import {ElementPaint, parseStackingContexts, StackingContext} from '../stacking-context'; import {asString, Color, isTransparent} from '../../css/types/color'; import {Logger} from '../../core/logger'; import {ElementContainer} from '../../dom/element-container'; import {BORDER_STYLE} from '../../css/property-descriptors/border-style'; import {CSSParsedDeclaration} from '../../css/index'; import {TextContainer} from '../../dom/text-container'; import {Path, transformPath} from '../path'; import {BACKGROUND_CLIP} from '../../css/property-descriptors/background-clip'; import {BoundCurves, calculateBorderBoxPath, calculateContentBoxPath, calculatePaddingBoxPath} from '../bound-curves'; import {BezierCurve, isBezierCurve} from '../bezier-curve'; import {Vector} from '../vector'; import {CSSImageType, CSSURLImage, isLinearGradient, isRadialGradient} from '../../css/types/image'; import { parsePathForBorder, parsePathForBorderDoubleInner, parsePathForBorderDoubleOuter, parsePathForBorderStroke } from '../border'; import {Cache} from '../../core/cache-storage'; import {calculateBackgroundRendering, getBackgroundValueForIndex} from '../background'; import {isDimensionToken} from '../../css/syntax/parser'; import {TextBounds} from '../../css/layout/text'; import {fromCodePoint, toCodePoints} from 'css-line-break'; import {ImageElementContainer} from '../../dom/replaced-elements/image-element-container'; import {contentBox} from '../box-sizing'; import {CanvasElementContainer} from '../../dom/replaced-elements/canvas-element-container'; import {SVGElementContainer} from '../../dom/replaced-elements/svg-element-container'; import {ReplacedElementContainer} from '../../dom/replaced-elements/index'; import {EffectTarget, IElementEffect, isClipEffect, isOpacityEffect, isTransformEffect} from '../effects'; import {contains} from '../../core/bitwise'; import {calculateGradientDirection, calculateRadius, processColorStops} from '../../css/types/functions/gradient'; import {FIFTY_PERCENT, getAbsoluteValue} from '../../css/types/length-percentage'; import {TEXT_DECORATION_LINE} from '../../css/property-descriptors/text-decoration-line'; import {FontMetrics} from '../font-metrics'; import {DISPLAY} from '../../css/property-descriptors/display'; import {Bounds} from '../../css/layout/bounds'; import {LIST_STYLE_TYPE} from '../../css/property-descriptors/list-style-type'; import {computeLineHeight} from '../../css/property-descriptors/line-height'; import {CHECKBOX, INPUT_COLOR, InputElementContainer, RADIO} from '../../dom/replaced-elements/input-element-container'; import {TEXT_ALIGN} from '../../css/property-descriptors/text-align'; import {TextareaElementContainer} from '../../dom/elements/textarea-element-container'; import {SelectElementContainer} from '../../dom/elements/select-element-container'; import {IFrameElementContainer} from '../../dom/replaced-elements/iframe-element-container'; import {TextShadow} from '../../css/property-descriptors/text-shadow'; export type RenderConfigurations = RenderOptions & { backgroundColor: Color | null; }; export interface RenderOptions { id: string; scale: number; canvas?: HTMLCanvasElement; x: number; y: number; scrollX: number; scrollY: number; width: number; height: number; windowWidth: number; windowHeight: number; cache: Cache; } const MASK_OFFSET = 10000; export class CanvasRenderer { canvas: HTMLCanvasElement; ctx: CanvasRenderingContext2D; options: RenderConfigurations; private readonly _activeEffects: IElementEffect[] = []; private readonly fontMetrics: FontMetrics; constructor(options: RenderConfigurations) { this.canvas = options.canvas ? options.canvas : document.createElement('canvas'); this.ctx = this.canvas.getContext('2d') as CanvasRenderingContext2D; this.options = options; if (!options.canvas) { this.canvas.width = Math.floor(options.width * options.scale); this.canvas.height = Math.floor(options.height * options.scale); this.canvas.style.width = `${options.width}px`; this.canvas.style.height = `${options.height}px`; } this.fontMetrics = new FontMetrics(document); this.ctx.scale(this.options.scale, this.options.scale); this.ctx.translate(-options.x + options.scrollX, -options.y + options.scrollY); this.ctx.textBaseline = 'bottom'; this._activeEffects = []; Logger.getInstance(options.id).debug( `Canvas renderer initialized (${options.width}x${options.height} at ${options.x},${options.y}) with scale ${options.scale}` ); } applyEffects(effects: IElementEffect[], target: EffectTarget): void { while (this._activeEffects.length) { this.popEffect(); } effects.filter((effect) => contains(effect.target, target)).forEach((effect) => this.applyEffect(effect)); } applyEffect(effect: IElementEffect): void { this.ctx.save(); if (isOpacityEffect(effect)) { this.ctx.globalAlpha = effect.opacity; } if (isTransformEffect(effect)) { this.ctx.translate(effect.offsetX, effect.offsetY); this.ctx.transform( effect.matrix[0], effect.matrix[1], effect.matrix[2], effect.matrix[3], effect.matrix[4], effect.matrix[5] ); this.ctx.translate(-effect.offsetX, -effect.offsetY); } if (isClipEffect(effect)) { this.path(effect.path); this.ctx.clip(); } this._activeEffects.push(effect); } popEffect(): void { this._activeEffects.pop(); this.ctx.restore(); } async renderStack(stack: StackingContext): Promise { const styles = stack.element.container.styles; if (styles.isVisible()) { await this.renderStackContent(stack); } } async renderNode(paint: ElementPaint): Promise { if (paint.container.styles.isVisible()) { await this.renderNodeBackgroundAndBorders(paint); await this.renderNodeContent(paint); } } renderTextWithLetterSpacing(text: TextBounds, letterSpacing: number, baseline: number): void { if (letterSpacing === 0) { this.ctx.fillText(text.text, text.bounds.left, text.bounds.top + baseline); } else { const letters = toCodePoints(text.text).map((i) => fromCodePoint(i)); letters.reduce((left, letter) => { this.ctx.fillText(letter, left, text.bounds.top + baseline); return left + this.ctx.measureText(letter).width; }, text.bounds.left); } } private createFontStyle(styles: CSSParsedDeclaration): string[] { const fontVariant = styles.fontVariant .filter((variant) => variant === 'normal' || variant === 'small-caps') .join(''); const fontFamily = styles.fontFamily.join(', '); const fontSize = isDimensionToken(styles.fontSize) ? `${styles.fontSize.number}${styles.fontSize.unit}` : `${styles.fontSize.number}px`; return [ [styles.fontStyle, fontVariant, styles.fontWeight, fontSize, fontFamily].join(' '), fontFamily, fontSize ]; } async renderTextNode(text: TextContainer, styles: CSSParsedDeclaration): Promise { const [font, fontFamily, fontSize] = this.createFontStyle(styles); this.ctx.font = font; this.ctx.textBaseline = 'alphabetic'; const {baseline, middle} = this.fontMetrics.getMetrics(fontFamily, fontSize); text.textBounds.forEach((text) => { this.ctx.fillStyle = asString(styles.color); this.renderTextWithLetterSpacing(text, styles.letterSpacing, baseline); const textShadows: TextShadow = styles.textShadow; if (textShadows.length && text.text.trim().length) { textShadows .slice(0) .reverse() .forEach((textShadow) => { this.ctx.shadowColor = asString(textShadow.color); this.ctx.shadowOffsetX = textShadow.offsetX.number * this.options.scale; this.ctx.shadowOffsetY = textShadow.offsetY.number * this.options.scale; this.ctx.shadowBlur = textShadow.blur.number; this.renderTextWithLetterSpacing(text, styles.letterSpacing, baseline); }); this.ctx.shadowColor = ''; this.ctx.shadowOffsetX = 0; this.ctx.shadowOffsetY = 0; this.ctx.shadowBlur = 0; } if (styles.textDecorationLine.length) { this.ctx.fillStyle = asString(styles.textDecorationColor || styles.color); styles.textDecorationLine.forEach((textDecorationLine) => { switch (textDecorationLine) { case TEXT_DECORATION_LINE.UNDERLINE: // Draws a line at the baseline of the font // TODO As some browsers display the line as more than 1px if the font-size is big, // need to take that into account both in position and size this.ctx.fillRect( text.bounds.left, Math.round(text.bounds.top + baseline), text.bounds.width, 1 ); break; case TEXT_DECORATION_LINE.OVERLINE: this.ctx.fillRect(text.bounds.left, Math.round(text.bounds.top), text.bounds.width, 1); break; case TEXT_DECORATION_LINE.LINE_THROUGH: // TODO try and find exact position for line-through this.ctx.fillRect( text.bounds.left, Math.ceil(text.bounds.top + middle), text.bounds.width, 1 ); break; } }); } }); } renderReplacedElement( container: ReplacedElementContainer, curves: BoundCurves, image: HTMLImageElement | HTMLCanvasElement ): void { if (image && container.intrinsicWidth > 0 && container.intrinsicHeight > 0) { const box = contentBox(container); const path = calculatePaddingBoxPath(curves); this.path(path); this.ctx.save(); this.ctx.clip(); this.ctx.drawImage( image, 0, 0, container.intrinsicWidth, container.intrinsicHeight, box.left, box.top, box.width, box.height ); this.ctx.restore(); } } async renderNodeContent(paint: ElementPaint): Promise { this.applyEffects(paint.effects, EffectTarget.CONTENT); const container = paint.container; const curves = paint.curves; const styles = container.styles; for (const child of container.textNodes) { await this.renderTextNode(child, styles); } if (container instanceof ImageElementContainer) { try { const image = await this.options.cache.match(container.src); this.renderReplacedElement(container, curves, image); } catch (e) { Logger.getInstance(this.options.id).error(`Error loading image ${container.src}`); } } if (container instanceof CanvasElementContainer) { this.renderReplacedElement(container, curves, container.canvas); } if (container instanceof SVGElementContainer) { try { const image = await this.options.cache.match(container.svg); this.renderReplacedElement(container, curves, image); } catch (e) { Logger.getInstance(this.options.id).error(`Error loading svg ${container.svg.substring(0, 255)}`); } } if (container instanceof IFrameElementContainer && container.tree) { const iframeRenderer = new CanvasRenderer({ id: this.options.id, scale: this.options.scale, backgroundColor: container.backgroundColor, x: 0, y: 0, scrollX: 0, scrollY: 0, width: container.width, height: container.height, cache: this.options.cache, windowWidth: container.width, windowHeight: container.height }); const canvas = await iframeRenderer.render(container.tree); if (container.width && container.height) { this.ctx.drawImage( canvas, 0, 0, container.width, container.height, container.bounds.left, container.bounds.top, container.bounds.width, container.bounds.height ); } } if (container instanceof InputElementContainer) { const size = Math.min(container.bounds.width, container.bounds.height); if (container.type === CHECKBOX) { if (container.checked) { this.ctx.save(); this.path([ new Vector(container.bounds.left + size * 0.39363, container.bounds.top + size * 0.79), new Vector(container.bounds.left + size * 0.16, container.bounds.top + size * 0.5549), new Vector(container.bounds.left + size * 0.27347, container.bounds.top + size * 0.44071), new Vector(container.bounds.left + size * 0.39694, container.bounds.top + size * 0.5649), new Vector(container.bounds.left + size * 0.72983, container.bounds.top + size * 0.23), new Vector(container.bounds.left + size * 0.84, container.bounds.top + size * 0.34085), new Vector(container.bounds.left + size * 0.39363, container.bounds.top + size * 0.79) ]); this.ctx.fillStyle = asString(INPUT_COLOR); this.ctx.fill(); this.ctx.restore(); } } else if (container.type === RADIO) { if (container.checked) { this.ctx.save(); this.ctx.beginPath(); this.ctx.arc( container.bounds.left + size / 2, container.bounds.top + size / 2, size / 4, 0, Math.PI * 2, true ); this.ctx.fillStyle = asString(INPUT_COLOR); this.ctx.fill(); this.ctx.restore(); } } } if (isTextInputElement(container) && container.value.length) { const [fontFamily, fontSize] = this.createFontStyle(styles); const {baseline} = this.fontMetrics.getMetrics(fontFamily, fontSize); this.ctx.font = fontFamily; this.ctx.fillStyle = asString(styles.color); this.ctx.textBaseline = 'alphabetic'; this.ctx.textAlign = canvasTextAlign(container.styles.textAlign); const bounds = contentBox(container); let x = 0; switch (container.styles.textAlign) { case TEXT_ALIGN.CENTER: x += bounds.width / 2; break; case TEXT_ALIGN.RIGHT: x += bounds.width; break; } const textBounds = bounds.add(x, 0, 0, -bounds.height / 2 + 1); this.ctx.save(); this.path([ new Vector(bounds.left, bounds.top), new Vector(bounds.left + bounds.width, bounds.top), new Vector(bounds.left + bounds.width, bounds.top + bounds.height), new Vector(bounds.left, bounds.top + bounds.height) ]); this.ctx.clip(); this.renderTextWithLetterSpacing( new TextBounds(container.value, textBounds), styles.letterSpacing, baseline ); this.ctx.restore(); this.ctx.textBaseline = 'alphabetic'; this.ctx.textAlign = 'left'; } if (contains(container.styles.display, DISPLAY.LIST_ITEM)) { if (container.styles.listStyleImage !== null) { const img = container.styles.listStyleImage; if (img.type === CSSImageType.URL) { let image; const url = (img as CSSURLImage).url; try { image = await this.options.cache.match(url); this.ctx.drawImage(image, container.bounds.left - (image.width + 10), container.bounds.top); } catch (e) { Logger.getInstance(this.options.id).error(`Error loading list-style-image ${url}`); } } } else if (paint.listValue && container.styles.listStyleType !== LIST_STYLE_TYPE.NONE) { const [fontFamily] = this.createFontStyle(styles); this.ctx.font = fontFamily; this.ctx.fillStyle = asString(styles.color); this.ctx.textBaseline = 'middle'; this.ctx.textAlign = 'right'; const bounds = new Bounds( container.bounds.left, container.bounds.top + getAbsoluteValue(container.styles.paddingTop, container.bounds.width), container.bounds.width, computeLineHeight(styles.lineHeight, styles.fontSize.number) / 2 + 1 ); this.renderTextWithLetterSpacing( new TextBounds(paint.listValue, bounds), styles.letterSpacing, computeLineHeight(styles.lineHeight, styles.fontSize.number) / 2 + 2 ); this.ctx.textBaseline = 'bottom'; this.ctx.textAlign = 'left'; } } } async renderStackContent(stack: StackingContext): Promise { // https://www.w3.org/TR/css-position-3/#painting-order // 1. the background and borders of the element forming the stacking context. await this.renderNodeBackgroundAndBorders(stack.element); // 2. the child stacking contexts with negative stack levels (most negative first). for (const child of stack.negativeZIndex) { await this.renderStack(child); } // 3. For all its in-flow, non-positioned, block-level descendants in tree order: await this.renderNodeContent(stack.element); for (const child of stack.nonInlineLevel) { await this.renderNode(child); } // 4. All non-positioned floating descendants, in tree order. For each one of these, // treat the element as if it created a new stacking context, but any positioned descendants and descendants // which actually create a new stacking context should be considered part of the parent stacking context, // not this new one. for (const child of stack.nonPositionedFloats) { await this.renderStack(child); } // 5. the in-flow, inline-level, non-positioned descendants, including inline tables and inline blocks. for (const child of stack.nonPositionedInlineLevel) { await this.renderStack(child); } for (const child of stack.inlineLevel) { await this.renderNode(child); } // 6. All positioned, opacity or transform descendants, in tree order that fall into the following categories: // All positioned descendants with 'z-index: auto' or 'z-index: 0', in tree order. // For those with 'z-index: auto', treat the element as if it created a new stacking context, // but any positioned descendants and descendants which actually create a new stacking context should be // considered part of the parent stacking context, not this new one. For those with 'z-index: 0', // treat the stacking context generated atomically. // // All opacity descendants with opacity less than 1 // // All transform descendants with transform other than none for (const child of stack.zeroOrAutoZIndexOrTransformedOrOpacity) { await this.renderStack(child); } // 7. Stacking contexts formed by positioned descendants with z-indices greater than or equal to 1 in z-index // order (smallest first) then tree order. for (const child of stack.positiveZIndex) { await this.renderStack(child); } } mask(paths: Path[]): void { this.ctx.beginPath(); this.ctx.moveTo(0, 0); this.ctx.lineTo(this.canvas.width, 0); this.ctx.lineTo(this.canvas.width, this.canvas.height); this.ctx.lineTo(0, this.canvas.height); this.ctx.lineTo(0, 0); this.formatPath(paths.slice(0).reverse()); this.ctx.closePath(); } path(paths: Path[]): void { this.ctx.beginPath(); this.formatPath(paths); this.ctx.closePath(); } formatPath(paths: Path[]): void { paths.forEach((point, index) => { const start: Vector = isBezierCurve(point) ? point.start : point; if (index === 0) { this.ctx.moveTo(start.x, start.y); } else { this.ctx.lineTo(start.x, start.y); } if (isBezierCurve(point)) { this.ctx.bezierCurveTo( point.startControl.x, point.startControl.y, point.endControl.x, point.endControl.y, point.end.x, point.end.y ); } }); } renderRepeat(path: Path[], pattern: CanvasPattern | CanvasGradient, offsetX: number, offsetY: number): void { this.path(path); this.ctx.fillStyle = pattern; this.ctx.translate(offsetX, offsetY); this.ctx.fill(); this.ctx.translate(-offsetX, -offsetY); } resizeImage(image: HTMLImageElement, width: number, height: number): HTMLCanvasElement | HTMLImageElement { if (image.width === width && image.height === height) { return image; } const ownerDocument = this.canvas.ownerDocument ?? document; const canvas = ownerDocument.createElement('canvas'); canvas.width = Math.max(1, width); canvas.height = Math.max(1, height); const ctx = canvas.getContext('2d') as CanvasRenderingContext2D; ctx.drawImage(image, 0, 0, image.width, image.height, 0, 0, width, height); return canvas; } async renderBackgroundImage(container: ElementContainer): Promise { let index = container.styles.backgroundImage.length - 1; for (const backgroundImage of container.styles.backgroundImage.slice(0).reverse()) { if (backgroundImage.type === CSSImageType.URL) { let image; const url = (backgroundImage as CSSURLImage).url; try { image = await this.options.cache.match(url); } catch (e) { Logger.getInstance(this.options.id).error(`Error loading background-image ${url}`); } if (image) { const [path, x, y, width, height] = calculateBackgroundRendering(container, index, [ image.width, image.height, image.width / image.height ]); const pattern = this.ctx.createPattern( this.resizeImage(image, width, height), 'repeat' ) as CanvasPattern; this.renderRepeat(path, pattern, x, y); } } else if (isLinearGradient(backgroundImage)) { const [path, x, y, width, height] = calculateBackgroundRendering(container, index, [null, null, null]); const [lineLength, x0, x1, y0, y1] = calculateGradientDirection(backgroundImage.angle, width, height); const canvas = document.createElement('canvas'); canvas.width = width; canvas.height = height; const ctx = canvas.getContext('2d') as CanvasRenderingContext2D; const gradient = ctx.createLinearGradient(x0, y0, x1, y1); processColorStops(backgroundImage.stops, lineLength).forEach((colorStop) => gradient.addColorStop(colorStop.stop, asString(colorStop.color)) ); ctx.fillStyle = gradient; ctx.fillRect(0, 0, width, height); if (width > 0 && height > 0) { const pattern = this.ctx.createPattern(canvas, 'repeat') as CanvasPattern; this.renderRepeat(path, pattern, x, y); } } else if (isRadialGradient(backgroundImage)) { const [path, left, top, width, height] = calculateBackgroundRendering(container, index, [ null, null, null ]); const position = backgroundImage.position.length === 0 ? [FIFTY_PERCENT] : backgroundImage.position; const x = getAbsoluteValue(position[0], width); const y = getAbsoluteValue(position[position.length - 1], height); const [rx, ry] = calculateRadius(backgroundImage, x, y, width, height); if (rx > 0 && rx > 0) { const radialGradient = this.ctx.createRadialGradient(left + x, top + y, 0, left + x, top + y, rx); processColorStops(backgroundImage.stops, rx * 2).forEach((colorStop) => radialGradient.addColorStop(colorStop.stop, asString(colorStop.color)) ); this.path(path); this.ctx.fillStyle = radialGradient; if (rx !== ry) { // transforms for elliptical radial gradient const midX = container.bounds.left + 0.5 * container.bounds.width; const midY = container.bounds.top + 0.5 * container.bounds.height; const f = ry / rx; const invF = 1 / f; this.ctx.save(); this.ctx.translate(midX, midY); this.ctx.transform(1, 0, 0, f, 0, 0); this.ctx.translate(-midX, -midY); this.ctx.fillRect(left, invF * (top - midY) + midY, width, height * invF); this.ctx.restore(); } else { this.ctx.fill(); } } } index--; } } async renderSolidBorder(color: Color, side: number, curvePoints: BoundCurves): Promise { this.path(parsePathForBorder(curvePoints, side)); this.ctx.fillStyle = asString(color); this.ctx.fill(); } async renderDoubleBorder(color: Color, width: number, side: number, curvePoints: BoundCurves): Promise { if (width < 3) { await this.renderSolidBorder(color, side, curvePoints); return; } const outerPaths = parsePathForBorderDoubleOuter(curvePoints, side); this.path(outerPaths); this.ctx.fillStyle = asString(color); this.ctx.fill(); const innerPaths = parsePathForBorderDoubleInner(curvePoints, side); this.path(innerPaths); this.ctx.fill(); } async renderNodeBackgroundAndBorders(paint: ElementPaint): Promise { this.applyEffects(paint.effects, EffectTarget.BACKGROUND_BORDERS); const styles = paint.container.styles; const hasBackground = !isTransparent(styles.backgroundColor) || styles.backgroundImage.length; const borders = [ {style: styles.borderTopStyle, color: styles.borderTopColor, width: styles.borderTopWidth}, {style: styles.borderRightStyle, color: styles.borderRightColor, width: styles.borderRightWidth}, {style: styles.borderBottomStyle, color: styles.borderBottomColor, width: styles.borderBottomWidth}, {style: styles.borderLeftStyle, color: styles.borderLeftColor, width: styles.borderLeftWidth} ]; const backgroundPaintingArea = calculateBackgroundCurvedPaintingArea( getBackgroundValueForIndex(styles.backgroundClip, 0), paint.curves ); if (hasBackground || styles.boxShadow.length) { this.ctx.save(); this.path(backgroundPaintingArea); this.ctx.clip(); if (!isTransparent(styles.backgroundColor)) { this.ctx.fillStyle = asString(styles.backgroundColor); this.ctx.fill(); } await this.renderBackgroundImage(paint.container); this.ctx.restore(); styles.boxShadow .slice(0) .reverse() .forEach((shadow) => { this.ctx.save(); const borderBoxArea = calculateBorderBoxPath(paint.curves); const maskOffset = shadow.inset ? 0 : MASK_OFFSET; const shadowPaintingArea = transformPath( borderBoxArea, -maskOffset + (shadow.inset ? 1 : -1) * shadow.spread.number, (shadow.inset ? 1 : -1) * shadow.spread.number, shadow.spread.number * (shadow.inset ? -2 : 2), shadow.spread.number * (shadow.inset ? -2 : 2) ); if (shadow.inset) { this.path(borderBoxArea); this.ctx.clip(); this.mask(shadowPaintingArea); } else { this.mask(borderBoxArea); this.ctx.clip(); this.path(shadowPaintingArea); } this.ctx.shadowOffsetX = shadow.offsetX.number + maskOffset; this.ctx.shadowOffsetY = shadow.offsetY.number; this.ctx.shadowColor = asString(shadow.color); this.ctx.shadowBlur = shadow.blur.number; this.ctx.fillStyle = shadow.inset ? asString(shadow.color) : 'rgba(0,0,0,1)'; this.ctx.fill(); this.ctx.restore(); }); } let side = 0; for (const border of borders) { if (border.style !== BORDER_STYLE.NONE && !isTransparent(border.color) && border.width > 0) { if (border.style === BORDER_STYLE.DASHED) { await this.renderDashedDottedBorder( border.color, border.width, side, paint.curves, BORDER_STYLE.DASHED ); } else if (border.style === BORDER_STYLE.DOTTED) { await this.renderDashedDottedBorder( border.color, border.width, side, paint.curves, BORDER_STYLE.DOTTED ); } else if (border.style === BORDER_STYLE.DOUBLE) { await this.renderDoubleBorder(border.color, border.width, side, paint.curves); } else { await this.renderSolidBorder(border.color, side, paint.curves); } } side++; } } async renderDashedDottedBorder( color: Color, width: number, side: number, curvePoints: BoundCurves, style: BORDER_STYLE ): Promise { this.ctx.save(); const strokePaths = parsePathForBorderStroke(curvePoints, side); const boxPaths = parsePathForBorder(curvePoints, side); if (style === BORDER_STYLE.DASHED) { this.path(boxPaths); this.ctx.clip(); } let startX, startY, endX, endY; if (isBezierCurve(boxPaths[0])) { startX = (boxPaths[0] as BezierCurve).start.x; startY = (boxPaths[0] as BezierCurve).start.y; } else { startX = (boxPaths[0] as Vector).x; startY = (boxPaths[0] as Vector).y; } if (isBezierCurve(boxPaths[1])) { endX = (boxPaths[1] as BezierCurve).end.x; endY = (boxPaths[1] as BezierCurve).end.y; } else { endX = (boxPaths[1] as Vector).x; endY = (boxPaths[1] as Vector).y; } let length; if (side === 0 || side === 2) { length = Math.abs(startX - endX); } else { length = Math.abs(startY - endY); } this.ctx.beginPath(); if (style === BORDER_STYLE.DOTTED) { this.formatPath(strokePaths); } else { this.formatPath(boxPaths.slice(0, 2)); } let dashLength = width < 3 ? width * 3 : width * 2; let spaceLength = width < 3 ? width * 2 : width; if (style === BORDER_STYLE.DOTTED) { dashLength = width; spaceLength = width; } let useLineDash = true; if (length <= dashLength * 2) { useLineDash = false; } else if (length <= dashLength * 2 + spaceLength) { const multiplier = length / (2 * dashLength + spaceLength); dashLength *= multiplier; spaceLength *= multiplier; } else { const numberOfDashes = Math.floor((length + spaceLength) / (dashLength + spaceLength)); const minSpace = (length - numberOfDashes * dashLength) / (numberOfDashes - 1); const maxSpace = (length - (numberOfDashes + 1) * dashLength) / numberOfDashes; spaceLength = maxSpace <= 0 || Math.abs(spaceLength - minSpace) < Math.abs(spaceLength - maxSpace) ? minSpace : maxSpace; } if (useLineDash) { if (style === BORDER_STYLE.DOTTED) { this.ctx.setLineDash([0, dashLength + spaceLength]); } else { this.ctx.setLineDash([dashLength, spaceLength]); } } if (style === BORDER_STYLE.DOTTED) { this.ctx.lineCap = 'round'; this.ctx.lineWidth = width; } else { this.ctx.lineWidth = width * 2 + 1.1; } this.ctx.strokeStyle = asString(color); this.ctx.stroke(); this.ctx.setLineDash([]); // dashed round edge gap if (style === BORDER_STYLE.DASHED) { if (isBezierCurve(boxPaths[0])) { const path1 = boxPaths[3] as BezierCurve; const path2 = boxPaths[0] as BezierCurve; this.ctx.beginPath(); this.formatPath([new Vector(path1.end.x, path1.end.y), new Vector(path2.start.x, path2.start.y)]); this.ctx.stroke(); } if (isBezierCurve(boxPaths[1])) { const path1 = boxPaths[1] as BezierCurve; const path2 = boxPaths[2] as BezierCurve; this.ctx.beginPath(); this.formatPath([new Vector(path1.end.x, path1.end.y), new Vector(path2.start.x, path2.start.y)]); this.ctx.stroke(); } } this.ctx.restore(); } async render(element: ElementContainer): Promise { if (this.options.backgroundColor) { this.ctx.fillStyle = asString(this.options.backgroundColor); this.ctx.fillRect( this.options.x - this.options.scrollX, this.options.y - this.options.scrollY, this.options.width, this.options.height ); } const stack = parseStackingContexts(element); await this.renderStack(stack); this.applyEffects([], EffectTarget.BACKGROUND_BORDERS); return this.canvas; } } const isTextInputElement = ( container: ElementContainer ): container is InputElementContainer | TextareaElementContainer | SelectElementContainer => { if (container instanceof TextareaElementContainer) { return true; } else if (container instanceof SelectElementContainer) { return true; } else if (container instanceof InputElementContainer && container.type !== RADIO && container.type !== CHECKBOX) { return true; } return false; }; const calculateBackgroundCurvedPaintingArea = (clip: BACKGROUND_CLIP, curves: BoundCurves): Path[] => { switch (clip) { case BACKGROUND_CLIP.BORDER_BOX: return calculateBorderBoxPath(curves); case BACKGROUND_CLIP.CONTENT_BOX: return calculateContentBoxPath(curves); case BACKGROUND_CLIP.PADDING_BOX: default: return calculatePaddingBoxPath(curves); } }; const canvasTextAlign = (textAlign: TEXT_ALIGN): CanvasTextAlign => { switch (textAlign) { case TEXT_ALIGN.CENTER: return 'center'; case TEXT_ALIGN.RIGHT: return 'right'; case TEXT_ALIGN.LEFT: default: return 'left'; } };