'use strict'; require('../../../../TestHelper'); /* global bootstrapModeler, inject */ var is = require('../../../../../lib/util/ModelUtil').is, find = require('lodash/collection/find'); var modelingModule = require('../../../../../lib/features/modeling'), moveModule = require('diagram-js/lib/features/move'), coreModule = require('../../../../../lib/core'); var canvasEvent = require('../../../../util/MockEvents').createCanvasEvent; function getConnection(source, target, connectionOrType) { return find(source.outgoing, function(c) { return c.target === target && (typeof connectionOrType === 'string' ? is(c, connectionOrType) : c === connectionOrType); }); } function expectConnected(source, target, connectionOrType) { expect(getConnection(source, target, connectionOrType)).to.exist; } function expectNotConnected(source, target, connectionOrType) { expect(getConnection(source, target, connectionOrType)).not.to.exist; } describe('features/modeling - replace connection', function() { var testModules = [ coreModule, moveModule, modelingModule ]; describe('should replace SequenceFlow <> MessageFlow', function() { var processDiagramXML = require('./ReplaceConnectionBehavior.message-sequence-flow.bpmn'); beforeEach(bootstrapModeler(processDiagramXML, { modules: testModules })); var element; beforeEach(inject(function(elementRegistry) { element = function(id) { return elementRegistry.get(id); }; })); describe('after reconnecting', function() { it('sequence flow to another task', inject(function(elementRegistry, modeling) { // given var task4Shape = element('Task_4'); var connection = element('SequenceFlow_1'); var newWaypoints = [ connection.waypoints[0], { x: task4Shape.x + 30, y: task4Shape.y }]; // when modeling.reconnectEnd(connection, task4Shape, newWaypoints); // then expectConnected(element('Task_2'), task4Shape, 'bpmn:MessageFlow'); })); it('message flow to another task', inject(function(elementRegistry, modeling) { // given var task4Shape = element('Task_4'); var connection = element('MessageFlow_1'); var newWaypoints = [ connection.waypoints[0], { x: task4Shape.x, y: task4Shape.y + 20 } ]; // when modeling.reconnectEnd(connection, task4Shape, newWaypoints); // then expectConnected(element('Task_3'), task4Shape, 'bpmn:SequenceFlow'); })); it('sequence flow to a participant', inject(function(elementRegistry, modeling) { // given var participant2 = element('Participant_2'); var connection = element('SequenceFlow_1'); var newWaypoints = [ connection.waypoints[0], { x: participant2.x, y: participant2.y }]; // when modeling.reconnectEnd(connection, participant2, newWaypoints); // then expectConnected(element('Task_2'), participant2, 'bpmn:MessageFlow'); })); it('sequence flow from a participant', inject(function(elementRegistry, modeling) { // given var participant2 = element('Participant_2'), subProcess1 = element('SubProcess_1'), connection = element('SequenceFlow_1'); var newWaypoints = [ { x: participant2.x + 200, y: participant2.y }, { x: subProcess1.x, y: subProcess1.y + 50 } ]; // when modeling.reconnectStart(connection, participant2, newWaypoints); // then expectConnected(participant2, subProcess1, 'bpmn:MessageFlow'); })); }); describe('moving single shape', function() { it('execute', inject(function(modeling, elementRegistry) { // given var taskShape = element('Task_2'), targetShape = element('Participant_2'); // when modeling.moveElements([ taskShape ], { x: 0, y: 330 }, targetShape); // then expect(taskShape.parent).to.eql(targetShape); expectNotConnected(element('StartEvent_1'), taskShape, 'bpmn:SequenceFlow'); expectConnected(taskShape, element('Task_4'), 'bpmn:SequenceFlow'); expectConnected(taskShape, element('SubProcess_1'), 'bpmn:MessageFlow'); })); it('undo', inject(function(modeling, elementRegistry, commandStack) { // given var taskShape = element('Task_2'), targetShape = element('Participant_2'), oldParent = taskShape.parent; modeling.moveElements([ taskShape ], { x: 0, y: 300 }, targetShape); // when commandStack.undo(); // then expect(taskShape.parent).to.eql(oldParent); expectConnected(element('StartEvent_1'), taskShape, element('SequenceFlow_3')); expectConnected(taskShape, element('Task_4'), element('MessageFlow_5')); expectConnected(taskShape, element('SubProcess_1'), element('SequenceFlow_1')); })); }); describe('moving multiple shapes', function() { it('execute', inject(function(modeling, elementRegistry) { // given var startEventShape = element('StartEvent_1'), taskShape = element('Task_2'), targetShape = element('Participant_2'); // when modeling.moveElements([ startEventShape, taskShape ], { x: 0, y: 330 }, targetShape); // then expect(taskShape.parent).to.eql(targetShape); expect(startEventShape.parent).to.eql(targetShape); expectConnected(startEventShape, taskShape, element('SequenceFlow_3')); expectNotConnected(element('Participant_2'), startEventShape, 'bpmn:MessageFlow'); expectConnected(taskShape, element('SubProcess_1'), 'bpmn:MessageFlow'); })); it('undo', inject(function(modeling, elementRegistry, commandStack) { // given var taskShape = element('Task_2'), targetShape = element('Participant_2'), oldParent = taskShape.parent; modeling.moveElements([ taskShape ], { x: 0, y: 300 }, targetShape); // when commandStack.undo(); // then expect(taskShape.parent).to.eql(oldParent); expectConnected(element('StartEvent_1'), taskShape, element('SequenceFlow_3')); expectConnected(taskShape, element('Task_4'), element('MessageFlow_5')); expectConnected(taskShape, element('SubProcess_1'), element('SequenceFlow_1')); expectConnected(element('Participant_2'), element('StartEvent_1'), element('MessageFlow_4')); })); }); describe('moving nested shapes', function() { it('execute', inject(function(modeling, elementRegistry) { // given var subProcessShape = element('SubProcess_1'), targetShape = element('Participant_2'); // when modeling.moveElements([ subProcessShape ], { x: 0, y: 530 }, targetShape); // then expect(subProcessShape.parent).to.eql(targetShape); expectConnected(element('Task_2'), subProcessShape, 'bpmn:MessageFlow'); expectNotConnected(element('Task_1'), element('Participant_2'), 'bpmn:MessageFlow'); })); it('undo', inject(function(modeling, elementRegistry, commandStack) { // given var subProcessShape = element('SubProcess_1'), targetShape = element('Participant_2'); modeling.moveElements([ subProcessShape ], { x: 0, y: 530 }, targetShape); // when commandStack.undo(); // then expectConnected(element('Task_2'), subProcessShape, element('SequenceFlow_1')); expectConnected(element('Task_1'), element('Participant_2'), element('MessageFlow_3')); })); }); }); describe('should replace SequenceFlow <> MessageFlow', function() { var processDiagramXML = require('./ReplaceConnectionBehavior.association.bpmn'); beforeEach(bootstrapModeler(processDiagramXML, { modules: testModules })); var element; beforeEach(inject(function(elementRegistry) { element = function(id) { return elementRegistry.get(id); }; })); describe('moving text-annotation to participant', function() { it('execute', inject(function(modeling, elementRegistry) { // given var textAnnotationShape = element('TextAnnotation_1'), targetShape = element('Participant_1'); // when modeling.moveElements([ textAnnotationShape ], { x: -200, y: 40 }, targetShape); // then expect(textAnnotationShape.parent).to.eql(targetShape); expectNotConnected(textAnnotationShape, targetShape, 'bpmn:TextAnnotation'); })); it('undo', inject(function(modeling, elementRegistry, commandStack) { // given var textAnnotationShape = element('TextAnnotation_1'), targetShape = element('Participant_1'); modeling.moveElements([ textAnnotationShape ], { x: -200, y: 40 }, targetShape); // when commandStack.undo(); // then expectConnected(textAnnotationShape, targetShape, element('Association_1')); })); }); }); describe('boundary events', function() { describe('moving host', function() { var processDiagramXML = require('./ReplaceConnectionBehavior.boundary-events.bpmn'); beforeEach(bootstrapModeler(processDiagramXML, { modules: testModules })); var element; beforeEach(inject(function(elementRegistry) { element = function(id) { return elementRegistry.get(id); }; })); it('should remove invalid connections', inject(function(modeling) { // given var taskShape = element('Task_1'), taskShape2 = element('Task_2'), targetShape = element('SubProcess_1'), boundaryEvent = element('BoundaryEvent_1'), sequenceFlow = element('SequenceFlow_1'); // when modeling.moveElements([ taskShape ], { x: 30, y: 200 }, targetShape); // then expectNotConnected(boundaryEvent, taskShape2 ,sequenceFlow); })); it('should remove invalid connections (undo)', inject(function(modeling, commandStack) { // given var taskShape = element('Task_1'), taskShape2 = element('Task_2'), boundaryEvent = element('BoundaryEvent_1'), targetShape = element('SubProcess_1'), sequenceFlow = element('SequenceFlow_1'); // when modeling.moveElements([ taskShape ], { x: 30, y: 200 }, targetShape); commandStack.undo(); // then expectConnected(boundaryEvent, taskShape2, sequenceFlow); })); it('should remove invalid connections (redo)', inject(function(modeling, commandStack) { // given var taskShape = element('Task_1'), targetShape = element('SubProcess_1'), sequenceFlow = element('SequenceFlow_1'); // when modeling.moveElements([ taskShape ], { x: 30, y: 200 }, targetShape); commandStack.undo(); commandStack.redo(); // then expectNotConnected(taskShape, targetShape, sequenceFlow); })); }); describe('moving along host with outgoing', function() { var processDiagramXML = require('../../../../fixtures/bpmn/features/replace/connection.bpmn'); beforeEach(bootstrapModeler(processDiagramXML, { modules: testModules })); it('should move connections outgoing from an attacher', inject(function(canvas, elementFactory, move, dragging, elementRegistry, selection) { // given var rootShape = canvas.getRootElement(), rootGfx = elementRegistry.getGraphics(rootShape), host = elementRegistry.get('Task_1'), task = elementRegistry.get('Task_2'), boundaryEvent = elementRegistry.get('BoundaryEvent_1'), connection = elementRegistry.get('SequenceFlow_1'); selection.select([ host, boundaryEvent, task ]); // when move.start(canvasEvent({ x: 0, y: 0 }), host); dragging.hover({ element: rootShape, gfx: rootGfx }); dragging.move(canvasEvent({ x: 0, y: 300 })); dragging.end(); // then expect(connection.waypoints[0].x).to.equal(165); expect(connection.waypoints[0].y).to.equal(477); expect(connection.waypoints[1].x).to.equal(165); expect(connection.waypoints[1].y).to.equal(544); expect(connection.waypoints[2].x).to.equal(234); expect(connection.waypoints[2].y).to.equal(544); expect(connection.source).to.eql(boundaryEvent); expect(connection.target).to.eql(task); }) ); }); }); });