import MutateObserver from '@rc-component/mutate-observer'; import classNames from 'classnames'; import React, { useEffect, useRef } from 'react'; import { getPixelRatio, getStyleStr, reRendering, rotateWatermark } from './utils'; /** * Base size of the canvas, 1 for parallel layout and 2 for alternate layout * Only alternate layout is currently supported */ const BaseSize = 2; const FontGap = 3; export interface WatermarkProps { zIndex?: number; rotate?: number; width?: number; height?: number; image?: string; content?: string | string[]; font?: { color?: string; fontSize?: number | string; fontWeight?: 'normal' | 'light' | 'weight' | number; fontStyle?: 'none' | 'normal' | 'italic' | 'oblique'; fontFamily?: string; }; style?: React.CSSProperties; className?: string; rootClassName?: string; gap?: [number, number]; offset?: [number, number]; children?: React.ReactNode; } const Watermark: React.FC = (props) => { const { /** * The antd content layer zIndex is basically below 10 * https://github.com/ant-design/ant-design/blob/6192403b2ce517c017f9e58a32d58774921c10cd/components/style/themes/default.less#L335 */ zIndex = 9, rotate = -22, width, height, image, content, font = {}, style, className, rootClassName, gap = [100, 100], offset, children, } = props; const { color = 'rgba(0,0,0,.15)', fontSize = 16, fontWeight = 'normal', fontStyle = 'normal', fontFamily = 'sans-serif', } = font; const [gapX, gapY] = gap; const gapXCenter = gapX / 2; const gapYCenter = gapY / 2; const offsetLeft = offset?.[0] ?? gapXCenter; const offsetTop = offset?.[1] ?? gapYCenter; const getMarkStyle = () => { const markStyle: React.CSSProperties = { zIndex, position: 'absolute', left: 0, top: 0, width: '100%', height: '100%', pointerEvents: 'none', backgroundRepeat: 'repeat', }; /** Calculate the style of the offset */ let positionLeft = offsetLeft - gapXCenter; let positionTop = offsetTop - gapYCenter; if (positionLeft > 0) { markStyle.left = `${positionLeft}px`; markStyle.width = `calc(100% - ${positionLeft}px)`; positionLeft = 0; } if (positionTop > 0) { markStyle.top = `${positionTop}px`; markStyle.height = `calc(100% - ${positionTop}px)`; positionTop = 0; } markStyle.backgroundPosition = `${positionLeft}px ${positionTop}px`; return markStyle; }; const containerRef = useRef(null); const watermarkRef = useRef(); const stopObservation = useRef(false); const destroyWatermark = () => { if (watermarkRef.current) { watermarkRef.current.remove(); watermarkRef.current = undefined; } }; const appendWatermark = (base64Url: string, markWidth: number) => { if (containerRef.current && watermarkRef.current) { stopObservation.current = true; watermarkRef.current.setAttribute( 'style', getStyleStr({ ...getMarkStyle(), backgroundImage: `url('${base64Url}')`, backgroundSize: `${(gapX + markWidth) * BaseSize}px`, }), ); containerRef.current?.append(watermarkRef.current); // Delayed execution setTimeout(() => { stopObservation.current = false; }); } }; /** * Get the width and height of the watermark. The default values are as follows * Image: [120, 64]; Content: It's calculated by content; */ const getMarkSize = (ctx: CanvasRenderingContext2D) => { let defaultWidth = 120; let defaultHeight = 64; if (!image && ctx.measureText) { ctx.font = `${Number(fontSize)}px ${fontFamily}`; const contents = Array.isArray(content) ? content : [content]; const widths = contents.map((item) => ctx.measureText(item!).width); defaultWidth = Math.ceil(Math.max(...widths)); defaultHeight = Number(fontSize) * contents.length + (contents.length - 1) * FontGap; } return [width ?? defaultWidth, height ?? defaultHeight] as const; }; const fillTexts = ( ctx: CanvasRenderingContext2D, drawX: number, drawY: number, drawWidth: number, drawHeight: number, ) => { const ratio = getPixelRatio(); const mergedFontSize = Number(fontSize) * ratio; ctx.font = `${fontStyle} normal ${fontWeight} ${mergedFontSize}px/${drawHeight}px ${fontFamily}`; ctx.fillStyle = color; ctx.textAlign = 'center'; ctx.textBaseline = 'top'; ctx.translate(drawWidth / 2, 0); const contents = Array.isArray(content) ? content : [content]; contents?.forEach((item, index) => { ctx.fillText(item ?? '', drawX, drawY + index * (mergedFontSize + FontGap * ratio)); }); }; const drawText = ( canvas: HTMLCanvasElement, ctx: CanvasRenderingContext2D, drawX: number, drawY: number, drawWidth: number, drawHeight: number, alternateRotateX: number, alternateRotateY: number, alternateDrawX: number, alternateDrawY: number, markWidth: number, ) => { fillTexts(ctx, drawX, drawY, drawWidth, drawHeight); /** Fill the interleaved text after rotation */ ctx.restore(); rotateWatermark(ctx, alternateRotateX, alternateRotateY, rotate); fillTexts(ctx, alternateDrawX, alternateDrawY, drawWidth, drawHeight); appendWatermark(canvas.toDataURL(), markWidth); }; const renderWatermark = () => { const canvas = document.createElement('canvas'); const ctx = canvas.getContext('2d'); if (ctx) { if (!watermarkRef.current) { watermarkRef.current = document.createElement('div'); } const ratio = getPixelRatio(); const [markWidth, markHeight] = getMarkSize(ctx); const canvasWidth = (gapX + markWidth) * ratio; const canvasHeight = (gapY + markHeight) * ratio; canvas.setAttribute('width', `${canvasWidth * BaseSize}px`); canvas.setAttribute('height', `${canvasHeight * BaseSize}px`); const drawX = (gapX * ratio) / 2; const drawY = (gapY * ratio) / 2; const drawWidth = markWidth * ratio; const drawHeight = markHeight * ratio; const rotateX = (drawWidth + gapX * ratio) / 2; const rotateY = (drawHeight + gapY * ratio) / 2; /** Alternate drawing parameters */ const alternateDrawX = drawX + canvasWidth; const alternateDrawY = drawY + canvasHeight; const alternateRotateX = rotateX + canvasWidth; const alternateRotateY = rotateY + canvasHeight; ctx.save(); rotateWatermark(ctx, rotateX, rotateY, rotate); if (image) { const img = new Image(); img.onload = () => { ctx.drawImage(img, drawX, drawY, drawWidth, drawHeight); /** Draw interleaved pictures after rotation */ ctx.restore(); rotateWatermark(ctx, alternateRotateX, alternateRotateY, rotate); ctx.drawImage(img, alternateDrawX, alternateDrawY, drawWidth, drawHeight); appendWatermark(canvas.toDataURL(), markWidth); }; img.onerror = () => drawText( canvas, ctx, drawX, drawY, drawWidth, drawHeight, alternateRotateX, alternateRotateY, alternateDrawX, alternateDrawY, markWidth, ); img.crossOrigin = 'anonymous'; img.referrerPolicy = 'no-referrer'; img.src = image; } else { drawText( canvas, ctx, drawX, drawY, drawWidth, drawHeight, alternateRotateX, alternateRotateY, alternateDrawX, alternateDrawY, markWidth, ); } } }; const onMutate = (mutations: MutationRecord[]) => { if (stopObservation.current) { return; } mutations.forEach((mutation) => { if (reRendering(mutation, watermarkRef.current)) { destroyWatermark(); renderWatermark(); } }); }; useEffect(renderWatermark, [ rotate, zIndex, width, height, image, content, color, fontSize, fontWeight, fontStyle, fontFamily, gapX, gapY, offsetLeft, offsetTop, ]); return (
{children}
); }; if (process.env.NODE_ENV !== 'production') { Watermark.displayName = 'Watermark'; } export default Watermark;