bpmn-js/test/spec/features/modeling/behavior/DropOnFlowBehaviorSpec.js

765 lines
23 KiB
JavaScript

import {
bootstrapModeler,
inject
} from 'test/TestHelper';
import {
flatten
} from 'min-dash';
import coreModule from 'lib/core';
import moveModule from 'diagram-js/lib/features/move';
import modelingModule from 'lib/features/modeling';
var noTouchInteractionModule = { touchInteractionEvents: ['value', null ] };
import {
createCanvasEvent as canvasEvent
} from '../../../../util/MockEvents';
import { getMid } from 'diagram-js/lib/layout/LayoutUtil';
describe('modeling/behavior - drop on connection', function() {
var diagramXML = require('./DropOnFlowBehavior.bpmn');
beforeEach(bootstrapModeler(diagramXML, {
modules: [
noTouchInteractionModule,
moveModule,
modelingModule,
coreModule
]
}));
describe('execution', function() {
describe('create', function() {
it('should connect start -> target -> end', inject(
function(modeling, elementRegistry, elementFactory) {
// given
var intermediateThrowEvent = elementFactory.createShape({
type: 'bpmn:IntermediateThrowEvent'
});
var startEvent = elementRegistry.get('StartEvent'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
task = elementRegistry.get('Task_1');
var originalWaypoints = sequenceFlow.waypoints;
var dropPosition = { x: 340, y: 120 }; // first bendpoint
// when
var newShape = modeling.createShape(
intermediateThrowEvent,
dropPosition,
sequenceFlow
);
// then
var targetConnection = newShape.outgoing[0];
// new incoming connection
expect(newShape.incoming.length).to.equal(1);
expect(newShape.incoming[0]).to.eql(sequenceFlow);
// new outgoing connection
expect(newShape.outgoing.length).to.equal(1);
expect(targetConnection).to.exist;
expect(targetConnection.type).to.equal('bpmn:SequenceFlow');
expect(startEvent.outgoing[0]).to.equal(newShape.incoming[0]);
expect(task.incoming[1]).to.equal(newShape.outgoing[0]);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 1),
{ x: 322, y: 120 }
]));
expect(sequenceFlow).to.have.endDocking(dropPosition);
expect(targetConnection).to.have.waypoints(flatten([
{ x: 340, y: 138 },
originalWaypoints.slice(2)
]));
expect(targetConnection).to.have.startDocking(dropPosition);
}
));
it('should connect start -> target', inject(
function(modeling, elementRegistry, elementFactory) {
// given
var endEventShape = elementFactory.createShape({ type: 'bpmn:EndEvent' });
var sequenceFlow = elementRegistry.get('SequenceFlow_1');
var originalWaypoints = sequenceFlow.waypoints;
var dropPosition = { x: 340, y: 120 }; // first bendpoint
// when
var newShape = modeling.createShape(
endEventShape,
dropPosition,
sequenceFlow
);
// then
// new incoming connection
expect(newShape.incoming.length).to.equal(1);
expect(newShape.incoming[0]).to.eql(sequenceFlow);
// no outgoing edges
expect(newShape.outgoing.length).to.equal(0);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 1),
{ x: 322, y: 120 }
]));
}
));
it('should connect target -> end', inject(
function(modeling, elementRegistry, elementFactory) {
// given
var startEventShape = elementFactory.createShape({
type: 'bpmn:StartEvent'
});
var sequenceFlow = elementRegistry.get('SequenceFlow_1');
var originalWaypoints = sequenceFlow.waypoints;
var dropPosition = { x: 340, y: 120 }; // first bendpoint
// when
var newShape = modeling.createShape(
startEventShape,
dropPosition,
sequenceFlow
);
// then
// no incoming connection
expect(newShape.incoming.length).to.equal(0);
// no outgoing edges
expect(newShape.outgoing.length).to.equal(1);
expect(newShape.outgoing[0]).to.eql(sequenceFlow);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
{ x: 340, y: 138 },
originalWaypoints.slice(2)
]));
}
));
it('should connect start -> target -> end (with bendpointBefore inside bbox)', inject(
function(modeling, elementRegistry, elementFactory) {
// given
var taskShape = elementFactory.createShape({ type: 'bpmn:Task' }),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
originalWaypoints = sequenceFlow.waypoints,
dropPosition = { x: 340, y: 145 }; // 25 pixels below bendpoint
// when
modeling.createShape(taskShape, dropPosition, sequenceFlow);
// then
// split target but don't keep insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 1),
{ x: 290, y: 120 }
]));
expect(sequenceFlow).to.have.endDocking({ x: 340, y: 120 });
}
));
it('should connect start -> target -> end (with bendpointAfter inside bbox)', inject(
function(modeling, elementRegistry, elementFactory) {
// given
var taskShape = elementFactory.createShape({ type: 'bpmn:Task' }),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
originalWaypoints = sequenceFlow.waypoints,
dropPosition = { x: 340, y: 280 }; // 25 pixels above bendpoint
// when
var newShape = modeling.createShape(taskShape, dropPosition, sequenceFlow),
targetConnection = newShape.outgoing[0];
// then
// split target but don't keep insertion point
expect(targetConnection).to.have.waypoints(flatten([
{ x: 390, y: 299 },
originalWaypoints.slice(3)
]));
expect(targetConnection).to.have.startDocking({ x: 340, y: 299 });
}
));
it('should handle shape created with bounds', inject(
function(elementFactory, elementRegistry, modeling) {
// given
var intermediateThrowEvent = elementFactory.createShape({
type: 'bpmn:IntermediateThrowEvent'
});
var startEvent = elementRegistry.get('StartEvent'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
task = elementRegistry.get('Task_1');
var originalWaypoints = sequenceFlow.waypoints;
var dropBounds = { x: 322, y: 102, width: 36, height: 36 }; // first bendpoint
// when
var newShape = modeling.createShape(
intermediateThrowEvent,
dropBounds,
sequenceFlow
);
// then
var targetConnection = newShape.outgoing[0];
// new incoming connection
expect(newShape.incoming.length).to.equal(1);
expect(newShape.incoming[0]).to.eql(sequenceFlow);
// new outgoing connection
expect(newShape.outgoing.length).to.equal(1);
expect(targetConnection).to.exist;
expect(targetConnection.type).to.equal('bpmn:SequenceFlow');
expect(startEvent.outgoing[0]).to.equal(newShape.incoming[0]);
expect(task.incoming[1]).to.equal(newShape.outgoing[0]);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 1),
{ x: 322, y: 120 }
]));
expect(sequenceFlow).to.have.endDocking(getMid(dropBounds));
expect(targetConnection).to.have.waypoints(flatten([
{ x: 340, y: 138 },
originalWaypoints.slice(2)
]));
expect(targetConnection).to.have.startDocking(getMid(dropBounds));
}
));
});
describe('move', function() {
beforeEach(inject(function(dragging) {
dragging.setOptions({ manual: true });
}));
it('should connect start -> target -> end', inject(
function(dragging, move, elementRegistry, selection) {
// given
var intermediateThrowEvent = elementRegistry.get('IntermediateThrowEvent_foo');
var startEvent = elementRegistry.get('StartEvent'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
task = elementRegistry.get('Task_1');
var originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(intermediateThrowEvent);
move.start(canvasEvent({ x: 0, y: 0 }), intermediateThrowEvent);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: 149, y: 0 }));
dragging.end();
// then
var targetConnection = intermediateThrowEvent.outgoing[0];
// new incoming connection
expect(intermediateThrowEvent.incoming.length).to.equal(1);
expect(intermediateThrowEvent.incoming[0]).to.eql(sequenceFlow);
// new outgoing connection
expect(intermediateThrowEvent.outgoing.length).to.equal(1);
expect(targetConnection).to.exist;
expect(targetConnection.type).to.equal('bpmn:SequenceFlow');
expect(startEvent.outgoing[0]).to.equal(intermediateThrowEvent.incoming[0]);
expect(task.incoming[1]).to.equal(intermediateThrowEvent.outgoing[0]);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 2),
{ x: 340, y: 192 }
]));
expect(sequenceFlow).to.have.endDocking({ x: 340, y: 210 });
expect(targetConnection).to.have.waypoints(flatten([
{ x: 340, y: 228 },
originalWaypoints.slice(2)
]));
expect(targetConnection).to.have.startDocking({ x: 340, y: 210 });
}
));
it('should connect start -> target -> end (hovering parent)', inject(
function(dragging, move, elementRegistry, selection, canvas) {
// given
var intermediateThrowEvent = elementRegistry.get('IntermediateThrowEvent_foo');
var startEvent = elementRegistry.get('StartEvent'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
task = elementRegistry.get('Task_1'),
rootElement = canvas.getRootElement(),
rootElementGfx = elementRegistry.getGraphics(rootElement);
var originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(intermediateThrowEvent);
move.start(canvasEvent({ x: 0, y: 0 }), intermediateThrowEvent);
dragging.hover({
element: rootElement,
gfx: rootElementGfx
});
dragging.move(canvasEvent({ x: 149, y: 0 }));
dragging.end();
// then
var targetConnection = intermediateThrowEvent.outgoing[0];
// new incoming connection
expect(intermediateThrowEvent.incoming.length).to.equal(1);
expect(intermediateThrowEvent.incoming[0]).to.eql(sequenceFlow);
// new outgoing connection
expect(intermediateThrowEvent.outgoing.length).to.equal(1);
expect(targetConnection).to.exist;
expect(targetConnection.type).to.equal('bpmn:SequenceFlow');
expect(startEvent.outgoing[0]).to.equal(intermediateThrowEvent.incoming[0]);
expect(task.incoming[1]).to.equal(intermediateThrowEvent.outgoing[0]);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 2),
{ x: 340, y: 192 }
]));
expect(sequenceFlow).to.have.endDocking({ x: 340, y: 210 });
expect(targetConnection).to.have.waypoints(flatten([
{ x: 340, y: 228 },
originalWaypoints.slice(2)
]));
expect(targetConnection).to.have.startDocking({ x: 340, y: 210 });
}
));
it('should connect start -> target -> end (with bendpointBefore inside bbox)', inject(
function(elementRegistry, selection, move, dragging) {
// given
var task3 = elementRegistry.get('Task_3'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(task3);
move.start(canvasEvent({ x: 0, y: 0 }), task3);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: 149, y: -130 }));
dragging.end();
// then
// split target but don't keep insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 2),
{ x: 340, y: 241 }
]));
expect(sequenceFlow).to.have.endDocking({ x: 340, y: 281 });
}
));
it('should connect start -> target -> end (with bendpointAfter inside bbox)', inject(
function(elementRegistry, selection, move, dragging) {
// given
var task3 = elementRegistry.get('Task_3'),
sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(task3);
move.start(canvasEvent({ x: 0, y: 0 }), task3);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: 170, y: -110 }));
dragging.end();
// then
// split target but don't keep insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 2),
{ x: 340, y: 261 }
]));
expect(sequenceFlow).to.have.endDocking({ x: 340, y: 299 });
}
));
it('should connect start -> target', inject(
function(modeling, elementRegistry, selection, move, dragging) {
// given
var endEventShape = elementRegistry.get('EndEvent_foo');
var sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(endEventShape);
move.start(canvasEvent({ x: 0, y: 0 }), endEventShape);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: 150, y: 0 }));
dragging.end();
// then
// new incoming connection
expect(endEventShape.incoming.length).to.equal(1);
expect(endEventShape.incoming[0]).to.eql(sequenceFlow);
// no outgoing edges
expect(endEventShape.outgoing.length).to.equal(0);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
originalWaypoints.slice(0, 2),
{ x: 340, y: 281 }
]));
}
));
it('should connect target -> end', inject(
function(modeling, elementRegistry, dragging, selection, move) {
var startEventShape = elementRegistry.get('StartEvent_foo');
var sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
originalWaypoints = sequenceFlow.waypoints;
// when
selection.select(startEventShape);
move.start(canvasEvent({ x: 0, y: 0 }), startEventShape);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: -215, y: 0 }));
dragging.end();
// then
// no incoming connection
expect(startEventShape.incoming.length).to.equal(0);
// 1 outgoing connection
expect(startEventShape.outgoing.length).to.equal(1);
expect(startEventShape.outgoing[0]).to.eql(sequenceFlow);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([
{ x: 338, y: 228 },
originalWaypoints.slice(2)
]));
}
));
it('should undo', inject(
function(modeling, elementRegistry, dragging, selection, move, commandStack) {
// given
var startEventShape = elementRegistry.get('StartEvent_foo');
var sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow),
originalWaypoints = sequenceFlow.waypoints;
selection.select(startEventShape);
move.start(canvasEvent({ x: 0, y: 0 }), startEventShape);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: -215, y: 0 }));
dragging.end();
// when
commandStack.undo();
// then
// no incoming connection
expect(startEventShape.incoming.length).to.equal(0);
// no outgoing edges
expect(startEventShape.outgoing.length).to.equal(0);
// split target at insertion point
expect(sequenceFlow).to.have.waypoints(flatten([ originalWaypoints ]));
}
));
it('should not insert on inaccuratly found intersection', inject(
function(dragging, move, elementRegistry, selection) {
// given
var intermediateThrowEvent = elementRegistry.get('IntermediateThrowEvent_foo');
var sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow);
// when
selection.select(intermediateThrowEvent);
move.start(canvasEvent({ x: 0, y: 0 }), intermediateThrowEvent);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: 20, y: -90 }));
dragging.end();
// then
expect(intermediateThrowEvent.incoming).to.have.lengthOf(0);
expect(intermediateThrowEvent.outgoing).to.have.lengthOf(0);
}
));
it('should remove redundant flows', inject(
function(elementRegistry, selection, move, dragging) {
var existingIncoming = elementRegistry.get('SequenceFlow_3'),
existingOutgoing = elementRegistry.get('SequenceFlow_4');
// given
var element = elementRegistry.get('Task_4');
var targetFlow = elementRegistry.get('SequenceFlow_1'),
targetFlowGfx = elementRegistry.getGraphics(targetFlow);
// when
selection.select(element);
move.start(canvasEvent({ x: 0, y: 0 }), element);
dragging.hover({
element: targetFlow,
gfx: targetFlowGfx
});
dragging.move(canvasEvent({ x: -40, y: 179 }));
dragging.end();
// then
// existing connections are removed, as they are duplicates
expect(element.incoming).not.to.contain(existingIncoming);
expect(element.outgoing).not.to.contain(existingOutgoing);
}
));
});
});
describe('rules', function() {
it('should be allowed for an IntermediateThrowEvent', inject(
function(elementRegistry, bpmnRules, elementFactory) {
// when
var sequenceFlow = elementRegistry.get('SequenceFlow_1');
var intermediateThrowEvent = elementFactory.createShape({
type: 'bpmn:IntermediateThrowEvent'
});
// then
expect(bpmnRules.canCreate(intermediateThrowEvent, sequenceFlow)).to.be.true;
}
));
it('should not insert participant', inject(
function(rules, elementRegistry, elementFactory) {
// given
var participantShape = elementFactory.createShape({
type: 'bpmn:Participant'
});
var sequenceFlow = elementRegistry.get('SequenceFlow_1');
var dropPosition = { x: 340, y: 120 }; // first bendpoint
// when
var canDrop = rules.allowed('shape.create', {
shape: participantShape,
parent: sequenceFlow,
dropPosition: dropPosition
});
// then
expect(canDrop).to.be.false;
}
));
it('should not insert multiple with "move"', inject(
function(elementRegistry, selection, move, dragging) {
// given
var intermediateThrowEvent = elementRegistry.get('IntermediateThrowEvent_foo'),
endEventShape = elementRegistry.get('EndEvent_foo');
var sequenceFlow = elementRegistry.get('SequenceFlow_1'),
sequenceFlowGfx = elementRegistry.getGraphics(sequenceFlow);
var intInitPosition = {
x: intermediateThrowEvent.x,
y: intermediateThrowEvent.y
},
endInitPosition = {
x: endEventShape.x,
y: endEventShape.y
};
selection.select([ intermediateThrowEvent, endEventShape ]);
// when
move.start(canvasEvent({ x: 0, y: 0 }), intermediateThrowEvent);
dragging.hover({
element: sequenceFlow,
gfx: sequenceFlowGfx
});
dragging.move(canvasEvent({ x: -215, y: 0 }));
dragging.end();
// then
expect(intermediateThrowEvent).to.have.position(intInitPosition);
expect(endEventShape).to.have.position(endInitPosition);
}
));
it('should not insert on sequence flow label', inject(
function(bpmnRules, elementRegistry) {
// given
var eventShape = elementRegistry.get('IntermediateThrowEvent_foo'),
sequenceFlowLabel = elementRegistry.get('SequenceFlow_2').label;
var dropPosition = { x: 675, y: 275 }; // sequence flow label
// when
var canInsert = bpmnRules.canInsert(eventShape, sequenceFlowLabel, dropPosition);
// then
expect(canInsert).to.be.false;
}
));
});
});