'use strict'; var TestHelper = require('../../../TestHelper'); /* global bootstrapModeler, inject */ var pick = require('lodash/object/pick'), assign = require('lodash/object/assign'); var autoResizeModule = require('../../../../lib/features/auto-resize'), modelingModule = require('../../../../lib/features/modeling'), createModule = require('diagram-js/lib/features/create'), coreModule = require('../../../../lib/core'), canvasEvent = require('../../../util/MockEvents').createCanvasEvent; function getBounds(shape) { return pick(shape, [ 'x', 'y', 'width', 'height' ]); } describe('features/auto-resize', function() { var testModules = [ coreModule, modelingModule, autoResizeModule, createModule ]; describe('participant', function() { var diagramXML = require('./AutoResize.participant.bpmn'); var task, participant, startEvent, originalBounds; beforeEach(bootstrapModeler(diagramXML, { modules: testModules })); beforeEach(inject(function(elementRegistry) { task = elementRegistry.get('Task_1'); participant = elementRegistry.get('Participant_1'); startEvent = elementRegistry.get('StartEvent_1'); originalBounds = getBounds(participant); expect(originalBounds).to.eql({ x: 247, y: 160, width: 371, height: 178 }); })); describe('after moving', function() { it('should expand the right edge', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 100, y: 0 }, participant); // then var expectedBounds = assign(originalBounds, { width: 525 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the top edge', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 0, y: -50 }, participant); // then var expectedBounds = assign(originalBounds, { y: 99, height: 239 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the bottom edge', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 0, y: 50 }, participant); // then var expectedBounds = assign(originalBounds, { height: 239 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the left edge', inject(function(modeling) { // when modeling.moveElements([ startEvent ], { x: -100, y: 0 }, participant); // then var expectedBounds = assign(originalBounds, { x: 122, width: 496 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the bottom right edges', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 50, y: 50 }, participant); // then var expectedBounds = assign(originalBounds, { width: 475, height: 239 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the top left edges', inject(function(modeling) { // when modeling.moveElements([ startEvent ], { x: -100, y: -100 }, participant); // then expect(participant).to.have.bounds({ x: 122, y: 71, width: 496, height: 267 }); })); it('should not resize the parent if element is placed too far outside', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 300, y: 0 }, participant); // then expect(participant).to.have.bounds(originalBounds); })); it('should resize the parent if element and parent edge intersect', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 0, y: 49 }, participant); // then var expectedBounds = assign(originalBounds, { height: 238 }); expect(participant).to.have.bounds(expectedBounds); })); it('should not resize the parent if element is placed near the bottom', inject(function(modeling) { // when modeling.moveElements([ task ], { x: 0, y: 47 }, participant); // then expect(participant).to.have.bounds(originalBounds); })); it('should undo resizing', inject(function(modeling, commandStack) { // when modeling.moveElements([ startEvent ], { x: -100, y: -100 }, participant); commandStack.undo(); // then expect(participant).to.have.bounds(originalBounds); })); it('should redo resizing', inject(function(modeling, commandStack) { // when modeling.moveElements([ startEvent ], { x: -100, y: -100 }, participant); commandStack.undo(); commandStack.redo(); // then expect(participant).to.have.bounds({ x: 122, y: 71, width: 496, height: 267 }); })); }); describe('after moving multiple elements', function() { it('should expand the right edge', inject(function(modeling, selection) { // when modeling.moveElements([ task, startEvent ], { x: 200, y: 0 }, participant); // then var expectedBounds = assign(originalBounds, { width: 625 }); expect(participant).to.have.bounds(expectedBounds); })); it('should expand the bottom edge', inject(function(modeling, selection) { // when modeling.moveElements([ task, startEvent ], { x: 0, y: 48 }, participant); // then var expectedBounds = assign(originalBounds, { height: 237 }); expect(participant).to.have.bounds(expectedBounds); })); }); describe('after appending', function(){ it('should expand the bottom right edges', inject(function(modeling) { // when modeling.appendShape(task, { type: 'bpmn:Task' }, { x: 660, y: 350 }, participant); // then var expectedBounds = assign(originalBounds, { width: 563, height: 290 }); expect(participant).to.have.bounds(expectedBounds); })); it('should undo resizing', inject(function(modeling, commandStack) { // given modeling.appendShape(task, { type: 'bpmn:Task' }, { x: 660, y: 250 }, participant); // when commandStack.undo(); // then expect(participant).to.have.bounds(originalBounds); })); it('should redo resizing and restore shapes and connections', inject(function(modeling, commandStack) { // given var task2 = modeling.appendShape(task, { type: 'bpmn:Task' }, { x: 660, y: 250 }, participant); // when commandStack.undo(); commandStack.redo(); // then var expectedBounds = assign(originalBounds, { width: 563 }); expect(participant).to.have.bounds(expectedBounds); expect(task2).to.be.defined; expect(task.outgoing).not.to.be.empty; expect(task2.incoming).not.to.be.empty; })); }); it('should not auto-resize when adding lane', inject(function(modeling) { // given var laneAttrs = { type: 'bpmn:Lane', width: 341, height: 178 }; // when modeling.createShape(laneAttrs, { x: 280, y: 200 }, participant); // then expect(participant).to.have.bounds(originalBounds); })); }); describe('lane', function() { var diagramXML = require('./AutoResize.lanes.bpmn'); beforeEach(bootstrapModeler(diagramXML, { modules: testModules })); it('should auto-resize to fit new element', inject(function(elementRegistry, modeling) { // given var laneShape = elementRegistry.get('Lane_Nested'); // when modeling.createShape({ type: 'bpmn:Task' }, { x: 600, y: 320 }, laneShape); // then expect(laneShape).to.have.bounds({ x: 307, y: 160, width: 443, height: 260}); })); it('should auto-resize to fit multiple moved elements', inject(function(elementRegistry, modeling) { // given var laneShape = elementRegistry.get('Lane_Nested'), taskShape = elementRegistry.get('Task_1'), startEventShape = elementRegistry.get('StartEvent_1'); var originalBounds = getBounds(laneShape); // when modeling.moveElements([ taskShape, startEventShape ], { x: 200, y: 0 }, laneShape); // then var expectedBounds = assign(originalBounds, { width: 565 }); expect(laneShape).to.have.bounds(expectedBounds); })); }); describe('sub processes', function() { var diagramXML = require('./AutoResize.sub-processes.bpmn'); beforeEach(bootstrapModeler(diagramXML, { modules: testModules })); it('should auto-resize after moving children', inject(function(elementRegistry, modeling) { // given var subProcessShape = elementRegistry.get('SubProcess_1'), taskShape = elementRegistry.get('Task_1'), startEventShape = elementRegistry.get('StartEvent_1'); var originalBounds = getBounds(subProcessShape); // when modeling.moveElements([ taskShape, startEventShape ], { x: 200, y: 0 }, subProcessShape); // then var expectedBounds = assign(originalBounds, { width: 567 }); expect(subProcessShape).to.have.bounds(expectedBounds); })); it('should auto-resize to fit new element', inject(function(elementRegistry, modeling) { // given var subProcessShape = elementRegistry.get('SubProcess_1'); var originalBounds = getBounds(subProcessShape); // when modeling.createShape({ type: 'bpmn:Task' }, { x: 450, y: 250 }, subProcessShape); // then var expectedBounds = assign(originalBounds, { width: 480, height: 298 }); expect(subProcessShape).to.have.bounds(expectedBounds); })); it('should auto-resize after dropping selection inside', inject(function(selection, move, dragging, elementRegistry, modeling) { // given var subProcessShape = elementRegistry.get('SubProcess_1'), taskShape = elementRegistry.get('Task_1'), startEventShape = elementRegistry.get('StartEvent_1'); var originalBounds = getBounds(subProcessShape); // when selection.select([ taskShape, startEventShape ]); move.start(canvasEvent({ x: 265, y: 235 }), startEventShape); dragging.hover({ element: subProcessShape, gfx: elementRegistry.getGraphics(subProcessShape) }); dragging.move(canvasEvent({ x: 450, y: 235 })); dragging.end(); // then var expectedBounds = assign(originalBounds, { width: 552 }); expect(subProcessShape).to.have.bounds(expectedBounds); })); it('should not auto-resize after dropping selection outside', inject(function(selection, canvas, move, dragging, elementRegistry, modeling) { // given var subProcessShape = elementRegistry.get('SubProcess_1'), taskShape = elementRegistry.get('Task_1'), startEventShape = elementRegistry.get('StartEvent_1'), rootShape = canvas.getRootElement(); var originalBounds = getBounds(subProcessShape); // when selection.select([ taskShape, startEventShape ]); move.start(canvasEvent({ x: 390, y: 110 }), taskShape); dragging.hover({ element: rootShape, gfx: elementRegistry.getGraphics(rootShape) }); dragging.move(canvasEvent({ x: 600, y: 110 })); dragging.end(); // then expect(subProcessShape).to.have.bounds(originalBounds); })); }); describe('after moving multiple elements', function() { var diagramXML = require('./AutoResize.multi-selection.bpmn'); beforeEach(bootstrapModeler(diagramXML, { modules: testModules })); var taskShape_1, taskShape_2, subProcessShape_1, rootShape; beforeEach(inject(function(elementRegistry, canvas) { taskShape_1 = elementRegistry.get('Task_1'); taskShape_2 = elementRegistry.get('Task_2'); subProcessShape_1 = elementRegistry.get('SubProcess_1'); rootShape = canvas.getRootElement(); })); it('should not expand, if elements keep their parents (different original parents)', inject(function(modeling) { // given var originalBounds = getBounds(subProcessShape_1); // when modeling.moveElements([ taskShape_1, taskShape_2 ], { x: -100, y: 0 }, subProcessShape_1, { primaryShape: taskShape_1 }); // then expect(subProcessShape_1).to.have.bounds(originalBounds); })); it('should expand, if elements keep their parents (same original parent)', inject(function(modeling) { // given var originalBounds = getBounds(subProcessShape_1); modeling.moveElements([ taskShape_2 ], { x: -110, y: 135 }, subProcessShape_1); // when modeling.moveElements([ taskShape_1, taskShape_2 ], { x: -110, y: 0 }, subProcessShape_1, { primaryShape: taskShape_1 }); // then var expectedBounds = assign(originalBounds, { x: 0, width: 444 }); expect(subProcessShape_1).to.have.bounds(expectedBounds); })); it('should expand, if primary shape changes parent', inject(function(modeling){ // given var originalBounds = getBounds(subProcessShape_1); // when modeling.moveElements([ taskShape_1, taskShape_2 ], { x: 0, y: 50 }, subProcessShape_1, { primaryShape: taskShape_2 }); // then var expectedBounds = assign(originalBounds, { y: 80, height: 317 }); expect(subProcessShape_1).to.have.bounds(expectedBounds); })); it('should expand top and bottom edge, if primary shape changes parent', inject(function(modeling){ // given var originalBounds = getBounds(subProcessShape_1); // when modeling.moveElements([ taskShape_1, taskShape_2 ], { x: 0, y: 100 }, subProcessShape_1, { primaryShape: taskShape_2 }); // then var expectedBounds = assign(originalBounds, { y: 130, height: 334 }); expect(subProcessShape_1).to.have.bounds(expectedBounds); })); }); describe('nested sub processes', function() { var diagramXML = require('./AutoResize.nested-sub-processes.bpmn'); beforeEach(bootstrapModeler(diagramXML, { modules: testModules })); it('should recursively expand parent element', inject(function(elementRegistry, modeling){ var taskShape = elementRegistry.get('Task_1'), subProcessShape_2 = elementRegistry.get('SubProcess_2'), subProcessShape_3 = elementRegistry.get('SubProcess_3'); var originalBounds = getBounds(subProcessShape_2); modeling.moveElements([taskShape], { x: 100, y: 0 }, subProcessShape_3); var expectedBounds = assign(originalBounds, { width: 755 }); expect(subProcessShape_2).to.have.bounds(expectedBounds); })); it('should recursively expand last parent element', inject(function(elementRegistry, modeling){ var taskShape = elementRegistry.get('Task_1'), subProcessShape_1 = elementRegistry.get('SubProcess_1'), subProcessShape_3 = elementRegistry.get('SubProcess_3'); var originalBounds = getBounds(subProcessShape_1); modeling.moveElements([ taskShape ], { x: 100, y: 0 }, subProcessShape_3); var expectedBounds = assign(originalBounds, { width: 875 }); expect(subProcessShape_1).to.have.bounds(expectedBounds); })); }); });