253 lines
8.0 KiB
TypeScript
253 lines
8.0 KiB
TypeScript
import { vi } from "vitest";
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import {
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act,
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render,
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updateSceneData,
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waitFor,
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} from "../../packages/excalidraw/tests/test-utils";
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import ExcalidrawApp from "../App";
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import { API } from "../../packages/excalidraw/tests/helpers/api";
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import { syncInvalidIndices } from "../../packages/excalidraw/fractionalIndex";
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import {
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createRedoAction,
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createUndoAction,
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} from "../../packages/excalidraw/actions/actionHistory";
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import { StoreAction, newElementWith } from "../../packages/excalidraw";
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const { h } = window;
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Object.defineProperty(window, "crypto", {
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value: {
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getRandomValues: (arr: number[]) =>
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arr.forEach((v, i) => (arr[i] = Math.floor(Math.random() * 256))),
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subtle: {
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generateKey: () => {},
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exportKey: () => ({ k: "sTdLvMC_M3V8_vGa3UVRDg" }),
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},
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},
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});
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vi.mock("../../excalidraw-app/data/firebase.ts", () => {
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const loadFromFirebase = async () => null;
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const saveToFirebase = () => {};
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const isSavedToFirebase = () => true;
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const loadFilesFromFirebase = async () => ({
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loadedFiles: [],
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erroredFiles: [],
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});
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const saveFilesToFirebase = async () => ({
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savedFiles: new Map(),
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erroredFiles: new Map(),
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});
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return {
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loadFromFirebase,
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saveToFirebase,
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isSavedToFirebase,
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loadFilesFromFirebase,
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saveFilesToFirebase,
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};
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});
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vi.mock("socket.io-client", () => {
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return {
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default: () => {
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return {
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close: () => {},
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on: () => {},
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once: () => {},
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off: () => {},
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emit: () => {},
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};
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},
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};
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});
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/**
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* These test would deserve to be extended by testing collab with (at least) two clients simultanouesly,
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* while having access to both scenes, appstates stores, histories and etc.
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* i.e. multiplayer history tests could be a good first candidate, as we could test both history stacks simultaneously.
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*/
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describe("collaboration", () => {
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it("should allow to undo / redo even on force-deleted elements", async () => {
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await render(<ExcalidrawApp />);
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const rect1Props = {
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type: "rectangle",
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id: "A",
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height: 200,
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width: 100,
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} as const;
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const rect2Props = {
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type: "rectangle",
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id: "B",
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width: 100,
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height: 200,
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} as const;
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const rect1 = API.createElement({ ...rect1Props });
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const rect2 = API.createElement({ ...rect2Props });
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updateSceneData({
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elements: syncInvalidIndices([rect1, rect2]),
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storeAction: StoreAction.CAPTURE,
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});
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updateSceneData({
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elements: syncInvalidIndices([
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rect1,
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newElementWith(h.elements[1], { isDeleted: true }),
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]),
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storeAction: StoreAction.CAPTURE,
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});
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(2);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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expect(h.elements).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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});
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// one form of force deletion happens when starting the collab, not to sync potentially sensitive data into the server
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window.collab.startCollaboration(null);
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(2);
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// we never delete from the local snapshot as it is used for correct diff calculation
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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expect(h.elements).toEqual([expect.objectContaining(rect1Props)]);
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});
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const undoAction = createUndoAction(h.history, h.store);
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act(() => h.app.actionManager.executeAction(undoAction));
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// with explicit undo (as addition) we expect our item to be restored from the snapshot!
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(1);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false }),
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]);
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expect(h.elements).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false }),
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]);
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});
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// simulate force deleting the element remotely
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updateSceneData({
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elements: syncInvalidIndices([rect1]),
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storeAction: StoreAction.UPDATE,
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});
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(1);
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expect(API.getRedoStack().length).toBe(1);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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expect(h.elements).toEqual([expect.objectContaining(rect1Props)]);
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});
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const redoAction = createRedoAction(h.history, h.store);
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act(() => h.app.actionManager.executeAction(redoAction));
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// with explicit redo (as removal) we again restore the element from the snapshot!
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(2);
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expect(API.getRedoStack().length).toBe(0);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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expect(h.elements).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true }),
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]);
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});
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act(() => h.app.actionManager.executeAction(undoAction));
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// simulate local update
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updateSceneData({
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elements: syncInvalidIndices([
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h.elements[0],
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newElementWith(h.elements[1], { x: 100 }),
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]),
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storeAction: StoreAction.CAPTURE,
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});
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(2);
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expect(API.getRedoStack().length).toBe(0);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false, x: 100 }),
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]);
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expect(h.elements).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false, x: 100 }),
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]);
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});
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act(() => h.app.actionManager.executeAction(undoAction));
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// we expect to iterate the stack to the first visible change
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(1);
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expect(API.getRedoStack().length).toBe(1);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false, x: 0 }),
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]);
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expect(h.elements).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: false, x: 0 }),
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]);
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});
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// simulate force deleting the element remotely
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updateSceneData({
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elements: syncInvalidIndices([rect1]),
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storeAction: StoreAction.UPDATE,
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});
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// snapshot was correctly updated and marked the element as deleted
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(1);
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expect(API.getRedoStack().length).toBe(1);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining(rect1Props),
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expect.objectContaining({ ...rect2Props, isDeleted: true, x: 0 }),
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]);
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expect(h.elements).toEqual([expect.objectContaining(rect1Props)]);
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});
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act(() => h.app.actionManager.executeAction(redoAction));
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// with explicit redo (as update) we again restored the element from the snapshot!
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await waitFor(() => {
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expect(API.getUndoStack().length).toBe(2);
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expect(API.getRedoStack().length).toBe(0);
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expect(API.getSnapshot()).toEqual([
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expect.objectContaining({ id: "A", isDeleted: false }),
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expect.objectContaining({ id: "B", isDeleted: true, x: 100 }),
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]);
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expect(h.history.isRedoStackEmpty).toBeTruthy();
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expect(h.elements).toEqual([
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expect.objectContaining({ id: "A", isDeleted: false }),
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expect.objectContaining({ id: "B", isDeleted: true, x: 100 }),
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]);
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});
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});
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});
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