const Logger = require('../lib/utils/logger'); const config = require('../config'); const fs = require('fs'); const {create} = require('xmlbuilder2', {encoding: 'utf-8'}); const cp = require('child_process'); const WorkerStarter = require('../lib/utils/worker-starter'); const {workerData} = require('worker_threads'); const path = require('path'); const sanitize = require('sanitize-filename'); const {getStrokePoints, getStrokeOutlinePoints} = require('perfect-freehand'); const probe = require('probe-image-size'); const redis = require('redis'); const {PresAnnStatusMsg} = require('../lib/utils/message-builder'); const jobId = workerData.jobId; const logger = new Logger('presAnn Process Worker'); logger.info('Processing PDF for job ' + jobId); const dropbox = path.join(config.shared.presAnnDropboxDir, jobId); const job = fs.readFileSync(path.join(dropbox, 'job')); const exportJob = JSON.parse(job); const statusUpdate = new PresAnnStatusMsg(exportJob, PresAnnStatusMsg.EXPORT_STATUSES.PROCESSING); // General utilities for rendering SVGs resembling Tldraw as much as possible function align_to_pango(alignment) { switch (alignment) { case 'start': return 'left'; case 'middle': return 'center'; case 'end': return 'right'; case 'justify': return 'justify'; default: return 'left'; } } function color_to_hex(color, isStickyNote = false, isFilled = false) { if (isStickyNote) { color = `sticky-${color}`; } if (isFilled) { color = `fill-${color}`; } switch (color) { case 'white': return '#1d1d1d'; case 'fill-white': return '#fefefe'; case 'sticky-white': return '#fddf8e'; case 'lightGray': return '#c6cbd1'; case 'fill-lightGray': return '#f1f2f3'; case 'sticky-lightGray': return '#dde0e3'; case 'gray': return '#788492'; case 'fill-gray': return '#e3e5e7'; case 'sticky-gray': return '#b3b9c1'; case 'black': return '#1d1d1d'; case 'fill-black': return '#d2d2d2'; case 'sticky-black': return '#fddf8e'; case 'green': return '#36b24d'; case 'fill-green': return '#d7eddb'; case 'sticky-green': return '#8ed29b'; case 'cyan': return '#0e98ad'; case 'fill-cyan': return '#d0e8ec'; case 'sticky-cyan': return '#78c4d0'; case 'blue': return '#1c7ed6'; case 'fill-blue': return '#d2e4f4'; case 'sticky-blue': return '#80b6e6'; case 'indigo': return '#4263eb'; case 'fill-indigo': return '#d9dff7'; case 'sticky-indigo': return '#95a7f2'; case 'violet': return '#7746f1'; case 'fill-violet': return '#e2daf8'; case 'sticky-violet': return '#b297f5'; case 'red': return '#ff2133'; case 'fill-red': return '#fbd3d6'; case 'sticky-red': return '#fd838d'; case 'orange': return '#ff9433'; case 'fill-orange': return '#fbe8d6'; case 'sticky-orange': return '#fdc28d'; case 'yellow': return '#ffc936'; case 'fill-yellow': return '#fbf1d7'; case 'sticky-yellow': return '#fddf8e'; default: return '#0d0d0d'; } } function determine_dasharray(dash, gap = 0) { switch (dash) { case 'dashed': return `stroke-linecap:butt;stroke-dasharray:${gap};`; case 'dotted': return `stroke-linecap:round;stroke-dasharray:${gap};`; default: return 'stroke-linejoin:round;stroke-linecap:round;'; } } function determine_font_from_family(family) { switch (family) { case 'script': return 'Caveat Brush'; case 'sans': return 'Source Sans Pro'; case 'serif': return 'Crimson Pro'; // Temporary workaround due to typo in messages case 'erif': return 'Crimson Pro'; case 'mono': return 'Source Code Pro'; default: return 'Caveat Brush'; } } function rad_to_degree(angle) { return angle * (180 / Math.PI) || 0; } // Convert pixels to points function to_pt(px) { return (px / config.process.pixelsPerInch) * config.process.pointsPerInch; } // Convert points to pixels function to_px(pt) { return (pt / config.process.pointsPerInch) * config.process.pixelsPerInch; } // Escape shell metacharacters based on MDN's page on regular expressions, // the escape-string-regexp npm package, and Pango markup. function escapeText(string) { return string .replace(/[~`!.*+?%^${}()|[\]\\/]/g, '\\$&') .replace(/&/g, '\\&') .replace(/'/g, '\\'') .replace(/"/g, '\\"') .replace(/>/g, '\\>') .replace(/${text}`; const justify = textAlign === 'justify'; textAlign = justify ? 'left' : textAlign; const commands = [ '-encoding', `${config.process.whiteboardTextEncoding}`, '-density', config.process.pixelsPerInch, '-background', 'transparent'].concat(size, [ '-define', `pango:align=${textAlign}`, '-define', `pango:justify=${justify}`, '-define', 'pango:wrap=word-char', pangoText, path.join(dropbox, `text${id}.png`), ]); try { cp.spawnSync(config.shared.imagemagick, commands, {shell: false}); } catch (error) { logger.error(`ImageMagick failed to render textbox in job ${jobId}: ${error.message}`); statusUpdate.setError(); } } function get_gap(dash, size) { switch (dash) { case 'dashed': if (size == 'small') { return '8 8'; } else if (size == 'medium') { return '14 14'; } else { return '20 20'; } case 'dotted': if (size == 'small') { return '0.1 8'; } else if (size == 'medium') { return '0.1 14'; } else { return '0.1 20'; } default: return '0'; } } function get_stroke_width(dash, size) { switch (size) { case 'small': if (dash === 'draw') { return 2; } else { return 4; } case 'medium': if (dash === 'draw') { return 3.5; } else { return 6.25; } case 'large': if (dash === 'draw') { return 5; } else { return 8.5; } default: return 1; } } function sortByKey(array, key, value) { return array.sort(function(a, b) { const [x, y] = [a[key][value], b[key][value]]; return x - y; }); } function text_size_to_px(size, scale = 1, isStickyNote = false) { if (isStickyNote) { size = `sticky-${size}`; } switch (size) { case 'sticky-small': return 24; case 'small': return 28 * scale; case 'sticky-medium': return 36; case 'medium': return 48 * scale; case 'sticky-large': return 48; case 'large': return 96 * scale; default: return 28 * scale; } } /** * Turns an array of points into a path of quadradic curves. * @param {Array} annotationPoints * @param {Boolean} closed - whether the path end and start should be connected (default) * @return {Array} - an SVG quadratic curve path */ function getSvgPath(annotationPoints, closed = true) { const svgPath = annotationPoints.reduce( (acc, [x0, y0], i, arr) => { if (!arr[i + 1]) return acc; const [x1, y1] = arr[i + 1]; acc.push(x0.toFixed(2), y0.toFixed(2), ((x0 + x1) / 2).toFixed(2), ((y0 + y1) / 2).toFixed(2)); return acc; }, ['M', ...annotationPoints[0], 'Q'], ); if (closed) svgPath.push('Z'); return svgPath; } function circleFromThreePoints(A, B, C) { const [x1, y1] = A; const [x2, y2] = B; const [x3, y3] = C; const a = x1 * (y2 - y3) - y1 * (x2 - x3) + x2 * y3 - x3 * y2; const b = (x1 * x1 + y1 * y1) * (y3 - y2) + (x2 * x2 + y2 * y2) * (y1 - y3) + (x3 * x3 + y3 * y3) * (y2 - y1); const c = (x1 * x1 + y1 * y1) * (x2 - x3) + (x2 * x2 + y2 * y2) * (x3 - x1) + (x3 * x3 + y3 * y3) * (x1 - x2); const x = -b / (2 * a); const y = -c / (2 * a); return [x, y, Math.hypot(x - x1, y - y1)]; } function distance(x1, y1, x2, y2) { return Math.sqrt(Math.pow((x2 - x1), 2) + Math.pow((y2 - y1), 2)); } function getArcLength(C, r, A, B) { const sweep = getSweep(C, A, B); return r * (2 * Math.PI) * (sweep / (2 * Math.PI)); } function getSweep(C, A, B) { // Get angle between two vectors in radians const a0 = Math.atan2(A[1] - C[1], A[0] - C[0]); const a1 = Math.atan2(B[1] - C[1], B[0] - C[0]); // Short distance between two angles const max = Math.PI * 2; const da = (a1 - a0) % max; return ((2 * da) % max) - da; } function intersectCircleCircle(c1, r1, c2, r2) { let dx = c2[0] - c1[0]; let dy = c2[1] - c1[1]; const d = Math.sqrt(dx * dx + dy * dy); const x = (d * d - r2 * r2 + r1 * r1) / (2 * d); const y = Math.sqrt(r1 * r1 - x * x); dx /= d; dy /= d; return [[c1[0] + dx * x - dy * y, c1[1] + dy * x + dx * y], [c1[0] + dx * x + dy * y, c1[1] + dy * x - dx * y]]; } function rotWith(A, C, r = 0) { // Rotate a vector A around another vector C by r radians if (r === 0) return A; const s = Math.sin(r); const c = Math.cos(r); const px = A[0] - C[0]; const py = A[1] - C[1]; const nx = px * c - py * s; const ny = px * s + py * c; return [nx + C[0], ny + C[1]]; } function nudge(A, B, d) { // Pushes a point A towards a point B by a given distance if (A[0] === B[0] && A[1] === B[1]) return A; // B - A const sub = [B[0] - A[0], B[1] - A[1]]; // Vector length const len = Math.hypot(sub[0], sub[1]); // Get unit vector const unit = [sub[0] / len, sub[1] / len]; // Multiply by distance const mul = [unit[0] * d, unit[1] * d]; return [A[0] + mul[0], A[1] + mul[1]]; } function getCurvedArrowHeadPath(A, r1, C, r2, sweep) { const phi = (1 + Math.sqrt(5)) / 2; // Determine intersections between two circles const ints = intersectCircleCircle(A, r1 * (phi - 1), C, r2); if (!ints) { logger.info('Could not find an intersection for the arrow head.'); return {left: A, right: A}; } const int = sweep ? ints[0] : ints[1]; const left = int ? nudge(rotWith(int, A, Math.PI / 6), A, r1 * -0.382) : A; const right = int ? nudge(rotWith(int, A, -Math.PI / 6), A, r1 * -0.382) : A; return `M ${left} L ${A} ${right}`; } // Methods to convert Akka message contents into SVG function overlay_arrow(svg, annotation) { const [x, y] = annotation.point; const bend = annotation.bend; const decorations = annotation.decorations; let dash = annotation.style.dash; dash = (dash == 'draw') ? 'solid' : dash; // Use 'solid' thickness const shapeColor = color_to_hex(annotation.style.color); const sw = get_stroke_width(dash, annotation.style.size); const gap = get_gap(dash, annotation.style.size); const stroke_dasharray = determine_dasharray(dash, gap); const [start_x, start_y] = annotation.handles.start.point; const [end_x, end_y] = annotation.handles.end.point; const [bend_x, bend_y] = annotation.handles.bend.point; const line = []; const arrowHead = []; const arrowDistance = distance(start_x, start_y, end_x, end_y); const arrowHeadLength = Math.min(arrowDistance / 3, 8 * sw); const isStraightLine = parseFloat(bend).toFixed(3) == 0; const angle = Math.atan2(end_y - start_y, end_x - start_x); if (isStraightLine) { // Draws a straight line / arrow line.push(`M ${start_x} ${start_y} L ${end_x} ${end_y}`); if (decorations.start || decorations.end) { arrowHead.push(`M ${end_x} ${end_y}`); arrowHead.push(`L ${end_x + arrowHeadLength * Math.cos(angle + (7 / 6) * Math.PI)} ${end_y + arrowHeadLength * Math.sin(angle + (7 / 6) * Math.PI)}`); arrowHead.push(`M ${end_x} ${end_y}`); arrowHead.push(`L ${end_x + arrowHeadLength * Math.cos(angle + (5 / 6) * Math.PI)} ${end_y + arrowHeadLength * Math.sin(angle + (5 / 6) * Math.PI)}`); } } else { // Curved lines and arrows const circle = circleFromThreePoints([start_x, start_y], [bend_x, bend_y], [end_x, end_y]); const center = [circle[0], circle[1]]; const radius = circle[2]; const length = getArcLength(center, radius, [start_x, start_y], [end_x, end_y]); line.push(`M ${start_x} ${start_y} A ${radius} ${radius} 0 0 ${length > 0 ? '1' : '0'} ${end_x} ${end_y}`); if (decorations.start) { arrowHead.push(getCurvedArrowHeadPath([start_x, start_y], arrowHeadLength, center, radius, length < 0)); } else if (decorations.end) { arrowHead.push(getCurvedArrowHeadPath([end_x, end_y], arrowHeadLength, center, radius, length >= 0)); } } // The arrowhead is purposely not styled (e.g., dashed / dotted) svg.ele('g', { style: `stroke:${shapeColor};stroke-width:${sw};fill:none;`, transform: `translate(${x} ${y})`, }).ele('path', { 'style': stroke_dasharray, 'd': line.join(' '), }).up() .ele('path', { d: arrowHead.join(' '), }).up(); } function overlay_draw(svg, annotation) { const shapePoints = annotation.points; const shapePointsLength = shapePoints.length; if (shapePointsLength < 2) return; const dash = annotation.style.dash; const isDashDraw = (dash == 'draw'); const thickness = get_stroke_width(dash, annotation.style.size); const gap = get_gap(dash, annotation.style.size); const stroke_dasharray = determine_dasharray(dash, gap); const shapeColor = color_to_hex(annotation.style.color); const shapeFillColor = color_to_hex(`fill-${annotation.style.color}`); const fill = isDashDraw ? shapeColor : 'none'; const rotation = rad_to_degree(annotation.rotation); const [x, y] = annotation.point; const [width, height] = annotation.size; const shapeTransform = `translate(${x} ${y}), rotate(${rotation} ${width / 2} ${height / 2})`; const simulatePressure = { easing: (t) => Math.sin((t * Math.PI) / 2), simulatePressure: true, }; const realPressure = { easing: (t) => t * t, simulatePressure: false, }; const options = { size: 1 + thickness * 1.5, thinning: 0.65, streamline: 0.65, smoothing: 0.65, ...(shapePoints[1][2] === 0.5 ? simulatePressure : realPressure), last: annotation.isComplete, }; const strokePoints = getStrokePoints(shapePoints, options); // Fill when path start- and end points overlap const isShapeFilled = annotation.style.isFilled && shapePointsLength > 3 && Math.round(distance( shapePoints[0][0], shapePoints[0][1], shapePoints[shapePointsLength - 1][0], shapePoints[shapePointsLength - 1][1], )) <= 2 * thickness; if (isShapeFilled) { const shapeArea = strokePoints.map((strokePoint) => strokePoint.point); svg.ele('path', { style: `fill:${shapeFillColor};`, d: getSvgPath(shapeArea), transform: shapeTransform, }).up(); } if (isDashDraw) { const strokeOutlinePoints = getStrokeOutlinePoints(strokePoints, options); const svgPath = getSvgPath(strokeOutlinePoints); svg.ele('path', { style: `fill:${fill};${stroke_dasharray}`, d: svgPath, transform: shapeTransform, }); } else { const last = shapePoints[shapePointsLength - 1]; // Avoid single dots from not being drawn if (strokePoints[0].point[0] == last[0] && strokePoints[0].point[1] == last[1]) { strokePoints.push({point: last}); } const solidPath = strokePoints.map((strokePoint) => strokePoint.point); const svgPath = getSvgPath(solidPath, false); svg.ele('path', { style: `stroke:${shapeColor};stroke-width:${thickness};fill:${fill};${stroke_dasharray}`, d: svgPath, transform: shapeTransform, }); } } function overlay_ellipse(svg, annotation) { let dash = annotation.style.dash; dash = (dash == 'draw') ? 'solid' : dash; // Use 'solid' thickness for draw type const [x, y] = annotation.point; // Ellipse center coordinates const [rx, ry] = annotation.radius; const isFilled = annotation.style.isFilled; const shapeColor = color_to_hex(annotation.style.color); const fillColor = isFilled ? color_to_hex(annotation.style.color, false, isFilled) : 'none'; const rotation = rad_to_degree(annotation.rotation); const sw = get_stroke_width(dash, annotation.style.size); const gap = get_gap(dash, annotation.style.size); const stroke_dasharray = determine_dasharray(dash, gap); svg.ele('g', { style: `stroke:${shapeColor};stroke-width:${sw};fill:${fillColor};${stroke_dasharray}`, }).ele('ellipse', { 'cx': x + rx, 'cy': y + ry, 'rx': rx, 'ry': ry, 'transform': `rotate(${rotation} ${x + rx} ${y + ry})`, }).up(); if (annotation.label) { overlay_shape_label(svg, annotation); } } function overlay_rectangle(svg, annotation) { const dash = annotation.style.dash; const rect_dash = (dash == 'draw') ? 'solid' : dash; // Use 'solid' thickness for draw type const [x, y] = annotation.point; const [w, h] = annotation.size; const isFilled = annotation.style.isFilled; const shapeColor = color_to_hex(annotation.style.color); const fillColor = isFilled ? color_to_hex(annotation.style.color, false, isFilled) : 'none'; const rotation = rad_to_degree(annotation.rotation); const sw = get_stroke_width(rect_dash, annotation.style.size); const gap = get_gap(dash, annotation.style.size); const stroke_dasharray = determine_dasharray(dash, gap); const rx = (dash == 'draw') ? Math.min(w / 4, sw * 2) : 0; const ry = (dash == 'draw') ? Math.min(h / 4, sw * 2) : 0; svg.ele('g', { style: `stroke:${shapeColor};stroke-width:${sw};fill:${fillColor};${stroke_dasharray}`, }).ele('rect', { 'width': w, 'height': h, 'rx': rx, 'ry': ry, 'transform': `translate(${x} ${y}), rotate(${rotation} ${w / 2} ${h / 2})`, }).up(); if (annotation.label) { overlay_shape_label(svg, annotation); } } function overlay_shape_label(svg, annotation) { const fontColor = color_to_hex(annotation.style.color); const font = determine_font_from_family(annotation.style.font); const fontSize = text_size_to_px(annotation.style.size, annotation.style.scale); const textAlign = 'center'; const text = annotation.label; const id = sanitize(annotation.id); const rotation = rad_to_degree(annotation.rotation); const [shape_width, shape_height] = annotation.size; const [shape_x, shape_y] = annotation.point; const x_offset = annotation.labelPoint[0]; const y_offset = annotation.labelPoint[1]; const label_center_x = shape_x + shape_width * x_offset; const label_center_y = shape_y + shape_height * y_offset; render_textbox(fontColor, font, fontSize, textAlign, text, id); const shape_label = path.join(dropbox, `text${id}.png`); if (fs.existsSync(shape_label)) { // Poll results must fit inside shape, unlike other rectangle labels. // Linewrapping handled by client. const ref = `file://${dropbox}/text${id}.png`; const transform = `rotate(${rotation} ${label_center_x} ${label_center_y})` const fitLabelToShape = annotation?.name?.startsWith('poll-result'); let labelWidth = shape_width; let labelHeight = shape_height; if (!fitLabelToShape) { const dimensions = probe.sync(fs.readFileSync(shape_label)); labelWidth = dimensions.width / config.process.textScaleFactor; labelHeight = dimensions.height / config.process.textScaleFactor; } svg.ele('g', { transform: transform, }).ele('image', { 'x': label_center_x - (labelWidth * x_offset), 'y': label_center_y - (labelHeight * y_offset), 'width': labelWidth, 'height': labelHeight, 'xlink:href': ref, }).up(); } } function overlay_sticky(svg, annotation) { const backgroundColor = color_to_hex(annotation.style.color, true); const fontSize = text_size_to_px(annotation.style.size, annotation.style.scale, true); const rotation = rad_to_degree(annotation.rotation); const font = determine_font_from_family(annotation.style.font); const textAlign = align_to_pango(annotation.style.textAlign); const [textBoxWidth, textBoxHeight] = annotation.size; const [textBox_x, textBox_y] = annotation.point; const textColor = '#0d0d0d'; // For sticky notes const text = annotation.text; const id = sanitize(annotation.id); render_textbox(textColor, font, fontSize, textAlign, text, id, textBoxWidth); // Overlay transparent text image over empty sticky note svg.ele('g', { transform: `rotate(${rotation}, ${textBox_x + (textBoxWidth / 2)}, ${textBox_y + (textBoxHeight / 2)})`, }).ele('rect', { x: textBox_x, y: textBox_y, width: textBoxWidth, height: textBoxHeight, fill: backgroundColor, }).up() .ele('image', { 'x': textBox_x, 'y': textBox_y, 'width': textBoxWidth, 'height': textBoxHeight, 'xlink:href': `file://${dropbox}/text${id}.png`, }).up(); } function overlay_triangle(svg, annotation) { let dash = annotation.style.dash; dash = (dash == 'draw') ? 'solid' : dash; const [x, y] = annotation.point; const [w, h] = annotation.size; const isFilled = annotation.style.isFilled; const shapeColor = color_to_hex(annotation.style.color); const fillColor = isFilled ? color_to_hex(annotation.style.color, false, isFilled) : 'none'; const rotation = rad_to_degree(annotation.rotation); const sw = get_stroke_width(dash, annotation.style.size); const gap = get_gap(dash, annotation.style.size); const stroke_dasharray = determine_dasharray(dash, gap); const points = `${w / 2} 0, ${w} ${h}, 0 ${h}, ${w / 2} 0`; svg.ele('g', { style: `stroke:${shapeColor};stroke-width:${sw};fill:${fillColor};${stroke_dasharray}`, }).ele('polygon', { 'points': points, 'transform': `translate(${x}, ${y}), rotate(${rotation} ${w / 2} ${h / 2})`, }).up(); if (annotation.label) { overlay_shape_label(svg, annotation); } } function overlay_text(svg, annotation) { if (annotation.size == null || annotation.size.length < 2) { return } const [textBoxWidth, textBoxHeight] = annotation.size; const fontColor = color_to_hex(annotation.style.color); const font = determine_font_from_family(annotation.style.font); const fontSize = text_size_to_px(annotation.style.size, annotation.style.scale); const textAlign = align_to_pango(annotation.style.textAlign); const text = annotation.text; const id = sanitize(annotation.id); const rotation = rad_to_degree(annotation.rotation); const [textBox_x, textBox_y] = annotation.point; render_textbox(fontColor, font, fontSize, textAlign, text, id); const rotation_x = textBox_x + (textBoxWidth / 2); const rotation_y = textBox_y + (textBoxHeight / 2); svg.ele('g', { transform: `rotate(${rotation} ${rotation_x} ${rotation_y})`, }).ele('image', { 'x': textBox_x, 'y': textBox_y, 'width': textBoxWidth, 'height': textBoxHeight, 'xlink:href': `file://${dropbox}/text${id}.png`, }).up(); } function overlay_annotation(svg, currentAnnotation) { try { switch (currentAnnotation.type) { case 'arrow': overlay_arrow(svg, currentAnnotation); break; case 'draw': overlay_draw(svg, currentAnnotation); break; case 'ellipse': overlay_ellipse(svg, currentAnnotation); break; case 'rectangle': overlay_rectangle(svg, currentAnnotation); break; case 'sticky': overlay_sticky(svg, currentAnnotation); break; case 'triangle': overlay_triangle(svg, currentAnnotation); break; case 'text': overlay_text(svg, currentAnnotation); break; default: logger.info(`Unknown annotation type ${currentAnnotation.type}.`); } } catch (error) { logger.warn("Failed to overlay annotation", { failedAnnotation: currentAnnotation, error: error }); } } function overlay_annotations(svg, currentSlideAnnotations) { // Sort annotations by lowest child index currentSlideAnnotations = sortByKey(currentSlideAnnotations, 'annotationInfo', 'childIndex'); for (const annotation of currentSlideAnnotations) { switch (annotation.annotationInfo.type) { case 'group': // Get annotations that have this group as parent for (const childId of annotation.annotationInfo.children) { const childAnnotation = currentSlideAnnotations.find((ann) => ann.id == childId); overlay_annotation(svg, childAnnotation.annotationInfo); } break; default: // Add individual annotations if they don't belong to a group if (annotation.annotationInfo.parentId % 1 === 0) { overlay_annotation(svg, annotation.annotationInfo); } } } } // Process the presentation pages and annotations into a PDF file async function process_presentation_annotations() { const client = redis.createClient({ password: config.redis.password, socket: { host: config.redis.host, port: config.redis.port } }); await client.connect(); client.on('error', (err) => logger.info('Redis Client Error', err)); // Get the annotations const annotations = fs.readFileSync(path.join(dropbox, 'whiteboard')); const whiteboard = JSON.parse(annotations); const pages = JSON.parse(whiteboard.pages); const ghostScriptInput = []; // Convert annotations to SVG for (const currentSlide of pages) { const bgImagePath = path.join(dropbox, `slide${currentSlide.page}`); const svgBackgroundSlide = path.join(exportJob.presLocation, 'svgs', `slide${currentSlide.page}.svg`); const svgBackgroundExists = fs.existsSync(svgBackgroundSlide); const backgroundFormat = fs.existsSync(`${bgImagePath}.png`) ? 'png' : 'jpeg'; const dimensions = svgBackgroundExists ? probe.sync(fs.readFileSync(svgBackgroundSlide)) : probe.sync(fs.readFileSync(`${bgImagePath}.${backgroundFormat}`)); const slideWidth = parseInt(dimensions.width, 10); const slideHeight = parseInt(dimensions.height, 10); const maxImageWidth = config.process.maxImageWidth; const maxImageHeight = config.process.maxImageHeight; const ratio = Math.min(maxImageWidth / slideWidth, maxImageHeight / slideHeight); const scaledWidth = slideWidth * ratio; const scaledHeight = slideHeight * ratio; // Create the SVG slide with the background image let svg = create({version: '1.0', encoding: 'UTF-8'}) .ele('svg', { 'xmlns': 'http://www.w3.org/2000/svg', 'xmlns:xlink': 'http://www.w3.org/1999/xlink', 'width': `${scaledWidth}px`, 'height': `${scaledHeight}px`, }) .dtd({ pubID: '-//W3C//DTD SVG 1.1//EN', sysID: 'http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd', }) .ele('image', { 'xlink:href': `file://${dropbox}/slide${currentSlide.page}.${backgroundFormat}`, 'width': `${scaledWidth}px`, 'height': `${scaledHeight}px`, }) .up() .ele('g', { class: 'canvas', }); // 4. Overlay annotations onto slides overlay_annotations(svg, currentSlide.annotations); svg = svg.end({prettyPrint: true}); // Write annotated SVG file const SVGfile = path.join(dropbox, `annotated-slide${currentSlide.page}.svg`); const PDFfile = path.join(dropbox, `annotated-slide${currentSlide.page}.pdf`); fs.writeFileSync(SVGfile, svg, function(err) { if (err) { return logger.error(err); } }); // Scale slide back to its original size const convertAnnotatedSlide = [ SVGfile, '--output-width', to_px(slideWidth), '--output-height', to_px(slideHeight), '-u', '-o', PDFfile, ]; try { cp.spawnSync(config.shared.cairosvg, convertAnnotatedSlide, {shell: false}); } catch (error) { logger.error(`Processing slide ${currentSlide.page} failed for job ${jobId}: ${error.message}`); statusUpdate.setError(); } await client.publish(config.redis.channels.publish, statusUpdate.build(currentSlide.page)); ghostScriptInput.push(PDFfile); } // Create PDF output directory if it doesn't exist const outputDir = path.join(exportJob.presLocation, 'pdfs', jobId); if (!fs.existsSync(outputDir)) { fs.mkdirSync(outputDir, {recursive: true}); } const filename_with_extension = `${sanitize(exportJob.filename.replace(/\s/g, '_'))}.pdf`; const mergePDFs = [ '-dNOPAUSE', '-sDEVICE=pdfwrite', `-sOUTPUTFILE="${path.join(outputDir, filename_with_extension)}"`, `-dBATCH`].concat(ghostScriptInput); // Resulting PDF file is stored in the presentation dir try { cp.spawnSync(config.shared.ghostscript, mergePDFs, {shell: false}); } catch (error) { return logger.error(`GhostScript failed to merge PDFs in job ${jobId}: ${error.message}`); } // Launch Notifier Worker depending on job type logger.info(`Saved PDF at ${outputDir}/${jobId}/${filename_with_extension}`); const notifier = new WorkerStarter({jobType: exportJob.jobType, jobId, filename: filename_with_extension}); notifier.notify(); await client.disconnect(); } process_presentation_annotations();