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@tldraw/editor

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tldraw infinite canvas SDK (editor).

tldraw.dev

tldraw/tldraw

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{ "version": 3, "sources": ["../../../src/lib/utils/reparenting.ts"], "sourcesContent": ["import { EMPTY_ARRAY } from '@tldraw/state'\nimport { TLGroupShape, TLParentId, TLShape, TLShapeId } from '@tldraw/tlschema'\nimport { IndexKey, compact, getIndexAbove, getIndexBetween } from '@tldraw/utils'\nimport { Editor } from '../editor/Editor'\nimport { Vec } from '../primitives/Vec'\nimport { Geometry2d } from '../primitives/geometry/Geometry2d'\nimport { Group2d } from '../primitives/geometry/Group2d'\nimport {\n\tintersectPolygonPolygon,\n\tpolygonIntersectsPolyline,\n\tpolygonsIntersect,\n} from '../primitives/intersect'\nimport { pointInPolygon } from '../primitives/utils'\n\n/**\n * Reparents shapes that are no longer contained within their parent shapes.\n * todo: rename me to something more descriptive, like `reparentOccludedShapes` or `reparentAutoDroppedShapes`\n *\n * @param editor - The editor instance.\n * @param shapeIds - The IDs of the shapes to reparent.\n * @param opts - Optional options, including a callback to filter out certain parents, such as when removing a frame.\n *\n * @public\n */\nexport function kickoutOccludedShapes(\n\teditor: Editor,\n\tshapeIds: TLShapeId[],\n\topts?: { filter?(parent: TLShape): boolean }\n) {\n\tconst parentsToCheck = new Set<TLShape>()\n\n\tfor (const id of shapeIds) {\n\t\tconst shape = editor.getShape(id)\n\n\t\tif (!shape) continue\n\t\tparentsToCheck.add(shape)\n\n\t\tconst parent = editor.getShape(shape.parentId)\n\t\tif (!parent) continue\n\t\tparentsToCheck.add(parent)\n\t}\n\n\t// Check all of the parents and gather up parents who have lost children\n\tconst parentsToLostChildren = new Map<TLShape, TLShapeId[]>()\n\n\tfor (const parent of parentsToCheck) {\n\t\tconst childIds = editor.getSortedChildIdsForParent(parent)\n\t\tif (opts?.filter && !opts.filter(parent)) {\n\t\t\t// If the shape is filtered out, we kick out all of its children\n\t\t\tparentsToLostChildren.set(parent, childIds)\n\t\t} else {\n\t\t\tconst overlappingChildren = getOverlappingShapes(editor, parent.id, childIds)\n\t\t\tif (overlappingChildren.length < childIds.length) {\n\t\t\t\tparentsToLostChildren.set(\n\t\t\t\t\tparent,\n\t\t\t\t\tchildIds.filter((id) => !overlappingChildren.includes(id))\n\t\t\t\t)\n\t\t\t}\n\t\t}\n\t}\n\n\t// Get all of the shapes on the current page, sorted by their index\n\tconst sortedShapeIds = editor.getCurrentPageShapesSorted().map((s) => s.id)\n\n\tconst parentsToNewChildren: Record<\n\t\tTLParentId,\n\t\t{ parentId: TLParentId; shapeIds: TLShapeId[]; index?: IndexKey }\n\t> = {}\n\n\tfor (const [prevParent, lostChildrenIds] of parentsToLostChildren) {\n\t\tconst lostChildren = compact(lostChildrenIds.map((id) => editor.getShape(id)))\n\n\t\t// Don't fall \"up\" into frames in front of the shape\n\t\t// if (pageShapes.indexOf(shape) < frameSortPosition) continue shapeCheck\n\n\t\t// Otherwise, we have no next dropping shape under the cursor, so go find\n\t\t// all the frames on the page where the moving shapes will fall into\n\t\tconst { reparenting, remainingShapesToReparent } = getDroppedShapesToNewParents(\n\t\t\teditor,\n\t\t\tlostChildren,\n\t\t\t(shape, maybeNewParent) => {\n\t\t\t\t// If we're filtering out a potential parent, don't reparent shapes to the filtered out shape\n\t\t\t\tif (opts?.filter && !opts.filter(maybeNewParent)) return false\n\t\t\t\treturn (\n\t\t\t\t\tmaybeNewParent.id !== prevParent.id &&\n\t\t\t\t\tsortedShapeIds.indexOf(maybeNewParent.id) < sortedShapeIds.indexOf(shape.id)\n\t\t\t\t)\n\t\t\t}\n\t\t)\n\n\t\treparenting.forEach((childrenToReparent, newParentId) => {\n\t\t\tif (childrenToReparent.length === 0) return\n\t\t\tif (!parentsToNewChildren[newParentId]) {\n\t\t\t\tparentsToNewChildren[newParentId] = {\n\t\t\t\t\tparentId: newParentId,\n\t\t\t\t\tshapeIds: [],\n\t\t\t\t}\n\t\t\t}\n\t\t\tparentsToNewChildren[newParentId].shapeIds.push(...childrenToReparent.map((s) => s.id))\n\t\t})\n\n\t\t// Reparent the rest to the page (or containing group)\n\t\tif (remainingShapesToReparent.size > 0) {\n\t\t\t// The remaining shapes are going to be reparented to the old parent's containing group, if there was one, or else to the page\n\t\t\tconst newParentId =\n\t\t\t\teditor.findShapeAncestor(prevParent, (s) => editor.isShapeOfType<TLGroupShape>(s, 'group'))\n\t\t\t\t\t?.id ?? editor.getCurrentPageId()\n\n\t\t\tremainingShapesToReparent.forEach((shape) => {\n\t\t\t\tif (!parentsToNewChildren[newParentId]) {\n\t\t\t\t\tlet insertIndexKey: IndexKey | undefined\n\n\t\t\t\t\tconst oldParentSiblingIds = editor.getSortedChildIdsForParent(newParentId)\n\t\t\t\t\tconst oldParentIndex = oldParentSiblingIds.indexOf(prevParent.id)\n\t\t\t\t\tif (oldParentIndex > -1) {\n\t\t\t\t\t\t// If the old parent is a direct child of the new parent, then we'll add them above the old parent but below the next sibling.\n\t\t\t\t\t\tconst siblingsIndexAbove = oldParentSiblingIds[oldParentIndex + 1]\n\t\t\t\t\t\tconst indexKeyAbove = siblingsIndexAbove\n\t\t\t\t\t\t\t? editor.getShape(siblingsIndexAbove)!.index\n\t\t\t\t\t\t\t: getIndexAbove(prevParent.index)\n\t\t\t\t\t\tinsertIndexKey = getIndexBetween(prevParent.index, indexKeyAbove)\n\t\t\t\t\t} else {\n\t\t\t\t\t\t// If the old parent is not a direct child of the new parent, then we'll add them to the \"top\" of the new parent's children.\n\t\t\t\t\t\t// This is done automatically if we leave the index undefined, so let's do that.\n\t\t\t\t\t}\n\n\t\t\t\t\tparentsToNewChildren[newParentId] = {\n\t\t\t\t\t\tparentId: newParentId,\n\t\t\t\t\t\tshapeIds: [],\n\t\t\t\t\t\tindex: insertIndexKey,\n\t\t\t\t\t}\n\t\t\t\t}\n\n\t\t\t\tparentsToNewChildren[newParentId].shapeIds.push(shape.id)\n\t\t\t})\n\t\t}\n\t}\n\n\teditor.run(() => {\n\t\tObject.values(parentsToNewChildren).forEach(({ parentId, shapeIds, index }) => {\n\t\t\tif (shapeIds.length === 0) return\n\t\t\t// Before we reparent, sort the new shape ids by their place in the original absolute order on the page\n\t\t\tshapeIds.sort((a, b) => (sortedShapeIds.indexOf(a) < sortedShapeIds.indexOf(b) ? -1 : 1))\n\t\t\teditor.reparentShapes(shapeIds, parentId, index)\n\t\t})\n\t})\n}\n\n/**\n * Get the shapes that overlap with a given shape.\n *\n * @param editor - The editor instance.\n * @param shape - The shapes or shape IDs to check against.\n * @param otherShapes - The shapes or shape IDs to check for overlap.\n * @returns An array of shapes or shape IDs that overlap with the given shape.\n */\nfunction getOverlappingShapes<T extends TLShape[] | TLShapeId[]>(\n\teditor: Editor,\n\tshape: T[number],\n\totherShapes: T\n) {\n\tif (otherShapes.length === 0) {\n\t\treturn EMPTY_ARRAY\n\t}\n\n\tconst parentPageBounds = editor.getShapePageBounds(shape)\n\tif (!parentPageBounds) return EMPTY_ARRAY\n\n\tconst parentGeometry = editor.getShapeGeometry(shape)\n\tconst parentPageTransform = editor.getShapePageTransform(shape)\n\tconst parentPageCorners = parentPageTransform.applyToPoints(parentGeometry.vertices)\n\n\tconst parentPageMaskVertices = editor.getShapeMask(shape)\n\tconst parentPagePolygon = parentPageMaskVertices\n\t\t? intersectPolygonPolygon(parentPageMaskVertices, parentPageCorners)\n\t\t: parentPageCorners\n\n\tif (!parentPagePolygon) return EMPTY_ARRAY\n\n\treturn otherShapes.filter((childId) => {\n\t\tconst shapePageBounds = editor.getShapePageBounds(childId)\n\t\tif (!shapePageBounds || !parentPageBounds.includes(shapePageBounds)) return false\n\n\t\tconst parentPolygonInShapeShape = editor\n\t\t\t.getShapePageTransform(childId)\n\t\t\t.clone()\n\t\t\t.invert()\n\t\t\t.applyToPoints(parentPagePolygon)\n\n\t\tconst geometry = editor.getShapeGeometry(childId)\n\n\t\treturn doesGeometryOverlapPolygon(geometry, parentPolygonInShapeShape)\n\t})\n}\n\n/**\n * @public\n */\nexport function doesGeometryOverlapPolygon(\n\tgeometry: Geometry2d,\n\tparentCornersInShapeSpace: Vec[]\n): boolean {\n\t// If the child is a group, check if any of its children overlap the box\n\tif (geometry instanceof Group2d) {\n\t\treturn geometry.children.some((childGeometry) =>\n\t\t\tdoesGeometryOverlapPolygon(childGeometry, parentCornersInShapeSpace)\n\t\t)\n\t}\n\n\t// Otherwise, check if the geometry overlaps the box\n\tconst { vertices, center, isFilled, isEmptyLabel, isClosed } = geometry\n\n\t// We'll do things in order of cheapest to most expensive checks\n\n\t// Skip empty labels\n\tif (isEmptyLabel) return false\n\n\t// If any of the shape's vertices are inside the occluder, it's inside\n\tif (vertices.some((v) => pointInPolygon(v, parentCornersInShapeSpace))) {\n\t\treturn true\n\t}\n\n\t// If the shape is filled and closed and its center is inside the parent, it's inside\n\tif (isClosed) {\n\t\tif (isFilled) {\n\t\t\t// If closed and filled, check if the center is inside the parent\n\t\t\tif (pointInPolygon(center, parentCornersInShapeSpace)) {\n\t\t\t\treturn true\n\t\t\t}\n\n\t\t\t// ..then, slightly more expensive check, see the shape covers the entire parent but not its center\n\t\t\tif (parentCornersInShapeSpace.every((v) => pointInPolygon(v, vertices))) {\n\t\t\t\treturn true\n\t\t\t}\n\t\t}\n\n\t\t// If any the shape's vertices intersect the edge of the occluder, it's inside.\n\t\t// for example when a rotated rectangle is moved over the corner of a parent rectangle\n\t\t// If the child shape is closed, intersect as a polygon\n\t\tif (polygonsIntersect(parentCornersInShapeSpace, vertices)) {\n\t\t\treturn true\n\t\t}\n\t} else {\n\t\t// if the child shape is not closed, intersect as a polyline\n\t\tif (polygonIntersectsPolyline(parentCornersInShapeSpace, vertices)) {\n\t\t\treturn true\n\t\t}\n\t}\n\n\t// If none of the above checks passed, the shape is outside the parent\n\treturn false\n}\n\n/**\n * Get the shapes that will be reparented to new parents when the shapes are dropped.\n *\n * @param editor - The editor instance.\n * @param shapes - The shapes to check.\n * @param cb - A callback to filter out certain shapes.\n * @returns An object with the shapes that will be reparented to new parents and the shapes that will be reparented to the page or their ancestral group.\n *\n * @public\n */\nexport function getDroppedShapesToNewParents(\n\teditor: Editor,\n\tshapes: Set<TLShape> | TLShape[],\n\tcb?: (shape: TLShape, parent: TLShape) => boolean\n) {\n\tconst shapesToActuallyCheck = new Set<TLShape>(shapes)\n\tconst movingGroups = new Set<TLGroupShape>()\n\n\tfor (const shape of shapes) {\n\t\tconst parent = editor.getShapeParent(shape)\n\t\tif (parent && editor.isShapeOfType<TLGroupShape>(parent, 'group')) {\n\t\t\tif (!movingGroups.has(parent)) {\n\t\t\t\tmovingGroups.add(parent)\n\t\t\t}\n\t\t}\n\t}\n\n\t// If all of a group's children are moving, then move the group instead\n\tfor (const movingGroup of movingGroups) {\n\t\tconst children = compact(\n\t\t\teditor.getSortedChildIdsForParent(movingGroup).map((id) => editor.getShape(id))\n\t\t)\n\t\tfor (const child of children) {\n\t\t\tshapesToActuallyCheck.delete(child)\n\t\t}\n\t\tshapesToActuallyCheck.add(movingGroup)\n\t}\n\n\t// this could be cached and passed in\n\tconst shapeGroupIds = new Map<TLShapeId, TLShapeId | undefined>()\n\n\tconst reparenting = new Map<TLShapeId, TLShape[]>()\n\n\tconst remainingShapesToReparent = new Set(shapesToActuallyCheck)\n\n\tconst potentialParentShapes = editor\n\t\t.getCurrentPageShapesSorted()\n\t\t// filter out any shapes that aren't frames or that are included among the provided shapes\n\t\t.filter(\n\t\t\t(s) =>\n\t\t\t\teditor.getShapeUtil(s).canReceiveNewChildrenOfType?.(s, s.type) &&\n\t\t\t\t!remainingShapesToReparent.has(s)\n\t\t)\n\n\tparentCheck: for (let i = potentialParentShapes.length - 1; i >= 0; i--) {\n\t\tconst parentShape = potentialParentShapes[i]\n\t\tconst parentShapeContainingGroupId = editor.findShapeAncestor(parentShape, (s) =>\n\t\t\teditor.isShapeOfType<TLGroupShape>(s, 'group')\n\t\t)?.id\n\n\t\tconst parentGeometry = editor.getShapeGeometry(parentShape)\n\t\tconst parentPageTransform = editor.getShapePageTransform(parentShape)\n\t\tconst parentPageMaskVertices = editor.getShapeMask(parentShape)\n\t\tconst parentPageCorners = parentPageTransform.applyToPoints(parentGeometry.vertices)\n\t\tconst parentPagePolygon = parentPageMaskVertices\n\t\t\t? intersectPolygonPolygon(parentPageMaskVertices, parentPageCorners)\n\t\t\t: parentPageCorners\n\n\t\tif (!parentPagePolygon) continue parentCheck\n\n\t\tconst childrenToReparent = []\n\n\t\t// For each of the dropping shapes...\n\t\tshapeCheck: for (const shape of remainingShapesToReparent) {\n\t\t\t// Don't reparent a frame to itself\n\t\t\tif (parentShape.id === shape.id) continue shapeCheck\n\n\t\t\t// Use the callback to filter out certain shapes\n\t\t\tif (cb && !cb(shape, parentShape)) continue shapeCheck\n\n\t\t\tif (!shapeGroupIds.has(shape.id)) {\n\t\t\t\tshapeGroupIds.set(\n\t\t\t\t\tshape.id,\n\t\t\t\t\teditor.findShapeAncestor(shape, (s) => editor.isShapeOfType<TLGroupShape>(s, 'group'))?.id\n\t\t\t\t)\n\t\t\t}\n\n\t\t\tconst shapeGroupId = shapeGroupIds.get(shape.id)\n\n\t\t\t// Are the shape and the parent part of different groups?\n\t\t\tif (shapeGroupId !== parentShapeContainingGroupId) continue shapeCheck\n\n\t\t\t// Is the shape is actually the ancestor of the parent?\n\t\t\tif (editor.findShapeAncestor(parentShape, (s) => shape.id === s.id)) continue shapeCheck\n\n\t\t\t// Convert the parent polygon to the shape's space\n\t\t\tconst parentPolygonInShapeSpace = editor\n\t\t\t\t.getShapePageTransform(shape)\n\t\t\t\t.clone()\n\t\t\t\t.invert()\n\t\t\t\t.applyToPoints(parentPagePolygon)\n\n\t\t\t// If the shape overlaps the parent polygon, reparent it to that parent\n\t\t\tif (doesGeometryOverlapPolygon(editor.getShapeGeometry(shape), parentPolygonInShapeSpace)) {\n\t\t\t\t// Use the util to check if the shape can be reparented to the parent\n\t\t\t\tif (\n\t\t\t\t\t!editor.getShapeUtil(parentShape).canReceiveNewChildrenOfType?.(parentShape, shape.type)\n\t\t\t\t)\n\t\t\t\t\tcontinue shapeCheck\n\n\t\t\t\tif (shape.parentId !== parentShape.id) {\n\t\t\t\t\tchildrenToReparent.push(shape)\n\t\t\t\t}\n\t\t\t\tremainingShapesToReparent.delete(shape)\n\t\t\t\tcontinue shapeCheck\n\t\t\t}\n\t\t}\n\n\t\tif (childrenToReparent.length) {\n\t\t\treparenting.set(parentShape.id, childrenToReparent)\n\t\t}\n\t}\n\n\treturn {\n\t\t// these are the shapes that will be reparented to new parents\n\t\treparenting,\n\t\t// these are the shapes that will be reparented to the page or their ancestral group\n\t\tremainingShapesToReparent,\n\t}\n}\n"], "mappings": 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