import React from "react"; import ReactDOM from "react-dom"; import rough from "roughjs/bin/rough"; import { RoughCanvas } from "roughjs/bin/canvas"; import { newElement, newTextElement, duplicateElement, resizeTest, normalizeResizeHandle, isInvisiblySmallElement, isTextElement, textWysiwyg, getCommonBounds, getCursorForResizingElement, getPerfectElementSize, normalizeDimensions, } from "./element"; import { clearSelection, deleteSelectedElements, getElementsWithinSelection, isOverScrollBars, saveToLocalStorage, getElementAtPosition, createScene, getElementContainingPosition, hasBackground, hasStroke, hasText, exportCanvas, loadScene, calculateScrollCenter, loadFromBlob, } from "./scene"; import { renderScene } from "./renderer"; import { AppState } from "./types"; import { ExcalidrawElement } from "./element/types"; import { isWritableElement, isInputLike, isToolIcon, debounce, capitalizeString, distance, distance2d, resetCursor, } from "./utils"; import { KEYS, isArrowKey } from "./keys"; import { findShapeByKey, shapesShortcutKeys, SHAPES } from "./shapes"; import { createHistory } from "./history"; import ContextMenu from "./components/ContextMenu"; import "./styles.scss"; import { getElementWithResizeHandler } from "./element/resizeTest"; import { ActionManager, actionDeleteSelected, actionSendBackward, actionBringForward, actionSendToBack, actionBringToFront, actionSelectAll, actionChangeStrokeColor, actionChangeBackgroundColor, actionChangeOpacity, actionChangeStrokeWidth, actionChangeFillStyle, actionChangeSloppiness, actionChangeFontSize, actionChangeFontFamily, actionChangeViewBackgroundColor, actionClearCanvas, actionChangeProjectName, actionChangeExportBackground, actionLoadScene, actionSaveScene, actionCopyStyles, actionPasteStyles, actionFinalize, } from "./actions"; import { Action, ActionResult } from "./actions/types"; import { getDefaultAppState } from "./appState"; import { Island } from "./components/Island"; import Stack from "./components/Stack"; import { FixedSideContainer } from "./components/FixedSideContainer"; import { ToolButton } from "./components/ToolButton"; import { LockIcon } from "./components/LockIcon"; import { ExportDialog } from "./components/ExportDialog"; import { LanguageList } from "./components/LanguageList"; import { Point } from "roughjs/bin/geometry"; import { t, languages, setLanguage, getLanguage } from "./i18n"; import { HintViewer } from "./components/HintViewer"; import { copyToAppClipboard, getClipboardContent } from "./clipboard"; let { elements } = createScene(); const { history } = createHistory(); function setCursorForShape(shape: string) { if (shape === "selection") { resetCursor(); } else { document.documentElement.style.cursor = shape === "text" ? CURSOR_TYPE.TEXT : CURSOR_TYPE.CROSSHAIR; } } const DRAGGING_THRESHOLD = 10; // 10px const ELEMENT_SHIFT_TRANSLATE_AMOUNT = 5; const ELEMENT_TRANSLATE_AMOUNT = 1; const TEXT_TO_CENTER_SNAP_THRESHOLD = 30; const CURSOR_TYPE = { TEXT: "text", CROSSHAIR: "crosshair", GRABBING: "grabbing", }; const MOUSE_BUTTON = { MAIN: 0, WHEEL: 1, SECONDARY: 2, }; let lastCanvasWidth = -1; let lastCanvasHeight = -1; let lastMouseUp: ((e: any) => void) | null = null; export function viewportCoordsToSceneCoords( { clientX, clientY }: { clientX: number; clientY: number }, { scrollX, scrollY }: { scrollX: number; scrollY: number }, ) { const x = clientX - scrollX; const y = clientY - scrollY; return { x, y }; } let cursorX = 0; let cursorY = 0; let isHoldingSpace: boolean = false; let isPanning: boolean = false; let isHoldingMouseButton: boolean = false; interface LayerUIProps { actionManager: ActionManager; appState: AppState; canvas: HTMLCanvasElement | null; setAppState: any; elements: readonly ExcalidrawElement[]; language: string; setElements: (elements: readonly ExcalidrawElement[]) => void; } const LayerUI = React.memo( ({ actionManager, appState, setAppState, canvas, elements, language, setElements, }: LayerUIProps) => { function renderCanvasActions() { return ( {actionManager.renderAction("loadScene")} {actionManager.renderAction("saveScene")} { if (canvas) { exportCanvas("png", exportedElements, canvas, { exportBackground: appState.exportBackground, name: appState.name, viewBackgroundColor: appState.viewBackgroundColor, scale, }); } }} onExportToSvg={(exportedElements, scale) => { if (canvas) { exportCanvas("svg", exportedElements, canvas, { exportBackground: appState.exportBackground, name: appState.name, viewBackgroundColor: appState.viewBackgroundColor, scale, }); } }} onExportToClipboard={(exportedElements, scale) => { if (canvas) { exportCanvas("clipboard", exportedElements, canvas, { exportBackground: appState.exportBackground, name: appState.name, viewBackgroundColor: appState.viewBackgroundColor, scale, }); } }} onExportToBackend={exportedElements => { if (canvas) { exportCanvas( "backend", exportedElements.map(element => ({ ...element, isSelected: false, })), canvas, appState, ); } }} /> {actionManager.renderAction("clearCanvas")} {actionManager.renderAction("changeViewBackgroundColor")} ); } function renderSelectedShapeActions( elements: readonly ExcalidrawElement[], ) { const { elementType, editingElement } = appState; const targetElements = editingElement ? [editingElement] : elements.filter(el => el.isSelected); if (!targetElements.length && elementType === "selection") { return null; } return (
{actionManager.renderAction("changeStrokeColor")} {(hasBackground(elementType) || targetElements.some(element => hasBackground(element.type))) && ( <> {actionManager.renderAction("changeBackgroundColor")} {actionManager.renderAction("changeFillStyle")} )} {(hasStroke(elementType) || targetElements.some(element => hasStroke(element.type))) && ( <> {actionManager.renderAction("changeStrokeWidth")} {actionManager.renderAction("changeSloppiness")} )} {(hasText(elementType) || targetElements.some(element => hasText(element.type))) && ( <> {actionManager.renderAction("changeFontSize")} {actionManager.renderAction("changeFontFamily")} )} {actionManager.renderAction("changeOpacity")}
{t("labels.layers")}
{actionManager.renderAction("sendToBack")} {actionManager.renderAction("sendBackward")} {actionManager.renderAction("bringToFront")} {actionManager.renderAction("bringForward")}
{actionManager.renderAction("deleteSelectedElements")}
); } function renderShapesSwitcher() { return ( <> {SHAPES.map(({ value, icon }, index) => { const label = t(`toolBar.${value}`); return ( { setAppState({ elementType: value, multiElement: null }); setElements(clearSelection(elements)); document.documentElement.style.cursor = value === "text" ? CURSOR_TYPE.TEXT : CURSOR_TYPE.CROSSHAIR; setAppState({}); }} > ); })} ); } return ( <>

{t("headings.canvasActions")}

{renderCanvasActions()}

{t("headings.selectedShapeActions")}

{renderSelectedShapeActions(elements)}

{t("headings.shapes")}

{renderShapesSwitcher()} { setAppState({ elementLocked: !appState.elementLocked, elementType: appState.elementLocked ? "selection" : appState.elementType, }); }} title={t("toolBar.lock")} />
{ setLanguage(lng); setAppState({}); }} languages={languages} currentLanguage={language} /> {appState.scrolledOutside && ( )}
); }, (prev, next) => { const getNecessaryObj = (appState: AppState): Partial => { const { draggingElement, resizingElement, multiElement, editingElement, isResizing, cursorX, cursorY, ...ret } = appState; return ret; }; const prevAppState = getNecessaryObj(prev.appState); const nextAppState = getNecessaryObj(next.appState); const keys = Object.keys(prevAppState) as (keyof Partial)[]; return ( prev.language === next.language && prev.elements === next.elements && keys.every(k => prevAppState[k] === nextAppState[k]) ); }, ); export class App extends React.Component { canvas: HTMLCanvasElement | null = null; rc: RoughCanvas | null = null; actionManager: ActionManager; canvasOnlyActions: Array; constructor(props: any) { super(props); this.actionManager = new ActionManager( this.syncActionResult, () => this.state, () => elements, ); this.actionManager.registerAction(actionFinalize); this.actionManager.registerAction(actionDeleteSelected); this.actionManager.registerAction(actionSendToBack); this.actionManager.registerAction(actionBringToFront); this.actionManager.registerAction(actionSendBackward); this.actionManager.registerAction(actionBringForward); this.actionManager.registerAction(actionSelectAll); this.actionManager.registerAction(actionChangeStrokeColor); this.actionManager.registerAction(actionChangeBackgroundColor); this.actionManager.registerAction(actionChangeFillStyle); this.actionManager.registerAction(actionChangeStrokeWidth); this.actionManager.registerAction(actionChangeOpacity); this.actionManager.registerAction(actionChangeSloppiness); this.actionManager.registerAction(actionChangeFontSize); this.actionManager.registerAction(actionChangeFontFamily); this.actionManager.registerAction(actionChangeViewBackgroundColor); this.actionManager.registerAction(actionClearCanvas); this.actionManager.registerAction(actionChangeProjectName); this.actionManager.registerAction(actionChangeExportBackground); this.actionManager.registerAction(actionSaveScene); this.actionManager.registerAction(actionLoadScene); this.actionManager.registerAction(actionCopyStyles); this.actionManager.registerAction(actionPasteStyles); this.canvasOnlyActions = [actionSelectAll]; } private syncActionResult = ( res: ActionResult, commitToHistory: boolean = true, ) => { if (this.unmounted) { return; } if (res.elements) { elements = res.elements; if (commitToHistory) { history.resumeRecording(); } this.setState({}); } if (res.appState) { if (commitToHistory) { history.resumeRecording(); } this.setState({ ...res.appState }); } }; private onCut = (e: ClipboardEvent) => { if (isWritableElement(e.target)) { return; } copyToAppClipboard(elements); elements = deleteSelectedElements(elements); history.resumeRecording(); this.setState({}); e.preventDefault(); }; private onCopy = (e: ClipboardEvent) => { if (isWritableElement(e.target)) { return; } copyToAppClipboard(elements); e.preventDefault(); }; private onUnload = () => { isHoldingSpace = false; this.saveDebounced(); this.saveDebounced.flush(); }; private disableEvent: EventHandlerNonNull = e => { e.preventDefault(); }; private unmounted = false; public async componentDidMount() { document.addEventListener("copy", this.onCopy); document.addEventListener("paste", this.pasteFromClipboard); document.addEventListener("cut", this.onCut); document.addEventListener("keydown", this.onKeyDown, false); document.addEventListener("keyup", this.onKeyUp, { passive: true }); document.addEventListener("mousemove", this.updateCurrentCursorPosition); window.addEventListener("resize", this.onResize, false); window.addEventListener("unload", this.onUnload, false); window.addEventListener("blur", this.onUnload, false); window.addEventListener("dragover", this.disableEvent, false); window.addEventListener("drop", this.disableEvent, false); const searchParams = new URLSearchParams(window.location.search); const id = searchParams.get("id"); if (id) { // Backwards compatibility with legacy url format const scene = await loadScene(id); this.syncActionResult(scene); } else { const match = window.location.hash.match( /^#json=([0-9]+),([a-zA-Z0-9_-]+)$/, ); if (match) { const scene = await loadScene(match[1], match[2]); this.syncActionResult(scene); } else { const scene = await loadScene(null); this.syncActionResult(scene); } } } public componentWillUnmount() { this.unmounted = true; document.removeEventListener("copy", this.onCopy); document.removeEventListener("paste", this.pasteFromClipboard); document.removeEventListener("cut", this.onCut); document.removeEventListener("keydown", this.onKeyDown, false); document.removeEventListener( "mousemove", this.updateCurrentCursorPosition, false, ); document.removeEventListener("keyup", this.onKeyUp); window.removeEventListener("resize", this.onResize, false); window.removeEventListener("unload", this.onUnload, false); window.removeEventListener("blur", this.onUnload, false); window.removeEventListener("dragover", this.disableEvent, false); window.removeEventListener("drop", this.disableEvent, false); } public state: AppState = getDefaultAppState(); private onResize = () => { this.setState({}); }; private updateCurrentCursorPosition = (e: MouseEvent) => { cursorX = e.x; cursorY = e.y; }; private onKeyDown = (event: KeyboardEvent) => { if ( (isWritableElement(event.target) && event.key !== KEYS.ESCAPE) || // case: using arrows to move between buttons (isArrowKey(event.key) && isInputLike(event.target)) ) { return; } if (this.actionManager.handleKeyDown(event)) { return; } const shape = findShapeByKey(event.key); if (isArrowKey(event.key)) { const step = event.shiftKey ? ELEMENT_SHIFT_TRANSLATE_AMOUNT : ELEMENT_TRANSLATE_AMOUNT; elements = elements.map(el => { if (el.isSelected) { const element = { ...el }; if (event.key === KEYS.ARROW_LEFT) { element.x -= step; } else if (event.key === KEYS.ARROW_RIGHT) { element.x += step; } else if (event.key === KEYS.ARROW_UP) { element.y -= step; } else if (event.key === KEYS.ARROW_DOWN) { element.y += step; } return element; } return el; }); this.setState({}); event.preventDefault(); } else if ( shapesShortcutKeys.includes(event.key.toLowerCase()) && !event.ctrlKey && !event.altKey && !event.metaKey && this.state.draggingElement === null ) { this.selectShapeTool(shape); // Undo action } else if (event[KEYS.META] && /z/i.test(event.key)) { event.preventDefault(); if ( this.state.multiElement || this.state.resizingElement || this.state.editingElement || this.state.draggingElement ) { return; } if (event.shiftKey) { // Redo action const data = history.redoOnce(); if (data !== null) { elements = data.elements; this.setState({ ...data.appState }); } } else { // undo action const data = history.undoOnce(); if (data !== null) { elements = data.elements; this.setState({ ...data.appState }); } } } else if (event.key === KEYS.SPACE && !isHoldingMouseButton) { isHoldingSpace = true; document.documentElement.style.cursor = CURSOR_TYPE.GRABBING; } }; private onKeyUp = (event: KeyboardEvent) => { if (event.key === KEYS.SPACE) { if (this.state.elementType === "selection") { resetCursor(); } else { elements = clearSelection(elements); document.documentElement.style.cursor = this.state.elementType === "text" ? CURSOR_TYPE.TEXT : CURSOR_TYPE.CROSSHAIR; this.setState({}); } isHoldingSpace = false; } }; private removeWheelEventListener: (() => void) | undefined; private copyToAppClipboard = () => { copyToAppClipboard(elements); }; private pasteFromClipboard = async (e: ClipboardEvent | null) => { // #686 const target = document.activeElement; const elementUnderCursor = document.elementFromPoint(cursorX, cursorY); if ( // if no ClipboardEvent supplied, assume we're pasting via contextMenu // thus these checks don't make sense !e || (elementUnderCursor instanceof HTMLCanvasElement && !isWritableElement(target)) ) { const data = await getClipboardContent(e); if (data.elements) { this.addElementsFromPaste(data.elements); } else if (data.text) { const { x, y } = viewportCoordsToSceneCoords( { clientX: cursorX, clientY: cursorY }, this.state, ); const element = newTextElement( newElement( "text", x, y, this.state.currentItemStrokeColor, this.state.currentItemBackgroundColor, this.state.currentItemFillStyle, this.state.currentItemStrokeWidth, this.state.currentItemRoughness, this.state.currentItemOpacity, ), data.text, this.state.currentItemFont, ); element.isSelected = true; elements = [...clearSelection(elements), element]; history.resumeRecording(); } this.selectShapeTool("selection"); e?.preventDefault(); } }; private selectShapeTool(elementType: AppState["elementType"]) { if (!isHoldingSpace) { setCursorForShape(elementType); } if (isToolIcon(document.activeElement)) { document.activeElement.blur(); } if (elementType !== "selection") { elements = clearSelection(elements); } this.setState({ elementType }); } setAppState = (obj: any) => { this.setState(obj); }; setElements = (elements_: readonly ExcalidrawElement[]) => { elements = elements_; this.setState({}); }; public render() { const canvasWidth = window.innerWidth; const canvasHeight = window.innerHeight; return (
{ if (this.canvas === null) { this.canvas = canvas; this.rc = rough.canvas(this.canvas!); } if (this.removeWheelEventListener) { this.removeWheelEventListener(); this.removeWheelEventListener = undefined; } if (canvas) { canvas.addEventListener("wheel", this.handleWheel, { passive: false, }); this.removeWheelEventListener = () => canvas.removeEventListener("wheel", this.handleWheel); // Whenever React sets the width/height of the canvas element, // the context loses the scale transform. We need to re-apply it if ( canvasWidth !== lastCanvasWidth || canvasHeight !== lastCanvasHeight ) { lastCanvasWidth = canvasWidth; lastCanvasHeight = canvasHeight; canvas .getContext("2d")! .scale(window.devicePixelRatio, window.devicePixelRatio); } } }} onContextMenu={e => { e.preventDefault(); const { x, y } = viewportCoordsToSceneCoords(e, this.state); const element = getElementAtPosition(elements, x, y); if (!element) { ContextMenu.push({ options: [ navigator.clipboard && { label: t("labels.paste"), action: () => this.pasteFromClipboard(null), }, ...this.actionManager.getContextMenuItems(action => this.canvasOnlyActions.includes(action), ), ], top: e.clientY, left: e.clientX, }); return; } if (!element.isSelected) { elements = clearSelection(elements); element.isSelected = true; this.setState({}); } ContextMenu.push({ options: [ navigator.clipboard && { label: t("labels.copy"), action: this.copyToAppClipboard, }, navigator.clipboard && { label: t("labels.paste"), action: () => this.pasteFromClipboard(null), }, ...this.actionManager.getContextMenuItems( action => !this.canvasOnlyActions.includes(action), ), ], top: e.clientY, left: e.clientX, }); }} onMouseDown={e => { if (lastMouseUp !== null) { // Unfortunately, sometimes we don't get a mouseup after a mousedown, // this can happen when a contextual menu or alert is triggered. In order to avoid // being in a weird state, we clean up on the next mousedown lastMouseUp(e); } if (isPanning) { return; } // pan canvas on wheel button drag or space+drag if ( !isHoldingMouseButton && (e.button === MOUSE_BUTTON.WHEEL || (e.button === MOUSE_BUTTON.MAIN && isHoldingSpace)) ) { isHoldingMouseButton = true; isPanning = true; document.documentElement.style.cursor = CURSOR_TYPE.GRABBING; let { clientX: lastX, clientY: lastY } = e; const onMouseMove = (e: MouseEvent) => { const deltaX = lastX - e.clientX; const deltaY = lastY - e.clientY; lastX = e.clientX; lastY = e.clientY; this.setState({ scrollX: this.state.scrollX - deltaX, scrollY: this.state.scrollY - deltaY, }); }; const teardown = (lastMouseUp = () => { lastMouseUp = null; isPanning = false; isHoldingMouseButton = false; if (!isHoldingSpace) { setCursorForShape(this.state.elementType); } window.removeEventListener("mousemove", onMouseMove); window.removeEventListener("mouseup", teardown); window.removeEventListener("blur", teardown); }); window.addEventListener("blur", teardown); window.addEventListener("mousemove", onMouseMove, { passive: true, }); window.addEventListener("mouseup", teardown); return; } // only handle left mouse button if (e.button !== MOUSE_BUTTON.MAIN) { return; } // fixes mousemove causing selection of UI texts #32 e.preventDefault(); // Preventing the event above disables default behavior // of defocusing potentially focused element, which is what we // want when clicking inside the canvas. if (document.activeElement instanceof HTMLElement) { document.activeElement.blur(); } // Handle scrollbars dragging const { isOverHorizontalScrollBar, isOverVerticalScrollBar, } = isOverScrollBars( elements, e.clientX / window.devicePixelRatio, e.clientY / window.devicePixelRatio, canvasWidth / window.devicePixelRatio, canvasHeight / window.devicePixelRatio, this.state.scrollX, this.state.scrollY, ); const { x, y } = viewportCoordsToSceneCoords(e, this.state); const originX = x; const originY = y; let element = newElement( this.state.elementType, x, y, this.state.currentItemStrokeColor, this.state.currentItemBackgroundColor, this.state.currentItemFillStyle, this.state.currentItemStrokeWidth, this.state.currentItemRoughness, this.state.currentItemOpacity, ); if (isTextElement(element)) { element = newTextElement( element, "", this.state.currentItemFont, ); } type ResizeTestType = ReturnType; let resizeHandle: ResizeTestType = false; let isResizingElements = false; let draggingOccurred = false; let hitElement: ExcalidrawElement | null = null; let elementIsAddedToSelection = false; if (this.state.elementType === "selection") { const resizeElement = getElementWithResizeHandler( elements, { x, y }, this.state, ); this.setState({ resizingElement: resizeElement ? resizeElement.element : null, }); if (resizeElement) { resizeHandle = resizeElement.resizeHandle; document.documentElement.style.cursor = getCursorForResizingElement( resizeElement, ); isResizingElements = true; } else { hitElement = getElementAtPosition(elements, x, y); // clear selection if shift is not clicked if (!hitElement?.isSelected && !e.shiftKey) { elements = clearSelection(elements); } // If we click on something if (hitElement) { // deselect if item is selected // if shift is not clicked, this will always return true // otherwise, it will trigger selection based on current // state of the box if (!hitElement.isSelected) { hitElement.isSelected = true; elements = elements.slice(); elementIsAddedToSelection = true; } // We duplicate the selected element if alt is pressed on Mouse down if (e.altKey) { elements = [ ...elements.map(element => ({ ...element, isSelected: false, })), ...elements .filter(element => element.isSelected) .map(element => { const newElement = duplicateElement(element); newElement.isSelected = true; return newElement; }), ]; } } } } else { elements = clearSelection(elements); } if (isTextElement(element)) { // if we're currently still editing text, clicking outside // should only finalize it, not create another (irrespective // of state.elementLocked) if (this.state.editingElement?.type === "text") { return; } let textX = e.clientX; let textY = e.clientY; if (!e.altKey) { const snappedToCenterPosition = this.getTextWysiwygSnappedToCenterPosition( x, y, ); if (snappedToCenterPosition) { element.x = snappedToCenterPosition.elementCenterX; element.y = snappedToCenterPosition.elementCenterY; textX = snappedToCenterPosition.wysiwygX; textY = snappedToCenterPosition.wysiwygY; } } const resetSelection = () => { this.setState({ draggingElement: null, editingElement: null, }); }; textWysiwyg({ initText: "", x: textX, y: textY, strokeColor: this.state.currentItemStrokeColor, opacity: this.state.currentItemOpacity, font: this.state.currentItemFont, onSubmit: text => { if (text) { elements = [ ...elements, { ...newTextElement( element, text, this.state.currentItemFont, ), isSelected: true, }, ]; } if (this.state.elementLocked) { setCursorForShape(this.state.elementType); } history.resumeRecording(); resetSelection(); }, onCancel: () => { resetSelection(); }, }); resetCursor(); if (!this.state.elementLocked) { this.setState({ editingElement: element, elementType: "selection", }); } else { this.setState({ editingElement: element, }); } return; } else if ( this.state.elementType === "arrow" || this.state.elementType === "line" ) { if (this.state.multiElement) { const { multiElement } = this.state; const { x: rx, y: ry } = multiElement; multiElement.isSelected = true; multiElement.points.push([x - rx, y - ry]); multiElement.shape = null; } else { element.isSelected = false; element.points.push([0, 0]); element.shape = null; elements = [...elements, element]; this.setState({ draggingElement: element, }); } } else if (element.type === "selection") { this.setState({ selectionElement: element, draggingElement: element, }); } else { elements = [...elements, element]; this.setState({ multiElement: null, draggingElement: element }); } let lastX = x; let lastY = y; if (isOverHorizontalScrollBar || isOverVerticalScrollBar) { lastX = e.clientX; lastY = e.clientY; } let resizeArrowFn: | (( element: ExcalidrawElement, p1: Point, deltaX: number, deltaY: number, mouseX: number, mouseY: number, perfect: boolean, ) => void) | null = null; const arrowResizeOrigin = ( element: ExcalidrawElement, p1: Point, deltaX: number, deltaY: number, mouseX: number, mouseY: number, perfect: boolean, ) => { if (perfect) { const absPx = p1[0] + element.x; const absPy = p1[1] + element.y; const { width, height } = getPerfectElementSize( element.type, mouseX - element.x - p1[0], mouseY - element.y - p1[1], ); const dx = element.x + width + p1[0]; const dy = element.y + height + p1[1]; element.x = dx; element.y = dy; p1[0] = absPx - element.x; p1[1] = absPy - element.y; } else { element.x += deltaX; element.y += deltaY; p1[0] -= deltaX; p1[1] -= deltaY; } }; const arrowResizeEnd = ( element: ExcalidrawElement, p1: Point, deltaX: number, deltaY: number, mouseX: number, mouseY: number, perfect: boolean, ) => { if (perfect) { const { width, height } = getPerfectElementSize( element.type, mouseX - element.x, mouseY - element.y, ); p1[0] = width; p1[1] = height; } else { p1[0] += deltaX; p1[1] += deltaY; } }; const onMouseMove = (e: MouseEvent) => { const target = e.target; if (!(target instanceof HTMLElement)) { return; } if (isOverHorizontalScrollBar) { const x = e.clientX; const dx = x - lastX; this.setState({ scrollX: this.state.scrollX - dx }); lastX = x; return; } if (isOverVerticalScrollBar) { const y = e.clientY; const dy = y - lastY; this.setState({ scrollY: this.state.scrollY - dy }); lastY = y; return; } // for arrows, don't start dragging until a given threshold // to ensure we don't create a 2-point arrow by mistake when // user clicks mouse in a way that it moves a tiny bit (thus // triggering mousemove) if ( !draggingOccurred && (this.state.elementType === "arrow" || this.state.elementType === "line") ) { const { x, y } = viewportCoordsToSceneCoords(e, this.state); if (distance2d(x, y, originX, originY) < DRAGGING_THRESHOLD) { return; } } if (isResizingElements && this.state.resizingElement) { this.setState({ isResizing: true }); const el = this.state.resizingElement; const selectedElements = elements.filter(el => el.isSelected); if (selectedElements.length === 1) { const { x, y } = viewportCoordsToSceneCoords(e, this.state); const deltaX = x - lastX; const deltaY = y - lastY; const element = selectedElements[0]; const isLinear = element.type === "line" || element.type === "arrow"; switch (resizeHandle) { case "nw": if (isLinear && element.points.length === 2) { const [, p1] = element.points; if (!resizeArrowFn) { if (p1[0] < 0 || p1[1] < 0) { resizeArrowFn = arrowResizeEnd; } else { resizeArrowFn = arrowResizeOrigin; } } resizeArrowFn( element, p1, deltaX, deltaY, x, y, e.shiftKey, ); } else { element.width -= deltaX; element.x += deltaX; if (e.shiftKey) { element.y += element.height - element.width; element.height = element.width; } else { element.height -= deltaY; element.y += deltaY; } } break; case "ne": if (isLinear && element.points.length === 2) { const [, p1] = element.points; if (!resizeArrowFn) { if (p1[0] >= 0) { resizeArrowFn = arrowResizeEnd; } else { resizeArrowFn = arrowResizeOrigin; } } resizeArrowFn( element, p1, deltaX, deltaY, x, y, e.shiftKey, ); } else { element.width += deltaX; if (e.shiftKey) { element.y += element.height - element.width; element.height = element.width; } else { element.height -= deltaY; element.y += deltaY; } } break; case "sw": if (isLinear && element.points.length === 2) { const [, p1] = element.points; if (!resizeArrowFn) { if (p1[0] <= 0) { resizeArrowFn = arrowResizeEnd; } else { resizeArrowFn = arrowResizeOrigin; } } resizeArrowFn( element, p1, deltaX, deltaY, x, y, e.shiftKey, ); } else { element.width -= deltaX; element.x += deltaX; if (e.shiftKey) { element.height = element.width; } else { element.height += deltaY; } } break; case "se": if (isLinear && element.points.length === 2) { const [, p1] = element.points; if (!resizeArrowFn) { if (p1[0] > 0 || p1[1] > 0) { resizeArrowFn = arrowResizeEnd; } else { resizeArrowFn = arrowResizeOrigin; } } resizeArrowFn( element, p1, deltaX, deltaY, x, y, e.shiftKey, ); } else { if (e.shiftKey) { element.width += deltaX; element.height = element.width; } else { element.width += deltaX; element.height += deltaY; } } break; case "n": { element.height -= deltaY; element.y += deltaY; if (element.points.length > 0) { const len = element.points.length; const points = [...element.points].sort( (a, b) => a[1] - b[1], ); for (let i = 1; i < points.length; ++i) { const pnt = points[i]; pnt[1] -= deltaY / (len - i); } } break; } case "w": { element.width -= deltaX; element.x += deltaX; if (element.points.length > 0) { const len = element.points.length; const points = [...element.points].sort( (a, b) => a[0] - b[0], ); for (let i = 0; i < points.length; ++i) { const pnt = points[i]; pnt[0] -= deltaX / (len - i); } } break; } case "s": { element.height += deltaY; if (element.points.length > 0) { const len = element.points.length; const points = [...element.points].sort( (a, b) => a[1] - b[1], ); for (let i = 1; i < points.length; ++i) { const pnt = points[i]; pnt[1] += deltaY / (len - i); } } break; } case "e": { element.width += deltaX; if (element.points.length > 0) { const len = element.points.length; const points = [...element.points].sort( (a, b) => a[0] - b[0], ); for (let i = 1; i < points.length; ++i) { const pnt = points[i]; pnt[0] += deltaX / (len - i); } } break; } } if (resizeHandle) { resizeHandle = normalizeResizeHandle( element, resizeHandle, ); } normalizeDimensions(element); document.documentElement.style.cursor = getCursorForResizingElement( { element, resizeHandle }, ); el.x = element.x; el.y = element.y; el.shape = null; lastX = x; lastY = y; this.setState({}); return; } } if (hitElement?.isSelected) { // Marking that click was used for dragging to check // if elements should be deselected on mouseup draggingOccurred = true; const selectedElements = elements.filter(el => el.isSelected); if (selectedElements.length) { const { x, y } = viewportCoordsToSceneCoords(e, this.state); selectedElements.forEach(element => { element.x += x - lastX; element.y += y - lastY; }); lastX = x; lastY = y; this.setState({}); return; } } // It is very important to read this.state within each move event, // otherwise we would read a stale one! const draggingElement = this.state.draggingElement; if (!draggingElement) { return; } const { x, y } = viewportCoordsToSceneCoords(e, this.state); let width = distance(originX, x); let height = distance(originY, y); const isLinear = this.state.elementType === "line" || this.state.elementType === "arrow"; if (isLinear) { draggingOccurred = true; const points = draggingElement.points; let dx = x - draggingElement.x; let dy = y - draggingElement.y; if (e.shiftKey && points.length === 2) { ({ width: dx, height: dy } = getPerfectElementSize( this.state.elementType, dx, dy, )); } if (points.length === 1) { points.push([dx, dy]); } else if (points.length > 1) { const pnt = points[points.length - 1]; pnt[0] = dx; pnt[1] = dy; } } else { if (e.shiftKey) { ({ width, height } = getPerfectElementSize( this.state.elementType, width, y < originY ? -height : height, )); if (height < 0) { height = -height; } } draggingElement.x = x < originX ? originX - width : originX; draggingElement.y = y < originY ? originY - height : originY; draggingElement.width = width; draggingElement.height = height; } draggingElement.shape = null; if (this.state.elementType === "selection") { if (!e.shiftKey && elements.some(el => el.isSelected)) { elements = clearSelection(elements); } const elementsWithinSelection = getElementsWithinSelection( elements, draggingElement, ); elementsWithinSelection.forEach(element => { element.isSelected = true; }); } this.setState({}); }; const onMouseUp = (e: MouseEvent) => { const { draggingElement, resizingElement, multiElement, elementType, elementLocked, } = this.state; this.setState({ isResizing: false, resizingElement: null, selectionElement: null, }); resizeArrowFn = null; lastMouseUp = null; isHoldingMouseButton = false; window.removeEventListener("mousemove", onMouseMove); window.removeEventListener("mouseup", onMouseUp); if (elementType === "arrow" || elementType === "line") { if (draggingElement!.points.length > 1) { history.resumeRecording(); this.setState({}); } if (!draggingOccurred && draggingElement && !multiElement) { const { x, y } = viewportCoordsToSceneCoords(e, this.state); draggingElement.points.push([ x - draggingElement.x, y - draggingElement.y, ]); draggingElement.shape = null; this.setState({ multiElement: this.state.draggingElement }); } else if (draggingOccurred && !multiElement) { this.state.draggingElement!.isSelected = true; if (!elementLocked) { resetCursor(); this.setState({ draggingElement: null, elementType: "selection", }); } else { this.setState({ draggingElement: null, }); } } return; } if ( elementType !== "selection" && draggingElement && isInvisiblySmallElement(draggingElement) ) { // remove invisible element which was added in onMouseDown elements = elements.slice(0, -1); this.setState({ draggingElement: null, }); return; } if (normalizeDimensions(draggingElement)) { this.setState({}); } if (resizingElement) { history.resumeRecording(); this.setState({}); } if ( resizingElement && isInvisiblySmallElement(resizingElement) ) { elements = elements.filter( el => el.id !== resizingElement.id, ); } // If click occurred on already selected element // it is needed to remove selection from other elements // or if SHIFT or META key pressed remove selection // from hitted element // // If click occurred and elements were dragged or some element // was added to selection (on mousedown phase) we need to keep // selection unchanged if ( hitElement && !draggingOccurred && !elementIsAddedToSelection ) { if (e.shiftKey) { hitElement.isSelected = false; } else { elements = clearSelection(elements); hitElement.isSelected = true; } } if (draggingElement === null) { // if no element is clicked, clear the selection and redraw elements = clearSelection(elements); this.setState({}); return; } if (!elementLocked) { draggingElement.isSelected = true; } if ( elementType !== "selection" || elements.some(el => el.isSelected) ) { history.resumeRecording(); } if (!elementLocked) { resetCursor(); this.setState({ draggingElement: null, elementType: "selection", }); } else { this.setState({ draggingElement: null, }); } }; lastMouseUp = onMouseUp; window.addEventListener("mousemove", onMouseMove); window.addEventListener("mouseup", onMouseUp); }} onDoubleClick={e => { resetCursor(); const { x, y } = viewportCoordsToSceneCoords(e, this.state); const elementAtPosition = getElementAtPosition(elements, x, y); const element = elementAtPosition && isTextElement(elementAtPosition) ? elementAtPosition : newTextElement( newElement( "text", x, y, this.state.currentItemStrokeColor, this.state.currentItemBackgroundColor, this.state.currentItemFillStyle, this.state.currentItemStrokeWidth, this.state.currentItemRoughness, this.state.currentItemOpacity, ), "", // default text this.state.currentItemFont, // default font ); this.setState({ editingElement: element }); let textX = e.clientX; let textY = e.clientY; if (elementAtPosition && isTextElement(elementAtPosition)) { elements = elements.filter( element => element.id !== elementAtPosition.id, ); this.setState({}); textX = this.state.scrollX + elementAtPosition.x + elementAtPosition.width / 2; textY = this.state.scrollY + elementAtPosition.y + elementAtPosition.height / 2; // x and y will change after calling newTextElement function element.x = elementAtPosition.x + elementAtPosition.width / 2; element.y = elementAtPosition.y + elementAtPosition.height / 2; } else if (!e.altKey) { const snappedToCenterPosition = this.getTextWysiwygSnappedToCenterPosition( x, y, ); if (snappedToCenterPosition) { element.x = snappedToCenterPosition.elementCenterX; element.y = snappedToCenterPosition.elementCenterY; textX = snappedToCenterPosition.wysiwygX; textY = snappedToCenterPosition.wysiwygY; } } const resetSelection = () => { this.setState({ draggingElement: null, editingElement: null, }); }; textWysiwyg({ initText: element.text, x: textX, y: textY, strokeColor: element.strokeColor, font: element.font, opacity: this.state.currentItemOpacity, onSubmit: text => { if (text) { elements = [ ...elements, { // we need to recreate the element to update dimensions & // position ...newTextElement(element, text, element.font), isSelected: true, }, ]; } history.resumeRecording(); resetSelection(); }, onCancel: () => { resetSelection(); }, }); }} onMouseMove={e => { if (isHoldingSpace || isPanning) { return; } const hasDeselectedButton = Boolean(e.buttons); const { x, y } = viewportCoordsToSceneCoords(e, this.state); if (this.state.multiElement) { const { multiElement } = this.state; const originX = multiElement.x; const originY = multiElement.y; const points = multiElement.points; const pnt = points[points.length - 1]; pnt[0] = x - originX; pnt[1] = y - originY; multiElement.shape = null; this.setState({}); return; } if ( hasDeselectedButton || this.state.elementType !== "selection" ) { return; } const selectedElements = elements.filter(e => e.isSelected) .length; if (selectedElements === 1) { const resizeElement = getElementWithResizeHandler( elements, { x, y }, this.state, ); if (resizeElement && resizeElement.resizeHandle) { document.documentElement.style.cursor = getCursorForResizingElement( resizeElement, ); return; } } const hitElement = getElementAtPosition(elements, x, y); document.documentElement.style.cursor = hitElement ? "move" : ""; }} onDrop={e => { const file = e.dataTransfer.files[0]; if (file?.type === "application/json") { loadFromBlob(file) .then(({ elements, appState }) => this.syncActionResult({ elements, appState }), ) .catch(err => console.error(err)); } }} > {t("labels.drawingCanvas")}
); } private handleWheel = (e: WheelEvent) => { e.preventDefault(); const { deltaX, deltaY } = e; this.setState({ scrollX: this.state.scrollX - deltaX, scrollY: this.state.scrollY - deltaY, }); }; private addElementsFromPaste = ( clipboardElements: readonly ExcalidrawElement[], ) => { elements = clearSelection(elements); const [minX, minY, maxX, maxY] = getCommonBounds(clipboardElements); const elementsCenterX = distance(minX, maxX) / 2; const elementsCenterY = distance(minY, maxY) / 2; const dx = cursorX - this.state.scrollX - elementsCenterX; const dy = cursorY - this.state.scrollY - elementsCenterY; elements = [ ...elements, ...clipboardElements.map(clipboardElements => { const duplicate = duplicateElement(clipboardElements); duplicate.x += dx - minX; duplicate.y += dy - minY; return duplicate; }), ]; history.resumeRecording(); this.setState({}); }; private getTextWysiwygSnappedToCenterPosition(x: number, y: number) { const elementClickedInside = getElementContainingPosition(elements, x, y); if (elementClickedInside) { const elementCenterX = elementClickedInside.x + elementClickedInside.width / 2; const elementCenterY = elementClickedInside.y + elementClickedInside.height / 2; const distanceToCenter = Math.hypot( x - elementCenterX, y - elementCenterY, ); const isSnappedToCenter = distanceToCenter < TEXT_TO_CENTER_SNAP_THRESHOLD; if (isSnappedToCenter) { const wysiwygX = this.state.scrollX + elementClickedInside.x + elementClickedInside.width / 2; const wysiwygY = this.state.scrollY + elementClickedInside.y + elementClickedInside.height / 2; return { wysiwygX, wysiwygY, elementCenterX, elementCenterY }; } } } private saveDebounced = debounce(() => { saveToLocalStorage( elements.filter(x => x.type !== "selection"), this.state, ); }, 300); componentDidUpdate() { const atLeastOneVisibleElement = renderScene( elements, this.state.selectionElement, this.rc!, this.canvas!, { scrollX: this.state.scrollX, scrollY: this.state.scrollY, viewBackgroundColor: this.state.viewBackgroundColor, }, ); const scrolledOutside = !atLeastOneVisibleElement && elements.length > 0; if (this.state.scrolledOutside !== scrolledOutside) { this.setState({ scrolledOutside: scrolledOutside }); } this.saveDebounced(); if (history.isRecording()) { history.pushEntry(this.state, elements); history.skipRecording(); } } } const rootElement = document.getElementById("root"); class TopErrorBoundary extends React.Component { state = { hasError: false, stack: "", localStorage: "" }; static getDerivedStateFromError(error: any) { console.error(error); return { hasError: true, localStorage: JSON.stringify({ ...localStorage }), stack: error.stack, }; } private selectTextArea(event: React.MouseEvent) { (event.target as HTMLTextAreaElement).select(); } private async createGithubIssue() { let body = ""; try { const templateStr = (await import("./bug-issue-template")).default; if (typeof templateStr === "string") { body = encodeURIComponent(templateStr); } } catch {} window.open( `https://github.com/excalidraw/excalidraw/issues/new?body=${body}`, ); } render() { if (this.state.hasError) { return (
Encountered an error. Please{" "} .
If reloading doesn't work. Try{" "} .
(This will unfortunately result in loss of work.)
Before doing so, we'd appreciate if you opened an issue on our{" "} . Please include the following error stack trace & localStorage content (provided it's not private):