] + " " + pointsRel[3] + " "); }, /** * curvetoQuadraticSmoothAbs - T * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothAbs: function(x, y) { var pointsAbs = this.editPointsAbs([x, y]); this.d = this.d.concat(" T" + pointsAbs[0] + " " + pointsAbs[1] + " "); }, /** * curvetoQuadraticSmoothRel - t * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothRel: function(x, y) { var pointsRel = this.editPointsRel([x, y]); this.d = this.d.concat(" t" + pointsRel[0] + " " + pointsRel[1] + " "); }, /** * linetoVerticalAbs - V * * @param {Number} y */ linetoVerticalAbs: function(y) { var pointsAbs = this.editPointsAbs([0, y]); this.d = this.d.concat(" V" + pointsAbs[1] + " "); }, /** * linetoVerticalRel - v * * @param {Number} y */ linetoVerticalRel: function(y) { var pointsRel = this.editPointsRel([0, y]); this.d = this.d.concat(" v" + pointsRel[1] + " "); }, /** * closePath - z or Z */ closePath: function() { this.d = this.d.concat(" z"); } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} /** * MinMaxPathHandler * * Determine the minimum and maximum of a SVG path's absolute coordinates. * For relative coordinates the absolute value is computed for consideration. * The values are stored in attributes minX, minY, maxX, and maxY. * * @constructor */ ORYX.Core.SVG.MinMaxPathHandler = Clazz.extend({ construct: function() { arguments.callee.$.construct.apply(this, arguments); this.minX = undefined; this.minY = undefined; this.maxX = undefined; this.maxY = undefined; this._lastAbsX = undefined; this._lastAbsY = undefined; }, /** * Store minimal and maximal coordinates of passed points to attributes minX, maxX, minY, maxY * * @param {Array} points Array of absolutePoints */ calculateMinMax: function(points) { if(points instanceof Array) { var x, y; for(var i = 0; i < points.length; i++) { x = parseFloat(points[i]); i++; y = parseFloat(points[i]); this.minX = (this.minX !== undefined) ? Math.min(this.minX, x) : x; this.maxX = (this.maxX !== undefined) ? Math.max(this.maxX, x) : x; this.minY = (this.minY !== undefined) ? Math.min(this.minY, y) : y; this.maxY = (this.maxY !== undefined) ? Math.max(this.maxY, y) : y; this._lastAbsX = x; this._lastAbsY = y; } } else { //TODO error } }, /** * arcAbs - A * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcAbs: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { this.calculateMinMax([x, y]); }, /** * arcRel - a * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcRel: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { this.calculateMinMax([this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoCubicAbs - C * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicAbs: function(x1, y1, x2, y2, x, y) { this.calculateMinMax([x1, y1, x2, y2, x, y]); }, /** * curvetoCubicRel - c * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicRel: function(x1, y1, x2, y2, x, y) { this.calculateMinMax([this._lastAbsX + x1, this._lastAbsY + y1, this._lastAbsX + x2, this._lastAbsY + y2, this._lastAbsX + x, this._lastAbsY + y]); }, /** * linetoHorizontalAbs - H * * @param {Number} x */ linetoHorizontalAbs: function(x) { this.calculateMinMax([x, this._lastAbsY]); }, /** * linetoHorizontalRel - h * * @param {Number} x */ linetoHorizontalRel: function(x) { this.calculateMinMax([this._lastAbsX + x, this._lastAbsY]); }, /** * linetoAbs - L * * @param {Number} x * @param {Number} y */ linetoAbs: function(x, y) { this.calculateMinMax([x, y]); }, /** * linetoRel - l * * @param {Number} x * @param {Number} y */ linetoRel: function(x, y) { this.calculateMinMax([this._lastAbsX + x, this._lastAbsY + y]); }, /** * movetoAbs - M * * @param {Number} x * @param {Number} y */ movetoAbs: function(x, y) { this.calculateMinMax([x, y]); }, /** * movetoRel - m * * @param {Number} x * @param {Number} y */ movetoRel: function(x, y) { if(this._lastAbsX && this._lastAbsY) { this.calculateMinMax([this._lastAbsX + x, this._lastAbsY + y]); } else { this.calculateMinMax([x, y]); } }, /** * curvetoQuadraticAbs - Q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticAbs: function(x1, y1, x, y) { this.calculateMinMax([x1, y1, x, y]); }, /** * curvetoQuadraticRel - q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticRel: function(x1, y1, x, y) { this.calculateMinMax([this._lastAbsX + x1, this._lastAbsY + y1, this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoCubicSmoothAbs - S * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothAbs: function(x2, y2, x, y) { this.calculateMinMax([x2, y2, x, y]); }, /** * curvetoCubicSmoothRel - s * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothRel: function(x2, y2, x, y) { this.calculateMinMax([this._lastAbsX + x2, this._lastAbsY + y2, this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoQuadraticSmoothAbs - T * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothAbs: function(x, y) { this.calculateMinMax([x, y]); }, /** * curvetoQuadraticSmoothRel - t * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothRel: function(x, y) { this.calculateMinMax([this._lastAbsX + x, this._lastAbsY + y]); }, /** * linetoVerticalAbs - V * * @param {Number} y */ linetoVerticalAbs: function(y) { this.calculateMinMax([this._lastAbsX, y]); }, /** * linetoVerticalRel - v * * @param {Number} y */ linetoVerticalRel: function(y) { this.calculateMinMax([this._lastAbsX, this._lastAbsY + y]); }, /** * closePath - z or Z */ closePath: function() { return;// do nothing } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} /** * PathHandler * * Determine absolute points of a SVG path. The coordinates are stored * sequentially in the attribute points (x-coordinates at even indices, * y-coordinates at odd indices). * * @constructor */ ORYX.Core.SVG.PointsPathHandler = Clazz.extend({ construct: function() { arguments.callee.$.construct.apply(this, arguments); this.points = []; this._lastAbsX = undefined; this._lastAbsY = undefined; }, /** * addPoints * * @param {Array} points Array of absolutePoints */ addPoints: function(points) { if(points instanceof Array) { var x, y; for(var i = 0; i < points.length; i++) { x = parseFloat(points[i]); i++; y = parseFloat(points[i]); this.points.push(x); this.points.push(y); //this.points.push({x:x, y:y}); this._lastAbsX = x; this._lastAbsY = y; } } else { //TODO error } }, /** * arcAbs - A * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcAbs: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { this.addPoints([x, y]); }, /** * arcRel - a * * @param {Number} rx * @param {Number} ry * @param {Number} xAxisRotation * @param {Boolean} largeArcFlag * @param {Boolean} sweepFlag * @param {Number} x * @param {Number} y */ arcRel: function(rx, ry, xAxisRotation, largeArcFlag, sweepFlag, x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoCubicAbs - C * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicAbs: function(x1, y1, x2, y2, x, y) { this.addPoints([x, y]); }, /** * curvetoCubicRel - c * * @param {Number} x1 * @param {Number} y1 * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicRel: function(x1, y1, x2, y2, x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * linetoHorizontalAbs - H * * @param {Number} x */ linetoHorizontalAbs: function(x) { this.addPoints([x, this._lastAbsY]); }, /** * linetoHorizontalRel - h * * @param {Number} x */ linetoHorizontalRel: function(x) { this.addPoints([this._lastAbsX + x, this._lastAbsY]); }, /** * linetoAbs - L * * @param {Number} x * @param {Number} y */ linetoAbs: function(x, y) { this.addPoints([x, y]); }, /** * linetoRel - l * * @param {Number} x * @param {Number} y */ linetoRel: function(x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * movetoAbs - M * * @param {Number} x * @param {Number} y */ movetoAbs: function(x, y) { this.addPoints([x, y]); }, /** * movetoRel - m * * @param {Number} x * @param {Number} y */ movetoRel: function(x, y) { if(this._lastAbsX && this._lastAbsY) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); } else { this.addPoints([x, y]); } }, /** * curvetoQuadraticAbs - Q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticAbs: function(x1, y1, x, y) { this.addPoints([x, y]); }, /** * curvetoQuadraticRel - q * * @param {Number} x1 * @param {Number} y1 * @param {Number} x * @param {Number} y */ curvetoQuadraticRel: function(x1, y1, x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoCubicSmoothAbs - S * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothAbs: function(x2, y2, x, y) { this.addPoints([x, y]); }, /** * curvetoCubicSmoothRel - s * * @param {Number} x2 * @param {Number} y2 * @param {Number} x * @param {Number} y */ curvetoCubicSmoothRel: function(x2, y2, x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * curvetoQuadraticSmoothAbs - T * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothAbs: function(x, y) { this.addPoints([x, y]); }, /** * curvetoQuadraticSmoothRel - t * * @param {Number} x * @param {Number} y */ curvetoQuadraticSmoothRel: function(x, y) { this.addPoints([this._lastAbsX + x, this._lastAbsY + y]); }, /** * linetoVerticalAbs - V * * @param {Number} y */ linetoVerticalAbs: function(y) { this.addPoints([this._lastAbsX, y]); }, /** * linetoVerticalRel - v * * @param {Number} y */ linetoVerticalRel: function(y) { this.addPoints([this._lastAbsX, this._lastAbsY + y]); }, /** * closePath - z or Z */ closePath: function() { return;// do nothing } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * * Config variables */ NAMESPACE_ORYX = "http://www.b3mn.org/oryx"; NAMESPACE_SVG = "http://www.w3.org/2000/svg/"; /** * @classDescription This class wraps the manipulation of a SVG marker. * @namespace ORYX.Core.SVG * uses Inheritance (Clazz) * uses Prototype 1.5.0 * */ /** * Init package */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} ORYX.Core.SVG.SVGMarker = Clazz.extend({ /** * Constructor * @param markerElement {SVGMarkerElement} */ construct: function(markerElement) { arguments.callee.$.construct.apply(this, arguments); this.id = undefined; this.element = markerElement; this.refX = undefined; this.refY = undefined; this.markerWidth = undefined; this.markerHeight = undefined; this.oldRefX = undefined; this.oldRefY = undefined; this.oldMarkerWidth = undefined; this.oldMarkerHeight = undefined; this.optional = false; this.enabled = true; this.minimumLength = undefined; this.resize = false; this.svgShapes = []; this._init(); //initialisation of all the properties declared above. }, /** * Initializes the values that are defined in the constructor. */ _init: function() { //check if this.element is a SVGMarkerElement if(!( this.element == "[object SVGMarkerElement]")) { throw "SVGMarker: Argument is not an instance of SVGMarkerElement."; } this.id = this.element.getAttributeNS(null, "id"); //init svg marker attributes var refXValue = this.element.getAttributeNS(null, "refX"); if(refXValue) { this.refX = parseFloat(refXValue); } else { this.refX = 0; } var refYValue = this.element.getAttributeNS(null, "refY"); if(refYValue) { this.refY = parseFloat(refYValue); } else { this.refY = 0; } var markerWidthValue = this.element.getAttributeNS(null, "markerWidth"); if(markerWidthValue) { this.markerWidth = parseFloat(markerWidthValue); } else { this.markerWidth = 3; } var markerHeightValue = this.element.getAttributeNS(null, "markerHeight"); if(markerHeightValue) { this.markerHeight = parseFloat(markerHeightValue); } else { this.markerHeight = 3; } this.oldRefX = this.refX; this.oldRefY = this.refY; this.oldMarkerWidth = this.markerWidth; this.oldMarkerHeight = this.markerHeight; //init oryx attributes var optionalAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "optional"); if(optionalAttr) { optionalAttr = optionalAttr.strip(); this.optional = (optionalAttr.toLowerCase() === "yes"); } else { this.optional = false; } var enabledAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "enabled"); if(enabledAttr) { enabledAttr = enabledAttr.strip(); this.enabled = !(enabledAttr.toLowerCase() === "no"); } else { this.enabled = true; } var minLengthAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "minimumLength"); if(minLengthAttr) { this.minimumLength = parseFloat(minLengthAttr); } var resizeAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "resize"); if(resizeAttr) { resizeAttr = resizeAttr.strip(); this.resize = (resizeAttr.toLowerCase() === "yes"); } else { this.resize = false; } //init SVGShape objects //this.svgShapes = this._getSVGShapes(this.element); }, /** * */ _getSVGShapes: function(svgElement) { if(svgElement.hasChildNodes) { var svgShapes = []; var me = this; $A(svgElement.childNodes).each(function(svgChild) { try { var svgShape = new ORYX.Core.SVG.SVGShape(svgChild); svgShapes.push(svgShape); } catch (e) { svgShapes = svgShapes.concat(me._getSVGShapes(svgChild)); } }); return svgShapes; } }, /** * Writes the changed values into the SVG marker. */ update: function() { //TODO mache marker resizebar!!! aber erst wenn der rest der connectingshape funzt! // //update marker attributes // if(this.refX != this.oldRefX) { // this.element.setAttributeNS(null, "refX", this.refX); // } // if(this.refY != this.oldRefY) { // this.element.setAttributeNS(null, "refY", this.refY); // } // if(this.markerWidth != this.oldMarkerWidth) { // this.element.setAttributeNS(null, "markerWidth", this.markerWidth); // } // if(this.markerHeight != this.oldMarkerHeight) { // this.element.setAttributeNS(null, "markerHeight", this.markerHeight); // } // // //update SVGShape objects // var widthDelta = this.markerWidth / this.oldMarkerWidth; // var heightDelta = this.markerHeight / this.oldMarkerHeight; // if(widthDelta != 1 && heightDelta != 1) { // this.svgShapes.each(function(svgShape) { // // }); // } //update old values to prepare the next update this.oldRefX = this.refX; this.oldRefY = this.refY; this.oldMarkerWidth = this.markerWidth; this.oldMarkerHeight = this.markerHeight; }, toString: function() { return (this.element) ? "SVGMarker " + this.element.id : "SVGMarker " + this.element;} });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * * Config variables */ NAMESPACE_ORYX = "http://www.b3mn.org/oryx"; NAMESPACE_SVG = "http://www.w3.org/2000/svg/"; /** * @classDescription This class wraps the manipulation of a SVG basic shape or a path. * @namespace ORYX.Core.SVG * uses Inheritance (Clazz) * uses Prototype 1.5.0 * uses PathParser by Kevin Lindsey (http://kevlindev.com/) * uses MinMaxPathHandler * uses EditPathHandler * */ //init package if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} ORYX.Core.SVG.SVGShape = Clazz.extend({ /** * Constructor * @param svgElem {SVGElement} An SVGElement that is a basic shape or a path. */ construct: function(svgElem) { arguments.callee.$.construct.apply(this, arguments); this.type; this.element = svgElem; this.x = undefined; this.y = undefined; this.width = undefined; this.height = undefined; this.oldX = undefined; this.oldY = undefined; this.oldWidth = undefined; this.oldHeight = undefined; this.radiusX = undefined; this.radiusY = undefined; this.isHorizontallyResizable = false; this.isVerticallyResizable = false; //this.anchors = []; this.anchorLeft = false; this.anchorRight = false; this.anchorTop = false; this.anchorBottom = false; //attributes of path elements of edge objects this.allowDockers = true; this.resizeMarkerMid = false; this.editPathParser; this.editPathHandler; this.init(); //initialisation of all the properties declared above. }, /** * Initializes the values that are defined in the constructor. */ init: function() { /**initialize position and size*/ if(ORYX.Editor.checkClassType(this.element, SVGRectElement) || ORYX.Editor.checkClassType(this.element, SVGImageElement)) { this.type = "Rect"; var xAttr = this.element.getAttributeNS(null, "x"); if(xAttr) { this.oldX = parseFloat(xAttr); } else { throw "Missing attribute in element " + this.element; } var yAttr = this.element.getAttributeNS(null, "y"); if(yAttr) { this.oldY = parseFloat(yAttr); } else { throw "Missing attribute in element " + this.element; } var widthAttr = this.element.getAttributeNS(null, "width"); if(widthAttr) { this.oldWidth = parseFloat(widthAttr); } else { throw "Missing attribute in element " + this.element; } var heightAttr = this.element.getAttributeNS(null, "height"); if(heightAttr) { this.oldHeight = parseFloat(heightAttr); } else { throw "Missing attribute in element " + this.element; } } else if(ORYX.Editor.checkClassType(this.element, SVGCircleElement)) { this.type = "Circle"; var cx = undefined; var cy = undefined; //var r = undefined; var cxAttr = this.element.getAttributeNS(null, "cx"); if(cxAttr) { cx = parseFloat(cxAttr); } else { throw "Missing attribute in element " + this.element; } var cyAttr = this.element.getAttributeNS(null, "cy"); if(cyAttr) { cy = parseFloat(cyAttr); } else { throw "Missing attribute in element " + this.element; } var rAttr = this.element.getAttributeNS(null, "r"); if(rAttr) { //r = parseFloat(rAttr); this.radiusX = parseFloat(rAttr); } else { throw "Missing attribute in element " + this.element; } this.oldX = cx - this.radiusX; this.oldY = cy - this.radiusX; this.oldWidth = 2*this.radiusX; this.oldHeight = 2*this.radiusX; } else if(ORYX.Editor.checkClassType(this.element, SVGEllipseElement)) { this.type = "Ellipse"; var cx = undefined; var cy = undefined; //var rx = undefined; //var ry = undefined; var cxAttr = this.element.getAttributeNS(null, "cx"); if(cxAttr) { cx = parseFloat(cxAttr); } else { throw "Missing attribute in element " + this.element; } var cyAttr = this.element.getAttributeNS(null, "cy"); if(cyAttr) { cy = parseFloat(cyAttr); } else { throw "Missing attribute in element " + this.element; } var rxAttr = this.element.getAttributeNS(null, "rx"); if(rxAttr) { this.radiusX = parseFloat(rxAttr); } else { throw "Missing attribute in element " + this.element; } var ryAttr = this.element.getAttributeNS(null, "ry"); if(ryAttr) { this.radiusY = parseFloat(ryAttr); } else { throw "Missing attribute in element " + this.element; } this.oldX = cx - this.radiusX; this.oldY = cy - this.radiusY; this.oldWidth = 2*this.radiusX; this.oldHeight = 2*this.radiusY; } else if(ORYX.Editor.checkClassType(this.element, SVGLineElement)) { this.type = "Line"; var x1 = undefined; var y1 = undefined; var x2 = undefined; var y2 = undefined; var x1Attr = this.element.getAttributeNS(null, "x1"); if(x1Attr) { x1 = parseFloat(x1Attr); } else { throw "Missing attribute in element " + this.element; } var y1Attr = this.element.getAttributeNS(null, "y1"); if(y1Attr) { y1 = parseFloat(y1Attr); } else { throw "Missing attribute in element " + this.element; } var x2Attr = this.element.getAttributeNS(null, "x2"); if(x2Attr) { x2 = parseFloat(x2Attr); } else { throw "Missing attribute in element " + this.element; } var y2Attr = this.element.getAttributeNS(null, "y2"); if(y2Attr) { y2 = parseFloat(y2Attr); } else { throw "Missing attribute in element " + this.element; } this.oldX = Math.min(x1,x2); this.oldY = Math.min(y1,y2); this.oldWidth = Math.abs(x1-x2); this.oldHeight = Math.abs(y1-y2); } else if(ORYX.Editor.checkClassType(this.element, SVGPolylineElement) || ORYX.Editor.checkClassType(this.element, SVGPolygonElement)) { this.type = "Polyline"; var pointsArray = []; if (this.element.points&&this.element.points.numberOfItems){ for(var i=0, size=this.element.points.numberOfItems; i 1) { var minX = parseFloat(pointsArray[0]); var minY = parseFloat(pointsArray[1]); var maxX = parseFloat(pointsArray[0]); var maxY = parseFloat(pointsArray[1]); for(var i = 0; i < pointsArray.length; i++) { minX = Math.min(minX, parseFloat(pointsArray[i])); maxX = Math.max(maxX, parseFloat(pointsArray[i])); i++; minY = Math.min(minY, parseFloat(pointsArray[i])); maxY = Math.max(maxY, parseFloat(pointsArray[i])); } this.oldX = minX; this.oldY = minY; this.oldWidth = maxX-minX; this.oldHeight = maxY-minY; } else { throw "Missing attribute in element " + this.element; } } else if(ORYX.Editor.checkClassType(this.element, SVGPathElement)) { this.type = "Path"; this.editPathParser = new PathParser(); this.editPathHandler = new ORYX.Core.SVG.EditPathHandler(); this.editPathParser.setHandler(this.editPathHandler); var parser = new PathParser(); var handler = new ORYX.Core.SVG.MinMaxPathHandler(); parser.setHandler(handler); parser.parsePath(this.element); this.oldX = handler.minX; this.oldY = handler.minY; this.oldWidth = handler.maxX - handler.minX; this.oldHeight = handler.maxY - handler.minY; delete parser; delete handler; } else { throw "Element is not a shape."; } /** initialize attributes of oryx namespace */ //resize var resizeAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "resize"); if(resizeAttr) { resizeAttr = resizeAttr.toLowerCase(); if(resizeAttr.match(/horizontal/)) { this.isHorizontallyResizable = true; } else { this.isHorizontallyResizable = false; } if(resizeAttr.match(/vertical/)) { this.isVerticallyResizable = true; } else { this.isVerticallyResizable = false; } } else { this.isHorizontallyResizable = false; this.isVerticallyResizable = false; } //anchors var anchorAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "anchors"); if(anchorAttr) { anchorAttr = anchorAttr.replace("/,/g", " "); var anchors = anchorAttr.split(" ").without(""); for(var i = 0; i < anchors.length; i++) { switch(anchors[i].toLowerCase()) { case "left": this.anchorLeft = true; break; case "right": this.anchorRight = true; break; case "top": this.anchorTop = true; break; case "bottom": this.anchorBottom = true; break; } } } //allowDockers and resizeMarkerMid if(ORYX.Editor.checkClassType(this.element, SVGPathElement)) { var allowDockersAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "allowDockers"); if(allowDockersAttr) { if(allowDockersAttr.toLowerCase() === "no") { this.allowDockers = false; } else { this.allowDockers = true; } } var resizeMarkerMidAttr = this.element.getAttributeNS(NAMESPACE_ORYX, "resizeMarker-mid"); if(resizeMarkerMidAttr) { if(resizeMarkerMidAttr.toLowerCase() === "yes") { this.resizeMarkerMid = true; } else { this.resizeMarkerMid = false; } } } this.x = this.oldX; this.y = this.oldY; this.width = this.oldWidth; this.height = this.oldHeight; }, /** * Writes the changed values into the SVG element. */ update: function() { if(this.x !== this.oldX || this.y !== this.oldY || this.width !== this.oldWidth || this.height !== this.oldHeight) { switch(this.type) { case "Rect": if(this.x !== this.oldX) this.element.setAttributeNS(null, "x", this.x); if(this.y !== this.oldY) this.element.setAttributeNS(null, "y", this.y); if(this.width !== this.oldWidth) this.element.setAttributeNS(null, "width", this.width); if(this.height !== this.oldHeight) this.element.setAttributeNS(null, "height", this.height); break; case "Circle": //calculate the radius //var r; // if(this.width/this.oldWidth <= this.height/this.oldHeight) { // this.radiusX = ((this.width > this.height) ? this.width : this.height)/2.0; // } else { this.radiusX = ((this.width < this.height) ? this.width : this.height)/2.0; //} this.element.setAttributeNS(null, "cx", this.x + this.width/2.0); this.element.setAttributeNS(null, "cy", this.y + this.height/2.0); this.element.setAttributeNS(null, "r", this.radiusX); break; case "Ellipse": this.radiusX = this.width/2; this.radiusY = this.height/2; this.element.setAttributeNS(null, "cx", this.x + this.radiusX); this.element.setAttributeNS(null, "cy", this.y + this.radiusY); this.element.setAttributeNS(null, "rx", this.radiusX); this.element.setAttributeNS(null, "ry", this.radiusY); break; case "Line": if(this.x !== this.oldX) this.element.setAttributeNS(null, "x1", this.x); if(this.y !== this.oldY) this.element.setAttributeNS(null, "y1", this.y); if(this.x !== this.oldX || this.width !== this.oldWidth) this.element.setAttributeNS(null, "x2", this.x + this.width); if(this.y !== this.oldY || this.height !== this.oldHeight) this.element.setAttributeNS(null, "y2", this.y + this.height); break; case "Polyline": var points = this.element.getAttributeNS(null, "points"); if(points) { points = points.replace(/,/g, " ").split(" ").without(""); if(points && points.length && points.length > 1) { //TODO what if oldWidth == 0? var widthDelta = (this.oldWidth === 0) ? 0 : this.width / this.oldWidth; var heightDelta = (this.oldHeight === 0) ? 0 : this.height / this.oldHeight; var updatedPoints = ""; for(var i = 0; i < points.length; i++) { var x = (parseFloat(points[i])-this.oldX)*widthDelta + this.x; i++; var y = (parseFloat(points[i])-this.oldY)*heightDelta + this.y; updatedPoints += x + " " + y + " "; } this.element.setAttributeNS(null, "points", updatedPoints); } else { //TODO error } } else { //TODO error } break; case "Path": //calculate scaling delta //TODO what if oldWidth == 0? var widthDelta = (this.oldWidth === 0) ? 0 : this.width / this.oldWidth; var heightDelta = (this.oldHeight === 0) ? 0 : this.height / this.oldHeight; //use path parser to edit each point of the path this.editPathHandler.init(this.x, this.y, this.oldX, this.oldY, widthDelta, heightDelta); this.editPathParser.parsePath(this.element); //change d attribute of path this.element.setAttributeNS(null, "d", this.editPathHandler.d); break; } this.oldX = this.x; this.oldY = this.y; this.oldWidth = this.width; this.oldHeight = this.height; } // Remove cached variables delete this.visible; delete this.handler; }, isPointIncluded: function(pointX, pointY) { // Check if there are the right arguments and if the node is visible if(!pointX || !pointY || !this.isVisible()) { return false; } switch(this.type) { case "Rect": return (pointX >= this.x && pointX <= this.x + this.width && pointY >= this.y && pointY <= this.y+this.height); break; case "Circle": //calculate the radius // var r; // if(this.width/this.oldWidth <= this.height/this.oldHeight) { // r = ((this.width > this.height) ? this.width : this.height)/2.0; // } else { // r = ((this.width < this.height) ? this.width : this.height)/2.0; // } return ORYX.Core.Math.isPointInEllipse(pointX, pointY, this.x + this.width/2.0, this.y + this.height/2.0, this.radiusX, this.radiusX); break; case "Ellipse": return ORYX.Core.Math.isPointInEllipse(pointX, pointY, this.x + this.radiusX, this.y + this.radiusY, this.radiusX, this.radiusY); break; case "Line": return ORYX.Core.Math.isPointInLine(pointX, pointY, this.x, this.y, this.x + this.width, this.y + this.height); break; case "Polyline": var points = this.element.getAttributeNS(null, "points"); if(points) { points = points.replace(/,/g , " ").split(" ").without(""); points = points.collect(function(n) { return parseFloat(n); }); return ORYX.Core.Math.isPointInPolygone(pointX, pointY, points); } else { return false; } break; case "Path": // Cache Path handler if (!this.handler) { var parser = new PathParser(); this.handler = new ORYX.Core.SVG.PointsPathHandler(); parser.setHandler(this.handler); parser.parsePath(this.element); } return ORYX.Core.Math.isPointInPolygone(pointX, pointY, this.handler.points); break; default: return false; } }, /** * Returns true if the element is visible * @param {SVGElement} elem * @return boolean */ isVisible: function(elem) { if (this.visible !== undefined){ return this.visible; } if (!elem) { elem = this.element; } var hasOwnerSVG = false; try { hasOwnerSVG = !!elem.ownerSVGElement; } catch(e){} // Is SVG context if ( hasOwnerSVG ) { // IF G-Element if (ORYX.Editor.checkClassType(elem, SVGGElement)) { if (elem.className && elem.className.baseVal == "me") { this.visible = true; return this.visible; } } // Check if fill or stroke is set var fill = elem.getAttributeNS(null, "fill"); var stroke = elem.getAttributeNS(null, "stroke"); if (fill && fill == "none" && stroke && stroke == "none") { this.visible = false; } else { // Check if displayed var attr = elem.getAttributeNS(null, "display"); if(!attr) this.visible = this.isVisible(elem.parentNode); else if (attr == "none") this.visible = false; else this.visible = true; } } else { this.visible = true; } return this.visible; }, toString: function() { return (this.element) ? "SVGShape " + this.element.id : "SVGShape " + this.element;} });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.SVG) {ORYX.Core.SVG = {};} /** * @classDescription Class for adding text to a shape. * */ ORYX.Core.SVG.Label = Clazz.extend({ _characterSets:[ "%W", "@", "m", "wDGMOQ?????#+=<>~^", "ABCHKNRSUVXZ??????????&", "bdghnopqux???????????ETY1234567890?????_????${}*????`???????????", "aeksvyz?????FLP????????????????", "c-", "rtJ\"/()[]:;!|\\", "fjI., ", "'", "il" ], _characterSetValues:[15,14,13,11,10,9,8,7,6,5,4,3], /** * Constructor * @param options {Object} : * textElement * */ construct: function(options) { arguments.callee.$.construct.apply(this, arguments); if(!options.textElement) { throw "Label: No parameter textElement." } else if (!ORYX.Editor.checkClassType( options.textElement, SVGTextElement ) ) { throw "Label: Parameter textElement is not an SVGTextElement." } this.invisibleRenderPoint = -5000; this.node = options.textElement; this.node.setAttributeNS(null, 'stroke-width', '0pt'); this.node.setAttributeNS(null, 'letter-spacing', '-0.01px'); this.shapeId = options.shapeId; this.id; this.fitToElemId; this.edgePosition; this.x; this.y; this.oldX; this.oldY; this.isVisible = true; this._text; this._verticalAlign; this._horizontalAlign; this._rotate; this._rotationPoint; //this.anchors = []; this.anchorLeft; this.anchorRight; this.anchorTop; this.anchorBottom; this._isChanged = true; //if the text element already has an id, don't change it. var _id = this.node.getAttributeNS(null, 'id'); if(_id) { this.id = _id; } //initialization //set referenced element the text is fit to this.fitToElemId = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'fittoelem'); if(this.fitToElemId) this.fitToElemId = this.shapeId + this.fitToElemId; //set alignment var alignValues = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'align'); if(alignValues) { alignValues = alignValues.replace(/,/g, " "); alignValues = alignValues.split(" "); alignValues = alignValues.without(""); alignValues.each((function(alignValue) { switch (alignValue) { case 'top': case 'middle': case 'bottom': if(!this._verticalAlign){this._originVerticalAlign = this._verticalAlign = alignValue;} break; case 'left': case 'center': case 'right': if(!this._horizontalAlign){this._originHorizontalAlign = this._horizontalAlign = alignValue;} break; } }).bind(this)); } //set edge position (only in case the label belongs to an edge) this.edgePosition = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'edgePosition'); if(this.edgePosition) { this.originEdgePosition = this.edgePosition = this.edgePosition.toLowerCase(); } //get offset top this.offsetTop = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'offsetTop') || ORYX.CONFIG.OFFSET_EDGE_LABEL_TOP; if(this.offsetTop) { this.offsetTop = parseInt(this.offsetTop); } //get offset top this.offsetBottom = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'offsetBottom') || ORYX.CONFIG.OFFSET_EDGE_LABEL_BOTTOM; if(this.offsetBottom) { this.offsetBottom = parseInt(this.offsetBottom); } //set rotation var rotateValue = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'rotate'); if(rotateValue) { try { this._rotate = parseFloat(rotateValue); } catch (e) { this._rotate = 0; } } else { this._rotate = 0; } //anchors var anchorAttr = this.node.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "anchors"); if(anchorAttr) { anchorAttr = anchorAttr.replace("/,/g", " "); var anchors = anchorAttr.split(" ").without(""); for(var i = 0; i < anchors.length; i++) { switch(anchors[i].toLowerCase()) { case "left": this.originAnchorLeft = this.anchorLeft = true; break; case "right": this.originAnchorRight = this.anchorRight = true; break; case "top": this.originAnchorTop = this.anchorTop = true; break; case "bottom": this.originAnchorBottom = this.anchorBottom = true; break; } } } //if no alignment defined, set default alignment if(!this._verticalAlign) { this._verticalAlign = 'bottom'; } if(!this._horizontalAlign) { this._horizontalAlign = 'left'; } var xValue = this.node.getAttributeNS(null, 'x'); if(xValue) { this.oldX = this.x = parseFloat(xValue); } else { //TODO error } var yValue = this.node.getAttributeNS(null, 'y'); if(yValue) { this.oldY = this.y = parseFloat(yValue); } else { //TODO error } //set initial text this.text(this.node.textContent); }, /** * Reset the anchor position to the original value * which was specified in the stencil set * */ resetAnchorPosition: function(){ this.anchorLeft = this.originAnchorLeft || false; this.anchorRight = this.originAnchorRight || false; this.anchorTop = this.originAnchorTop || false; this.anchorBottom = this.originAnchorBottom || false; }, isOriginAnchorLeft: function(){ return this.originAnchorLeft || false; }, isOriginAnchorRight: function(){ return this.originAnchorRight || false; }, isOriginAnchorTop: function(){ return this.originAnchorTop || false; }, isOriginAnchorBottom: function(){ return this.originAnchorBottom || false; }, isAnchorLeft: function(){ return this.anchorLeft || false; }, isAnchorRight: function(){ return this.anchorRight || false; }, isAnchorTop: function(){ return this.anchorTop || false; }, isAnchorBottom: function(){ return this.anchorBottom || false; }, /** * Returns the x coordinate * @return {number} */ getX: function(){ try { var x = this.node.x.baseVal.getItem(0).value; switch(this.horizontalAlign()){ case "left": return x; case "center": return x - (this.getWidth()/2); case "right": return x - this.getWidth(); } return this.node.getBBox().x; } catch(e){ return this.x; } }, setX: function(x){ if (this.position) this.position.x = x; else this.setOriginX(x); }, /** * Returns the y coordinate * @return {number} */ getY: function(){ try { return this.node.getBBox().y; } catch(e){ return this.y; } }, setY: function(y){ if (this.position) this.position.y = y; else this.setOriginY(y); }, setOriginX: function(x){ this.x = x; }, setOriginY: function(y){ this.y = y; }, /** * Returns the width of the label * @return {number} */ getWidth: function(){ try { try { var width, cn = this.node.childNodes; if (cn.length == 0) { width = this.node.getBBox().width; } else { for (var i = 0, size = cn.length; i < size; ++i) { var w = cn[i].getComputedTextLength(); if ("undefined" == typeof width || width < w) { width = w; } } } return width+(width%2==0?0:1); } catch (ee) { return this.node.getBBox().width; } } catch(e){ return 0; } }, getOriginUpperLeft: function(){ var x = this.x, y = this.y; switch (this._horizontalAlign){ case 'center' : x -= this.getWidth()/2; break; case 'right' : x -= this.getWidth(); break; } switch (this._verticalAlign){ case 'middle' : y -= this.getHeight()/2; break; case 'bottom' : y -= this.getHeight(); break; } return {x:x, y:y}; }, /** * Returns the height of the label * @return {number} */ getHeight: function(){ try { return this.node.getBBox().height; } catch(e){ return 0; } }, /** * Returns the relative center position of the label * to its parent shape. * @return {Object} */ getCenter: function(){ var up = {x: this.getX(), y: this.getY()}; up.x += this.getWidth()/2; up.y += this.getHeight()/2; return up; }, /** * Sets the position of a label relative to the parent. * @param {Object} position */ setPosition: function(position){ if (!position || position.x === undefined || position.y === undefined) { delete this.position; } else { this.position = position; } if (this.position){ delete this._referencePoint; delete this.edgePosition; } this._isChanged = true; this.update(); }, /** * Return the position */ getPosition: function(){ return this.position; }, setReferencePoint: function(ref){ if (ref) { this._referencePoint = ref; } else { delete this._referencePoint; } if (this._referencePoint){ delete this.position; } }, getReferencePoint: function(){ return this._referencePoint || undefined; }, changed: function() { this._isChanged = true; }, /** * Register a callback which will be called if the label * was rendered. * @param {Object} fn */ registerOnChange: function(fn){ if (!this.changeCallbacks){ this.changeCallbacks = []; } if (fn instanceof Function && !this.changeCallbacks.include(fn)){ this.changeCallbacks.push(fn); } }, /** * Unregister the callback for changes. * @param {Object} fn */ unregisterOnChange: function(fn){ if (this.changeCallbacks && fn instanceof Function && this.changeCallbacks.include(fn)){ this.changeCallbacks = this.changeCallbacks.without(fn); } }, /** * Returns TRUE if the labe is currently in * the update mechanism. * @return {Boolean} */ isUpdating: function(){ return !!this._isUpdating; }, getOriginEdgePosition: function(){ return this.originEdgePosition; }, /** * Returns the edgeposition. * * @return {String} "starttop", "startmiddle", "startbottom", * "midtop", "midbottom", "endtop", "endbottom" or null */ getEdgePosition: function(){ return this.edgePosition || null; }, /** * Set the edge position, must be one of the valid * edge positions (see getEdgePosition). * Removes the reference point and the absolute position as well. * * @param {Object} position */ setEdgePosition: function(position){ if (["starttop", "startmiddle", "startbottom", "midtop", "midbottom", "endtop", "endbottom"].include(position)){ this.edgePosition = position; delete this.position; delete this._referencePoint; } else { delete this.edgePosition; } }, /** * Update the SVG text element. */ update: function(force) { var x = this.x, y = this.y; if (this.position){ x = this.position.x; y = this.position.y; } x = Math.floor(x); y = Math.floor(y); if(this._isChanged || x !== this.oldX || y !== this.oldY || force === true) { if (this.isVisible) { this._isChanged = false; this._isUpdating = true; this.node.setAttributeNS(null, 'x', x); this.node.setAttributeNS(null, 'y', y); this.node.removeAttributeNS(null, "fill-opacity"); //this.node.setAttributeNS(null, 'font-size', this._fontSize); //this.node.setAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'align', this._horizontalAlign + " " + this._verticalAlign); this.oldX = x; this.oldY = y; //set rotation if (!this.position && !this.getReferencePoint()) { if (this._rotate !== undefined) { if (this._rotationPoint) this.node.setAttributeNS(null, 'transform', 'rotate(' + this._rotate + ' ' + Math.floor(this._rotationPoint.x) + ' ' + Math.floor(this._rotationPoint.y) + ')'); else this.node.setAttributeNS(null, 'transform', 'rotate(' + this._rotate + ' ' + Math.floor(x) + ' ' + Math.floor(y) + ')'); } } else { this.node.removeAttributeNS(null, 'transform'); } var textLines = this._text.split("\n"); while (textLines.last() == "") textLines.pop(); if (this.node.ownerDocument) { // Only reset the tspans if the text // has changed or has to be wrapped if (this.fitToElemId || this._textHasChanged){ this.node.textContent = ""; // Remove content textLines.each((function(textLine, index){ var tspan = this.node.ownerDocument.createElementNS(ORYX.CONFIG.NAMESPACE_SVG, 'tspan'); tspan.textContent = textLine.trim(); if (this.fitToElemId) { tspan.setAttributeNS(null, 'x', this.invisibleRenderPoint); tspan.setAttributeNS(null, 'y', this.invisibleRenderPoint); } /* * Chrome's getBBox() method fails, if a text node contains an empty tspan element. * So, we add a whitespace to such a tspan element. */ if(tspan.textContent === "") { tspan.textContent = " "; } //append tspan to text node this.node.appendChild(tspan); }).bind(this)); delete this._textHasChanged; delete this.indices; } //Work around for Mozilla bug 293581 if (this.isVisible && this.fitToElemId) { this.node.setAttributeNS(null, 'visibility', 'hidden'); } if (this.fitToElemId) { window.setTimeout(this._checkFittingToReferencedElem.bind(this), 0); //this._checkFittingToReferencedElem(); } else { window.setTimeout(this._positionText.bind(this), 0); //this._positionText(); } } } else { this.node.textContent = ""; //this.node.setAttributeNS(null, "fill-opacity", "0.2"); } } }, _checkFittingToReferencedElem: function() { try { var tspans = $A(this.node.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'tspan')); //only do this in firefox 3. all other browsers do not support word wrapping!!!!! //if (/Firefox[\/\s](\d+\.\d+)/.test(navigator.userAgent) && new Number(RegExp.$1)>=3) { var newtspans = []; var refNode = this.node.ownerDocument.getElementById(this.fitToElemId); if (refNode) { var refbb = refNode.getBBox(); var fontSize = this.getFontSize(); for (var j = 0; j < tspans.length; j++) { var tspan = tspans[j]; var textLength = this._getRenderedTextLength(tspan, undefined, undefined, fontSize); var refBoxLength = (this._rotate != 0 && this._rotate % 180 != 0 && this._rotate % 90 == 0 ? refbb.height : refbb.width); if (textLength > refBoxLength) { var startIndex = 0; var lastSeperatorIndex = 0; var numOfChars = this.getTrimmedTextLength(tspan.textContent); for (var i = 0; i < numOfChars; i++) { var sslength = this._getRenderedTextLength(tspan, startIndex, i-startIndex, fontSize); if (sslength > refBoxLength - 2) { var newtspan = this.node.ownerDocument.createElementNS(ORYX.CONFIG.NAMESPACE_SVG, 'tspan'); if (lastSeperatorIndex <= startIndex) { lastSeperatorIndex = (i == 0) ? i : i-1; newtspan.textContent = tspan.textContent.slice(startIndex, lastSeperatorIndex).trim(); //lastSeperatorIndex = i; } else { newtspan.textContent = tspan.textContent.slice(startIndex, ++lastSeperatorIndex).trim(); } newtspan.setAttributeNS(null, 'x', this.invisibleRenderPoint); newtspan.setAttributeNS(null, 'y', this.invisibleRenderPoint); //insert tspan to text node //this.node.insertBefore(newtspan, tspan); newtspans.push(newtspan); startIndex = lastSeperatorIndex; } else { var curChar = tspan.textContent.charAt(i); if (curChar == ' ' || curChar == '-' || curChar == "." || curChar == "," || curChar == ";" || curChar == ":") { lastSeperatorIndex = i; } } } tspan.textContent = tspan.textContent.slice(startIndex).trim(); } newtspans.push(tspan); } while (this.node.hasChildNodes()) this.node.removeChild(this.node.childNodes[0]); while (newtspans.length > 0) { this.node.appendChild(newtspans.shift()); } } //} } catch (e) { ORYX.Log.fatal("Error " + e); } window.setTimeout(this._positionText.bind(this), 0); //this._positionText(); }, /** * This is a work around method for Mozilla bug 293581. * Before the method getComputedTextLength works, the text has to be rendered. */ _positionText: function() { try { var tspans = this.node.childNodes; var fontSize = this.getFontSize(this.node); var invalidTSpans = []; var x = this.x, y = this.y; if (this.position){ x = this.position.x; y = this.position.y; } x = Math.floor(x); y = Math.floor(y); var i = 0, indic = []; // Cache indices if the _positionText is called again, before update is called var is =(this.indices || $R(0,tspans.length-1).toArray()); var length = is.length; is.each((function(index){ if ("undefined" == typeof index){ return; } var tspan = tspans[i++]; if(tspan.textContent.trim() === "") { invalidTSpans.push(tspan); } else { //set vertical position var dy = 0; switch (this._verticalAlign) { case 'bottom': dy = -(length - index - 1) * (fontSize); break; case 'middle': dy = -(length / 2.0 - index - 1) * (fontSize); dy -= ORYX.CONFIG.LABEL_LINE_DISTANCE / 2; break; case 'top': dy = index * (fontSize); dy += fontSize; break; } tspan.setAttributeNS(null, 'dy', Math.floor(dy)); tspan.setAttributeNS(null, 'x', x); tspan.setAttributeNS(null, 'y', y); indic.push(index); } }).bind(this)); indic.length = tspans.length; this.indices = this.indices || indic; invalidTSpans.each(function(tspan) { this.node.removeChild(tspan) }.bind(this)); //set horizontal alignment switch (this._horizontalAlign) { case 'left': this.node.setAttributeNS(null, 'text-anchor', 'start'); break; case 'center': this.node.setAttributeNS(null, 'text-anchor', 'middle'); break; case 'right': this.node.setAttributeNS(null, 'text-anchor', 'end'); break; } } catch(e) { //console.log(e); this._isChanged = true; } if(this.isVisible) { this.node.removeAttributeNS(null, 'visibility'); } // Finished delete this._isUpdating; // Raise change event (this.changeCallbacks||[]).each(function(fn){ fn.apply(fn); }) }, /** * Returns the text length of the text content of an SVG tspan element. * For all browsers but Firefox 3 the values are estimated. * @param {TSpanSVGElement} tspan * @param {int} startIndex Optional, for sub strings * @param {int} endIndex Optional, for sub strings */ _getRenderedTextLength: function(tspan, startIndex, endIndex, fontSize) { //if (/Firefox[\/\s](\d+\.\d+)/.test(navigator.userAgent) && new Number(RegExp.$1) >= 3) { if(startIndex === undefined) { //test string: abcdefghijklmnopqrstuvwxyz????????????????,.-#+ 1234567890?????ABCDEFGHIJKLMNOPQRSTUVWXYZ;:_'*???????????????!"????$%&/()=?[]{}|<>'~????`\^?????????@????????????????? // for(var i = 0; i < tspan.textContent.length; i++) { // console.log(tspan.textContent.charAt(i), tspan.getSubStringLength(i,1), this._estimateCharacterWidth(tspan.textContent.charAt(i))*(fontSize/14.0)); // } return tspan.getComputedTextLength(); } else { return tspan.getSubStringLength(startIndex, endIndex); } /*} else { if(startIndex === undefined) { return this._estimateTextWidth(tspan.textContent, fontSize); } else { return this._estimateTextWidth(tspan.textContent.substr(startIndex, endIndex).trim(), fontSize); } }*/ }, /** * Estimates the text width for a string. * Used for word wrapping in all browser but FF3. * @param {Object} text */ _estimateTextWidth: function(text, fontSize) { var sum = 0.0; for(var i = 0; i < text.length; i++) { sum += this._estimateCharacterWidth(text.charAt(i)); } return sum*(fontSize/14.0); }, /** * Estimates the width of a single character for font size 14. * Used for word wrapping in all browser but FF3. * @param {Object} character */ _estimateCharacterWidth: function(character) { for(var i = 0; i < this._characterSets.length; i++) { if(this._characterSets[i].indexOf(character) >= 0) { return this._characterSetValues[i]; } } return 9; }, getReferencedElementWidth: function() { var refNode = this.node.ownerDocument.getElementById(this.fitToElemId); if(refNode) { var refbb = refNode.getBBox(); if(refbb) { return (this._rotate != 0 && this._rotate % 180 != 0 && this._rotate % 90 == 0 ? refbb.height : refbb.width); } } return undefined; }, /** * If no parameter is provided, this method returns the current text. * @param text {String} Optional. Replaces the old text with this one. */ text: function() { switch (arguments.length) { case 0: return this._text break; case 1: var oldText = this._text; if(arguments[0]) { // Filter out multiple spaces to fix issue in chrome for line-wrapping this._text = arguments[0].toString(); if(this._text != null && this._text != undefined) { this._text = this._text.replace(/ {2,}/g,' '); } } else { this._text = ""; } if(oldText !== this._text) { this._isChanged = true; this._textHasChanged = true; } break; default: //TODO error break; } }, getOriginVerticalAlign: function(){ return this._originVerticalAlign; }, verticalAlign: function() { switch(arguments.length) { case 0: return this._verticalAlign; case 1: if(['top', 'middle', 'bottom'].member(arguments[0])) { var oldValue = this._verticalAlign; this._verticalAlign = arguments[0]; if(this._verticalAlign !== oldValue) { this._isChanged = true; } } break; default: //TODO error break; } }, getOriginHorizontalAlign: function(){ return this._originHorizontalAlign; }, horizontalAlign: function() { switch(arguments.length) { case 0: return this._horizontalAlign; case 1: if(['left', 'center', 'right'].member(arguments[0])) { var oldValue = this._horizontalAlign; this._horizontalAlign = arguments[0]; if(this._horizontalAlign !== oldValue) { this._isChanged = true; } } break; default: //TODO error break; } }, rotate: function() { switch(arguments.length) { case 0: return this._rotate; case 1: if (this._rotate != arguments[0]) { this._rotate = arguments[0]; this._rotationPoint = undefined; this._isChanged = true; } case 2: if(this._rotate != arguments[0] || !this._rotationPoint || this._rotationPoint.x != arguments[1].x || this._rotationPoint.y != arguments[1].y) { this._rotate = arguments[0]; this._rotationPoint = arguments[1]; this._isChanged = true; } } }, hide: function() { if(this.isVisible) { this.isVisible = false; this._isChanged = true; } }, show: function() { if(!this.isVisible) { this.isVisible = true; this._isChanged = true; // Since text is removed from the tspan when "hidden", mark // the text as changed to get it redrawn this._textHasChanged = true; } }, /** * iterates parent nodes till it finds a SVG font-size * attribute. * @param {SVGElement} node */ getInheritedFontSize: function(node) { if(!node || !node.getAttributeNS) return; var attr = node.getAttributeNS(null, "font-size"); if(attr) { return parseFloat(attr); } else if(!ORYX.Editor.checkClassType(node, SVGSVGElement)) { return this.getInheritedFontSize(node.parentNode); } }, getFontSize: function(node) { var tspans = this.node.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'tspan'); //trying to get an inherited font-size attribute //NO CSS CONSIDERED! var fontSize = this.getInheritedFontSize(this.node); if (!fontSize) { //because this only works in firefox 3, all other browser use the default line height if (tspans[0] && /Firefox[\/\s](\d+\.\d+)/.test(navigator.userAgent) && new Number(RegExp.$1) >= 3) { fontSize = tspans[0].getExtentOfChar(0).height; } else { fontSize = ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT; } //handling of unsupported method in webkit if (fontSize <= 0) { fontSize = ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT; } } if(fontSize) this.node.setAttribute("oryx:fontSize", fontSize); return fontSize; }, /** * Get trimmed text length for use with * getExtentOfChar and getSubStringLength. * @param {String} text */ getTrimmedTextLength: function(text) { text = text.strip().gsub(' ', ' '); var oldLength; do { oldLength = text.length; text = text.gsub(' ', ' '); } while (oldLength > text.length); return text.length; }, /** * Returns the offset from * edge to the label which is * positioned under the edge * @return {int} */ getOffsetBottom: function(){ return this.offsetBottom; }, /** * Returns the offset from * edge to the label which is * positioned over the edge * @return {int} */ getOffsetTop: function(){ return this.offsetTop; }, /** * * @param {Object} obj */ deserialize: function(obj, shape){ if (obj && "undefined" != typeof obj.x && "undefined" != typeof obj.y){ this.setPosition({x:obj.x, y:obj.y}); if ("undefined" != typeof obj.distance){ var from = shape.dockers[obj.from]; var to = shape.dockers[obj.to]; if (from && to){ this.setReferencePoint({ dirty : true, distance : obj.distance, intersection : {x: obj.x, y: obj.y}, orientation : obj.orientation, segment: { from: from, fromIndex: obj.from, fromPosition: from.bounds.center(), to: to, toIndex: obj.to, toPosition: to.bounds.center() } }) } } if (obj.left) this.anchorLeft = true; if (obj.right) this.anchorRight = true; if (obj.top) this.anchorTop = true; if (obj.bottom) this.anchorBottom = true; if (obj.valign) this.verticalAlign(obj.valign); if (obj.align) this.horizontalAlign(obj.align); } else if (obj && "undefined" != typeof obj.edge){ this.setEdgePosition(obj.edge); } }, /** * * @return {Object} */ serialize: function(){ // On edge position if (this.getEdgePosition()){ if (this.getOriginEdgePosition() !== this.getEdgePosition()){ return {edge: this.getEdgePosition()}; } else { return null; } } // On self defined position if (this.position){ var pos = {x: this.position.x, y: this.position.y}; if (this.isAnchorLeft() && this.isAnchorLeft() !== this.isOriginAnchorLeft()){ pos.left = true; } if (this.isAnchorRight() && this.isAnchorRight() !== this.isOriginAnchorRight()){ pos.right = true; } if (this.isAnchorTop() && this.isAnchorTop() !== this.isOriginAnchorTop()){ pos.top = true; } if (this.isAnchorBottom() && this.isAnchorBottom() !== this.isOriginAnchorBottom()){ pos.bottom = true; } if (this.getOriginVerticalAlign() !== this.verticalAlign()){ pos.valign = this.verticalAlign(); } if (this.getOriginHorizontalAlign() !== this.horizontalAlign()){ pos.align = this.horizontalAlign(); } return pos; } // On reference point which is interesting for edges if (this.getReferencePoint()){ var ref = this.getReferencePoint(); return { distance : ref.distance, x : ref.intersection.x, y : ref.intersection.y, from : ref.segment.fromIndex, to : ref.segment.toIndex, orientation : ref.orientation, valign : this.verticalAlign(), align : this.horizontalAlign() } } return null; }, toString: function() { return "Label " + this.id } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.Math) {ORYX.Core.Math = {};} /** * Calculate the middle point between two given points * @param {x:double, y:double} point1 * @param {x:double, y:double} point2 * @return the middle point */ ORYX.Core.Math.midPoint = function(point1, point2) { return { x: (point1.x + point2.x) / 2.0, y: (point1.y + point2.y) / 2.0 } } /** * Returns a TRUE if the point is over a line (defined by * point1 and point 2). In Addition a threshold can be set, * which defines the weight of those line. * * @param {int} pointX - Point X * @param {int} pointY - Point Y * @param {int} lPoint1X - Line first Point X * @param {int} lPoint1Y - Line first Point Y * @param {int} lPoint2X - Line second Point X * @param {int} lPoint2Y - Line second Point y * @param {int} offset {optional} - maximal distance to line * @class ORYX.Core.Math.prototype */ ORYX.Core.Math.isPointInLine = function (pointX, pointY, lPoint1X, lPoint1Y, lPoint2X, lPoint2Y, offset) { offset = offset ? Math.abs(offset) : 1; // Check if the edge is vertical if(Math.abs(lPoint1X-lPoint2X)<=offset && Math.abs(pointX-lPoint1X)<=offset && pointY-Math.max(lPoint1Y, lPoint2Y)<=offset && Math.min(lPoint1Y, lPoint2Y)-pointY<=offset) { return true } // Check if the edge is horizontal if(Math.abs(lPoint1Y-lPoint2Y)<=offset && Math.abs(pointY-lPoint1Y)<=offset && pointX-Math.max(lPoint1X, lPoint2X)<=offset && Math.min(lPoint1X, lPoint2X)-pointX<=offset) { return true } if(pointX > Math.max(lPoint1X, lPoint2X) || pointX < Math.min(lPoint1X, lPoint2X)) { return false } if(pointY > Math.max(lPoint1Y, lPoint2Y) || pointY < Math.min(lPoint1Y, lPoint2Y)) { return false } var s = (lPoint1Y - lPoint2Y) / (lPoint1X - lPoint2X); return Math.abs(pointY - ((s * pointX) + lPoint1Y - s * lPoint1X)) < offset } /** * Get a boolean if the point is in the polygone * */ ORYX.Core.Math.isPointInEllipse = function (pointX, pointY, cx, cy, rx, ry) { if(cx === undefined || cy === undefined || rx === undefined || ry === undefined) { throw "ORYX.Core.Math.isPointInEllipse needs a ellipse with these properties: x, y, radiusX, radiusY" } var tx = (pointX - cx) / rx; var ty = (pointY - cy) / ry; return tx * tx + ty * ty < 1.0; } /** * Get a boolean if the point is in the polygone * @param {int} pointX * @param {int} pointY * @param {[int]} Cornerpoints of the Polygone (x,y,x,y,...) */ ORYX.Core.Math.isPointInPolygone = function(pointX, pointY, polygone){ if (arguments.length < 3) { throw "ORYX.Core.Math.isPointInPolygone needs two arguments" } var lastIndex = polygone.length-1; if (polygone[0] !== polygone[lastIndex - 1] || polygone[1] !== polygone[lastIndex]) { polygone.push(polygone[0]); polygone.push(polygone[1]); } var crossings = 0; var x1, y1, x2, y2, d; for (var i = 0; i < polygone.length - 3; ) { x1=polygone[i]; y1=polygone[++i]; x2=polygone[++i]; y2=polygone[i+1]; d=(pointY - y1) * (x2 - x1) - (pointX - x1) * (y2 - y1); if ((y1 >= pointY) != (y2 >= pointY)) { crossings += y2 - y1 >= 0 ? d >= 0 : d <= 0; } if (!d && Math.min(x1,x2) <= pointX && pointX <= Math.max(x1,x2) && Math.min(y1,y2) <= pointY && pointY <= Math.max(y1,y2)) { return true; } } return (crossings%2)?true:false; } /** * Calculates the distance between a point and a line. It is also testable, if * the distance orthogonal to the line, matches the segment of the line. * * @param {float} lineP1 * The starting point of the line segment * @param {float} lineP2 * The end point of the line segment * @param {Point} point * The point to calculate the distance to. * @param {boolean} toSegmentOnly * Flag to signal if only the segment of the line shell be evaluated. */ ORYX.Core.Math.distancePointLinie = function( lineP1, lineP2, point, toSegmentOnly) { var intersectionPoint = ORYX.Core.Math.getPointOfIntersectionPointLine(lineP1, lineP2, point, toSegmentOnly); if(!intersectionPoint) { return null; } return ORYX.Core.Math.getDistancePointToPoint(point, intersectionPoint); }; /** * Calculates the distance between two points. * * @param {point} point1 * @param {point} point2 */ ORYX.Core.Math.getDistancePointToPoint = function(point1, point2) { return Math.sqrt(Math.pow(point1.x - point2.x, 2) + Math.pow(point1.y - point2.y, 2)); }; /** * Calculates the relative distance of a point which is between two other points. * * @param {point} between1 * @param {point} between2 * @param {point} point */ ORYX.Core.Math.getDistanceBetweenTwoPoints = function(between1, between2, point) { return ORYX.Core.Math.getDistancePointToPoint(point, between1) / ORYX.Core.Math.getDistancePointToPoint(between1, between2); }; /** * Returns true, if the point is of the left hand * side of the regarding the line. * * @param {point} lineP1 Line first point * @param {point} lineP2 Line second point * @param {point} point */ ORYX.Core.Math.pointIsLeftOfLine = function(lineP1, lineP2, point){ var vec1 = ORYX.Core.Math.getVector(lineP1, lineP2); var vec2 = ORYX.Core.Math.getVector(lineP1, point); // if the cross produkt is more than 0 return ((vec1.x*vec2.y) - (vec2.x*vec1.y)) > 0 }; /** * Calculates the a point which is relatively between two other points. * * @param {point} point1 * @param {point} point2 * @param {number} relative Relative which is between 0 and 1 */ ORYX.Core.Math.getPointBetweenTwoPoints = function(point1, point2, relative) { relative = Math.max(Math.min(relative || 0, 1), 0); if (relative === 0){ return point1; } else if (relative === 1){ return point2; } return { x: point1.x + ((point2.x - point1.x) * relative), y: point1.y + ((point2.y - point1.y) * relative) } }; /** * Returns the vector of the both points * * @param {point} point1 * @param {point} point2 */ ORYX.Core.Math.getVector = function(point1, point2){ return { x: point2.x - point1.x, y: point2.y - point1.y } } /** * Returns the an identity vector of the given vector, * which has the length ot one. * * @param {point} vector * or * @param {point} point1 * @param {point} point2 */ ORYX.Core.Math.getIdentityVector = function(vector){ if (arguments.length == 2){ vector = ORYX.Core.Math.getVector(arguments[0], arguments[1]); } var length = Math.sqrt((vector.x*vector.x)+(vector.y*vector.y)) return { x: vector.x / (length || 1), y: vector.y / (length || 1) } } ORYX.Core.Math.getOrthogonalIdentityVector = function(point1, point2){ var vec = arguments.length == 1 ? point1 : ORYX.Core.Math.getIdentityVector(point1, point2); return { x: vec.y, y: -vec.x } } /** * Returns the intersection point of a line and a point that defines a line * orthogonal to the given line. * * @param {float} lineP1 * The starting point of the line segment * @param {float} lineP2 * The end point of the line segment * @param {Point} point * The point to calculate the distance to. * @param {boolean} onSegmentOnly * Flag to signal if only the segment of the line shell be evaluated. */ ORYX.Core.Math.getPointOfIntersectionPointLine = function( lineP1, lineP2, point, onSegmentOnly) { /* * [P3 - P1 - u(P2 - P1)] dot (P2 - P1) = 0 * u =((x3-x1)(x2-x1)+(y3-y1)(y2-y1))/(p2-p1)?? */ var denominator = Math.pow(lineP2.x - lineP1.x, 2) + Math.pow(lineP2.y - lineP1.y, 2); if(denominator == 0) { return undefined; } var u = ((point.x - lineP1.x) * (lineP2.x - lineP1.x) + (point.y - lineP1.y) * (lineP2.y - lineP1.y)) / denominator; if(onSegmentOnly) { if (!(0 <= u && u <= 1)) { return undefined; } } pointOfIntersection = new Object(); pointOfIntersection.x = lineP1.x + u * (lineP2.x - lineP1.x); pointOfIntersection.y = lineP1.y + u * (lineP2.y - lineP1.y); return pointOfIntersection; }; /** * Translated the point with the given matrix. * @param {Point} point * @param {Matrix} matrix * @return {Object} Includes x, y */ ORYX.Core.Math.getTranslatedPoint = function(point, matrix){ var x = matrix.a*point.x+matrix.c*point.y+matrix.e*1; var y = matrix.b*point.x+matrix.d*point.y+matrix.f*1; return {x:x, y:y} } /** * Returns the inverse matrix of the given SVG transformation matrix * @param {SVGTransformationMatrix} matrix * @return {Matrix} */ ORYX.Core.Math.getInverseMatrix = function(matrix){ var det = ORYX.Core.Math.getDeterminant(matrix), m = matrix; // +- -+ // | a c e | // | b d f | // | 0 0 1 | // +- -+ return { a: det * ((m.d*1)-(m.f*0)), b: det * ((m.f*0)-(m.b*1)), c: det * ((m.e*0)-(m.c*1)), d: det * ((m.a*1)-(m.e*0)), e: det * ((m.c*m.f)-(m.e*m.d)), f: det * ((m.e*m.b)-(m.a*m.f)) } } /** * Returns the determinant of the svg transformation matrix * @param {SVGTranformationMatrix} matrix * @return {Number} * */ ORYX.Core.Math.getDeterminant = function(m){ // a11a22a33+a12a23a31+a13a21a32-a13a22a31-a12a21a33-a11a23a32 return (m.a*m.d*1)+(m.c*m.f*0)+(m.e*m.b*0)-(m.e*m.d*0)-(m.c*m.b*1)-(m.a*m.f*0); } /** * Returns the bounding box of the given node. Translates the * origin bounding box with the tranlation matrix. * @param {SVGElement} node * @return {Object} Includes x, y, width, height */ ORYX.Core.Math.getTranslatedBoundingBox = function(node){ var matrix = node.getCTM(); var bb = node.getBBox(); var ul = ORYX.Core.Math.getTranslatedPoint({x:bb.x, y:bb.y}, matrix); var ll = ORYX.Core.Math.getTranslatedPoint({x:bb.x, y:bb.y+bb.height}, matrix); var ur = ORYX.Core.Math.getTranslatedPoint({x:bb.x+bb.width, y:bb.y}, matrix); var lr = ORYX.Core.Math.getTranslatedPoint({x:bb.x+bb.width, y:bb.y+bb.height}, matrix); var minPoint = { x: Math.min(ul.x, ll.x, ur.x, lr.x), y: Math.min(ul.y, ll.y, ur.y, lr.y) } var maxPoint = { x: Math.max(ul.x, ll.x, ur.x, lr.x), y: Math.max(ul.y, ll.y, ur.y, lr.y) } return { x: minPoint.x, y: minPoint.y, width: maxPoint.x - minPoint.x, height: maxPoint.y - minPoint.y } }; /** * Returns the angle of the given line, which is representated by the two points * @param {Point} p1 * @param {Point} p2 * @return {Number} 0 <= x <= 359.99999 */ ORYX.Core.Math.getAngle = function(p1, p2){ if(p1.x == p2.x && p1.y == p2.y) return 0; var angle = Math.asin(Math.sqrt(Math.pow(p1.y-p2.y, 2)) /(Math.sqrt(Math.pow(p2.x-p1.x, 2)+Math.pow(p1.y-p2.y, 2)))) *180/Math.PI; if(p2.x >= p1.x && p2.y <= p1.y) return angle; else if(p2.x < p1.x && p2.y <= p1.y) return 180 - angle; else if(p2.x < p1.x && p2.y > p1.y) return 180 + angle; else return 360 - angle; }; /** * Implementation of the cohen-sutherland algorithm */ new function(){ var RIGHT = 2, TOP = 8, BOTTOM = 4, LEFT = 1; function computeOutCode (x, y, xmin, ymin, xmax, ymax) { var code = 0; if (y > ymax) code |= TOP; else if (y < ymin) code |= BOTTOM; if (x > xmax) code |= RIGHT; else if (x < xmin) code |= LEFT; return code; } /** * Returns TRUE if the rectangle is over the edge and has intersection points or includes it * @param {Object} x1 Point A of the line * @param {Object} y1 * @param {Object} x2 Point B of the line * @param {Object} y2 * @param {Object} xmin Point A of the rectangle * @param {Object} ymin * @param {Object} xmax Point B of the rectangle * @param {Object} ymax */ ORYX.Core.Math.isRectOverLine = function(x1, y1, x2, y2, xmin, ymin, xmax, ymax){ return !!ORYX.Core.Math.clipLineOnRect.apply(ORYX.Core.Math, arguments); } /** * Returns the clipped line on the given rectangle. If there is * no intersection, it will return NULL. * * @param {Object} x1 Point A of the line * @param {Object} y1 * @param {Object} x2 Point B of the line * @param {Object} y2 * @param {Object} xmin Point A of the rectangle * @param {Object} ymin * @param {Object} xmax Point B of the rectangle * @param {Object} ymax */ ORYX.Core.Math.clipLineOnRect = function(x1, y1, x2, y2, xmin, ymin, xmax, ymax){ //Outcodes for P0, P1, and whatever point lies outside the clip rectangle var outcode0, outcode1, outcodeOut, hhh = 0; var accept = false, done = false; //compute outcodes outcode0 = computeOutCode(x1, y1, xmin, ymin, xmax, ymax); outcode1 = computeOutCode(x2, y2, xmin, ymin, xmax, ymax); do { if ((outcode0 | outcode1) == 0 ){ accept = true; done = true; } else if ( (outcode0 & outcode1) > 0 ) { done = true; } else { //failed both tests, so calculate the line segment to clip //from an outside point to an intersection with clip edge var x = 0, y = 0; //At least one endpoint is outside the clip rectangle; pick it. outcodeOut = outcode0 != 0 ? outcode0: outcode1; //Now find the intersection point; //use formulas y = y0 + slope * (x - x0), x = x0 + (1/slope)* (y - y0) if ( (outcodeOut & TOP) > 0 ) { x = x1 + (x2 - x1) * (ymax - y1)/(y2 - y1); y = ymax; } else if ((outcodeOut & BOTTOM) > 0 ) { x = x1 + (x2 - x1) * (ymin - y1)/(y2 - y1); y = ymin; } else if ((outcodeOut & RIGHT)> 0) { y = y1 + (y2 - y1) * (xmax - x1)/(x2 - x1); x = xmax; } else if ((outcodeOut & LEFT) > 0) { y = y1 + (y2 - y1) * (xmin - x1)/(x2 - x1); x = xmin; } //Now we move outside point to intersection point to clip //and get ready for next pass. if (outcodeOut == outcode0) { x1 = x; y1 = y; outcode0 = computeOutCode (x1, y1, xmin, ymin, xmax, ymax); } else { x2 = x; y2 = y; outcode1 = computeOutCode (x2, y2, xmin, ymin, xmax, ymax); } } hhh ++; } while (done != true && hhh < 5000); if(accept) { return {a:{x:x1, y:y1}, b:{x:x2, y:y2}}; } return null; } }(); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespace */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.StencilSet) {ORYX.Core.StencilSet = {};} /** * Class Stencil * uses Prototpye 1.5.0 * uses Inheritance * * This class represents one stencil of a stencil set. */ ORYX.Core.StencilSet.Stencil = { /** * Constructor */ construct: function(jsonStencil, namespace, source, stencilSet, propertyPackages, defaultPosition) { arguments.callee.$.construct.apply(this, arguments); // super(); // check arguments and set defaults. if(!jsonStencil) throw "Stencilset seems corrupt."; if(!namespace) throw "Stencil does not provide namespace."; if(!source) throw "Stencil does not provide SVG source."; if(!stencilSet) throw "Fatal internal error loading stencilset."; //if(!propertyPackages) throw "Fatal internal error loading stencilset."; this._source = source; this._jsonStencil = jsonStencil; this._stencilSet = stencilSet; this._namespace = namespace; this._propertyPackages = propertyPackages; if(defaultPosition && !this._jsonStencil.position) this._jsonStencil.position = defaultPosition; this._view; this._properties = new Hash(); // check stencil consistency and set defaults. /*with(this._jsonStencil) { if(!type) throw "Stencil does not provide type."; if((type != "edge") && (type != "node")) throw "Stencil type must be 'edge' or 'node'."; if(!id || id == "") throw "Stencil does not provide valid id."; if(!title || title == "") throw "Stencil does not provide title"; if(!description) { description = ""; }; if(!groups) { groups = []; } if(!roles) { roles = []; } // add id of stencil to its roles roles.push(id); }*/ //init all JSON values if(!this._jsonStencil.type || !(this._jsonStencil.type === "edge" || this._jsonStencil.type === "node")) { throw "ORYX.Core.StencilSet.Stencil(construct): Type is not defined."; } if(!this._jsonStencil.id || this._jsonStencil.id === "") { throw "ORYX.Core.StencilSet.Stencil(construct): Id is not defined."; } if(!this._jsonStencil.title || this._jsonStencil.title === "") { throw "ORYX.Core.StencilSet.Stencil(construct): Title is not defined."; } if(!this._jsonStencil.description) { this._jsonStencil.description = ""; }; if(!this._jsonStencil.groups) { this._jsonStencil.groups = []; } if(!this._jsonStencil.roles) { this._jsonStencil.roles = []; } //add id of stencil to its roles this._jsonStencil.roles.push(this._jsonStencil.id); //prepend namespace to each role this._jsonStencil.roles.each((function(role, index) { this._jsonStencil.roles[index] = namespace + role; }).bind(this)); //delete duplicate roles this._jsonStencil.roles = this._jsonStencil.roles.uniq(); //make id unique by prepending namespace of stencil set this._jsonStencil.id = namespace + this._jsonStencil.id; this.postProcessProperties(); // init serialize callback if(!this._jsonStencil.serialize) { this._jsonStencil.serialize = {}; //this._jsonStencil.serialize = function(shape, data) { return data;}; } // init deserialize callback if(!this._jsonStencil.deserialize) { this._jsonStencil.deserialize = {}; //this._jsonStencil.deserialize = function(shape, data) { return data;}; } // init layout callback if(!this._jsonStencil.layout) { this._jsonStencil.layout = [] //this._jsonStencil.layout = function() {return true;} } //TODO does not work correctly, if the url does not exist //How to guarantee that the view is loaded correctly before leaving the constructor??? var url = source + "view/" + jsonStencil.view; // override content type when this is webkit. if(this._jsonStencil.view.trim().match(/ 0); }, getRepositoryEntries: function() { return (this._jsonStencil.repositoryEntries) ? $A(this._jsonStencil.repositoryEntries) : $A([]); }, properties: function() { return this._properties.values(); }, property: function(id) { return this._properties[id]; }, roles: function() { return this._jsonStencil.roles; }, defaultAlign: function() { if(!this._jsonStencil.defaultAlign) return "east"; return this._jsonStencil.defaultAlign; }, serialize: function(shape, data) { return this._jsonStencil.serialize; //return this._jsonStencil.serialize(shape, data); }, deserialize: function(shape, data) { return this._jsonStencil.deserialize; //return this._jsonStencil.deserialize(shape, data); }, // in which case is targetShape used? // layout: function(shape, targetShape) { // return this._jsonStencil.layout(shape, targetShape); // }, // layout property to store events for layouting in plugins layout: function(shape) { return this._jsonStencil.layout }, addProperty: function(property, namespace) { if(property && namespace) { var oProp = new ORYX.Core.StencilSet.Property(property, namespace, this); this._properties[oProp.prefix() + "-" + oProp.id()] = oProp; } }, removeProperty: function(propertyId) { if(propertyId) { var oProp = this._properties.values().find(function(prop) { return (propertyId == prop.id()); }); if(oProp) delete this._properties[oProp.prefix() + "-" + oProp.id()]; } }, _loadSVGOnSuccess: function(result) { var xml = null; /* * We want to get a dom object for the requested file. Unfortunately, * safari has some issues here. this is meant as a fallback for all * browsers that don't recognize the svg mimetype as XML but support * data: urls on Ajax calls. */ // responseXML != undefined. // if(!(result.responseXML)) // get the dom by data: url. // xml = _evenMoreEvilHack(result.responseText, 'text/xml'); // else // get it the usual way. xml = result.responseXML; //check if result is a SVG document if( ORYX.Editor.checkClassType( xml.documentElement, SVGSVGElement )) { this._view = xml.documentElement; } else { throw "ORYX.Core.StencilSet.Stencil(_loadSVGOnSuccess): The response is not a SVG document." } }, _loadSVGOnFailure: function(result) { throw "ORYX.Core.StencilSet.Stencil(_loadSVGOnFailure): Loading SVG document failed." }, toString: function() { return "Stencil " + this.title() + " (" + this.id() + ")"; } }; ORYX.Core.StencilSet.Stencil = Clazz.extend(ORYX.Core.StencilSet.Stencil); /** * Transform a string into an xml document, the Safari way, as long as * the nightlies are broken. Even more evil version. * @param {Object} str * @param {Object} contentType */ function _evenMoreEvilHack(str, contentType) { /* * This even more evil hack was taken from * http://web-graphics.com/mtarchive/001606.php#chatty004999 */ if (window.ActiveXObject) { var d = new ActiveXObject("MSXML.DomDocument"); d.loadXML(str); return d; } else if (window.XMLHttpRequest) { var req = new XMLHttpRequest; req.open("GET", "data:" + (contentType || "application/xml") + ";charset=utf-8," + encodeURIComponent(str), false); if (req.overrideMimeType) { req.overrideMimeType(contentType); } req.send(null); return req.responseXML; } } /** * Transform a string into an xml document, the Safari way, as long as * the nightlies are broken. * @param {Object} result the xml document object. */ function _evilSafariHack(serializedXML) { /* * The Dave way. Taken from: * http://web-graphics.com/mtarchive/001606.php * * There is another possibility to parse XML in Safari, by implementing * the DOMParser in javascript. However, in the latest nightlies of * WebKit, DOMParser is already available, but still buggy. So, this is * the best compromise for the time being. */ var xml = serializedXML; var url = "data:text/xml;charset=utf-8," + encodeURIComponent(xml); var dom = null; // your standard AJAX stuff var req = new XMLHttpRequest(); req.open("GET", url); req.onload = function() { dom = req.responseXML; } req.send(null); return dom; } /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespace */ if (!ORYX) { var ORYX = {}; } if (!ORYX.Core) { ORYX.Core = {}; } if (!ORYX.Core.StencilSet) { ORYX.Core.StencilSet = {}; } /** * Class Property * uses Prototpye 1.5.0 * uses Inheritance */ ORYX.Core.StencilSet.Property = Clazz.extend({ /** * Constructor */ construct: function(jsonProp, namespace, stencil){ arguments.callee.$.construct.apply(this, arguments); this._jsonProp = jsonProp || ORYX.Log.error("Parameter jsonProp is not defined."); this._namespace = namespace || ORYX.Log.error("Parameter namespace is not defined."); this._stencil = stencil || ORYX.Log.error("Parameter stencil is not defined."); this._items = {}; this._complexItems = {}; // Flag to indicate whether or not the property should be hidden // This can be for example when the stencil set is upgraded, but the model // has a value for that specific property filled in which we still want to show. // If the value is missing, the property can simply be not shown. this._hidden = false; jsonProp.id = jsonProp.id || ORYX.Log.error("ORYX.Core.StencilSet.Property(construct): Id is not defined."); jsonProp.id = jsonProp.id.toLowerCase(); if (!jsonProp.type) { ORYX.Log.info("Type is not defined for stencil '%0', id '%1'. Falling back to 'String'.", stencil, jsonProp.id); jsonProp.type = "string"; } else { jsonProp.type = jsonProp.type.toLowerCase(); } jsonProp.prefix = jsonProp.prefix || "oryx"; jsonProp.title = jsonProp.title || ""; jsonProp.value = jsonProp.value || ""; jsonProp.description = jsonProp.description || ""; jsonProp.readonly = jsonProp.readonly || false; jsonProp.optional = jsonProp.optional !== false; //init refToView if (this._jsonProp.refToView) { if (!(this._jsonProp.refToView instanceof Array)) { this._jsonProp.refToView = [this._jsonProp.refToView]; } } else { this._jsonProp.refToView = []; } var globalMin = this.getMinForType(jsonProp.type); if (jsonProp.min === undefined || jsonProp.min === null) { jsonProp.min =globalMin; } else if (jsonProp.min < globalMin) { jsonProp.min = globalMin; } var globalMax = this.getMaxForType(jsonProp.type); if (jsonProp.max === undefined || jsonProp.max === null) { jsonProp.max = globalMax; } else if (jsonProp.max > globalMax) { jsonProp.min = globalMax; } if (!jsonProp.fillOpacity) { jsonProp.fillOpacity = false; } if ("number" != typeof jsonProp.lightness) { jsonProp.lightness = 1; } else { jsonProp.lightness = Math.max(0, Math.min(1, jsonProp.lightness)); } if (!jsonProp.strokeOpacity) { jsonProp.strokeOpacity = false; } if (jsonProp.length === undefined || jsonProp.length === null) { jsonProp.length = Number.MAX_VALUE; } if (!jsonProp.wrapLines) { jsonProp.wrapLines = false; } if (!jsonProp.dateFormat) { jsonProp.dateFormat = ORYX.I18N.PropertyWindow.dateFormat || "m/d/y"; } if (!jsonProp.fill) { jsonProp.fill = false; } if (!jsonProp.stroke) { jsonProp.stroke = false; } if(!jsonProp.inverseBoolean) { jsonProp.inverseBoolean = false; } if(!jsonProp.directlyEditable && jsonProp.directlyEditable != false) { jsonProp.directlyEditable = true; } if(jsonProp.visible !== false) { jsonProp.visible = true; } if(jsonProp.isList !== true) { jsonProp.isList = false; if(!jsonProp.list || !(jsonProp.list instanceof Array)) { jsonProp.list = []; } } if(!jsonProp.category) { if (jsonProp.popular) { jsonProp.category = "popular"; } else { jsonProp.category = "others"; } } if(!jsonProp.alwaysAppearInMultiselect) { jsonProp.alwaysAppearInMultiselect = false; } if (jsonProp.type === ORYX.CONFIG.TYPE_CHOICE) { if (jsonProp.items && jsonProp.items instanceof Array) { jsonProp.items.each((function(jsonItem){ // why is the item's value used as the key??? this._items[jsonItem.value.toLowerCase()] = new ORYX.Core.StencilSet.PropertyItem(jsonItem, namespace, this); }).bind(this)); } else { throw "ORYX.Core.StencilSet.Property(construct): No property items defined." } // extended by Kerstin (start) } else if (jsonProp.type === ORYX.CONFIG.TYPE_COMPLEX || jsonProp.type == ORYX.CONFIG.TYPE_MULTIPLECOMPLEX) { if (jsonProp.complexItems && jsonProp.complexItems instanceof Array) { jsonProp.complexItems.each((function(jsonComplexItem){ this._complexItems[jsonComplexItem.id.toLowerCase()] = new ORYX.Core.StencilSet.ComplexPropertyItem(jsonComplexItem, namespace, this); }).bind(this)); } } // extended by Kerstin (end) }, getMinForType : function(type) { if (type.toLowerCase() == ORYX.CONFIG.TYPE_INTEGER) { return -Math.pow(2,31) } else { return -Number.MAX_VALUE+1; } }, getMaxForType : function(type) { if (type.toLowerCase() == ORYX.CONFIG.TYPE_INTEGER) { return Math.pow(2,31)-1 } else { return Number.MAX_VALUE; } }, /** * @param {ORYX.Core.StencilSet.Property} property * @return {Boolean} True, if property has the same namespace and id. */ equals: function(property){ return (this._namespace === property.namespace() && this.id() === property.id()) ? true : false; }, namespace: function(){ return this._namespace; }, stencil: function(){ return this._stencil; }, id: function(){ return this._jsonProp.id; }, prefix: function(){ return this._jsonProp.prefix; }, type: function(){ return this._jsonProp.type; }, inverseBoolean: function() { return this._jsonProp.inverseBoolean; }, category: function() { return this._jsonProp.category; }, setCategory: function(value) { this._jsonProp.category = value; }, directlyEditable: function() { return this._jsonProp.directlyEditable; }, visible: function() { return this._jsonProp.visible; }, title: function(){ return ORYX.Core.StencilSet.getTranslation(this._jsonProp, "title"); }, value: function(){ return this._jsonProp.value; }, readonly: function(){ return this._jsonProp.readonly; }, optional: function(){ return this._jsonProp.optional; }, description: function(){ return ORYX.Core.StencilSet.getTranslation(this._jsonProp, "description"); }, /** * An optional link to a SVG element so that the property affects the * graphical representation of the stencil. */ refToView: function(){ return this._jsonProp.refToView; }, /** * If type is integer or float, min is the lower bounds of value. */ min: function(){ return this._jsonProp.min; }, /** * If type ist integer or float, max is the upper bounds of value. */ max: function(){ return this._jsonProp.max; }, /** * If type is float, this method returns if the fill-opacity property should * be set. * @return {Boolean} */ fillOpacity: function(){ return this._jsonProp.fillOpacity; }, /** * If type is float, this method returns if the stroke-opacity property should * be set. * @return {Boolean} */ strokeOpacity: function(){ return this._jsonProp.strokeOpacity; }, /** * If type is string or richtext, length is the maximum length of the text. * TODO how long can a string be. */ length: function(){ return this._jsonProp.length ? this._jsonProp.length : Number.MAX_VALUE; }, wrapLines: function(){ return this._jsonProp.wrapLines; }, /** * If type is date, dateFormat specifies the format of the date. The format * specification of the ext library is used: * * Format Output Description * ------ ---------- -------------------------------------------------------------- * d 10 Day of the month, 2 digits with leading zeros * D Wed A textual representation of a day, three letters * j 10 Day of the month without leading zeros * l Wednesday A full textual representation of the day of the week * S th English ordinal day of month suffix, 2 chars (use with j) * w 3 Numeric representation of the day of the week * z 9 The julian date, or day of the year (0-365) * W 01 ISO-8601 2-digit week number of year, weeks starting on Monday (00-52) * F January A full textual representation of the month * m 01 Numeric representation of a month, with leading zeros * M Jan Month name abbreviation, three letters * n 1 Numeric representation of a month, without leading zeros * t 31 Number of days in the given month * L 0 Whether its a leap year (1 if it is a leap year, else 0) * Y 2007 A full numeric representation of a year, 4 digits * y 07 A two digit representation of a year * a pm Lowercase Ante meridiem and Post meridiem * A PM Uppercase Ante meridiem and Post meridiem * g 3 12-hour format of an hour without leading zeros * G 15 24-hour format of an hour without leading zeros * h 03 12-hour format of an hour with leading zeros * H 15 24-hour format of an hour with leading zeros * i 05 Minutes with leading zeros * s 01 Seconds, with leading zeros * O -0600 Difference to Greenwich time (GMT) in hours * T CST Timezone setting of the machine running the code * Z -21600 Timezone offset in seconds (negative if west of UTC, positive if east) * * Example: * F j, Y, g:i a -> January 10, 2007, 3:05 pm */ dateFormat: function(){ return this._jsonProp.dateFormat; }, /** * If type is color, this method returns if the fill property should * be set. * @return {Boolean} */ fill: function(){ return this._jsonProp.fill; }, /** * Lightness defines the satiation of the color * 0 is the pure color * 1 is white * @return {Integer} lightness */ lightness: function(){ return this._jsonProp.lightness; }, /** * If type is color, this method returns if the stroke property should * be set. * @return {Boolean} */ stroke: function(){ return this._jsonProp.stroke; }, /** * If type is choice, items is a hash map with all alternative values * (PropertyItem objects) with id as keys. */ items: function(){ return $H(this._items).values(); }, item: function(value){ if (value) { return this._items[value.toLowerCase()]; } else { return null; } }, toString: function(){ return "Property " + this.title() + " (" + this.id() + ")"; }, complexItems: function(){ return $H(this._complexItems).values(); }, complexItem: function(id){ if(id) { return this._complexItems[id.toLowerCase()]; } else { return null; } }, complexAttributeToView: function(){ return this._jsonProp.complexAttributeToView || ""; }, isList: function() { return !!this._jsonProp.isList; }, getListItems: function() { return this._jsonProp.list; }, /** * If type is glossary link, the * type of category can be defined where * the link only can go to. * @return {String} The glossary category id */ linkableType: function(){ return this._jsonProp.linkableType || ""; }, alwaysAppearInMultiselect : function() { return this._jsonProp.alwaysAppearInMultiselect; }, popular: function() { return this._jsonProp.popular || false; }, setPopular: function() { this._jsonProp.popular = true; }, hide: function() { this._hidden = true; }, isHidden: function() { return this._hidden; } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespace */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.StencilSet) {ORYX.Core.StencilSet = {};} /** * Class Stencil * uses Prototpye 1.5.0 * uses Inheritance */ ORYX.Core.StencilSet.PropertyItem = Clazz.extend({ /** * Constructor */ construct: function(jsonItem, namespace, property) { arguments.callee.$.construct.apply(this, arguments); if(!jsonItem) { throw "ORYX.Core.StencilSet.PropertyItem(construct): Parameter jsonItem is not defined."; } if(!namespace) { throw "ORYX.Core.StencilSet.PropertyItem(construct): Parameter namespace is not defined."; } if(!property) { throw "ORYX.Core.StencilSet.PropertyItem(construct): Parameter property is not defined."; } this._jsonItem = jsonItem; this._namespace = namespace; this._property = property; //init all values if(!jsonItem.value) { throw "ORYX.Core.StencilSet.PropertyItem(construct): Value is not defined."; } if(this._jsonItem.refToView) { if(!(this._jsonItem.refToView instanceof Array)) { this._jsonItem.refToView = [this._jsonItem.refToView]; } } else { this._jsonItem.refToView = []; } }, /** * @param {ORYX.Core.StencilSet.PropertyItem} item * @return {Boolean} True, if item has the same namespace and id. */ equals: function(item) { return (this.property().equals(item.property()) && this.value() === item.value()); }, namespace: function() { return this._namespace; }, property: function() { return this._property; }, value: function() { return this._jsonItem.value; }, title: function() { return ORYX.Core.StencilSet.getTranslation(this._jsonItem, "title"); }, refToView: function() { return this._jsonItem.refToView; }, icon: function() { return (this._jsonItem.icon) ? this.property().stencil()._source + "icons/" + this._jsonItem.icon : ""; }, toString: function() { return "PropertyItem " + this.property() + " (" + this.value() + ")"; } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.StencilSet) {ORYX.Core.StencilSet = {};} /** * Class Stencil * uses Prototpye 1.5.0 * uses Inheritance */ ORYX.Core.StencilSet.ComplexPropertyItem = Clazz.extend({ /** * Constructor */ construct: function(jsonItem, namespace, property) { arguments.callee.$.construct.apply(this, arguments); if(!jsonItem) { throw "ORYX.Core.StencilSet.ComplexPropertyItem(construct): Parameter jsonItem is not defined."; } if(!namespace) { throw "ORYX.Core.StencilSet.ComplexPropertyItem(construct): Parameter namespace is not defined."; } if(!property) { throw "ORYX.Core.StencilSet.ComplexPropertyItem(construct): Parameter property is not defined."; } this._jsonItem = jsonItem; this._namespace = namespace; this._property = property; this._items = new Hash(); this._complexItems = new Hash(); //init all values if(!jsonItem.name) { throw "ORYX.Core.StencilSet.ComplexPropertyItem(construct): Name is not defined."; } if(!jsonItem.type) { throw "ORYX.Core.StencilSet.ComplexPropertyItem(construct): Type is not defined."; } else { jsonItem.type = jsonItem.type.toLowerCase(); } if(jsonItem.type === ORYX.CONFIG.TYPE_CHOICE) { if(jsonItem.items && jsonItem.items instanceof Array) { jsonItem.items.each((function(item) { this._items[item.value] = new ORYX.Core.StencilSet.PropertyItem(item, namespace, this); }).bind(this)); } else { throw "ORYX.Core.StencilSet.Property(construct): No property items defined." } } else if(jsonItem.type === ORYX.CONFIG.TYPE_COMPLEX) { if(jsonItem.complexItems && jsonItem.complexItems instanceof Array) { jsonItem.complexItems.each((function(complexItem) { this._complexItems[complexItem.id] = new ORYX.Core.StencilSet.ComplexPropertyItem(complexItem, namespace, this); }).bind(this)); } else { throw "ORYX.Core.StencilSet.Property(construct): No property items defined." } } }, /** * @param {ORYX.Core.StencilSet.PropertyItem} item * @return {Boolean} True, if item has the same namespace and id. */ equals: function(item) { return (this.property().equals(item.property()) && this.name() === item.name()); }, namespace: function() { return this._namespace; }, property: function() { return this._property; }, name: function() { return ORYX.Core.StencilSet.getTranslation(this._jsonItem, "name"); }, id: function() { return this._jsonItem.id; }, type: function() { return this._jsonItem.type; }, optional: function() { return this._jsonItem.optional; }, width: function() { return this._jsonItem.width; }, value: function() { return this._jsonItem.value; }, items: function() { return this._items.values(); }, complexItems: function() { return this._complexItems.values(); }, disable: function() { return this._jsonItem.disable; } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.StencilSet) {ORYX.Core.StencilSet = {};} /** * Class Rules uses Prototpye 1.5.0 uses Inheritance * * This class implements the API to check the stencil sets' rules. */ ORYX.Core.StencilSet.Rules = { /** * Constructor */ construct: function() { arguments.callee.$.construct.apply(this, arguments); this._stencilSets = []; this._stencils = []; this._containerStencils = []; this._cachedConnectSET = new Hash(); this._cachedConnectSE = new Hash(); this._cachedConnectTE = new Hash(); this._cachedCardSE = new Hash(); this._cachedCardTE = new Hash(); this._cachedContainPC = new Hash(); this._cachedMorphRS = new Hash(); this._connectionRules = new Hash(); this._cardinalityRules = new Hash(); this._containmentRules = new Hash(); this._morphingRules = new Hash(); this._layoutRules = new Hash(); }, /** * Call this method to initialize the rules for a stencil set and all of its * active extensions. * * @param {Object} * stencilSet */ initializeRules: function(stencilSet) { var existingSS = this._stencilSets.find(function(ss) { return (ss.namespace() == stencilSet.namespace()); }); if (existingSS) { // reinitialize all rules var stencilsets = this._stencilSets.clone(); stencilsets = stencilsets.without(existingSS); stencilsets.push(stencilSet); this._stencilSets = []; this._stencils = []; this._containerStencils = []; this._cachedConnectSET = new Hash(); this._cachedConnectSE = new Hash(); this._cachedConnectTE = new Hash(); this._cachedCardSE = new Hash(); this._cachedCardTE = new Hash(); this._cachedContainPC = new Hash(); this._cachedMorphRS = new Hash(); this._connectionRules = new Hash(); this._cardinalityRules = new Hash(); this._containmentRules = new Hash(); this._morphingRules = new Hash(); this._layoutRules = new Hash(); stencilsets.each(function(ss){ this.initializeRules(ss); }.bind(this)); return; } else { this._stencilSets.push(stencilSet); var jsonRules = new Hash(stencilSet.jsonRules()); var namespace = stencilSet.namespace(); var stencils = stencilSet.stencils(); stencilSet.extensions().values().each(function(extension) { if(extension.rules) { if(extension.rules.connectionRules) jsonRules.connectionRules = jsonRules.connectionRules.concat(extension.rules.connectionRules); if(extension.rules.cardinalityRules) jsonRules.cardinalityRules = jsonRules.cardinalityRules.concat(extension.rules.cardinalityRules); if(extension.rules.containmentRules) jsonRules.containmentRules = jsonRules.containmentRules.concat(extension.rules.containmentRules); if(extension.rules.morphingRules) jsonRules.morphingRules = jsonRules.morphingRules.concat(extension.rules.morphingRules); } if(extension.stencils) stencils = stencils.concat(extension.stencils); }); this._stencils = this._stencils.concat(stencilSet.stencils()); // init connection rules var cr = this._connectionRules; if (jsonRules.connectionRules) { jsonRules.connectionRules.each((function(rules){ if (this._isRoleOfOtherNamespace(rules.role)) { if (!cr[rules.role]) { cr[rules.role] = new Hash(); } } else { if (!cr[namespace + rules.role]) cr[namespace + rules.role] = new Hash(); } rules.connects.each((function(connect){ var toRoles = []; if (connect.to) { if (!(connect.to instanceof Array)) { connect.to = [connect.to]; } connect.to.each((function(to){ if (this._isRoleOfOtherNamespace(to)) { toRoles.push(to); } else { toRoles.push(namespace + to); } }).bind(this)); } var role, from; if (this._isRoleOfOtherNamespace(rules.role)) role = rules.role; else role = namespace + rules.role; if (this._isRoleOfOtherNamespace(connect.from)) from = connect.from; else from = namespace + connect.from; if (!cr[role][from]) cr[role][from] = toRoles; else cr[role][from] = cr[role][from].concat(toRoles); }).bind(this)); }).bind(this)); } // init cardinality rules var cardr = this._cardinalityRules; if (jsonRules.cardinalityRules) { jsonRules.cardinalityRules.each((function(rules){ var cardrKey; if (this._isRoleOfOtherNamespace(rules.role)) { cardrKey = rules.role; } else { cardrKey = namespace + rules.role; } if (!cardr[cardrKey]) { cardr[cardrKey] = {}; for (i in rules) { cardr[cardrKey][i] = rules[i]; } } var oe = new Hash(); if (rules.outgoingEdges) { rules.outgoingEdges.each((function(rule){ if (this._isRoleOfOtherNamespace(rule.role)) { oe[rule.role] = rule; } else { oe[namespace + rule.role] = rule; } }).bind(this)); } cardr[cardrKey].outgoingEdges = oe; var ie = new Hash(); if (rules.incomingEdges) { rules.incomingEdges.each((function(rule){ if (this._isRoleOfOtherNamespace(rule.role)) { ie[rule.role] = rule; } else { ie[namespace + rule.role] = rule; } }).bind(this)); } cardr[cardrKey].incomingEdges = ie; }).bind(this)); } // init containment rules var conr = this._containmentRules; if (jsonRules.containmentRules) { jsonRules.containmentRules.each((function(rules){ var conrKey; if (this._isRoleOfOtherNamespace(rules.role)) { conrKey = rules.role; } else { this._containerStencils.push(namespace + rules.role); conrKey = namespace + rules.role; } if (!conr[conrKey]) { conr[conrKey] = []; } (rules.contains||[]).each((function(containRole){ if (this._isRoleOfOtherNamespace(containRole)) { conr[conrKey].push(containRole); } else { conr[conrKey].push(namespace + containRole); } }).bind(this)); }).bind(this)); } // init morphing rules var morphr = this._morphingRules; if (jsonRules.morphingRules) { jsonRules.morphingRules.each((function(rules){ var morphrKey; if (this._isRoleOfOtherNamespace(rules.role)) { morphrKey = rules.role; } else { morphrKey = namespace + rules.role; } if (!morphr[morphrKey]) { morphr[morphrKey] = []; } if(!rules.preserveBounds) { rules.preserveBounds = false; } rules.baseMorphs.each((function(baseMorphStencilId){ var morphStencil = this._getStencilById(namespace + baseMorphStencilId); if(morphStencil) { morphr[morphrKey].push(morphStencil); } }).bind(this)); }).bind(this)); } // init layouting rules var layoutRules = this._layoutRules; if (jsonRules.layoutRules) { var getDirections = function(o){ return { "edgeRole":o.edgeRole||undefined, "t": o["t"]||1, "r": o["r"]||1, "b": o["b"]||1, "l": o["l"]||1 } } jsonRules.layoutRules.each(function(rules){ var layoutKey; if (this._isRoleOfOtherNamespace(rules.role)) { layoutKey = rules.role; } else { layoutKey = namespace + rules.role; } if (!layoutRules[layoutKey]) { layoutRules[layoutKey] = {}; } if (rules["in"]){ layoutRules[layoutKey]["in"] = getDirections(rules["in"]); } if (rules["ins"]){ layoutRules[layoutKey]["ins"] = (rules["ins"]||[]).map(function(e){ return getDirections(e) }) } if (rules["out"]) { layoutRules[layoutKey]["out"] = getDirections(rules["out"]); } if (rules["outs"]){ layoutRules[layoutKey]["outs"] = (rules["outs"]||[]).map(function(e){ return getDirections(e) }) } }.bind(this)); } } }, _getStencilById: function(id) { return this._stencils.find(function(stencil) { return stencil.id()==id; }); }, _cacheConnect: function(args) { result = this._canConnect(args); if (args.sourceStencil && args.targetStencil) { var source = this._cachedConnectSET[args.sourceStencil.id()]; if(!source) { source = new Hash(); this._cachedConnectSET[args.sourceStencil.id()] = source; } var edge = source[args.edgeStencil.id()]; if(!edge) { edge = new Hash(); source[args.edgeStencil.id()] = edge; } edge[args.targetStencil.id()] = result; } else if (args.sourceStencil) { var source = this._cachedConnectSE[args.sourceStencil.id()]; if(!source) { source = new Hash(); this._cachedConnectSE[args.sourceStencil.id()] = source; } source[args.edgeStencil.id()] = result; } else { var target = this._cachedConnectTE[args.targetStencil.id()]; if(!target) { target = new Hash(); this._cachedConnectTE[args.targetStencil.id()] = target; } target[args.edgeStencil.id()] = result; } return result; }, _cacheCard: function(args) { if(args.sourceStencil) { var source = this._cachedCardSE[args.sourceStencil.id()] if(!source) { source = new Hash(); this._cachedCardSE[args.sourceStencil.id()] = source; } var max = this._getMaximumNumberOfOutgoingEdge(args); if(max == undefined) max = -1; source[args.edgeStencil.id()] = max; } if(args.targetStencil) { var target = this._cachedCardTE[args.targetStencil.id()] if(!target) { target = new Hash(); this._cachedCardTE[args.targetStencil.id()] = target; } var max = this._getMaximumNumberOfIncomingEdge(args); if(max == undefined) max = -1; target[args.edgeStencil.id()] = max; } }, _cacheContain: function(args) { var result = [this._canContain(args), this._getMaximumOccurrence(args.containingStencil, args.containedStencil)] if(result[1] == undefined) result[1] = -1; var children = this._cachedContainPC[args.containingStencil.id()]; if(!children) { children = new Hash(); this._cachedContainPC[args.containingStencil.id()] = children; } children[args.containedStencil.id()] = result; return result; }, /** * Returns all stencils belonging to a morph group. (calculation result is * cached) */ _cacheMorph: function(role) { var morphs = this._cachedMorphRS[role]; if(!morphs) { morphs = []; if(this._morphingRules.keys().include(role)) { morphs = this._stencils.select(function(stencil) { return stencil.roles().include(role); }); } this._cachedMorphRS[role] = morphs; } return morphs; }, /** Begin connection rules' methods */ /** * * @param {Object} * args sourceStencil: ORYX.Core.StencilSet.Stencil | undefined * sourceShape: ORYX.Core.Shape | undefined * * At least sourceStencil or sourceShape has to be specified * * @return {Array} Array of stencils of edges that can be outgoing edges of * the source. */ outgoingEdgeStencils: function(args) { // check arguments if(!args.sourceShape && !args.sourceStencil) { return []; } // init arguments if(args.sourceShape) { args.sourceStencil = args.sourceShape.getStencil(); } var _edges = []; // test each edge, if it can connect to source this._stencils.each((function(stencil) { if(stencil.type() === "edge") { var newArgs = Object.clone(args); newArgs.edgeStencil = stencil; if(this.canConnect(newArgs)) { _edges.push(stencil); } } }).bind(this)); return _edges; }, /** * * @param {Object} * args targetStencil: ORYX.Core.StencilSet.Stencil | undefined * targetShape: ORYX.Core.Shape | undefined * * At least targetStencil or targetShape has to be specified * * @return {Array} Array of stencils of edges that can be incoming edges of * the target. */ incomingEdgeStencils: function(args) { // check arguments if(!args.targetShape && !args.targetStencil) { return []; } // init arguments if(args.targetShape) { args.targetStencil = args.targetShape.getStencil(); } var _edges = []; // test each edge, if it can connect to source this._stencils.each((function(stencil) { if(stencil.type() === "edge") { var newArgs = Object.clone(args); newArgs.edgeStencil = stencil; if(this.canConnect(newArgs)) { _edges.push(stencil); } } }).bind(this)); return _edges; }, /** * * @param {Object} * args edgeStencil: ORYX.Core.StencilSet.Stencil | undefined * edgeShape: ORYX.Core.Edge | undefined targetStencil: * ORYX.Core.StencilSet.Stencil | undefined targetShape: * ORYX.Core.Node | undefined * * At least edgeStencil or edgeShape has to be specified!!! * * @return {Array} Returns an array of stencils that can be source of the * specified edge. */ sourceStencils: function(args) { // check arguments if(!args || !args.edgeShape && !args.edgeStencil) { return []; } // init arguments if(args.targetShape) { args.targetStencil = args.targetShape.getStencil(); } if(args.edgeShape) { args.edgeStencil = args.edgeShape.getStencil(); } var _sources = []; // check each stencil, if it can be a source this._stencils.each((function(stencil) { var newArgs = Object.clone(args); newArgs.sourceStencil = stencil; if(this.canConnect(newArgs)) { _sources.push(stencil); } }).bind(this)); return _sources; }, /** * * @param {Object} * args edgeStencil: ORYX.Core.StencilSet.Stencil | undefined * edgeShape: ORYX.Core.Edge | undefined sourceStencil: * ORYX.Core.StencilSet.Stencil | undefined sourceShape: * ORYX.Core.Node | undefined * * At least edgeStencil or edgeShape has to be specified!!! * * @return {Array} Returns an array of stencils that can be target of the * specified edge. */ targetStencils: function(args) { // check arguments if(!args || !args.edgeShape && !args.edgeStencil) { return []; } // init arguments if(args.sourceShape) { args.sourceStencil = args.sourceShape.getStencil(); } if(args.edgeShape) { args.edgeStencil = args.edgeShape.getStencil(); } var _targets = []; // check stencil, if it can be a target this._stencils.each((function(stencil) { var newArgs = Object.clone(args); newArgs.targetStencil = stencil; if(this.canConnect(newArgs)) { _targets.push(stencil); } }).bind(this)); return _targets; }, /** * * @param {Object} * args edgeStencil: ORYX.Core.StencilSet.Stencil edgeShape: * ORYX.Core.Edge |undefined sourceStencil: * ORYX.Core.StencilSet.Stencil | undefined sourceShape: * ORYX.Core.Node |undefined targetStencil: * ORYX.Core.StencilSet.Stencil | undefined targetShape: * ORYX.Core.Node |undefined * * At least source or target has to be specified!!! * * @return {Boolean} Returns, if the edge can connect source and target. */ canConnect: function(args) { // check arguments if(!args || (!args.sourceShape && !args.sourceStencil && !args.targetShape && !args.targetStencil) || !args.edgeShape && !args.edgeStencil) { return false; } // init arguments if(args.sourceShape) { args.sourceStencil = args.sourceShape.getStencil(); } if(args.targetShape) { args.targetStencil = args.targetShape.getStencil(); } if(args.edgeShape) { args.edgeStencil = args.edgeShape.getStencil(); } var result; if(args.sourceStencil && args.targetStencil) { var source = this._cachedConnectSET[args.sourceStencil.id()]; if(!source) result = this._cacheConnect(args); else { var edge = source[args.edgeStencil.id()]; if(!edge) result = this._cacheConnect(args); else { var target = edge[args.targetStencil.id()]; if(target == undefined) result = this._cacheConnect(args); else result = target; } } } else if (args.sourceStencil) { var source = this._cachedConnectSE[args.sourceStencil.id()]; if(!source) result = this._cacheConnect(args); else { var edge = source[args.edgeStencil.id()]; if(edge == undefined) result = this._cacheConnect(args); else result = edge; } } else { // args.targetStencil var target = this._cachedConnectTE[args.targetStencil.id()]; if(!target) result = this._cacheConnect(args); else { var edge = target[args.edgeStencil.id()]; if(edge == undefined) result = this._cacheConnect(args); else result = edge; } } // check cardinality if (result) { if(args.sourceShape) { var source = this._cachedCardSE[args.sourceStencil.id()]; if(!source) { this._cacheCard(args); source = this._cachedCardSE[args.sourceStencil.id()]; } var max = source[args.edgeStencil.id()]; if(max == undefined) { this._cacheCard(args); } max = source[args.edgeStencil.id()]; if(max != -1) { result = args.sourceShape.getOutgoingShapes().all(function(cs) { if((cs.getStencil().id() === args.edgeStencil.id()) && ((args.edgeShape) ? cs !== args.edgeShape : true)) { max--; return (max > 0) ? true : false; } else { return true; } }); } } if (args.targetShape) { var target = this._cachedCardTE[args.targetStencil.id()]; if(!target) { this._cacheCard(args); target = this._cachedCardTE[args.targetStencil.id()]; } var max = target[args.edgeStencil.id()]; if(max == undefined) { this._cacheCard(args); } max = target[args.edgeStencil.id()]; if(max != -1) { result = args.targetShape.getIncomingShapes().all(function(cs){ if ((cs.getStencil().id() === args.edgeStencil.id()) && ((args.edgeShape) ? cs !== args.edgeShape : true)) { max--; return (max > 0) ? true : false; } else { return true; } }); } } } return result; }, /** * * @param {Object} * args edgeStencil: ORYX.Core.StencilSet.Stencil edgeShape: * ORYX.Core.Edge |undefined sourceStencil: * ORYX.Core.StencilSet.Stencil | undefined sourceShape: * ORYX.Core.Node |undefined targetStencil: * ORYX.Core.StencilSet.Stencil | undefined targetShape: * ORYX.Core.Node |undefined * * At least source or target has to be specified!!! * * @return {Boolean} Returns, if the edge can connect source and target. */ _canConnect: function(args) { // check arguments if(!args || (!args.sourceShape && !args.sourceStencil && !args.targetShape && !args.targetStencil) || !args.edgeShape && !args.edgeStencil) { return false; } // init arguments if(args.sourceShape) { args.sourceStencil = args.sourceShape.getStencil(); } if(args.targetShape) { args.targetStencil = args.targetShape.getStencil(); } if(args.edgeShape) { args.edgeStencil = args.edgeShape.getStencil(); } // 1. check connection rules var resultCR; // get all connection rules for this edge var edgeRules = this._getConnectionRulesOfEdgeStencil(args.edgeStencil); // check connection rules, if the source can be connected to the target // with the specified edge. if(edgeRules.keys().length === 0) { resultCR = false; } else { if(args.sourceStencil) { resultCR = args.sourceStencil.roles().any(function(sourceRole) { var targetRoles = edgeRules[sourceRole]; if(!targetRoles) {return false;} if(args.targetStencil) { return (targetRoles.any(function(targetRole) { return args.targetStencil.roles().member(targetRole); })); } else { return true; } }); } else { // !args.sourceStencil -> there is args.targetStencil resultCR = edgeRules.values().any(function(targetRoles) { return args.targetStencil.roles().any(function(targetRole) { return targetRoles.member(targetRole); }); }); } } return resultCR; }, /** End connection rules' methods */ /** Begin containment rules' methods */ isContainer: function(shape) { return this._containerStencils.member(shape.getStencil().id()); }, /** * * @param {Object} * args containingStencil: ORYX.Core.StencilSet.Stencil * containingShape: ORYX.Core.AbstractShape containedStencil: * ORYX.Core.StencilSet.Stencil containedShape: ORYX.Core.Shape */ canContain: function(args) { if(!args || !args.containingStencil && !args.containingShape || !args.containedStencil && !args.containedShape) { return false; } // init arguments if(args.containedShape) { args.containedStencil = args.containedShape.getStencil(); } if(args.containingShape) { args.containingStencil = args.containingShape.getStencil(); } //if(args.containingStencil.type() == 'edge' || args.containedStencil.type() == 'edge') // return false; if(args.containedStencil.type() == 'edge') return false; var childValues; var parent = this._cachedContainPC[args.containingStencil.id()]; if(!parent) childValues = this._cacheContain(args); else { childValues = parent[args.containedStencil.id()]; if(!childValues) childValues = this._cacheContain(args); } if(!childValues[0]) return false; else if (childValues[1] == -1) return true; else { if(args.containingShape) { var max = childValues[1]; return args.containingShape.getChildShapes(false).all(function(as) { if(as.getStencil().id() === args.containedStencil.id()) { max--; return (max > 0) ? true : false; } else { return true; } }); } else { return true; } } }, /** * * @param {Object} * args containingStencil: ORYX.Core.StencilSet.Stencil * containingShape: ORYX.Core.AbstractShape containedStencil: * ORYX.Core.StencilSet.Stencil containedShape: ORYX.Core.Shape */ _canContain: function(args) { if(!args || !args.containingStencil && !args.containingShape || !args.containedStencil && !args.containedShape) { return false; } // init arguments if(args.containedShape) { args.containedStencil = args.containedShape.getStencil(); } if(args.containingShape) { args.containingStencil = args.containingShape.getStencil(); } // if(args.containingShape) { // if(args.containingShape instanceof ORYX.Core.Edge) { // // edges cannot contain other shapes // return false; // } // } var result; // check containment rules result = args.containingStencil.roles().any((function(role) { var roles = this._containmentRules[role]; if(roles) { return roles.any(function(role) { return args.containedStencil.roles().member(role); }); } else { return false; } }).bind(this)); return result; }, /** End containment rules' methods */ /** Begin morphing rules' methods */ /** * * @param {Object} * args * stencil: ORYX.Core.StencilSet.Stencil | undefined * shape: ORYX.Core.Shape | undefined * * At least stencil or shape has to be specified * * @return {Array} Array of stencils that the passed stencil/shape can be * transformed to (including the current stencil itself) */ morphStencils: function(args) { // check arguments if(!args.stencil && !args.shape) { return []; } // init arguments if(args.shape) { args.stencil = args.shape.getStencil(); } var _morphStencils = []; args.stencil.roles().each(function(role) { this._cacheMorph(role).each(function(stencil) { _morphStencils.push(stencil); }) }.bind(this)); var baseMorphs = this.baseMorphs(); // BaseMorphs should be in the front of the array _morphStencils = _morphStencils.uniq().sort(function(a,b){ return baseMorphs.include(a)&&!baseMorphs.include(b) ? -1 : (baseMorphs.include(b)&&!baseMorphs.include(a) ? 1 : 0)}) return _morphStencils; }, /** * @return {Array} An array of all base morph stencils */ baseMorphs: function() { var _baseMorphs = []; this._morphingRules.each(function(pair) { pair.value.each(function(baseMorph) { _baseMorphs.push(baseMorph); }); }); return _baseMorphs; }, /** * Returns true if there are morphing rules defines * @return {boolean} */ containsMorphingRules: function(){ return this._stencilSets.any(function(ss){ return !!ss.jsonRules().morphingRules}); }, /** * * @param {Object} * args * sourceStencil: * ORYX.Core.StencilSet.Stencil | undefined * sourceShape: * ORYX.Core.Node |undefined * targetStencil: * ORYX.Core.StencilSet.Stencil | undefined * targetShape: * ORYX.Core.Node |undefined * * * @return {Stencil} Returns, the stencil for the connecting edge * or null if connection is not possible */ connectMorph: function(args) { // check arguments if(!args || (!args.sourceShape && !args.sourceStencil && !args.targetShape && !args.targetStencil)) { return false; } // init arguments if(args.sourceShape) { args.sourceStencil = args.sourceShape.getStencil(); } if(args.targetShape) { args.targetStencil = args.targetShape.getStencil(); } var incoming = this.incomingEdgeStencils(args); var outgoing = this.outgoingEdgeStencils(args); var edgeStencils = incoming.select(function(e) { return outgoing.member(e); }); // intersection of sets var baseEdgeStencils = this.baseMorphs().select(function(e) { return edgeStencils.member(e); }); // again: intersection of sets if(baseEdgeStencils.size()>0) return baseEdgeStencils[0]; // return any of the possible base morphs else if(edgeStencils.size()>0) return edgeStencils[0]; // return any of the possible stencils return null; //connection not possible }, /** * Return true if the stencil should be located in the shape menu * @param {ORYX.Core.StencilSet.Stencil} morph * @return {Boolean} Returns true if the morphs in the morph group of the * specified morph shall be displayed in the shape menu */ showInShapeMenu: function(stencil) { return this._stencilSets.any(function(ss){ return ss.jsonRules().morphingRules .any(function(r){ return stencil.roles().include(ss.namespace() + r.role) && r.showInShapeMenu !== false; }) }); }, preserveBounds: function(stencil) { return this._stencilSets.any(function(ss) { return ss.jsonRules().morphingRules.any(function(r) { return stencil.roles().include(ss.namespace() + r.role) && r.preserveBounds; }) }) }, /** End morphing rules' methods */ /** Begin layouting rules' methods */ /** * Returns a set on "in" and "out" layouting rules for a given shape * @param {Object} shape * @param {Object} edgeShape (Optional) * @return {Object} "in" and "out" with a default value of {"t":1, "r":1, "b":1, "r":1} if not specified in the json */ getLayoutingRules : function(shape, edgeShape){ if (!shape||!(shape instanceof ORYX.Core.Shape)){ return } var layout = {"in":{},"out":{}}; var parseValues = function(o, v){ if (o && o[v]){ ["t","r","b","l"].each(function(d){ layout[v][d]=Math.max(o[v][d],layout[v][d]||0); }); } if (o && o[v+"s"] instanceof Array){ ["t","r","b","l"].each(function(d){ var defaultRule = o[v+"s"].find(function(e){ return !e.edgeRole }); var edgeRule; if (edgeShape instanceof ORYX.Core.Edge) { edgeRule = o[v + "s"].find(function(e){return this._hasRole(edgeShape, e.edgeRole) }.bind(this)); } layout[v][d]=Math.max(edgeRule?edgeRule[d]:defaultRule[d],layout[v][d]||0); }.bind(this)); } }.bind(this) // For each role shape.getStencil().roles().each(function(role) { // check if there are layout information if (this._layoutRules[role]){ // if so, parse those information to the 'layout' variable parseValues(this._layoutRules[role], "in"); parseValues(this._layoutRules[role], "out"); } }.bind(this)); // Make sure, that every attribute has an value, // otherwise set 1 ["in","out"].each(function(v){ ["t","r","b","l"].each(function(d){ layout[v][d]=layout[v][d]!==undefined?layout[v][d]:1; }); }) return layout; }, /** End layouting rules' methods */ /** Helper methods */ /** * Checks wether a shape contains the given role or the role is equal the stencil id * @param {ORYX.Core.Shape} shape * @param {String} role */ _hasRole: function(shape, role){ if (!(shape instanceof ORYX.Core.Shape)||!role){ return } var isRole = shape.getStencil().roles().any(function(r){ return r == role}); return isRole || shape.getStencil().id() == (shape.getStencil().namespace()+role); }, /** * * @param {String} * role * * @return {Array} Returns an array of stencils that can act as role. */ _stencilsWithRole: function(role) { return this._stencils.findAll(function(stencil) { return (stencil.roles().member(role)) ? true : false; }); }, /** * * @param {String} * role * * @return {Array} Returns an array of stencils that can act as role and * have the type 'edge'. */ _edgesWithRole: function(role) { return this._stencils.findAll(function(stencil) { return (stencil.roles().member(role) && stencil.type() === "edge") ? true : false; }); }, /** * * @param {String} * role * * @return {Array} Returns an array of stencils that can act as role and * have the type 'node'. */ _nodesWithRole: function(role) { return this._stencils.findAll(function(stencil) { return (stencil.roles().member(role) && stencil.type() === "node") ? true : false; }); }, /** * * @param {ORYX.Core.StencilSet.Stencil} * parent * @param {ORYX.Core.StencilSet.Stencil} * child * * @returns {Boolean} Returns the maximum occurrence of shapes of the * stencil's type inside the parent. */ _getMaximumOccurrence: function(parent, child) { var max; child.roles().each((function(role) { var cardRule = this._cardinalityRules[role]; if(cardRule && cardRule.maximumOccurrence) { if(max) { max = Math.min(max, cardRule.maximumOccurrence); } else { max = cardRule.maximumOccurrence; } } }).bind(this)); return max; }, /** * * @param {Object} * args sourceStencil: ORYX.Core.Node edgeStencil: * ORYX.Core.StencilSet.Stencil * * @return {Boolean} Returns, the maximum number of outgoing edges of the * type specified by edgeStencil of the sourceShape. */ _getMaximumNumberOfOutgoingEdge: function(args) { if(!args || !args.sourceStencil || !args.edgeStencil) { return false; } var max; args.sourceStencil.roles().each((function(role) { var cardRule = this._cardinalityRules[role]; if(cardRule && cardRule.outgoingEdges) { args.edgeStencil.roles().each(function(edgeRole) { var oe = cardRule.outgoingEdges[edgeRole]; if(oe && oe.maximum) { if(max) { max = Math.min(max, oe.maximum); } else { max = oe.maximum; } } }); } }).bind(this)); return max; }, /** * * @param {Object} * args targetStencil: ORYX.Core.StencilSet.Stencil edgeStencil: * ORYX.Core.StencilSet.Stencil * * @return {Boolean} Returns the maximum number of incoming edges of the * type specified by edgeStencil of the targetShape. */ _getMaximumNumberOfIncomingEdge: function(args) { if(!args || !args.targetStencil || !args.edgeStencil) { return false; } var max; args.targetStencil.roles().each((function(role) { var cardRule = this._cardinalityRules[role]; if(cardRule && cardRule.incomingEdges) { args.edgeStencil.roles().each(function(edgeRole) { var ie = cardRule.incomingEdges[edgeRole]; if(ie && ie.maximum) { if(max) { max = Math.min(max, ie.maximum); } else { max = ie.maximum; } } }); } }).bind(this)); return max; }, /** * * @param {ORYX.Core.StencilSet.Stencil} * edgeStencil * * @return {Hash} Returns a hash map of all connection rules for * edgeStencil. */ _getConnectionRulesOfEdgeStencil: function(edgeStencil) { var edgeRules = new Hash(); edgeStencil.roles().each((function(role) { if(this._connectionRules[role]) { this._connectionRules[role].each(function(cr) { if(edgeRules[cr.key]) { edgeRules[cr.key] = edgeRules[cr.key].concat(cr.value); } else { edgeRules[cr.key] = cr.value; } }); } }).bind(this)); return edgeRules; }, _isRoleOfOtherNamespace: function(role) { return (role.indexOf("#") > 0); }, toString: function() { return "Rules"; } } ORYX.Core.StencilSet.Rules = Clazz.extend(ORYX.Core.StencilSet.Rules); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespace */ if (!ORYX) { var ORYX = {}; } if (!ORYX.Core) { ORYX.Core = {}; } if (!ORYX.Core.StencilSet) { ORYX.Core.StencilSet = {}; } /** * This class represents a stencil set. It offers methods for accessing * the attributes of the stencil set description JSON file and the stencil set's * stencils. */ ORYX.Core.StencilSet.StencilSet = Clazz.extend({ /** * Constructor * @param source {URL} A reference to the stencil set specification. * */ construct: function(source, modelMetaData, editorId){ arguments.callee.$.construct.apply(this, arguments); if (!source) { throw "ORYX.Core.StencilSet.StencilSet(construct): Parameter 'source' is not defined."; } if (source.endsWith("/")) { source = source.substr(0, source.length - 1); } this._extensions = new Hash(); this._source = source; this._baseUrl = source.substring(0, source.lastIndexOf("/") + 1); this._jsonObject = {}; this._stencils = new Hash(); this._availableStencils = new Hash(); if(ORYX.CONFIG.BACKEND_SWITCH) { this._baseUrl = "editor/stencilsets/bpmn2.0/"; this._source = "stencilsets/bpmn2.0/bpmn2.0.json"; new Ajax.Request(ACTIVITI.CONFIG.contextRoot + '/editor/stencilset?version=' + Date.now(), { asynchronous: false, method: 'get', onSuccess: this._init.bind(this), onFailure: this._cancelInit.bind(this) }); } else { new Ajax.Request(source, { asynchronous: false, method: 'get', onSuccess: this._init.bind(this), onFailure: this._cancelInit.bind(this) }); } if (this.errornous) throw "Loading stencil set " + source + " failed."; }, /** * Finds a root stencil in this stencil set. There may be many of these. If * there are, the first one found will be used. In Firefox, this is the * topmost definition in the stencil set description file. */ findRootStencilName: function(){ // find any stencil that may be root. var rootStencil = this._stencils.values().find(function(stencil){ return stencil._jsonStencil.mayBeRoot }); // if there is none, just guess the first. if (!rootStencil) { ORYX.Log.warn("Did not find any stencil that may be root. Taking a guess."); rootStencil = this._stencils.values()[0]; } // return its id. return rootStencil.id(); }, /** * @param {ORYX.Core.StencilSet.StencilSet} stencilSet * @return {Boolean} True, if stencil set has the same namespace. */ equals: function(stencilSet){ return (this.namespace() === stencilSet.namespace()); }, /** * * @param {Oryx.Core.StencilSet.Stencil} rootStencil If rootStencil is defined, it only returns stencils * that could be (in)direct child of that stencil. */ stencils: function(rootStencil, rules, sortByGroup){ if(rootStencil && rules) { var stencils = this._availableStencils.values(); var containers = [rootStencil]; var checkedContainers = []; var result = []; while (containers.size() > 0) { var container = containers.pop(); checkedContainers.push(container); var children = stencils.findAll(function(stencil){ var args = { containingStencil: container, containedStencil: stencil }; return rules.canContain(args); }); for(var i = 0; i < children.size(); i++) { if (!checkedContainers.member(children[i])) { containers.push(children[i]); } } result = result.concat(children).uniq(); } // Sort the result to the origin order result = result.sortBy(function(stencil) { return stencils.indexOf(stencil); }); if(sortByGroup) { result = result.sortBy(function(stencil) { return stencil.groups().first(); }); } var edges = stencils.findAll(function(stencil) { return stencil.type() == "edge"; }); result = result.concat(edges); return result; } else { if(sortByGroup) { return this._availableStencils.values().sortBy(function(stencil) { return stencil.groups().first(); }); } else { return this._availableStencils.values(); } } }, nodes: function(){ return this._availableStencils.values().findAll(function(stencil){ return (stencil.type() === 'node') }); }, edges: function(){ return this._availableStencils.values().findAll(function(stencil){ return (stencil.type() === 'edge') }); }, stencil: function(id){ return this._stencils[id]; }, title: function(){ return ORYX.Core.StencilSet.getTranslation(this._jsonObject, "title"); }, description: function(){ return ORYX.Core.StencilSet.getTranslation(this._jsonObject, "description"); }, namespace: function(){ return this._jsonObject ? this._jsonObject.namespace : null; }, jsonRules: function(){ return this._jsonObject ? this._jsonObject.rules : null; }, source: function(){ return this._source; }, extensions: function() { return this._extensions; }, addExtension: function(url) { new Ajax.Request(url, { method: 'GET', asynchronous: false, onSuccess: (function(transport) { this.addExtensionDirectly(transport.responseText); }).bind(this), onFailure: (function(transport) { ORYX.Log.debug("Loading stencil set extension file failed. The request returned an error." + transport); }).bind(this), onException: (function(transport) { ORYX.Log.debug("Loading stencil set extension file failed. The request returned an error." + transport); }).bind(this) }); }, addExtensionDirectly: function(str){ try { eval("var jsonExtension = " + str); if(!(jsonExtension["extends"].endsWith("#"))) jsonExtension["extends"] += "#"; if(jsonExtension["extends"] == this.namespace()) { this._extensions[jsonExtension.namespace] = jsonExtension; var defaultPosition = this._stencils.keys().size(); //load new stencils if(jsonExtension.stencils) { $A(jsonExtension.stencils).each(function(stencil) { defaultPosition++; var oStencil = new ORYX.Core.StencilSet.Stencil(stencil, this.namespace(), this._baseUrl, this, undefined, defaultPosition); this._stencils[oStencil.id()] = oStencil; this._availableStencils[oStencil.id()] = oStencil; }.bind(this)); } //load additional properties if (jsonExtension.properties) { var stencils = this._stencils.values(); stencils.each(function(stencil){ var roles = stencil.roles(); jsonExtension.properties.each(function(prop){ prop.roles.any(function(role){ role = jsonExtension["extends"] + role; if (roles.member(role)) { prop.properties.each(function(property){ stencil.addProperty(property, jsonExtension.namespace); }); return true; } else return false; }) }) }.bind(this)); } //remove stencil properties if(jsonExtension.removeproperties) { jsonExtension.removeproperties.each(function(remprop) { var stencil = this.stencil(jsonExtension["extends"] + remprop.stencil); if(stencil) { remprop.properties.each(function(propId) { stencil.removeProperty(propId); }); } }.bind(this)); } //remove stencils if(jsonExtension.removestencils) { $A(jsonExtension.removestencils).each(function(remstencil) { delete this._availableStencils[jsonExtension["extends"] + remstencil]; }.bind(this)); } } } catch (e) { ORYX.Log.debug("StencilSet.addExtension: Something went wrong when initialising the stencil set extension. " + e); } }, removeExtension: function(namespace) { var jsonExtension = this._extensions[namespace]; if(jsonExtension) { //unload extension's stencils if(jsonExtension.stencils) { $A(jsonExtension.stencils).each(function(stencil) { var oStencil = new ORYX.Core.StencilSet.Stencil(stencil, this.namespace(), this._baseUrl, this); delete this._stencils[oStencil.id()]; // maybe not ?? delete this._availableStencils[oStencil.id()]; }.bind(this)); } //unload extension's properties if (jsonExtension.properties) { var stencils = this._stencils.values(); stencils.each(function(stencil){ var roles = stencil.roles(); jsonExtension.properties.each(function(prop){ prop.roles.any(function(role){ role = jsonExtension["extends"] + role; if (roles.member(role)) { prop.properties.each(function(property){ stencil.removeProperty(property.id); }); return true; } else return false; }) }) }.bind(this)); } //restore removed stencil properties if(jsonExtension.removeproperties) { jsonExtension.removeproperties.each(function(remprop) { var stencil = this.stencil(jsonExtension["extends"] + remprop.stencil); if(stencil) { var stencilJson = $A(this._jsonObject.stencils).find(function(s) { return s.id == stencil.id() }); remprop.properties.each(function(propId) { var propertyJson = $A(stencilJson.properties).find(function(p) { return p.id == propId }); stencil.addProperty(propertyJson, this.namespace()); }.bind(this)); } }.bind(this)); } //restore removed stencils if(jsonExtension.removestencils) { $A(jsonExtension.removestencils).each(function(remstencil) { var sId = jsonExtension["extends"] + remstencil; this._availableStencils[sId] = this._stencils[sId]; }.bind(this)); } } delete this._extensions[namespace]; }, __handleStencilset: function(response){ try { // using eval instead of prototype's parsing, // since there are functions in this JSON. eval("this._jsonObject =" + response.responseText); } catch (e) { throw "Stenciset corrupt: " + e; } // assert it was parsed. if (!this._jsonObject) { throw "Error evaluating stencilset. It may be corrupt."; } with (this._jsonObject) { // assert there is a namespace. if (!namespace || namespace === "") throw "Namespace definition missing in stencilset."; if (!(stencils instanceof Array)) throw "Stencilset corrupt."; // assert namespace ends with '#'. if (!namespace.endsWith("#")) namespace = namespace + "#"; // assert title and description are strings. if (!title) title = ""; if (!description) description = ""; } }, /** * This method is called when the HTTP request to get the requested stencil * set succeeds. The response is supposed to be a JSON representation * according to the stencil set specification. * @param {Object} response The JSON representation according to the * stencil set specification. */ _init: function(response){ // init and check consistency. this.__handleStencilset(response); var pps = new Hash(); // init property packages if(this._jsonObject.propertyPackages) { $A(this._jsonObject.propertyPackages).each((function(pp) { pps[pp.name] = pp.properties; }).bind(this)); } var defaultPosition = 0; // init each stencil $A(this._jsonObject.stencils).each((function(stencil){ defaultPosition++; // instantiate normally. var oStencil = new ORYX.Core.StencilSet.Stencil(stencil, this.namespace(), this._baseUrl, this, pps, defaultPosition); this._stencils[oStencil.id()] = oStencil; this._availableStencils[oStencil.id()] = oStencil; }).bind(this)); }, _cancelInit: function(response){ this.errornous = true; }, toString: function(){ return "StencilSet " + this.title() + " (" + this.namespace() + ")"; } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespace */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.StencilSet) {ORYX.Core.StencilSet = {};} /** * Class StencilSets * uses Prototpye 1.5.0 * uses Inheritance * * Singleton */ //storage for loaded stencil sets by namespace ORYX.Core.StencilSet._stencilSetsByNamespace = new Hash(); //storage for stencil sets by url ORYX.Core.StencilSet._stencilSetsByUrl = new Hash(); //storage for stencil set namespaces by editor instances ORYX.Core.StencilSet._StencilSetNSByEditorInstance = new Hash(); //storage for rules by editor instances ORYX.Core.StencilSet._rulesByEditorInstance = new Hash(); /** * * @param {String} editorId * * @return {Hash} Returns a hash map with all stencil sets that are loaded by * the editor with the editorId. */ ORYX.Core.StencilSet.stencilSets = function(editorId) { var stencilSetNSs = ORYX.Core.StencilSet._StencilSetNSByEditorInstance[editorId]; var stencilSets = new Hash(); if(stencilSetNSs) { stencilSetNSs.each(function(stencilSetNS) { var stencilSet = ORYX.Core.StencilSet.stencilSet(stencilSetNS) stencilSets[stencilSet.namespace()] = stencilSet; }); } return stencilSets; }; /** * * @param {String} namespace * * @return {ORYX.Core.StencilSet.StencilSet} Returns the stencil set with the specified * namespace. * * The method can handle namespace strings like * http://www.example.org/stencilset * http://www.example.org/stencilset# * http://www.example.org/stencilset#ANode */ ORYX.Core.StencilSet.stencilSet = function(namespace) { ORYX.Log.trace("Getting stencil set %0", namespace); var splitted = namespace.split("#", 1); if(splitted.length === 1) { ORYX.Log.trace("Getting stencil set %0", splitted[0]); return ORYX.Core.StencilSet._stencilSetsByNamespace[splitted[0] + "#"]; } else { return undefined; } }; /** * * @param {String} id * * @return {ORYX.Core.StencilSet.Stencil} Returns the stencil specified by the id. * * The id must be unique and contains the namespace of the stencil's stencil set. * e.g. http://www.example.org/stencilset#ANode */ ORYX.Core.StencilSet.stencil = function(id) { ORYX.Log.trace("Getting stencil for %0", id); var ss = ORYX.Core.StencilSet.stencilSet(id); if(ss) { return ss.stencil(id); } else { ORYX.Log.trace("Cannot fild stencil for %0", id); return undefined; } }; /** * * @param {String} editorId * * @return {ORYX.Core.StencilSet.Rules} Returns the rules object for the editor * specified by its editor id. */ ORYX.Core.StencilSet.rules = function(editorId) { if(!ORYX.Core.StencilSet._rulesByEditorInstance[editorId]) { ORYX.Core.StencilSet._rulesByEditorInstance[editorId] = new ORYX.Core.StencilSet.Rules(); } return ORYX.Core.StencilSet._rulesByEditorInstance[editorId]; }; /** * * @param {String} url * @param {String} editorId * * Loads a stencil set from url, if it is not already loaded. * It also stores which editor instance loads the stencil set and * initializes the Rules object for the editor instance. */ ORYX.Core.StencilSet.loadStencilSet = function(url, modelMetaData, editorId) { // Alfresco: disable cache, because stencil sets are now flexible //var stencilSet = ORYX.Core.StencilSet._stencilSetsByUrl[url]; //if(!stencilSet) { //load stencil set stencilSet = new ORYX.Core.StencilSet.StencilSet(url, modelMetaData, editorId); //store stencil set ORYX.Core.StencilSet._stencilSetsByNamespace[stencilSet.namespace()] = stencilSet; //store stencil set by url ORYX.Core.StencilSet._stencilSetsByUrl[url] = stencilSet; //} var namespace = stencilSet.namespace(); //store which editorInstance loads the stencil set if(ORYX.Core.StencilSet._StencilSetNSByEditorInstance[editorId]) { ORYX.Core.StencilSet._StencilSetNSByEditorInstance[editorId].push(namespace); } else { ORYX.Core.StencilSet._StencilSetNSByEditorInstance[editorId] = [namespace]; } //store the rules for the editor instance if(ORYX.Core.StencilSet._rulesByEditorInstance[editorId]) { ORYX.Core.StencilSet._rulesByEditorInstance[editorId].initializeRules(stencilSet); } else { var rules = new ORYX.Core.StencilSet.Rules(); rules.initializeRules(stencilSet); ORYX.Core.StencilSet._rulesByEditorInstance[editorId] = rules; } }; /** * Returns the translation of an attribute in jsonObject specified by its name * according to navigator.language */ ORYX.Core.StencilSet.getTranslation = function(jsonObject, name) { var lang = ORYX.I18N.Language.toLowerCase(); var result = jsonObject[name + "_" + lang]; if(result) return result; result = jsonObject[name + "_" + lang.substr(0, 2)]; if(result) return result; return jsonObject[name]; }; /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} /** * @classDescription With Bounds you can set and get position and size of UIObjects. */ ORYX.Core.Command = Clazz.extend({ /** * Constructor */ construct: function() { }, execute: function(){ throw "Command.execute() has to be implemented!" }, rollback: function(){ throw "Command.rollback() has to be implemented!" } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} /** * @classDescription With Bounds you can set and get position and size of UIObjects. */ ORYX.Core.Bounds = { /** * Constructor */ construct: function() { this._changedCallbacks = []; //register a callback with changedCallacks.push(this.method.bind(this)); this.a = {}; this.b = {}; this.set.apply(this, arguments); this.suspendChange = false; this.changedWhileSuspend = false; }, /** * Calls all registered callbacks. */ _changed: function(sizeChanged) { if(!this.suspendChange) { this._changedCallbacks.each(function(callback) { callback(this, sizeChanged); }.bind(this)); this.changedWhileSuspend = false; } else this.changedWhileSuspend = true; }, /** * Registers a callback that is called, if the bounds changes. * @param callback {Function} The callback function. */ registerCallback: function(callback) { if(!this._changedCallbacks.member(callback)) { this._changedCallbacks.push(callback); } }, /** * Unregisters a callback. * @param callback {Function} The callback function. */ unregisterCallback: function(callback) { this._changedCallbacks = this._changedCallbacks.without(callback); }, /** * Sets position and size of the shape dependent of four coordinates * (set(ax, ay, bx, by);), two points (set({x: ax, y: ay}, {x: bx, y: by});) * or one bound (set({a: {x: ax, y: ay}, b: {x: bx, y: by}});). */ set: function() { var changed = false; switch (arguments.length) { case 1: if(this.a.x !== arguments[0].a.x) { changed = true; this.a.x = arguments[0].a.x; } if(this.a.y !== arguments[0].a.y) { changed = true; this.a.y = arguments[0].a.y; } if(this.b.x !== arguments[0].b.x) { changed = true; this.b.x = arguments[0].b.x; } if(this.b.y !== arguments[0].b.y) { changed = true; this.b.y = arguments[0].b.y; } break; case 2: var ax = Math.min(arguments[0].x, arguments[1].x); var ay = Math.min(arguments[0].y, arguments[1].y); var bx = Math.max(arguments[0].x, arguments[1].x); var by = Math.max(arguments[0].y, arguments[1].y); if(this.a.x !== ax) { changed = true; this.a.x = ax; } if(this.a.y !== ay) { changed = true; this.a.y = ay; } if(this.b.x !== bx) { changed = true; this.b.x = bx; } if(this.b.y !== by) { changed = true; this.b.y = by; } break; case 4: var ax = Math.min(arguments[0], arguments[2]); var ay = Math.min(arguments[1], arguments[3]); var bx = Math.max(arguments[0], arguments[2]); var by = Math.max(arguments[1], arguments[3]); if(this.a.x !== ax) { changed = true; this.a.x = ax; } if(this.a.y !== ay) { changed = true; this.a.y = ay; } if(this.b.x !== bx) { changed = true; this.b.x = bx; } if(this.b.y !== by) { changed = true; this.b.y = by; } break; } if(changed) { this._changed(true); } }, /** * Moves the bounds so that the point p will be the new upper left corner. * @param {Point} p * or * @param {Number} x * @param {Number} y */ moveTo: function() { var currentPosition = this.upperLeft(); switch (arguments.length) { case 1: this.moveBy({ x: arguments[0].x - currentPosition.x, y: arguments[0].y - currentPosition.y }); break; case 2: this.moveBy({ x: arguments[0] - currentPosition.x, y: arguments[1] - currentPosition.y }); break; default: //TODO error } }, /** * Moves the bounds relatively by p. * @param {Point} p * or * @param {Number} x * @param {Number} y * */ moveBy: function() { var changed = false; switch (arguments.length) { case 1: var p = arguments[0]; if(p.x !== 0 || p.y !== 0) { changed = true; this.a.x += p.x; this.b.x += p.x; this.a.y += p.y; this.b.y += p.y; } break; case 2: var x = arguments[0]; var y = arguments[1]; if(x !== 0 || y !== 0) { changed = true; this.a.x += x; this.b.x += x; this.a.y += y; this.b.y += y; } break; default: //TODO error } if(changed) { this._changed(); } }, /*** * Includes the bounds b into the current bounds. * @param {Bounds} b */ include: function(b) { if( (this.a.x === undefined) && (this.a.y === undefined) && (this.b.x === undefined) && (this.b.y === undefined)) { return b; }; var cx = Math.min(this.a.x,b.a.x); var cy = Math.min(this.a.y,b.a.y); var dx = Math.max(this.b.x,b.b.x); var dy = Math.max(this.b.y,b.b.y); this.set(cx, cy, dx, dy); }, /** * Relatively extends the bounds by p. * @param {Point} p */ extend: function(p) { if(p.x !== 0 || p.y !== 0) { // this is over cross for the case that a and b have same coordinates. //((this.a.x > this.b.x) ? this.a : this.b).x += p.x; //((this.b.y > this.a.y) ? this.b : this.a).y += p.y; this.b.x += p.x; this.b.y += p.y; this._changed(true); } }, /** * Widens the scope of the bounds by x. * @param {Number} x */ widen: function(x) { if (x !== 0) { this.suspendChange = true; this.moveBy({x: -x, y: -x}); this.extend({x: 2*x, y: 2*x}); this.suspendChange = false; if(this.changedWhileSuspend) { this._changed(true); } } }, /** * Returns the upper left corner's point regardless of the * bound delimiter points. */ upperLeft: function() { var result = {}; result.x = this.a.x; result.y = this.a.y; return result; }, /** * Returns the lower Right left corner's point regardless of the * bound delimiter points. */ lowerRight: function() { var result = {}; result.x = this.b.x; result.y = this.b.y; return result; }, /** * @return {Number} Width of bounds. */ width: function() { return this.b.x - this.a.x; }, /** * @return {Number} Height of bounds. */ height: function() { return this.b.y - this.a.y; }, /** * @return {Point} The center point of this bounds. */ center: function() { var center = {}; center.x =(this.a.x + this.b.x)/2.0; center.y =(this.a.y + this.b.y)/2.0; return center; }, /** * @return {Point} The center point of this bounds relative to upperLeft. */ midPoint: function() { var midpoint = {}; midpoint.x = (this.b.x - this.a.x)/2.0; midpoint.y = (this.b.y - this.a.y)/2.0; return midpoint; }, /** * Moves the center point of this bounds to the new position. * @param p {Point} * or * @param x {Number} * @param y {Number} */ centerMoveTo: function() { var currentPosition = this.center(); switch (arguments.length) { case 1: this.moveBy(arguments[0].x - currentPosition.x, arguments[0].y - currentPosition.y); break; case 2: this.moveBy(arguments[0] - currentPosition.x, arguments[1] - currentPosition.y); break; } }, isIncluded: function(point, offset) { var pointX, pointY, offset; // Get the the two Points switch(arguments.length) { case 1: pointX = arguments[0].x; pointY = arguments[0].y; offset = 0; break; case 2: if(arguments[0].x && arguments[0].y) { pointX = arguments[0].x; pointY = arguments[0].y; offset = Math.abs(arguments[1]); } else { pointX = arguments[0]; pointY = arguments[1]; offset = 0; } break; case 3: pointX = arguments[0]; pointY = arguments[1]; offset = Math.abs(arguments[2]); break; default: throw "isIncluded needs one, two or three arguments"; } var ul = this.upperLeft(); var lr = this.lowerRight(); if(pointX >= ul.x - offset && pointX <= lr.x + offset && pointY >= ul.y - offset && pointY <= lr.y + offset) return true; else return false; }, /** * @return {Bounds} A copy of this bounds. */ clone: function() { //Returns a new bounds object without the callback // references of the original bounds return new ORYX.Core.Bounds(this); }, toString: function() { return "( "+this.a.x+" | "+this.a.y+" )/( "+this.b.x+" | "+this.b.y+" )"; }, serializeForERDF: function() { return this.a.x+","+this.a.y+","+this.b.x+","+this.b.y; } }; ORYX.Core.Bounds = Clazz.extend(ORYX.Core.Bounds);/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} /** * @classDescription Abstract base class for all objects that have a graphical representation * within the editor. * @extends Clazz */ ORYX.Core.UIObject = { /** * Constructor of the UIObject class. */ construct: function(options) { this.isChanged = true; //Flag, if UIObject has been changed since last update. this.isResized = true; this.isVisible = true; //Flag, if UIObject's display attribute is set to 'inherit' or 'none' this.isSelectable = false; //Flag, if UIObject is selectable. this.isResizable = false; //Flag, if UIObject is resizable. this.isMovable = false; //Flag, if UIObject is movable. this.id = ORYX.Editor.provideId(); //get unique id this.parent = undefined; //parent is defined, if this object is added to another uiObject. this.node = undefined; //this is a reference to the SVG representation, either locally or in DOM. this.children = []; //array for all add uiObjects this.bounds = new ORYX.Core.Bounds(); //bounds with undefined values this._changedCallback = this._changed.bind(this); //callback reference for calling _changed this.bounds.registerCallback(this._changedCallback); //set callback in bounds if(options && options.eventHandlerCallback) { this.eventHandlerCallback = options.eventHandlerCallback; } }, /** * Sets isChanged flag to true. Callback for the bounds object. */ _changed: function(bounds, isResized) { this.isChanged = true; if(this.bounds == bounds) this.isResized = isResized || this.isResized; }, /** * If something changed, this method calls the refresh method that must be implemented by subclasses. */ update: function() { if(this.isChanged) { this.refresh(); this.isChanged = false; //call update of all children this.children.each(function(value) { value.update(); }); } }, /** * Is called in update method, if isChanged is set to true. Sub classes should call the super class method. */ refresh: function() { }, /** * @return {Array} Array of all child UIObjects. */ getChildren: function() { return this.children.clone(); }, /** * @return {Array} Array of all parent UIObjects. */ getParents: function(){ var parents = []; var parent = this.parent; while(parent){ parents.push(parent); parent = parent.parent; } return parents; }, /** * Returns TRUE if the given parent is one of the UIObjects parents or the UIObject themselves, otherwise FALSE. * @param {UIObject} parent * @return {Boolean} */ isParent: function(parent){ var cparent = this; while(cparent){ if (cparent === parent){ return true; } cparent = cparent.parent; } return false; }, /** * @return {String} Id of this UIObject */ getId: function() { return this.id; }, /** * Method for accessing child uiObjects by id. * @param {String} id * @param {Boolean} deep * * @return {UIObject} If found, it returns the UIObject with id. */ getChildById: function(id, deep) { return this.children.find(function(uiObj) { if(uiObj.getId() === id) { return uiObj; } else { if(deep) { var obj = uiObj.getChildById(id, deep); if(obj) { return obj; } } } }); }, /** * Adds an UIObject to this UIObject and sets the parent of the * added UIObject. It is also added to the SVG representation of this * UIObject. * @param {UIObject} uiObject */ add: function(uiObject) { //add uiObject, if it is not already a child of this object if (!(this.children.member(uiObject))) { //if uiObject is child of another parent, remove it from that parent. if(uiObject.parent) { uiObject.remove(uiObject); } //add uiObject to children this.children.push(uiObject); //set parent reference uiObject.parent = this; //add uiObject.node to this.node uiObject.node = this.node.appendChild(uiObject.node); //register callback to get informed, if child is changed uiObject.bounds.registerCallback(this._changedCallback); //uiObject.update(); } else { ORYX.Log.info("add: ORYX.Core.UIObject is already a child of this object."); } }, /** * Removes UIObject from this UIObject. The SVG representation will also * be removed from this UIObject's SVG representation. * @param {UIObject} uiObject */ remove: function(uiObject) { //if uiObject is a child of this object, remove it. if (this.children.member(uiObject)) { //remove uiObject from children this.children = this._uiObjects.without(uiObject); //delete parent reference of uiObject uiObject.parent = undefined; //delete uiObject.node from this.node uiObject.node = this.node.removeChild(uiObject.node); //unregister callback to get informed, if child is changed uiObject.bounds.unregisterCallback(this._changedCallback); } else { ORYX.Log.info("remove: ORYX.Core.UIObject is not a child of this object."); } }, /** * Calculates absolute bounds of this UIObject. */ absoluteBounds: function() { if(this.parent) { var absUL = this.absoluteXY(); return new ORYX.Core.Bounds(absUL.x, absUL.y, absUL.x + this.bounds.width(), absUL.y + this.bounds.height()); } else { return this.bounds.clone(); } }, /** * @return {Point} The absolute position of this UIObject. */ absoluteXY: function() { if(this.parent) { var pXY = this.parent.absoluteXY(); var result = {}; result.x = pXY.x + this.bounds.upperLeft().x; result.y = pXY.y + this.bounds.upperLeft().y; return result; } else { var result = {}; result.x = this.bounds.upperLeft().x; result.y = this.bounds.upperLeft().y; return result; } }, /** * @return {Point} The absolute position from the Center of this UIObject. */ absoluteCenterXY: function() { if(this.parent) { var pXY = this.parent.absoluteXY(); var result = {}; result.x = pXY.x + this.bounds.center().x; result.y = pXY.y + this.bounds.center().y; return result; } else { var result = {}; result.x = this.bounds.center().x; result.y = this.bounds.center().y; return result; } }, /** * Hides this UIObject and all its children. */ hide: function() { this.node.setAttributeNS(null, 'display', 'none'); this.isVisible = false; this.children.each(function(uiObj) { uiObj.hide(); }); }, /** * Enables visibility of this UIObject and all its children. */ show: function() { this.node.setAttributeNS(null, 'display', 'inherit'); this.isVisible = true; this.children.each(function(uiObj) { uiObj.show(); }); }, addEventHandlers: function(node) { node.addEventListener(ORYX.CONFIG.EVENT_MOUSEDOWN, this._delegateEvent.bind(this), false); node.addEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this._delegateEvent.bind(this), false); node.addEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this._delegateEvent.bind(this), false); node.addEventListener(ORYX.CONFIG.EVENT_MOUSEOVER, this._delegateEvent.bind(this), false); node.addEventListener(ORYX.CONFIG.EVENT_MOUSEOUT, this._delegateEvent.bind(this), false); node.addEventListener('click', this._delegateEvent.bind(this), false); node.addEventListener(ORYX.CONFIG.EVENT_DBLCLICK, this._delegateEvent.bind(this), false); }, _delegateEvent: function(event) { if(this.eventHandlerCallback) { this.eventHandlerCallback(event, this); } }, toString: function() { return "UIObject " + this.id } }; ORYX.Core.UIObject = Clazz.extend(ORYX.Core.UIObject);/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} /** * Top Level uiobject. * @class ORYX.Core.AbstractShape * @extends ORYX.Core.UIObject */ ORYX.Core.AbstractShape = ORYX.Core.UIObject.extend( /** @lends ORYX.Core.AbstractShape.prototype */ { /** * Constructor */ construct: function(options, stencil, facade) { arguments.callee.$.construct.apply(this, arguments); this.resourceId = ORYX.Editor.provideId(); //Id of resource in DOM // stencil reference this._stencil = stencil; // if the stencil defines a super stencil that should be used for its instances, set it. if (this._stencil._jsonStencil.superId){ stencilId = this._stencil.id() superStencilId = stencilId.substring(0, stencilId.indexOf("#") + 1) + stencil._jsonStencil.superId; stencilSet = this._stencil.stencilSet(); this._stencil = stencilSet.stencil(superStencilId); } //Hash map for all properties. Only stores the values of the properties. this.properties = new Hash(); this.propertiesChanged = new Hash(); // List of properties which are not included in the stencilset, // but which gets (de)serialized this.hiddenProperties = new Hash(); //Initialization of property map and initial value. this._stencil.properties().each((function(property) { var key = property.prefix() + "-" + property.id(); this.properties[key] = property.value(); this.propertiesChanged[key] = true; }).bind(this)); // if super stencil was defined, also regard stencil's properties: if (stencil._jsonStencil.superId) { stencil.properties().each((function(property) { var key = property.prefix() + "-" + property.id(); var value = property.value(); var oldValue = this.properties[key]; this.properties[key] = value; this.propertiesChanged[key] = true; // Raise an event, to show that the property has changed // required for plugins like processLink.js //window.setTimeout( function(){ this._delegateEvent({ type : ORYX.CONFIG.EVENT_PROPERTY_CHANGED, name : key, value : value, oldValue: oldValue }); //}.bind(this), 10) }).bind(this)); } }, layout: function() { }, /** * Returns the stencil object specifiing the type of the shape. */ getStencil: function() { return this._stencil; }, /** * * @param {Object} resourceId */ getChildShapeByResourceId: function(resourceId) { resourceId = ERDF.__stripHashes(resourceId); return this.getChildShapes(true).find(function(shape) { return shape.resourceId == resourceId }); }, /** * * @param {Object} deep * @param {Object} iterator */ getChildShapes: function(deep, iterator) { var result = []; this.children.each(function(uiObject) { if(uiObject instanceof ORYX.Core.Shape && uiObject.isVisible ) { if(iterator) { iterator(uiObject); } result.push(uiObject); if(deep) { result = result.concat(uiObject.getChildShapes(deep, iterator)); } } }); return result; }, /** * @param {Object} shape * @return {boolean} true if any of shape's childs is given shape */ hasChildShape: function(shape){ return this.getChildShapes().any(function(child){ return (child === shape) || child.hasChildShape(shape); }); }, /** * * @param {Object} deep * @param {Object} iterator */ getChildNodes: function(deep, iterator) { var result = []; this.children.each(function(uiObject) { if(uiObject instanceof ORYX.Core.Node && uiObject.isVisible) { if(iterator) { iterator(uiObject); } result.push(uiObject); } if(uiObject instanceof ORYX.Core.Shape) { if(deep) { result = result.concat(uiObject.getChildNodes(deep, iterator)); } } }); return result; }, /** * * @param {Object} deep * @param {Object} iterator */ getChildEdges: function(deep, iterator) { var result = []; this.children.each(function(uiObject) { if(uiObject instanceof ORYX.Core.Edge && uiObject.isVisible) { if(iterator) { iterator(uiObject); } result.push(uiObject); } if(uiObject instanceof ORYX.Core.Shape) { if(deep) { result = result.concat(uiObject.getChildEdges(deep, iterator)); } } }); return result; }, /** * Returns a sorted array of ORYX.Core.Node objects. * Ordered in z Order, the last object has the highest z Order. */ //TODO deep iterator getAbstractShapesAtPosition: function() { var x, y; switch (arguments.length) { case 1: x = arguments[0].x; y = arguments[0].y; break; case 2: //two or more arguments x = arguments[0]; y = arguments[1]; break; default: throw "getAbstractShapesAtPosition needs 1 or 2 arguments!" } if(this.isPointIncluded(x, y)) { var result = []; result.push(this); //check, if one child is at that position var childNodes = this.getChildNodes(); var childEdges = this.getChildEdges(); [childNodes, childEdges].each(function(ne){ var nodesAtPosition = new Hash(); ne.each(function(node) { if(!node.isVisible){ return } var candidates = node.getAbstractShapesAtPosition( x , y ); if(candidates.length > 0) { var nodesInZOrder = $A(node.node.parentNode.childNodes); var zOrderIndex = nodesInZOrder.indexOf(node.node); nodesAtPosition[zOrderIndex] = candidates; } }); nodesAtPosition.keys().sort().each(function(key) { result = result.concat(nodesAtPosition[key]); }); }); return result; } else { return []; } }, /** * * @param key {String} Must be 'prefix-id' of property * @param value {Object} Can be of type String or Number according to property type. */ setProperty: function(key, value, force) { var oldValue = this.properties[key]; if(oldValue !== value || force === true) { this.properties[key] = value; this.propertiesChanged[key] = true; this._changed(); // Raise an event, to show that the property has changed //window.setTimeout( function(){ if (!this._isInSetProperty) { this._isInSetProperty = true; this._delegateEvent({ type : ORYX.CONFIG.EVENT_PROPERTY_CHANGED, elements : [this], name : key, value : value, oldValue: oldValue }); delete this._isInSetProperty; } //}.bind(this), 10) } }, /** * Returns TRUE if one of the properties is flagged as dirty * @return {boolean} */ isPropertyChanged: function(){ return this.propertiesChanged.any(function(property){ return property.value }); }, /** * * @param {String} Must be 'prefix-id' of property * @param {Object} Can be of type String or Number according to property type. */ setHiddenProperty: function(key, value) { // IF undefined, Delete if (value === undefined) { delete this.hiddenProperties[key]; return; } var oldValue = this.hiddenProperties[key]; if (oldValue !== value) { this.hiddenProperties[key] = value; } }, /** * Calculate if the point is inside the Shape * @param {Point} */ isPointIncluded: function(pointX, pointY, absoluteBounds) { var absBounds = absoluteBounds ? absoluteBounds : this.absoluteBounds(); return absBounds.isIncluded(pointX, pointY); }, /** * Get the serialized object * return Array with hash-entrees (prefix, name, value) * Following values will given: * Type * Properties */ serialize: function() { var serializedObject = []; // Add the type serializedObject.push({name: 'type', prefix:'oryx', value: this.getStencil().id(), type: 'literal'}); // Add hidden properties this.hiddenProperties.each(function(prop){ serializedObject.push({name: prop.key.replace("oryx-", ""), prefix: "oryx", value: prop.value, type: 'literal'}); }.bind(this)); // Add all properties this.getStencil().properties().each((function(property){ var prefix = property.prefix(); // Get prefix var name = property.id(); // Get name //if(typeof this.properties[prefix+'-'+name] == 'boolean' || this.properties[prefix+'-'+name] != "") serializedObject.push({name: name, prefix: prefix, value: this.properties[prefix+'-'+name], type: 'literal'}); }).bind(this)); return serializedObject; }, deserialize: function(serialize){ // Search in Serialize var initializedDocker = 0; // Sort properties so that the hidden properties are first in the list serialize = serialize.sort(function(a,b){ a = Number(this.properties.keys().member(a.prefix+"-"+a.name)); b = Number(this.properties.keys().member(b.prefix+"-"+b.name)); return a > b ? 1 : (a < b ? -1 : 0) }.bind(this)); serialize.each((function(obj){ var name = obj.name; var prefix = obj.prefix; var value = obj.value; // Complex properties can be real json objects, encode them to a string if (Object.prototype.toString.call(value) === "Object") value = JSON.stringify(value); switch(prefix + "-" + name){ case 'raziel-parent': // Set parent if(!this.parent) {break}; // Set outgoing Shape var parent = this.getCanvas().getChildShapeByResourceId(value); if(parent) { parent.add(this); } break; default: // If list, eval as an array var prop = this.getStencil().property(prefix+"-"+name); if (prop && prop.isList() && typeof value === "string"){ if ((value||"").strip()&&!value.startsWith("[")&&!value.startsWith("]")) value = "[\""+value.strip()+"\"]"; value = ((value||"").strip()||"[]").evalJSON(); } // Set property if(this.properties.keys().member(prefix+"-"+name)) { this.setProperty(prefix+"-"+name, value); } else if(!(name === "bounds"||name === "parent"||name === "target"||name === "dockers"||name === "docker"||name === "outgoing"||name === "incoming")) { this.setHiddenProperty(prefix+"-"+name, value); } } }).bind(this)); }, toString: function() { return "ORYX.Core.AbstractShape " + this.id }, /** * Converts the shape to a JSON representation. * @return {Object} A JSON object with included ORYX.Core.AbstractShape.JSONHelper and getShape() method. */ toJSON: function(){ var json = { resourceId: this.resourceId, properties: jQuery.extend({}, this.properties, this.hiddenProperties).inject({}, function(props, prop){ var key = prop[0]; var value = prop[1]; //If complex property, value should be a json object if ( this.getStencil().property(key) && this.getStencil().property(key).type() === ORYX.CONFIG.TYPE_COMPLEX && Object.prototype.toString.call(value) === "String"){ try {value = JSON.parse(value);} catch(error){} //try {value = JSON.parse(value);} catch(error){} // Parse date } else if (value instanceof Date&&this.getStencil().property(key)){ try { value = value.format(this.getStencil().property(key).dateFormat()); } catch(e){} } //Takes "my_property" instead of "oryx-my_property" as key key = key.replace(/^[\w_]+-/, ""); props[key] = value; return props; }.bind(this)), stencil: { id: this.getStencil().idWithoutNs() }, childShapes: this.getChildShapes().map(function(shape){ return shape.toJSON(); }) }; if(this.getOutgoingShapes){ json.outgoing = this.getOutgoingShapes().map(function(shape){ return { resourceId: shape.resourceId }; }); } if(this.bounds){ json.bounds = { lowerRight: this.bounds.lowerRight(), upperLeft: this.bounds.upperLeft() }; } if(this.dockers){ json.dockers = this.dockers.map(function(docker){ var d = docker.getDockedShape() && docker.referencePoint ? docker.referencePoint : docker.bounds.center(); d.getDocker = function(){return docker;}; return d; }); } jQuery.extend(json, ORYX.Core.AbstractShape.JSONHelper); // do not pollute the json attributes (for serialization), so put the corresponding // shape is encapsulated in a method json.getShape = function(){ return this; }.bind(this); return json; } }); /** * @namespace Collection of methods which can be used on a shape json object (ORYX.Core.AbstractShape#toJSON()). * @example * jQuery.extend(shapeAsJson, ORYX.Core.AbstractShape.JSONHelper); */ ORYX.Core.AbstractShape.JSONHelper = { /** * Iterates over each child shape. * @param {Object} iterator Iterator function getting a child shape and his parent as arguments. * @param {boolean} [deep=false] Iterate recursively (childShapes of childShapes) * @param {boolean} [modify=false] If true, the result of the iterator function is taken as new shape, return false to delete it. This enables modifying the object while iterating through the child shapes. * @example * // Increases the lowerRight x value of each direct child shape by one. * myShapeAsJson.eachChild(function(shape, parentShape){ * shape.bounds.lowerRight.x = shape.bounds.lowerRight.x + 1; * return shape; * }, false, true); */ eachChild: function(iterator, deep, modify){ if(!this.childShapes) return; var newChildShapes = []; //needed if modify = true this.childShapes.each(function(shape){ if (!(shape.eachChild instanceof Function)){ jQuery.extend(shape, ORYX.Core.AbstractShape.JSONHelper); } var res = iterator(shape, this); if(res) newChildShapes.push(res); //if false is returned, and modify = true, current shape is deleted. if(deep) shape.eachChild(iterator, deep, modify); }.bind(this)); if(modify) this.childShapes = newChildShapes; }, getShape: function(){ return null; }, getChildShapes: function(deep){ var allShapes = this.childShapes; if(deep){ this.eachChild(function(shape){ if (!(shape.getChildShapes instanceof Function)){ jQuery.extend(shape, ORYX.Core.AbstractShape.JSONHelper); } allShapes = allShapes.concat(shape.getChildShapes(deep)); }, true); } return allShapes; }, /** * @return {String} Serialized JSON object */ serialize: function(){ return JSON.stringify(this); } } /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} /** @namespace Namespace for the Oryx core elements. @name ORYX.Core */ if(!ORYX.Core) {ORYX.Core = {};} /** * @class Oryx canvas. * @extends ORYX.Core.AbstractShape * */ ORYX.Core.Canvas = ORYX.Core.AbstractShape.extend({ /** @lends ORYX.Core.Canvas.prototype */ /** * Defines the current zoom level */ zoomLevel:1, /** * Constructor */ construct: function(options, stencil, facade) { arguments.callee.$.construct.apply(this, arguments); if(!(options && options.width && options.height)) { ORYX.Log.fatal("Canvas is missing mandatory parameters options.width and options.height."); return; } this.facade = facade; //TODO: set document resource id this.resourceId = options.id; this.nodes = []; this.edges = []; // Row highlighting states this.colHighlightState = 0; this.colHighlightEnabled = false; //init svg document this.rootNode = ORYX.Editor.graft("http://www.w3.org/2000/svg", options.parentNode, ['svg', {id: this.id, width: options.width, height: options.height}, ['defs', {}] ]); this.rootNode.setAttribute("xmlns:xlink", "http://www.w3.org/1999/xlink"); this.rootNode.setAttribute("xmlns:svg", "http://www.w3.org/2000/svg"); this._htmlContainer = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", options.parentNode, ['div', {id: "oryx_canvas_htmlContainer", style:"position:absolute; top:5px"}]); // Additional SVG-node BELOW the stencils to allow underlays (if that is even a word) by plugins this.underlayNode = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.rootNode, ['svg', {id: "underlay-container"}]); // Create 2 svg-elements in the svg-container this.columnHightlight1 = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.underlayNode, ['rect', {x: 0, width: ORYX.CONFIG.FORM_ROW_WIDTH + 35, height: "100%", style: "fill: #fff6d5", visibility: "hidden"}]); this.columnHightlight2 = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.underlayNode, ['rect', {x: ORYX.CONFIG.FORM_ROW_WIDTH + 35, width: ORYX.CONFIG.FORM_ROW_WIDTH + 25, height: "100%", style: "fill: #fff6d5", visibility: "hidden"}]); this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.rootNode, ['g', {}, ['g', {"class": "stencils"}, ['g', {"class": "me"}], ['g', {"class": "children"}], ['g', {"class": "edge"}] ], ['g', {"class":"svgcontainer"}] ]); /* var off = 2 * ORYX.CONFIG.GRID_DISTANCE; var size = 3; var d = ""; for(var i = 0; i <= options.width; i += off) for(var j = 0; j <= options.height; j += off) d = d + "M" + (i - size) + " " + j + " l" + (2*size) + " 0 m" + (-size) + " " + (-size) + " l0 " + (2*size) + " m0" + (-size) + " "; ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node.firstChild.firstChild, ['path', {d:d , stroke:'#000000', 'stroke-width':'0.15px'},]); */ //Global definition of default font for shapes //Definitions in the SVG definition of a stencil will overwrite these settings for // that stencil. /*if(navigator.platform.indexOf("Mac") > -1) { this.node.setAttributeNS(null, 'stroke', 'black'); this.node.setAttributeNS(null, 'stroke-width', '0.5px'); this.node.setAttributeNS(null, 'font-family', 'Skia'); //this.node.setAttributeNS(null, 'letter-spacing', '2px'); this.node.setAttributeNS(null, 'font-size', ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT); } else { this.node.setAttributeNS(null, 'stroke', 'none'); this.node.setAttributeNS(null, 'font-family', 'Verdana'); this.node.setAttributeNS(null, 'font-size', ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT); }*/ this.node.setAttributeNS(null, 'stroke', 'none'); this.node.setAttributeNS(null, 'font-family', 'Verdana, sans-serif'); this.node.setAttributeNS(null, 'font-size-adjust', 'none'); this.node.setAttributeNS(null, 'font-style', 'normal'); this.node.setAttributeNS(null, 'font-variant', 'normal'); this.node.setAttributeNS(null, 'font-weight', 'normal'); this.node.setAttributeNS(null, 'line-heigth', 'normal'); this.node.setAttributeNS(null, 'font-size', ORYX.CONFIG.LABEL_DEFAULT_LINE_HEIGHT); this.bounds.set(0,0,options.width, options.height); this.addEventHandlers(this.rootNode.parentNode); //disable context menu this.rootNode.oncontextmenu = function() {return false;}; }, focus: function(){ try { // Get a href if (!this.focusEl) { this.focusEl = jQuery('body').append(jQuery('')); this.focusEl.swallowEvent("click", true); } // Focus it this.focusEl.focus.defer(1, this.focusEl); this.focusEl.blur.defer(3, this.focusEl); } catch(e){} }, setHightlightState: function(state) { if(this.colHighlightEnabled && this.colHighlightState != state) { if(state == 0) { this.columnHightlight1.setAttribute("visibility", "hidden"); this.columnHightlight2.setAttribute("visibility", "hidden"); } else if(state == 1) { this.columnHightlight1.setAttribute("visibility", "visible"); this.columnHightlight2.setAttribute("visibility", "hidden"); } else if(state == 2) { this.columnHightlight1.setAttribute("visibility", "hidden"); this.columnHightlight2.setAttribute("visibility", "visible"); } else if(state == 3) { this.columnHightlight1.setAttribute("visibility", "visible"); this.columnHightlight2.setAttribute("visibility", "visible"); } this.colHighlightState = state; } }, setHightlightStateBasedOnX : function(x) { if(x > ORYX.CONFIG.FORM_ROW_WIDTH + 30) { this.setHightlightState(2); } else { this.setHightlightState(1); } }, update: function() { this.nodes.each(function(node) { this._traverseForUpdate(node); }.bind(this)); // call stencil's layout callback // (needed for row layouting of xforms) //this.getStencil().layout(this); var layoutEvents = this.getStencil().layout(); if(layoutEvents) { layoutEvents.each(function(event) { // setup additional attributes event.shape = this; event.forceExecution = true; event.target = this.rootNode; // do layouting this._delegateEvent(event); }.bind(this)) } this.nodes.invoke("_update"); this.edges.invoke("_update", true); /*this.children.each(function(child) { child._update(); });*/ }, _traverseForUpdate: function(shape) { var childRet = shape.isChanged; shape.getChildNodes(false, function(child) { if(this._traverseForUpdate(child)) { childRet = true; } }.bind(this)); if(childRet) { shape.layout(); return true; } else { return false; } }, layout: function() { }, /** * * @param {Object} deep * @param {Object} iterator */ getChildNodes: function(deep, iterator) { if(!deep && !iterator) { return this.nodes.clone(); } else { var result = []; this.nodes.each(function(uiObject) { if(iterator) { iterator(uiObject); } result.push(uiObject); if(deep && uiObject instanceof ORYX.Core.Shape) { result = result.concat(uiObject.getChildNodes(deep, iterator)); } }); return result; } }, /** * buggy crap! use base class impl instead! * @param {Object} iterator */ /* getChildEdges: function(iterator) { if(iterator) { this.edges.each(function(edge) { iterator(edge); }); } return this.edges.clone(); }, */ /** * Overrides the UIObject.add method. Adds uiObject to the correct sub node. * @param {UIObject} uiObject */ add: function(uiObject, index, silent) { //if uiObject is child of another UIObject, remove it. if(uiObject instanceof ORYX.Core.UIObject) { if (!(this.children.member(uiObject))) { //if uiObject is child of another parent, remove it from that parent. if(uiObject.parent) { uiObject.parent.remove(uiObject, true); } //add uiObject to the Canvas //add uiObject to this Shape if(index != undefined) this.children.splice(index, 0, uiObject); else this.children.push(uiObject); //set parent reference uiObject.parent = this; //add uiObject.node to this.node depending on the type of uiObject if(uiObject instanceof ORYX.Core.Shape) { if(uiObject instanceof ORYX.Core.Edge) { uiObject.addMarkers(this.rootNode.getElementsByTagNameNS(NAMESPACE_SVG, "defs")[0]); uiObject.node = this.node.childNodes[0].childNodes[2].appendChild(uiObject.node); this.edges.push(uiObject); } else { uiObject.node = this.node.childNodes[0].childNodes[1].appendChild(uiObject.node); this.nodes.push(uiObject); } } else { //UIObject uiObject.node = this.node.appendChild(uiObject.node); } uiObject.bounds.registerCallback(this._changedCallback); if(this.eventHandlerCallback && silent !== true) this.eventHandlerCallback({type:ORYX.CONFIG.EVENT_SHAPEADDED,shape:uiObject}) } else { ORYX.Log.warn("add: ORYX.Core.UIObject is already a child of this object."); } } else { ORYX.Log.fatal("add: Parameter is not of type ORYX.Core.UIObject."); } }, /** * Overrides the UIObject.remove method. Removes uiObject. * @param {UIObject} uiObject */ remove: function(uiObject, silent) { //if uiObject is a child of this object, remove it. if (this.children.member(uiObject)) { //remove uiObject from children var parent = uiObject.parent; this.children = this.children.without(uiObject); //delete parent reference of uiObject uiObject.parent = undefined; //delete uiObject.node from this.node if(uiObject instanceof ORYX.Core.Shape) { if(uiObject instanceof ORYX.Core.Edge) { uiObject.removeMarkers(); uiObject.node = this.node.childNodes[0].childNodes[2].removeChild(uiObject.node); this.edges = this.edges.without(uiObject); } else { uiObject.node = this.node.childNodes[0].childNodes[1].removeChild(uiObject.node); this.nodes = this.nodes.without(uiObject); } } else { //UIObject uiObject.node = this.node.removeChild(uiObject.node); } if(this.eventHandlerCallback && silent !== true) this.eventHandlerCallback({type:ORYX.CONFIG.EVENT_SHAPEREMOVED,shape:uiObject, parent:parent}); uiObject.bounds.unregisterCallback(this._changedCallback); } else { ORYX.Log.warn("remove: ORYX.Core.UIObject is not a child of this object."); } }, /** * Creates shapes out of the given collection of shape objects and adds them to the canvas. * @example * canvas.addShapeObjects({ bounds:{ lowerRight:{ y:510, x:633 }, upperLeft:{ y:146, x:210 } }, resourceId:"oryx_F0715955-50F2-403D-9851-C08CFE70F8BD", childShapes:[], properties:{}, stencil:{ id:"Subprocess" }, outgoing:[{resourceId: 'aShape'}], target: {resourceId: 'aShape'} }); * @param {Object} shapeObjects * @param {Function} [eventHandler] An event handler passed to each newly created shape (as eventHandlerCallback) * @return {Array} A collection of ORYX.Core.Shape * @methodOf ORYX.Core.Canvas.prototype */ addShapeObjects: function(shapeObjects, eventHandler){ if(!shapeObjects) return; this.initializingShapes = true; /*FIXME This implementation is very evil! At first, all shapes are created on canvas. In a second step, the attributes are applied. There must be a distinction between the configuration phase (where the outgoings, for example, are just named), and the creation phase (where the outgoings are evaluated). This must be reflected in code to provide a nicer API/ implementation!!! */ var addShape = function(shape, parent){ // Create a new Stencil var stencil = ORYX.Core.StencilSet.stencil(this.getStencil().namespace() + shape.stencil.id ); // Create a new Shape var ShapeClass = (stencil.type() == "node") ? ORYX.Core.Node : ORYX.Core.Edge; var newShape = new ShapeClass( {'eventHandlerCallback': eventHandler}, stencil, this.facade); // Set the resource id newShape.resourceId = shape.resourceId; newShape.node.id = "svg-" + shape.resourceId; // Set parent to json object to be used later // Due to the nested json structure, normally shape.parent is not set/ must not be set. // In special cases, it can be easier to set this directly instead of a nested structure. shape.parent = "#" + ((shape.parent && shape.parent.resourceId) || parent.resourceId); // Add the shape to the canvas this.add( newShape ); return { json: shape, object: newShape }; }.bind(this); /** Builds up recursively a flatted array of shapes, including a javascript object and json representation * @param {Object} shape Any object that has Object#childShapes */ var addChildShapesRecursively = function(shape){ var addedShapes = []; if (shape.childShapes && shape.childShapes.constructor == String) { shape.childShapes = JSON.parse(shape.childShapes); } shape.childShapes.each(function(childShape){ addedShapes.push(addShape(childShape, shape)); addedShapes = addedShapes.concat(addChildShapesRecursively(childShape)); }); return addedShapes; }.bind(this); var shapes = addChildShapesRecursively({ childShapes: shapeObjects, resourceId: this.resourceId }); // prepare deserialisation parameter shapes.each( function(shape){ var properties = []; for(field in shape.json.properties){ properties.push({ prefix: 'oryx', name: field, value: shape.json.properties[field] }); } // Outgoings shape.json.outgoing.each(function(out){ properties.push({ prefix: 'raziel', name: 'outgoing', value: "#"+out.resourceId }); }); // Target // (because of a bug, the first outgoing is taken when there is no target, // can be removed after some time) if(shape.object instanceof ORYX.Core.Edge) { var target = shape.json.target || shape.json.outgoing[0]; if(target){ properties.push({ prefix: 'raziel', name: 'target', value: "#"+target.resourceId }); } } // Bounds if (shape.json.bounds) { properties.push({ prefix: 'oryx', name: 'bounds', value: shape.json.bounds.upperLeft.x + "," + shape.json.bounds.upperLeft.y + "," + shape.json.bounds.lowerRight.x + "," + shape.json.bounds.lowerRight.y }); } //Dockers [{x:40, y:50}, {x:30, y:60}] => "40 50 30 60 #" if(shape.json.dockers){ properties.push({ prefix: 'oryx', name: 'dockers', value: shape.json.dockers.inject("", function(dockersStr, docker){ return dockersStr + docker.x + " " + docker.y + " "; }) + " #" }); } //Parent properties.push({ prefix: 'raziel', name: 'parent', value: shape.json.parent }); shape.__properties = properties; }.bind(this) ); // Deserialize the properties from the shapes // This can't be done earlier because Shape#deserialize expects that all referenced nodes are already there // first, deserialize all nodes shapes.each(function(shape) { if(shape.object instanceof ORYX.Core.Node) { shape.object.deserialize(shape.__properties, shape.json); } }); // second, deserialize all edges shapes.each(function(shape) { if(shape.object instanceof ORYX.Core.Edge) { shape.object.deserialize(shape.__properties, shape.json); shape.object._oldBounds = shape.object.bounds.clone(); shape.object._update(); } }); delete this.initializingShapes; return shapes.pluck("object"); }, /** * Updates the size of the canvas, regarding to the containg shapes. */ updateSize: function(){ // Check the size for the canvas var maxWidth = 0; var maxHeight = 0; var offset = 100; this.getChildShapes(true, function(shape){ var b = shape.bounds; maxWidth = Math.max( maxWidth, b.lowerRight().x + offset) maxHeight = Math.max( maxHeight, b.lowerRight().y + offset) }); if( this.bounds.width() < maxWidth || this.bounds.height() < maxHeight ){ this.setSize({width: Math.max(this.bounds.width(), maxWidth), height: Math.max(this.bounds.height(), maxHeight)}) } }, getRootNode: function() { return this.rootNode; }, getUnderlayNode: function() { return this.underlayNode; }, getSvgContainer: function() { return this.node.childNodes[1]; }, getHTMLContainer: function() { return this._htmlContainer; }, /** * Return all elements of the same highest level * @param {Object} elements */ getShapesWithSharedParent: function(elements) { // If there is no elements, return [] if(!elements || elements.length < 1) { return []; } // If there is one element, return this element if(elements.length == 1) { return elements;} return elements.findAll(function(value){ var parentShape = value.parent; while(parentShape){ if(elements.member(parentShape)) return false; parentShape = parentShape.parent; } return true; }); }, setSize: function(size, dontSetBounds) { if(!size || !size.width || !size.height){return;}; if(this.rootNode.parentNode){ this.rootNode.parentNode.style.width = size.width + 'px'; this.rootNode.parentNode.style.height = size.height + 'px'; } this.rootNode.setAttributeNS(null, 'width', size.width); this.rootNode.setAttributeNS(null, 'height', size.height); //this._htmlContainer.style.top = "-" + (size.height + 4) + 'px'; if( !dontSetBounds ){ this.bounds.set({a:{x:0,y:0},b:{x:size.width/this.zoomLevel,y:size.height/this.zoomLevel}}); } }, /** * Returns an SVG document of the current process. * @param {Boolean} escapeText Use true, if you want to parse it with an XmlParser, * false, if you want to use the SVG document in browser on client side. */ getSVGRepresentation: function(escapeText) { // Get the serialized svg image source var svgClone = this.getRootNode().cloneNode(true); this._removeInvisibleElements(svgClone); var x1, y1, x2, y2; this.getChildShapes(true).each(function(shape) { var absBounds = shape.absoluteBounds(); var ul = absBounds.upperLeft(); var lr = absBounds.lowerRight(); if(x1 == undefined) { x1 = ul.x; y1 = ul.y; x2 = lr.x; y2 = lr.y; } else { x1 = Math.min(x1, ul.x); y1 = Math.min(y1, ul.y); x2 = Math.max(x2, lr.x); y2 = Math.max(y2, lr.y); } }); var margin = 50; var width, height, tx, ty; if(x1 == undefined) { width = 0; height = 0; tx = 0; ty = 0; } else { width = x2; height = y2; tx = -x1+margin/2; ty = -y1+margin/2; } // Set the width and height svgClone.setAttributeNS(null, 'width', width + margin); svgClone.setAttributeNS(null, 'height', height + margin); //remove scale factor svgClone.childNodes[1].removeAttributeNS(null, 'transform'); try{ var svgCont = svgClone.childNodes[1].childNodes[1]; svgCont.parentNode.removeChild(svgCont); } catch(e) {} if(escapeText) { $A(svgClone.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'tspan')).each(function(elem) { elem.textContent = elem.textContent.escapeHTML(); }); $A(svgClone.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'text')).each(function(elem) { if(elem.childNodes.length == 0) elem.textContent = elem.textContent.escapeHTML(); }); } // generating absolute urls for the pdf-exporter $A(svgClone.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'image')).each(function(elem) { var href = elem.getAttributeNS("http://www.w3.org/1999/xlink","href"); if(!href.match("^(http|https)://")) { href = window.location.protocol + "//" + window.location.host + href; elem.setAttributeNS("http://www.w3.org/1999/xlink", "href", href); } }); // escape all links $A(svgClone.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'a')).each(function(elem) { elem.setAttributeNS("http://www.w3.org/1999/xlink", "xlink:href", (elem.getAttributeNS("http://www.w3.org/1999/xlink","href")||"").escapeHTML()); }); return svgClone; }, /** * Removes all nodes (and its children) that has the * attribute visibility set to "hidden" */ _removeInvisibleElements: function(element) { var index = 0; while(index < element.childNodes.length) { var child = element.childNodes[index]; if(child.getAttributeNS && child.getAttributeNS(null, "visibility") === "hidden") { element.removeChild(child); } else { this._removeInvisibleElements(child); index++; } } }, /** * This method checks all shapes on the canvas and removes all shapes that * contain invalid bounds values or dockers values(NaN) */ /*cleanUp: function(parent) { if (!parent) { parent = this; } parent.getChildShapes().each(function(shape){ var a = shape.bounds.a; var b = shape.bounds.b; if (isNaN(a.x) || isNaN(a.y) || isNaN(b.x) || isNaN(b.y)) { parent.remove(shape); } else { shape.getDockers().any(function(docker) { a = docker.bounds.a; b = docker.bounds.b; if (isNaN(a.x) || isNaN(a.y) || isNaN(b.x) || isNaN(b.y)) { parent.remove(shape); return true; } return false; }); shape.getMagnets().any(function(magnet) { a = magnet.bounds.a; b = magnet.bounds.b; if (isNaN(a.x) || isNaN(a.y) || isNaN(b.x) || isNaN(b.y)) { parent.remove(shape); return true; } return false; }); this.cleanUp(shape); } }.bind(this)); },*/ _delegateEvent: function(event) { if(this.eventHandlerCallback && ( event.target == this.rootNode || event.target == this.rootNode.parentNode )) { this.eventHandlerCallback(event, this); } }, toString: function() { return "Canvas " + this.id }, /** * Calls {@link ORYX.Core.AbstractShape#toJSON} and adds some stencil set information. */ toJSON: function() { var json = arguments.callee.$.toJSON.apply(this, arguments); // if(ORYX.CONFIG.STENCILSET_HANDLER.length > 0) { // json.stencilset = { // url: this.getStencil().stencilSet().namespace() // }; // } else { json.stencilset = { url: this.getStencil().stencilSet().source(), namespace: this.getStencil().stencilSet().namespace() }; // } return json; } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ var idCounter = 0; var ID_PREFIX = "resource"; /** * Main initialization method. To be called when loading * of the document, including all scripts, is completed. */ function init() { ORYX.Log.debug("Querying editor instances"); // Hack for WebKit to set the SVGElement-Classes ORYX.Editor.setMissingClasses(); // If someone wants to create the editor instance himself if (window.onOryxResourcesLoaded) { window.onOryxResourcesLoaded(); } // Else fetch the model from server and display editor else { var modelId = window.location.search.substring(4); var modelUrl = "./service/model/" + modelId + "/json"; ORYX.Editor.createByUrl(modelUrl); } } /** @namespace Global Oryx name space @name ORYX */ if(!ORYX) {var ORYX = {};} /** * The Editor class. * @class ORYX.Editor * @extends Clazz * @param {Object} config An editor object, passed to {@link ORYX.Editor#loadSerialized} * @param {String} config.id Any ID that can be used inside the editor. If fullscreen=false, any HTML node with this id must be present to render the editor to this node. * @param {boolean} [config.fullscreen=true] Render editor in fullscreen mode or not. * @param {String} config.stencilset.url Stencil set URL. * @param {String} [config.stencil.id] Stencil type used for creating the canvas. * @param {Object} config.properties Any properties applied to the canvas. */ ORYX.Editor = { /** @lends ORYX.Editor.prototype */ // Defines the global dom event listener DOMEventListeners: new Hash(), // Defines the selection selection: [], // Defines the current zoom level zoomLevel:1.0, construct: function(config) { // initialization. this._eventsQueue = []; this.loadedPlugins = []; this.pluginsData = []; //meta data about the model for the signavio warehouse //directory, new, name, description, revision, model (the model data) this.modelMetaData = config; var model = config; this.id = model.modelId; if(config.model) { model = config.model; } if(!this.id) { this.id = model.id; if(!this.id) { this.id = ORYX.Editor.provideId(); } } // Defines if the editor should be fullscreen or not this.fullscreen = config.fullscreen !== false; // Initialize the eventlistener this._initEventListener(); // Load particular stencilset if(ORYX.CONFIG.BACKEND_SWITCH) { var ssUrl = (model.stencilset.namespace||model.stencilset.url).replace("#", "%23"); ORYX.Core.StencilSet.loadStencilSet(ssUrl, this.modelMetaData, this.id); } else { var ssUrl = model.stencilset.url; ORYX.Core.StencilSet.loadStencilSet(ssUrl, this.modelMetaData, this.id); } // CREATES the canvas this._createCanvas(model.stencil ? model.stencil.id : null, model.properties); // GENERATES the whole EXT.VIEWPORT this._generateGUI(); // Initializing of a callback to check loading ends var loadPluginFinished = false; var loadContentFinished = false; var initFinished = function(){ if( !loadPluginFinished || !loadContentFinished ){ return } this._finishedLoading(); }.bind(this) // LOAD the plugins window.setTimeout(function(){ this.loadPlugins(); loadPluginFinished = true; initFinished(); }.bind(this), 100); // LOAD the content of the current editor instance window.setTimeout(function(){ this.loadSerialized(model, true); // Request the meta data as well this.getCanvas().update(); loadContentFinished = true; initFinished(); }.bind(this), 200); }, _finishedLoading: function() { // Raise Loaded Event this.handleEvents( {type:ORYX.CONFIG.EVENT_LOADED} ) }, _initEventListener: function(){ // Register on Events document.documentElement.addEventListener(ORYX.CONFIG.EVENT_KEYDOWN, this.catchKeyDownEvents.bind(this), false); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_KEYUP, this.catchKeyUpEvents.bind(this), false); // Enable Key up and down Event this._keydownEnabled = true; this._keyupEnabled = true; this.DOMEventListeners[ORYX.CONFIG.EVENT_MOUSEDOWN] = []; this.DOMEventListeners[ORYX.CONFIG.EVENT_MOUSEUP] = []; this.DOMEventListeners[ORYX.CONFIG.EVENT_MOUSEOVER] = []; this.DOMEventListeners[ORYX.CONFIG.EVENT_MOUSEOUT] = []; this.DOMEventListeners[ORYX.CONFIG.EVENT_SELECTION_CHANGED] = []; this.DOMEventListeners[ORYX.CONFIG.EVENT_MOUSEMOVE] = []; }, /** * Generate the whole viewport of the * Editor and initialized the Ext-Framework * */ _generateGUI: function() { // Defines the layout height if it's NOT fullscreen var layoutHeight = ORYX.CONFIG.WINDOW_HEIGHT; var canvasParent = this.getCanvas().rootNode.parentNode; jQuery("#canvasSection").append(canvasParent); // Set the editor to the center, and refresh the size canvasParent.parentNode.setAttributeNS(null, 'align', 'center'); canvasParent.setAttributeNS(null, 'align', 'left'); this.getCanvas().setSize({ width : ORYX.CONFIG.CANVAS_WIDTH, height : ORYX.CONFIG.CANVAS_HEIGHT }); }, getAvailablePlugins: function(){ var curAvailablePlugins=ORYX.availablePlugins.clone(); curAvailablePlugins.each(function(plugin){ if(this.loadedPlugins.find(function(loadedPlugin){ return loadedPlugin.type==this.name; }.bind(plugin))){ plugin.engaged=true; }else{ plugin.engaged=false; } }.bind(this)); return curAvailablePlugins; }, loadScript: function (url, callback){ var script = document.createElement("script") script.type = "text/javascript"; if (script.readyState){ //IE script.onreadystatechange = function(){ if (script.readyState == "loaded" || script.readyState == "complete"){ script.onreadystatechange = null; callback(); } }; } else { //Others script.onload = function(){ callback(); }; } script.src = url; document.getElementsByTagName("head")[0].appendChild(script); }, /** * activate Plugin * * @param {String} name * @param {Function} callback * callback(sucess, [errorCode]) * errorCodes: NOTUSEINSTENCILSET, REQUIRESTENCILSET, NOTFOUND, YETACTIVATED */ activatePluginByName: function(name, callback, loadTry){ var match=this.getAvailablePlugins().find(function(value){return value.name==name}); if(match && (!match.engaged || (match.engaged==='false'))){ var loadedStencilSetsNamespaces = this.getStencilSets().keys(); var facade = this._getPluginFacade(); var newPlugin; var me=this; ORYX.Log.debug("Initializing plugin '%0'", match.name); if (!match.requires || !match.requires.namespaces || match.requires.namespaces.any(function(req){ return loadedStencilSetsNamespaces.indexOf(req) >= 0 }) ){ if(!match.notUsesIn || !match.notUsesIn.namespaces || !match.notUsesIn.namespaces.any(function(req){ return loadedStencilSetsNamespaces.indexOf(req) >= 0 })){ try { var className = eval(match.name); var newPlugin = new className(facade, match); newPlugin.type = match.name; // If there is an GUI-Plugin, they get all Plugins-Offer-Meta-Data if (newPlugin.registryChanged) newPlugin.registryChanged(me.pluginsData); // If there have an onSelection-Method it will pushed to the Editor Event-Handler if (newPlugin.onSelectionChanged) me.registerOnEvent(ORYX.CONFIG.EVENT_SELECTION_CHANGED, newPlugin.onSelectionChanged.bind(newPlugin)); this.loadedPlugins.push(newPlugin); this.loadedPlugins.each(function(loaded){ if(loaded.registryChanged) loaded.registryChanged(this.pluginsData); }.bind(me)); callback(true); } catch(e) { ORYX.Log.warn("Plugin %0 is not available", match.name); if(!!loadTry){ callback(false,"INITFAILED"); return; } this.loadScript("plugins/scripts/"+match.source, this.activatePluginByName.bind(this,match.name,callback,true)); } }else{ callback(false,"NOTUSEINSTENCILSET"); ORYX.Log.info("Plugin need a stencilset which is not loaded'", match.name); } } else { callback(false,"REQUIRESTENCILSET"); ORYX.Log.info("Plugin need a stencilset which is not loaded'", match.name); } }else{ callback(false, match?"NOTFOUND":"YETACTIVATED"); //TODO error handling } }, /** * Laden der Plugins */ loadPlugins: function() { // if there should be plugins but still are none, try again. // TODO this should wait for every plugin respectively. /*if (!ORYX.Plugins && ORYX.availablePlugins.length > 0) { window.setTimeout(this.loadPlugins.bind(this), 100); return; }*/ var me = this; var newPlugins = []; var loadedStencilSetsNamespaces = this.getStencilSets().keys(); // Available Plugins will be initalize var facade = this._getPluginFacade(); // If there is an Array where all plugins are described, than only take those // (that comes from the usage of oryx with a mashup api) if( ORYX.MashupAPI && ORYX.MashupAPI.loadablePlugins && ORYX.MashupAPI.loadablePlugins instanceof Array ){ // Get the plugins from the available plugins (those who are in the plugins.xml) ORYX.availablePlugins = $A(ORYX.availablePlugins).findAll(function(value){ return ORYX.MashupAPI.loadablePlugins.include( value.name ) }) // Add those plugins to the list, which are only in the loadablePlugins list ORYX.MashupAPI.loadablePlugins.each(function( className ){ if( !(ORYX.availablePlugins.find(function(val){ return val.name == className }))){ ORYX.availablePlugins.push( {name: className } ); } }) } ORYX.availablePlugins.each(function(value) { ORYX.Log.debug("Initializing plugin '%0'", value.name); if( (!value.requires || !value.requires.namespaces || value.requires.namespaces.any(function(req){ return loadedStencilSetsNamespaces.indexOf(req) >= 0 }) ) && (!value.notUsesIn || !value.notUsesIn.namespaces || !value.notUsesIn.namespaces.any(function(req){ return loadedStencilSetsNamespaces.indexOf(req) >= 0 }) )&& /*only load activated plugins or undefined */ (value.engaged || (value.engaged===undefined)) ){ try { var className = eval(value.name); if( className ){ var plugin = new className(facade, value); plugin.type = value.name; newPlugins.push( plugin ); plugin.engaged=true; } } catch(e) { ORYX.Log.warn("Plugin %0 is not available %1", value.name, e); } } else { ORYX.Log.info("Plugin need a stencilset which is not loaded'", value.name); } }); newPlugins.each(function(value) { // If there is an GUI-Plugin, they get all Plugins-Offer-Meta-Data if(value.registryChanged) value.registryChanged(me.pluginsData); // If there have an onSelection-Method it will pushed to the Editor Event-Handler if(value.onSelectionChanged) me.registerOnEvent(ORYX.CONFIG.EVENT_SELECTION_CHANGED, value.onSelectionChanged.bind(value)); }); this.loadedPlugins = newPlugins; this.registerPluginsOnKeyEvents(); this.setSelection(); }, /** * Creates the Canvas * @param {String} [stencilType] The stencil type used for creating the canvas. If not given, a stencil with myBeRoot = true from current stencil set is taken. * @param {Object} [canvasConfig] Any canvas properties (like language). */ _createCanvas: function(stencilType, canvasConfig) { if (stencilType) { // Add namespace to stencilType if (stencilType.search(/^http/) === -1) { stencilType = this.getStencilSets().values()[0].namespace() + stencilType; } } else { // Get any root stencil type stencilType = this.getStencilSets().values()[0].findRootStencilName(); } // get the stencil associated with the type var canvasStencil = ORYX.Core.StencilSet.stencil(stencilType); if (!canvasStencil) ORYX.Log.fatal("Initialisation failed, because the stencil with the type %0 is not part of one of the loaded stencil sets.", stencilType); // create all dom // TODO fix border, so the visible canvas has a double border and some spacing to the scrollbars var div = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", null, ['div']); // set class for custom styling div.addClassName("ORYX_Editor"); // create the canvas this._canvas = new ORYX.Core.Canvas({ width : ORYX.CONFIG.CANVAS_WIDTH, height : ORYX.CONFIG.CANVAS_HEIGHT, 'eventHandlerCallback' : this.handleEvents.bind(this), id : this.id, parentNode : div }, canvasStencil, this._getPluginFacade()); if (canvasConfig) { // Migrate canvasConfig to an RDF-like structure //FIXME this isn't nice at all because we don't want rdf any longer var properties = []; for(field in canvasConfig){ properties.push({ prefix: 'oryx', name: field, value: canvasConfig[field] }); } this._canvas.deserialize(properties); } }, /** * Returns a per-editor singleton plugin facade. * To be used in plugin initialization. */ _getPluginFacade: function() { // if there is no pluginfacade already created: if(!(this._pluginFacade)) // create it. this._pluginFacade = { activatePluginByName: this.activatePluginByName.bind(this), //deactivatePluginByName: this.deactivatePluginByName.bind(this), getAvailablePlugins: this.getAvailablePlugins.bind(this), offer: this.offer.bind(this), getStencilSets: this.getStencilSets.bind(this), getStencilSetExtensionDefinition:function(){ return Object.clone(this.ss_extensions_def||{})}.bind(this), getRules: this.getRules.bind(this), loadStencilSet: this.loadStencilSet.bind(this), createShape: this.createShape.bind(this), deleteShape: this.deleteShape.bind(this), getSelection: this.getSelection.bind(this), setSelection: this.setSelection.bind(this), updateSelection: this.updateSelection.bind(this), getCanvas: this.getCanvas.bind(this), importJSON: this.importJSON.bind(this), getJSON: this.getJSON.bind(this), getSerializedJSON: this.getSerializedJSON.bind(this), executeCommands: this.executeCommands.bind(this), isExecutingCommands: this.isExecutingCommands.bind(this), registerOnEvent: this.registerOnEvent.bind(this), unregisterOnEvent: this.unregisterOnEvent.bind(this), raiseEvent: this.handleEvents.bind(this), enableEvent: this.enableEvent.bind(this), disableEvent: this.disableEvent.bind(this), eventCoordinates: this.eventCoordinates.bind(this), eventCoordinatesXY: this.eventCoordinatesXY.bind(this), getModelMetaData: this.getModelMetaData.bind(this) }; // return it. return this._pluginFacade; }, isExecutingCommands: function(){ return !!this.commandExecuting; }, /** * Implementes the command pattern * (The real usage of the command pattern * is implemented and shown in the Plugins/undo.js) * * @param [] Array of commands */ executeCommands: function(commands){ if (!this.commandStack){ this.commandStack = []; } if (!this.commandStackExecuted){ this.commandStackExecuted = []; } this.commandStack = [].concat(this.commandStack) .concat(commands); // Check if already executes if (this.commandExecuting){ return; } // Start execution this.commandExecuting = true; // Iterate over all commands while(this.commandStack.length > 0){ var command = this.commandStack.shift(); // and execute it command.execute(); this.commandStackExecuted.push(command); } // Raise event for executing commands this.handleEvents({ type : ORYX.CONFIG.EVENT_EXECUTE_COMMANDS, commands : this.commandStackExecuted }); // Remove temporary vars delete this.commandStack; delete this.commandStackExecuted; delete this.commandExecuting; this.updateSelection(); }, /** * Returns JSON of underlying canvas (calls ORYX.Canvas#toJSON()). * @return {Object} Returns JSON representation as JSON object. */ getJSON: function(){ delete Array.prototype.toJSON; var canvasJSON = this.getCanvas().toJSON(); canvasJSON.ssextensions = this.getStencilSets().values()[0].extensions().keys().findAll(function(sse){ return !sse.endsWith('/meta#') }); return canvasJSON; }, /** * Serializes a call to toJSON(). * @return {String} Returns JSON representation as string. */ getSerializedJSON: function(){ return JSON.stringify(this.getJSON()); }, /** * Imports shapes in JSON as expected by {@link ORYX.Editor#loadSerialized} * @param {Object|String} jsonObject The (serialized) json object to be imported * @param {boolean } [noSelectionAfterImport=false] Set to true if no shapes should be selected after import * @throws {SyntaxError} If the serialized json object contains syntax errors */ importJSON: function(jsonObject, noSelectionAfterImport) { try { jsonObject = this.renewResourceIds(jsonObject); } catch(error){ throw error; } //check, if the imported json model can be loaded in this editor // (stencil set has to fit) if(jsonObject.stencilset.namespace && jsonObject.stencilset.namespace !== this.getCanvas().getStencil().stencilSet().namespace()) { alert(String.format(ORYX.I18N.JSONImport.wrongSS, jsonObject.stencilset.namespace, this.getCanvas().getStencil().stencilSet().namespace())); return null; } else { var commandClass = ORYX.Core.Command.extend({ construct: function(jsonObject, loadSerializedCB, noSelectionAfterImport, facade){ this.jsonObject = jsonObject; this.noSelection = noSelectionAfterImport; this.facade = facade; this.shapes; this.connections = []; this.parents = new Hash(); this.selection = this.facade.getSelection(); this.loadSerialized = loadSerializedCB; }, execute: function(){ if (!this.shapes) { // Import the shapes out of the serialization this.shapes = this.loadSerialized( this.jsonObject ); //store all connections this.shapes.each(function(shape) { if (shape.getDockers) { var dockers = shape.getDockers(); if (dockers) { if (dockers.length > 0) { this.connections.push([dockers.first(), dockers.first().getDockedShape(), dockers.first().referencePoint]); } if (dockers.length > 1) { this.connections.push([dockers.last(), dockers.last().getDockedShape(), dockers.last().referencePoint]); } } } //store parents this.parents[shape.id] = shape.parent; }.bind(this)); } else { this.shapes.each(function(shape) { this.parents[shape.id].add(shape); }.bind(this)); this.connections.each(function(con) { con[0].setDockedShape(con[1]); con[0].setReferencePoint(con[2]); con[0].update(); }); } //this.parents.values().uniq().invoke("update"); this.facade.getCanvas().update(); if(!this.noSelection) this.facade.setSelection(this.shapes); else this.facade.updateSelection(); // call updateSize again, because during loadSerialized the edges' bounds // are not yet initialized properly this.facade.getCanvas().updateSize(); }, rollback: function(){ var selection = this.facade.getSelection(); this.shapes.each(function(shape) { selection = selection.without(shape); this.facade.deleteShape(shape); }.bind(this)); /*this.parents.values().uniq().each(function(parent) { if(!this.shapes.member(parent)) parent.update(); }.bind(this));*/ this.facade.getCanvas().update(); this.facade.setSelection(selection); } }) var command = new commandClass(jsonObject, this.loadSerialized.bind(this), noSelectionAfterImport, this._getPluginFacade()); this.executeCommands([command]); return command.shapes.clone(); } }, /** * This method renew all resource Ids and according references. * Warning: The implementation performs a substitution on the serialized object for * easier implementation. This results in a low performance which is acceptable if this * is only used when importing models. * @param {Object|String} jsonObject * @throws {SyntaxError} If the serialized json object contains syntax errors. * @return {Object} The jsonObject with renewed ids. * @private */ renewResourceIds: function(jsonObject){ // For renewing resource ids, a serialized and object version is needed if(Object.prototype.toString.call(jsonObject) === "String"){ try { var serJsonObject = jsonObject; jsonObject = JSON.parse(jsonObject); } catch(error){ throw new SyntaxError(error.message); } } else { var serJsonObject = JSON.stringify(jsonObject); } // collect all resourceIds recursively var collectResourceIds = function(shapes){ if(!shapes) return []; return shapes.map(function(shape){ return collectResourceIds(shape.childShapes).concat(shape.resourceId); }).flatten(); } var resourceIds = collectResourceIds(jsonObject.childShapes); // Replace each resource id by a new one resourceIds.each(function(oldResourceId){ var newResourceId = ORYX.Editor.provideId(); serJsonObject = serJsonObject.replace(new RegExp(oldResourceId, 'g'), newResourceId); }); return JSON.parse(serJsonObject); }, /** * Loads serialized model to the oryx. * @example * editor.loadSerialized({ * resourceId: "mymodel1", * childShapes: [ * { * stencil:{ id:"Subprocess" }, * outgoing:[{resourceId: 'aShape'}], * target: {resourceId: 'aShape'}, * bounds:{ lowerRight:{ y:510, x:633 }, upperLeft:{ y:146, x:210 } }, * resourceId: "myshape1", * childShapes:[], * properties:{}, * } * ], * properties:{ * language: "English" * }, * stencilset:{ * url:"http://localhost:8080/oryx/stencilsets/bpmn1.1/bpmn1.1.json" * }, * stencil:{ * id:"BPMNDiagram" * } * }); * @param {Object} model Description of the model to load. * @param {Array} [model.ssextensions] List of stenctil set extensions. * @param {String} model.stencilset.url * @param {String} model.stencil.id * @param {Array} model.childShapes * @param {Array} [model.properties] * @param {String} model.resourceId * @return {ORYX.Core.Shape[]} List of created shapes * @methodOf ORYX.Editor.prototype */ loadSerialized: function(model, requestMeta){ var canvas = this.getCanvas(); // Bugfix (cf. http://code.google.com/p/oryx-editor/issues/detail?id=240) // Deserialize the canvas' stencil set extensions properties first! this.loadSSExtensions(model.ssextensions); // Load Meta Data Extension if available // #Signavio if (requestMeta === true) { var metaDataExtension = this.getExtensionForMetaData(); if (metaDataExtension) { this.loadSSExtension(metaDataExtension); } } var shapes = this.getCanvas().addShapeObjects(model.childShapes, this.handleEvents.bind(this)); if(model.properties) { for(key in model.properties) { var value = model.properties[key]; var prop = this.getCanvas().getStencil().property("oryx-"+key); if (!(typeof value === "string") && (!prop || !prop.isList())) { value = JSON.stringify(value); } this.getCanvas().setProperty("oryx-" + key, value); } } this.getCanvas().updateSize(); // Force to update the selection this.selection = [null]; this.setSelection([]); return shapes; }, /** * Return the namespace of the extension which * provided all the self defined meta data * @return {String} Returns null if no extension is defined, otherwise the namespace * */ getExtensionForMetaData: function(){ if (!this.ss_extensions_def||!(this.ss_extensions_def.extensions instanceof Array)){ return null; } var stencilsets = this.getStencilSets(); var extension = this.ss_extensions_def.extensions.find(function(ex){ return !!stencilsets[ex["extends"]] && ex.namespace.endsWith("/meta#"); }); return extension ? extension.namespace || null : null; }, /** * Calls ORYX.Editor.prototype.ss_extension_namespace for each element * @param {Array} ss_extension_namespaces An array of stencil set extension namespaces. */ loadSSExtensions: function(ss_extension_namespaces){ if(!ss_extension_namespaces) return; ss_extension_namespaces.each(function(ss_extension_namespace){ this.loadSSExtension(ss_extension_namespace); }.bind(this)); }, /** * Loads a stencil set extension. * The stencil set extensions definiton file must already * be loaded when the editor is initialized. */ loadSSExtension: function(ss_extension_namespace) { if (this.ss_extensions_def) { var extension = this.ss_extensions_def.extensions.find(function(ex){ return (ex.namespace == ss_extension_namespace); }); if (!extension) { return; } var stencilset = this.getStencilSets()[extension["extends"]]; if (!stencilset) { return; } // Check if absolute or relative url if ((extension["definition"]||"").startsWith("/")){ stencilset.addExtension(extension["definition"]) } else { stencilset.addExtension(ORYX.CONFIG.SS_EXTENSIONS_FOLDER + extension["definition"]) } //stencilset.addExtension("/oryx/build/stencilsets/extensions/" + extension["definition"]) this.getRules().initializeRules(stencilset); this._getPluginFacade().raiseEvent({ type: ORYX.CONFIG.EVENT_STENCIL_SET_LOADED }); } }, disableEvent: function(eventType){ if(eventType == ORYX.CONFIG.EVENT_KEYDOWN) { this._keydownEnabled = false; } if(eventType == ORYX.CONFIG.EVENT_KEYUP) { this._keyupEnabled = false; } if(this.DOMEventListeners.keys().member(eventType)) { var value = this.DOMEventListeners.remove(eventType); this.DOMEventListeners['disable_' + eventType] = value; } }, enableEvent: function(eventType){ if(eventType == ORYX.CONFIG.EVENT_KEYDOWN) { this._keydownEnabled = true; } if(eventType == ORYX.CONFIG.EVENT_KEYUP) { this._keyupEnabled = true; } if(this.DOMEventListeners.keys().member("disable_" + eventType)) { var value = this.DOMEventListeners.remove("disable_" + eventType); this.DOMEventListeners[eventType] = value; } }, /** * Methods for the PluginFacade */ registerOnEvent: function(eventType, callback) { if(!(this.DOMEventListeners.keys().member(eventType))) { this.DOMEventListeners[eventType] = []; } this.DOMEventListeners[eventType].push(callback); }, unregisterOnEvent: function(eventType, callback) { if(this.DOMEventListeners.keys().member(eventType)) { this.DOMEventListeners[eventType] = this.DOMEventListeners[eventType].without(callback); } else { // Event is not supported // TODO: Error Handling } }, getSelection: function() { return this.selection || []; }, getStencilSets: function() { return ORYX.Core.StencilSet.stencilSets(this.id); }, getRules: function() { return ORYX.Core.StencilSet.rules(this.id); }, loadStencilSet: function(source) { try { ORYX.Core.StencilSet.loadStencilSet(source, this.modelMetaData, this.id); this.handleEvents({type:ORYX.CONFIG.EVENT_STENCIL_SET_LOADED}); } catch (e) { ORYX.Log.warn("Requesting stencil set file failed. (" + e + ")"); } }, offer: function(pluginData) { if(!this.pluginsData.member(pluginData)){ this.pluginsData.push(pluginData); } }, /** * It creates an new event or adds the callback, if already existing, * for the key combination that the plugin passes in keyCodes attribute * of the offer method. * * The new key down event fits the schema: * key.event[.metactrl][.alt][.shift].'thekeyCode' */ registerPluginsOnKeyEvents: function() { this.pluginsData.each(function(pluginData) { if(pluginData.keyCodes) { pluginData.keyCodes.each(function(keyComb) { var eventName = "key.event"; /* Include key action */ eventName += '.' + keyComb.keyAction; if(keyComb.metaKeys) { /* Register on ctrl or apple meta key as meta key */ if(keyComb.metaKeys. indexOf(ORYX.CONFIG.META_KEY_META_CTRL) > -1) { eventName += "." + ORYX.CONFIG.META_KEY_META_CTRL; } /* Register on alt key as meta key */ if(keyComb.metaKeys. indexOf(ORYX.CONFIG.META_KEY_ALT) > -1) { eventName += '.' + ORYX.CONFIG.META_KEY_ALT; } /* Register on shift key as meta key */ if(keyComb.metaKeys. indexOf(ORYX.CONFIG.META_KEY_SHIFT) > -1) { eventName += '.' + ORYX.CONFIG.META_KEY_SHIFT; } } /* Register on the actual key */ if(keyComb.keyCode) { eventName += '.' + keyComb.keyCode; } /* Register the event */ ORYX.Log.debug("Register Plugin on Key Event: %0", eventName); if (pluginData.toggle === true && pluginData.buttonInstance) { this.registerOnEvent(eventName, function(){ pluginData.buttonInstance.toggle(!pluginData.buttonInstance.pressed); // Toggle pluginData.functionality.call(pluginData, pluginData.buttonInstance, pluginData.buttonInstance.pressed); // Call function }); } else { this.registerOnEvent(eventName, pluginData.functionality) } }.bind(this)); } }.bind(this)); }, isEqual: function(a,b){ return a === b || (a.length === b.length && a.all(function(r){ return b.include(r) })) }, isDirty: function(a){ return a.any(function(shape){ return shape.isPropertyChanged() }) }, setSelection: function(elements, subSelectionElement, force) { if (!elements) { elements = []; } if (!(elements instanceof Array)) { elements = [elements]; } elements = elements.findAll(function(n){ return n && n instanceof ORYX.Core.Shape }); if (elements[0] instanceof ORYX.Core.Canvas) { elements = []; } if (!force && this.isEqual(this.selection, elements) && !this.isDirty(elements)){ return; } this.selection = elements; this._subSelection = subSelectionElement; this.handleEvents({type:ORYX.CONFIG.EVENT_SELECTION_CHANGED, elements:elements, subSelection: subSelectionElement, force: !!force}) }, updateSelection: function() { this.setSelection(this.selection, this._subSelection, true); /*var s = this.selection; this.setSelection(); this.setSelection(s);*/ }, getCanvas: function() { return this._canvas; }, /** * option = { * type: string, * position: {x:int, y:int}, * connectingType: uiObj-Class * connectedShape: uiObj * draggin: bool * namespace: url * parent: ORYX.Core.AbstractShape * template: a template shape that the newly created inherits properties from. * } */ createShape: function(option) { if(option && option.serialize && option.serialize instanceof Array){ var type = option.serialize.find(function(obj){return (obj.prefix+"-"+obj.name) == "oryx-type"}); var stencil = ORYX.Core.StencilSet.stencil(type.value); if(stencil.type() == 'node'){ var newShapeObject = new ORYX.Core.Node({'eventHandlerCallback':this.handleEvents.bind(this)}, stencil, this._getPluginFacade()); } else { var newShapeObject = new ORYX.Core.Edge({'eventHandlerCallback':this.handleEvents.bind(this)}, stencil, this._getPluginFacade()); } this.getCanvas().add(newShapeObject); newShapeObject.deserialize(option.serialize); return newShapeObject; } // If there is no argument, throw an exception if(!option || !option.type || !option.namespace) { throw "To create a new shape you have to give an argument with type and namespace";} var canvas = this.getCanvas(); var newShapeObject; // Get the shape type var shapetype = option.type; // Get the stencil set var sset = ORYX.Core.StencilSet.stencilSet(option.namespace); // Create an New Shape, dependents on an Edge or a Node if(sset.stencil(shapetype).type() == "node") { newShapeObject = new ORYX.Core.Node({'eventHandlerCallback':this.handleEvents.bind(this)}, sset.stencil(shapetype), this._getPluginFacade()) } else { newShapeObject = new ORYX.Core.Edge({'eventHandlerCallback':this.handleEvents.bind(this)}, sset.stencil(shapetype), this._getPluginFacade()) } // when there is a template, inherit the properties. if(option.template) { newShapeObject._jsonStencil.properties = option.template._jsonStencil.properties; newShapeObject.postProcessProperties(); } // Add to the canvas if(option.parent && newShapeObject instanceof ORYX.Core.Node) { option.parent.add(newShapeObject); } else { canvas.add(newShapeObject); } // Set the position var point = option.position ? option.position : {x:100, y:200}; var con; // If there is create a shape and in the argument there is given an ConnectingType and is instance of an edge if(option.connectingType && option.connectedShape && !(newShapeObject instanceof ORYX.Core.Edge)) { // there will be create a new Edge con = new ORYX.Core.Edge({'eventHandlerCallback':this.handleEvents.bind(this)}, sset.stencil(option.connectingType)); // And both endings dockers will be referenced to the both shapes con.dockers.first().setDockedShape(option.connectedShape); var magnet = option.connectedShape.getDefaultMagnet() var cPoint = magnet ? magnet.bounds.center() : option.connectedShape.bounds.midPoint(); con.dockers.first().setReferencePoint( cPoint ); con.dockers.last().setDockedShape(newShapeObject); con.dockers.last().setReferencePoint(newShapeObject.getDefaultMagnet().bounds.center()); // The Edge will be added to the canvas and be updated canvas.add(con); //con.update(); } // Move the new Shape to the position if(newShapeObject instanceof ORYX.Core.Edge && option.connectedShape) { newShapeObject.dockers.first().setDockedShape(option.connectedShape); if( option.connectedShape instanceof ORYX.Core.Node ){ newShapeObject.dockers.first().setReferencePoint(option.connectedShape.getDefaultMagnet().bounds.center()); newShapeObject.dockers.last().bounds.centerMoveTo(point); } else { newShapeObject.dockers.first().setReferencePoint(option.connectedShape.bounds.midPoint()); } var start = newShapeObject.dockers.first(); var end = newShapeObject.dockers.last(); if(start.getDockedShape() && end.getDockedShape()) { var startPoint = start.getAbsoluteReferencePoint(); var endPoint = end.getAbsoluteReferencePoint(); var docker = newShapeObject.createDocker(); docker.bounds.centerMoveTo({ x: startPoint.x + (endPont.x - startPoint.x) / 2, y: startPoint.y + (endPont.y - startPoint.y) / 2 }); } } else { var b = newShapeObject.bounds if( newShapeObject instanceof ORYX.Core.Node && newShapeObject.dockers.length == 1){ b = newShapeObject.dockers.first().bounds } b.centerMoveTo(point); var upL = b.upperLeft(); b.moveBy( -Math.min(upL.x, 0) , -Math.min(upL.y, 0) ) var lwR = b.lowerRight(); b.moveBy( -Math.max(lwR.x-canvas.bounds.width(), 0) , -Math.max(lwR.y-canvas.bounds.height(), 0) ) } // Update the shape if (newShapeObject instanceof ORYX.Core.Edge) { newShapeObject._update(false); } // And refresh the selection if(!(newShapeObject instanceof ORYX.Core.Edge)&&!(option.dontUpdateSelection)) { this.setSelection([newShapeObject]); } if(con && con.alignDockers) { //con.alignDockers(); } if(newShapeObject.alignDockers) { newShapeObject.alignDockers(); } return newShapeObject; }, deleteShape: function(shape) { if (!shape || !shape.parent){ return } //remove shape from parent // this also removes it from DOM shape.parent.remove(shape); //delete references to outgoing edges shape.getOutgoingShapes().each(function(os) { var docker = os.getDockers().first(); if(docker && docker.getDockedShape() == shape) { docker.setDockedShape(undefined); } }); //delete references to incoming edges shape.getIncomingShapes().each(function(is) { var docker = is.getDockers().last(); if(docker && docker.getDockedShape() == shape) { docker.setDockedShape(undefined); } }); //delete references of the shape's dockers shape.getDockers().each(function(docker) { docker.setDockedShape(undefined); }); }, /** * Returns an object with meta data about the model. * Like name, description, ... * * Empty object with the current backend. * * @return {Object} Meta data about the model */ getModelMetaData: function() { return this.modelMetaData; }, /* Event-Handler Methods */ /** * Helper method to execute an event immediately. The event is not * scheduled in the _eventsQueue. Needed to handle Layout-Callbacks. */ _executeEventImmediately: function(eventObj) { if(this.DOMEventListeners.keys().member(eventObj.event.type)) { this.DOMEventListeners[eventObj.event.type].each((function(value) { value(eventObj.event, eventObj.arg); }).bind(this)); } }, _executeEvents: function() { this._queueRunning = true; while(this._eventsQueue.length > 0) { var val = this._eventsQueue.shift(); this._executeEventImmediately(val); } this._queueRunning = false; }, /** * Leitet die Events an die Editor-Spezifischen Event-Methoden weiter * @param {Object} event Event , welches gefeuert wurde * @param {Object} uiObj Target-UiObj */ handleEvents: function(event, uiObj) { ORYX.Log.trace("Dispatching event type %0 on %1", event.type, uiObj); switch(event.type) { case ORYX.CONFIG.EVENT_MOUSEDOWN: this._handleMouseDown(event, uiObj); break; case ORYX.CONFIG.EVENT_MOUSEMOVE: this._handleMouseMove(event, uiObj); break; case ORYX.CONFIG.EVENT_MOUSEUP: this._handleMouseUp(event, uiObj); break; case ORYX.CONFIG.EVENT_MOUSEOVER: this._handleMouseHover(event, uiObj); break; case ORYX.CONFIG.EVENT_MOUSEOUT: this._handleMouseOut(event, uiObj); break; } /* Force execution if necessary. Used while handle Layout-Callbacks. */ if(event.forceExecution) { this._executeEventImmediately({event: event, arg: uiObj}); } else { this._eventsQueue.push({event: event, arg: uiObj}); } if(!this._queueRunning) { this._executeEvents(); } // TODO: Make this return whether no listener returned false. // So that, when one considers bubbling undesireable, it won't happen. return false; }, isValidEvent: function(e){ try { var isInput = ["INPUT", "TEXTAREA"].include(e.target.tagName.toUpperCase()); var gridHasFocus = e.target.className.include("x-grid3-focus") && !e.target.className.include("x-grid3-focus-canvas"); return !isInput && !gridHasFocus; } catch(e){ return false; } }, catchKeyUpEvents: function(event) { if(!this._keyupEnabled) { return; } /* assure we have the current event. */ if (!event) event = window.event; // Checks if the event comes from some input field if (!this.isValidEvent(event)){ return; } /* Create key up event type */ var keyUpEvent = this.createKeyCombEvent(event, ORYX.CONFIG.KEY_ACTION_UP); ORYX.Log.debug("Key Event to handle: %0", keyUpEvent); /* forward to dispatching. */ this.handleEvents({type: keyUpEvent, event:event}); }, /** * Catches all key down events and forward the appropriated event to * dispatching concerning to the pressed keys. * * @param {Event} * The key down event to handle */ catchKeyDownEvents: function(event) { if(!this._keydownEnabled) { return; } /* Assure we have the current event. */ if (!event) event = window.event; /* Fixed in FF3 */ // This is a mac-specific fix. The mozilla event object has no knowledge // of meta key modifier on osx, however, it is needed for certain // shortcuts. This fix adds the metaKey field to the event object, so // that all listeners that registered per Oryx plugin facade profit from // this. The original bug is filed in // https://bugzilla.mozilla.org/show_bug.cgi?id=418334 //if (this.__currentKey == ORYX.CONFIG.KEY_CODE_META) { // event.appleMetaKey = true; //} //this.__currentKey = pressedKey; // Checks if the event comes from some input field if (!this.isValidEvent(event)){ return; } /* Create key up event type */ var keyDownEvent = this.createKeyCombEvent(event, ORYX.CONFIG.KEY_ACTION_DOWN); ORYX.Log.debug("Key Event to handle: %0", keyDownEvent); /* Forward to dispatching. */ this.handleEvents({type: keyDownEvent,event: event}); }, /** * Creates the event type name concerning to the pressed keys. * * @param {Event} keyDownEvent * The source keyDownEvent to build up the event name */ createKeyCombEvent: function(keyEvent, keyAction) { /* Get the currently pressed key code. */ var pressedKey = keyEvent.which || keyEvent.keyCode; //this.__currentKey = pressedKey; /* Event name */ var eventName = "key.event"; /* Key action */ if(keyAction) { eventName += "." + keyAction; } /* Ctrl or apple meta key is pressed */ if(keyEvent.ctrlKey || keyEvent.metaKey) { eventName += "." + ORYX.CONFIG.META_KEY_META_CTRL; } /* Alt key is pressed */ if(keyEvent.altKey) { eventName += "." + ORYX.CONFIG.META_KEY_ALT; } /* Alt key is pressed */ if(keyEvent.shiftKey) { eventName += "." + ORYX.CONFIG.META_KEY_SHIFT; } /* Return the composed event name */ return eventName + "." + pressedKey; }, _handleMouseDown: function(event, uiObj) { // get canvas. var canvas = this.getCanvas(); // Try to get the focus canvas.focus() // find the shape that is responsible for this element's id. var element = event.currentTarget; var elementController = uiObj; // gather information on selection. var currentIsSelectable = (elementController !== null) && (elementController !== undefined) && (elementController.isSelectable); var currentIsMovable = (elementController !== null) && (elementController !== undefined) && (elementController.isMovable); var modifierKeyPressed = event.shiftKey || event.ctrlKey; var noObjectsSelected = this.selection.length === 0; var currentIsSelected = this.selection.member(elementController); // Rule #1: When there is nothing selected, select the clicked object. if(currentIsSelectable && noObjectsSelected) { this.setSelection([elementController]); ORYX.Log.trace("Rule #1 applied for mouse down on %0", element.id); // Rule #3: When at least one element is selected, and there is no // control key pressed, and the clicked object is not selected, select // the clicked object. } else if(currentIsSelectable && !noObjectsSelected && !modifierKeyPressed && !currentIsSelected) { this.setSelection([elementController]); //var objectType = elementController.readAttributes(); //alert(objectType[0] + ": " + objectType[1]); ORYX.Log.trace("Rule #3 applied for mouse down on %0", element.id); // Rule #4: When the control key is pressed, and the current object is // not selected, add it to the selection. } else if(currentIsSelectable && modifierKeyPressed && !currentIsSelected) { var newSelection = this.selection.clone(); newSelection.push(elementController) this.setSelection(newSelection) ORYX.Log.trace("Rule #4 applied for mouse down on %0", element.id); // Rule #6 } else if(currentIsSelectable && currentIsSelected && modifierKeyPressed) { var newSelection = this.selection.clone(); this.setSelection(newSelection.without(elementController)) ORYX.Log.trace("Rule #6 applied for mouse down on %0", elementController.id); // Rule #5: When there is at least one object selected and no control // key pressed, we're dragging. /*} else if(currentIsSelectable && !noObjectsSelected && !modifierKeyPressed) { if(this.log.isTraceEnabled()) this.log.trace("Rule #5 applied for mouse down on "+element.id); */ // Rule #2: When clicked on something that is neither // selectable nor movable, clear the selection, and return. } else if (!currentIsSelectable && !currentIsMovable) { this.setSelection([]); ORYX.Log.trace("Rule #2 applied for mouse down on %0", element.id); return; // Rule #7: When the current object is not selectable but movable, // it is probably a control. Leave the selection unchanged but set // the movedObject to the current one and enable Drag. Dockers will // be processed in the dragDocker plugin. } else if(!currentIsSelectable && currentIsMovable && !(elementController instanceof ORYX.Core.Controls.Docker)) { // TODO: If there is any moveable elements, do this in a plugin //ORYX.Core.UIEnableDrag(event, elementController); ORYX.Log.trace("Rule #7 applied for mouse down on %0", element.id); // Rule #8: When the element is selectable and is currently selected and no // modifier key is pressed } else if(currentIsSelectable && currentIsSelected && !modifierKeyPressed) { this._subSelection = this._subSelection != elementController ? elementController : undefined; this.setSelection(this.selection, this._subSelection); ORYX.Log.trace("Rule #8 applied for mouse down on %0", element.id); } // prevent event from bubbling, return. //Event.stop(event); return; }, _handleMouseMove: function(event, uiObj) { return; }, _handleMouseUp: function(event, uiObj) { // get canvas. var canvas = this.getCanvas(); // find the shape that is responsible for this elemement's id. var elementController = uiObj; //get event position var evPos = this.eventCoordinates(event); //Event.stop(event); }, _handleMouseHover: function(event, uiObj) { return; }, _handleMouseOut: function(event, uiObj) { return; }, /** * Calculates the event coordinates to SVG document coordinates. * @param {Event} event * @return {SVGPoint} The event coordinates in the SVG document */ eventCoordinates: function(event) { var canvas = this.getCanvas(); var svgPoint = canvas.node.ownerSVGElement.createSVGPoint(); svgPoint.x = event.clientX; svgPoint.y = event.clientY; var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { svgPoint.x = svgPoint.x * additionalIEZoom; svgPoint.y = svgPoint.y * additionalIEZoom; } var matrix = canvas.node.getScreenCTM(); return svgPoint.matrixTransform(matrix.inverse()); }, eventCoordinatesXY: function(x, y) { var canvas = this.getCanvas(); var svgPoint = canvas.node.ownerSVGElement.createSVGPoint(); svgPoint.x = x; svgPoint.y = y; var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { svgPoint.x = svgPoint.x * additionalIEZoom; svgPoint.y = svgPoint.y * additionalIEZoom; } var matrix = canvas.node.getScreenCTM(); return svgPoint.matrixTransform(matrix.inverse()); } }; ORYX.Editor = Clazz.extend(ORYX.Editor); /** * Creates a new ORYX.Editor instance by fetching a model from given url and passing it to the constructur * @param {String} modelUrl The JSON URL of a model. * @param {Object} config Editor config passed to the constructur, merged with the response of the request to modelUrl */ ORYX.Editor.createByUrl = function(modelUrl){ new Ajax.Request(modelUrl, { method: 'GET', onSuccess: function(transport) { var editorConfig = JSON.parse(transport.responseText); new ORYX.Editor(editorConfig); }.bind(this) }); } // TODO Implement namespace awareness on attribute level. /** * graft() function * Originally by Sean M. Burke from interglacial.com, altered for usage with * SVG and namespace (xmlns) support. Be sure you understand xmlns before * using this funtion, as it creates all grafted elements in the xmlns * provided by you and all element's attribures in default xmlns. If you * need to graft elements in a certain xmlns and wish to assign attributes * in both that and another xmlns, you will need to do stepwise grafting, * adding non-default attributes yourself or you'll have to enhance this * function. Latter, I would appreciate: martin???apfelfabrik.de * @param {Object} namespace The namespace in which * elements should be grafted. * @param {Object} parent The element that should contain the grafted * structure after the function returned. * @param {Object} t the crafting structure. * @param {Object} doc the document in which grafting is performed. */ ORYX.Editor.graft = function(namespace, parent, t, doc) { doc = (doc || (parent && parent.ownerDocument) || document); var e; if(t === undefined) { throw "Can't graft an undefined value"; } else if(t.constructor == String) { e = doc.createTextNode( t ); } else { for(var i = 0; i < t.length; i++) { if( i === 0 && t[i].constructor == String ) { var snared; snared = t[i].match( /^([a-z][a-z0-9]*)\.([^\s\.]+)$/i ); if( snared ) { e = doc.createElementNS(namespace, snared[1] ); e.setAttributeNS(null, 'class', snared[2] ); continue; } snared = t[i].match( /^([a-z][a-z0-9]*)$/i ); if( snared ) { e = doc.createElementNS(namespace, snared[1] ); // but no class continue; } // Otherwise: e = doc.createElementNS(namespace, "span" ); e.setAttribute(null, "class", "namelessFromLOL" ); } if( t[i] === undefined ) { throw "Can't graft an undefined value in a list!"; } else if( t[i].constructor == String || t[i].constructor == Array ) { this.graft(namespace, e, t[i], doc ); } else if( t[i].constructor == Number ) { this.graft(namespace, e, t[i].toString(), doc ); } else if( t[i].constructor == Object ) { // hash's properties => element's attributes for(var k in t[i]) { e.setAttributeNS(null, k, t[i][k] ); } } else { } } } if(parent && parent.appendChild) { parent.appendChild( e ); } else { } return e; // return the topmost created node }; ORYX.Editor.provideId = function() { var res = [], hex = '0123456789ABCDEF'; for (var i = 0; i < 36; i++) res[i] = Math.floor(Math.random()*0x10); res[14] = 4; res[19] = (res[19] & 0x3) | 0x8; for (var i = 0; i < 36; i++) res[i] = hex[res[i]]; res[8] = res[13] = res[18] = res[23] = '-'; return "oryx_" + res.join(''); }; /** * When working with Ext, conditionally the window needs to be resized. To do * so, use this class method. Resize is deferred until 100ms, and all subsequent * resizeBugFix calls are ignored until the initially requested resize is * performed. */ ORYX.Editor.resizeFix = function() { if (!ORYX.Editor._resizeFixTimeout) { ORYX.Editor._resizeFixTimeout = window.setTimeout(function() { window.resizeBy(1,1); window.resizeBy(-1,-1); ORYX.Editor._resizefixTimeout = null; }, 100); } }; ORYX.Editor.Cookie = { callbacks:[], onChange: function( callback, interval ){ this.callbacks.push(callback); this.start( interval ) }, start: function( interval ){ if( this.pe ){ return; } var currentString = document.cookie; this.pe = new PeriodicalExecuter( function(){ if( currentString != document.cookie ){ currentString = document.cookie; this.callbacks.each(function(callback){ callback(this.getParams()) }.bind(this)); } }.bind(this), ( interval || 10000 ) / 1000); }, stop: function(){ if( this.pe ){ this.pe.stop(); this.pe = null; } }, getParams: function(){ var res = {}; var p = document.cookie; p.split("; ").each(function(param){ res[param.split("=")[0]] = param.split("=")[1];}); return res; }, toString: function(){ return document.cookie; } }; /** * Workaround for SAFARI/Webkit, because * when trying to check SVGSVGElement of instanceof there is * raising an error * */ ORYX.Editor.SVGClassElementsAreAvailable = true; ORYX.Editor.setMissingClasses = function() { try { SVGElement; } catch(e) { ORYX.Editor.SVGClassElementsAreAvailable = false; SVGSVGElement = document.createElementNS('http://www.w3.org/2000/svg', 'svg').toString(); SVGGElement = document.createElementNS('http://www.w3.org/2000/svg', 'g').toString(); SVGPathElement = document.createElementNS('http://www.w3.org/2000/svg', 'path').toString(); SVGTextElement = document.createElementNS('http://www.w3.org/2000/svg', 'text').toString(); //SVGMarkerElement = document.createElementNS('http://www.w3.org/2000/svg', 'marker').toString(); SVGRectElement = document.createElementNS('http://www.w3.org/2000/svg', 'rect').toString(); SVGImageElement = document.createElementNS('http://www.w3.org/2000/svg', 'image').toString(); SVGCircleElement = document.createElementNS('http://www.w3.org/2000/svg', 'circle').toString(); SVGEllipseElement = document.createElementNS('http://www.w3.org/2000/svg', 'ellipse').toString(); SVGLineElement = document.createElementNS('http://www.w3.org/2000/svg', 'line').toString(); SVGPolylineElement = document.createElementNS('http://www.w3.org/2000/svg', 'polyline').toString(); SVGPolygonElement = document.createElementNS('http://www.w3.org/2000/svg', 'polygon').toString(); } } ORYX.Editor.checkClassType = function( classInst, classType ) { if( ORYX.Editor.SVGClassElementsAreAvailable ){ return classInst instanceof classType } else { return classInst == classType } }; /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} new function(){ ORYX.Core.UIEnableDrag = function(event, uiObj, option) { this.uiObj = uiObj; var upL = uiObj.bounds.upperLeft(); var a = uiObj.node.getScreenCTM(); this.faktorXY= {x: a.a, y: a.d}; this.scrollNode = uiObj.node.ownerSVGElement.parentNode.parentNode; this.offSetPosition = { x: Event.pointerX(event) - (upL.x * this.faktorXY.x), y: Event.pointerY(event) - (upL.y * this.faktorXY.y)}; this.offsetScroll = {x:this.scrollNode.scrollLeft,y:this.scrollNode.scrollTop}; this.dragCallback = ORYX.Core.UIDragCallback.bind(this); this.disableCallback = ORYX.Core.UIDisableDrag.bind(this); this.movedCallback = option ? option.movedCallback : undefined; this.upCallback = option ? option.upCallback : undefined; document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.disableCallback, true); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.dragCallback , false); }; ORYX.Core.UIDragCallback = function(event) { var position = { x: Event.pointerX(event) - this.offSetPosition.x, y: Event.pointerY(event) - this.offSetPosition.y} position.x -= this.offsetScroll.x - this.scrollNode.scrollLeft; position.y -= this.offsetScroll.y - this.scrollNode.scrollTop; position.x /= this.faktorXY.x; position.y /= this.faktorXY.y; this.uiObj.bounds.moveTo(position); //this.uiObj.update(); if(this.movedCallback) this.movedCallback(event); //Event.stop(event); }; ORYX.Core.UIDisableDrag = function(event) { document.documentElement.removeEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.dragCallback, false); document.documentElement.removeEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.disableCallback, true); if(this.upCallback) this.upCallback(event); this.upCallback = undefined; this.movedCallback = undefined; Event.stop(event); }; /** * Implements a command to move docker by an offset. * * @class ORYX.Core.MoveDockersCommand * @param {Object} object An object with the docker id as key and docker and offset as object value * */ ORYX.Core.MoveDockersCommand = ORYX.Core.Command.extend({ construct: function(dockers){ this.dockers = $H(dockers); this.edges = $H({}); }, execute: function(){ if (this.changes) { this.executeAgain(); return; } else { this.changes = $H({}); } this.dockers.values().each(function(docker){ var edge = docker.docker.parent; if (!edge){ return } if (!this.changes[edge.getId()]) { this.changes[edge.getId()] = { edge : edge, oldDockerPositions : edge.dockers.map(function(r){ return r.bounds.center() }) } } docker.docker.bounds.moveBy(docker.offset); this.edges[edge.getId()] = edge; docker.docker.update(); }.bind(this)); this.edges.each(function(edge){ this.updateEdge(edge.value); if (this.changes[edge.value.getId()]) this.changes[edge.value.getId()].dockerPositions = edge.value.dockers.map(function(r){ return r.bounds.center() }) }.bind(this)); }, updateEdge: function(edge){ edge._update(true); [edge.getOutgoingShapes(), edge.getIncomingShapes()].flatten().invoke("_update", [true]) }, executeAgain: function(){ this.changes.values().each(function(change){ // Reset the dockers this.removeAllDocker(change.edge); change.dockerPositions.each(function(pos, i){ if (i==0||i==change.dockerPositions.length-1){ return } var docker = change.edge.createDocker(undefined, pos); docker.bounds.centerMoveTo(pos); docker.update(); }.bind(this)); this.updateEdge(change.edge); }.bind(this)); }, rollback: function(){ this.changes.values().each(function(change){ // Reset the dockers this.removeAllDocker(change.edge); change.oldDockerPositions.each(function(pos, i){ if (i==0||i==change.oldDockerPositions.length-1){ return } var docker = change.edge.createDocker(undefined, pos); docker.bounds.centerMoveTo(pos); docker.update(); }.bind(this)); this.updateEdge(change.edge); }.bind(this)); }, removeAllDocker: function(edge){ edge.dockers.slice(1, edge.dockers.length-1).each(function(docker){ edge.removeDocker(docker); }) } }); }(); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} /** * @classDescription Base class for Shapes. * @extends ORYX.Core.AbstractShape */ ORYX.Core.Shape = { /** * Constructor */ construct: function(options, stencil, facade) { // call base class constructor arguments.callee.$.construct.apply(this, arguments); this.facade = facade; this.dockers = []; this.magnets = []; this._defaultMagnet; this.incoming = []; this.outgoing = []; this.nodes = []; this._dockerChangedCallback = this._dockerChanged.bind(this); //Hash map for all labels. Labels are not treated as children of shapes. this._labels = new Hash(); // create SVG node this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", null, ['g', {id:"svg-" + this.resourceId}, ['g', {"class": "stencils"}, ['g', {"class": "me"}], ['g', {"class": "children", style:"overflow:hidden"}], ['g', {"class": "edge"}] ], ['g', {"class": "controls"}, ['g', {"class": "dockers"}], ['g', {"class": "magnets"}] ] ]); }, /** * If changed flag is set, refresh method is called. */ update: function() { //if(this.isChanged) { //this.layout(); //} }, /** * !!!Not called from any sub class!!! */ _update: function() { }, /** * Calls the super class refresh method * and updates the svg elements that are referenced by a property. */ refresh: function() { //call base class refresh method arguments.callee.$.refresh.apply(this, arguments); if(this.node.ownerDocument) { //adjust SVG to properties' values var me = this; this.propertiesChanged.each((function(propChanged) { if(propChanged.value) { var prop = this.properties[propChanged.key]; var property = this.getStencil().property(propChanged.key); if (property != undefined) { this.propertiesChanged[propChanged.key] = false; //handle choice properties if(property.type() == ORYX.CONFIG.TYPE_CHOICE) { //iterate all references to SVG elements property.refToView().each((function(ref) { //if property is referencing a label, update the label if(ref !== "") { var label = this._labels[this.id + ref]; if (label && property.item(prop)) { label.text(property.item(prop).title()); } } }).bind(this)); //if the choice's items are referencing SVG elements // show the selected and hide all other referenced SVG // elements var refreshedSvgElements = new Hash(); property.items().each((function(item) { item.refToView().each((function(itemRef) { if(itemRef == "") { return; } var svgElem = this.node.ownerDocument.getElementById(this.id + itemRef); if(!svgElem) { return; } /* Do not refresh the same svg element multiple times */ if(!refreshedSvgElements[svgElem.id] || prop == item.value()) { svgElem.setAttributeNS(null, 'display', ((prop == item.value()) ? 'inherit' : 'none')); refreshedSvgElements[svgElem.id] = svgElem; } // Reload the href if there is an image-tag if(ORYX.Editor.checkClassType(svgElem, SVGImageElement)) { svgElem.setAttributeNS('http://www.w3.org/1999/xlink', 'href', svgElem.getAttributeNS('http://www.w3.org/1999/xlink', 'href')); } }).bind(this)); }).bind(this)); } else { //handle properties that are not of type choice //iterate all references to SVG elements property.refToView().each((function(ref) { //if the property does not reference an SVG element, // do nothing if(ref === "") { return; } var refId = this.id + ref; if (property.type() === ORYX.CONFIG.TYPE_KISBPM_MULTIINSTANCE) { if (ref === "multiinstance") { var svgElemParallel = this.node.ownerDocument.getElementById(this.id + 'parallel'); if(svgElemParallel) { if (prop === 'Parallel') { svgElemParallel.setAttributeNS(null, 'display', 'inherit'); } else { svgElemParallel.setAttributeNS(null, 'display', 'none'); } } var svgElemSequential = this.node.ownerDocument.getElementById(this.id + 'sequential'); if(svgElemSequential) { if (prop === 'Sequential') { svgElemSequential.setAttributeNS(null, 'display', 'inherit'); } else { svgElemSequential.setAttributeNS(null, 'display', 'none'); } } } return; } else if (property.type() === "cancelactivity") { var svgElemFrame = this.node.ownerDocument.getElementById(this.id + 'frame'); var svgElemFrame2 = this.node.ownerDocument.getElementById(this.id + 'frame2'); if (prop === 'true') { svgElemFrame.setAttributeNS(null, 'display', 'inherit'); svgElemFrame2.setAttributeNS(null, 'display', 'inherit'); } else { svgElemFrame.setAttributeNS(null, 'display', 'none'); svgElemFrame2.setAttributeNS(null, 'display', 'none'); } } //get the SVG element var svgElem = this.node.ownerDocument.getElementById(refId); //if the SVG element can not be found if(!svgElem || !(svgElem.ownerSVGElement)) { //if the referenced SVG element is a SVGAElement, it cannot // be found with getElementById (Firefox bug). // this is a work around if(property.type() === ORYX.CONFIG.TYPE_URL || property.type() === ORYX.CONFIG.TYPE_DIAGRAM_LINK) { var svgElems = this.node.ownerDocument.getElementsByTagNameNS('http://www.w3.org/2000/svg', 'a'); svgElem = $A(svgElems).find(function(elem) { return elem.getAttributeNS(null, 'id') === refId; }); if(!svgElem) { return; } } else { //this.propertiesChanged[propChanged.key] = true; return; } } if (property.complexAttributeToView()) { var label = this._labels[refId]; if (label) { try { propJson = prop.evalJSON(); var value = propJson[property.complexAttributeToView()] label.text(value ? value : prop); } catch (e) { label.text(prop); } } } else { switch (property.type()) { case ORYX.CONFIG.TYPE_BOOLEAN: if (typeof prop == "string") prop = prop === "true" svgElem.setAttributeNS(null, 'display', (!(prop === property.inverseBoolean())) ? 'inherit' : 'none'); break; case ORYX.CONFIG.TYPE_COLOR: if(property.fill()) { if (svgElem.tagName.toLowerCase() === "stop"){ if (prop){ if (property.lightness() && property.lightness() !== 1){ prop = ORYX.Utils.adjustLightness(prop, property.lightness()); } svgElem.setAttributeNS(null, "stop-color", prop); // Adjust stop color of the others if (svgElem.parentNode.tagName.toLowerCase() === "radialgradient"){ ORYX.Utils.adjustGradient(svgElem.parentNode, svgElem); } } // If there is no value, set opaque if (svgElem.parentNode.tagName.toLowerCase() === "radialgradient"){ $A(svgElem.parentNode.getElementsByTagName('stop')).each(function(stop){ stop.setAttributeNS(null, "stop-opacity", prop ? stop.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, 'default-stop-opacity') || 1 : 0); }.bind(this)) } } else { svgElem.setAttributeNS(null, 'fill', prop); } } if(property.stroke()) { svgElem.setAttributeNS(null, 'stroke', prop); } break; case ORYX.CONFIG.TYPE_STRING: var label = this._labels[refId]; if (label) { label.text(prop); } break; case ORYX.CONFIG.TYPE_EXPRESSION: var label = this._labels[refId]; if (label) { label.text(prop); } break; case ORYX.CONFIG.TYPE_DATASOURCE: var label = this._labels[refId]; if (label) { label.text(prop); } break; case ORYX.CONFIG.TYPE_INTEGER: var label = this._labels[refId]; if (label) { label.text(prop); } break; case ORYX.CONFIG.TYPE_FLOAT: if(property.fillOpacity()) { svgElem.setAttributeNS(null, 'fill-opacity', prop); } if(property.strokeOpacity()) { svgElem.setAttributeNS(null, 'stroke-opacity', prop); } if(!property.fillOpacity() && !property.strokeOpacity()) { var label = this._labels[refId]; if (label) { label.text(prop); } } break; case ORYX.CONFIG.TYPE_FORM_LINK: if (ref == "pimg") { var onclickAttr = svgElem.getAttributeNodeNS('', 'onclick'); if(onclickAttr) { if(prop && ("" + prop).length > 0) { onclickAttr.textContent = "window.location = '../service/editor?id=" + prop + "_form'"; } else { newFormFacade = this.facade; onclickAttr.textContent = "displayNewFormDialog('" + this.resourceId + "');"; } } } else if (ref == "linkIndicator") { if (prop && prop.length > 0) { svgElem.setAttributeNS(null, 'display', 'inherit'); } else { svgElem.setAttributeNS(null, 'display', 'none'); } } break; case ORYX.CONFIG.TYPE_URL: case ORYX.CONFIG.TYPE_DIAGRAM_LINK: //TODO what is the dafault path? var hrefAttr = svgElem.getAttributeNodeNS('http://www.w3.org/1999/xlink', 'xlink:href'); if(hrefAttr) { hrefAttr.textContent = prop; } else { svgElem.setAttributeNS('http://www.w3.org/1999/xlink', 'xlink:href', prop); } break; } } }).bind(this)); } } } }).bind(this)); //update labels this._labels.values().each(function(label) { label.update(); }); } }, layout: function() { //this.getStencil().layout(this) var layoutEvents = this.getStencil().layout() if (layoutEvents) { layoutEvents.each(function(event) { // setup additional attributes event.shape = this; event.forceExecution = true; // do layouting this._delegateEvent(event); }.bind(this)) } }, /** * Returns an array of Label objects. */ getLabels: function() { return this._labels.values(); }, /** * Returns the label for a given ref * @return {ORYX.Core.Label} Returns null if there is no label */ getLabel: function(ref){ if (!ref){ return null; } return (this._labels.find(function(o){ return o.key.endsWith(ref); })||{}).value || null; }, /** * Hides all related labels * */ hideLabels: function(){ this.getLabels().invoke("hide"); }, /** * Shows all related labels * */ showLabels: function(){ var labels = this.getLabels(); labels.invoke("show"); labels.each(function(label) { label.update(); }); }, setOpacity: function(value, animate){ value = Math.max(Math.min((typeof value == "number" ? value : 1.0), 1.0), 0.0); if (value !== 1.0){ value = String(value); this.node.setAttributeNS(null, "fill-opacity", value) this.node.setAttributeNS(null, "stroke-opacity", value) } else { this.node.removeAttributeNS(null, "fill-opacity"); this.node.removeAttributeNS(null, "stroke-opacity"); } }, /** * Returns an array of dockers of this object. */ getDockers: function() { return this.dockers; }, getMagnets: function() { return this.magnets; }, getDefaultMagnet: function() { if(this._defaultMagnet) { return this._defaultMagnet; } else if (this.magnets.length > 0) { return this.magnets[0]; } else { return undefined; } }, getParentShape: function() { return this.parent; }, getIncomingShapes: function(iterator) { if(iterator) { this.incoming.each(iterator); } return this.incoming; }, getIncomingNodes: function(iterator) { return this.incoming.select(function(incoming){ var isNode = (incoming instanceof ORYX.Core.Node); if(isNode && iterator) iterator(incoming); return isNode; }); }, getOutgoingShapes: function(iterator) { if(iterator) { this.outgoing.each(iterator); } return this.outgoing; }, getOutgoingNodes: function(iterator) { return this.outgoing.select(function(out){ var isNode = (out instanceof ORYX.Core.Node); if(isNode && iterator) iterator(out); return isNode; }); }, getAllDockedShapes: function(iterator) { var result = this.incoming.concat(this.outgoing); if(iterator) { result.each(iterator); } return result }, getCanvas: function() { if(this.parent instanceof ORYX.Core.Canvas) { return this.parent; } else if(this.parent instanceof ORYX.Core.Shape) { return this.parent.getCanvas(); } else { return undefined; } }, /** * * @param {Object} deep * @param {Object} iterator */ getChildNodes: function(deep, iterator) { if(!deep && !iterator) { return this.nodes.clone(); } else { var result = []; this.nodes.each(function(uiObject) { if(!uiObject.isVisible){return} if(iterator) { iterator(uiObject); } result.push(uiObject); if(deep && uiObject instanceof ORYX.Core.Shape) { result = result.concat(uiObject.getChildNodes(deep, iterator)); } }); return result; } }, /** * Overrides the UIObject.add method. Adds uiObject to the correct sub node. * @param {UIObject} uiObject * @param {Number} index */ add: function(uiObject, index, silent) { //parameter has to be an UIObject, but // must not be an Edge. if(uiObject instanceof ORYX.Core.UIObject && !(uiObject instanceof ORYX.Core.Edge)) { if (!(this.children.member(uiObject))) { //if uiObject is child of another parent, remove it from that parent. if(uiObject.parent) { uiObject.parent.remove(uiObject, true); } //add uiObject to this Shape if(index != undefined) this.children.splice(index, 0, uiObject); else this.children.push(uiObject); //set parent reference uiObject.parent = this; //add uiObject.node to this.node depending on the type of uiObject var parent; if(uiObject instanceof ORYX.Core.Node) { parent = this.node.childNodes[0].childNodes[1]; this.nodes.push(uiObject); } else if(uiObject instanceof ORYX.Core.Controls.Control) { var ctrls = this.node.childNodes[1]; if(uiObject instanceof ORYX.Core.Controls.Docker) { parent = ctrls.childNodes[0]; if (this.dockers.length >= 2){ this.dockers.splice(index!==undefined?Math.min(index, this.dockers.length-1):this.dockers.length-1, 0, uiObject); } else { this.dockers.push(uiObject); } } else if(uiObject instanceof ORYX.Core.Controls.Magnet) { parent = ctrls.childNodes[1]; this.magnets.push(uiObject); } else { parent = ctrls; } } else { //UIObject parent = this.node; } if(index != undefined && index < parent.childNodes.length) uiObject.node = parent.insertBefore(uiObject.node, parent.childNodes[index]); else uiObject.node = parent.appendChild(uiObject.node); this._changed(); //uiObject.bounds.registerCallback(this._changedCallback); if(this.eventHandlerCallback && silent !== true) this.eventHandlerCallback({type:ORYX.CONFIG.EVENT_SHAPEADDED,shape:uiObject}) } else { ORYX.Log.warn("add: ORYX.Core.UIObject is already a child of this object."); } } else { ORYX.Log.warn("add: Parameter is not of type ORYX.Core.UIObject."); } }, /** * Overrides the UIObject.remove method. Removes uiObject. * @param {UIObject} uiObject */ remove: function(uiObject, silent) { //if uiObject is a child of this object, remove it. if (this.children.member(uiObject)) { //remove uiObject from children var parent = uiObject.parent; this.children = this.children.without(uiObject); //delete parent reference of uiObject uiObject.parent = undefined; //delete uiObject.node from this.node if(uiObject instanceof ORYX.Core.Shape) { if(uiObject instanceof ORYX.Core.Edge) { uiObject.removeMarkers(); uiObject.node = this.node.childNodes[0].childNodes[2].removeChild(uiObject.node); } else { uiObject.node = this.node.childNodes[0].childNodes[1].removeChild(uiObject.node); this.nodes = this.nodes.without(uiObject); } } else if(uiObject instanceof ORYX.Core.Controls.Control) { if (uiObject instanceof ORYX.Core.Controls.Docker) { uiObject.node = this.node.childNodes[1].childNodes[0].removeChild(uiObject.node); this.dockers = this.dockers.without(uiObject); } else if (uiObject instanceof ORYX.Core.Controls.Magnet) { uiObject.node = this.node.childNodes[1].childNodes[1].removeChild(uiObject.node); this.magnets = this.magnets.without(uiObject); } else { uiObject.node = this.node.childNodes[1].removeChild(uiObject.node); } } if(this.eventHandlerCallback && silent !== true) this.eventHandlerCallback({type: ORYX.CONFIG.EVENT_SHAPEREMOVED, shape: uiObject, parent: parent}); this._changed(); //uiObject.bounds.unregisterCallback(this._changedCallback); } else { ORYX.Log.warn("remove: ORYX.Core.UIObject is not a child of this object."); } }, /** * Calculate the Border Intersection Point between two points * @param {PointA} * @param {PointB} */ getIntersectionPoint: function() { var pointAX, pointAY, pointBX, pointBY; // Get the the two Points switch(arguments.length) { case 2: pointAX = arguments[0].x; pointAY = arguments[0].y; pointBX = arguments[1].x; pointBY = arguments[1].y; break; case 4: pointAX = arguments[0]; pointAY = arguments[1]; pointBX = arguments[2]; pointBY = arguments[3]; break; default: throw "getIntersectionPoints needs two or four arguments"; } // Defined an include and exclude point var includePointX, includePointY, excludePointX, excludePointY; var bounds = this.absoluteBounds(); if(this.isPointIncluded(pointAX, pointAY, bounds)){ includePointX = pointAX; includePointY = pointAY; } else { excludePointX = pointAX; excludePointY = pointAY; } if(this.isPointIncluded(pointBX, pointBY, bounds)){ includePointX = pointBX; includePointY = pointBY; } else { excludePointX = pointBX; excludePointY = pointBY; } // If there is no inclue or exclude Shape, than return if(!includePointX || !includePointY || !excludePointX || !excludePointY) { return undefined; } var midPointX = 0; var midPointY = 0; var refPointX, refPointY; var minDifferent = 1; // Get the UpperLeft and LowerRight //var ul = bounds.upperLeft(); //var lr = bounds.lowerRight(); var i = 0; while(true) { // Calculate the midpoint of the current to points var midPointX = Math.min(includePointX, excludePointX) + ((Math.max(includePointX, excludePointX) - Math.min(includePointX, excludePointX)) / 2.0); var midPointY = Math.min(includePointY, excludePointY) + ((Math.max(includePointY, excludePointY) - Math.min(includePointY, excludePointY)) / 2.0); // Set the new midpoint by the means of the include of the bounds if(this.isPointIncluded(midPointX, midPointY, bounds)){ includePointX = midPointX; includePointY = midPointY; } else { excludePointX = midPointX; excludePointY = midPointY; } // Calc the length of the line var length = Math.sqrt(Math.pow(includePointX - excludePointX, 2) + Math.pow(includePointY - excludePointY, 2)) // Calc a point one step from the include point refPointX = includePointX + ((excludePointX - includePointX) / length), refPointY = includePointY + ((excludePointY - includePointY) / length) // If the reference point not in the bounds, break if(!this.isPointIncluded(refPointX, refPointY, bounds)) { break } } // Return the last includepoint return {x:refPointX , y:refPointY}; }, /** * Calculate if the point is inside the Shape * @param {PointX} * @param {PointY} */ isPointIncluded: function(){ return false }, /** * Returns TRUE if the given node * is a child node of the shapes node * @param {Element} node * @return {Boolean} * */ containsNode: function(node){ var me = this.node.firstChild.firstChild; while(node){ if (node == me){ return true; } node = node.parentNode; } return false }, /** * Calculate if the point is over an special offset area * @param {Point} */ isPointOverOffset: function(){ return this.isPointIncluded.apply( this , arguments ) }, _dockerChanged: function() { }, /** * Create a Docker for this Edge * */ createDocker: function(index, position) { var docker = new ORYX.Core.Controls.Docker({eventHandlerCallback: this.eventHandlerCallback}); docker.bounds.registerCallback(this._dockerChangedCallback); if (position) { docker.bounds.centerMoveTo(position); } this.add(docker, index); return docker }, /** * Get the serialized object * return Array with hash-entrees (prefix, name, value) * Following values will given: * Bounds * Outgoing Shapes * Parent */ serialize: function() { var serializedObject = arguments.callee.$.serialize.apply(this); // Add the bounds serializedObject.push({name: 'bounds', prefix:'oryx', value: this.bounds.serializeForERDF(), type: 'literal'}); // Add the outgoing shapes this.getOutgoingShapes().each((function(followingShape){ serializedObject.push({name: 'outgoing', prefix:'raziel', value: '#'+ERDF.__stripHashes(followingShape.resourceId), type: 'resource'}); }).bind(this)); // Add the parent shape, if the parent not the canvas //if(this.parent instanceof ORYX.Core.Shape){ serializedObject.push({name: 'parent', prefix:'raziel', value: '#'+ERDF.__stripHashes(this.parent.resourceId), type: 'resource'}); //} return serializedObject; }, deserialize: function(serialize, json){ arguments.callee.$.deserialize.apply(this, arguments); // Set the Bounds var bounds = serialize.find(function(ser){ return 'oryx-bounds' === (ser.prefix+"-"+ser.name) }); if (bounds) { var b = bounds.value.replace(/,/g, " ").split(" ").without(""); if (this instanceof ORYX.Core.Edge) { if (!this.dockers.first().isChanged) this.dockers.first().bounds.centerMoveTo(parseFloat(b[0]), parseFloat(b[1])); if (!this.dockers.last().isChanged) this.dockers.last().bounds.centerMoveTo(parseFloat(b[2]), parseFloat(b[3])); } else { this.bounds.set(parseFloat(b[0]), parseFloat(b[1]), parseFloat(b[2]), parseFloat(b[3])); } } if (json && json.labels instanceof Array){ json.labels.each(function(slabel){ var label = this.getLabel(slabel.ref); if (label){ label.deserialize(slabel, this); } }.bind(this)) } }, toJSON: function(){ var json = arguments.callee.$.toJSON.apply(this, arguments); var labels = [], id = this.id; this._labels.each(function(obj){ var slabel = obj.value.serialize(); if (slabel){ slabel.ref = obj.key.replace(id, ''); labels.push(slabel); } }); if (labels.length > 0){ json.labels = labels; } return json; }, /** * Private methods. */ /** * Child classes have to overwrite this method for initializing a loaded * SVG representation. * @param {SVGDocument} svgDocument */ _init: function(svgDocument) { //adjust ids this._adjustIds(svgDocument, 0); }, _adjustIds: function(element, idIndex) { if(element instanceof Element) { var eid = element.getAttributeNS(null, 'id'); if(eid && eid !== "") { element.setAttributeNS(null, 'id', this.id + eid); } else { element.setAttributeNS(null, 'id', this.id + "_" + this.id + "_" + idIndex); idIndex++; } // Replace URL in fill attribute var fill = element.getAttributeNS(null, 'fill'); if (fill&&fill.include("url(#")){ fill = fill.replace(/url\(#/g, 'url(#'+this.id); element.setAttributeNS(null, 'fill', fill); } if(element.hasChildNodes()) { for(var i = 0; i < element.childNodes.length; i++) { idIndex = this._adjustIds(element.childNodes[i], idIndex); } } } return idIndex; }, toString: function() { return "ORYX.Core.Shape " + this.getId() } }; ORYX.Core.Shape = ORYX.Core.AbstractShape.extend(ORYX.Core.Shape);/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.Controls) {ORYX.Core.Controls = {};} /** * @classDescription Abstract base class for all Controls. */ ORYX.Core.Controls.Control = ORYX.Core.UIObject.extend({ toString: function() { return "Control " + this.id; } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.Controls) {ORYX.Core.Controls = {};} /** * @classDescription Represents a movable docker that can be bound to a shape. Dockers are used * for positioning shape objects. * @extends {Control} * * TODO absoluteXY und absoluteCenterXY von einem Docker liefern falsche Werte!!! */ ORYX.Core.Controls.Docker = ORYX.Core.Controls.Control.extend({ /** * Constructor */ construct: function() { arguments.callee.$.construct.apply(this, arguments); this.isMovable = true; // Enables movability this.bounds.set(0, 0, 16, 16); // Set the bounds this.referencePoint = undefined; // Refrenzpoint this._dockedShapeBounds = undefined; this._dockedShape = undefined; this._oldRefPoint1 = undefined; this._oldRefPoint2 = undefined; //this.anchors = []; this.anchorLeft; this.anchorRight; this.anchorTop; this.anchorBottom; this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", null, ['g']); // The DockerNode reprasentation this._dockerNode = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node, ['g', {"pointer-events":"all"}, ['circle', {cx:"8", cy:"8", r:"8", stroke:"none", fill:"none"}], ['circle', {cx:"8", cy:"8", r:"3", stroke:"black", fill:"red", "stroke-width":"1"}] ]); // The ReferenzNode reprasentation this._referencePointNode = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node, ['g', {"pointer-events":"none"}, ['circle', {cx: this.bounds.upperLeft().x, cy: this.bounds.upperLeft().y, r: 3, fill:"red", "fill-opacity":0.4}]]); // Hide the Docker this.hide(); //Add to the EventHandler this.addEventHandlers(this._dockerNode); // Buffer the Update Callback for un-/register on Event-Handler this._updateCallback = this._changed.bind(this); }, update: function() { // If there have an DockedShape if(this._dockedShape) { if(this._dockedShapeBounds && this._dockedShape instanceof ORYX.Core.Node) { // Calc the delta of width and height of the lastBounds and the current Bounds var dswidth = this._dockedShapeBounds.width(); var dsheight = this._dockedShapeBounds.height(); if(!dswidth) dswidth = 1; if(!dsheight) dsheight = 1; var widthDelta = this._dockedShape.bounds.width() / dswidth; var heightDelta = this._dockedShape.bounds.height() / dsheight; // If there is an different if(widthDelta !== 1.0 || heightDelta !== 1.0) { // Set the delta this.referencePoint.x *= widthDelta; this.referencePoint.y *= heightDelta; } // Clone these bounds this._dockedShapeBounds = this._dockedShape.bounds.clone(); } // Get the first and the last Docker of the parent Shape var dockerIndex = this.parent.dockers.indexOf(this) var dock1 = this; var dock2 = this.parent.dockers.length > 1 ? (dockerIndex === 0? // If there is the first element this.parent.dockers[dockerIndex + 1]: // then take the next docker this.parent.dockers[dockerIndex - 1]): // if not, then take the docker before undefined; // Calculate the first absolute Refenzpoint var absoluteReferenzPoint1 = dock1.getDockedShape() ? dock1.getAbsoluteReferencePoint() : dock1.bounds.center(); // Calculate the last absolute Refenzpoint var absoluteReferenzPoint2 = dock2 && dock2.getDockedShape() ? dock2.getAbsoluteReferencePoint() : dock2 ? dock2.bounds.center() : undefined; // If there is no last absolute Referenzpoint if(!absoluteReferenzPoint2) { // Calculate from the middle of the DockedShape var center = this._dockedShape.absoluteCenterXY(); var minDimension = this._dockedShape.bounds.width() * this._dockedShape.bounds.height(); absoluteReferenzPoint2 = { x: absoluteReferenzPoint1.x + (center.x - absoluteReferenzPoint1.x) * -minDimension, y: absoluteReferenzPoint1.y + (center.y - absoluteReferenzPoint1.y) * -minDimension } } var newPoint = undefined; /*if (!this._oldRefPoint1 || !this._oldRefPoint2 || absoluteReferenzPoint1.x !== this._oldRefPoint1.x || absoluteReferenzPoint1.y !== this._oldRefPoint1.y || absoluteReferenzPoint2.x !== this._oldRefPoint2.x || absoluteReferenzPoint2.y !== this._oldRefPoint2.y) {*/ // Get the new point for the Docker, calucalted by the intersection point of the Shape and the two points newPoint = this._dockedShape.getIntersectionPoint(absoluteReferenzPoint1, absoluteReferenzPoint2); // If there is new point, take the referencepoint as the new point if(!newPoint) { newPoint = this.getAbsoluteReferencePoint(); } if(this.parent && this.parent.parent) { var grandParentPos = this.parent.parent.absoluteXY(); newPoint.x -= grandParentPos.x; newPoint.y -= grandParentPos.y; } // Set the bounds to the new point this.bounds.centerMoveTo(newPoint) this._oldRefPoint1 = absoluteReferenzPoint1; this._oldRefPoint2 = absoluteReferenzPoint2; } /*else { newPoint = this.bounds.center(); }*/ // } // Call the super class arguments.callee.$.update.apply(this, arguments); }, /** * Calls the super class refresh method and updates the view of the docker. */ refresh: function() { arguments.callee.$.refresh.apply(this, arguments); // Refresh the dockers node var p = this.bounds.upperLeft(); this._dockerNode.setAttributeNS(null, 'transform','translate(' + p.x + ', ' + p.y + ')'); // Refresh the referencepoints node p = Object.clone(this.referencePoint); if(p && this._dockedShape){ var upL if(this.parent instanceof ORYX.Core.Edge) { upL = this._dockedShape.absoluteXY(); } else { upL = this._dockedShape.bounds.upperLeft(); } p.x += upL.x; p.y += upL.y; } else { p = this.bounds.center(); } this._referencePointNode.setAttributeNS(null, 'transform','translate(' + p.x + ', ' + p.y + ')'); }, /** * Set the reference point * @param {Object} point */ setReferencePoint: function(point) { // Set the referencepoint if(this.referencePoint !== point && (!this.referencePoint || !point || this.referencePoint.x !== point.x || this.referencePoint.y !== point.y)) { this.referencePoint = point; this._changed(); } // Update directly, because the referencepoint has no influence of the bounds //this.refresh(); }, /** * Get the absolute referencepoint */ getAbsoluteReferencePoint: function() { if(!this.referencePoint || !this._dockedShape) { return undefined; } else { var absUL = this._dockedShape.absoluteXY(); return { x: this.referencePoint.x + absUL.x, y: this.referencePoint.y + absUL.y } } }, /** * Set the docked Shape from the docker * @param {Object} shape */ setDockedShape: function(shape) { // If there is an old docked Shape if(this._dockedShape) { this._dockedShape.bounds.unregisterCallback(this._updateCallback) // Delete the Shapes from the incoming and outgoing array // If this Docker the incoming of the Shape if(this === this.parent.dockers.first()) { this.parent.incoming = this.parent.incoming.without(this._dockedShape); this._dockedShape.outgoing = this._dockedShape.outgoing.without(this.parent); // If this Docker the outgoing of the Shape } else if (this === this.parent.dockers.last()){ this.parent.outgoing = this.parent.outgoing.without(this._dockedShape); this._dockedShape.incoming = this._dockedShape.incoming.without(this.parent); } } // Set the new Shape this._dockedShape = shape; this._dockedShapeBounds = undefined; var referencePoint = undefined; // If there is an Shape, register the updateCallback if there are changes in the shape bounds if(this._dockedShape) { // Add the Shapes to the incoming and outgoing array // If this Docker the incoming of the Shape if(this === this.parent.dockers.first()) { this.parent.incoming.push(shape); shape.outgoing.push(this.parent); // If this Docker the outgoing of the Shape } else if (this === this.parent.dockers.last()){ this.parent.outgoing.push(shape); shape.incoming.push(this.parent); } // Get the bounds and set the new referencepoint var bounds = this.bounds; var absUL = shape.absoluteXY(); /*if(shape.parent){ var b = shape.parent.bounds.upperLeft(); absUL.x -= b.x; absUL.y -= b.y; }*/ referencePoint = { x: bounds.center().x - absUL.x, y: bounds.center().y - absUL.y } this._dockedShapeBounds = this._dockedShape.bounds.clone(); this._dockedShape.bounds.registerCallback(this._updateCallback); // Set the color of the docker as docked this.setDockerColor(ORYX.CONFIG.DOCKER_DOCKED_COLOR); } else { // Set the color of the docker as undocked this.setDockerColor(ORYX.CONFIG.DOCKER_UNDOCKED_COLOR); } // Set the referencepoint this.setReferencePoint(referencePoint); this._changed(); //this.update(); }, /** * Get the docked Shape */ getDockedShape: function() { return this._dockedShape; }, /** * Returns TRUE if the docker has a docked shape */ isDocked: function() { return !!this._dockedShape; }, /** * Set the Color of the Docker * @param {Object} color */ setDockerColor: function(color) { this._dockerNode.lastChild.setAttributeNS(null, "fill", color); }, preventHiding: function(prevent){ this._preventHiding = Math.max(0, (this._preventHiding||0) + (prevent ? 1 : -1)); }, /** * Hides this UIObject and all its children. */ hide: function() { if (this._preventHiding){ return false; } // Hide docker and reference point this.node.setAttributeNS(null, 'visibility', 'hidden'); this._referencePointNode.setAttributeNS(null, 'visibility', 'hidden'); this.children.each(function(uiObj) { uiObj.hide(); }); }, /** * Enables visibility of this UIObject and all its children. */ show: function() { // Show docker this.node.setAttributeNS(null, 'visibility', 'visible'); // Hide reference point if the connected shape is an edge if (this.getDockedShape() instanceof ORYX.Core.Edge){ this._referencePointNode.setAttributeNS(null, 'visibility', 'hidden'); } else { this._referencePointNode.setAttributeNS(null, 'visibility', 'visible'); } this.children.each(function(uiObj) { uiObj.show(); }); }, toString: function() { return "Docker " + this.id } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if(!ORYX) {var ORYX = {};} if(!ORYX.Core) {ORYX.Core = {};} if(!ORYX.Core.Controls) {ORYX.Core.Controls = {};} /** * @classDescription Represents a magnet that is part of another shape and can * be attached to dockers. Magnets are used for linking edge objects * to other Shape objects. * @extends {Control} */ ORYX.Core.Controls.Magnet = ORYX.Core.Controls.Control.extend({ /** * Constructor */ construct: function() { arguments.callee.$.construct.apply(this, arguments); //this.anchors = []; this.anchorLeft; this.anchorRight; this.anchorTop; this.anchorBottom; this.bounds.set(0, 0, 16, 16); //graft magnet's root node into owner's control group. this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", null, ['g', {"pointer-events":"all"}, ['circle', {cx:"8", cy:"8", r:"4", stroke:"none", fill:"red", "fill-opacity":"0.3"}], ]); this.hide(); }, update: function() { arguments.callee.$.update.apply(this, arguments); //this.isChanged = true; }, _update: function() { arguments.callee.$.update.apply(this, arguments); //this.isChanged = true; }, refresh: function() { arguments.callee.$.refresh.apply(this, arguments); var p = this.bounds.upperLeft(); /*if(this.parent) { var parentPos = this.parent.bounds.upperLeft(); p.x += parentPos.x; p.y += parentPos.y; }*/ this.node.setAttributeNS(null, 'transform','translate(' + p.x + ', ' + p.y + ')'); }, show: function() { //this.refresh(); arguments.callee.$.show.apply(this, arguments); }, toString: function() { return "Magnet " + this.id; } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * Init namespaces */ if (!ORYX) { var ORYX = {}; } if (!ORYX.Core) { ORYX.Core = {}; } /** * @classDescription Abstract base class for all Nodes. * @extends ORYX.Core.Shape */ ORYX.Core.Node = { /** * Constructor * @param options {Object} A container for arguments. * @param stencil {Stencil} */ construct: function(options, stencil, facade){ arguments.callee.$.construct.apply(this, arguments); this.isSelectable = true; this.isMovable = true; this._dockerUpdated = false; this.facade = facade; this._oldBounds = new ORYX.Core.Bounds(); //init bounds with undefined values this._svgShapes = []; //array of all SVGShape objects of // SVG representation //TODO vielleicht in shape verschieben? this.minimumSize = undefined; // {width:..., height:...} this.maximumSize = undefined; //TODO vielleicht in shape oder uiobject verschieben? // vielleicht sogar isResizable ersetzen? this.isHorizontallyResizable = false; this.isVerticallyResizable = false; this.dataId = undefined; this._init(this._stencil.view()); this.forcedHeight = -1; }, /** * This method checks whether the shape is resized correctly and calls the * super class update method. */ _update: function(){ this.dockers.invoke("update"); if (this.isChanged) { var bounds = this.bounds; var oldBounds = this._oldBounds; if (this.isResized) { var widthDelta = bounds.width() / oldBounds.width(); var heightDelta = bounds.height() / oldBounds.height(); //iterate over all relevant svg elements and resize them this._svgShapes.each(function(svgShape){ //adjust width if (svgShape.isHorizontallyResizable) { svgShape.width = svgShape.oldWidth * widthDelta; } //adjust height if (svgShape.isVerticallyResizable) { svgShape.height = svgShape.oldHeight * heightDelta; } //check, if anchors are set var anchorOffset; var leftIncluded = svgShape.anchorLeft; var rightIncluded = svgShape.anchorRight; if (rightIncluded) { anchorOffset = oldBounds.width() - (svgShape.oldX + svgShape.oldWidth); if (leftIncluded) { svgShape.width = bounds.width() - svgShape.x - anchorOffset; } else { svgShape.x = bounds.width() - (anchorOffset + svgShape.width); } } else if (!leftIncluded) { svgShape.x = widthDelta * svgShape.oldX; if (!svgShape.isHorizontallyResizable) { svgShape.x = svgShape.x + svgShape.width * widthDelta / 2 - svgShape.width / 2; } } var topIncluded = svgShape.anchorTop; var bottomIncluded = svgShape.anchorBottom; if (bottomIncluded) { anchorOffset = oldBounds.height() - (svgShape.oldY + svgShape.oldHeight); if (topIncluded) { svgShape.height = bounds.height() - svgShape.y - anchorOffset; } else { // Hack for choreography task layouting if (!svgShape._isYLocked) { svgShape.y = bounds.height() - (anchorOffset + svgShape.height); } } } else if (!topIncluded) { svgShape.y = heightDelta * svgShape.oldY; if (!svgShape.isVerticallyResizable) { svgShape.y = svgShape.y + svgShape.height * heightDelta / 2 - svgShape.height / 2; } } }); //check, if the current bounds is unallowed horizontally or vertically resized var p = { x: 0, y: 0 }; if (!this.isHorizontallyResizable && bounds.width() !== oldBounds.width()) { p.x = oldBounds.width() - bounds.width(); } if (!this.isVerticallyResizable && bounds.height() !== oldBounds.height()) { p.y = oldBounds.height() - bounds.height(); } if (p.x !== 0 || p.y !== 0) { bounds.extend(p); } //check, if the current bounds are between maximum and minimum bounds p = { x: 0, y: 0 }; var widthDifference, heightDifference; if (this.minimumSize) { ORYX.Log.debug("Shape (%0)'s min size: (%1x%2)", this, this.minimumSize.width, this.minimumSize.height); widthDifference = this.minimumSize.width - bounds.width(); if (widthDifference > 0) { p.x += widthDifference; } heightDifference = this.minimumSize.height - bounds.height(); if (heightDifference > 0) { p.y += heightDifference; } } if (this.maximumSize) { ORYX.Log.debug("Shape (%0)'s max size: (%1x%2)", this, this.maximumSize.width, this.maximumSize.height); widthDifference = bounds.width() - this.maximumSize.width; if (widthDifference > 0) { p.x -= widthDifference; } heightDifference = bounds.height() - this.maximumSize.height; if (heightDifference > 0) { p.y -= heightDifference; } } if (p.x !== 0 || p.y !== 0) { bounds.extend(p); } //update magnets var widthDelta = bounds.width() / oldBounds.width(); var heightDelta = bounds.height() / oldBounds.height(); var leftIncluded, rightIncluded, topIncluded, bottomIncluded, center, newX, newY; this.magnets.each(function(magnet){ leftIncluded = magnet.anchorLeft; rightIncluded = magnet.anchorRight; topIncluded = magnet.anchorTop; bottomIncluded = magnet.anchorBottom; center = magnet.bounds.center(); if (leftIncluded) { newX = center.x; } else if (rightIncluded) { newX = bounds.width() - (oldBounds.width() - center.x) } else { newX = center.x * widthDelta; } if (topIncluded) { newY = center.y; } else if (bottomIncluded) { newY = bounds.height() - (oldBounds.height() - center.y); } else { newY = center.y * heightDelta; } if (center.x !== newX || center.y !== newY) { magnet.bounds.centerMoveTo(newX, newY); } }); //set new position of labels this.getLabels().each(function(label){ // Set the position dependings on it anchor if (!label.isAnchorLeft()) { if (label.isAnchorRight()) { label.setX(bounds.width() - (oldBounds.width() - label.oldX)) } else { label.setX((label.position?label.position.x:label.x) * widthDelta); } } if (!label.isAnchorTop()) { if (label.isAnchorBottom()) { label.setY(bounds.height() - (oldBounds.height() - label.oldY)); } else { label.setY((label.position?label.position.y:label.y) * heightDelta); } } // If there is an position, // set the origin position as well if (label.position){ if (!label.isOriginAnchorLeft()) { if (label.isOriginAnchorRight()) { label.setOriginX(bounds.width() - (oldBounds.width() - label.oldX)) } else { label.setOriginX(label.x * widthDelta); } } if (!label.isOriginAnchorTop()) { if (label.isOriginAnchorBottom()) { label.setOriginY(bounds.height() - (oldBounds.height() - label.oldY)); } else { label.setOriginY(label.y * heightDelta); } } } }); //update docker var docker = this.dockers[0]; if (docker) { docker.bounds.unregisterCallback(this._dockerChangedCallback); if (!this._dockerUpdated) { docker.bounds.centerMoveTo(this.bounds.center()); this._dockerUpdated = false; } docker.update(); docker.bounds.registerCallback(this._dockerChangedCallback); } this.isResized = false; } this.refresh(); this.isChanged = false; this._oldBounds = this.bounds.clone(); } this.children.each(function(value) { if(!(value instanceof ORYX.Core.Controls.Docker)) { value._update(); } }); if (this.dockers.length > 0&&!this.dockers.first().getDockedShape()) { this.dockers.each(function(docker){ docker.bounds.centerMoveTo(this.bounds.center()) }.bind(this)) } /*this.incoming.each((function(edge) { if(!(this.dockers[0] && this.dockers[0].getDockedShape() instanceof ORYX.Core.Node)) edge._update(true); }).bind(this)); this.outgoing.each((function(edge) { if(!(this.dockers[0] && this.dockers[0].getDockedShape() instanceof ORYX.Core.Node)) edge._update(true); }).bind(this)); */ }, /** * This method repositions and resizes the SVG representation * of the shape. */ refresh: function(){ arguments.callee.$.refresh.apply(this, arguments); /** Movement */ var x = this.bounds.upperLeft().x; var y = this.bounds.upperLeft().y; // Move owner element this.node.firstChild.setAttributeNS(null, "transform", "translate(" + x + ", " + y + ")"); // Move magnets this.node.childNodes[1].childNodes[1].setAttributeNS(null, "transform", "translate(" + x + ", " + y + ")"); /** Resize */ //iterate over all relevant svg elements and update them this._svgShapes.each(function(svgShape){ svgShape.update(); }); }, _dockerChanged: function(){ var docker = this.dockers[0]; //set the bounds of the the association this.bounds.centerMoveTo(docker.bounds.center()); this._dockerUpdated = true; //this._update(true); }, /** * This method traverses a tree of SVGElements and returns * all SVGShape objects. For each basic shape or path element * a SVGShape object is initialized. * * @param svgNode {SVGElement} * @return {Array} Array of SVGShape objects */ _initSVGShapes: function(svgNode){ var svgShapes = []; try { var svgShape = new ORYX.Core.SVG.SVGShape(svgNode); svgShapes.push(svgShape); } catch (e) { //do nothing } if (svgNode.hasChildNodes()) { for (var i = 0; i < svgNode.childNodes.length; i++) { svgShapes = svgShapes.concat(this._initSVGShapes(svgNode.childNodes[i])); } } return svgShapes; }, /** * Calculate if the point is inside the Shape * @param {PointX} * @param {PointY} * @param {absoluteBounds} optional: for performance */ isPointIncluded: function(pointX, pointY, absoluteBounds){ // If there is an arguments with the absoluteBounds var absBounds = absoluteBounds && absoluteBounds instanceof ORYX.Core.Bounds ? absoluteBounds : this.absoluteBounds(); if (!absBounds.isIncluded(pointX, pointY)) { return false; } else { } //point = Object.clone(point); var ul = absBounds.upperLeft(); var x = pointX - ul.x; var y = pointY - ul.y; var i=0; do { var isPointIncluded = this._svgShapes[i++].isPointIncluded( x, y ); } while( !isPointIncluded && i < this._svgShapes.length) return isPointIncluded; /*return this._svgShapes.any(function(svgShape){ return svgShape.isPointIncluded(point); });*/ }, /** * Calculate if the point is over an special offset area * @param {Point} */ isPointOverOffset: function( pointX, pointY ){ var isOverEl = arguments.callee.$.isPointOverOffset.apply( this , arguments ); if (isOverEl) { // If there is an arguments with the absoluteBounds var absBounds = this.absoluteBounds(); absBounds.widen( - ORYX.CONFIG.BORDER_OFFSET ); if ( !absBounds.isIncluded( pointX, pointY )) { return true; } } return false; }, serialize: function(){ var result = arguments.callee.$.serialize.apply(this); // Add the docker's bounds // nodes only have at most one docker! this.dockers.each((function(docker){ if (docker.getDockedShape()) { var center = docker.referencePoint; center = center ? center : docker.bounds.center(); result.push({ name: 'docker', prefix: 'oryx', value: $H(center).values().join(','), type: 'literal' }); } }).bind(this)); // Get the spezific serialized object from the stencil try { //result = this.getStencil().serialize(this, result); var serializeEvent = this.getStencil().serialize(); /* * call serialize callback by reference, result should be found * in serializeEvent.result */ if(serializeEvent.type) { serializeEvent.shape = this; serializeEvent.data = result; serializeEvent.result = undefined; serializeEvent.forceExecution = true; this._delegateEvent(serializeEvent); if(serializeEvent.result) { result = serializeEvent.result; } } } catch (e) { } return result; }, deserialize: function(data){ arguments.callee.$.deserialize.apply(this, arguments); try { //data = this.getStencil().deserialize(this, data); var deserializeEvent = this.getStencil().deserialize(); /* * call serialize callback by reference, result should be found * in serializeEventInfo.result */ if(deserializeEvent.type) { deserializeEvent.shape = this; deserializeEvent.data = data; deserializeEvent.result = undefined; deserializeEvent.forceExecution = true; this._delegateEvent(deserializeEvent); if(deserializeEvent.result) { data = deserializeEvent.result; } } } catch (e) { } // Set the outgoing shapes var outgoing = data.findAll(function(ser){ return (ser.prefix+"-"+ser.name) == 'raziel-outgoing'}); outgoing.each((function(obj){ // TODO: Look at Canvas if(!this.parent) {return}; // Set outgoing Shape var next = this.getCanvas().getChildShapeByResourceId(obj.value); if(next){ if(next instanceof ORYX.Core.Edge) { //Set the first docker of the next shape next.dockers.first().setDockedShape(this); next.dockers.first().setReferencePoint(next.dockers.first().bounds.center()); } else if(next.dockers.length > 0) { //next is a node and next has a docker next.dockers.first().setDockedShape(this); //next.dockers.first().setReferencePoint({x: this.bounds.width() / 2.0, y: this.bounds.height() / 2.0}); } } }).bind(this)); if (this.dockers.length === 1) { var dockerPos; dockerPos = data.find(function(entry){ return (entry.prefix + "-" + entry.name === "oryx-dockers"); }); if (dockerPos) { var points = dockerPos.value.replace(/,/g, " ").split(" ").without("").without("#"); if (points.length === 2 && this.dockers[0].getDockedShape()) { this.dockers[0].setReferencePoint({ x: parseFloat(points[0]), y: parseFloat(points[1]) }); } else { this.dockers[0].bounds.centerMoveTo(parseFloat(points[0]), parseFloat(points[1])); } } } }, /** * This method excepts the SVGDoucment that is the SVG representation * of this shape. * The bounds of the shape are calculated, the SVG representation's upper left point * is moved to 0,0 and it the method sets if this shape is resizable. * * @param {SVGDocument} svgDocument */ _init: function(svgDocument){ arguments.callee.$._init.apply(this, arguments); var svgNode = svgDocument.getElementsByTagName("g")[0]; //outer most g node // set all required attributes var attributeTitle = svgDocument.ownerDocument.createAttribute("title"); attributeTitle.nodeValue = this.getStencil().title(); svgNode.setAttributeNode(attributeTitle); var attributeId = svgDocument.ownerDocument.createAttribute("id"); attributeId.nodeValue = this.id; svgNode.setAttributeNode(attributeId); // var stencilTargetNode = this.node.childNodes[0].childNodes[0]; //" svgNode = stencilTargetNode.appendChild(svgNode); // Add to the EventHandler this.addEventHandlers(svgNode.parentNode); /**set minimum and maximum size*/ var minSizeAttr = svgNode.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "minimumSize"); if (minSizeAttr) { minSizeAttr = minSizeAttr.replace("/,/g", " "); var minSizeValues = minSizeAttr.split(" "); minSizeValues = minSizeValues.without(""); if (minSizeValues.length > 1) { this.minimumSize = { width: parseFloat(minSizeValues[0]), height: parseFloat(minSizeValues[1]) }; } else { //set minimumSize to (1,1), so that width and height of the stencil can never be (0,0) this.minimumSize = { width: 1, height: 1 }; } } var maxSizeAttr = svgNode.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "maximumSize"); if (maxSizeAttr) { maxSizeAttr = maxSizeAttr.replace("/,/g", " "); var maxSizeValues = maxSizeAttr.split(" "); maxSizeValues = maxSizeValues.without(""); if (maxSizeValues.length > 1) { this.maximumSize = { width: parseFloat(maxSizeValues[0]), height: parseFloat(maxSizeValues[1]) }; } } if (this.minimumSize && this.maximumSize && (this.minimumSize.width > this.maximumSize.width || this.minimumSize.height > this.maximumSize.height)) { //TODO wird verschluckt!!! throw this + ": Minimum Size must be greater than maxiumSize."; } /**get current bounds and adjust it to upperLeft == (0,0)*/ //initialize all SVGShape objects this._svgShapes = this._initSVGShapes(svgNode); //get upperLeft and lowerRight of stencil var upperLeft = { x: undefined, y: undefined }; var lowerRight = { x: undefined, y: undefined }; var me = this; this._svgShapes.each(function(svgShape){ upperLeft.x = (upperLeft.x !== undefined) ? Math.min(upperLeft.x, svgShape.x) : svgShape.x; upperLeft.y = (upperLeft.y !== undefined) ? Math.min(upperLeft.y, svgShape.y) : svgShape.y; lowerRight.x = (lowerRight.x !== undefined) ? Math.max(lowerRight.x, svgShape.x + svgShape.width) : svgShape.x + svgShape.width; lowerRight.y = (lowerRight.y !== undefined) ? Math.max(lowerRight.y, svgShape.y + svgShape.height) : svgShape.y + svgShape.height; /** set if resizing is enabled */ //TODO isResizable durch die beiden anderen booleans ersetzen? if (svgShape.isHorizontallyResizable) { me.isHorizontallyResizable = true; me.isResizable = true; } if (svgShape.isVerticallyResizable) { me.isVerticallyResizable = true; me.isResizable = true; } if (svgShape.anchorTop && svgShape.anchorBottom) { me.isVerticallyResizable = true; me.isResizable = true; } if (svgShape.anchorLeft && svgShape.anchorRight) { me.isHorizontallyResizable = true; me.isResizable = true; } }); //move all SVGShapes by -upperLeft this._svgShapes.each(function(svgShape){ svgShape.x -= upperLeft.x; svgShape.y -= upperLeft.y; svgShape.update(); }); //set bounds of shape //the offsets are also needed for positioning the magnets and the docker var offsetX = upperLeft.x; var offsetY = upperLeft.y; lowerRight.x -= offsetX; lowerRight.y -= offsetY; upperLeft.x = 0; upperLeft.y = 0; //prevent that width or height of initial bounds is 0 if (lowerRight.x === 0) { lowerRight.x = 1; } if (lowerRight.y === 0) { lowerRight.y = 1; } this._oldBounds.set(upperLeft, lowerRight); this.bounds.set(upperLeft, lowerRight); /**initialize magnets */ var magnets = svgDocument.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_ORYX, "magnets"); if (magnets && magnets.length > 0) { magnets = $A(magnets[0].getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_ORYX, "magnet")); var me = this; magnets.each(function(magnetElem){ var magnet = new ORYX.Core.Controls.Magnet({ eventHandlerCallback: me.eventHandlerCallback }); var cx = parseFloat(magnetElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "cx")); var cy = parseFloat(magnetElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "cy")); magnet.bounds.centerMoveTo({ x: cx - offsetX, y: cy - offsetY }); //get anchors var anchors = magnetElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "anchors"); if (anchors) { anchors = anchors.replace("/,/g", " "); anchors = anchors.split(" ").without(""); for(var i = 0; i < anchors.length; i++) { switch(anchors[i].toLowerCase()) { case "left": magnet.anchorLeft = true; break; case "right": magnet.anchorRight = true; break; case "top": magnet.anchorTop = true; break; case "bottom": magnet.anchorBottom = true; break; } } } me.add(magnet); //check, if magnet is default magnet if (!this._defaultMagnet) { var defaultAttr = magnetElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "default"); if (defaultAttr && defaultAttr.toLowerCase() === "yes") { me._defaultMagnet = magnet; } } }); } else { // Add a Magnet in the Center of Shape var magnet = new ORYX.Core.Controls.Magnet(); magnet.bounds.centerMoveTo(this.bounds.width() / 2, this.bounds.height() / 2); this.add(magnet); } /**initialize docker */ var dockerElem = svgDocument.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_ORYX, "docker"); if (dockerElem && dockerElem.length > 0) { dockerElem = dockerElem[0]; var docker = this.createDocker(); var cx = parseFloat(dockerElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "cx")); var cy = parseFloat(dockerElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "cy")); docker.bounds.centerMoveTo({ x: cx - offsetX, y: cy - offsetY }); //get anchors var anchors = dockerElem.getAttributeNS(ORYX.CONFIG.NAMESPACE_ORYX, "anchors"); if (anchors) { anchors = anchors.replace("/,/g", " "); anchors = anchors.split(" ").without(""); for(var i = 0; i < anchors.length; i++) { switch(anchors[i].toLowerCase()) { case "left": docker.anchorLeft = true; break; case "right": docker.anchorRight = true; break; case "top": docker.anchorTop = true; break; case "bottom": docker.anchorBottom = true; break; } } } } /**initialize labels*/ var textElems = svgNode.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'text'); $A(textElems).each((function(textElem){ var label = new ORYX.Core.SVG.Label({ textElement: textElem, shapeId: this.id }); label.x -= offsetX; label.y -= offsetY; this._labels[label.id] = label; label.registerOnChange(this.layout.bind(this)); // Only apply fitting on form-components if(this._stencil.id().indexOf(ORYX.CONFIG.FORM_ELEMENT_ID_PREFIX) == 0) { label.registerOnChange(this.fitToLabels.bind(this)); } }).bind(this)); }, fitToLabels: function() { var y = 0; this.getLabels().each(function(label){ var lr = label.getY() + label.getHeight(); if(lr > y) { y = lr; } }); var bounds = this.bounds; var boundsChanged = false; if(this.minimumSize) { // Check if y-value exceeds the min-value. If not, stick to this value. var minHeight = this.minimumSize.height; if(y < minHeight && bounds.height() > minHeight && minHeight > this.forcedHeight) { bounds.set(bounds.upperLeft().x, bounds.upperLeft().y, bounds.lowerRight().x, bounds.upperLeft().y + minHeight); boundsChanged = true; } else if(y > minHeight && bounds.height() != y && y > this.forcedHeight){ bounds.set(bounds.upperLeft().x, bounds.upperLeft().y, bounds.lowerRight().x, bounds.upperLeft().y + y); boundsChanged = true; } else if(bounds.height() > this.forcedHeight && this.forcedHeight > 0) { bounds.set(bounds.upperLeft().x, bounds.upperLeft().y, bounds.lowerRight().x, bounds.upperLeft().y + this.forcedHeight); boundsChanged = true; } } if(boundsChanged) { // Force facade to re-layout since bounds are changed AFTER layout has been performed if(this.facade.getCanvas() != null) { this.facade.getCanvas().update(); } // Re-select if needed to force the select if(this.facade.getSelection().member(this)) { var selectedNow = this.facade.getSelection(); this.facade.setSelection([]); this.facade.setSelection(selectedNow); } } }, /** * Override the Method, that a docker is not shown * */ createDocker: function() { var docker = new ORYX.Core.Controls.Docker({eventHandlerCallback: this.eventHandlerCallback}); docker.bounds.registerCallback(this._dockerChangedCallback); this.dockers.push( docker ); docker.parent = this; docker.bounds.registerCallback(this._changedCallback); return docker }, toString: function(){ return this._stencil.title() + " " + this.id } }; ORYX.Core.Node = ORYX.Core.Shape.extend(ORYX.Core.Node); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ NAMESPACE_SVG = "http://www.w3.org/2000/svg"; NAMESPACE_ORYX = "http://www.b3mn.org/oryx"; /** * Init namespaces */ if (!ORYX) { var ORYX = {}; } if (!ORYX.Core) { ORYX.Core = {}; } /** * @classDescription Abstract base class for all connections. * @extends {ORYX.Core.Shape} * @param options {Object} * * TODO da die verschiebung der Edge nicht ueber eine * translation gemacht wird, die sich auch auf alle kind UIObjects auswirkt, * muessen die kinder hier beim verschieben speziell betrachtet werden. * Das sollte ueberarbeitet werden. * */ ORYX.Core.Edge = { /** * Constructor * @param {Object} options * @param {Stencil} stencil */ construct: function(options, stencil, facade){ arguments.callee.$.construct.apply(this, arguments); this.isMovable = true; this.isSelectable = true; this._dockerUpdated = false; this._markers = new Hash(); //a hash map of SVGMarker objects where keys are the marker ids this._paths = []; this._interactionPaths = []; this._dockersByPath = new Hash(); this._markersByPath = new Hash(); /* Data structures to store positioning information of attached child nodes */ this.attachedNodePositionData = new Hash(); //TODO was muss hier initial erzeugt werden? var stencilNode = this.node.childNodes[0].childNodes[0]; stencilNode = ORYX.Editor.graft("http://www.w3.org/2000/svg", stencilNode, ['g', { "pointer-events": "painted" }]); //Add to the EventHandler this.addEventHandlers(stencilNode.parentNode); this._oldBounds = this.bounds.clone(); //load stencil this._init(this._stencil.view()); if (stencil instanceof Array) { this.deserialize(stencil); } }, _update: function(force){ if(this._dockerUpdated || this.isChanged || force) { this.dockers.invoke("update"); if (false && (this.bounds.width() === 0 || this.bounds.height() === 0)) { var width = this.bounds.width(); var height = this.bounds.height(); this.bounds.extend({ x: width === 0 ? 2 : 0, y: height === 0 ? 2 : 0 }); this.bounds.moveBy({ x: width === 0 ? -1 : 0, y: height === 0 ? -1 : 0 }); } // TODO: Bounds muss abhaengig des Eltern-Shapes gesetzt werden var upL = this.bounds.upperLeft(); var oldUpL = this._oldBounds.upperLeft(); var oldWidth = this._oldBounds.width() === 0 ? this.bounds.width() : this._oldBounds.width(); var oldHeight = this._oldBounds.height() === 0 ? this.bounds.height() : this._oldBounds.height(); var diffX = upL.x - oldUpL.x; var diffY = upL.y - oldUpL.y; var diffWidth = (this.bounds.width() / oldWidth) || 1; var diffHeight = (this.bounds.height() / oldHeight) || 1; this.dockers.each((function(docker){ // Unregister on BoundsChangedCallback docker.bounds.unregisterCallback(this._dockerChangedCallback); // If there is any changes at the edge and is there is not an DockersUpdate // set the new bounds to the docker if (!this._dockerUpdated) { docker.bounds.moveBy(diffX, diffY); if (diffWidth !== 1 || diffHeight !== 1) { var relX = docker.bounds.upperLeft().x - upL.x; var relY = docker.bounds.upperLeft().y - upL.y; docker.bounds.moveTo(upL.x + relX * diffWidth, upL.y + relY * diffHeight); } } // Do Docker update and register on DockersBoundChange docker.update(); docker.bounds.registerCallback(this._dockerChangedCallback); }).bind(this)); if (this._dockerUpdated) { var a = this.dockers.first().bounds.center(); var b = this.dockers.first().bounds.center(); this.dockers.each((function(docker){ var center = docker.bounds.center(); a.x = Math.min(a.x, center.x); a.y = Math.min(a.y, center.y); b.x = Math.max(b.x, center.x); b.y = Math.max(b.y, center.y); }).bind(this)); //set the bounds of the the association this.bounds.set(Object.clone(a), Object.clone(b)); } upL = this.bounds.upperLeft(); oldUpL = this._oldBounds.upperLeft(); diffWidth = (this.bounds.width() / (oldWidth||this.bounds.width())); diffHeight = (this.bounds.height() / (oldHeight||this.bounds.height())); diffX = upL.x - oldUpL.x; diffY = upL.y - oldUpL.y; //reposition labels this.getLabels().each(function(label) { if (label.getReferencePoint()){ var ref = label.getReferencePoint(); var from = ref.segment.from, to = ref.segment.to; if (!from || !from.parent || !to || !to.parent) { return; } var fromPosition = from.bounds.center(), toPosition = to.bounds.center(); if (fromPosition.x === ref.segment.fromPosition.x && fromPosition.y === ref.segment.fromPosition.y && toPosition.x === ref.segment.toPosition.x && toPosition.y === ref.segment.toPosition.y && !ref.dirty){ return; } if (!this.parent.initializingShapes) { var oldDistance = ORYX.Core.Math.getDistanceBetweenTwoPoints(ref.segment.fromPosition, ref.segment.toPosition, ref.intersection); var newIntersection = ORYX.Core.Math.getPointBetweenTwoPoints(fromPosition, toPosition, isNaN(oldDistance) ? 0.5 : oldDistance); /** * Set position */ // Get the orthogonal identity vector of the current segment var oiv = ORYX.Core.Math.getOrthogonalIdentityVector(fromPosition, toPosition); var isHor = Math.abs(oiv.y)===1, isVer = Math.abs(oiv.x)===1; oiv.x *= ref.distance; oiv.y *= ref.distance; // vector * distance oiv.x += newIntersection.x; oiv.y += newIntersection.y; // vector + the intersection point var mx = isHor && ref.orientation && (ref.iorientation||ref.orientation).endsWith("r") ? -label.getWidth() : 0; var my = isVer && ref.orientation && (ref.iorientation||ref.orientation).startsWith("l") ? -label.getHeight()+2 : 0; label.setX(oiv.x+mx); label.setY(oiv.y+my); // Update the reference point this.updateReferencePointOfLabel(label, newIntersection, from, to); } else { var oiv = ORYX.Core.Math.getOrthogonalIdentityVector(fromPosition, toPosition); oiv.x *= ref.distance; oiv.y *= ref.distance; // vector * distance oiv.x += ref.intersection.x; oiv.y += ref.intersection.y; // vector + the intersection point label.setX(oiv.x); label.setY(oiv.y); ref.segment.fromPosition = fromPosition; ref.segment.toPosition = toPosition; } return; } // Update label position if no reference point is set if (label.position && !this.parent.initializingShapes){ var x = label.position.x + (diffX * (diffWidth||1)); if (x > this.bounds.lowerRight().x){ x += this.bounds.width()-(this.bounds.width()/(diffWidth||1)); } var y = label.position.y + (diffY * (diffHeight||1)); if (y > this.bounds.lowerRight().y){ y += this.bounds.height()-(this.bounds.height()/(diffHeight||1)); } label.setX(x);label.setY(y); return; } switch (label.getEdgePosition()) { case "starttop": var angle = this._getAngle(this.dockers[0], this.dockers[1]); var pos = this.dockers.first().bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("left"); label.verticalAlign("bottom"); label.x = pos.x + label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("right"); label.verticalAlign("bottom"); label.x = pos.x - label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(180 - angle, pos); } break; case "startmiddle": var angle = this._getAngle(this.dockers[0], this.dockers[1]); var pos = this.dockers.first().bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("left"); label.verticalAlign("bottom"); label.x = pos.x + 2; label.y = pos.y + 4; label.rotate(360 - angle, pos); } else { label.horizontalAlign("right"); label.verticalAlign("bottom"); label.x = pos.x + 1; label.y = pos.y + 4; label.rotate(180 - angle, pos); } break; case "startbottom": var angle = this._getAngle(this.dockers[0], this.dockers[1]); var pos = this.dockers.first().bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("left"); label.verticalAlign("top"); label.x = pos.x + label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("right"); label.verticalAlign("top"); label.x = pos.x - label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(180 - angle, pos); } break; case "midtop": var numOfDockers = this.dockers.length; if(numOfDockers%2 == 0) { var angle = this._getAngle(this.dockers[numOfDockers/2-1], this.dockers[numOfDockers/2]) var pos1 = this.dockers[numOfDockers/2-1].bounds.center(); var pos2 = this.dockers[numOfDockers/2].bounds.center(); var pos = {x:(pos1.x + pos2.x)/2.0, y:(pos1.y+pos2.y)/2.0}; label.horizontalAlign("center"); label.verticalAlign("bottom"); label.x = pos.x; label.y = pos.y - label.getOffsetTop(); if (angle <= 90 || angle > 270) { label.rotate(360 - angle, pos); } else { label.rotate(180 - angle, pos); } } else { var index = parseInt(numOfDockers/2); var angle = this._getAngle(this.dockers[index], this.dockers[index+1]) var pos = this.dockers[index].bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("left"); label.verticalAlign("bottom"); label.x = pos.x + label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("right"); label.verticalAlign("bottom"); label.x = pos.x - label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(180 - angle, pos); } } break; case "midbottom": var numOfDockers = this.dockers.length; if(numOfDockers%2 == 0) { var angle = this._getAngle(this.dockers[numOfDockers/2-1], this.dockers[numOfDockers/2]) var pos1 = this.dockers[numOfDockers/2-1].bounds.center(); var pos2 = this.dockers[numOfDockers/2].bounds.center(); var pos = {x:(pos1.x + pos2.x)/2.0, y:(pos1.y+pos2.y)/2.0}; label.horizontalAlign("center"); label.verticalAlign("top"); label.x = pos.x; label.y = pos.y + label.getOffsetTop(); if (angle <= 90 || angle > 270) { label.rotate(360 - angle, pos); } else { label.rotate(180 - angle, pos); } } else { var index = parseInt(numOfDockers/2); var angle = this._getAngle(this.dockers[index], this.dockers[index+1]) var pos = this.dockers[index].bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("left"); label.verticalAlign("top"); label.x = pos.x + label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("right"); label.verticalAlign("top"); label.x = pos.x - label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(180 - angle, pos); } } break; case "endtop": var length = this.dockers.length; var angle = this._getAngle(this.dockers[length-2], this.dockers[length-1]); var pos = this.dockers.last().bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("right"); label.verticalAlign("bottom"); label.x = pos.x - label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("left"); label.verticalAlign("bottom"); label.x = pos.x + label.getOffsetTop(); label.y = pos.y - label.getOffsetTop(); label.rotate(180 - angle, pos); } break; case "endbottom": var length = this.dockers.length; var angle = this._getAngle(this.dockers[length-2], this.dockers[length-1]); var pos = this.dockers.last().bounds.center(); if (angle <= 90 || angle > 270) { label.horizontalAlign("right"); label.verticalAlign("top"); label.x = pos.x - label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(360 - angle, pos); } else { label.horizontalAlign("left"); label.verticalAlign("top"); label.x = pos.x + label.getOffsetBottom(); label.y = pos.y + label.getOffsetBottom(); label.rotate(180 - angle, pos); } break; } }.bind(this)); this.children.each(function(value) { if(value instanceof ORYX.Core.Node) { this.calculatePositionOfAttachedChildNode.call(this, value); } }.bind(this)); this.refreshAttachedNodes(); this.refresh(); this.isChanged = false; this._dockerUpdated = false; this._oldBounds = this.bounds.clone(); } // IE10 specific fix, start and end-markes get left behind when moving path var userAgent = navigator.userAgent; if (navigator.appVersion.indexOf("MSIE 10") !== -1 || (userAgent.indexOf('Trident') !== -1 && userAgent.indexOf('rv:11') !== -1)) { this.node.parentNode.insertBefore(this.node, this.node); } }, /** * Moves a point to the upperLeft of a node's bounds. * * @param {point} point * The point to move * @param {ORYX.Core.Bounds} bounds * The Bounds of the related noe */ movePointToUpperLeftOfNode: function(point, bounds) { point.x -= bounds.width()/2; point.y -= bounds.height()/2; }, /** * Refreshes the visual representation of edge's attached nodes. */ refreshAttachedNodes: function() { this.attachedNodePositionData.values().each(function(nodeData) { var startPoint = nodeData.segment.docker1.bounds.center(); var endPoint = nodeData.segment.docker2.bounds.center(); this.relativizePoint(startPoint); this.relativizePoint(endPoint); var newNodePosition = new Object(); /* Calculate new x-coordinate */ newNodePosition.x = startPoint.x + nodeData.relativDistanceFromDocker1 * (endPoint.x - startPoint.x); /* Calculate new y-coordinate */ newNodePosition.y = startPoint.y + nodeData.relativDistanceFromDocker1 * (endPoint.y - startPoint.y); /* Convert new position to the upper left of the node */ this.movePointToUpperLeftOfNode(newNodePosition, nodeData.node.bounds); /* Move node to its new position */ nodeData.node.bounds.moveTo(newNodePosition); nodeData.node._update(); }.bind(this)); }, /** * Calculates the position of an edge's child node. The node is placed on * the path of the edge. * * @param {node} * The node to calculate the new position * @return {Point} * The calculated upper left point of the node's shape. */ calculatePositionOfAttachedChildNode: function(node) { /* Initialize position */ var position = new Object(); position.x = 0; position.y = 0; /* Case: Node was just added */ if(!this.attachedNodePositionData[node.getId()]) { this.attachedNodePositionData[node.getId()] = new Object(); this.attachedNodePositionData[node.getId()] .relativDistanceFromDocker1 = 0; this.attachedNodePositionData[node.getId()].node = node; this.attachedNodePositionData[node.getId()].segment = new Object(); this.findEdgeSegmentForNode(node); }else if(node.isChanged) { this.findEdgeSegmentForNode(node); } }, /** * Finds the appropriate edge segement for a node. * The segment is choosen, which has the smallest distance to the node. * * @param {ORYX.Core.Node} node * The concerning node */ findEdgeSegmentForNode: function(node) { var length = this.dockers.length; var smallestDistance = undefined; for(i=1;i 0) { var x = this.bounds.upperLeft().x; var y = this.bounds.upperLeft().y; this.node.firstChild.childNodes[1].setAttributeNS(null, "transform", "translate(" + x + ", " + y + ")"); } }, /** * Calculate the Border Intersection Point between two points * @param {PointA} * @param {PointB} */ getIntersectionPoint: function(){ var length = Math.floor(this.dockers.length / 2) return ORYX.Core.Math.midPoint(this.dockers[length - 1].bounds.center(), this.dockers[length].bounds.center()) }, /** * Returns TRUE if the bounds is over the edge * @param {Bounds} * */ isBoundsIncluded: function(bounds){ var dockers = this.dockers, size = dockers.length; return dockers.any(function(docker, i){ if (i == size-1){ return false; } var a = docker.bounds.center(); var b = dockers[i+1].bounds.center(); return ORYX.Core.Math.isRectOverLine(a.x, a.y, b.x, b.y, bounds.a.x, bounds.a.y, bounds.b.x, bounds.b.y); }); }, /** * Calculate if the point is inside the Shape * @param {PointX} * @param {PointY} */ isPointIncluded: function(pointX, pointY){ var isbetweenAB = this.absoluteBounds().isIncluded(pointX, pointY, ORYX.CONFIG.OFFSET_EDGE_BOUNDS); var isPointIncluded = undefined; if (isbetweenAB && this.dockers.length > 0) { var i = 0; var point1, point2; do { point1 = this.dockers[i].bounds.center(); point2 = this.dockers[++i].bounds.center(); isPointIncluded = ORYX.Core.Math.isPointInLine(pointX, pointY, point1.x, point1.y, point2.x, point2.y, ORYX.CONFIG.OFFSET_EDGE_BOUNDS); } while (!isPointIncluded && i < this.dockers.length - 1) } return isPointIncluded; }, /** * Calculate if the point is over an special offset area * @param {Point} */ isPointOverOffset: function(){ return false }, /** * Returns TRUE if the given node * is a child node of the shapes node * @param {Element} node * @return {Boolean} * */ containsNode: function(node){ if (this._paths.include(node) || this._interactionPaths.include(node)){ return true; } return false; }, /** * Returns the angle of the line between two dockers * (0 - 359.99999999) */ _getAngle: function(docker1, docker2) { var p1 = docker1 instanceof ORYX.Core.Controls.Docker ? docker1.absoluteCenterXY() : docker1; var p2 = docker2 instanceof ORYX.Core.Controls.Docker ? docker2.absoluteCenterXY() : docker2; return ORYX.Core.Math.getAngle(p1, p2); }, alignDockers: function(){ this._update(true); var firstPoint = this.dockers.first().bounds.center(); var lastPoint = this.dockers.last().bounds.center(); var deltaX = lastPoint.x - firstPoint.x; var deltaY = lastPoint.y - firstPoint.y; var numOfDockers = this.dockers.length - 1; this.dockers.each((function(docker, index){ var part = index / numOfDockers; docker.bounds.unregisterCallback(this._dockerChangedCallback); docker.bounds.moveTo(firstPoint.x + part * deltaX, firstPoint.y + part * deltaY); docker.bounds.registerCallback(this._dockerChangedCallback); }).bind(this)); this._dockerChanged(); }, add: function(shape){ arguments.callee.$.add.apply(this, arguments); // If the new shape is a Docker which is not contained if (shape instanceof ORYX.Core.Controls.Docker && this.dockers.include(shape)){ // Add it to the dockers list ordered by paths var pathArray = this._dockersByPath.values()[0]; if (pathArray) { pathArray.splice(this.dockers.indexOf(shape), 0, shape); } /* Perform nessary adjustments on the edge's child shapes */ this.handleChildShapesAfterAddDocker(shape); } }, /** * Performs nessary adjustments on the edge's child shapes. * * @param {ORYX.Core.Controls.Docker} docker * The added docker */ handleChildShapesAfterAddDocker: function(docker) { /* Ensure type of Docker */ if(!docker instanceof ORYX.Core.Controls.Docker) {return undefined;} var index = this.dockers.indexOf(docker); if(!(0 < index && index < this.dockers.length - 1)) { /* Exception: Expect added docker between first and last node of the edge */ return undefined; } /* Get child nodes concerning the segment of the new docker */ var startDocker = this.dockers[index-1]; var endDocker = this.dockers[index+1]; /* Adjust the position of edge's child nodes */ var segmentElements = this.getAttachedNodePositionDataForSegment(startDocker, endDocker); var lengthSegmentPart1 = ORYX.Core.Math.getDistancePointToPoint( startDocker.bounds.center(), docker.bounds.center()); var lengthSegmentPart2 = ORYX.Core.Math.getDistancePointToPoint( endDocker.bounds.center(), docker.bounds.center()); if(!(lengthSegmentPart1 + lengthSegmentPart2)) {return;} var relativDockerPosition = lengthSegmentPart1 / (lengthSegmentPart1 + lengthSegmentPart2); segmentElements.each(function(nodePositionData) { /* Assign child node to the new segment */ if(nodePositionData.value.relativDistanceFromDocker1 < relativDockerPosition) { /* Case: before added Docker */ nodePositionData.value.segment.docker2 = docker; nodePositionData.value.relativDistanceFromDocker1 = nodePositionData.value.relativDistanceFromDocker1 / relativDockerPosition; } else { /* Case: after added Docker */ nodePositionData.value.segment.docker1 = docker; var newFullDistance = 1 - relativDockerPosition; var relativPartOfSegment = nodePositionData.value.relativDistanceFromDocker1 - relativDockerPosition; nodePositionData.value.relativDistanceFromDocker1 = relativPartOfSegment / newFullDistance; } }) // Update all labels reference points this.getLabels().each(function(label){ var ref = label.getReferencePoint(); if (!ref) { return; } var index = this.dockers.indexOf(docker); if (index >= ref.segment.fromIndex && index <= ref.segment.toIndex){ var segment = this.findSegment(ref.intersection); if (!segment){ // Choose whether the first of the last segment segment.fromDocker = ref.segment.fromIndex >= (this.dockers.length/2) ? this.dockers[0] : this.dockers[this.dockers.length-2]; segment.toDocker = this.dockers[this.dockers.indexOf(from)+1]; // The next one if the to docker } var fromPosition = segment.fromDocker.bounds.center(), toPosition = segment.toDocker.bounds.center(); var intersection = ORYX.Core.Math.getPointOfIntersectionPointLine( fromPosition, // P1 - Center of the first docker toPosition, // P2 - Center of the second docker ref.intersection, // P3 - Center of the label true); //var oldDistance = ORYX.Core.Math.getDistanceBetweenTwoPoints(ref.segment.fromPosition, ref.segment.toPosition, ref.intersection); //intersection = ORYX.Core.Math.getPointBetweenTwoPoints(fromPosition, toPosition, isNaN(oldDistance) ? 0.5 : (lengthOld*oldDistance)/lengthNew); // Update the reference point this.updateReferencePointOfLabel(label, intersection, segment.fromDocker, segment.toDocker, true); } }.bind(this)); /* Update attached nodes visual representation */ this.refreshAttachedNodes(); }, /** * Returns elements from {@link attachedNodePositiondata} that match the * segement defined by startDocker and endDocker. * * @param {ORYX.Core.Controls.Docker} startDocker * The docker defining the begin of the segment. * @param {ORYX.Core.Controls.Docker} endDocker * The docker defining the begin of the segment. * * @return {Hash} attachedNodePositionData * Child elements matching the segment */ getAttachedNodePositionDataForSegment: function(startDocker, endDocker) { /* Ensure that the segment is defined correctly */ if(!((startDocker instanceof ORYX.Core.Controls.Docker) && (endDocker instanceof ORYX.Core.Controls.Docker))) { return []; } /* Get elements of the segment */ var elementsOfSegment = this.attachedNodePositionData.findAll(function(nodePositionData) { return nodePositionData.value.segment.docker1 === startDocker && nodePositionData.value.segment.docker2 === endDocker; }); /* Return a Hash in each case */ if(!elementsOfSegment) {return [];} return elementsOfSegment; }, /** * Removes an edge's child shape */ remove: function(shape) { arguments.callee.$.remove.apply(this, arguments); if(this.attachedNodePositionData[shape.getId()]) { delete this.attachedNodePositionData[shape.getId()]; } /* Adjust child shapes if neccessary */ if(shape instanceof ORYX.Core.Controls.Docker) { this.handleChildShapesAfterRemoveDocker(shape); } }, updateReferencePointOfLabel: function(label, intersection, from, to, dirty){ if (!label.getReferencePoint() || !label.isVisible) { return; } var ref = label.getReferencePoint(); // if (ref.orientation && ref.orientation !== "ce"){ var angle = this._getAngle(from, to); if (ref.distance >= 0){ if(angle == 0){ label.horizontalAlign("left");//ref.orientation == "lr" ? "right" : "left"); label.verticalAlign("bottom"); } else if (angle > 0 && angle < 90){ label.horizontalAlign("right"); label.verticalAlign("bottom"); } else if (angle == 90){ label.horizontalAlign("right"); label.verticalAlign("top");//ref.orientation == "lr" ? "bottom" : "top"); } else if (angle > 90 && angle < 180){ label.horizontalAlign("right"); label.verticalAlign("top"); } else if (angle == 180){ label.horizontalAlign("left");//ref.orientation == "ur" ? "right" : "left"); label.verticalAlign("top"); } else if (angle > 180 && angle < 270){ label.horizontalAlign("left"); label.verticalAlign("top"); } else if (angle == 270){ label.horizontalAlign("left"); label.verticalAlign("top");//ref.orientation == "ll" ? "bottom" : "top"); } else if (angle > 270 && angle <= 360){ label.horizontalAlign("left"); label.verticalAlign("bottom"); } } else { if(angle == 0){ label.horizontalAlign("left");//ref.orientation == "ur" ? "right" : "left"); label.verticalAlign("top"); } else if (angle > 0 && angle < 90){ label.horizontalAlign("left"); label.verticalAlign("top"); } else if (angle == 90){ label.horizontalAlign("left"); label.verticalAlign("top");//ref.orientation == "ll" ? "bottom" : "top"); } else if (angle > 90 && angle < 180){ label.horizontalAlign("left"); label.verticalAlign("bottom"); } else if (angle == 180){ label.horizontalAlign("left");//ref.orientation == "lr" ? "right" : "left"); label.verticalAlign("bottom"); } else if (angle > 180 && angle < 270){ label.horizontalAlign("right"); label.verticalAlign("bottom"); } else if (angle == 270){ label.horizontalAlign("right"); label.verticalAlign("top");//ref.orientation == "lr" ? "bottom" : "top"); } else if (angle > 270 && angle <= 360){ label.horizontalAlign("right"); label.verticalAlign("top"); } } ref.iorientation = ref.iorientation || ref.orientation; ref.orientation = (label.verticalAlign()=="top"?"u":"l") + (label.horizontalAlign()=="left"?"l":"r"); } label.setReferencePoint(jQuery.extend({},{ intersection: intersection, segment: { from: from, fromIndex: this.dockers.indexOf(from), fromPosition: from.bounds.center(), to: to, toIndex: this.dockers.indexOf(to), toPosition: to.bounds.center() }, dirty: dirty || false },ref)) }, /** * Adjusts the child shapes of an edges after a docker was removed. * * @param{ORYX.Core.Controls.Docker} docker * The removed docker. */ handleChildShapesAfterRemoveDocker: function(docker) { /* Ensure docker type */ if(!(docker instanceof ORYX.Core.Controls.Docker)) {return;} this.attachedNodePositionData.each(function(nodePositionData) { if(nodePositionData.value.segment.docker1 === docker) { /* The new start of the segment is the predecessor of docker2. */ var index = this.dockers.indexOf(nodePositionData.value.segment.docker2); if(index == -1) {return;} nodePositionData.value.segment.docker1 = this.dockers[index - 1]; } else if(nodePositionData.value.segment.docker2 === docker) { /* The new end of the segment is the successor of docker1. */ var index = this.dockers.indexOf(nodePositionData.value.segment.docker1); if(index == -1) {return;} nodePositionData.value.segment.docker2 = this.dockers[index + 1]; } }.bind(this)); // Update all labels reference points this.getLabels().each(function(label){ var ref = label.getReferencePoint(); if (!ref) { return; } var from = ref.segment.from; var to = ref.segment.to; if (from !== docker && to !== docker){ return; } var segment = this.findSegment(ref.intersection); if (!segment){ from = segment.fromDocker; to = segment.toDocker; } else { from = from === docker ? this.dockers[this.dockers.indexOf(to)-1] : from; to = this.dockers[this.dockers.indexOf(from)+1]; } var intersection = ORYX.Core.Math.getPointOfIntersectionPointLine(from.bounds.center(), to.bounds.center(), ref.intersection, true); // Update the reference point this.updateReferencePointOfLabel(label, intersection, from, to, true); }.bind(this)); /* Update attached nodes visual representation */ this.refreshAttachedNodes(); }, /** *@deprecated Use the .createDocker() Method and set the point via the bounds */ addDocker: function(position, exDocker){ var lastDocker; var result; this._dockersByPath.any((function(pair){ return pair.value.any((function(docker, index){ if (!lastDocker) { lastDocker = docker; return false; } else { var point1 = lastDocker.bounds.center(); var point2 = docker.bounds.center(); var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { position.x = position.x / additionalIEZoom; position.y = position.y / additionalIEZoom; } if (ORYX.Core.Math.isPointInLine(position.x, position.y, point1.x, point1.y, point2.x, point2.y, 10)) { var path = this._paths.find(function(path){ return path.id === pair.key; }); if (path) { var allowAttr = path.getAttributeNS(NAMESPACE_ORYX, 'allowDockers'); if (allowAttr && allowAttr.toLowerCase() === "no") { return true; } } var newDocker = (exDocker) ? exDocker : this.createDocker(this.dockers.indexOf(lastDocker) + 1, position); newDocker.bounds.centerMoveTo(position); if(exDocker) this.add(newDocker, this.dockers.indexOf(lastDocker) + 1); result = newDocker; return true; } else { lastDocker = docker; return false; } } }).bind(this)); }).bind(this)); return result; }, removeDocker: function(docker){ if (this.dockers.length > 2 && !(this.dockers.first() === docker)) { this._dockersByPath.any((function(pair){ if (pair.value.member(docker)) { if (docker === pair.value.last()) { return true; } else { this.remove(docker); this._dockersByPath[pair.key] = pair.value.without(docker); this.isChanged = true; this._dockerChanged(); return true; } } return false; }).bind(this)); } }, /** * Removes all dockers from the edge which are on * the line between two dockers * @return {Object} Removed dockers in an indicied array * (key is the removed position of the docker, value is docker themselve) */ removeUnusedDockers:function(){ var marked = $H({}); this.dockers.each(function(docker, i){ if (i==0||i==this.dockers.length-1){ return } var previous = this.dockers[i-1]; /* Do not consider already removed dockers */ if(marked.values().indexOf(previous) != -1 && this.dockers[i-2]) { previous = this.dockers[i-2]; } var next = this.dockers[i+1]; var cp = previous.getDockedShape() && previous.referencePoint ? previous.getAbsoluteReferencePoint() : previous.bounds.center(); var cn = next.getDockedShape() && next.referencePoint ? next.getAbsoluteReferencePoint() : next.bounds.center(); var cd = docker.bounds.center(); if (ORYX.Core.Math.isPointInLine(cd.x, cd.y, cp.x, cp.y, cn.x, cn.y, 1)){ marked[i] = docker; } }.bind(this)) marked.each(function(docker){ this.removeDocker(docker.value); }.bind(this)) if (marked.values().length > 0){ this._update(true); } return marked; }, /** * Initializes the Edge after loading the SVG representation of the edge. * @param {SVGDocument} svgDocument */ _init: function(svgDocument){ arguments.callee.$._init.apply(this, arguments); var minPointX, minPointY, maxPointX, maxPointY; //init markers var defs = svgDocument.getElementsByTagNameNS(NAMESPACE_SVG, "defs"); if (defs.length > 0) { defs = defs[0]; var markerElements = $A(defs.getElementsByTagNameNS(NAMESPACE_SVG, "marker")); var marker; var me = this; markerElements.each(function(markerElement){ try { marker = new ORYX.Core.SVG.SVGMarker(markerElement.cloneNode(true)); me._markers[marker.id] = marker; var textElements = $A(marker.element.getElementsByTagNameNS(NAMESPACE_SVG, "text")); var label; textElements.each(function(textElement){ label = new ORYX.Core.SVG.Label({ textElement: textElement, shapeId: this.id }); me._labels[label.id] = label; }); } catch (e) { } }); } var gs = svgDocument.getElementsByTagNameNS(NAMESPACE_SVG, "g"); if (gs.length <= 0) { throw "Edge: No g element found."; } var g = gs[0]; g.setAttributeNS(null, "id", null); var isFirst = true; $A(g.childNodes).each((function(path, index){ if (ORYX.Editor.checkClassType(path, SVGPathElement)) { path = path.cloneNode(false); var pathId = this.id + "_" + index; path.setAttributeNS(null, "id", pathId); this._paths.push(path); //check, if markers are set and update the id var markersByThisPath = []; var markerUrl = path.getAttributeNS(null, "marker-start"); if (markerUrl && markerUrl !== "") { markerUrl = markerUrl.strip(); markerUrl = markerUrl.replace(/^url\(#/, ''); var markerStartId = this.getValidMarkerId(markerUrl); path.setAttributeNS(null, "marker-start", "url(#" + markerStartId + ")"); markersByThisPath.push(this._markers[markerStartId]); } markerUrl = path.getAttributeNS(null, "marker-mid"); if (markerUrl && markerUrl !== "") { markerUrl = markerUrl.strip(); markerUrl = markerUrl.replace(/^url\(#/, ''); var markerMidId = this.getValidMarkerId(markerUrl); path.setAttributeNS(null, "marker-mid", "url(#" + markerMidId + ")"); markersByThisPath.push(this._markers[markerMidId]); } markerUrl = path.getAttributeNS(null, "marker-end"); if (markerUrl && markerUrl !== "") { markerUrl = markerUrl.strip(); var markerEndId = this.getValidMarkerId(markerUrl); path.setAttributeNS(null, "marker-end", "url(#" + markerEndId + ")"); markersByThisPath.push(this._markers[markerEndId]); } this._markersByPath[pathId] = markersByThisPath; //init dockers var parser = new PathParser(); var handler = new ORYX.Core.SVG.PointsPathHandler(); parser.setHandler(handler); parser.parsePath(path); if (handler.points.length < 4) { throw "Edge: Path has to have two or more points specified."; } this._dockersByPath[pathId] = []; for (var i = 0; i < handler.points.length; i += 2) { //handler.points.each((function(point, pIndex){ var x = handler.points[i]; var y = handler.points[i+1]; if (isFirst || i > 0) { var docker = new ORYX.Core.Controls.Docker({ eventHandlerCallback: this.eventHandlerCallback }); docker.bounds.centerMoveTo(x,y); docker.bounds.registerCallback(this._dockerChangedCallback); this.add(docker, this.dockers.length); //this._dockersByPath[pathId].push(docker); //calculate minPoint and maxPoint if (minPointX) { minPointX = Math.min(x, minPointX); minPointY = Math.min(y, minPointY); } else { minPointX = x; minPointY = y; } if (maxPointX) { maxPointX = Math.max(x, maxPointX); maxPointY = Math.max(y, maxPointY); } else { maxPointX = x; maxPointY = y; } } //}).bind(this)); } isFirst = false; } }).bind(this)); this.bounds.set(minPointX, minPointY, maxPointX, maxPointY); if (false&&(this.bounds.width() === 0 || this.bounds.height() === 0)) { var width = this.bounds.width(); var height = this.bounds.height(); this.bounds.extend({ x: width === 0 ? 2 : 0, y: height === 0 ? 2 : 0 }); this.bounds.moveBy({ x: width === 0 ? -1 : 0, y: height === 0 ? -1 : 0 }); } this._oldBounds = this.bounds.clone(); //add paths to this.node this._paths.reverse(); var paths = []; this._paths.each((function(path){ paths.push(this.node.childNodes[0].childNodes[0].childNodes[0].appendChild(path)); }).bind(this)); this._paths = paths; //init interaction path this._paths.each((function(path){ var iPath = path.cloneNode(false); iPath.setAttributeNS(null, "id", undefined); iPath.setAttributeNS(null, "stroke-width", 10); iPath.setAttributeNS(null, "visibility", "hidden"); iPath.setAttributeNS(null, "stroke-dasharray", null); iPath.setAttributeNS(null, "stroke", "black"); iPath.setAttributeNS(null, "fill", "none"); iPath.setAttributeNS(null, "title", this.getStencil().title()); this._interactionPaths.push(this.node.childNodes[0].childNodes[0].childNodes[0].appendChild(iPath)); }).bind(this)); this._paths.reverse(); this._interactionPaths.reverse(); /**initialize labels*/ var textElems = svgDocument.getElementsByTagNameNS(ORYX.CONFIG.NAMESPACE_SVG, 'text'); $A(textElems).each((function(textElem){ var label = new ORYX.Core.SVG.Label({ textElement: textElem, shapeId: this.id }); this.node.childNodes[0].childNodes[0].appendChild(label.node); this._labels[label.id] = label; label.registerOnChange(this.layout.bind(this)); }).bind(this)); this.propertiesChanged.each(function(pair){ pair.value = true; }); //if(this.dockers.length == 2) { // } //this._update(true); }, getValidMarkerId: function(markerUrl) { if(markerUrl.indexOf("url(\"#") >= 0) { // Fix for IE9, additional quotes are added to the 0) { defs = defs[0]; this._markers.each(function(marker){ var foundMarker = defs.ownerDocument.getElementById(marker.value.id); if (foundMarker) { marker.value.element = defs.removeChild(marker.value.element); } }); } } }, /** * Calls when a docker has changed */ _dockerChanged: function(){ //this._update(true); this._dockerUpdated = true; }, serialize: function(){ var result = arguments.callee.$.serialize.apply(this); //add dockers triple var value = ""; this._dockersByPath.each((function(pair){ pair.value.each(function(docker){ var position = docker.getDockedShape() && docker.referencePoint ? docker.referencePoint : docker.bounds.center(); value = value.concat(position.x + " " + position.y + " "); }); value += " # "; }).bind(this)); result.push({ name: 'dockers', prefix: 'oryx', value: value, type: 'literal' }); //add parent triple dependant on the dockedShapes //TODO change this when canvas becomes a resource /* var source = this.dockers.first().getDockedShape(); var target = this.dockers.last().getDockedShape(); var sharedParent; if (source && target) { //get shared parent while (source.parent) { source = source.parent; if (source instanceof ORYX.Core.Canvas) { sharedParent = source; break; } else { var targetParent = target.parent; var found; while (targetParent) { if (source === targetParent) { sharedParent = source; found = true; break; } else { targetParent = targetParent.parent; } } if (found) { break; } } } } else if (source) { sharedParent = source.parent; } else if (target) { sharedParent = target.parent; } */ //if (sharedParent) { /* result.push({ name: 'parent', prefix: 'raziel', //value: '#' + ERDF.__stripHashes(sharedParent.resourceId), value: '#' + ERDF.__stripHashes(this.getCanvas().resourceId), type: 'resource' });*/ //} //serialize target and source var lastDocker = this.dockers.last(); var target = lastDocker.getDockedShape(); if(target) { result.push({ name: 'target', prefix: 'raziel', value: '#' + ERDF.__stripHashes(target.resourceId), type: 'resource' }); } try { //result = this.getStencil().serialize(this, result); var serializeEvent = this.getStencil().serialize(); /* * call serialize callback by reference, result should be found * in serializeEvent.result */ if(serializeEvent.type) { serializeEvent.shape = this; serializeEvent.data = result; serializeEvent.result = undefined; serializeEvent.forceExecution = true; this._delegateEvent(serializeEvent); if(serializeEvent.result) { result = serializeEvent.result; } } } catch (e) { } return result; }, deserialize: function(data){ try { //data = this.getStencil().deserialize(this, data); var deserializeEvent = this.getStencil().deserialize(); /* * call serialize callback by reference, result should be found * in serializeEventInfo.result */ if(deserializeEvent.type) { deserializeEvent.shape = this; deserializeEvent.data = data; deserializeEvent.result = undefined; deserializeEvent.forceExecution = true; this._delegateEvent(deserializeEvent); if(deserializeEvent.result) { data = deserializeEvent.result; } } } catch (e) { } // Set the outgoing shapes var target = data.find(function(ser) {return (ser.prefix+"-"+ser.name) == 'raziel-target'}); var targetShape; if(target) { targetShape = this.getCanvas().getChildShapeByResourceId(target.value); } var outgoing = data.findAll(function(ser){ return (ser.prefix+"-"+ser.name) == 'raziel-outgoing'}); outgoing.each((function(obj){ // TODO: Look at Canvas if(!this.parent) {return}; // Set outgoing Shape var next = this.getCanvas().getChildShapeByResourceId(obj.value); if(next){ if(next == targetShape) { // If this is an edge, set the last docker to the next shape this.dockers.last().setDockedShape(next); this.dockers.last().setReferencePoint({x: next.bounds.width() / 2.0, y: next.bounds.height() / 2.0}); } else if(next instanceof ORYX.Core.Edge) { //Set the first docker of the next shape next.dockers.first().setDockedShape(this); //next.dockers.first().setReferencePoint({x: this.bounds.width() / 2.0, y: this.bounds.height() / 2.0}); } /*else if(next.dockers.length > 0) { //next is a node and next has a docker next.dockers.first().setDockedShape(this); next.dockers.first().setReferencePoint({x: this.bounds.width() / 2.0, y: this.bounds.height() / 2.0}); }*/ } }).bind(this)); var oryxDockers = data.find(function(obj){ return (obj.prefix === "oryx" && obj.name === "dockers"); }); if (oryxDockers) { var dataByPath = oryxDockers.value.split("#").without("").without(" "); dataByPath.each((function(data, index){ var values = data.replace(/,/g, " ").split(" ").without(""); //for each docker two values must be defined if (values.length % 2 === 0) { var path = this._paths[index]; if (path) { if (index === 0) { while (this._dockersByPath[path.id].length > 2) { this.removeDocker(this._dockersByPath[path.id][1]); } } else { while (this._dockersByPath[path.id].length > 1) { this.removeDocker(this._dockersByPath[path.id][0]); } } var dockersByPath = this._dockersByPath[path.id]; if (index === 0) { //set position of first docker var x = parseFloat(values.shift()); var y = parseFloat(values.shift()); if (dockersByPath.first().getDockedShape()) { dockersByPath.first().setReferencePoint({ x: x, y: y }); } else { dockersByPath.first().bounds.centerMoveTo(x, y); } } //set position of last docker y = parseFloat(values.pop()); x = parseFloat(values.pop()); if (dockersByPath.last().getDockedShape()) { dockersByPath.last().setReferencePoint({ x: x, y: y }); } else { dockersByPath.last().bounds.centerMoveTo(x, y); } //add additional dockers for (var i = 0; i < values.length; i++) { x = parseFloat(values[i]); y = parseFloat(values[++i]); var newDocker = this.createDocker(); newDocker.bounds.centerMoveTo(x, y); //this.dockers = this.dockers.without(newDocker); //this.dockers.splice(this.dockers.indexOf(dockersByPath.last()), 0, newDocker); //dockersByPath.splice(this.dockers.indexOf(dockersByPath.last()), 0, newDocker); } } } }).bind(this)); } else { this.alignDockers(); } arguments.callee.$.deserialize.apply(this, arguments); this._changed(); }, toString: function(){ return this.getStencil().title() + " " + this.id; }, /** * @return {ORYX.Core.Shape} Returns last docked shape or null. */ getTarget: function(){ return this.dockers.last() ? this.dockers.last().getDockedShape() : null; }, /** * @return {ORYX.Core.Shape} Returns the first docked shape or null */ getSource: function() { return this.dockers.first() ? this.dockers.first().getDockedShape() : null; }, /** * Checks whether the edge is at least docked to one shape. * * @return {boolean} True if edge is docked */ isDocked: function() { var isDocked = false; this.dockers.each(function(docker) { if(docker.isDocked()) { isDocked = true; throw $break; } }); return isDocked; }, /** * Calls {@link ORYX.Core.AbstractShape#toJSON} and add a some stencil set information. */ toJSON: function() { var json = arguments.callee.$.toJSON.apply(this, arguments); if(this.getTarget()) { json.target = { resourceId: this.getTarget().resourceId }; } return json; } }; ORYX.Core.Edge = ORYX.Core.Shape.extend(ORYX.Core.Edge); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX){ var ORYX = {} } if(!ORYX.Plugins){ ORYX.Plugins = {} } /** This abstract plugin class can be used to build plugins on. It provides some more basic functionality like registering events (on*-handlers)... @example ORYX.Plugins.MyPlugin = ORYX.Plugins.AbstractPlugin.extend({ construct: function() { // Call super class constructor arguments.callee.$.construct.apply(this, arguments); [...] }, [...] }); @class ORYX.Plugins.AbstractPlugin @constructor Creates a new instance @author Willi Tscheschner */ ORYX.Plugins.AbstractPlugin = Clazz.extend({ /** * The facade which offer editor-specific functionality * @type Facade * @memberOf ORYX.Plugins.AbstractPlugin.prototype */ facade: null, construct: function( facade ){ this.facade = facade; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LOADED, this.onLoaded.bind(this)); }, /** Overwrite to handle load event. TODO: Document params!!! @methodOf ORYX.Plugins.AbstractPlugin.prototype */ onLoaded: function(){}, /** Overwrite to handle selection changed event. TODO: Document params!!! @methodOf ORYX.Plugins.AbstractPlugin.prototype */ onSelectionChanged: function(){}, /** Show overlay on given shape. @methodOf ORYX.Plugins.AbstractPlugin.prototype @example showOverlay( myShape, { stroke: "green" }, ORYX.Editor.graft("http://www.w3.org/2000/svg", null, ['path', { "title": "Click the element to execute it!", "stroke-width": 2.0, "stroke": "black", "d": "M0,-5 L5,0 L0,5 Z", "line-captions": "round" }]) ) @param {Oryx.XXX.Shape[]} shapes One shape or array of shapes the overlay should be put on @param {Oryx.XXX.Attributes} attributes some attributes... @param {Oryx.svg.node} svgNode The svg node which should be used as overlay @param {String} [svgNode="NW"] The svg node position where the overlay should be placed */ showOverlay: function(shapes, attributes, svgNode, svgNodePosition ){ if( !(shapes instanceof Array) ){ shapes = [shapes] } // Define Shapes shapes = shapes.map(function(shape){ var el = shape; if( typeof shape == "string" ){ el = this.facade.getCanvas().getChildShapeByResourceId( shape ); el = el || this.facade.getCanvas().getChildById( shape, true ); } return el; }.bind(this)).compact(); // Define unified id if( !this.overlayID ){ this.overlayID = this.type + ORYX.Editor.provideId(); } this.facade.raiseEvent({ type : ORYX.CONFIG.EVENT_OVERLAY_SHOW, id : this.overlayID, shapes : shapes, attributes : attributes, node : svgNode, nodePosition: svgNodePosition || "NW" }); }, /** Hide current overlay. @methodOf ORYX.Plugins.AbstractPlugin.prototype */ hideOverlay: function(){ this.facade.raiseEvent({ type : ORYX.CONFIG.EVENT_OVERLAY_HIDE, id : this.overlayID }); }, /** Does a transformation with the given xslt stylesheet. @methodOf ORYX.Plugins.AbstractPlugin.prototype @param {String} data The data (e.g. eRDF) which should be transformed @param {String} stylesheet URL of a stylesheet which should be used for transforming data. */ doTransform: function( data, stylesheet ) { if( !stylesheet || !data ){ return "" } var parser = new DOMParser(); var parsedData = parser.parseFromString(data, "text/xml"); source=stylesheet; new Ajax.Request(source, { asynchronous: false, method: 'get', onSuccess: function(transport){ xsl = transport.responseText }.bind(this), onFailure: (function(transport){ ORYX.Log.error("XSL load failed" + transport); }).bind(this) }); var xsltProcessor = new XSLTProcessor(); var domParser = new DOMParser(); var xslObject = domParser.parseFromString(xsl, "text/xml"); xsltProcessor.importStylesheet(xslObject); try { var newData = xsltProcessor.transformToFragment(parsedData, document); var serializedData = (new XMLSerializer()).serializeToString(newData); /* Firefox 2 to 3 problem?! */ serializedData = !serializedData.startsWith("" + serializedData : serializedData; return serializedData; }catch (error) { return -1; } }, /** * Opens a new window that shows the given XML content. * @methodOf ORYX.Plugins.AbstractPlugin.prototype * @param {Object} content The XML content to be shown. * @example * openDownloadWindow( "my.xml", "" ); */ openXMLWindow: function(content) { var win = window.open( 'data:application/xml,' + encodeURIComponent( content ), '_blank', "resizable=yes,width=600,height=600,toolbar=0,scrollbars=yes" ); }, /** * Opens a download window for downloading the given content. * @methodOf ORYX.Plugins.AbstractPlugin.prototype * @param {String} filename The content's file name * @param {String} content The content to download */ openDownloadWindow: function(filename, content) { var win = window.open(""); if (win != null) { win.document.open(); win.document.write(""); var submitForm = win.document.createElement("form"); win.document.body.appendChild(submitForm); var createHiddenElement = function(name, value) { var newElement = document.createElement("input"); newElement.name=name; newElement.type="hidden"; newElement.value = value; return newElement } submitForm.appendChild( createHiddenElement("download", content) ); submitForm.appendChild( createHiddenElement("file", filename) ); submitForm.method = "POST"; win.document.write(""); win.document.close(); submitForm.action= ORYX.PATH + "/download"; submitForm.submit(); } }, /** * Serializes DOM. * @methodOf ORYX.Plugins.AbstractPlugin.prototype * @type {String} Serialized DOM */ getSerializedDOM: function(){ // Force to set all resource IDs var serializedDOM = DataManager.serializeDOM( this.facade ); //add namespaces serializedDOM = '' + '' + '' + '' + '' + '' + '' + '' + '' + '' + serializedDOM + ''; return serializedDOM; }, /** * Sets the editor in read only mode: Edges/ dockers cannot be moved anymore, * shapes cannot be selected anymore. * @methodOf ORYX.Plugins.AbstractPlugin.prototype */ enableReadOnlyMode: function(){ //Edges cannot be moved anymore this.facade.disableEvent(ORYX.CONFIG.EVENT_MOUSEDOWN); // Stop the user from editing the diagram while the plugin is active this._stopSelectionChange = function(){ if(this.facade.getSelection().length > 0) { this.facade.setSelection([]); } }; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_SELECTION_CHANGED, this._stopSelectionChange.bind(this)); }, /** * Disables read only mode, see @see * @methodOf ORYX.Plugins.AbstractPlugin.prototype * @see ORYX.Plugins.AbstractPlugin.prototype.enableReadOnlyMode */ disableReadOnlyMode: function(){ // Edges can be moved now again this.facade.enableEvent(ORYX.CONFIG.EVENT_MOUSEDOWN); if (this._stopSelectionChange) { this.facade.unregisterOnEvent(ORYX.CONFIG.EVENT_SELECTION_CHANGED, this._stopSelectionChange.bind(this)); this._stopSelectionChange = undefined; } }, /** * Extracts RDF from DOM. * @methodOf ORYX.Plugins.AbstractPlugin.prototype * @type {String} Extracted RFD. Null if there are transformation errors. */ getRDFFromDOM: function(){ //convert to RDF try { var xsl = ""; source=ORYX.PATH + "lib/extract-rdf.xsl"; new Ajax.Request(source, { asynchronous: false, method: 'get', onSuccess: function(transport){ xsl = transport.responseText }.bind(this), onFailure: (function(transport){ ORYX.Log.error("XSL load failed" + transport); }).bind(this) }); var domParser = new DOMParser(); var xmlObject = domParser.parseFromString(this.getSerializedDOM(), "text/xml"); var xslObject = domParser.parseFromString(xsl, "text/xml"); var xsltProcessor = new XSLTProcessor(); xsltProcessor.importStylesheet(xslObject); var result = xsltProcessor.transformToFragment(xmlObject, document); var serializer = new XMLSerializer(); return serializer.serializeToString(result); } catch(e){ console.log("error serializing " + e); return ""; } }, /** * Checks if a certain stencil set is loaded right now. * */ isStencilSetExtensionLoaded: function(stencilSetExtensionNamespace) { return this.facade.getStencilSets().values().any( function(ss){ return ss.extensions().keys().any( function(extensionKey) { return extensionKey == stencilSetExtensionNamespace; }.bind(this) ); }.bind(this) ); }, /** * Raises an event so that registered layouters does * have the posiblility to layout the given shapes * For further reading, have a look into the AbstractLayouter * class * @param {Object} shapes */ doLayout: function(shapes){ // Raises a do layout event if (this.facade.raiseEvent) { this.facade.raiseEvent({ type : ORYX.CONFIG.EVENT_LAYOUT, shapes : shapes }); } else { this.facade.handleEvents({ type : ORYX.CONFIG.EVENT_LAYOUT, shapes : shapes }); } }, /** * Does a primitive layouting with the incoming/outgoing * edges (set the dockers to the right position) and if * necessary, it will be called the real layouting * @param {ORYX.Core.Node} node * @param {Array} edges */ layoutEdges : function(node, allEdges, offset){ if (!this.facade.isExecutingCommands()){ return } var Command = ORYX.Core.Command.extend({ construct: function(edges, node, offset, plugin){ this.edges = edges; this.node = node; this.plugin = plugin; this.offset = offset; // Get the new absolute center var center = node.absoluteXY(); this.ulo = {x: center.x - offset.x, y:center.y - offset.y}; }, execute: function(){ if (this.changes){ this.executeAgain(); return; } else { this.changes = []; this.edges.each(function(edge){ this.changes.push({ edge: edge, oldDockerPositions: edge.dockers.map(function(r){ return r.bounds.center() }) }) }.bind(this)); } // Find all edges, which are related to the node and // have more than two dockers this.edges // Find all edges with more than two dockers .findAll(function(r){ return r.dockers.length > 2 }.bind(this)) // For every edge, check second and one before last docker // if there are horizontal/vertical on the same level // and if so, align the the bounds .each(function(edge){ if (edge.dockers.first().getDockedShape() === this.node){ var second = edge.dockers[1]; if (this.align(second.bounds, edge.dockers.first())){ second.update(); } } else if (edge.dockers.last().getDockedShape() === this.node) { var beforeLast = edge.dockers[edge.dockers.length-2]; if (this.align(beforeLast.bounds, edge.dockers.last())){ beforeLast.update(); } } edge._update(true); edge.removeUnusedDockers(); if (this.isBendPointIncluded(edge)){ this.plugin.doLayout(edge); return; } }.bind(this)); // Find all edges, which have only to dockers // and is located horizontal/vertical. // Do layout with those edges this.edges // Find all edges with exactly two dockers .each(function(edge){ if (edge.dockers.length == 2){ var p1 = edge.dockers.first().getAbsoluteReferencePoint() || edge.dockers.first().bounds.center(); var p2 = edge.dockers.last().getAbsoluteReferencePoint() || edge.dockers.first().bounds.center(); // Find all horizontal/vertical edges if (Math.abs(-Math.abs(p1.x - p2.x) + Math.abs(this.offset.x)) < 2 || Math.abs(-Math.abs(p1.y - p2.y) + Math.abs(this.offset.y)) < 2){ this.plugin.doLayout(edge); } } }.bind(this)); this.edges.each(function(edge, i){ this.changes[i].dockerPositions = edge.dockers.map(function(r){ return r.bounds.center() }); }.bind(this)); }, /** * Align the bounds if the center is * the same than the old center * @params {Object} bounds * @params {Object} bounds2 */ align: function(bounds, refDocker){ var abRef = refDocker.getAbsoluteReferencePoint() || refDocker.bounds.center(); var xdif = bounds.center().x-abRef.x; var ydif = bounds.center().y-abRef.y; if (Math.abs(-Math.abs(xdif) + Math.abs(this.offset.x)) < 3 && this.offset.xs === undefined){ bounds.moveBy({x:-xdif, y:0}) } if (Math.abs(-Math.abs(ydif) + Math.abs(this.offset.y)) < 3 && this.offset.ys === undefined){ bounds.moveBy({y:-ydif, x:0}) } if (this.offset.xs !== undefined || this.offset.ys !== undefined){ var absPXY = refDocker.getDockedShape().absoluteXY(); xdif = bounds.center().x-(absPXY.x+((abRef.x-absPXY.x)/this.offset.xs)); ydif = bounds.center().y-(absPXY.y+((abRef.y-absPXY.y)/this.offset.ys)); if (Math.abs(-Math.abs(xdif) + Math.abs(this.offset.x)) < 3){ bounds.moveBy({x:-(bounds.center().x-abRef.x), y:0}) } if (Math.abs(-Math.abs(ydif) + Math.abs(this.offset.y)) < 3){ bounds.moveBy({y:-(bounds.center().y-abRef.y), x:0}) } } }, /** * Returns a TRUE if there are bend point which overlay the shape */ isBendPointIncluded: function(edge){ // Get absolute bounds var ab = edge.dockers.first().getDockedShape(); var bb = edge.dockers.last().getDockedShape(); if (ab) { ab = ab.absoluteBounds(); ab.widen(5); } if (bb) { bb = bb.absoluteBounds(); bb.widen(20); // Wide with 20 because of the arrow from the edge } return edge.dockers .any(function(docker, i){ var c = docker.bounds.center(); // Dont count first and last return i != 0 && i != edge.dockers.length-1 && // Check if the point is included to the absolute bounds ((ab && ab.isIncluded(c)) || (bb && bb.isIncluded(c))) }) }, removeAllDocker: function(edge){ edge.dockers.slice(1, edge.dockers.length-1).each(function(docker){ edge.removeDocker(docker); }) }, executeAgain: function(){ this.changes.each(function(change){ // Reset the dockers this.removeAllDocker(change.edge); change.dockerPositions.each(function(pos, i){ if (i==0||i==change.dockerPositions.length-1){ return } var docker = change.edge.createDocker(undefined, pos); docker.bounds.centerMoveTo(pos); docker.update(); }.bind(this)); change.edge._update(true); }.bind(this)); }, rollback: function(){ this.changes.each(function(change){ // Reset the dockers this.removeAllDocker(change.edge); change.oldDockerPositions.each(function(pos, i){ if (i==0||i==change.oldDockerPositions.length-1){ return } var docker = change.edge.createDocker(undefined, pos); docker.bounds.centerMoveTo(pos); docker.update(); }.bind(this)); change.edge._update(true); }.bind(this)); } }); this.facade.executeCommands([new Command(allEdges, node, offset, this)]); } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX){ var ORYX = {} } if(!ORYX.Plugins){ ORYX.Plugins = {} } /** This abstract plugin implements the core behaviour of layout @class ORYX.Plugins.AbstractLayouter @constructor Creates a new instance @author Willi Tscheschner */ ORYX.Plugins.AbstractLayouter = ORYX.Plugins.AbstractPlugin.extend({ /** * 'layouted' defined all types of shapes which will be layouted. * It can be one value or an array of values. The value * can be a Stencil ID (as String) or an class type of either * a ORYX.Core.Node or ORYX.Core.Edge * @type Array|String|Object * @memberOf ORYX.Plugins.AbstractLayouter.prototype */ layouted : [], /** * Constructor * @param {Object} facade * @memberOf ORYX.Plugins.AbstractLayouter.prototype */ construct: function( facade ){ arguments.callee.$.construct.apply(this, arguments); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LAYOUT, this._initLayout.bind(this)); }, /** * Proofs if this shape should be layouted or not * @param {Object} shape * @memberOf ORYX.Plugins.AbstractLayouter.prototype */ isIncludedInLayout: function(shape){ if (!(this.layouted instanceof Array)){ this.layouted = [this.layouted].compact(); } // If there are no elements if (this.layouted.length <= 0) { // Return TRUE return true; } // Return TRUE if there is any correlation between // the 'layouted' attribute and the shape themselve. return this.layouted.any(function(s){ if (typeof s == "string") { return shape.getStencil().id().include(s); } else { return shape instanceof s; } }) }, /** * Callback to start the layouting * @param {Object} event Layout event * @param {Object} shapes Given shapes * @memberOf ORYX.Plugins.AbstractLayouter.prototype */ _initLayout: function(event){ // Get the shapes var shapes = [event.shapes].flatten().compact(); // Find all shapes which should be layouted var toLayout = shapes.findAll(function(shape){ return this.isIncludedInLayout(shape) }.bind(this)) // If there are shapes left if (toLayout.length > 0){ // Do layout this.layout(toLayout); } }, /** * Implementation of layouting a set on shapes * @param {Object} shapes Given shapes * @memberOf ORYX.Plugins.AbstractLayouter.prototype */ layout: function(shapes){ throw new Error("Layouter has to implement the layout function.") } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.Edit = Clazz.extend({ construct: function(facade){ this.facade = facade; this.clipboard = new ORYX.Plugins.Edit.ClipBoard(); //this.facade.registerOnEvent(ORYX.CONFIG.EVENT_KEYDOWN, this.keyHandler.bind(this)); this.facade.offer({ name: ORYX.I18N.Edit.cut, description: ORYX.I18N.Edit.cutDesc, icon: ORYX.PATH + "images/cut.png", keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: 88, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.callEdit.bind(this, this.editCut), group: ORYX.I18N.Edit.group, index: 1, minShape: 1 }); this.facade.offer({ name: ORYX.I18N.Edit.copy, description: ORYX.I18N.Edit.copyDesc, icon: ORYX.PATH + "images/page_copy.png", keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: 67, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.callEdit.bind(this, this.editCopy, [true, false]), group: ORYX.I18N.Edit.group, index: 2, minShape: 1 }); this.facade.offer({ name: ORYX.I18N.Edit.paste, description: ORYX.I18N.Edit.pasteDesc, icon: ORYX.PATH + "images/page_paste.png", keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: 86, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.callEdit.bind(this, this.editPaste), isEnabled: this.clipboard.isOccupied.bind(this.clipboard), group: ORYX.I18N.Edit.group, index: 3, minShape: 0, maxShape: 0 }); this.facade.offer({ name: ORYX.I18N.Edit.del, description: ORYX.I18N.Edit.delDesc, icon: ORYX.PATH + "images/cross.png", keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: 8, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN }, { keyCode: 46, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.callEdit.bind(this, this.editDelete), group: ORYX.I18N.Edit.group, index: 4, minShape: 1 }); }, callEdit: function(fn, args){ window.setTimeout(function(){ fn.apply(this, (args instanceof Array ? args : [])); }.bind(this), 1); }, /** * Handles the mouse down event and starts the copy-move-paste action, if * control or meta key is pressed. */ handleMouseDown: function(event) { if(this._controlPressed) { this._controlPressed = false; this.editCopy(); // console.log("copiedEle: %0",this.clipboard.shapesAsJson) // console.log("mousevent: %o",event) this.editPaste(); event.forceExecution = true; this.facade.raiseEvent(event, this.clipboard.shapesAsJson); } }, /** * The key handler for this plugin. Every action from the set of cut, copy, * paste and delete should be accessible trough simple keyboard shortcuts. * This method checks whether any event triggers one of those actions. * * @param {Object} event The keyboard event that should be analysed for * triggering of this plugin. */ // keyHandler: function(event){ // //TODO document what event.which is. // // ORYX.Log.debug("edit.js handles a keyEvent."); // // // assure we have the current event. // if (!event) // event = window.event; // // // // get the currently pressed key and state of control key. // var pressedKey = event.which || event.keyCode; // var ctrlPressed = event.ctrlKey; // // // if the object is to be deleted, do so, and return immediately. // if ((pressedKey == ORYX.CONFIG.KEY_CODE_DELETE) || // ((pressedKey == ORYX.CONFIG.KEY_CODE_BACKSPACE) && // (event.metaKey || event.appleMetaKey))) { // // ORYX.Log.debug("edit.js deletes the shape."); // this.editDelete(); // return; // } // // // if control key is not pressed, we're not interested anymore. // if (!ctrlPressed) // return; // // // when ctrl is pressed, switch trough the possibilities. // switch (pressedKey) { // // // cut. // case ORYX.CONFIG.KEY_CODE_X: // this.editCut(); // break; // // // copy. // case ORYX.CONFIG.KEY_CODE_C: // this.editCopy(); // break; // // // paste. // case ORYX.CONFIG.KEY_CODE_V: // this.editPaste(); // break; // } // }, /** * Returns a list of shapes which should be considered while copying. * Besides the shapes of given ones, edges and attached nodes are added to the result set. * If one of the given shape is a child of another given shape, it is not put into the result. */ getAllShapesToConsider: function(shapes){ var shapesToConsider = []; // only top-level shapes var childShapesToConsider = []; // all child shapes of top-level shapes shapes.each(function(shape){ //Throw away these shapes which have a parent in given shapes isChildShapeOfAnother = shapes.any(function(s2){ return s2.hasChildShape(shape); }); if(isChildShapeOfAnother) return; // This shape should be considered shapesToConsider.push(shape); // Consider attached nodes (e.g. intermediate events) if (shape instanceof ORYX.Core.Node) { var attached = shape.getOutgoingNodes(); attached = attached.findAll(function(a){ return !shapes.include(a) }); shapesToConsider = shapesToConsider.concat(attached); } childShapesToConsider = childShapesToConsider.concat(shape.getChildShapes(true)); }.bind(this)); // All edges between considered child shapes should be considered // Look for these edges having incoming and outgoing in childShapesToConsider var edgesToConsider = this.facade.getCanvas().getChildEdges().select(function(edge){ // Ignore if already added if(shapesToConsider.include(edge)) return false; // Ignore if there are no docked shapes if(edge.getAllDockedShapes().size() === 0) return false; // True if all docked shapes are in considered child shapes return edge.getAllDockedShapes().all(function(shape){ // Remember: Edges can have other edges on outgoing, that is why edges must not be included in childShapesToConsider return shape instanceof ORYX.Core.Edge || childShapesToConsider.include(shape); }); }); shapesToConsider = shapesToConsider.concat(edgesToConsider); return shapesToConsider; }, /** * Performs the cut operation by first copy-ing and then deleting the * current selection. */ editCut: function(){ //TODO document why this returns false. //TODO document what the magic boolean parameters are supposed to do. this.editCopy(false, true); this.editDelete(true); return false; }, /** * Performs the copy operation. * @param {Object} will_not_update ?? */ editCopy: function( will_update, useNoOffset ){ var selection = this.facade.getSelection(); //if the selection is empty, do not remove the previously copied elements if(selection.length == 0) return; this.clipboard.refresh(selection, this.getAllShapesToConsider(selection), this.facade.getCanvas().getStencil().stencilSet().namespace(), useNoOffset); if( will_update ) this.facade.updateSelection(); }, /** * Performs the paste operation. */ editPaste: function(){ // Create a new canvas with childShapes //and stencilset namespace to be JSON Import conform var canvas = { childShapes: this.clipboard.shapesAsJson, stencilset:{ namespace:this.clipboard.SSnamespace } }; // Apply json helper to iterate over json object jQuery.extend(canvas, ORYX.Core.AbstractShape.JSONHelper); var childShapeResourceIds = canvas.getChildShapes(true).pluck("resourceId"); var outgoings = {}; // Iterate over all shapes canvas.eachChild(function(shape, parent){ // Throw away these references where referenced shape isn't copied shape.outgoing = shape.outgoing.select(function(out){ return childShapeResourceIds.include(out.resourceId); }); shape.outgoing.each(function(out){ if (!outgoings[out.resourceId]){ outgoings[out.resourceId] = []; } outgoings[out.resourceId].push(shape); }); return shape; }.bind(this), true, true); // Iterate over all shapes canvas.eachChild(function(shape, parent){ // Check if there has a valid target if(shape.target && !(childShapeResourceIds.include(shape.target.resourceId))){ shape.target = undefined; shape.targetRemoved = true; } // Check if the first docker is removed if( shape.dockers && shape.dockers.length >= 1 && shape.dockers[0].getDocker && ((shape.dockers[0].getDocker().getDockedShape() && !childShapeResourceIds.include(shape.dockers[0].getDocker().getDockedShape().resourceId)) || !shape.getShape().dockers[0].getDockedShape()&&!outgoings[shape.resourceId])) { shape.sourceRemoved = true; } return shape; }.bind(this), true, true); // Iterate over top-level shapes canvas.eachChild(function(shape, parent){ // All top-level shapes should get an offset in their bounds // Move the shape occording to COPY_MOVE_OFFSET if (this.clipboard.useOffset) { shape.bounds = { lowerRight: { x: shape.bounds.lowerRight.x + ORYX.CONFIG.COPY_MOVE_OFFSET, y: shape.bounds.lowerRight.y + ORYX.CONFIG.COPY_MOVE_OFFSET }, upperLeft: { x: shape.bounds.upperLeft.x + ORYX.CONFIG.COPY_MOVE_OFFSET, y: shape.bounds.upperLeft.y + ORYX.CONFIG.COPY_MOVE_OFFSET } }; } // Only apply offset to shapes with a target if (shape.dockers){ shape.dockers = shape.dockers.map(function(docker, i){ // If shape had a target but the copied does not have anyone anymore, // migrate the relative dockers to absolute ones. if( (shape.targetRemoved === true && i == shape.dockers.length - 1&&docker.getDocker) || (shape.sourceRemoved === true && i == 0&&docker.getDocker)){ docker = docker.getDocker().bounds.center(); } // If it is the first docker and it has a docked shape, // just return the coordinates if ((i == 0 && docker.getDocker instanceof Function && shape.sourceRemoved !== true && (docker.getDocker().getDockedShape() || ((outgoings[shape.resourceId]||[]).length > 0 && (!(shape.getShape() instanceof ORYX.Core.Node) || outgoings[shape.resourceId][0].getShape() instanceof ORYX.Core.Node)))) || (i == shape.dockers.length - 1 && docker.getDocker instanceof Function && shape.targetRemoved !== true && (docker.getDocker().getDockedShape() || shape.target))){ return { x: docker.x, y: docker.y, getDocker: docker.getDocker } } else if (this.clipboard.useOffset) { return { x: docker.x + ORYX.CONFIG.COPY_MOVE_OFFSET, y: docker.y + ORYX.CONFIG.COPY_MOVE_OFFSET, getDocker: docker.getDocker }; } else { return { x: docker.x, y: docker.y, getDocker: docker.getDocker }; } }.bind(this)); } else if (shape.getShape() instanceof ORYX.Core.Node && shape.dockers && shape.dockers.length > 0 && (!shape.dockers.first().getDocker || shape.sourceRemoved === true || !(shape.dockers.first().getDocker().getDockedShape() || outgoings[shape.resourceId]))){ shape.dockers = shape.dockers.map(function(docker, i){ if((shape.sourceRemoved === true && i == 0&&docker.getDocker)){ docker = docker.getDocker().bounds.center(); } if (this.clipboard.useOffset) { return { x: docker.x + ORYX.CONFIG.COPY_MOVE_OFFSET, y: docker.y + ORYX.CONFIG.COPY_MOVE_OFFSET, getDocker: docker.getDocker }; } else { return { x: docker.x, y: docker.y, getDocker: docker.getDocker }; } }.bind(this)); } return shape; }.bind(this), false, true); this.clipboard.useOffset = true; this.facade.importJSON(canvas); }, /** * Performs the delete operation. No more asking. */ editDelete: function(){ var selection = this.facade.getSelection(); var clipboard = new ORYX.Plugins.Edit.ClipBoard(); clipboard.refresh(selection, this.getAllShapesToConsider(selection)); var command = new ORYX.Plugins.Edit.DeleteCommand(clipboard , this.facade); this.facade.executeCommands([command]); } }); ORYX.Plugins.Edit.ClipBoard = Clazz.extend({ construct: function(){ this.shapesAsJson = []; this.selection = []; this.SSnamespace=""; this.useOffset=true; }, isOccupied: function(){ return this.shapesAsJson.length > 0; }, refresh: function(selection, shapes, namespace, useNoOffset){ this.selection = selection; this.SSnamespace=namespace; // Store outgoings, targets and parents to restore them later on this.outgoings = {}; this.parents = {}; this.targets = {}; this.useOffset = useNoOffset !== true; this.shapesAsJson = shapes.map(function(shape){ var s = shape.toJSON(); s.parent = {resourceId : shape.getParentShape().resourceId}; s.parentIndex = shape.getParentShape().getChildShapes().indexOf(shape) return s; }); } }); ORYX.Plugins.Edit.DeleteCommand = ORYX.Core.Command.extend({ construct: function(clipboard, facade){ this.clipboard = clipboard; this.shapesAsJson = clipboard.shapesAsJson; this.facade = facade; // Store dockers of deleted shapes to restore connections this.dockers = this.shapesAsJson.map(function(shapeAsJson) { var shape = shapeAsJson.getShape(); var incomingDockers = shape.getIncomingShapes().map(function(s){return s.getDockers().last();}); var outgoingDockers = shape.getOutgoingShapes().map(function(s){return s.getDockers().first();}); var dockers = shape.getDockers().concat(incomingDockers, outgoingDockers).compact().map(function(docker){ return { object: docker, referencePoint: docker.referencePoint, dockedShape: docker.getDockedShape() }; }); return dockers; }).flatten(); }, execute: function(){ this.shapesAsJson.each(function(shapeAsJson){ // Delete shape this.facade.deleteShape(shapeAsJson.getShape()); }.bind(this)); this.facade.setSelection([]); this.facade.getCanvas().update(); this.facade.updateSelection(); }, rollback: function(){ this.shapesAsJson.each(function(shapeAsJson) { var shape = shapeAsJson.getShape(); var parent = this.facade.getCanvas().getChildShapeByResourceId(shapeAsJson.parent.resourceId) || this.facade.getCanvas(); parent.add(shape, shape.parentIndex); }.bind(this)); //reconnect shapes this.dockers.each(function(d) { d.object.setDockedShape(d.dockedShape); d.object.setReferencePoint(d.referencePoint); }.bind(this)); this.facade.setSelection(this.selectedShapes); this.facade.getCanvas().update(); this.facade.updateSelection(); } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * @namespace Oryx name space for plugins * @name ORYX.Plugins */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); /** * The view plugin offers all of zooming functionality accessible over the * tool bar. This are zoom in, zoom out, zoom to standard, zoom fit to model. * * @class ORYX.Plugins.View * @extends Clazz * @param {Object} facade The editor facade for plugins. */ ORYX.Plugins.View = { /** @lends ORYX.Plugins.View.prototype */ facade: undefined, construct: function(facade, ownPluginData) { this.facade = facade; //Standard Values this.zoomLevel = 1.0; this.maxFitToScreenLevel=1.5; this.minZoomLevel = 0.1; this.maxZoomLevel = 2.5; this.diff=5; //difference between canvas and view port, s.th. like toolbar?? //Read properties if (ownPluginData !== undefined && ownPluginData !== null) { ownPluginData.properties.each( function(property) { if (property.zoomLevel) {this.zoomLevel = Number(1.0);} if (property.maxFitToScreenLevel) {this.maxFitToScreenLevel=Number(property.maxFitToScreenLevel);} if (property.minZoomLevel) {this.minZoomLevel = Number(property.minZoomLevel);} if (property.maxZoomLevel) {this.maxZoomLevel = Number(property.maxZoomLevel);} }.bind(this)); } /* Register zoom in */ this.facade.offer({ 'name':ORYX.I18N.View.zoomIn, 'functionality': this.zoom.bind(this, [1.0 + ORYX.CONFIG.ZOOM_OFFSET]), 'group': ORYX.I18N.View.group, 'icon': ORYX.PATH + "images/magnifier_zoom_in.png", 'description': ORYX.I18N.View.zoomInDesc, 'index': 1, 'minShape': 0, 'maxShape': 0, 'isEnabled': function(){return this.zoomLevel < this.maxZoomLevel }.bind(this)}); /* Register zoom out */ this.facade.offer({ 'name':ORYX.I18N.View.zoomOut, 'functionality': this.zoom.bind(this, [1.0 - ORYX.CONFIG.ZOOM_OFFSET]), 'group': ORYX.I18N.View.group, 'icon': ORYX.PATH + "images/magnifier_zoom_out.png", 'description': ORYX.I18N.View.zoomOutDesc, 'index': 2, 'minShape': 0, 'maxShape': 0, 'isEnabled': function(){ return this._checkSize() }.bind(this)}); /* Register zoom standard */ this.facade.offer({ 'name':ORYX.I18N.View.zoomStandard, 'functionality': this.setAFixZoomLevel.bind(this, 1), 'group': ORYX.I18N.View.group, 'icon': ORYX.PATH + "images/zoom_standard.png", 'cls' : 'icon-large', 'description': ORYX.I18N.View.zoomStandardDesc, 'index': 3, 'minShape': 0, 'maxShape': 0, 'isEnabled': function(){return this.zoomLevel != 1}.bind(this) }); /* Register zoom fit to model */ this.facade.offer({ 'name':ORYX.I18N.View.zoomFitToModel, 'functionality': this.zoomFitToModel.bind(this), 'group': ORYX.I18N.View.group, 'icon': ORYX.PATH + "images/image.png", 'description': ORYX.I18N.View.zoomFitToModelDesc, 'index': 4, 'minShape': 0, 'maxShape': 0 }); }, /** * It sets the zoom level to a fix value and call the zooming function. * * @param {Number} zoomLevel * the zoom level */ setAFixZoomLevel : function(zoomLevel) { this.zoomLevel = zoomLevel; this._checkZoomLevelRange(); this.zoom(1); }, /** * It does the actual zooming. It changes the viewable size of the canvas * and all to its child elements. * * @param {Number} factor * the factor to adjust the zoom level */ zoom: function(factor) { // TODO: Zoomen auf allen Objekten im SVG-DOM this.zoomLevel *= factor; var scrollNode = this.facade.getCanvas().getHTMLContainer().parentNode.parentNode; var canvas = this.facade.getCanvas(); var newWidth = canvas.bounds.width() * this.zoomLevel; var newHeight = canvas.bounds.height() * this.zoomLevel; /* Set new top offset */ var offsetTop = (canvas.node.parentNode.parentNode.parentNode.offsetHeight - newHeight) / 2.0; offsetTop = offsetTop > 20 ? offsetTop - 20 : 0; canvas.node.parentNode.parentNode.style.marginTop = offsetTop + "px"; offsetTop += 5; canvas.getHTMLContainer().style.top = offsetTop + "px"; /*readjust scrollbar*/ var newScrollTop= scrollNode.scrollTop - Math.round((canvas.getHTMLContainer().parentNode.getHeight()-newHeight) / 2)+this.diff; var newScrollLeft= scrollNode.scrollLeft - Math.round((canvas.getHTMLContainer().parentNode.getWidth()-newWidth) / 2)+this.diff; /* Set new Zoom-Level */ canvas.setSize({width: newWidth, height: newHeight}, true); /* Set Scale-Factor */ canvas.node.setAttributeNS(null, "transform", "scale(" +this.zoomLevel+ ")"); /* Refresh the Selection */ this.facade.updateSelection(); scrollNode.scrollTop=newScrollTop; scrollNode.scrollLeft=newScrollLeft; /* Update the zoom-level*/ canvas.zoomLevel = this.zoomLevel; }, /** * It calculates the zoom level to fit whole model into the visible area * of the canvas. Than the model gets zoomed and the position of the * scroll bars are adjusted. * */ zoomFitToModel: function() { /* Get the size of the visible area of the canvas */ var scrollNode = this.facade.getCanvas().getHTMLContainer().parentNode.parentNode; var visibleHeight = scrollNode.getHeight() - 30; var visibleWidth = scrollNode.getWidth() - 30; var nodes = this.facade.getCanvas().getChildShapes(); if(!nodes || nodes.length < 1) { return false; } /* Calculate size of canvas to fit the model */ var bounds = nodes[0].absoluteBounds().clone(); nodes.each(function(node) { bounds.include(node.absoluteBounds().clone()); }); /* Set new Zoom Level */ var scaleFactorWidth = visibleWidth / bounds.width(); var scaleFactorHeight = visibleHeight / bounds.height(); /* Choose the smaller zoom level to fit the whole model */ var zoomFactor = scaleFactorHeight < scaleFactorWidth ? scaleFactorHeight : scaleFactorWidth; /*Test if maximum zoom is reached*/ if(zoomFactor>this.maxFitToScreenLevel){zoomFactor=this.maxFitToScreenLevel} /* Do zooming */ this.setAFixZoomLevel(zoomFactor); /* Set scroll bar position */ scrollNode.scrollTop = Math.round(bounds.upperLeft().y * this.zoomLevel) - 5; scrollNode.scrollLeft = Math.round(bounds.upperLeft().x * this.zoomLevel) - 5; }, /** * It checks if the zoom level is less or equal to the level, which is required * to schow the whole canvas. * * @private */ _checkSize:function(){ var canvasParent=this.facade.getCanvas().getHTMLContainer().parentNode; var minForCanvas= Math.min((canvasParent.parentNode.getWidth()/canvasParent.getWidth()),(canvasParent.parentNode.getHeight()/canvasParent.getHeight())); return 1.05 > minForCanvas; }, /** * It checks if the zoom level is included in the definined zoom * level range. * * @private */ _checkZoomLevelRange: function() { /*var canvasParent=this.facade.getCanvas().getHTMLContainer().parentNode; var maxForCanvas= Math.max((canvasParent.parentNode.getWidth()/canvasParent.getWidth()),(canvasParent.parentNode.getHeight()/canvasParent.getHeight())); if(this.zoomLevel > maxForCanvas) { this.zoomLevel = maxForCanvas; }*/ if(this.zoomLevel < this.minZoomLevel) { this.zoomLevel = this.minZoomLevel; } if(this.zoomLevel > this.maxZoomLevel) { this.zoomLevel = this.maxZoomLevel; } } }; ORYX.Plugins.View = Clazz.extend(ORYX.Plugins.View); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ if(!Signavio){ var Signavio = {} }; if (!Signavio.Core) { Signavio.Core = {} }; Signavio.Core.Version = "1.0"; /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!Signavio) { var Signavio = new Object(); } if (!Signavio.Plugins) { Signavio.Plugins = new Object(); } if (!Signavio.Plugins.Utils) { Signavio.Plugins.Utils = new Object(); } if (!Signavio.Helper) { Signavio.Helper = new Object(); } new function() { /** * Provides an uniq id * @overwrite * @return {String} * */ ORYX.Editor.provideId = function() { var res = [], hex = '0123456789ABCDEF'; for (var i = 0; i < 36; i++) res[i] = Math.floor(Math.random()*0x10); res[14] = 4; res[19] = (res[19] & 0x3) | 0x8; for (var i = 0; i < 36; i++) res[i] = hex[res[i]]; res[8] = res[13] = res[18] = res[23] = '-'; return "sid-" + res.join(''); }; }(); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) { ORYX.Plugins = new Object(); } /** * This plugin is responsible for displaying loading indicators and to prevent * the user from accidently unloading the page by, e.g., pressing the backspace * button and returning to the previous site in history. * @param {Object} facade The editor plugin facade to register enhancements with. */ ORYX.Plugins.Loading = { construct: function(facade){ this.facade = facade; // The parent Node this.node = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", this.facade.getCanvas().getHTMLContainer().parentNode, ['div', { 'class': 'LoadingIndicator' }, '']); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LOADING_ENABLE, this.enableLoading.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LOADING_DISABLE, this.disableLoading.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LOADING_STATUS, this.showStatus.bind(this)); this.disableLoading(); }, enableLoading: function(options){ if(options.text) this.node.innerHTML = options.text + "..."; else this.node.innerHTML = ORYX.I18N.Loading.waiting; this.node.removeClassName('StatusIndicator'); this.node.addClassName('LoadingIndicator'); this.node.style.display = "block"; var pos = this.facade.getCanvas().rootNode.parentNode.parentNode.parentNode.parentNode; this.node.style.top = pos.offsetTop + 'px'; this.node.style.left = pos.offsetLeft +'px'; }, disableLoading: function(){ this.node.style.display = "none"; }, showStatus: function(options) { if(options.text) { this.node.innerHTML = options.text; this.node.addClassName('StatusIndicator'); this.node.removeClassName('LoadingIndicator'); this.node.style.display = 'block'; var pos = this.facade.getCanvas().rootNode.parentNode.parentNode.parentNode.parentNode; this.node.style.top = pos.offsetTop + 'px'; this.node.style.left = pos.offsetLeft +'px'; var tout = options.timeout ? options.timeout : 2000; window.setTimeout((function(){ this.disableLoading(); }).bind(this), tout); } } } ORYX.Plugins.Loading = Clazz.extend(ORYX.Plugins.Loading); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ if (!ORYX.Plugins) { ORYX.Plugins = new Object(); } /* * All code Copyright 2013 KIS Consultancy all rights reserved */ /** * This plugin is responsible for resizing the canvas. * @param {Object} facade The editor plugin facade to register enhancements with. */ ORYX.Plugins.CanvasResize = Clazz.extend({ construct: function(facade){ this.facade = facade; new ORYX.Plugins.CanvasResizeButton( this.facade.getCanvas(), "N", this.resize.bind(this)); new ORYX.Plugins.CanvasResizeButton( this.facade.getCanvas(), "W", this.resize.bind(this)); new ORYX.Plugins.CanvasResizeButton( this.facade.getCanvas(), "E", this.resize.bind(this)); new ORYX.Plugins.CanvasResizeButton( this.facade.getCanvas(), "S", this.resize.bind(this)); window.setTimeout(function(){jQuery(window).trigger('resize');}); }, resize: function( position, shrink ){ resizeCanvas = function(position, extentionSize, facade) { var canvas = facade.getCanvas(); var b = canvas.bounds; var scrollNode = facade.getCanvas().getHTMLContainer().parentNode.parentNode; if( position == "E" || position == "W"){ canvas.setSize({width: (b.width() + extentionSize)*canvas.zoomLevel, height: (b.height())*canvas.zoomLevel}) } else if( position == "S" || position == "N"){ canvas.setSize({width: (b.width())*canvas.zoomLevel, height: (b.height() + extentionSize)*canvas.zoomLevel}) } if( position == "N" || position == "W"){ var move = position == "N" ? {x: 0, y: extentionSize}: {x: extentionSize, y: 0 }; // Move all children canvas.getChildNodes(false, function(shape){ shape.bounds.moveBy(move) }) // Move all dockers, when the edge has at least one docked shape var edges = canvas.getChildEdges().findAll(function(edge){ return edge.getAllDockedShapes().length > 0}) var dockers = edges.collect(function(edge){ return edge.dockers.findAll(function(docker){ return !docker.getDockedShape() })}).flatten(); dockers.each(function(docker){ docker.bounds.moveBy(move)}) } else if( position == "S" ){ scrollNode.scrollTop += extentionSize; } else if( position == "E" ){ scrollNode.scrollLeft += extentionSize; } jQuery(window).trigger('resize'); canvas.update(); facade.updateSelection(); } var commandClass = ORYX.Core.Command.extend({ construct: function(position, extentionSize, facade){ this.position = position; this.extentionSize = extentionSize; this.facade = facade; }, execute: function(){ resizeCanvas(this.position, this.extentionSize, this.facade); }, rollback: function(){ resizeCanvas(this.position, -this.extentionSize, this.facade); }, update:function(){ } }); var extentionSize = ORYX.CONFIG.CANVAS_RESIZE_INTERVAL; if(shrink) extentionSize = -extentionSize; var command = new commandClass(position, extentionSize, this.facade); this.facade.executeCommands([command]); } }); ORYX.Plugins.CanvasResizeButton = Clazz.extend({ construct: function(canvas, position, callback){ this.canvas = canvas; var parentNode = canvas.getHTMLContainer().parentNode; window.myParent=parentNode; var actualScrollNode = jQuery('#canvasSection')[0]; var scrollNode = actualScrollNode; var canvasNode = jQuery('#canvasSection').find(".ORYX_Editor")[0]; var svgRootNode = canvasNode.children[0]; var iconClass = 'glyphicon glyphicon-chevron-'; var iconClassShrink = 'glyphicon glyphicon-chevron-'; if(position == 'N') { iconClass += 'up'; iconClassShrink += 'down'; } else if(position == 'S') { iconClass += 'down'; iconClassShrink += 'up'; } else if(position == 'E') { iconClass += 'right'; iconClassShrink += 'left'; } else if(position == 'W') { iconClass += 'left'; iconClassShrink += 'right'; } // The buttons var idGrow = 'canvas-shrink-' + position; var idShrink = 'canvas-grow-' + position; var buttonGrow = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", parentNode, ['div', {'class': 'canvas_resize_indicator canvas_resize_indicator_grow' + ' ' + position, 'id': idGrow ,'title':ORYX.I18N.RESIZE.tipGrow+ORYX.I18N.RESIZE[position]}, ['i', {'class' : iconClass}] ]); var buttonShrink = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", parentNode, ['div', {'class': 'canvas_resize_indicator canvas_resize_indicator_shrink' + ' ' + position, 'id': idShrink ,'title':ORYX.I18N.RESIZE.tipGrow+ORYX.I18N.RESIZE[position]}, ['i', {'class' : iconClassShrink}] ]); // Defines a callback which gives back // a boolean if the current mouse event // is over the particular button area var offSetWidth = 60; var isOverOffset = function(event) { var isOverButton = event.target.id.indexOf("canvas-shrink") != -1 || event.target.id.indexOf("canvas-grow") != -1 || event.target.parentNode.id.indexOf("canvas-shrink") != -1 || event.target.parentNode.id.indexOf("canvas-grow") != -1; if(isOverButton) { if(event.target.id == idGrow || event.target.id == idShrink || event.target.parentNode.id == idGrow || event.target.parentNode.id == idShrink ) { return true; } else { return false; } } if(event.target!=parentNode && event.target!=scrollNode&& event.target!=scrollNode.firstChild&& event.target!=svgRootNode&& event.target!=scrollNode){ return false; } //if(inCanvas){offSetWidth=30}else{offSetWidth=30*2} //Safari work around var X=event.offsetX !== undefined ? event.offsetX : event.layerX; var Y=event.offsetY !== undefined ? event.offsetY : event.layerY; var canvasOffset = 0; if(canvasNode.clientWidth < actualScrollNode.clientWidth) { var widthDiff = actualScrollNode.clientWidth - canvasNode.clientWidth; canvasOffset = widthDiff / 2; } // Adjust to relative location to the actual viewport Y = Y - actualScrollNode.scrollTop; X = X - actualScrollNode.scrollLeft; if(position == "N"){ return Y < offSetWidth; } else if(position == "W"){ return X < offSetWidth + canvasOffset; } else if(position == "E"){ return actualScrollNode.clientWidth - X < offSetWidth + canvasOffset; } else if(position == "S"){ return actualScrollNode.clientHeight - Y < offSetWidth; } return false; }; var showButtons = (function() { buttonGrow.show(); var w = canvas.bounds.width(); var h = canvas.bounds.height(); if(position=="N" && (h - ORYX.CONFIG.CANVAS_RESIZE_INTERVAL > ORYX.CONFIG.CANVAS_MIN_HEIGHT)) buttonShrink.show(); else if(position=="E" && (w - ORYX.CONFIG.CANVAS_RESIZE_INTERVAL > ORYX.CONFIG.CANVAS_MIN_WIDTH)) buttonShrink.show(); else if(position=="S" && (h - ORYX.CONFIG.CANVAS_RESIZE_INTERVAL > ORYX.CONFIG.CANVAS_MIN_HEIGHT)) buttonShrink.show(); else if(position=="W" && (w - ORYX.CONFIG.CANVAS_RESIZE_INTERVAL > ORYX.CONFIG.CANVAS_MIN_WIDTH)) buttonShrink.show(); else buttonShrink.hide(); }).bind(this); var hideButtons = function() { buttonGrow.hide(); buttonShrink.hide(); }; // If the mouse move is over the button area, show the button parentNode.parentNode.addEventListener( ORYX.CONFIG.EVENT_MOUSEMOVE, function(event){ if( isOverOffset(event) ){showButtons();} else {hideButtons()}} , false ); // If the mouse is over the button, show them buttonGrow.addEventListener( ORYX.CONFIG.EVENT_MOUSEOVER, function(event){showButtons();}, true ); buttonShrink.addEventListener( ORYX.CONFIG.EVENT_MOUSEOVER, function(event){showButtons();}, true ); // If the mouse is out, hide the button //scrollNode.addEventListener( ORYX.CONFIG.EVENT_MOUSEOUT, function(event){button.hide()}, true ) parentNode.parentNode.addEventListener( ORYX.CONFIG.EVENT_MOUSEOUT, function(event){hideButtons()} , true ); //svgRootNode.addEventListener( ORYX.CONFIG.EVENT_MOUSEOUT, function(event){ inCanvas = false } , true ); // Hide the button initialy hideButtons(); // Add the callbacks buttonGrow.addEventListener('click', function(){callback( position ); showButtons();}, true); buttonShrink.addEventListener('click', function(){callback( position, true ); showButtons();}, true); } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.RenameShapes = Clazz.extend({ facade: undefined, construct: function(facade){ this.facade = facade; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_CANVAS_SCROLL, this.hideField.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_DBLCLICK, this.actOnDBLClick.bind(this)); this.facade.offer({ keyCodes: [{ keyCode: 113, // F2-Key keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.renamePerF2.bind(this) }); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEDOWN, this.hide.bind(this), true); }, /** * This method handles the "F2" key down event. The selected shape are looked * up and the editing of title/name of it gets started. */ renamePerF2 : function() { var selectedShapes = this.facade.getSelection(); this.actOnDBLClick(undefined, selectedShapes.first()); }, actOnDBLClick: function(evt, shape){ if( !(shape instanceof ORYX.Core.Shape) ){ return; } // Destroys the old input, if there is one this.destroy(); // Get all properties which where at least one ref to view is set var props = shape.getStencil().properties().findAll(function(item){ return (item.refToView() && item.refToView().length > 0 && item.directlyEditable()); }); // from these, get all properties where write access are and the type is String or Expression props = props.findAll(function(item){ return !item.readonly() && (item.type() == ORYX.CONFIG.TYPE_STRING || item.type() == ORYX.CONFIG.TYPE_EXPRESSION || item.type() == ORYX.CONFIG.TYPE_DATASOURCE); }); // Get all ref ids var allRefToViews = props.collect(function(prop){ return prop.refToView(); }).flatten().compact(); // Get all labels from the shape with the ref ids var labels = shape.getLabels().findAll(function(label){ return allRefToViews.any(function(toView){ return label.id.endsWith(toView); }); }); // If there are no referenced labels --> return if( labels.length == 0 ){ return; } // Define the nearest label var nearestLabel = labels.length <= 1 ? labels[0] : null; if( !nearestLabel ){ nearestLabel = labels.find(function(label){ return label.node == evt.target || label.node == evt.target.parentNode; }); if( !nearestLabel ){ var evtCoord = this.facade.eventCoordinates(evt); var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { evtCoord.x = evtCoord.x / additionalIEZoom; evtCoord.y = evtCoord.y / additionalIEZoom; } evtCoord.y += $("editor-header").clientHeight - $("canvasSection").scrollTop - 5; if (KISBPM.HEADER_CONFIG.showAppTitle == false) { evtCoord.y += 61; } evtCoord.x -= $("canvasSection").scrollLeft; var trans = this.facade.getCanvas().rootNode.lastChild.getScreenCTM(); evtCoord.x *= trans.a; evtCoord.y *= trans.d; var diff = labels.collect(function(label){ var center = this.getCenterPosition( label.node ); var len = Math.sqrt( Math.pow(center.x - evtCoord.x, 2) + Math.pow(center.y - evtCoord.y, 2)); return {diff: len, label: label}; }.bind(this)); diff.sort(function(a, b){ return a.diff > b.diff; }); nearestLabel = diff[0].label; } } // Get the particular property for the label var prop = props.find(function(item){ return item.refToView().any(function(toView){ return nearestLabel.id == shape.id + toView; });}); // Get the center position from the nearest label var width = Math.min(Math.max(100, shape.bounds.width()), 200); var center = this.getCenterPosition( nearestLabel.node, shape ); center.x -= (width/2); var propId = prop.prefix() + "-" + prop.id(); var textInput = document.createElement("textarea"); textInput.id = 'shapeTextInput'; textInput.style.position = 'absolute'; textInput.style.width = width + 'px'; textInput.style.left = (center.x < 10) ? 10 : center.x + 'px'; textInput.style.top = (center.y - 15) + 'px'; textInput.className = 'x-form-textarea x-form-field x_form_text_set_absolute'; textInput.value = shape.properties[propId]; this.oldValueText = shape.properties[propId]; document.getElementById('canvasSection').appendChild(textInput); this.shownTextField = textInput; // Value change listener needs to be defined now since we reference it in the text field this.updateValueFunction = function(newValue, oldValue) { var currentEl = shape; var facade = this.facade; if (oldValue != newValue) { // Implement the specific command for property change var commandClass = ORYX.Core.Command.extend({ construct: function(){ this.el = currentEl; this.propId = propId; this.oldValue = oldValue; this.newValue = newValue; this.facade = facade; }, execute: function(){ this.el.setProperty(this.propId, this.newValue); //this.el.update(); this.facade.setSelection([this.el]); this.facade.getCanvas().update(); this.facade.updateSelection(); }, rollback: function(){ this.el.setProperty(this.propId, this.oldValue); //this.el.update(); this.facade.setSelection([this.el]); this.facade.getCanvas().update(); this.facade.updateSelection(); } }); // Instantiated the class var command = new commandClass(); // Execute the command this.facade.executeCommands([command]); } }.bind(this); jQuery("#shapeTextInput").focus(); jQuery("#shapeTextInput").autogrow(); // Disable the keydown in the editor (that when hitting the delete button, the shapes not get deleted) this.facade.disableEvent(ORYX.CONFIG.EVENT_KEYDOWN); }, getCenterPosition: function(svgNode, shape){ if (!svgNode) { return {x:0, y:0}; } var scale = this.facade.getCanvas().node.getScreenCTM(); var absoluteXY = shape.bounds.upperLeft(); var hasParent = true; var searchShape = shape; while (hasParent) { if (searchShape.getParentShape().getStencil().idWithoutNs() === 'BPMNDiagram') { hasParent = false; } else { var parentXY = searchShape.getParentShape().bounds.upperLeft(); absoluteXY.x += parentXY.x; absoluteXY.y += parentXY.y; searchShape = searchShape.getParentShape(); } } var center = shape.bounds.midPoint(); center.x += absoluteXY.x + scale.e; center.y += absoluteXY.y + scale.f; center.x *= scale.a; center.y *= scale.d; var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom === 1) { center.y = center.y - jQuery("#canvasSection").offset().top + 5; center.x -= jQuery("#canvasSection").offset().left; } else { var canvasOffsetLeft = jQuery("#canvasSection").offset().left; var canvasScrollLeft = jQuery("#canvasSection").scrollLeft(); var canvasScrollTop = jQuery("#canvasSection").scrollTop(); var offset = scale.e - (canvasOffsetLeft * additionalIEZoom); var additionaloffset = 0; if (offset > 10) { additionaloffset = (offset / additionalIEZoom) - offset; } center.y = center.y - (jQuery("#canvasSection").offset().top * additionalIEZoom) + 5 + ((canvasScrollTop * additionalIEZoom) - canvasScrollTop); center.x = center.x - (canvasOffsetLeft * additionalIEZoom) + additionaloffset + ((canvasScrollLeft * additionalIEZoom) - canvasScrollLeft); } return center; }, hide: function(e){ if (this.shownTextField && (!e || e.target !== this.shownTextField)) { var newValue = this.shownTextField.value; if (newValue !== this.oldValueText) { this.updateValueFunction(newValue, this.oldValueText); } this.destroy(); } }, hideField: function(e){ if (this.shownTextField) { this.destroy(); } }, destroy: function(e){ var textInputComp = jQuery("#shapeTextInput"); if( textInputComp ){ textInputComp.remove(); delete this.shownTextField; this.facade.enableEvent(ORYX.CONFIG.EVENT_KEYDOWN); } } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); /** * Supports EPCs by offering a syntax check and export and import ability.. * * */ ORYX.Plugins.ProcessLink = Clazz.extend({ facade: undefined, /** * Offers the plugin functionality: * */ construct: function(facade) { this.facade = facade; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_PROPERTY_CHANGED, this.propertyChanged.bind(this) ); }, /** * * @param {Object} option */ propertyChanged: function( option, node){ if( option.name !== "oryx-refuri" || !node instanceof ORYX.Core.Node ){ return } if( option.value && option.value.length > 0 && option.value != "undefined"){ this.show( node, option.value ); } else { this.hide( node ); } }, /** * Shows the Link for a particular shape with a specific url * * @param {Object} shape * @param {Object} url */ show: function( shape, url){ // Generate the svg-representation of a link var link = ORYX.Editor.graft("http://www.w3.org/2000/svg", null , [ 'a', {'target': '_blank'}, ['path', { "stroke-width": 1.0, "stroke":"#00DD00", "fill": "#00AA00", "d": "M3,3 l0,-2.5 l7.5,0 l0,-2.5 l7.5,4.5 l-7.5,3.5 l0,-2.5 l-8,0", "line-captions": "round"} ] ]); var link = ORYX.Editor.graft("http://www.w3.org/2000/svg", null , [ 'a', {'target': '_blank'}, ['path', { "style": "fill:#92BFFC;stroke:#000000;stroke-linecap:round;stroke-linejoin:round;stroke-width:0.72", "d": "M0 1.44 L0 15.05 L11.91 15.05 L11.91 5.98 L7.37 1.44 L0 1.44 Z"}], ['path', { "style": "stroke:#000000;stroke-linecap:round;stroke-linejoin:round;stroke-width:0.72;fill:none;", "transform": "translate(7.5, -8.5)", "d": "M0 10.51 L0 15.05 L4.54 15.05"}], ['path', { "style": "fill:#f28226;stroke:#000000;stroke-linecap:round;stroke-linejoin:round;stroke-width:0.72", "transform": "translate(-3, -1)", "d": "M0 8.81 L0 13.06 L5.95 13.06 L5.95 15.05 A50.2313 50.2313 -175.57 0 0 10.77 11.08 A49.9128 49.9128 -1.28 0 0 5.95 6.54 L5.95 8.81 L0 8.81 Z"}], ]); /* * * [ 'a', {'target': '_blank'}, ['path', { "style": "fill:none;stroke-width:0.5px; stroke:#000000", "d": "M7,4 l0,2"}], ['path', { "style": "fill:none;stroke-width:0.5px; stroke:#000000", "d": "M4,8 l-2,0 l0,6"}], ['path', { "style": "fill:none;stroke-width:0.5px; stroke:#000000", "d": "M10,8 l2,0 l0,6"}], ['rect', { "style": "fill:#96ff96;stroke:#000000;stroke-width:1", "width": 6, "height": 4, "x": 4, "y": 0}], ['rect', { "style": "fill:#ffafff;stroke:#000000;stroke-width:1", "width": 6, "height": 4, "x": 4, "y": 6}], ['rect', { "style": "fill:#96ff96;stroke:#000000;stroke-width:1", "width": 6, "height": 4, "x": 0, "y": 12}], ['rect', { "style": "fill:#96ff96;stroke:#000000;stroke-width:1", "width": 6, "height": 4, "x": 8, "y": 12}], ['rect', { "style": "fill:none;stroke:none;pointer-events:all", "width": 14, "height": 16, "x": 0, "y": 0}] ]); */ // Set the link with the special namespace link.setAttributeNS("http://www.w3.org/1999/xlink", "xlink:href", url); // Shows the link in the overlay this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_OVERLAY_SHOW, id: "arissupport.urlref_" + shape.id, shapes: [shape], node: link, nodePosition: "SE" }); }, /** * Hides the Link for a particular shape * * @param {Object} shape */ hide: function( shape ){ this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_OVERLAY_HIDE, id: "arissupport.urlref_" + shape.id }); } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ Array.prototype.insertFrom = function(from, to){ to = Math.max(0, to); from = Math.min( Math.max(0, from), this.length-1 ); var el = this[from]; var old = this.without(el); var newA = old.slice(0, to); newA.push(el); if(old.length > to ){ newA = newA.concat(old.slice(to)) }; return newA; } if(!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.Arrangement = ORYX.Plugins.AbstractPlugin.extend({ facade: undefined, construct: function(facade) { this.facade = facade; // Z-Ordering /** Hide for SIGNAVIO this.facade.offer({ 'name':ORYX.I18N.Arrangement.btf, 'functionality': this.setZLevel.bind(this, this.setToTop), 'group': ORYX.I18N.Arrangement.groupZ, 'icon': ORYX.PATH + "images/shape_move_front.png", 'description': ORYX.I18N.Arrangement.btfDesc, 'index': 1, 'minShape': 1}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.btb, 'functionality': this.setZLevel.bind(this, this.setToBack), 'group': ORYX.I18N.Arrangement.groupZ, 'icon': ORYX.PATH + "images/shape_move_back.png", 'description': ORYX.I18N.Arrangement.btbDesc, 'index': 2, 'minShape': 1}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.bf, 'functionality': this.setZLevel.bind(this, this.setForward), 'group': ORYX.I18N.Arrangement.groupZ, 'icon': ORYX.PATH + "images/shape_move_forwards.png", 'description': ORYX.I18N.Arrangement.bfDesc, 'index': 3, 'minShape': 1}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.bb, 'functionality': this.setZLevel.bind(this, this.setBackward), 'group': ORYX.I18N.Arrangement.groupZ, 'icon': ORYX.PATH + "images/shape_move_backwards.png", 'description': ORYX.I18N.Arrangement.bbDesc, 'index': 4, 'minShape': 1}); // Aligment this.facade.offer({ 'name':ORYX.I18N.Arrangement.ab, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_BOTTOM]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_bottom.png", 'description': ORYX.I18N.Arrangement.abDesc, 'index': 1, 'minShape': 2}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.at, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_TOP]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_top.png", 'description': ORYX.I18N.Arrangement.atDesc, 'index': 3, 'minShape': 2}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.al, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_LEFT]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_left.png", 'description': ORYX.I18N.Arrangement.alDesc, 'index': 4, 'minShape': 2}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.ar, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_RIGHT]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_right.png", 'description': ORYX.I18N.Arrangement.arDesc, 'index': 6, 'minShape': 2}); **/ this.facade.offer({ 'name':ORYX.I18N.Arrangement.am, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_MIDDLE]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_middle.png", 'description': ORYX.I18N.Arrangement.amDesc, 'index': 1, 'minShape': 2}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.ac, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_CENTER]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_center.png", 'description': ORYX.I18N.Arrangement.acDesc, 'index': 2, 'minShape': 2}); this.facade.offer({ 'name':ORYX.I18N.Arrangement.as, 'functionality': this.alignShapes.bind(this, [ORYX.CONFIG.EDITOR_ALIGN_SIZE]), 'group': ORYX.I18N.Arrangement.groupA, 'icon': ORYX.PATH + "images/shape_align_size.png", 'description': ORYX.I18N.Arrangement.asDesc, 'index': 3, 'minShape': 2}); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_ARRANGEMENT_TOP, this.setZLevel.bind(this, this.setToTop) ); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_ARRANGEMENT_BACK, this.setZLevel.bind(this, this.setToBack) ); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_ARRANGEMENT_FORWARD, this.setZLevel.bind(this, this.setForward) ); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_ARRANGEMENT_BACKWARD, this.setZLevel.bind(this, this.setBackward) ); }, onSelectionChanged: function(elemnt){ var selection = this.facade.getSelection(); if (selection.length === 1 && selection[0] instanceof ORYX.Core.Edge) { this.setToTop(selection); } }, setZLevel:function(callback, event){ //Command-Pattern for dragging one docker var zLevelCommand = ORYX.Core.Command.extend({ construct: function(callback, elements, facade){ this.callback = callback; this.elements = elements; // For redo, the previous elements get stored this.elAndIndex = elements.map(function(el){ return {el:el, previous:el.parent.children[el.parent.children.indexOf(el)-1]} }) this.facade = facade; }, execute: function(){ // Call the defined z-order callback with the elements this.callback( this.elements ) this.facade.setSelection( this.elements ) }, rollback: function(){ // Sort all elements on the index of there containment var sortedEl = this.elAndIndex.sortBy( function( el ) { var value = el.el; var t = $A(value.node.parentNode.childNodes); return t.indexOf(value.node); }); // Every element get setted back bevor the old previous element for(var i=0; i maxSize.width) { newBounds.a.x = shape.bounds.upperLeft().x - (maxSize.width - shape.bounds.width())/2; newBounds.b.x = shape.bounds.lowerRight().x + (maxSize.width - shape.bounds.width())/2 } /* If the new height of shape exceeds the maximum height, set height value to maximum. */ if(this.maxHeight > maxSize.height) { newBounds.a.y = shape.bounds.upperLeft().y - (maxSize.height - shape.bounds.height())/2; newBounds.b.y = shape.bounds.lowerRight().y + (maxSize.height - shape.bounds.height())/2 } /* set bounds of shape */ shape.bounds.set(newBounds); }, execute: function(){ // align each shape according to the way that was specified. this.elements.each(function(shape, index) { this.orgPos[index] = shape.bounds.upperLeft(); var relBounds = this.bounds.clone(); var newCoordinates; if (shape.parent && !(shape.parent instanceof ORYX.Core.Canvas) ) { var upL = shape.parent.absoluteBounds().upperLeft(); relBounds.moveBy(-upL.x, -upL.y); } switch (this.way) { // align the shapes in the requested way. case ORYX.CONFIG.EDITOR_ALIGN_BOTTOM: newCoordinates = { x: shape.bounds.upperLeft().x, y: relBounds.b.y - shape.bounds.height() }; break; case ORYX.CONFIG.EDITOR_ALIGN_MIDDLE: newCoordinates = { x: shape.bounds.upperLeft().x, y: (relBounds.a.y + relBounds.b.y - shape.bounds.height()) / 2 }; break; case ORYX.CONFIG.EDITOR_ALIGN_TOP: newCoordinates = { x: shape.bounds.upperLeft().x, y: relBounds.a.y }; break; case ORYX.CONFIG.EDITOR_ALIGN_LEFT: newCoordinates = { x: relBounds.a.x, y: shape.bounds.upperLeft().y }; break; case ORYX.CONFIG.EDITOR_ALIGN_CENTER: newCoordinates = { x: (relBounds.a.x + relBounds.b.x - shape.bounds.width()) / 2, y: shape.bounds.upperLeft().y }; break; case ORYX.CONFIG.EDITOR_ALIGN_RIGHT: newCoordinates = { x: relBounds.b.x - shape.bounds.width(), y: shape.bounds.upperLeft().y }; break; case ORYX.CONFIG.EDITOR_ALIGN_SIZE: if(shape.isResizable) { this.orgPos[index] = {a: shape.bounds.upperLeft(), b: shape.bounds.lowerRight()}; this.setBounds(shape, shape.maximumSize); } break; } if (newCoordinates){ var offset = { x: shape.bounds.upperLeft().x - newCoordinates.x, y: shape.bounds.upperLeft().y - newCoordinates.y } // Set the new position shape.bounds.moveTo(newCoordinates); this.plugin.layoutEdges(shape, shape.getAllDockedShapes(),offset); //shape.update() } }.bind(this)); //this.facade.getCanvas().update(); //this.facade.updateSelection(); }, rollback: function(){ this.elements.each(function(shape, index) { if (this.way == ORYX.CONFIG.EDITOR_ALIGN_SIZE) { if(shape.isResizable) {shape.bounds.set(this.orgPos[index]);} } else {shape.bounds.moveTo(this.orgPos[index]);} }.bind(this)); //this.facade.getCanvas().update(); //this.facade.updateSelection(); } }) var command = new commandClass(elements, bounds, maxHeight, maxWidth, parseInt(way), this); this.facade.executeCommands([command]); } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.Save = Clazz.extend({ facade: undefined, processURI: undefined, changeSymbol : "*", construct: function(facade){ this.facade = facade; document.addEventListener("keydown", function(e){ if (e.ctrlKey&&e.keyCode === 83){ Event.stop(e); } }, false); window.onbeforeunload = this.onUnLoad.bind(this); this.changeDifference = 0; // Register on event for executing commands --> store all commands in a stack // --> Execute this.facade.registerOnEvent(ORYX.CONFIG.EVENT_UNDO_EXECUTE, function(){ this.changeDifference++; this.updateTitle(); }.bind(this) ); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_EXECUTE_COMMANDS, function(){ this.changeDifference++; this.updateTitle(); }.bind(this) ); // --> Saved from other places in the editor this.facade.registerOnEvent(ORYX.CONFIG.EVENT_SAVED, function(){ this.changeDifference = 0; this.updateTitle(); }.bind(this) ); // --> Rollback this.facade.registerOnEvent(ORYX.CONFIG.EVENT_UNDO_ROLLBACK, function(){ this.changeDifference--; this.updateTitle(); }.bind(this) ); //TODO very critical for load time performance!!! //this.serializedDOM = DataManager.__persistDOM(this.facade); this.hasChanges = this._hasChanges.bind(this); }, updateTitle: function(){ var value = window.document.title || document.getElementsByTagName("title")[0].childNodes[0].nodeValue; if (this.changeDifference === 0 && value.startsWith(this.changeSymbol)){ window.document.title = value.slice(1); } else if (this.changeDifference !== 0 && !value.startsWith(this.changeSymbol)){ window.document.title = this.changeSymbol + "" + value; } }, _hasChanges: function() { return this.changeDifference !== 0 || (this.facade.getModelMetaData()['new'] && this.facade.getCanvas().getChildShapes().size() > 0); }, onUnLoad: function(){ if(this._hasChanges()) { return ORYX.I18N.Save.unsavedData; } } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.DragDropResize = ORYX.Plugins.AbstractPlugin.extend({ /** * Constructor * @param {Object} Facade: The Facade of the Editor */ construct: function(facade) { this.facade = facade; // Initialize variables this.currentShapes = []; // Current selected Shapes //this.pluginsData = []; // Available Plugins this.toMoveShapes = []; // Shapes there will be moved this.distPoints = []; // Distance Points for Snap on Grid this.isResizing = false; // Flag: If there was currently resized this.dragEnable = false; // Flag: If Dragging is enabled this.dragIntialized = false; // Flag: If the Dragging is initialized this.edgesMovable = true; // Flag: If an edge is docked it is not movable this.offSetPosition = {x: 0, y: 0}; // Offset of the Dragging this.faktorXY = {x: 1, y: 1}; // The Current Zoom-Faktor this.containmentParentNode; // the current future parent node for the dragged shapes this.isAddingAllowed = false; // flag, if adding current selected shapes to containmentParentNode is allowed this.isAttachingAllowed = false; // flag, if attaching to the current shape is allowed this.callbackMouseMove = this.handleMouseMove.bind(this); this.callbackMouseUp = this.handleMouseUp.bind(this); // Get the SVG-Containernode var containerNode = this.facade.getCanvas().getSvgContainer(); // Create the Selected Rectangle in the SVG this.selectedRect = new ORYX.Plugins.SelectedRect(containerNode); // Show grid line if enabled if (ORYX.CONFIG.SHOW_GRIDLINE) { this.vLine = new ORYX.Plugins.GridLine(containerNode, ORYX.Plugins.GridLine.DIR_VERTICAL); this.hLine = new ORYX.Plugins.GridLine(containerNode, ORYX.Plugins.GridLine.DIR_HORIZONTAL); } // Get a HTML-ContainerNode containerNode = this.facade.getCanvas().getHTMLContainer(); this.scrollNode = this.facade.getCanvas().rootNode.parentNode.parentNode; // Create the southeastern button for resizing this.resizerSE = new ORYX.Plugins.Resizer(containerNode, "southeast", this.facade); this.resizerSE.registerOnResize(this.onResize.bind(this)); // register the resize callback this.resizerSE.registerOnResizeEnd(this.onResizeEnd.bind(this)); // register the resize end callback this.resizerSE.registerOnResizeStart(this.onResizeStart.bind(this)); // register the resize start callback // Create the northwestern button for resizing this.resizerNW = new ORYX.Plugins.Resizer(containerNode, "northwest", this.facade); this.resizerNW.registerOnResize(this.onResize.bind(this)); // register the resize callback this.resizerNW.registerOnResizeEnd(this.onResizeEnd.bind(this)); // register the resize end callback this.resizerNW.registerOnResizeStart(this.onResizeStart.bind(this)); // register the resize start callback // For the Drag and Drop // Register on MouseDown-Event on a Shape this.facade.registerOnEvent(ORYX.CONFIG.EVENT_MOUSEDOWN, this.handleMouseDown.bind(this)); }, /** * On Mouse Down * */ handleMouseDown: function(event, uiObj) { // If the selection Bounds not intialized and the uiObj is not member of current selectio // then return if(!this.dragBounds || !this.currentShapes.member(uiObj) || !this.toMoveShapes.length) {return;}; // Start Dragging this.dragEnable = true; this.dragIntialized = true; this.edgesMovable = true; // Calculate the current zoom factor var a = this.facade.getCanvas().node.getScreenCTM(); this.faktorXY.x = a.a; this.faktorXY.y = a.d; var eventX = Event.pointerX(event); var eventY = Event.pointerY(event); // Set the offset position of dragging var upL = this.dragBounds.upperLeft(); this.offSetPosition = { x: eventX - (upL.x * this.faktorXY.x), y: eventY - (upL.y * this.faktorXY.y)}; this.offsetScroll = {x:this.scrollNode.scrollLeft,y:this.scrollNode.scrollTop}; // Register on Global Mouse-MOVE Event document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.callbackMouseMove, false); // Register on Global Mouse-UP Event document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.callbackMouseUp, true); return; }, /** * On Key Mouse Up * */ handleMouseUp: function(event) { //disable containment highlighting this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:"dragdropresize.contain" }); this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:"dragdropresize.attached" }); // If Dragging is finished if(this.dragEnable) { // and update the current selection if(!this.dragIntialized) { // Do Method after Dragging this.afterDrag(); // Check if the Shape is allowed to dock to the other Shape if ( this.isAttachingAllowed && this.toMoveShapes.length == 1 && this.toMoveShapes[0] instanceof ORYX.Core.Node && this.toMoveShapes[0].dockers.length > 0) { // Get the position and the docker var position = this.facade.eventCoordinates( event ); var docker = this.toMoveShapes[0].dockers[0]; //Command-Pattern for dragging several Shapes var dockCommand = ORYX.Core.Command.extend({ construct: function(docker, position, newDockedShape, facade){ this.docker = docker; this.newPosition = position; this.newDockedShape = newDockedShape; this.newParent = newDockedShape.parent || facade.getCanvas(); this.oldPosition = docker.parent.bounds.center(); this.oldDockedShape = docker.getDockedShape(); this.oldParent = docker.parent.parent || facade.getCanvas(); this.facade = facade; if( this.oldDockedShape ){ this.oldPosition = docker.parent.absoluteBounds().center(); } }, execute: function(){ this.dock( this.newDockedShape, this.newParent, this.newPosition ); // Raise Event for having the docked shape on top of the other shape this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_ARRANGEMENT_TOP, excludeCommand: true}) }, rollback: function(){ this.dock( this.oldDockedShape, this.oldParent, this.oldPosition ); }, dock:function( toDockShape, parent, pos ){ // Add to the same parent Shape parent.add( this.docker.parent ) // Set the Docker to the new Shape this.docker.setDockedShape( undefined ); this.docker.bounds.centerMoveTo( pos ) this.docker.setDockedShape( toDockShape ); //this.docker.update(); this.facade.setSelection( [this.docker.parent] ); this.facade.getCanvas().update(); this.facade.updateSelection(); } }); // Instanziate the dockCommand var commands = [new dockCommand(docker, position, this.containmentParentNode, this.facade)]; this.facade.executeCommands(commands); // Check if adding is allowed to the other Shape } else if( this.isAddingAllowed ) { // Refresh all Shapes --> Set the new Bounds this.refreshSelectedShapes(); } this.facade.updateSelection(); //this.currentShapes.each(function(shape) {shape.update()}) // Raise Event: Dragging is finished this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_DRAGDROP_END}); } if (this.vLine) this.vLine.hide(); if (this.hLine) this.hLine.hide(); } // Disable this.dragEnable = false; // UnRegister on Global Mouse-UP/-Move Event document.documentElement.removeEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.callbackMouseUp, true); document.documentElement.removeEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.callbackMouseMove, false); return; }, /** * On Key Mouse Move * */ handleMouseMove: function(event) { // If dragging is not enabled, go return if(!this.dragEnable) { return }; // If Dragging is initialized if(this.dragIntialized) { // Raise Event: Drag will be started this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_DRAGDROP_START}); this.dragIntialized = false; // And hide the resizers and the highlighting this.resizerSE.hide(); this.resizerNW.hide(); // if only edges are selected, containmentParentNode must be the canvas this._onlyEdges = this.currentShapes.all(function(currentShape) { return (currentShape instanceof ORYX.Core.Edge); }); // Do method before Drag this.beforeDrag(); this._currentUnderlyingNodes = []; } // Calculate the new position var position = { x: Event.pointerX(event) - this.offSetPosition.x, y: Event.pointerY(event) - this.offSetPosition.y} position.x -= this.offsetScroll.x - this.scrollNode.scrollLeft; position.y -= this.offsetScroll.y - this.scrollNode.scrollTop; // If not the Control-Key are pressed var modifierKeyPressed = event.shiftKey || event.ctrlKey; if(ORYX.CONFIG.GRID_ENABLED && !modifierKeyPressed) { // Snap the current position to the nearest Snap-Point position = this.snapToGrid(position); } else { if (this.vLine) this.vLine.hide(); if (this.hLine) this.hLine.hide(); } // Adjust the point by the zoom faktor position.x /= this.faktorXY.x; position.y /= this.faktorXY.y; // Set that the position is not lower than zero position.x = Math.max( 0 , position.x) position.y = Math.max( 0 , position.y) // Set that the position is not bigger than the canvas var c = this.facade.getCanvas(); position.x = Math.min( c.bounds.width() - this.dragBounds.width(), position.x) position.y = Math.min( c.bounds.height() - this.dragBounds.height(), position.y) // Drag this bounds this.dragBounds.moveTo(position); // Update all selected shapes and the selection rectangle //this.refreshSelectedShapes(); this.resizeRectangle(this.dragBounds); this.isAttachingAllowed = false; //check, if a node can be added to the underlying node var eventCoordinates = this.facade.eventCoordinates(event); var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { eventCoordinates.x = eventCoordinates.x / additionalIEZoom; eventCoordinates.y = eventCoordinates.y / additionalIEZoom; } var underlyingNodes = $A(this.facade.getCanvas().getAbstractShapesAtPosition(eventCoordinates)); var checkIfAttachable = this.toMoveShapes.length == 1 && this.toMoveShapes[0] instanceof ORYX.Core.Node && this.toMoveShapes[0].dockers.length > 0 checkIfAttachable = checkIfAttachable && underlyingNodes.length != 1 if (!checkIfAttachable && underlyingNodes.length === this._currentUnderlyingNodes.length && underlyingNodes.all(function(node, index){return this._currentUnderlyingNodes[index] === node}.bind(this))) { return } else if(this._onlyEdges) { this.isAddingAllowed = true; this.containmentParentNode = this.facade.getCanvas(); } else { /* Check the containment and connection rules */ var options = { event : event, underlyingNodes : underlyingNodes, checkIfAttachable : checkIfAttachable }; this.checkRules(options); } this._currentUnderlyingNodes = underlyingNodes.reverse(); //visualize the containment result if( this.isAttachingAllowed ) { this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId: "dragdropresize.attached", elements: [this.containmentParentNode], style: ORYX.CONFIG.SELECTION_HIGHLIGHT_STYLE_RECTANGLE, color: ORYX.CONFIG.SELECTION_VALID_COLOR }); } else { this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:"dragdropresize.attached" }); } if( !this.isAttachingAllowed ){ if( this.isAddingAllowed ) { this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId:"dragdropresize.contain", elements:[this.containmentParentNode], color: ORYX.CONFIG.SELECTION_VALID_COLOR }); } else { this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId:"dragdropresize.contain", elements:[this.containmentParentNode], color: ORYX.CONFIG.SELECTION_INVALID_COLOR }); } } else { this.facade.raiseEvent({ type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:"dragdropresize.contain" }); } // Stop the Event //Event.stop(event); return; }, // /** // * Rollbacks the docked shape of an edge, if the edge is not movable. // */ // redockEdges: function() { // this._undockedEdgesCommand.dockers.each(function(el){ // el.docker.setDockedShape(el.dockedShape); // el.docker.setReferencePoint(el.refPoint); // }) // }, /** * Checks the containment and connection rules for the selected shapes. */ checkRules : function(options) { var event = options.event; var underlyingNodes = options.underlyingNodes; var checkIfAttachable = options.checkIfAttachable; var noEdges = options.noEdges; //get underlying node that is not the same than one of the currently selected shapes or // a child of one of the selected shapes with the highest z Order. // The result is a shape or the canvas this.containmentParentNode = underlyingNodes.reverse().find((function(node) { return (node instanceof ORYX.Core.Canvas) || (((node instanceof ORYX.Core.Node) || ((node instanceof ORYX.Core.Edge) && !noEdges)) && (!(this.currentShapes.member(node) || this.currentShapes.any(function(shape) { return (shape.children.length > 0 && shape.getChildNodes(true).member(node)); })))); }).bind(this)); if( checkIfAttachable ){ this.isAttachingAllowed = this.facade.getRules().canConnect({ sourceShape: this.containmentParentNode, edgeShape: this.toMoveShapes[0], targetShape: this.toMoveShapes[0] }); if ( this.isAttachingAllowed ) { var point = this.facade.eventCoordinates(event); this.isAttachingAllowed = this.containmentParentNode.isPointOverOffset( point.x, point.y ); } } if( !this.isAttachingAllowed ){ //check all selected shapes, if they can be added to containmentParentNode this.isAddingAllowed = this.toMoveShapes.all((function(currentShape) { if(currentShape instanceof ORYX.Core.Edge || currentShape instanceof ORYX.Core.Controls.Docker || this.containmentParentNode === currentShape.parent) { return true; } else if(this.containmentParentNode !== currentShape) { if(!(this.containmentParentNode instanceof ORYX.Core.Edge) || !noEdges) { if(this.facade.getRules().canContain({containingShape:this.containmentParentNode, containedShape:currentShape})) { return true; } } } return false; }).bind(this)); } if(!this.isAttachingAllowed && !this.isAddingAllowed && (this.containmentParentNode instanceof ORYX.Core.Edge)) { options.noEdges = true; options.underlyingNodes.reverse(); this.checkRules(options); } }, /** * Redraw the selected Shapes. * */ refreshSelectedShapes: function() { // If the selection bounds not initialized, return if(!this.dragBounds) {return} // Calculate the offset between the bounds and the old bounds var upL = this.dragBounds.upperLeft(); var oldUpL = this.oldDragBounds.upperLeft(); var offset = { x: upL.x - oldUpL.x, y: upL.y - oldUpL.y }; // Instanciate the dragCommand var commands = [new ORYX.Core.Command.Move(this.toMoveShapes, offset, this.containmentParentNode, this.currentShapes, this)]; // If the undocked edges command is setted, add this command if( this._undockedEdgesCommand instanceof ORYX.Core.Command ){ commands.unshift( this._undockedEdgesCommand ); } // Execute the commands this.facade.executeCommands( commands ); // copy the bounds to the old bounds if( this.dragBounds ) this.oldDragBounds = this.dragBounds.clone(); }, /** * Callback for Resize * */ onResize: function(bounds) { // If the selection bounds not initialized, return if(!this.dragBounds) {return} this.dragBounds = bounds; this.isResizing = true; // Update the rectangle this.resizeRectangle(this.dragBounds); }, onResizeStart: function() { this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_RESIZE_START}); }, onResizeEnd: function() { if (!(this.currentShapes instanceof Array)||this.currentShapes.length<=0) { return; } // If Resizing finished, the Shapes will be resize if(this.isResizing) { var commandClass = ORYX.Core.Command.extend({ construct: function(shape, newBounds, plugin){ this.shape = shape; this.oldBounds = shape.bounds.clone(); this.newBounds = newBounds; this.plugin = plugin; }, execute: function(){ this.shape.bounds.set(this.newBounds.a, this.newBounds.b); this.update(this.getOffset(this.oldBounds, this.newBounds)); }, rollback: function(){ this.shape.bounds.set(this.oldBounds.a, this.oldBounds.b); this.update(this.getOffset(this.newBounds, this.oldBounds)) }, getOffset:function(b1, b2){ return { x: b2.a.x - b1.a.x, y: b2.a.y - b1.a.y, xs: b2.width()/b1.width(), ys: b2.height()/b1.height() } }, update:function(offset){ this.shape.getLabels().each(function(label) { label.changed(); }); var allEdges = [].concat(this.shape.getIncomingShapes()) .concat(this.shape.getOutgoingShapes()) // Remove all edges which are included in the selection from the list .findAll(function(r){ return r instanceof ORYX.Core.Edge }.bind(this)) this.plugin.layoutEdges(this.shape, allEdges, offset); this.plugin.facade.setSelection([this.shape]); this.plugin.facade.getCanvas().update(); this.plugin.facade.updateSelection(); } }); var bounds = this.dragBounds.clone(); var shape = this.currentShapes[0]; if(shape.parent) { var parentPosition = shape.parent.absoluteXY(); bounds.moveBy(-parentPosition.x, -parentPosition.y); } var command = new commandClass(shape, bounds, this); this.facade.executeCommands([command]); this.isResizing = false; this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_RESIZE_END}); } }, /** * Prepare the Dragging * */ beforeDrag: function(){ var undockEdgeCommand = ORYX.Core.Command.extend({ construct: function(moveShapes){ this.dockers = moveShapes.collect(function(shape){ return shape instanceof ORYX.Core.Controls.Docker ? {docker:shape, dockedShape:shape.getDockedShape(), refPoint:shape.referencePoint} : undefined }).compact(); }, execute: function(){ this.dockers.each(function(el){ el.docker.setDockedShape(undefined); }) }, rollback: function(){ this.dockers.each(function(el){ el.docker.setDockedShape(el.dockedShape); el.docker.setReferencePoint(el.refPoint); //el.docker.update(); }) } }); this._undockedEdgesCommand = new undockEdgeCommand( this.toMoveShapes ); this._undockedEdgesCommand.execute(); }, hideAllLabels: function(shape) { // Hide all labels from the shape shape.getLabels().each(function(label) { label.hide(); }); // Hide all labels from docked shapes shape.getAllDockedShapes().each(function(dockedShape) { var labels = dockedShape.getLabels(); if(labels.length > 0) { labels.each(function(label) { label.hide(); }); } }); // Do this recursive for all child shapes // EXP-NICO use getShapes shape.getChildren().each((function(value) { if(value instanceof ORYX.Core.Shape) this.hideAllLabels(value); }).bind(this)); }, /** * Finished the Dragging * */ afterDrag: function(){ }, /** * Show all Labels at these shape * */ showAllLabels: function(shape) { // Show the label of these shape //shape.getLabels().each(function(label) { for(var i=0; i 0) { labels.each(function(label) { label.show(); }); } }//); // Do this recursive //shape.children.each((function(value) { for(var i=0; i 2 && hasF && hasL){ this.toMoveShapes = this.toMoveShapes.concat(dks.findAll(function(el,index){ return index > 0 && index < dks.length-1})); } }).bind(this)); // Calculate the new area-bounds of the selection var newBounds = undefined; this.toMoveShapes.each(function(value) { var shape = value; if(value instanceof ORYX.Core.Controls.Docker) { /* Get the Shape */ shape = value.parent; } if(!newBounds){ newBounds = shape.absoluteBounds(); } else { newBounds.include(shape.absoluteBounds()); } }.bind(this)); if(!newBounds){ elements.each(function(value){ if(!newBounds) { newBounds = value.absoluteBounds(); } else { newBounds.include(value.absoluteBounds()); } }); } // Set the new bounds this.dragBounds = newBounds; this.oldDragBounds = newBounds.clone(); // Update and show the rectangle this.resizeRectangle(newBounds); this.selectedRect.show(); // Show the resize button, if there is only one element and this is resizeable if(elements.length == 1 && elements[0].isResizable) { var aspectRatio = elements[0].getStencil().fixedAspectRatio() ? elements[0].bounds.width() / elements[0].bounds.height() : undefined; this.resizerSE.setBounds(this.dragBounds, elements[0].minimumSize, elements[0].maximumSize, aspectRatio); this.resizerSE.show(); this.resizerNW.setBounds(this.dragBounds, elements[0].minimumSize, elements[0].maximumSize, aspectRatio); this.resizerNW.show(); } else { this.resizerSE.setBounds(undefined); this.resizerNW.setBounds(undefined); } // If Snap-To-Grid is enabled, the Snap-Point will be calculate if(ORYX.CONFIG.GRID_ENABLED) { // Reset all points this.distPoints = []; if (this.distPointTimeout) window.clearTimeout(this.distPointTimeout) this.distPointTimeout = window.setTimeout(function(){ // Get all the shapes, there will consider at snapping // Consider only those elements who shares the same parent element var distShapes = this.facade.getCanvas().getChildShapes(true).findAll(function(value){ var parentShape = value.parent; while(parentShape){ if(elements.member(parentShape)) return false; parentShape = parentShape.parent } return true; }) // The current selection will delete from this array //elements.each(function(shape) { // distShapes = distShapes.without(shape); //}); // For all these shapes distShapes.each((function(value) { if(!(value instanceof ORYX.Core.Edge)) { var ul = value.absoluteXY(); var width = value.bounds.width(); var height = value.bounds.height(); // Add the upperLeft, center and lowerRight - Point to the distancePoints this.distPoints.push({ ul: { x: ul.x, y: ul.y }, c: { x: ul.x + (width / 2), y: ul.y + (height / 2) }, lr: { x: ul.x + width, y: ul.y + height } }); } }).bind(this)); }.bind(this), 10) } } }, /** * Adjust an Point to the Snap Points * */ snapToGrid: function(position) { // Get the current Bounds var bounds = this.dragBounds; var point = {}; var ulThres = 6; var cThres = 10; var lrThres = 6; var scale = this.vLine ? this.vLine.getScale() : 1; var ul = { x: (position.x/scale), y: (position.y/scale)}; var c = { x: (position.x/scale) + (bounds.width()/2), y: (position.y/scale) + (bounds.height()/2)}; var lr = { x: (position.x/scale) + (bounds.width()), y: (position.y/scale) + (bounds.height())}; var offsetX, offsetY; var gridX, gridY; // For each distant point this.distPoints.each(function(value) { var x, y, gx, gy; if (Math.abs(value.c.x-c.x) < cThres){ x = value.c.x-c.x; gx = value.c.x; }/* else if (Math.abs(value.ul.x-ul.x) < ulThres){ x = value.ul.x-ul.x; gx = value.ul.x; } else if (Math.abs(value.lr.x-lr.x) < lrThres){ x = value.lr.x-lr.x; gx = value.lr.x; } */ if (Math.abs(value.c.y-c.y) < cThres){ y = value.c.y-c.y; gy = value.c.y; }/* else if (Math.abs(value.ul.y-ul.y) < ulThres){ y = value.ul.y-ul.y; gy = value.ul.y; } else if (Math.abs(value.lr.y-lr.y) < lrThres){ y = value.lr.y-lr.y; gy = value.lr.y; } */ if (x !== undefined) { offsetX = offsetX === undefined ? x : (Math.abs(x) < Math.abs(offsetX) ? x : offsetX); if (offsetX === x) gridX = gx; } if (y !== undefined) { offsetY = offsetY === undefined ? y : (Math.abs(y) < Math.abs(offsetY) ? y : offsetY); if (offsetY === y) gridY = gy; } }); if (offsetX !== undefined) { ul.x += offsetX; ul.x *= scale; if (this.vLine&&gridX) this.vLine.update(gridX); } else { ul.x = (position.x - (position.x % (ORYX.CONFIG.GRID_DISTANCE/2))); if (this.vLine) this.vLine.hide() } if (offsetY !== undefined) { ul.y += offsetY; ul.y *= scale; if (this.hLine&&gridY) this.hLine.update(gridY); } else { ul.y = (position.y - (position.y % (ORYX.CONFIG.GRID_DISTANCE/2))); if (this.hLine) this.hLine.hide(); } return ul; }, showGridLine: function(){ }, /** * Redraw of the Rectangle of the SelectedArea * @param {Object} bounds */ resizeRectangle: function(bounds) { // Resize the Rectangle this.selectedRect.resize(bounds); } }); ORYX.Plugins.SelectedRect = Clazz.extend({ construct: function(parentId) { this.parentId = parentId; this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", $(parentId), ['g']); this.dashedArea = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node, ['rect', {x: 0, y: 0, 'stroke-width': 1, stroke: '#777777', fill: 'none', 'stroke-dasharray': '2,2', 'pointer-events': 'none'}]); this.hide(); }, hide: function() { this.node.setAttributeNS(null, 'display', 'none'); }, show: function() { this.node.setAttributeNS(null, 'display', ''); }, resize: function(bounds) { var upL = bounds.upperLeft(); var padding = ORYX.CONFIG.SELECTED_AREA_PADDING; this.dashedArea.setAttributeNS(null, 'width', bounds.width() + 2*padding); this.dashedArea.setAttributeNS(null, 'height', bounds.height() + 2*padding); this.node.setAttributeNS(null, 'transform', "translate("+ (upL.x - padding) +", "+ (upL.y - padding) +")"); } }); ORYX.Plugins.GridLine = Clazz.extend({ construct: function(parentId, direction) { if (ORYX.Plugins.GridLine.DIR_HORIZONTAL !== direction && ORYX.Plugins.GridLine.DIR_VERTICAL !== direction) { direction = ORYX.Plugins.GridLine.DIR_HORIZONTAL } this.parent = $(parentId); this.direction = direction; this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.parent, ['g']); this.line = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node, ['path', { 'stroke-width': 1, stroke: 'silver', fill: 'none', 'stroke-dasharray': '5,5', 'pointer-events': 'none'}]); this.hide(); }, hide: function() { this.node.setAttributeNS(null, 'display', 'none'); }, show: function() { this.node.setAttributeNS(null, 'display', ''); }, getScale: function(){ try { return this.parent.parentNode.transform.baseVal.getItem(0).matrix.a; } catch(e) { return 1; } }, update: function(pos) { if (this.direction === ORYX.Plugins.GridLine.DIR_HORIZONTAL) { var y = pos instanceof Object ? pos.y : pos; var cWidth = this.parent.parentNode.parentNode.width.baseVal.value/this.getScale(); this.line.setAttributeNS(null, 'd', 'M 0 '+y+ ' L '+cWidth+' '+y); } else { var x = pos instanceof Object ? pos.x : pos; var cHeight = this.parent.parentNode.parentNode.height.baseVal.value/this.getScale(); this.line.setAttributeNS(null, 'd', 'M'+x+ ' 0 L '+x+' '+cHeight); } this.show(); } }); ORYX.Plugins.GridLine.DIR_HORIZONTAL = "hor"; ORYX.Plugins.GridLine.DIR_VERTICAL = "ver"; ORYX.Plugins.Resizer = Clazz.extend({ construct: function(parentId, orientation, facade) { this.parentId = parentId; this.orientation = orientation; this.facade = facade; this.node = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", $('canvasSection'), ['div', {'class': 'resizer_'+ this.orientation, style:'left:0px; top:0px;position:absolute;'}]); this.node.addEventListener(ORYX.CONFIG.EVENT_MOUSEDOWN, this.handleMouseDown.bind(this), true); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.handleMouseUp.bind(this), true); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.handleMouseMove.bind(this), false); this.dragEnable = false; this.offSetPosition = {x: 0, y: 0}; this.bounds = undefined; this.canvasNode = this.facade.getCanvas().node; this.minSize = undefined; this.maxSize = undefined; this.aspectRatio = undefined; this.resizeCallbacks = []; this.resizeStartCallbacks = []; this.resizeEndCallbacks = []; this.hide(); // Calculate the Offset this.scrollNode = this.node.parentNode.parentNode.parentNode; }, handleMouseDown: function(event) { this.dragEnable = true; this.offsetScroll = {x:this.scrollNode.scrollLeft,y:this.scrollNode.scrollTop}; this.offSetPosition = { x: Event.pointerX(event) - this.position.x, y: Event.pointerY(event) - this.position.y}; this.resizeStartCallbacks.each((function(value) { value(this.bounds); }).bind(this)); }, handleMouseUp: function(event) { this.dragEnable = false; this.containmentParentNode = null; this.resizeEndCallbacks.each((function(value) { value(this.bounds); }).bind(this)); }, handleMouseMove: function(event) { if(!this.dragEnable) { return } if(event.shiftKey || event.ctrlKey) { this.aspectRatio = this.bounds.width() / this.bounds.height(); } else { this.aspectRatio = undefined; } var position = { x: Event.pointerX(event) - this.offSetPosition.x, y: Event.pointerY(event) - this.offSetPosition.y}; position.x -= this.offsetScroll.x - this.scrollNode.scrollLeft; position.y -= this.offsetScroll.y - this.scrollNode.scrollTop; position.x = Math.min( position.x, this.facade.getCanvas().bounds.width()); position.y = Math.min( position.y, this.facade.getCanvas().bounds.height()); var offset = { x: position.x - this.position.x, y: position.y - this.position.y }; if(this.aspectRatio) { // fixed aspect ratio newAspectRatio = (this.bounds.width()+offset.x) / (this.bounds.height()+offset.y); if(newAspectRatio>this.aspectRatio) { offset.x = this.aspectRatio * (this.bounds.height()+offset.y) - this.bounds.width(); } else if(newAspectRatio this.maxSize.width) { offset.x = -(this.maxSize.width - this.bounds.width()); if(this.aspectRatio) offset.y = this.aspectRatio * offset.x; } if(this.bounds.width()-offset.x < this.minSize.width) { offset.x = -(this.minSize.width - this.bounds.width()); if(this.aspectRatio) offset.y = this.aspectRatio * offset.x; } if(this.bounds.height()-offset.y > this.maxSize.height) { offset.y = -(this.maxSize.height - this.bounds.height()); if(this.aspectRatio) offset.x = offset.y / this.aspectRatio; } if(this.bounds.height()-offset.y < this.minSize.height) { offset.y = -(this.minSize.height - this.bounds.height()); if(this.aspectRatio) offset.x = offset.y / this.aspectRatio; } } else { // defaults to southeast if(this.bounds.width()+offset.x > this.maxSize.width) { offset.x = this.maxSize.width - this.bounds.width(); if(this.aspectRatio) offset.y = this.aspectRatio * offset.x; } if(this.bounds.width()+offset.x < this.minSize.width) { offset.x = this.minSize.width - this.bounds.width(); if(this.aspectRatio) offset.y = this.aspectRatio * offset.x; } if(this.bounds.height()+offset.y > this.maxSize.height) { offset.y = this.maxSize.height - this.bounds.height(); if(this.aspectRatio) offset.x = offset.y / this.aspectRatio; } if(this.bounds.height()+offset.y < this.minSize.height) { offset.y = this.minSize.height - this.bounds.height(); if(this.aspectRatio) offset.x = offset.y / this.aspectRatio; } } if(this.orientation==="northwest") { this.bounds.extend({x:-offset.x, y:-offset.y}); this.bounds.moveBy(offset); } else { // defaults to southeast this.bounds.extend(offset); } this.update(); this.resizeCallbacks.each((function(value) { value(this.bounds); }).bind(this)); Event.stop(event); }, registerOnResizeStart: function(callback) { if(!this.resizeStartCallbacks.member(callback)) { this.resizeStartCallbacks.push(callback); } }, unregisterOnResizeStart: function(callback) { if(this.resizeStartCallbacks.member(callback)) { this.resizeStartCallbacks = this.resizeStartCallbacks.without(callback); } }, registerOnResizeEnd: function(callback) { if(!this.resizeEndCallbacks.member(callback)) { this.resizeEndCallbacks.push(callback); } }, unregisterOnResizeEnd: function(callback) { if(this.resizeEndCallbacks.member(callback)) { this.resizeEndCallbacks = this.resizeEndCallbacks.without(callback); } }, registerOnResize: function(callback) { if(!this.resizeCallbacks.member(callback)) { this.resizeCallbacks.push(callback); } }, unregisterOnResize: function(callback) { if(this.resizeCallbacks.member(callback)) { this.resizeCallbacks = this.resizeCallbacks.without(callback); } }, hide: function() { this.node.style.display = "none"; }, show: function() { if(this.bounds) this.node.style.display = ""; }, setBounds: function(bounds, min, max, aspectRatio) { this.bounds = bounds; if(!min) min = {width: ORYX.CONFIG.MINIMUM_SIZE, height: ORYX.CONFIG.MINIMUM_SIZE}; if(!max) max = {width: ORYX.CONFIG.MAXIMUM_SIZE, height: ORYX.CONFIG.MAXIMUM_SIZE}; this.minSize = min; this.maxSize = max; this.aspectRatio = aspectRatio; this.update(); }, update: function() { if(!this.bounds) { return; } var upL = this.bounds.upperLeft(); if(this.bounds.width() < this.minSize.width) { this.bounds.set(upL.x, upL.y, upL.x + this.minSize.width, upL.y + this.bounds.height());}; if(this.bounds.height() < this.minSize.height) { this.bounds.set(upL.x, upL.y, upL.x + this.bounds.width(), upL.y + this.minSize.height);}; if(this.bounds.width() > this.maxSize.width) { this.bounds.set(upL.x, upL.y, upL.x + this.maxSize.width, upL.y + this.bounds.height());}; if(this.bounds.height() > this.maxSize.height) { this.bounds.set(upL.x, upL.y, upL.x + this.bounds.width(), upL.y + this.maxSize.height);}; var a = this.canvasNode.getScreenCTM(); upL.x *= a.a; upL.y *= a.d; var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom === 1) { upL.y = upL.y - jQuery("#canvasSection").offset().top + a.f; upL.x = upL.x - jQuery("#canvasSection").offset().left + a.e; } else { var canvasOffsetLeft = jQuery("#canvasSection").offset().left; var canvasScrollLeft = jQuery("#canvasSection").scrollLeft(); var canvasScrollTop = jQuery("#canvasSection").scrollTop(); var offset = a.e - (canvasOffsetLeft * additionalIEZoom); var additionaloffset = 0; if (offset > 10) { additionaloffset = (offset / additionalIEZoom) - offset; } upL.y = upL.y - (jQuery("#canvasSection").offset().top * additionalIEZoom) + ((canvasScrollTop * additionalIEZoom) - canvasScrollTop) + a.f; upL.x = upL.x - (canvasOffsetLeft * additionalIEZoom) + additionaloffset + ((canvasScrollLeft * additionalIEZoom) - canvasScrollLeft) + a.e; } if(this.orientation==="northwest") { upL.x -= 13; upL.y -= 13; } else { // defaults to southeast upL.x += (a.a * this.bounds.width()) + 3 ; upL.y += (a.d * this.bounds.height()) + 3; } this.position = upL; this.node.style.left = this.position.x + "px"; this.node.style.top = this.position.y + "px"; } }); /** * Implements a Command to move shapes * */ ORYX.Core.Command.Move = ORYX.Core.Command.extend({ construct: function(moveShapes, offset, parent, selectedShapes, plugin){ this.moveShapes = moveShapes; this.selectedShapes = selectedShapes; this.offset = offset; this.plugin = plugin; // Defines the old/new parents for the particular shape this.newParents = moveShapes.collect(function(t){ return parent || t.parent }); this.oldParents = moveShapes.collect(function(shape){ return shape.parent }); this.dockedNodes= moveShapes.findAll(function(shape){ return shape instanceof ORYX.Core.Node && shape.dockers.length == 1}).collect(function(shape){ return {docker:shape.dockers[0], dockedShape:shape.dockers[0].getDockedShape(), refPoint:shape.dockers[0].referencePoint} }); }, execute: function(){ this.dockAllShapes() // Moves by the offset this.move( this.offset); // Addes to the new parents this.addShapeToParent( this.newParents ); // Set the selection to the current selection this.selectCurrentShapes(); this.plugin.facade.getCanvas().update(); this.plugin.facade.updateSelection(); }, rollback: function(){ // Moves by the inverted offset var offset = { x:-this.offset.x, y:-this.offset.y }; this.move( offset ); // Addes to the old parents this.addShapeToParent( this.oldParents ); this.dockAllShapes(true) // Set the selection to the current selection this.selectCurrentShapes(); this.plugin.facade.getCanvas().update(); this.plugin.facade.updateSelection(); }, move:function(offset, doLayout){ // Move all Shapes by these offset for(var i=0; i i || this.moveShapes.indexOf(r.dockers.last().getDockedShape()) > i}.bind(this)) for (var j = 0; j < allSameEdges.length; j++) { for (var k = 1; k < allSameEdges[j].dockers.length-1; k++) { var docker = allSameEdges[j].dockers[k]; if (!docker.getDockedShape() && !this.moveShapes.include(docker)) { docker.bounds.moveBy(offset); } } } /*var i=-1; var nodes = value.getChildShapes(true); var allEdges = []; while(++i= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { eventCoordinates.x = eventCoordinates.x / additionalIEZoom; eventCoordinates.y = eventCoordinates.y / additionalIEZoom; } // Undocked the Docker from current Shape if ((!this.isStartDocker && !this.isEndDocker) || !this.docker.isDocked()) { this.docker.setDockedShape(undefined); // Set the Docker to the center of the mouse pointer this.docker.bounds.centerMoveTo(eventCoordinates); this.dockerParent._update(); } else { this.outerDockerNotMoved = true; } var option = {movedCallback: this.dockerMoved.bind(this), upCallback: this.dockerMovedFinished.bind(this)}; this.startEventPos = eventCoordinates; // Enable the Docker for Drag'n'Drop, give the mouseMove and mouseUp-Callback with ORYX.Core.UIEnableDrag(event, uiObj, option); } }, /** * Docker MouseMove Handler * */ dockerMoved: function(event) { this.outerDockerNotMoved = false; var snapToMagnet = undefined; if (this.docker.parent) { if (this.isStartDocker || this.isEndDocker) { // Get the EventPosition and all Shapes on these point var evPos = this.facade.eventCoordinates(event); var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom !== 1) { evPos.x = evPos.x / additionalIEZoom; evPos.y = evPos.y / additionalIEZoom; } if(this.docker.isDocked()) { /* Only consider start/end dockers if they are moved over a treshold */ var distanceDockerPointer = ORYX.Core.Math.getDistancePointToPoint(evPos, this.initialDockerPosition); if(distanceDockerPointer < this.undockTreshold) { this.outerDockerNotMoved = true; return; } /* Undock the docker */ this.docker.setDockedShape(undefined); // Set the Docker to the center of the mouse pointer //this.docker.bounds.centerMoveTo(evPos); this.dockerParent._update(); } var shapes = this.facade.getCanvas().getAbstractShapesAtPosition(evPos); // Get the top level Shape on these, but not the same as Dockers parent var uiObj = shapes.pop(); if (this.docker.parent === uiObj) { uiObj = shapes.pop(); } // If the top level Shape the same as the last Shape, then return if (this.lastUIObj == uiObj) { //return; // If the top level uiObj instance of Shape and this isn't the parent of the docker } else if (uiObj instanceof ORYX.Core.Shape) { // Ask by the StencilSet if the source, the edge and the target valid connections. if (this.docker.parent instanceof ORYX.Core.Edge) { var highestParent = this.getHighestParentBeforeCanvas(uiObj); /* Ensure that the shape to dock is not a child shape * of the same edge. */ if (highestParent instanceof ORYX.Core.Edge && this.docker.parent === highestParent) { this.isValid = false; this.dockerParent._update(); return; } this.isValid = false; var curObj = uiObj, orgObj = uiObj; while (!this.isValid && curObj && !(curObj instanceof ORYX.Core.Canvas)) { uiObj = curObj; this.isValid = this.facade.getRules().canConnect({ sourceShape: this.dockerSource ? // Is there a docked source this.dockerSource : // than set this (this.isStartDocker ? // if not and if the Docker is the start docker uiObj : // take the last uiObj undefined), // if not set it to undefined; edgeShape: this.docker.parent, targetShape: this.dockerTarget ? // Is there a docked target this.dockerTarget : // than set this (this.isEndDocker ? // if not and if the Docker is not the start docker uiObj : // take the last uiObj undefined) // if not set it to undefined; }); curObj = curObj.parent; } // Reset uiObj if no // valid parent is found if (!this.isValid){ uiObj = orgObj; } } else { this.isValid = this.facade.getRules().canConnect({ sourceShape: uiObj, edgeShape: this.docker.parent, targetShape: this.docker.parent }); } // If there is a lastUIObj, hide the magnets if (this.lastUIObj) { this.hideMagnets(this.lastUIObj); } // If there is a valid connection, show the magnets if (this.isValid) { this.showMagnets(uiObj); } // Set the Highlight Rectangle by these value this.showHighlight(uiObj, this.isValid ? this.VALIDCOLOR : this.INVALIDCOLOR); // Buffer the current Shape this.lastUIObj = uiObj; } else { // If there is no top level Shape, then hide the highligting of the last Shape this.hideHighlight(); this.lastUIObj ? this.hideMagnets(this.lastUIObj) : null; this.lastUIObj = undefined; this.isValid = false; } // Snap to the nearest Magnet if (this.lastUIObj && this.isValid && !(event.shiftKey || event.ctrlKey)) { snapToMagnet = this.lastUIObj.magnets.find(function(magnet){ return magnet.absoluteBounds().isIncluded(evPos); }); if (snapToMagnet) { this.docker.bounds.centerMoveTo(snapToMagnet.absoluteCenterXY()); //this.docker.update() } } } } // Snap to on the nearest Docker of the same parent if(!(event.shiftKey || event.ctrlKey) && !snapToMagnet) { var minOffset = ORYX.CONFIG.DOCKER_SNAP_OFFSET; var nearestX = minOffset + 1; var nearestY = minOffset + 1; var dockerCenter = this.docker.bounds.center(); if (this.docker.parent) { this.docker.parent.dockers.each((function(docker){ if (this.docker == docker) { return }; var center = docker.referencePoint ? docker.getAbsoluteReferencePoint() : docker.bounds.center(); nearestX = Math.abs(nearestX) > Math.abs(center.x - dockerCenter.x) ? center.x - dockerCenter.x : nearestX; nearestY = Math.abs(nearestY) > Math.abs(center.y - dockerCenter.y) ? center.y - dockerCenter.y : nearestY; }).bind(this)); if (Math.abs(nearestX) < minOffset || Math.abs(nearestY) < minOffset) { nearestX = Math.abs(nearestX) < minOffset ? nearestX : 0; nearestY = Math.abs(nearestY) < minOffset ? nearestY : 0; this.docker.bounds.centerMoveTo(dockerCenter.x + nearestX, dockerCenter.y + nearestY); //this.docker.update() } else { var previous = this.docker.parent.dockers[Math.max(this.docker.parent.dockers.indexOf(this.docker)-1, 0)]; var next = this.docker.parent.dockers[Math.min(this.docker.parent.dockers.indexOf(this.docker)+1, this.docker.parent.dockers.length-1)]; if (previous && next && previous !== this.docker && next !== this.docker){ var cp = previous.bounds.center(); var cn = next.bounds.center(); var cd = this.docker.bounds.center(); // Checks if the point is on the line between previous and next if (ORYX.Core.Math.isPointInLine(cd.x, cd.y, cp.x, cp.y, cn.x, cn.y, 10)) { // Get the rise var raise = (Number(cn.y)-Number(cp.y))/(Number(cn.x)-Number(cp.x)); // Calculate the intersection point var intersecX = ((cp.y-(cp.x*raise))-(cd.y-(cd.x*(-Math.pow(raise,-1)))))/((-Math.pow(raise,-1))-raise); var intersecY = (cp.y-(cp.x*raise))+(raise*intersecX); if(isNaN(intersecX) || isNaN(intersecY)) {return;} this.docker.bounds.centerMoveTo(intersecX, intersecY); } } } } } //this.facade.getCanvas().update(); this.dockerParent._update(); }, /** * Docker MouseUp Handler * */ dockerMovedFinished: function(event) { /* Reset to buffered shape selection */ this.facade.setSelection(this.shapeSelection); // Hide the border this.hideHighlight(); // Show all Labels from Docker this.dockerParent.getLabels().each(function(label){ label.show(); //label.update(); }); // If there is a last top level Shape if(this.lastUIObj && (this.isStartDocker || this.isEndDocker)){ // If there is a valid connection, the set as a docked Shape to them if(this.isValid) { this.docker.setDockedShape(this.lastUIObj); this.facade.raiseEvent({ type :ORYX.CONFIG.EVENT_DRAGDOCKER_DOCKED, docker : this.docker, parent : this.docker.parent, target : this.lastUIObj }); } this.hideMagnets(this.lastUIObj); } // Hide the Docker this.docker.hide(); if(this.outerDockerNotMoved) { // Get the EventPosition and all Shapes on these point var evPos = this.facade.eventCoordinates(event); var shapes = this.facade.getCanvas().getAbstractShapesAtPosition(evPos); /* Remove edges from selection */ var shapeWithoutEdges = shapes.findAll(function(node) { return node instanceof ORYX.Core.Node; }); shapes = shapeWithoutEdges.length ? shapeWithoutEdges : shapes; this.facade.setSelection(shapes); } else { //Command-Pattern for dragging one docker var dragDockerCommand = ORYX.Core.Command.extend({ construct: function(docker, newPos, oldPos, newDockedShape, oldDockedShape, facade){ this.docker = docker; this.index = docker.parent.dockers.indexOf(docker); this.newPosition = newPos; this.newDockedShape = newDockedShape; this.oldPosition = oldPos; this.oldDockedShape = oldDockedShape; this.facade = facade; this.index = docker.parent.dockers.indexOf(docker); this.shape = docker.parent; }, execute: function(){ if (!this.docker.parent){ this.docker = this.shape.dockers[this.index]; } this.dock( this.newDockedShape, this.newPosition ); this.removedDockers = this.shape.removeUnusedDockers(); this.facade.updateSelection(); }, rollback: function(){ this.dock( this.oldDockedShape, this.oldPosition ); (this.removedDockers||$H({})).each(function(d){ this.shape.add(d.value, Number(d.key)); this.shape._update(true); }.bind(this)); this.facade.updateSelection(); }, dock:function( toDockShape, pos ){ // Set the Docker to the new Shape this.docker.setDockedShape( undefined ); if( toDockShape ){ this.docker.setDockedShape( toDockShape ); this.docker.setReferencePoint( pos ); //this.docker.update(); //this.docker.parent._update(); } else { this.docker.bounds.centerMoveTo( pos ); } this.facade.getCanvas().update(); } }); if (this.docker.parent){ // Instanziate the dockCommand var command = new dragDockerCommand(this.docker, this.docker.getDockedShape() ? this.docker.referencePoint : this.docker.bounds.center(), this._commandArg.refPoint, this.docker.getDockedShape(), this._commandArg.dockedShape, this.facade); this.facade.executeCommands( [command] ); } } // Update all Shapes //this.facade.updateSelection(); // Undefined all variables this.docker = undefined; this.dockerParent = undefined; this.dockerSource = undefined; this.dockerTarget = undefined; this.lastUIObj = undefined; }, /** * Hide the highlighting */ hideHighlight: function() { this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:'validDockedShape'}); }, /** * Show the highlighting * */ showHighlight: function(uiObj, color) { this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId:'validDockedShape', elements: [uiObj], color: color }); }, showMagnets: function(uiObj){ uiObj.magnets.each(function(magnet) { magnet.show(); }); }, hideMagnets: function(uiObj){ uiObj.magnets.each(function(magnet) { magnet.hide(); }); }, getHighestParentBeforeCanvas: function(shape) { if(!(shape instanceof ORYX.Core.Shape)) {return undefined;} var parent = shape.parent; while(parent && !(parent.parent instanceof ORYX.Core.Canvas)) { parent = parent.parent; } return parent; } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.AddDocker = Clazz.extend({ /** * Constructor * @param {Object} Facade: The Facade of the Editor */ construct: function(facade) { this.facade = facade; this.enableAdd = false; this.enableRemove = false; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_MOUSEDOWN, this.handleMouseDown.bind(this)); }, setEnableAdd: function(enable){ this.enableAdd = enable; if(this.enableAdd) { jQuery("#add-bendpoint-button").addClass('pressed'); } else { jQuery("#add-bendpoint-button").removeClass('pressed'); jQuery("#add-bendpoint-button").blur(); } }, setEnableRemove: function(enable){ this.enableRemove = enable; if(this.enableRemove) { jQuery("#remove-bendpoint-button").addClass('pressed'); } else { jQuery("#remove-bendpoint-button").removeClass('pressed'); jQuery("#remove-bendpoint-button").blur(); } }, enabledAdd: function(enable){ return this.enableAdd; }, enabledRemove: function(){ return this.enableRemove; }, /** * MouseDown Handler * */ handleMouseDown: function(event, uiObj) { if (this.enabledAdd() && uiObj instanceof ORYX.Core.Edge) { this.newDockerCommand({ edge: uiObj, position: this.facade.eventCoordinates(event) }); this.setEnableAdd(false); } else if (this.enabledRemove() && uiObj instanceof ORYX.Core.Controls.Docker && uiObj.parent instanceof ORYX.Core.Edge) { this.newDockerCommand({ edge: uiObj.parent, docker: uiObj }); this.setEnableRemove(false); } document.body.style.cursor = 'default'; }, // Options: edge (required), position (required if add), docker (required if delete) newDockerCommand: function(options){ if(!options.edge) return; var commandClass = ORYX.Core.Command.extend({ construct: function(addEnabled, deleteEnabled, edge, docker, pos, facade){ this.addEnabled = addEnabled; this.deleteEnabled = deleteEnabled; this.edge = edge; this.docker = docker; this.pos = pos; this.facade = facade; }, execute: function(){ if (this.addEnabled) { if (!this.docker){ this.docker = this.edge.addDocker(this.pos); this.index = this.edge.dockers.indexOf(this.docker); } else { this.edge.add(this.docker, this.index); } } else if (this.deleteEnabled) { this.index = this.edge.dockers.indexOf(this.docker); this.pos = this.docker.bounds.center(); this.edge.removeDocker(this.docker); } this.edge.getLabels().invoke("show"); this.facade.getCanvas().update(); this.facade.updateSelection(); }, rollback: function(){ if (this.addEnabled) { if (this.docker instanceof ORYX.Core.Controls.Docker) { this.edge.removeDocker(this.docker); } } else if (this.deleteEnabled) { this.edge.add(this.docker, this.index); } this.edge.getLabels().invoke("show"); this.facade.getCanvas().update(); this.facade.updateSelection(); } }) var command = new commandClass(this.enabledAdd(), this.enabledRemove(), options.edge, options.docker, options.position, this.facade); this.facade.executeCommands([command]); } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.SelectionFrame = Clazz.extend({ construct: function(facade) { this.facade = facade; // Register on MouseEvents this.facade.registerOnEvent(ORYX.CONFIG.EVENT_MOUSEDOWN, this.handleMouseDown.bind(this)); document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEUP, this.handleMouseUp.bind(this), true); // Some initiale variables this.position = {x:0, y:0}; this.size = {width:0, height:0}; this.offsetPosition = {x: 0, y: 0}; // (Un)Register Mouse-Move Event this.moveCallback = undefined; this.offsetScroll = {x:0,y:0}; // HTML-Node of Selection-Frame this.node = ORYX.Editor.graft("http://www.w3.org/1999/xhtml", $('canvasSection'), ['div', {'class':'Oryx_SelectionFrame'}]); this.hide(); }, handleMouseDown: function(event, uiObj) { // If there is the Canvas if( uiObj instanceof ORYX.Core.Canvas ) { // Calculate the Offset var scrollNode = uiObj.rootNode.parentNode.parentNode; var a = this.facade.getCanvas().node.getScreenCTM(); this.offsetPosition = { x: a.e, y: a.f }; // Set the new Position this.setPos({ x: Event.pointerX(event) - jQuery("#canvasSection").offset().left, y: Event.pointerY(event) - jQuery("#canvasSection").offset().top + 5 }); // Reset the size this.resize({width:0, height:0}); this.moveCallback = this.handleMouseMove.bind(this); // Register Mouse-Move Event document.documentElement.addEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.moveCallback, false); this.offsetScroll = {x:scrollNode.scrollLeft,y:scrollNode.scrollTop}; // Show the Frame this.show(); } Event.stop(event); }, handleMouseUp: function(event) { // If there was an MouseMoving if(this.moveCallback) { // Hide the Frame this.hide(); // Unregister Mouse-Move document.documentElement.removeEventListener(ORYX.CONFIG.EVENT_MOUSEMOVE, this.moveCallback, false); this.moveCallback = undefined; var corrSVG = this.facade.getCanvas().node.getScreenCTM(); // Calculate the positions of the Frame var a = { x: this.size.width > 0 ? this.position.x : this.position.x + this.size.width, y: this.size.height > 0 ? this.position.y : this.position.y + this.size.height }; var b = { x: a.x + Math.abs(this.size.width), y: a.y + Math.abs(this.size.height) }; var additionalIEZoom = 1; if (!isNaN(screen.logicalXDPI) && !isNaN(screen.systemXDPI)) { var ua = navigator.userAgent; if (ua.indexOf('MSIE') >= 0) { //IE 10 and below var zoom = Math.round((screen.deviceXDPI / screen.logicalXDPI) * 100); if (zoom !== 100) { additionalIEZoom = zoom / 100 } } } if (additionalIEZoom === 1) { a.x = a.x - (corrSVG.e - jQuery("#canvasSection").offset().left); a.y = a.y - (corrSVG.f - jQuery("#canvasSection").offset().top); b.x = b.x - (corrSVG.e - jQuery("#canvasSection").offset().left); b.y = b.y - (corrSVG.f - jQuery("#canvasSection").offset().top); } else { var canvasOffsetLeft = jQuery("#canvasSection").offset().left; var canvasScrollLeft = jQuery("#canvasSection").scrollLeft(); var canvasScrollTop = jQuery("#canvasSection").scrollTop(); var offset = a.e - (canvasOffsetLeft * additionalIEZoom); var additionaloffset = 0; if (offset > 10) { additionaloffset = (offset / additionalIEZoom) - offset; } a.x = a.x - (corrSVG.e - (canvasOffsetLeft * additionalIEZoom) + additionaloffset + ((canvasScrollLeft * additionalIEZoom) - canvasScrollLeft)); a.y = a.y - (corrSVG.f - (jQuery("#canvasSection").offset().top * additionalIEZoom) + ((canvasScrollTop * additionalIEZoom) - canvasScrollTop)); b.x = b.x - (corrSVG.e - (canvasOffsetLeft * additionalIEZoom) + additionaloffset + ((canvasScrollLeft * additionalIEZoom) - canvasScrollLeft)); b.y = b.y - (corrSVG.f - (jQuery("#canvasSection").offset().top * additionalIEZoom) + ((canvasScrollTop * additionalIEZoom) - canvasScrollTop)); } // Fit to SVG-Coordinates a.x /= corrSVG.a; a.y /= corrSVG.d; b.x /= corrSVG.a; b.y /= corrSVG.d; // Calculate the elements from the childs of the canvas var elements = this.facade.getCanvas().getChildShapes(true).findAll(function(value) { var absBounds = value.absoluteBounds(); var bA = absBounds.upperLeft(); var bB = absBounds.lowerRight(); if(bA.x > a.x && bA.y > a.y && bB.x < b.x && bB.y < b.y) return true; return false; }); // Set the selection this.facade.setSelection(elements); } }, handleMouseMove: function(event) { // Calculate the size var size = { width : Event.pointerX(event) - this.position.x - jQuery("#canvasSection").offset().left, height : Event.pointerY(event) - this.position.y - jQuery("#canvasSection").offset().top + 5 }; var scrollNode = this.facade.getCanvas().rootNode.parentNode.parentNode; size.width -= this.offsetScroll.x - scrollNode.scrollLeft; size.height -= this.offsetScroll.y - scrollNode.scrollTop; // Set the size this.resize(size); Event.stop(event); }, hide: function() { this.node.style.display = "none"; }, show: function() { this.node.style.display = ""; }, setPos: function(pos) { // Set the Position this.node.style.top = pos.y + "px"; this.node.style.left = pos.x + "px"; this.position = pos; }, resize: function(size) { // Calculate the negative offset this.setPos(this.position); this.size = Object.clone(size); if(size.width < 0) { this.node.style.left = (this.position.x + size.width) + "px"; size.width = - size.width; } if(size.height < 0) { this.node.style.top = (this.position.y + size.height) + "px"; size.height = - size.height; } // Set the size this.node.style.width = size.width + "px"; this.node.style.height = size.height + "px"; } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.ShapeHighlighting = Clazz.extend({ construct: function(facade) { this.parentNode = facade.getCanvas().getSvgContainer(); // The parent Node this.node = ORYX.Editor.graft("http://www.w3.org/2000/svg", this.parentNode, ['g']); this.highlightNodes = {}; facade.registerOnEvent(ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, this.setHighlight.bind(this)); facade.registerOnEvent(ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, this.hideHighlight.bind(this)); }, setHighlight: function(options) { if(options && options.highlightId){ var node = this.highlightNodes[options.highlightId]; if(!node){ node= ORYX.Editor.graft("http://www.w3.org/2000/svg", this.node, ['path', { "stroke-width": 2.0, "fill":"none" }]); this.highlightNodes[options.highlightId] = node; } if(options.elements && options.elements.length > 0) { this.setAttributesByStyle( node, options ); this.show(node); } else { this.hide(node); } } }, hideHighlight: function(options) { if(options && options.highlightId && this.highlightNodes[options.highlightId]){ this.hide(this.highlightNodes[options.highlightId]); } }, hide: function(node) { node.setAttributeNS(null, 'display', 'none'); }, show: function(node) { node.setAttributeNS(null, 'display', ''); }, setAttributesByStyle: function( node, options ){ // If the style say, that it should look like a rectangle if( options.style && options.style == ORYX.CONFIG.SELECTION_HIGHLIGHT_STYLE_RECTANGLE ){ // Set like this var bo = options.elements[0].absoluteBounds(); var strWidth = options.strokewidth ? options.strokewidth : ORYX.CONFIG.BORDER_OFFSET node.setAttributeNS(null, "d", this.getPathRectangle( bo.a, bo.b , strWidth ) ); node.setAttributeNS(null, "stroke", options.color ? options.color : ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR); node.setAttributeNS(null, "stroke-opacity", options.opacity ? options.opacity : 0.2); node.setAttributeNS(null, "stroke-width", strWidth); } else if(options.elements.length == 1 && options.elements[0] instanceof ORYX.Core.Edge && options.highlightId != "selection") { /* Highlight containment of edge's childs */ var path = this.getPathEdge(options.elements[0].dockers); if (path && path.length > 0) { node.setAttributeNS(null, "d", path); } node.setAttributeNS(null, "stroke", options.color ? options.color : ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR); node.setAttributeNS(null, "stroke-opacity", options.opacity ? options.opacity : 0.2); node.setAttributeNS(null, "stroke-width", ORYX.CONFIG.OFFSET_EDGE_BOUNDS); }else { // If not, set just the corners var path = this.getPathByElements(options.elements); if (path && path.length > 0) { node.setAttributeNS(null, "d", path); } node.setAttributeNS(null, "stroke", options.color ? options.color : ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR); node.setAttributeNS(null, "stroke-opacity", options.opacity ? options.opacity : 1.0); node.setAttributeNS(null, "stroke-width", options.strokewidth ? options.strokewidth : 2.0); } }, getPathByElements: function(elements){ if(!elements || elements.length <= 0) {return undefined} // Get the padding and the size var padding = ORYX.CONFIG.SELECTED_AREA_PADDING; var path = "" // Get thru all Elements elements.each((function(element) { if(!element) {return} // Get the absolute Bounds and the two Points var bounds = element.absoluteBounds(); bounds.widen(padding) var a = bounds.upperLeft(); var b = bounds.lowerRight(); path = path + this.getPath(a ,b); }).bind(this)); return path; }, getPath: function(a, b){ return this.getPathCorners(a, b); }, getPathCorners: function(a, b){ var size = ORYX.CONFIG.SELECTION_HIGHLIGHT_SIZE; var path = "" // Set: Upper left path = path + "M" + a.x + " " + (a.y + size) + " l0 -" + size + " l" + size + " 0 "; // Set: Lower left path = path + "M" + a.x + " " + (b.y - size) + " l0 " + size + " l" + size + " 0 "; // Set: Lower right path = path + "M" + b.x + " " + (b.y - size) + " l0 " + size + " l-" + size + " 0 "; // Set: Upper right path = path + "M" + b.x + " " + (a.y + size) + " l0 -" + size + " l-" + size + " 0 "; return path; }, getPathRectangle: function(a, b, strokeWidth){ var size = ORYX.CONFIG.SELECTION_HIGHLIGHT_SIZE; var path = "" var offset = strokeWidth / 2.0; // Set: Upper left path = path + "M" + (a.x + offset) + " " + (a.y); path = path + " L" + (a.x + offset) + " " + (b.y - offset); path = path + " L" + (b.x - offset) + " " + (b.y - offset); path = path + " L" + (b.x - offset) + " " + (a.y + offset); path = path + " L" + (a.x + offset) + " " + (a.y + offset); return path; }, getPathEdge: function(edgeDockers) { var length = edgeDockers.length; var path = "M" + edgeDockers[0].bounds.center().x + " " + edgeDockers[0].bounds.center().y; for(i=1; i 1) { this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId:'selection', elements: event.elements.without(event.subSelection), color: ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR, opacity: !event.subSelection ? this.opacityFull : this.opacityLow }); if(event.subSelection){ this.facade.raiseEvent({ type: ORYX.CONFIG.EVENT_HIGHLIGHT_SHOW, highlightId:'subselection', elements: [event.subSelection], color: ORYX.CONFIG.SELECTION_HIGHLIGHT_COLOR, opacity: this.opacityFull }); } else { this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:'subselection'}); } } else { this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:'selection'}); this.facade.raiseEvent({type:ORYX.CONFIG.EVENT_HIGHLIGHT_HIDE, highlightId:'subselection'}); } } });/* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.Overlay = Clazz.extend({ facade: undefined, styleNode: undefined, construct: function(facade){ this.facade = facade; this.changes = []; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_OVERLAY_SHOW, this.show.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_OVERLAY_HIDE, this.hide.bind(this)); this.styleNode = document.createElement('style') this.styleNode.setAttributeNS(null, 'type', 'text/css') document.getElementsByTagName('head')[0].appendChild( this.styleNode ) }, /** * Show the overlay for specific nodes * @param {Object} options * * String options.id - MUST - Define the id of the overlay (is needed for the hiding of this overlay) * ORYX.Core.Shape[] options.shapes - MUST - Define the Shapes for the changes * attr-name:value options.changes - Defines all the changes which should be shown * * */ show: function( options ){ // Checks if all arguments are available if( !options || !options.shapes || !options.shapes instanceof Array || !options.id || !options.id instanceof String || options.id.length == 0) { return } //if( this.changes[options.id]){ // this.hide( options ) //} // Checked if attributes are setted if( options.attributes ){ // FOR EACH - Shape options.shapes.each(function(el){ // Checks if the node is a Shape if( !el instanceof ORYX.Core.Shape){ return } this.setAttributes( el.node , options.attributes ) }.bind(this)) } var isSVG = true try { isSVG = options.node && options.node instanceof SVGElement; } catch(e){} // Checks if node is setted and if this is an SVGElement if ( options.node && isSVG) { options["_temps"] = [] // FOR EACH - Node options.shapes.each(function(el, index){ // Checks if the node is a Shape if( !el instanceof ORYX.Core.Shape){ return } var _temp = {} _temp.svg = options.dontCloneNode ? options.node : options.node.cloneNode( true ); // Add the svg node to the ORYX-Shape el.node.firstChild.appendChild( _temp.svg ) // If if (el instanceof ORYX.Core.Edge && !options.nodePosition) { options['nodePosition'] = "START" } // If the node position is setted, it has to be transformed if( options.nodePosition ){ var b = el.bounds; var p = options.nodePosition.toUpperCase(); // Check the values of START and END if( el instanceof ORYX.Core.Node && p == "START"){ p = "NW"; } else if(el instanceof ORYX.Core.Node && p == "END"){ p = "SE"; } else if(el instanceof ORYX.Core.Edge && p == "START"){ b = el.getDockers().first().bounds } else if(el instanceof ORYX.Core.Edge && p == "END"){ b = el.getDockers().last().bounds } // Create a callback for the changing the position // depending on the position string _temp.callback = function(){ var x = 0; var y = 0; if( p == "NW" ){ // Do Nothing } else if( p == "N" ) { x = b.width() / 2; } else if( p == "NE" ) { x = b.width(); } else if( p == "E" ) { x = b.width(); y = b.height() / 2; } else if( p == "SE" ) { x = b.width(); y = b.height(); } else if( p == "S" ) { x = b.width() / 2; y = b.height(); } else if( p == "SW" ) { y = b.height(); } else if( p == "W" ) { y = b.height() / 2; } else if( p == "START" || p == "END") { x = b.width() / 2; y = b.height() / 2; } else { return } if( el instanceof ORYX.Core.Edge){ x += b.upperLeft().x ; y += b.upperLeft().y ; } _temp.svg.setAttributeNS(null, "transform", "translate(" + x + ", " + y + ")") }.bind(this) _temp.element = el; _temp.callback(); b.registerCallback( _temp.callback ); } options._temps.push( _temp ) }.bind(this)) } // Store the changes if( !this.changes[options.id] ){ this.changes[options.id] = []; } this.changes[options.id].push( options ); }, /** * Hide the overlay with the spefic id * @param {Object} options */ hide: function( options ){ // Checks if all arguments are available if( !options || !options.id || !options.id instanceof String || options.id.length == 0 || !this.changes[options.id]) { return } // Delete all added attributes // FOR EACH - Shape this.changes[options.id].each(function(option){ option.shapes.each(function(el, index){ // Checks if the node is a Shape if( !el instanceof ORYX.Core.Shape){ return } this.deleteAttributes( el.node ) }.bind(this)); if( option._temps ){ option._temps.each(function(tmp){ // Delete the added Node, if there is one if( tmp.svg && tmp.svg.parentNode ){ tmp.svg.parentNode.removeChild( tmp.svg ) } // If if( tmp.callback && tmp.element){ // It has to be unregistered from the edge tmp.element.bounds.unregisterCallback( tmp.callback ) } }.bind(this)) } }.bind(this)); this.changes[options.id] = null; }, /** * Set the given css attributes to that node * @param {HTMLElement} node * @param {Object} attributes */ setAttributes: function( node, attributes ) { // Get all the childs from ME var childs = this.getAllChilds( node.firstChild.firstChild ) var ids = [] // Add all Attributes which have relation to another node in this document and concate the pure id out of it // This is for example important for the markers of a edge childs.each(function(e){ ids.push( $A(e.attributes).findAll(function(attr){ return attr.nodeValue.startsWith('url(#')}) )}) ids = ids.flatten().compact(); ids = ids.collect(function(s){return s.nodeValue}).uniq(); ids = ids.collect(function(s){return s.slice(5, s.length-1)}) // Add the node ID to the id ids.unshift( node.id + ' .me') var attr = $H(attributes); var attrValue = attr.toJSON().gsub(',', ';').gsub('"', ''); var attrMarkerValue = attributes.stroke ? attrValue.slice(0, attrValue.length-1) + "; fill:" + attributes.stroke + ";}" : attrValue; var attrTextValue; if( attributes.fill ){ var copyAttr = Object.clone(attributes); copyAttr.fill = "black"; attrTextValue = $H(copyAttr).toJSON().gsub(',', ';').gsub('"', ''); } // Create the CSS-Tags Style out of the ids and the attributes csstags = ids.collect(function(s, i){return "#" + s + " * " + (!i? attrValue : attrMarkerValue) + "" + (attrTextValue ? " #" + s + " text * " + attrTextValue : "") }) // Join all the tags var s = csstags.join(" ") + "\n" // And add to the end of the style tag this.styleNode.appendChild(document.createTextNode(s)); }, /** * Deletes all attributes which are * added in a special style sheet for that node * @param {HTMLElement} node */ deleteAttributes: function( node ) { // Get all children which contains the node id var delEl = $A(this.styleNode.childNodes) .findAll(function(e){ return e.textContent.include( '#' + node.id ) }); // Remove all of them delEl.each(function(el){ el.parentNode.removeChild(el); }); }, getAllChilds: function( node ){ var childs = $A(node.childNodes) $A(node.childNodes).each(function( e ){ childs.push( this.getAllChilds( e ) ) }.bind(this)) return childs.flatten(); } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if (!ORYX.Plugins) ORYX.Plugins = new Object(); ORYX.Plugins.KeysMove = ORYX.Plugins.AbstractPlugin.extend({ facade: undefined, construct: function(facade){ this.facade = facade; this.copyElements = []; //this.facade.registerOnEvent(ORYX.CONFIG.EVENT_KEYDOWN, this.keyHandler.bind(this)); // SELECT ALL this.facade.offer({ keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: 65, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.selectAll.bind(this) }); // MOVE LEFT SMALL this.facade.offer({ keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: ORYX.CONFIG.KEY_CODE_LEFT, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_LEFT, false) }); // MOVE LEFT this.facade.offer({ keyCodes: [{ keyCode: ORYX.CONFIG.KEY_CODE_LEFT, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_LEFT, true) }); // MOVE RIGHT SMALL this.facade.offer({ keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: ORYX.CONFIG.KEY_CODE_RIGHT, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_RIGHT, false) }); // MOVE RIGHT this.facade.offer({ keyCodes: [{ keyCode: ORYX.CONFIG.KEY_CODE_RIGHT, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_RIGHT, true) }); // MOVE UP SMALL this.facade.offer({ keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: ORYX.CONFIG.KEY_CODE_UP, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_UP, false) }); // MOVE UP this.facade.offer({ keyCodes: [{ keyCode: ORYX.CONFIG.KEY_CODE_UP, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_UP, true) }); // MOVE DOWN SMALL this.facade.offer({ keyCodes: [{ metaKeys: [ORYX.CONFIG.META_KEY_META_CTRL], keyCode: ORYX.CONFIG.KEY_CODE_DOWN, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_DOWN, false) }); // MOVE DOWN this.facade.offer({ keyCodes: [{ keyCode: ORYX.CONFIG.KEY_CODE_DOWN, keyAction: ORYX.CONFIG.KEY_ACTION_DOWN } ], functionality: this.move.bind(this, ORYX.CONFIG.KEY_CODE_DOWN, true) }); }, /** * Select all shapes in the editor * */ selectAll: function(e){ Event.stop(e.event); this.facade.setSelection(this.facade.getCanvas().getChildShapes(true)) }, move: function(key, far, e) { Event.stop(e.event); // calculate the distance to move the objects and get the selection. var distance = far? 20 : 5; var selection = this.facade.getSelection(); var currentSelection = this.facade.getSelection(); var p = {x: 0, y: 0}; // switch on the key pressed and populate the point to move by. switch(key) { case ORYX.CONFIG.KEY_CODE_LEFT: p.x = -1*distance; break; case ORYX.CONFIG.KEY_CODE_RIGHT: p.x = distance; break; case ORYX.CONFIG.KEY_CODE_UP: p.y = -1*distance; break; case ORYX.CONFIG.KEY_CODE_DOWN: p.y = distance; break; } // move each shape in the selection by the point calculated and update it. selection = selection.findAll(function(shape){ // Check if this shape is docked to an shape in the selection if(shape instanceof ORYX.Core.Node && shape.dockers.length == 1 && selection.include( shape.dockers.first().getDockedShape() )){ return false } // Check if any of the parent shape is included in the selection var s = shape.parent; do{ if(selection.include(s)){ return false } }while(s = s.parent); // Otherwise, return true return true; }); /* Edges must not be movable, if only edges are selected and at least * one of them is docked. */ var edgesMovable = true; var onlyEdgesSelected = selection.all(function(shape) { if(shape instanceof ORYX.Core.Edge) { if(shape.isDocked()) { edgesMovable = false; } return true; } return false; }); if(onlyEdgesSelected && !edgesMovable) { /* Abort moving shapes */ return; } selection = selection.map(function(shape){ if( shape instanceof ORYX.Core.Node ){ /*if( shape.dockers.length == 1 ){ return shape.dockers.first() } else {*/ return shape //} } else if( shape instanceof ORYX.Core.Edge ) { var dockers = shape.dockers; if( selection.include( shape.dockers.first().getDockedShape() ) ){ dockers = dockers.without( shape.dockers.first() ) } if( selection.include( shape.dockers.last().getDockedShape() ) ){ dockers = dockers.without( shape.dockers.last() ) } return dockers } else { return null } }).flatten().compact(); if (selection.size() > 0) { //Stop moving at canvas borders var selectionBounds = [ this.facade.getCanvas().bounds.lowerRight().x, this.facade.getCanvas().bounds.lowerRight().y, 0, 0 ]; selection.each(function(s) { selectionBounds[0] = Math.min(selectionBounds[0], s.bounds.upperLeft().x); selectionBounds[1] = Math.min(selectionBounds[1], s.bounds.upperLeft().y); selectionBounds[2] = Math.max(selectionBounds[2], s.bounds.lowerRight().x); selectionBounds[3] = Math.max(selectionBounds[3], s.bounds.lowerRight().y); }); if(selectionBounds[0]+p.x < 0) p.x = -selectionBounds[0]; if(selectionBounds[1]+p.y < 0) p.y = -selectionBounds[1]; if(selectionBounds[2]+p.x > this.facade.getCanvas().bounds.lowerRight().x) p.x = this.facade.getCanvas().bounds.lowerRight().x - selectionBounds[2]; if(selectionBounds[3]+p.y > this.facade.getCanvas().bounds.lowerRight().y) p.y = this.facade.getCanvas().bounds.lowerRight().y - selectionBounds[3]; if(p.x!=0 || p.y!=0) { // Instantiate the moveCommand var commands = [new ORYX.Core.Command.Move(selection, p, null, currentSelection, this)]; // Execute the commands this.facade.executeCommands(commands); } } }, getUndockedCommant: function(shapes){ var undockEdgeCommand = ORYX.Core.Command.extend({ construct: function(moveShapes){ this.dockers = moveShapes.collect(function(shape){ return shape instanceof ORYX.Core.Controls.Docker ? {docker:shape, dockedShape:shape.getDockedShape(), refPoint:shape.referencePoint} : undefined }).compact(); }, execute: function(){ this.dockers.each(function(el){ el.docker.setDockedShape(undefined); }) }, rollback: function(){ this.dockers.each(function(el){ el.docker.setDockedShape(el.dockedShape); el.docker.setReferencePoint(el.refPoint); //el.docker.update(); }) } }); command = new undockEdgeCommand( shapes ); command.execute(); return command; }, // /** // * The key handler for this plugin. Every action from the set of cut, copy, // * paste and delete should be accessible trough simple keyboard shortcuts. // * This method checks whether any event triggers one of those actions. // * // * @param {Object} event The keyboard event that should be analysed for // * triggering of this plugin. // */ // keyHandler: function(event){ // //TODO document what event.which is. // // ORYX.Log.debug("keysMove.js handles a keyEvent."); // // // assure we have the current event. // if (!event) // event = window.event; // // // get the currently pressed key and state of control key. // var pressedKey = event.which || event.keyCode; // var ctrlPressed = event.ctrlKey; // // // if the key is one of the arrow keys, forward to move and return. // if ([ORYX.CONFIG.KEY_CODE_LEFT, ORYX.CONFIG.KEY_CODE_RIGHT, // ORYX.CONFIG.KEY_CODE_UP, ORYX.CONFIG.KEY_CODE_DOWN].include(pressedKey)) { // // this.move(pressedKey, !ctrlPressed); // return; // } // // } }); /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) { ORYX.Plugins = {} } if(!ORYX.Plugins.Layouter) { ORYX.Plugins.Layouter = {} } new function(){ /** * Edge layouter is an implementation to layout an edge * @class ORYX.Plugins.Layouter.EdgeLayouter * @author Willi Tscheschner */ ORYX.Plugins.Layouter.EdgeLayouter = ORYX.Plugins.AbstractLayouter.extend({ /** * Layout only Edges */ layouted : [ "http://b3mn.org/stencilset/bpmn1.1#SequenceFlow", "http://b3mn.org/stencilset/bpmn1.1#MessageFlow", "http://b3mn.org/stencilset/timjpdl3#SequenceFlow", "http://b3mn.org/stencilset/jbpm4#SequenceFlow", "http://b3mn.org/stencilset/bpmn2.0#MessageFlow", "http://b3mn.org/stencilset/bpmn2.0#SequenceFlow", "http://b3mn.org/stencilset/bpmn2.0choreography#MessageFlow", "http://b3mn.org/stencilset/bpmn2.0choreography#SequenceFlow", "http://b3mn.org/stencilset/bpmn2.0conversation#ConversationLink", "http://b3mn.org/stencilset/epc#ControlFlow", "http://www.signavio.com/stencilsets/processmap#ProcessLink", "http://www.signavio.com/stencilsets/organigram#connection"], /** * Layout a set on edges * @param {Object} edges */ layout: function(edges){ edges.each(function(edge){ this.doLayout(edge) }.bind(this)) }, /** * Layout one edge * @param {Object} edge */ doLayout: function(edge){ // Get from and to node var from = edge.getIncomingNodes()[0]; var to = edge.getOutgoingNodes()[0]; // Return if one is null if (!from || !to) { return } var positions = this.getPositions(from, to, edge); if (positions.length > 0){ this.setDockers(edge, positions[0].a, positions[0].b); } }, /** * Returns a set on positions which are not containt either * in the bounds in from or to. * @param {Object} from Shape where the edge is come from * @param {Object} to Shape where the edge is leading to * @param {Object} edge Edge between from and to */ getPositions : function(from, to, edge){ // Get absolute bounds var ab = from.absoluteBounds(); var bb = to.absoluteBounds(); // Get center from and to var a = ab.center(); var b = bb.center(); var am = ab.midPoint(); var bm = bb.midPoint(); // Get first and last reference point var first = Object.clone(edge.dockers.first().referencePoint); var last = Object.clone(edge.dockers.last().referencePoint); // Get the absolute one var aFirst = edge.dockers.first().getAbsoluteReferencePoint(); var aLast = edge.dockers.last().getAbsoluteReferencePoint(); // IF ------> // or | // V // Do nothing if (Math.abs(aFirst.x-aLast.x) < 1 || Math.abs(aFirst.y-aLast.y) < 1) { return [] } // Calc center position, between a and b // depending on there weight var m = {} m.x = a.x < b.x ? (((b.x - bb.width()/2) - (a.x + ab.width()/2))/2) + (a.x + ab.width()/2): (((a.x - ab.width()/2) - (b.x + bb.width()/2))/2) + (b.x + bb.width()/2); m.y = a.y < b.y ? (((b.y - bb.height()/2) - (a.y + ab.height()/2))/2) + (a.y + ab.height()/2): (((a.y - ab.height()/2) - (b.y + bb.height()/2))/2) + (b.y + bb.height()/2); // Enlarge both bounds with 10 ab.widen(5); // Wide the from less than bb.widen(20);// the to because of the arrow from the edge var positions = []; var off = this.getOffset.bind(this); // Checks ----+ // | // V if (!ab.isIncluded(b.x, a.y)&&!bb.isIncluded(b.x, a.y)) { positions.push({ a : {x:b.x+off(last,bm,"x"),y:a.y+off(first,am,"y")}, z : this.getWeight(from, a.x < b.x ? "r" : "l", to, a.y < b.y ? "t" : "b", edge) }); } // Checks | // +---> if (!ab.isIncluded(a.x, b.y)&&!bb.isIncluded(a.x, b.y)) { positions.push({ a : {x:a.x+off(first,am,"x"),y:b.y+off(last,bm,"y")}, z : this.getWeight(from, a.y < b.y ? "b" : "t", to, a.x < b.x ? "l" : "r", edge) }); } // Checks --+ // | // +---> if (!ab.isIncluded(m.x, a.y)&&!bb.isIncluded(m.x, b.y)) { positions.push({ a : {x:m.x,y:a.y+off(first,am,"y")}, b : {x:m.x,y:b.y+off(last,bm,"y")}, z : this.getWeight(from, "r", to, "l", edge, a.x > b.x) }); } // Checks | // +---+ // | // V if (!ab.isIncluded(a.x, m.y)&&!bb.isIncluded(b.x, m.y)) { positions.push({ a : {x:a.x+off(first,am,"x"),y:m.y}, b : {x:b.x+off(last,bm,"x"),y:m.y}, z : this.getWeight(from, "b", to, "t", edge, a.y > b.y) }); } // Sort DESC of weights return positions.sort(function(a,b){ return a.z < b.z ? 1 : (a.z == b.z ? -1 : -1)}); }, /** * Returns a offset for the pos to the center of the bounds * * @param {Object} val * @param {Object} pos2 * @param {String} dir Direction x|y */ getOffset: function(pos, pos2, dir){ return pos[dir] - pos2[dir]; }, /** * Returns a value which shows the weight for this configuration * * @param {Object} from Shape which is coming from * @param {String} d1 Direction where is goes * @param {Object} to Shape which goes to * @param {String} d2 Direction where it comes to * @param {Object} edge Edge between from and to * @param {Boolean} reverse Reverse the direction (e.g. "r" -> "l") */ getWeight: function(from, d1, to, d2, edge, reverse){ d1 = (d1||"").toLowerCase(); d2 = (d2||"").toLowerCase(); if (!["t","r","b","l"].include(d1)){ d1 = "r"} if (!["t","r","b","l"].include(d2)){ d1 = "l"} // If reverse is set if (reverse) { // Reverse d1 and d2 d1 = d1=="t"?"b":(d1=="r"?"l":(d1=="b"?"t":(d1=="l"?"r":"r"))) d2 = d2=="t"?"b":(d2=="r"?"l":(d2=="b"?"t":(d2=="l"?"r":"r"))) } var weight = 0; // Get rules for from "out" and to "in" var dr1 = this.facade.getRules().getLayoutingRules(from, edge)["out"]; var dr2 = this.facade.getRules().getLayoutingRules(to, edge)["in"]; var fromWeight = dr1[d1]; var toWeight = dr2[d2]; /** * Return a true if the center 1 is in the same direction than center 2 * @param {Object} direction * @param {Object} center1 * @param {Object} center2 */ var sameDirection = function(direction, center1, center2){ switch(direction){ case "t": return Math.abs(center1.x - center2.x) < 2 && center1.y < center2.y case "r": return center1.x > center2.x && Math.abs(center1.y - center2.y) < 2 case "b": return Math.abs(center1.x - center2.x) < 2 && center1.y > center2.y case "l": return center1.x < center2.x && Math.abs(center1.y - center2.y) < 2 default: return false; } } // Check if there are same incoming edges from 'from' var sameIncomingFrom = from .getIncomingShapes() .findAll(function(a){ return a instanceof ORYX.Core.Edge}) .any(function(e){ return sameDirection(d1, e.dockers[e.dockers.length-2].bounds.center(), e.dockers.last().bounds.center()); }); // Check if there are same outgoing edges from 'to' var sameOutgoingTo = to .getOutgoingShapes() .findAll(function(a){ return a instanceof ORYX.Core.Edge}) .any(function(e){ return sameDirection(d2, e.dockers[1].bounds.center(), e.dockers.first().bounds.center()); }); // If there are equivalent edges, set 0 //fromWeight = sameIncomingFrom ? 0 : fromWeight; //toWeight = sameOutgoingTo ? 0 : toWeight; // Get the sum of "out" and the direction plus "in" and the direction return (sameIncomingFrom||sameOutgoingTo?0:fromWeight+toWeight); }, /** * Removes all current dockers from the node * (except the start and end) and adds two new * dockers, on the position a and b. * @param {Object} edge * @param {Object} a * @param {Object} b */ setDockers: function(edge, a, b){ if (!edge){ return } // Remove all dockers (implicit, // start and end dockers will not removed) edge.dockers.each(function(r){ edge.removeDocker(r); }); // For a and b (if exists), create // a new docker and set position [a, b].compact().each(function(pos){ var docker = edge.createDocker(undefined, pos); docker.bounds.centerMoveTo(pos); }); // Update all dockers from the edge edge.dockers.each(function(docker){ docker.update() }) // Update edge //edge.refresh(); edge._update(true); } }); }() /* * Copyright 2005-2014 Alfresco Software, Ltd. All rights reserved. * License rights for this program may be obtained from Alfresco Software, Ltd. * pursuant to a written agreement and any use of this program without such an * agreement is prohibited. */ /* * All code Copyright 2013 KIS Consultancy all rights reserved */ if(!ORYX.Plugins) ORYX.Plugins = new Object(); new function(){ ORYX.Plugins.BPMN2_0 = { /** * Constructor * @param {Object} Facade: The Facade of the Editor */ construct: function(facade){ this.facade = facade; this.facade.registerOnEvent(ORYX.CONFIG.EVENT_DRAGDOCKER_DOCKED, this.handleDockerDocked.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_PROPWINDOW_PROP_CHANGED, this.handlePropertyChanged.bind(this)); this.facade.registerOnEvent('layout.bpmn2_0.pool', this.handleLayoutPool.bind(this)); this.facade.registerOnEvent('layout.bpmn2_0.subprocess', this.handleSubProcess.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_SHAPEREMOVED, this.handleShapeRemove.bind(this)); this.facade.registerOnEvent(ORYX.CONFIG.EVENT_LOADED, this.afterLoad.bind(this)); this.namespace = undefined; }, /** * Force to update every pool */ afterLoad: function(){ this.facade.getCanvas().getChildNodes().each(function(shape){ if (shape.getStencil().id().endsWith("Pool")) { this.handleLayoutPool({ shape: shape }); } }.bind(this)) }, /** * If a pool is selected and contains no lane, * a lane is created automagically */ onSelectionChanged: function(event) { var selection = event.elements; if(selection && selection.length === 1) { var namespace = this.getNamespace(); var shape = selection[0]; if(shape.getStencil().idWithoutNs() === "Pool") { if(shape.getChildNodes().length === 0) { // create a lane inside the selected pool var option = { type:namespace + "Lane", position:{x:0,y:0}, namespace:shape.getStencil().namespace(), parent:shape }; this.facade.createShape(option); this.facade.getCanvas().update(); this.facade.setSelection([shape]); } } } // Preventing selection of all lanes but not the pool if(selection.any(function(s){ return s instanceof ORYX.Core.Node && s.getStencil().id().endsWith("Lane")})){ var lanes = selection.findAll(function(s){ return s instanceof ORYX.Core.Node && s.getStencil().id().endsWith("Lane") }); var pools = []; var unselectLanes = []; lanes.each(function(lane){ pools.push(this.getParentPool(lane)) }.bind(this)); pools = pools.uniq().findAll(function(pool){ var childLanes = this.getLanes(pool, true); if (childLanes.all(function(lane){ return lanes.include(lane)})){ unselectLanes = unselectLanes.concat(childLanes); return true; } else if (selection.include(pool) && childLanes.any(function(lane){ return lanes.include(lane)})) { unselectLanes = unselectLanes.concat(childLanes); return true; } else { return false; } }.bind(this)) if (unselectLanes.length > 0 && pools.length > 0){ selection = selection.without.apply(selection, unselectLanes); selection = selection.concat(pools); this.facade.setSelection(selection.uniq()); } } }, handleShapeRemove: function(option) { var sh = option.shape; var parent = option.parent; if (sh instanceof ORYX.Core.Node && sh.getStencil().idWithoutNs() === "Lane" && this.facade.isExecutingCommands()) { var pool = this.getParentPool(parent); if (pool&&pool.parent){ var isLeafFn = function(leaf){ return !leaf.getChildNodes().any(function(r){ return r.getStencil().idWithoutNs() === "Lane"}); } var isLeaf = isLeafFn(sh); var parentHasMoreLanes = parent.getChildNodes().any(function(r){ return r.getStencil().idWithoutNs() === "Lane"}); if (isLeaf && parentHasMoreLanes){ var command = new ResizeLanesCommand(sh, parent, pool, this); this.facade.executeCommands([command]); } else if( !isLeaf && !this.facade.getSelection().any(function(select){ // Find one of the selection, which is a lane and child of "sh" and is a leaf lane return select instanceof ORYX.Core.Node && select.getStencil().idWithoutNs() === "Lane" && select.isParent(sh) && isLeafFn(select);})) { var Command = ORYX.Core.Command.extend({ construct: function(shape, facade) { this.children = shape.getChildNodes(true); this.facade = facade; }, execute: function() { this.children.each(function(child){ child.bounds.moveBy(30,0) }); //this.facade.getCanvas().update(); }, rollback: function() { this.children.each(function(child){ child.bounds.moveBy(-30,0) }) //this.facade.getCanvas().update(); } }); this.facade.executeCommands([new Command(sh, this.facade)]); } else if (isLeaf&&!parentHasMoreLanes&&parent == pool){ parent.add(sh); } } } }, hashedSubProcesses: {}, hashChildShapes: function(shape){ var children = shape.getChildNodes(); children.each(function(child){ if (this.hashedSubProcesses[child.id]){ this.hashedSubProcesses[child.id] = child.absoluteXY(); this.hashedSubProcesses[child.id].width = child.bounds.width(); this.hashedSubProcesses[child.id].height = child.bounds.height(); this.hashChildShapes(child); } }.bind(this)); }, /** * Handle the layouting of a sub process. * Mainly to adjust the child dockers of a sub process. * */ handleSubProcess : function(option) { var sh = option.shape; if (!this.hashedSubProcesses[sh.id]) { this.hashedSubProcesses[sh.id] = sh.absoluteXY(); this.hashedSubProcesses[sh.id].width = sh.bounds.width(); this.hashedSubProcesses[sh.id].height = sh.bounds.height(); return; } var offset = sh.absoluteXY(); offset.x -= this.hashedSubProcesses[sh.id].x; offset.y -= this.hashedSubProcesses[sh.id].y; var resized = this.hashedSubProcesses[sh.id].width !== sh.bounds.width() || this.hashedSubProcesses[sh.id].height !== sh.bounds.height(); this.hashedSubProcesses[sh.id] = sh.absoluteXY(); this.hashedSubProcesses[sh.id].width = sh.bounds.width(); this.hashedSubProcesses[sh.id].height = sh.bounds.height(); this.hashChildShapes(sh); // Move dockers only if currently is not resizing if (this.facade.isExecutingCommands()&&!resized) { this.moveChildDockers(sh, offset); } }, moveChildDockers: function(shape, offset){ if (!offset.x && !offset.y) { return; } var children = shape.getChildNodes(true); // Get all nodes var dockers = children // Get all incoming and outgoing edges .map(function(node){ return [].concat(node.getIncomingShapes()) .concat(node.getOutgoingShapes()) }) // Flatten all including arrays into one .flatten() // Get every edge only once .uniq() // Get all dockers .map(function(edge){ return edge.dockers.length > 2 ? edge.dockers.slice(1, edge.dockers.length-1) : []; }) // Flatten the dockers lists .flatten(); var abs = shape.absoluteBounds(); abs.moveBy(-offset.x, -offset.y) var obj = {}; dockers.each(function(docker){ if (docker.isChanged){ return; } var off = Object.clone(offset); if (!abs.isIncluded(docker.bounds.center())){ var index = docker.parent.dockers.indexOf(docker); var size = docker.parent.dockers.length; var from = docker.parent.getSource(); var to = docker.parent.getTarget(); var bothAreIncluded = children.include(from) && children.include(to); if (!bothAreIncluded){ var previousIsOver = index !== 0 ? abs.isIncluded(docker.parent.dockers[index-1].bounds.center()) : false; var nextIsOver = index !== size-1 ? abs.isIncluded(docker.parent.dockers[index+1].bounds.center()) : false; if (!previousIsOver && !nextIsOver){ return; } var ref = docker.parent.dockers[previousIsOver ? index-1 : index+1]; if (Math.abs(-Math.abs(ref.bounds.center().x-docker.bounds.center().x)) < 2){ off.y = 0; } else if(Math.abs(-Math.abs(ref.bounds.center().y-docker.bounds.center().y)) < 2){ off.x = 0; } else { return; } } } obj[docker.getId()] = { docker:docker, offset:off } }) // Set dockers this.facade.executeCommands([new ORYX.Core.MoveDockersCommand(obj)]); }, /** * DragDocker.Docked Handler * */ handleDockerDocked: function(options) { var namespace = this.getNamespace(); var edge = options.parent; var edgeSource = options.target; if(edge.getStencil().id() === namespace + "SequenceFlow") { var isGateway = edgeSource.getStencil().groups().find(function(group) { if(group == "Gateways") return group; }); if(!isGateway && (edge.properties["oryx-conditiontype"] == "Expression")) // show diamond on edge source edge.setProperty("oryx-showdiamondmarker", true); else // do not show diamond on edge source edge.setProperty("oryx-showdiamondmarker", false); // update edge rendering //edge.update(); this.facade.getCanvas().update(); } }, /** * PropertyWindow.PropertyChanged Handler */ handlePropertyChanged: function(option) { var namespace = this.getNamespace(); var shapes = option.elements; var propertyKey = option.key; var propertyValue = option.value; var changed = false; shapes.each(function(shape){ if((shape.getStencil().id() === namespace + "SequenceFlow") && (propertyKey === "oryx-conditiontype")) { if(propertyValue != "Expression") // Do not show the Diamond shape.setProperty("oryx-showdiamondmarker", false); else { var incomingShapes = shape.getIncomingShapes(); if(!incomingShapes) { shape.setProperty("oryx-showdiamondmarker", true); } var incomingGateway = incomingShapes.find(function(aShape) { var foundGateway = aShape.getStencil().groups().find(function(group) { if(group == "Gateways") return group; }); if(foundGateway) return foundGateway; }); if(!incomingGateway) // show diamond on edge source shape.setProperty("oryx-showdiamondmarker", true); else // do not show diamond shape.setProperty("oryx-showdiamondmarker", false); } changed = true; } }.bind(this)); if(changed) {this.facade.getCanvas().update();} }, hashedPoolPositions : {}, hashedLaneDepth : {}, hashedBounds : {}, hashedPositions: {}, /** * Handler for layouting event 'layout.bpmn2_0.pool' * @param {Object} event */ handleLayoutPool: function(event){ var pool = event.shape; var selection = this.facade.getSelection(); var currentShape = selection.include(pool) ? pool : selection.first(); currentShape = currentShape || pool; this.currentPool = pool; // Check if it is a pool or a lane if (!(currentShape.getStencil().id().endsWith("Pool") || currentShape.getStencil().id().endsWith("Lane"))) { return; } // Check if the lane is within the pool and is not removed lately if (currentShape !== pool && !currentShape.isParent(pool) && !this.hashedBounds[pool.id][currentShape.id]){ return; } if (!this.hashedBounds[pool.id]) { this.hashedBounds[pool.id] = {}; } // Find all child lanes var lanes = this.getLanes(pool); if (lanes.length <= 0) { return } var allLanes = this.getLanes(pool, true), hp; var considerForDockers = allLanes.clone(); var hashedPositions = $H({}); allLanes.each(function(lane){ hashedPositions[lane.id] = lane.bounds.upperLeft(); }) // Show/hide caption regarding the number of lanes if (lanes.length === 1 && this.getLanes(lanes.first()).length <= 0) { // TRUE if there is a caption lanes.first().setProperty("oryx-showcaption", lanes.first().properties["oryx-name"].trim().length > 0); var rect = lanes.first().node.getElementsByTagName("rect"); rect[0].setAttributeNS(null, "display", "none"); } else { allLanes.invoke("setProperty", "oryx-showcaption", true); allLanes.each(function(lane){ var rect = lane.node.getElementsByTagName("rect"); rect[0].removeAttributeNS(null, "display"); }) } var deletedLanes = []; var addedLanes = []; // Get all new lanes var i=-1; while (++i 0){ currentShape = addedLanes.first(); } // Get all deleted lanes var resourceIds = $H(this.hashedBounds[pool.id]).keys(); var i=-1; while (++i 0 || addedLanes.length > 0) { if (addedLanes.length === 1 && this.getLanes(addedLanes[0].parent).length === 1){ // Set height from the pool height = this.adjustHeight(lanes, addedLanes[0].parent); } else { // Set height from the pool height = this.updateHeight(pool); } // Set width from the pool width = this.adjustWidth(lanes, pool.bounds.width()); pool.update(); } /** * Set width/height depending on the pool */ else if (pool == currentShape) { if (selection.length === 1 && this.isResized(pool, this.hashedPoolPositions[pool.id])) { var oldXY = this.hashedPoolPositions[pool.id].upperLeft(); var xy = pool.bounds.upperLeft(); var scale = 0; if (this.shouldScale(pool)){ var old = this.hashedPoolPositions[pool.id]; scale = old.height()/pool.bounds.height(); } this.adjustLanes(pool, allLanes, oldXY.x - xy.x, oldXY.y - xy.y, scale); } // Set height from the pool height = this.adjustHeight(lanes, undefined, pool.bounds.height()); // Set width from the pool width = this.adjustWidth(lanes, pool.bounds.width()); } /**??? * Set width/height depending on containing lanes */ else { // Reposition the pool if one shape is selected and the upperleft has changed if (selection.length === 1 && this.isResized(currentShape, this.hashedBounds[pool.id][currentShape.id])){ var oldXY = this.hashedBounds[pool.id][currentShape.id].upperLeft(); var xy = currentShape.absoluteXY(); x = oldXY.x - xy.x; y = oldXY.y - xy.y; // Adjust all other lanes beneath this lane if (x||y){ considerForDockers = considerForDockers.without(currentShape); this.adjustLanes(pool, this.getAllExcludedLanes(pool, currentShape), x, 0); } // Adjust all child lanes var childLanes = this.getLanes(currentShape, true); if (childLanes.length > 0){ if (this.shouldScale(currentShape)){ var old = this.hashedBounds[pool.id][currentShape.id]; var scale = old.height()/currentShape.bounds.height(); this.adjustLanes(pool, childLanes, x, y, scale); } else { this.adjustLanes(pool, childLanes, x, y, 0); } } } // Cache all bounds var changes = allLanes.map(function(lane){ return { shape: lane, bounds: lane.bounds.clone() } }); // Get height and adjust child heights height = this.adjustHeight(lanes, currentShape); // Check if something has changed and maybe create a command this.checkForChanges(allLanes, changes); // Set width from the current shape width = this.adjustWidth(lanes, currentShape.bounds.width()+(this.getDepth(currentShape,pool)*30)); } this.setDimensions(pool, width, height, x, y); if (this.facade.isExecutingCommands() && (deletedLanes.length === 0 || addedLanes.length !== 0)){ // Update all dockers this.updateDockers(considerForDockers, pool); // Check if the order has changed if (this.hashedPositions[pool.id] && this.hashedPositions[pool.id].keys().any(function(key, i){ return (allLanes[i]||{}).id !== key; })){ var LanesHasBeenReordered = ORYX.Core.Command.extend({ construct: function(originPosition, newPosition, lanes, plugin, poolId) { this.originPosition = Object.clone(originPosition); this.newPosition = Object.clone(newPosition); this.lanes = lanes; this.plugin = plugin; this.pool = poolId; }, execute: function(){ if (!this.executed){ this.executed = true; this.lanes.each(function(lane){ if (this.newPosition[lane.id]) lane.bounds.moveTo(this.newPosition[lane.id]) }.bind(this)); this.plugin.hashedPositions[this.pool] = Object.clone(this.newPosition); } }, rollback: function(){ this.lanes.each(function(lane){ if (this.originPosition[lane.id]) lane.bounds.moveTo(this.originPosition[lane.id]) }.bind(this)); this.plugin.hashedPositions[this.pool] = Object.clone(this.originPosition); } }); var hp2 = $H({}); allLanes.each(function(lane){ hp2[lane.id] = lane.bounds.upperLeft(); }) var command = new LanesHasBeenReordered(hashedPositions, hp2, allLanes, this, pool.id); this.facade.executeCommands([command]); } } this.hashedBounds[pool.id] = {}; this.hashedPositions[pool.id] = hashedPositions; var i=-1; while (++i < allLanes.length) { // Cache positions this.hashedBounds[pool.id][allLanes[i].id] = allLanes[i].absoluteBounds(); // Cache also the bounds of child shapes, mainly for child subprocesses this.hashChildShapes(allLanes[i]); this.hashedLaneDepth[allLanes[i].id] = this.getDepth(allLanes[i], pool); this.forceToUpdateLane(allLanes[i]); } this.hashedPoolPositions[pool.id] = pool.bounds.clone(); // Update selection //this.facade.setSelection(selection); }, shouldScale: function(element){ var childLanes = element.getChildNodes().findAll(function(shape){ return shape.getStencil().id().endsWith("Lane") }) return childLanes.length > 1 || childLanes.any(function(lane){ return this.shouldScale(lane) }.bind(this)) }, /** * Lookup if some bounds has changed * @param {Object} lanes * @param {Object} changes */ checkForChanges: function(lanes, changes){ // Check if something has changed if (this.facade.isExecutingCommands() && changes.any(function(change){ return change.shape.bounds.toString() !== change.bounds.toString(); })){ var Command = ORYX.Core.Command.extend({ construct: function(changes) { this.oldState = changes; this.newState = changes.map(function(s){ return {shape:s.shape, bounds:s.bounds.clone()}}); }, execute: function(){ if (this.executed){ this.applyState(this.newState); } this.executed = true; }, rollback: function(){ this.applyState(this.oldState); }, applyState: function(state){ state.each(function(s){ s.shape.bounds.set(s.bounds.upperLeft(), s.bounds.lowerRight()); }) } }); this.facade.executeCommands([new Command(changes)]); } }, isResized: function(shape, bounds){ if (!bounds||!shape){ return false; } var oldB = bounds; //var oldXY = oldB.upperLeft(); //var xy = shape.absoluteXY(); return Math.round(oldB.width() - shape.bounds.width()) !== 0 || Math.round(oldB.height() - shape.bounds.height()) !== 0 }, adjustLanes: function(pool, lanes, x, y, scale){ scale = scale || 0; // For every lane, adjust the child nodes with the offset lanes.each(function(l){ l.getChildNodes().each(function(child){ if (!child.getStencil().id().endsWith("Lane")){ var cy = scale ? child.bounds.center().y - (child.bounds.center().y/scale) : -y; child.bounds.moveBy((x||0), -cy); if (scale&&child.getStencil().id().endsWith("Subprocess")) { this.moveChildDockers(child, {x:(0), y:-cy}); } } }.bind(this)); this.hashedBounds[pool.id][l.id].moveBy(-(x||0), !scale?-y:0); if (scale) { l.isScaled = true; } }.bind(this)) }, getAllExcludedLanes: function(parent, lane){ var lanes = []; parent.getChildNodes().each(function(shape){ if ((!lane || shape !== lane) && shape.getStencil().id().endsWith("Lane")){ lanes.push(shape); lanes = lanes.concat(this.getAllExcludedLanes(shape, lane)); } }.bind(this)); return lanes; }, forceToUpdateLane: function(lane){ if (lane.bounds.height() !== lane._svgShapes[0].height) { lane.isChanged = true; lane.isResized = true; lane._update(); } }, getDepth: function(child, parent){ var i=0; while(child && child.parent && child !== parent){ child = child.parent; ++i } return i; }, updateDepth: function(lane, fromDepth, toDepth){ var xOffset = (fromDepth - toDepth) * 30; lane.getChildNodes().each(function(shape){ shape.bounds.moveBy(xOffset, 0); [].concat(children[j].getIncomingShapes()) .concat(children[j].getOutgoingShapes()) }) }, setDimensions: function(shape, width, height, x, y){ var isLane = shape.getStencil().id().endsWith("Lane"); // Set the bounds shape.bounds.set( isLane ? 30 : (shape.bounds.a.x - (x || 0)), isLane ? shape.bounds.a.y : (shape.bounds.a.y - (y || 0)), width ? shape.bounds.a.x + width - (isLane?30:(x||0)) : shape.bounds.b.x, height ? shape.bounds.a.y + height - (isLane?0:(y||0)) : shape.bounds.b.y ); }, setLanePosition: function(shape, y){ shape.bounds.moveTo(30, y); }, adjustWidth: function(lanes, width) { // Set width to each lane (lanes||[]).each(function(lane){ this.setDimensions(lane, width); this.adjustWidth(this.getLanes(lane), width-30); }.bind(this)); return width; }, adjustHeight: function(lanes, changedLane, propagateHeight){ var oldHeight = 0; if (!changedLane && propagateHeight){ var i=-1; while (++i2 && edges[k].dockers[l-1].isDocked()){ var dockedLane = this.getNextLane(edges[k].dockers[l-1].getDockedShape()); if (dockedLane != lanes[i]) continue; dockers[docker.id] = {docker: docker, offset:offset}; } // Check if the next dockers docked shape is from this lane else if (l == edges[k].dockers.length-2 && edges[k].dockers.length>2 && edges[k].dockers[l+1].isDocked()){ var dockedLane = this.getNextLane(edges[k].dockers[l+1].getDockedShape()); if (dockedLane != lanes[i]) continue; dockers[docker.id] = {docker: docker, offset:offset}; } else if (isOutSidePool) { dockers[docker.id] = {docker: docker, offset:this.getOffset(lanes[i], true, pool)}; }*/ } } } } // Move the moved children var MoveChildCommand = ORYX.Core.Command.extend({ construct: function(state){ this.state = state; }, execute: function(){ if (this.executed){ this.state.each(function(s){ s.shape.bounds.moveBy(s.xOffset, 0); }); } this.executed = true; }, rollback: function(){ this.state.each(function(s){ s.shape.bounds.moveBy(-s.xOffset, 0); }); } }) // Set dockers this.facade.executeCommands([new ORYX.Core.MoveDockersCommand(dockers), new MoveChildCommand(movedShapes)]); }, moveBy: function(pos, offset){ pos.x += offset.x; pos.y += offset.y; return pos; }, getHashedBounds: function(shape){ return this.currentPool && this.hashedBounds[this.currentPool.id][shape.id] ? this.hashedBounds[this.currentPool.id][shape.id] : shape.absoluteBounds(); }, /** * Returns a set on all child lanes for the given Shape. If recursive is TRUE, also indirect children will be returned (default is FALSE) * The set is sorted with first child the lowest y-coordinate and the last one the highest. * @param {ORYX.Core.Shape} shape * @param {boolean} recursive */ getLanes: function(shape, recursive){ var namespace = this.getNamespace(); // Get all the child lanes var lanes = shape.getChildNodes(recursive||false).findAll(function(node) { return (node.getStencil().id() === namespace + "Lane"); }); // Sort all lanes by there y coordinate lanes = lanes.sort(function(a, b){ // Get y coordinates for upper left and lower right var auy = Math.round(a.bounds.upperLeft().y); var buy = Math.round(b.bounds.upperLeft().y); var aly = Math.round(a.bounds.lowerRight().y); var bly = Math.round(b.bounds.lowerRight().y); var ha = this.getHashedBounds(a); var hb = this.getHashedBounds(b); // Get the old y coordinates var oauy = Math.round(ha.upperLeft().y); var obuy = Math.round(hb.upperLeft().y); var oaly = Math.round(ha.lowerRight().y); var obly = Math.round(hb.lowerRight().y); // If equal, than use the old one if (auy == buy && aly == bly) { auy = oauy; buy = obuy; aly = oaly; bly = obly; } if (Math.round(a.bounds.height()-ha.height()) === 0 && Math.round(b.bounds.height()-hb.height()) === 0){ return auy < buy ? -1 : (auy > buy ? 1: 0); } // Check if upper left and lower right is completely above/below var above = auy < buy && aly < bly; var below = auy > buy && aly > bly; // Check if a is above b including the old values var slightlyAboveBottom = auy < buy && aly >= bly && oaly < obly; var slightlyAboveTop = auy >= buy && aly < bly && oauy < obuy; // Check if a is below b including the old values var slightlyBelowBottom = auy > buy && aly <= bly && oaly > obly; var slightlyBelowTop = auy <= buy && aly > bly && oauy > obuy; // Return -1 if a is above b, 1 if b is above a, or 0 otherwise return (above || slightlyAboveBottom || slightlyAboveTop ? -1 : (below || slightlyBelowBottom || slightlyBelowTop ? 1 : 0)) }.bind(this)); // Return lanes return lanes; }, getNamespace: function() { if(!this.namespace) { var stencilsets = this.facade.getStencilSets(); if(stencilsets.keys()) { this.namespace = stencilsets.keys()[0]; } else { return undefined; } } return this.namespace; } }; var ResizeLanesCommand = ORYX.Core.Command.extend({ construct: function(shape, parent, pool, plugin) { this.facade = plugin.facade; this.plugin = plugin; this.shape = shape; this.changes; this.pool = pool; this.parent = parent; this.shapeChildren = []; /* * The Bounds have to be stored * separate because they would * otherwise also be influenced */ this.shape.getChildShapes().each(function(childShape) { this.shapeChildren.push({ shape: childShape, bounds: { a: { x: childShape.bounds.a.x, y: childShape.bounds.a.y }, b: { x: childShape.bounds.b.x, y: childShape.bounds.b.y } } }); }.bind(this)); this.shapeUpperLeft = this.shape.bounds.upperLeft(); // If there is no parent, // correct the abs position with the parents abs. /*if (!this.shape.parent) { var pAbs = parent.absoluteXY(); this.shapeUpperLeft.x += pAbs.x; this.shapeUpperLeft.y += pAbs.y; }*/ this.parentHeight = this.parent.bounds.height(); }, getLeafLanes: function(lane){ var childLanes = this.plugin.getLanes(lane).map(function(child){ return this.getLeafLanes(child); }.bind(this)).flatten(); return childLanes.length > 0 ? childLanes : [lane]; }, findNewLane: function(){ var lanes = this.plugin.getLanes(this.parent); var leafLanes = this.getLeafLanes(this.parent); /*leafLanes = leafLanes.sort(function(a,b){ var aupl = a.absoluteXY().y; var bupl = b.absoluteXY().y; return aupl < bupl ? -1 : (aupl > bupl ? 1 : 0) })*/ this.lane = leafLanes.find(function(l){ return l.bounds.upperLeft().y >= this.shapeUpperLeft.y }.bind(this)) || leafLanes.last(); this.laneUpperLeft = this.lane.bounds.upperLeft(); }, execute: function() { if(this.changes) { this.executeAgain(); return; } /* * Rescue all ChildShapes of the deleted * Shape into the lane that takes its * place */ if (!this.lane){ this.findNewLane(); } if(this.lane) { var laUpL = this.laneUpperLeft; var shUpL = this.shapeUpperLeft; var depthChange = this.plugin.getDepth(this.lane, this.parent)-1; this.changes = $H({}); // Selected lane is BELOW the removed lane if (laUpL.y >= shUpL.y) { this.lane.getChildShapes().each(function(childShape) { /* * Cache the changes for rollback */ if(!this.changes[childShape.getId()]) { this.changes[childShape.getId()] = this.computeChanges(childShape, this.lane, this.lane, this.shape.bounds.height()); } childShape.bounds.moveBy(0, this.shape.bounds.height()); }.bind(this)); this.plugin.hashChildShapes(this.lane); this.shapeChildren.each(function(shapeChild) { shapeChild.shape.bounds.set(shapeChild.bounds); shapeChild.shape.bounds.moveBy((shUpL.x-30)-(depthChange*30), 0); /* * Cache the changes for rollback */ if(!this.changes[shapeChild.shape.getId()]) { this.changes[shapeChild.shape.getId()] = this.computeChanges(shapeChild.shape, this.shape, this.lane, 0); } this.lane.add(shapeChild.shape); }.bind(this)); this.lane.bounds.moveBy(0, shUpL.y-laUpL.y); // Selected lane is ABOVE the removed lane } else if(shUpL.y > laUpL.y){ this.shapeChildren.each(function(shapeChild) { shapeChild.shape.bounds.set(shapeChild.bounds); shapeChild.shape.bounds.moveBy((shUpL.x-30)-(depthChange*30), this.lane.bounds.height()); /* * Cache the changes for rollback */ if(!this.changes[shapeChild.shape.getId()]) { this.changes[shapeChild.shape.getId()] = this.computeChanges(shapeChild.shape, this.shape, this.lane, 0); } this.lane.add(shapeChild.shape); }.bind(this)); } } /* * Adjust the height of the lanes */ // Get the height values var oldHeight = this.lane.bounds.height(); var newHeight = this.lane.length === 1 ? this.parentHeight : this.lane.bounds.height() + this.shape.bounds.height(); // Set height this.setHeight(newHeight, oldHeight, this.parent, this.parentHeight, true); // Cache all sibling lanes //this.changes[this.shape.getId()] = this.computeChanges(this.shape, this.parent, this.parent, 0); this.plugin.getLanes(this.parent).each(function(childLane){ if(!this.changes[childLane.getId()] && childLane !== this.lane && childLane !== this.shape) { this.changes[childLane.getId()] = this.computeChanges(childLane, this.parent, this.parent, 0); } }.bind(this)) // Update this.update(); }, setHeight: function(newHeight, oldHeight, parent, parentHeight, store){ // Set heigh of the lane this.plugin.setDimensions(this.lane, this.lane.bounds.width(), newHeight); this.plugin.hashedBounds[this.pool.id][this.lane.id] = this.lane.absoluteBounds(); // Adjust child lanes this.plugin.adjustHeight(this.plugin.getLanes(parent), this.lane); if (store === true){ // Store changes this.changes[this.shape.getId()] = this.computeChanges(this.shape, parent, parent, 0, oldHeight, newHeight); } // Set parents height this.plugin.setDimensions(parent, parent.bounds.width(), parentHeight); if (parent !== this.pool){ this.plugin.setDimensions(this.pool, this.pool.bounds.width(), this.pool.bounds.height() + (newHeight-oldHeight)); } }, update: function(){ // Hack to prevent the updating of the dockers this.plugin.hashedBounds[this.pool.id]["REMOVED"] = true; // Update //this.facade.getCanvas().update(); }, rollback: function() { var laUpL = this.laneUpperLeft; var shUpL = this.shapeUpperLeft; this.changes.each(function(pair) { var parent = pair.value.oldParent; var shape = pair.value.shape; var parentHeight = pair.value.parentHeight; var oldHeight = pair.value.oldHeight; var newHeight = pair.value.newHeight; // Move siblings if (shape.getStencil().id().endsWith("Lane")){ shape.bounds.moveTo(pair.value.oldPosition); } // If lane if(oldHeight) { this.setHeight(oldHeight, newHeight, parent, parent.bounds.height() + (oldHeight - newHeight)); if (laUpL.y >= shUpL.y) { this.lane.bounds.moveBy(0, this.shape.bounds.height()-1); } } else { parent.add(shape); shape.bounds.moveTo(pair.value.oldPosition); } }.bind(this)); // Update //this.update(); }, executeAgain: function() { this.changes.each(function(pair) { var parent = pair.value.newParent; var shape = pair.value.shape; var newHeight = pair.value.newHeight; var oldHeight = pair.value.oldHeight; // If lane if(newHeight) { var laUpL = this.laneUpperLeft.y; var shUpL = this.shapeUpperLeft.y; if (laUpL >= shUpL) { this.lane.bounds.moveBy(0, shUpL - laUpL); } this.setHeight(newHeight, oldHeight, parent, parent.bounds.height() + (newHeight-oldHeight)); } else { parent.add(shape); shape.bounds.moveTo(pair.value.newPosition); } }.bind(this)); // Update this.update(); }, computeChanges: function(shape, oldParent, parent, yOffset, oldHeight, newHeight) { oldParent = this.changes[shape.getId()] ? this.changes[shape.getId()].oldParent : oldParent; var oldPosition = this.changes[shape.getId()] ? this.changes[shape.getId()].oldPosition : shape.bounds.upperLeft(); var sUl = shape.bounds.upperLeft(); var pos = {x: sUl.x, y: sUl.y + yOffset}; var changes = { shape : shape, parentHeight: oldParent.bounds.height(), oldParent : oldParent, oldPosition : oldPosition, oldHeight : oldHeight, newParent : parent, newPosition : pos, newHeight : newHeight }; return changes; } }); ORYX.Plugins.BPMN2_0 = ORYX.Plugins.AbstractPlugin.extend(ORYX.Plugins.BPMN2_0); }()




© 2015 - 2024 Weber Informatics LLC | Privacy Policy