import { getChildLanes, LANE_INDENTATION } from '../util/LaneUtil'; /** * A handler that splits a lane into a number of sub-lanes, * creating new sub lanes, if neccessary. * * @param {Modeling} modeling */ export default function SplitLaneHandler(modeling, translate) { this._modeling = modeling; this._translate = translate; } SplitLaneHandler.$inject = [ 'modeling', 'translate' ]; SplitLaneHandler.prototype.preExecute = function(context) { var modeling = this._modeling, translate = this._translate; var shape = context.shape, newLanesCount = context.count; var childLanes = getChildLanes(shape), existingLanesCount = childLanes.length; if (existingLanesCount > newLanesCount) { throw new Error(translate('more than {count} child lanes', { count: newLanesCount })); } var newLanesHeight = Math.round(shape.height / newLanesCount); // Iterate from top to bottom in child lane order, // resizing existing lanes and creating new ones // so that they split the parent proportionally. // // Due to rounding related errors, the bottom lane // needs to take up all the remaining space. var laneY, laneHeight, laneBounds, newLaneAttrs, idx; for (idx = 0; idx < newLanesCount; idx++) { laneY = shape.y + idx * newLanesHeight; // if bottom lane if (idx === newLanesCount - 1) { laneHeight = shape.height - (newLanesHeight * idx); } else { laneHeight = newLanesHeight; } laneBounds = { x: shape.x + LANE_INDENTATION, y: laneY, width: shape.width - LANE_INDENTATION, height: laneHeight }; if (idx < existingLanesCount) { // resize existing lane modeling.resizeShape(childLanes[idx], laneBounds); } else { // create a new lane at position newLaneAttrs = { type: 'bpmn:Lane' }; modeling.createShape(newLaneAttrs, laneBounds, shape); } } };