import { v4 as uuid } from 'uuid' import * as vec from 'utils/vec' import * as svg from 'utils/svg' import { ArrowShape, ColorStyle, DashStyle, ShapeHandle, ShapeType, SizeStyle, } from 'types' import { registerShapeUtils } from './index' import { circleFromThreePoints, clamp, isAngleBetween } from 'utils/utils' import { pointInBounds } from 'utils/bounds' import { intersectArcBounds, intersectLineSegmentBounds, } from 'utils/intersections' import { getBoundsFromPoints, translateBounds } from 'utils/utils' import { pointInCircle } from 'utils/hitTests' import { defaultStyle, getShapeStyle } from 'lib/shape-styles' const ctpCache = new WeakMap() function getCtp(shape: ArrowShape) { if (!ctpCache.has(shape.handles)) { const { start, end, bend } = shape.handles ctpCache.set( shape.handles, circleFromThreePoints(start.point, end.point, bend.point) ) } return ctpCache.get(shape.handles) } const arrow = registerShapeUtils({ boundsCache: new WeakMap([]), create(props) { const { point = [0, 0], points = [ [0, 0], [0, 1], ], handles = { start: { id: 'start', index: 0, point: [0, 0], }, end: { id: 'end', index: 1, point: [1, 1], }, bend: { id: 'bend', index: 2, point: [0.5, 0.5], }, }, } = props return { id: uuid(), type: ShapeType.Arrow, isGenerated: false, name: 'Arrow', parentId: 'page0', childIndex: 0, point, rotation: 0, isAspectRatioLocked: false, isLocked: false, isHidden: false, bend: 0, points, handles, decorations: { start: null, end: null, middle: null, }, ...props, style: { ...defaultStyle, ...props.style, isFilled: false, }, } }, render(shape) { const { id, bend, points, handles } = shape const { start, end, bend: _bend } = handles const arrowDist = vec.dist(start.point, end.point) const bendDist = arrowDist * bend const showCircle = Math.abs(bendDist) > 20 const style = getShapeStyle(shape.style) // Arrowhead const length = Math.min(arrowDist / 2, 16 + +style.strokeWidth * 2) const angle = showCircle ? bend * (Math.PI * 0.48) : 0 const u = vec.uni(vec.vec(start.point, end.point)) const v = vec.rot(vec.mul(vec.neg(u), length), angle) const b = vec.add(points[1], vec.rot(v, Math.PI / 6)) const c = vec.add(points[1], vec.rot(v, -(Math.PI / 6))) if (showCircle && !ctpCache.has(handles)) { ctpCache.set( handles, circleFromThreePoints(start.point, end.point, _bend.point) ) } const circle = showCircle && getCtp(shape) return ( {circle ? ( <> ) : ( )} ) }, getBounds(shape) { if (!this.boundsCache.has(shape)) { this.boundsCache.set(shape, getBoundsFromPoints(shape.points)) } return translateBounds(this.boundsCache.get(shape), shape.point) }, hitTest(shape, point) { const { start, end, bend } = shape.handles if (shape.bend === 0) { return ( vec.distanceToLineSegment( start.point, end.point, vec.sub(point, shape.point) ) < 4 ) } const [cx, cy, r] = getCtp(shape) return !pointInCircle(point, vec.add(shape.point, [cx, cy]), r - 4) }, hitTestBounds(this, shape, brushBounds) { const { start, end, bend } = shape.handles const sp = vec.add(shape.point, start.point) const ep = vec.add(shape.point, end.point) if (pointInBounds(sp, brushBounds) || pointInBounds(ep, brushBounds)) { return true } if (vec.isEqual(vec.med(start.point, end.point), bend.point)) { return intersectLineSegmentBounds(sp, ep, brushBounds).length > 0 } else { const [cx, cy, r] = getCtp(shape) const cp = vec.add(shape.point, [cx, cy]) return intersectArcBounds(sp, ep, cp, r, brushBounds).length > 0 } }, transform(shape, bounds, { initialShape, scaleX, scaleY }) { const initialShapeBounds = this.getBounds(initialShape) shape.point = [bounds.minX, bounds.minY] shape.points = shape.points.map((_, i) => { const [x, y] = initialShape.points[i] let nw = x / initialShapeBounds.width let nh = y / initialShapeBounds.height if (i === 1) { let [x0, y0] = initialShape.points[0] if (x0 === x) nw = 1 if (y0 === y) nh = 1 } return [ bounds.width * (scaleX < 0 ? 1 - nw : nw), bounds.height * (scaleY < 0 ? 1 - nh : nh), ] }) const { start, end, bend } = shape.handles start.point = shape.points[0] end.point = shape.points[1] bend.point = getBendPoint(shape) shape.points = [shape.handles.start.point, shape.handles.end.point] return this }, onHandleMove(shape, handles) { for (let id in handles) { const handle = handles[id] shape.handles[handle.id] = handle if (handle.index < 2) { shape.points[handle.index] = handle.point } const { start, end, bend } = shape.handles const dist = vec.dist(start.point, end.point) if (handle.id === 'bend') { const midPoint = vec.med(start.point, end.point) const u = vec.uni(vec.vec(start.point, end.point)) const ap = vec.add(midPoint, vec.mul(vec.per(u), dist / 2)) const bp = vec.sub(midPoint, vec.mul(vec.per(u), dist / 2)) bend.point = vec.nearestPointOnLineSegment(ap, bp, bend.point, true) shape.bend = vec.dist(bend.point, midPoint) / (dist / 2) const sa = vec.angle(end.point, start.point) const la = sa - Math.PI / 2 if (isAngleBetween(sa, la, vec.angle(end.point, bend.point))) { shape.bend *= -1 } } } shape.handles.bend.point = getBendPoint(shape) return this }, applyStyles(shape, style) { Object.assign(shape.style, style) shape.style.isFilled = false return this }, canStyleFill: false, }) export default arrow function getArrowArcPath( start: ShapeHandle, end: ShapeHandle, circle: number[], bend: number ) { return [ 'M', start.point[0], start.point[1], 'A', circle[2], circle[2], 0, 0, bend < 0 ? 0 : 1, end.point[0], end.point[1], ].join(' ') } function getBendPoint(shape: ArrowShape) { const { start, end, bend } = shape.handles const dist = vec.dist(start.point, end.point) const midPoint = vec.med(start.point, end.point) const bendDist = (dist / 2) * shape.bend const u = vec.uni(vec.vec(start.point, end.point)) return Math.abs(bendDist) < 10 ? midPoint : vec.add(midPoint, vec.mul(vec.per(u), bendDist)) }