chore: unbuild circular dependency

Inline `ResizeUtil` into behavior to prevent circular depdendency.

It is not being used outside the behavior anyway and uses behavior
internals (lane dimensions).
This commit is contained in:
Nico Rehwaldt 2021-10-14 22:55:46 +02:00 committed by Nico Rehwaldt
parent df60006c74
commit b4bd6557b1
6 changed files with 414 additions and 407 deletions

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@ -2,7 +2,14 @@ import { is } from '../../../util/ModelUtil';
import { isExpanded } from '../../../util/DiUtil';
import { getParticipantResizeConstraints } from './util/ResizeUtil';
import {
asTRBL
} from 'diagram-js/lib/layout/LayoutUtil';
import {
collectLanes,
getLanesRoot
} from '../util/LaneUtil';
var HIGH_PRIORITY = 1500;
@ -14,7 +21,6 @@ export var SUB_PROCESS_MIN_DIMENSIONS = { width: 140, height: 120 };
export var TEXT_ANNOTATION_MIN_DIMENSIONS = { width: 50, height: 30 };
/**
* Set minimum bounds/resize constraints on resize.
*
@ -45,4 +51,124 @@ export default function ResizeBehavior(eventBus) {
});
}
ResizeBehavior.$inject = [ 'eventBus' ];
ResizeBehavior.$inject = [ 'eventBus' ];
var abs = Math.abs,
min = Math.min,
max = Math.max;
function addToTrbl(trbl, attr, value, choice) {
var current = trbl[attr];
// make sure to set the value if it does not exist
// or apply the correct value by comparing against
// choice(value, currentValue)
trbl[attr] = current === undefined ? value : choice(value, current);
}
function addMin(trbl, attr, value) {
return addToTrbl(trbl, attr, value, min);
}
function addMax(trbl, attr, value) {
return addToTrbl(trbl, attr, value, max);
}
var LANE_RIGHT_PADDING = 20,
LANE_LEFT_PADDING = 50,
LANE_TOP_PADDING = 20,
LANE_BOTTOM_PADDING = 20;
export function getParticipantResizeConstraints(laneShape, resizeDirection, balanced) {
var lanesRoot = getLanesRoot(laneShape);
var isFirst = true,
isLast = true;
// max top/bottom size for lanes
var allLanes = collectLanes(lanesRoot, [ lanesRoot ]);
var laneTrbl = asTRBL(laneShape);
var maxTrbl = {},
minTrbl = {};
if (/e/.test(resizeDirection)) {
minTrbl.right = laneTrbl.left + LANE_MIN_DIMENSIONS.width;
} else
if (/w/.test(resizeDirection)) {
minTrbl.left = laneTrbl.right - LANE_MIN_DIMENSIONS.width;
}
allLanes.forEach(function(other) {
var otherTrbl = asTRBL(other);
if (/n/.test(resizeDirection)) {
if (otherTrbl.top < (laneTrbl.top - 10)) {
isFirst = false;
}
// max top size (based on next element)
if (balanced && abs(laneTrbl.top - otherTrbl.bottom) < 10) {
addMax(maxTrbl, 'top', otherTrbl.top + LANE_MIN_DIMENSIONS.height);
}
// min top size (based on self or nested element)
if (abs(laneTrbl.top - otherTrbl.top) < 5) {
addMin(minTrbl, 'top', otherTrbl.bottom - LANE_MIN_DIMENSIONS.height);
}
}
if (/s/.test(resizeDirection)) {
if (otherTrbl.bottom > (laneTrbl.bottom + 10)) {
isLast = false;
}
// max bottom size (based on previous element)
if (balanced && abs(laneTrbl.bottom - otherTrbl.top) < 10) {
addMin(maxTrbl, 'bottom', otherTrbl.bottom - LANE_MIN_DIMENSIONS.height);
}
// min bottom size (based on self or nested element)
if (abs(laneTrbl.bottom - otherTrbl.bottom) < 5) {
addMax(minTrbl, 'bottom', otherTrbl.top + LANE_MIN_DIMENSIONS.height);
}
}
});
// max top/bottom/left/right size based on flow nodes
var flowElements = lanesRoot.children.filter(function(s) {
return !s.hidden && !s.waypoints && (is(s, 'bpmn:FlowElement') || is(s, 'bpmn:Artifact'));
});
flowElements.forEach(function(flowElement) {
var flowElementTrbl = asTRBL(flowElement);
if (isFirst && /n/.test(resizeDirection)) {
addMin(minTrbl, 'top', flowElementTrbl.top - LANE_TOP_PADDING);
}
if (/e/.test(resizeDirection)) {
addMax(minTrbl, 'right', flowElementTrbl.right + LANE_RIGHT_PADDING);
}
if (isLast && /s/.test(resizeDirection)) {
addMax(minTrbl, 'bottom', flowElementTrbl.bottom + LANE_BOTTOM_PADDING);
}
if (/w/.test(resizeDirection)) {
addMin(minTrbl, 'left', flowElementTrbl.left - LANE_LEFT_PADDING);
}
});
return {
min: minTrbl,
max: maxTrbl
};
}

View File

@ -1,132 +1 @@
import { is } from '../../../../util/ModelUtil';
import {
asTRBL
} from 'diagram-js/lib/layout/LayoutUtil';
import {
collectLanes,
getLanesRoot
} from '../../../modeling/util/LaneUtil';
import { LANE_MIN_DIMENSIONS } from '../ResizeBehavior';
var abs = Math.abs,
min = Math.min,
max = Math.max;
function addToTrbl(trbl, attr, value, choice) {
var current = trbl[attr];
// make sure to set the value if it does not exist
// or apply the correct value by comparing against
// choice(value, currentValue)
trbl[attr] = current === undefined ? value : choice(value, current);
}
function addMin(trbl, attr, value) {
return addToTrbl(trbl, attr, value, min);
}
function addMax(trbl, attr, value) {
return addToTrbl(trbl, attr, value, max);
}
var LANE_RIGHT_PADDING = 20,
LANE_LEFT_PADDING = 50,
LANE_TOP_PADDING = 20,
LANE_BOTTOM_PADDING = 20;
export function getParticipantResizeConstraints(laneShape, resizeDirection, balanced) {
var lanesRoot = getLanesRoot(laneShape);
var isFirst = true,
isLast = true;
// max top/bottom size for lanes
var allLanes = collectLanes(lanesRoot, [ lanesRoot ]);
var laneTrbl = asTRBL(laneShape);
var maxTrbl = {},
minTrbl = {};
if (/e/.test(resizeDirection)) {
minTrbl.right = laneTrbl.left + LANE_MIN_DIMENSIONS.width;
} else
if (/w/.test(resizeDirection)) {
minTrbl.left = laneTrbl.right - LANE_MIN_DIMENSIONS.width;
}
allLanes.forEach(function(other) {
var otherTrbl = asTRBL(other);
if (/n/.test(resizeDirection)) {
if (otherTrbl.top < (laneTrbl.top - 10)) {
isFirst = false;
}
// max top size (based on next element)
if (balanced && abs(laneTrbl.top - otherTrbl.bottom) < 10) {
addMax(maxTrbl, 'top', otherTrbl.top + LANE_MIN_DIMENSIONS.height);
}
// min top size (based on self or nested element)
if (abs(laneTrbl.top - otherTrbl.top) < 5) {
addMin(minTrbl, 'top', otherTrbl.bottom - LANE_MIN_DIMENSIONS.height);
}
}
if (/s/.test(resizeDirection)) {
if (otherTrbl.bottom > (laneTrbl.bottom + 10)) {
isLast = false;
}
// max bottom size (based on previous element)
if (balanced && abs(laneTrbl.bottom - otherTrbl.top) < 10) {
addMin(maxTrbl, 'bottom', otherTrbl.bottom - LANE_MIN_DIMENSIONS.height);
}
// min bottom size (based on self or nested element)
if (abs(laneTrbl.bottom - otherTrbl.bottom) < 5) {
addMax(minTrbl, 'bottom', otherTrbl.top + LANE_MIN_DIMENSIONS.height);
}
}
});
// max top/bottom/left/right size based on flow nodes
var flowElements = lanesRoot.children.filter(function(s) {
return !s.hidden && !s.waypoints && (is(s, 'bpmn:FlowElement') || is(s, 'bpmn:Artifact'));
});
flowElements.forEach(function(flowElement) {
var flowElementTrbl = asTRBL(flowElement);
if (isFirst && /n/.test(resizeDirection)) {
addMin(minTrbl, 'top', flowElementTrbl.top - LANE_TOP_PADDING);
}
if (/e/.test(resizeDirection)) {
addMax(minTrbl, 'right', flowElementTrbl.right + LANE_RIGHT_PADDING);
}
if (isLast && /s/.test(resizeDirection)) {
addMax(minTrbl, 'bottom', flowElementTrbl.bottom + LANE_BOTTOM_PADDING);
}
if (/w/.test(resizeDirection)) {
addMin(minTrbl, 'left', flowElementTrbl.left - LANE_LEFT_PADDING);
}
});
return {
min: minTrbl,
max: maxTrbl
};
}
export { getParticipantResizeConstraints } from '../ResizeBehavior';

View File

@ -13,6 +13,10 @@ import {
createCanvasEvent as canvasEvent
} from '../../../../util/MockEvents';
import {
getParticipantResizeConstraints
} from 'lib/features/modeling/behavior/ResizeBehavior';
var testModules = [
coreModule,
modelingModule,
@ -255,4 +259,280 @@ describe('features/modeling - resize behavior', function() {
});
});
var LANE_MIN_HEIGHT = 60,
LANE_RIGHT_PADDING = 20,
LANE_LEFT_PADDING = 50,
LANE_TOP_PADDING = 20,
LANE_BOTTOM_PADDING = 20;
describe('modeling/behavior - resize behavior - utilities', function() {
describe('#getParticipantResizeConstraints', function() {
describe('lanes', function() {
var diagramXML = require('./ResizeBehavior.utility.lanes.bpmn');
beforeEach(bootstrapModeler(diagramXML, { modules: [ coreModule ] }));
it('resize participant (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: otherLaneShape.y + LANE_MIN_HEIGHT
},
max: {}
});
}));
it('bottom lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: otherLaneShape.y + LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize participant (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
otherLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize top lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_A'),
otherLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize middle lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
aboveLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n', true);
// then
expect(sizeConstraints).to.eql({
min: {
top: resizeShape.y + resizeShape.height - LANE_MIN_HEIGHT
},
max: {
top: aboveLaneShape.y + LANE_MIN_HEIGHT
}
});
}));
it('resize middle lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's', true);
// then
expect(sizeConstraints).to.eql({
min: {
bottom: resizeShape.y + LANE_MIN_HEIGHT
},
max: {
bottom: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
}
});
}));
});
describe('flowNodes', function() {
var diagramXML = require('./ResizeBehavior.utility.lanes-flowNodes.bpmn');
beforeEach(bootstrapModeler(diagramXML, { modules: [ coreModule ] }));
it('resize participant (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
taskShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: taskShape.y + taskShape.height + LANE_BOTTOM_PADDING
},
max: {}
});
}));
it('bottom lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
taskShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: taskShape.y + taskShape.height + LANE_BOTTOM_PADDING
},
max: {}
});
}));
it('resize participant (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
taskShape = elementRegistry.get('Task_Boundary');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: taskShape.y - LANE_TOP_PADDING
},
max: {}
});
}));
it('resize top lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_A'),
taskShape = elementRegistry.get('Task_Boundary');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: taskShape.y - LANE_TOP_PADDING
},
max: {}
});
}));
it('resize lane (W)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
otherShape = elementRegistry.get('Boundary_label');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'w');
// then
expect(sizeConstraints).to.eql({
min: {
left: otherShape.x - LANE_LEFT_PADDING
},
max: { }
});
}));
it('resize lane (E)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
otherShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'e');
// then
expect(sizeConstraints).to.eql({
min: {
right: otherShape.x + otherShape.width + LANE_RIGHT_PADDING
},
max: { }
});
}));
});
});
});

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@ -1,282 +1,14 @@
import {
bootstrapModeler,
inject
} from 'test/TestHelper';
import { getParticipantResizeConstraints } from 'lib/features/modeling/behavior/util/ResizeUtil';
import coreModule from 'lib/core';
var LANE_MIN_HEIGHT = 60,
LANE_RIGHT_PADDING = 20,
LANE_LEFT_PADDING = 50,
LANE_TOP_PADDING = 20,
LANE_BOTTOM_PADDING = 20;
getParticipantResizeConstraints
} from 'lib/features/modeling/behavior/util/ResizeUtil';
describe('modeling/behavior/util - Resize', function() {
describe('#getParticipantResizeConstraints', function() {
describe('lanes', function() {
var diagramXML = require('./ResizeUtil.lanes.bpmn');
beforeEach(bootstrapModeler(diagramXML, { modules: [ coreModule ] }));
it('resize participant (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: otherLaneShape.y + LANE_MIN_HEIGHT
},
max: {}
});
}));
it('bottom lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: otherLaneShape.y + LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize participant (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
otherLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize top lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_A'),
otherLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
},
max: {}
});
}));
it('resize middle lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
aboveLaneShape = elementRegistry.get('Nested_Lane_A');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n', true);
// then
expect(sizeConstraints).to.eql({
min: {
top: resizeShape.y + resizeShape.height - LANE_MIN_HEIGHT
},
max: {
top: aboveLaneShape.y + LANE_MIN_HEIGHT
}
});
}));
it('resize middle lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
otherLaneShape = elementRegistry.get('Lane_B');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's', true);
// then
expect(sizeConstraints).to.eql({
min: {
bottom: resizeShape.y + LANE_MIN_HEIGHT
},
max: {
bottom: otherLaneShape.y + otherLaneShape.height - LANE_MIN_HEIGHT
}
});
}));
});
describe('flowNodes', function() {
var diagramXML = require('./ResizeUtil.lanes-flowNodes.bpmn');
beforeEach(bootstrapModeler(diagramXML, { modules: [ coreModule ] }));
it('resize participant (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
taskShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: taskShape.y + taskShape.height + LANE_BOTTOM_PADDING
},
max: {}
});
}));
it('bottom lane (S)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
taskShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 's');
// then
expect(sizeConstraints).to.eql({
min: {
bottom: taskShape.y + taskShape.height + LANE_BOTTOM_PADDING
},
max: {}
});
}));
it('resize participant (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Participant_Lane'),
taskShape = elementRegistry.get('Task_Boundary');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: taskShape.y - LANE_TOP_PADDING
},
max: {}
});
}));
it('resize top lane (N)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_A'),
taskShape = elementRegistry.get('Task_Boundary');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'n');
// then
expect(sizeConstraints).to.eql({
min: {
top: taskShape.y - LANE_TOP_PADDING
},
max: {}
});
}));
it('resize lane (W)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Nested_Lane_B'),
otherShape = elementRegistry.get('Boundary_label');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'w');
// then
expect(sizeConstraints).to.eql({
min: {
left: otherShape.x - LANE_LEFT_PADDING
},
max: { }
});
}));
it('resize lane (E)', inject(function(elementRegistry) {
// given
var resizeShape = elementRegistry.get('Lane_B'),
otherShape = elementRegistry.get('Task');
// when
var sizeConstraints = getParticipantResizeConstraints(resizeShape, 'e');
// then
expect(sizeConstraints).to.eql({
min: {
right: otherShape.x + otherShape.width + LANE_RIGHT_PADDING
},
max: { }
});
}));
it('should expose', function() {
expect(getParticipantResizeConstraints).to.exist;
});
});