bpmn-js/test/spec/features/modeling/MoveElementsSpec.js

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import {
bootstrapModeler,
inject
} from 'test/TestHelper';
import modelingModule from 'lib/features/modeling';
import coreModule from 'lib/core';
describe('features/modeling - move elements', function() {
describe('flow parent', function() {
var diagramXML = require('./MoveElements.flow-collaboration.bpmn');
beforeEach(bootstrapModeler(diagramXML, {
modules: [
coreModule,
modelingModule
]
}));
it('should keep when moving shapes', inject(function(elementRegistry, modeling, bpmnFactory) {
// given
var connectionSequenceFlow = elementRegistry.get('SequenceFlow'),
shapeTask_A = elementRegistry.get('Task_A'),
shapeTask_B = elementRegistry.get('Task_B'),
shapeTask_C = elementRegistry.get('Task_C'),
shapePool_A = elementRegistry.get('Pool_A'),
shapePool_B = elementRegistry.get('Pool_B');
// when
modeling.moveElements(
[ shapeTask_A, shapeTask_B, shapeTask_C ],
{ x: 0, y: -50 },
shapePool_B,
{ primaryShape: shapeTask_C }
);
// then
expect(connectionSequenceFlow.parent).to.eql(shapePool_A);
}));
it('should keep when moving shapes with flow', inject(function(elementRegistry, modeling, bpmnFactory) {
// given
var connectionSequenceFlow = elementRegistry.get('SequenceFlow'),
shapeTask_A = elementRegistry.get('Task_A'),
shapeTask_B = elementRegistry.get('Task_B'),
shapeTask_C = elementRegistry.get('Task_C'),
shapePool_A = elementRegistry.get('Pool_A'),
shapePool_B = elementRegistry.get('Pool_B');
// when
modeling.moveElements(
[ shapeTask_A, shapeTask_B, shapeTask_C, connectionSequenceFlow ],
{ x: 0, y: -50 },
shapePool_B,
{ primaryShape: shapeTask_C }
);
// then
expect(connectionSequenceFlow.parent).to.eql(shapePool_A);
}));
});
describe('boundary connection with tasks', function() {
var diagramXML = require('./MoveElements.boundary-connection.bpmn');
beforeEach(bootstrapModeler(diagramXML, {
modules: [
coreModule,
modelingModule
]
}));
it('should properly adjust connection', inject(function(elementRegistry, modeling) {
// given
var elements = [
elementRegistry.get('Task_1'),
elementRegistry.get('Task_2'),
elementRegistry.get('BoundaryEvent')
];
var boundaryFlow = elementRegistry.get('Boundary_Flow');
var delta = { x: 0, y: 20 };
var expectedWaypoints = moveWaypoints(boundaryFlow.waypoints, delta);
// when
modeling.moveElements(elements, delta);
// then
expect(boundaryFlow).to.have.waypoints(expectedWaypoints);
}));
});
describe('data input / data output', function() {
var diagramXML = require('./MoveElements.data-input-output.bpmn');
beforeEach(bootstrapModeler(diagramXML, {
modules: [
coreModule,
modelingModule
]
}));
it('should move', inject(function(elementRegistry, modeling) {
// given
var dataInput = elementRegistry.get('DataInput');
var dataOutput = elementRegistry.get('DataOutput');
var elements = [
dataInput,
dataOutput,
elementRegistry.get('Task')
];
// when
modeling.moveElements(
elements,
{ x: -10, y: -10 }
);
// then
expect(dataOutput).to.have.bounds({
x: 275,
y: 140,
width: 34,
height: 40
});
expect(dataInput).to.have.bounds({
x: 90,
y: 90,
width: 34,
height: 40
});
}));
it('should wrap in participant', inject(
function(elementRegistry, elementFactory, modeling, canvas) {
// given
var dataInput = elementRegistry.get('DataInput');
var dataOutput = elementRegistry.get('DataOutput');
var processShape = canvas.getRootElement(),
processBo = processShape.businessObject,
participantShape = elementFactory.createParticipantShape(true);
// when
modeling.createShape(participantShape, { x: 350, y: 200 }, processShape);
// then
expect(dataInput.businessObject.$parent).to.eql(processBo.ioSpecification);
expect(dataOutput.businessObject.$parent).to.eql(processBo.ioSpecification);
}
));
});
describe('incoming sequence flows of event based targets', function() {
var diagramXML = require('./MoveElements.eventBasedTargets.bpmn');
beforeEach(bootstrapModeler(diagramXML, {
modules: [
coreModule,
modelingModule
]
}));
it('should keep when moving source flow object', inject(function(elementRegistry, modeling) {
// given
var shapeTask_A = elementRegistry.get('Task_A'),
shapeTask_B = elementRegistry.get('Task_B'),
shapeTask_C = elementRegistry.get('Task_C'),
shapeTask_D = elementRegistry.get('Task_D'),
shapeTask_E = elementRegistry.get('Task_E'),
connectionSequenceFlow_A = elementRegistry.get('SequenceFlow_A'),
connectionSequenceFlow_B = elementRegistry.get('SequenceFlow_B'),
connectionSequenceFlow_C = elementRegistry.get('SequenceFlow_C'),
connectionSequenceFlow_D = elementRegistry.get('SequenceFlow_D'),
connectionSequenceFlow_E = elementRegistry.get('SequenceFlow_E');
// when
modeling.moveElements([
shapeTask_A,
shapeTask_B,
shapeTask_C,
shapeTask_D,
shapeTask_E
], {
x: 0, y: -50
});
// then
expect(elementRegistry.get(connectionSequenceFlow_A.id)).to.exist;
expect(elementRegistry.get(connectionSequenceFlow_B.id)).to.exist;
expect(elementRegistry.get(connectionSequenceFlow_C.id)).to.exist;
expect(elementRegistry.get(connectionSequenceFlow_D.id)).to.exist;
expect(elementRegistry.get(connectionSequenceFlow_E.id)).to.exist;
}));
});
});
// helpers //////////////////////
function moveWaypoint(p, delta) {
return {
x: p.x + delta.x || 0,
y: p.y + delta.y || 0
};
}
function moveWaypoints(waypoints, delta) {
return waypoints.map(function(p) {
var original = p.original;
var moved = moveWaypoint(p, delta);
if (original) {
moved.original = moveWaypoint(original, delta);
}
return moved;
});
}