import Command from './command' import history from '../history' import { Data, DistributeType } from 'types' import { getBoundsCenter, getCommonBounds, getPage, getSelectedShapes, } from 'utils/utils' import { getShapeUtils } from 'state/shape-utils' export default function distributeCommand( data: Data, type: DistributeType ): void { const { currentPageId } = data const selectedShapes = getSelectedShapes(data).filter( (shape) => !shape.isLocked ) const entries = selectedShapes.map( (shape) => [shape.id, getShapeUtils(shape).getBounds(shape)] as const ) const boundsForShapes = Object.fromEntries(entries) const commonBounds = getCommonBounds(...entries.map((entry) => entry[1])) const centers = Object.fromEntries( selectedShapes.map((shape) => [ shape.id, getBoundsCenter(boundsForShapes[shape.id]), ]) ) history.execute( data, new Command({ name: 'distribute_shapes', category: 'canvas', do(data) { const { shapes } = getPage(data, currentPageId) const len = entries.length switch (type) { case DistributeType.Horizontal: { const span = entries.reduce((a, c) => a + c[1].width, 0) if (span > commonBounds.width) { const left = entries.sort((a, b) => a[1].minX - b[1].minX)[0] const right = entries.sort((a, b) => b[1].maxX - a[1].maxX)[0] const entriesToMove = entries .filter((a) => a !== left && a !== right) .sort((a, b) => centers[a[0]][0] - centers[b[0]][0]) const step = (centers[right[0]][0] - centers[left[0]][0]) / (len - 1) const x = centers[left[0]][0] + step for (let i = 0; i < entriesToMove.length; i++) { const [id, bounds] = entriesToMove[i] const shape = shapes[id] getShapeUtils(shape).translateTo(shape, [ x + step * i - bounds.width / 2, bounds.minY, ]) } } else { const entriesToMove = entries.sort( (a, b) => centers[a[0]][0] - centers[b[0]][0] ) let x = commonBounds.minX const step = (commonBounds.width - span) / (len - 1) for (let i = 0; i < entriesToMove.length - 1; i++) { const [id, bounds] = entriesToMove[i] const shape = shapes[id] getShapeUtils(shape).translateTo(shape, [x, bounds.minY]) x += bounds.width + step } } break } case DistributeType.Vertical: { const span = entries.reduce((a, c) => a + c[1].height, 0) if (span > commonBounds.height) { const top = entries.sort((a, b) => a[1].minY - b[1].minY)[0] const bottom = entries.sort((a, b) => b[1].maxY - a[1].maxY)[0] const entriesToMove = entries .filter((a) => a !== top && a !== bottom) .sort((a, b) => centers[a[0]][1] - centers[b[0]][1]) const step = (centers[bottom[0]][1] - centers[top[0]][1]) / (len - 1) const y = centers[top[0]][1] + step for (let i = 0; i < entriesToMove.length; i++) { const [id, bounds] = entriesToMove[i] const shape = shapes[id] getShapeUtils(shape).translateTo(shape, [ bounds.minX, y + step * i - bounds.height / 2, ]) } } else { const entriesToMove = entries.sort( (a, b) => centers[a[0]][1] - centers[b[0]][1] ) let y = commonBounds.minY const step = (commonBounds.height - span) / (len - 1) for (let i = 0; i < entriesToMove.length - 1; i++) { const [id, bounds] = entriesToMove[i] const shape = shapes[id] getShapeUtils(shape).translateTo(shape, [bounds.minX, y]) y += bounds.height + step } } break } } }, undo(data) { const { shapes } = getPage(data, currentPageId) for (const id in boundsForShapes) { const shape = shapes[id] const initialBounds = boundsForShapes[id] getShapeUtils(shape).translateTo(shape, [ initialBounds.minX, initialBounds.minY, ]) } }, }) ) }