import { RoughCanvas } from "roughjs/bin/canvas"; import { RoughSVG } from "roughjs/bin/svg"; import { FlooredNumber, AppState } from "../types"; import { ExcalidrawElement } from "../element/types"; import { getElementAbsoluteCoords, handlerRectangles } from "../element"; import { roundRect } from "./roundRect"; import { SceneState } from "../scene/types"; import { getScrollBars, SCROLLBAR_COLOR, SCROLLBAR_WIDTH, } from "../scene/scrollbars"; import { getSelectedElements } from "../scene/selection"; import { renderElement, renderElementToSvg } from "./renderElement"; import colors from "../colors"; function colorsForClientId(clientId: string) { // Naive way of getting an integer out of the clientId const sum = clientId.split("").reduce((a, str) => a + str.charCodeAt(0), 0); return { background: colors.elementBackground[sum % colors.elementBackground.length], stroke: colors.elementStroke[sum % colors.elementBackground.length], }; } export function renderScene( allElements: readonly ExcalidrawElement[], appState: AppState, selectionElement: ExcalidrawElement | null, scale: number, rc: RoughCanvas, canvas: HTMLCanvasElement, sceneState: SceneState, // extra options, currently passed by export helper { renderScrollbars = true, renderSelection = true, // Whether to employ render optimizations to improve performance. // Should not be turned on for export operations and similar, because it // doesn't guarantee pixel-perfect output. renderOptimizations = false, }: { renderScrollbars?: boolean; renderSelection?: boolean; renderOptimizations?: boolean; } = {}, ) { if (!canvas) { return { atLeastOneVisibleElement: false }; } const elements = allElements.filter((element) => !element.isDeleted); const context = canvas.getContext("2d")!; context.scale(scale, scale); // When doing calculations based on canvas width we should used normalized one const normalizedCanvasWidth = canvas.width / scale; const normalizedCanvasHeight = canvas.height / scale; // Paint background if (typeof sceneState.viewBackgroundColor === "string") { const hasTransparence = sceneState.viewBackgroundColor === "transparent" || sceneState.viewBackgroundColor.length === 5 || sceneState.viewBackgroundColor.length === 9; if (hasTransparence) { context.clearRect(0, 0, normalizedCanvasWidth, normalizedCanvasHeight); } const fillStyle = context.fillStyle; context.fillStyle = sceneState.viewBackgroundColor; context.fillRect(0, 0, normalizedCanvasWidth, normalizedCanvasHeight); context.fillStyle = fillStyle; } else { context.clearRect(0, 0, normalizedCanvasWidth, normalizedCanvasHeight); } // Apply zoom const zoomTranslationX = (-normalizedCanvasWidth * (sceneState.zoom - 1)) / 2; const zoomTranslationY = (-normalizedCanvasHeight * (sceneState.zoom - 1)) / 2; context.translate(zoomTranslationX, zoomTranslationY); context.scale(sceneState.zoom, sceneState.zoom); // Paint visible elements const visibleElements = elements.filter((element) => isVisibleElement( element, normalizedCanvasWidth, normalizedCanvasHeight, sceneState, ), ); visibleElements.forEach((element) => { renderElement(element, rc, context, renderOptimizations, sceneState); }); // Pain selection element if (selectionElement) { renderElement( selectionElement, rc, context, renderOptimizations, sceneState, ); } // Pain selected elements if (renderSelection) { const selectedElements = getSelectedElements(elements, appState); const dashledLinePadding = 4 / sceneState.zoom; context.translate(sceneState.scrollX, sceneState.scrollY); selectedElements.forEach((element) => { const [ elementX1, elementY1, elementX2, elementY2, ] = getElementAbsoluteCoords(element); const elementWidth = elementX2 - elementX1; const elementHeight = elementY2 - elementY1; const initialLineDash = context.getLineDash(); context.setLineDash([8 / sceneState.zoom, 4 / sceneState.zoom]); const lineWidth = context.lineWidth; context.lineWidth = 1 / sceneState.zoom; context.strokeRect( elementX1 - dashledLinePadding, elementY1 - dashledLinePadding, elementWidth + dashledLinePadding * 2, elementHeight + dashledLinePadding * 2, ); context.lineWidth = lineWidth; context.setLineDash(initialLineDash); }); context.translate(-sceneState.scrollX, -sceneState.scrollY); // Paint resize handlers if (selectedElements.length === 1 && selectedElements[0].type !== "text") { context.translate(sceneState.scrollX, sceneState.scrollY); context.fillStyle = "#fff"; const handlers = handlerRectangles(selectedElements[0], sceneState.zoom); Object.values(handlers) .filter((handler) => handler !== undefined) .forEach((handler) => { const lineWidth = context.lineWidth; context.lineWidth = 1 / sceneState.zoom; context.fillRect(handler[0], handler[1], handler[2], handler[3]); context.strokeRect(handler[0], handler[1], handler[2], handler[3]); context.lineWidth = lineWidth; }); context.translate(-sceneState.scrollX, -sceneState.scrollY); } } // Reset zoom context.scale(1 / sceneState.zoom, 1 / sceneState.zoom); context.translate(-zoomTranslationX, -zoomTranslationY); // Paint remote pointers for (const clientId in sceneState.remotePointerViewportCoords) { let { x, y } = sceneState.remotePointerViewportCoords[clientId]; const width = 9; const height = 14; const isOutOfBounds = x < 0 || x > normalizedCanvasWidth - width || y < 0 || y > normalizedCanvasHeight - height; x = Math.max(x, 0); x = Math.min(x, normalizedCanvasWidth - width); y = Math.max(y, 0); y = Math.min(y, normalizedCanvasHeight - height); const { background, stroke } = colorsForClientId(clientId); const strokeStyle = context.strokeStyle; const fillStyle = context.fillStyle; const globalAlpha = context.globalAlpha; context.strokeStyle = stroke; context.fillStyle = background; if (isOutOfBounds) { context.globalAlpha = 0.2; } context.beginPath(); context.moveTo(x, y); context.lineTo(x + 1, y + 14); context.lineTo(x + 4, y + 9); context.lineTo(x + 9, y + 10); context.lineTo(x, y); context.fill(); context.stroke(); context.strokeStyle = strokeStyle; context.fillStyle = fillStyle; context.globalAlpha = globalAlpha; } // Paint scrollbars let scrollBars; if (renderScrollbars) { scrollBars = getScrollBars( elements, normalizedCanvasWidth, normalizedCanvasHeight, sceneState, ); const fillStyle = context.fillStyle; const strokeStyle = context.strokeStyle; context.fillStyle = SCROLLBAR_COLOR; context.strokeStyle = "rgba(255,255,255,0.8)"; [scrollBars.horizontal, scrollBars.vertical].forEach((scrollBar) => { if (scrollBar) { roundRect( context, scrollBar.x, scrollBar.y, scrollBar.width, scrollBar.height, SCROLLBAR_WIDTH / 2, ); } }); context.fillStyle = fillStyle; context.strokeStyle = strokeStyle; } context.scale(1 / scale, 1 / scale); return { atLeastOneVisibleElement: visibleElements.length > 0, scrollBars }; } function isVisibleElement( element: ExcalidrawElement, viewportWidth: number, viewportHeight: number, { scrollX, scrollY, zoom, }: { scrollX: FlooredNumber; scrollY: FlooredNumber; zoom: number; }, ) { const [x1, y1, x2, y2] = getElementAbsoluteCoords(element); // Apply zoom const viewportWidthWithZoom = viewportWidth / zoom; const viewportHeightWithZoom = viewportHeight / zoom; const viewportWidthDiff = viewportWidth - viewportWidthWithZoom; const viewportHeightDiff = viewportHeight - viewportHeightWithZoom; return ( x2 + scrollX - viewportWidthDiff / 2 >= 0 && x1 + scrollX - viewportWidthDiff / 2 <= viewportWidthWithZoom && y2 + scrollY - viewportHeightDiff / 2 >= 0 && y1 + scrollY - viewportHeightDiff / 2 <= viewportHeightWithZoom ); } // This should be only called for exporting purposes export function renderSceneToSvg( elements: readonly ExcalidrawElement[], rsvg: RoughSVG, svgRoot: SVGElement, { offsetX = 0, offsetY = 0, }: { offsetX?: number; offsetY?: number; } = {}, ) { if (!svgRoot) { return; } // render elements elements.forEach((element) => { if (!element.isDeleted) { renderElementToSvg( element, rsvg, svgRoot, element.x + offsetX, element.y + offsetY, ); } }); }