/* Copyright 2012 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ import { AnnotationActionEventType, AnnotationBorderStyleType, AnnotationEditorType, AnnotationFieldFlag, AnnotationFlag, AnnotationReplyType, AnnotationType, assert, BASELINE_FACTOR, getModificationDate, IDENTITY_MATRIX, LINE_DESCENT_FACTOR, LINE_FACTOR, OPS, RenderingIntentFlag, shadow, stringToPDFString, unreachable, Util, warn, } from "../shared/util.js"; import { collectActions, escapeString, getInheritableProperty, getRotationMatrix, isAscii, numberToString, stringToUTF16String, } from "./core_utils.js"; import { createDefaultAppearance, FakeUnicodeFont, getPdfColor, parseDefaultAppearance, } from "./default_appearance.js"; import { Dict, isName, Name, Ref, RefSet } from "./primitives.js"; import { writeDict, writeObject } from "./writer.js"; import { BaseStream } from "./base_stream.js"; import { bidi } from "./bidi.js"; import { Catalog } from "./catalog.js"; import { ColorSpace } from "./colorspace.js"; import { FileSpec } from "./file_spec.js"; import { ObjectLoader } from "./object_loader.js"; import { OperatorList } from "./operator_list.js"; import { StringStream } from "./stream.js"; import { XFAFactory } from "./xfa/factory.js"; class AnnotationFactory { /** * Create an `Annotation` object of the correct type for the given reference * to an annotation dictionary. This yields a promise that is resolved when * the `Annotation` object is constructed. * * @param {XRef} xref * @param {Object} ref * @param {PDFManager} pdfManager * @param {Object} idFactory * @param {boolean} collectFields * @returns {Promise} A promise that is resolved with an {Annotation} * instance. */ static create(xref, ref, pdfManager, idFactory, collectFields) { return Promise.all([ pdfManager.ensureCatalog("acroForm"), // Only necessary to prevent the `pdfManager.docBaseUrl`-getter, used // with certain Annotations, from throwing and thus breaking parsing: pdfManager.ensureCatalog("baseUrl"), // Only necessary in the `Catalog.parseDestDictionary`-method, // when parsing "GoToE" actions: pdfManager.ensureCatalog("attachments"), pdfManager.ensureDoc("xfaDatasets"), collectFields ? this._getPageIndex(xref, ref, pdfManager) : -1, ]).then(([acroForm, baseUrl, attachments, xfaDatasets, pageIndex]) => pdfManager.ensure(this, "_create", [ xref, ref, pdfManager, idFactory, acroForm, attachments, xfaDatasets, collectFields, pageIndex, ]) ); } /** * @private */ static _create( xref, ref, pdfManager, idFactory, acroForm, attachments = null, xfaDatasets, collectFields, pageIndex = -1 ) { const dict = xref.fetchIfRef(ref); if (!(dict instanceof Dict)) { return undefined; } const id = ref instanceof Ref ? ref.toString() : `annot_${idFactory.createObjId()}`; // Determine the annotation's subtype. let subtype = dict.get("Subtype"); subtype = subtype instanceof Name ? subtype.name : null; const acroFormDict = acroForm instanceof Dict ? acroForm : Dict.empty; // Return the right annotation object based on the subtype and field type. const parameters = { xref, ref, dict, subtype, id, pdfManager, acroForm: acroFormDict, attachments, xfaDatasets, collectFields, needAppearances: !collectFields && acroFormDict.get("NeedAppearances") === true, pageIndex, isOffscreenCanvasSupported: pdfManager.evaluatorOptions.isOffscreenCanvasSupported, }; switch (subtype) { case "Link": return new LinkAnnotation(parameters); case "Text": return new TextAnnotation(parameters); case "Widget": let fieldType = getInheritableProperty({ dict, key: "FT" }); fieldType = fieldType instanceof Name ? fieldType.name : null; switch (fieldType) { case "Tx": return new TextWidgetAnnotation(parameters); case "Btn": return new ButtonWidgetAnnotation(parameters); case "Ch": return new ChoiceWidgetAnnotation(parameters); case "Sig": return new SignatureWidgetAnnotation(parameters); } warn( `Unimplemented widget field type "${fieldType}", ` + "falling back to base field type." ); return new WidgetAnnotation(parameters); case "Popup": return new PopupAnnotation(parameters); case "FreeText": return new FreeTextAnnotation(parameters); case "Line": return new LineAnnotation(parameters); case "Square": return new SquareAnnotation(parameters); case "Circle": return new CircleAnnotation(parameters); case "PolyLine": return new PolylineAnnotation(parameters); case "Polygon": return new PolygonAnnotation(parameters); case "Caret": return new CaretAnnotation(parameters); case "Ink": return new InkAnnotation(parameters); case "Highlight": return new HighlightAnnotation(parameters); case "Underline": return new UnderlineAnnotation(parameters); case "Squiggly": return new SquigglyAnnotation(parameters); case "StrikeOut": return new StrikeOutAnnotation(parameters); case "Stamp": return new StampAnnotation(parameters); case "FileAttachment": return new FileAttachmentAnnotation(parameters); default: if (!collectFields) { if (!subtype) { warn("Annotation is missing the required /Subtype."); } else { warn( `Unimplemented annotation type "${subtype}", ` + "falling back to base annotation." ); } } return new Annotation(parameters); } } static async _getPageIndex(xref, ref, pdfManager) { try { const annotDict = await xref.fetchIfRefAsync(ref); if (!(annotDict instanceof Dict)) { return -1; } const pageRef = annotDict.getRaw("P"); if (!(pageRef instanceof Ref)) { return -1; } const pageIndex = await pdfManager.ensureCatalog("getPageIndex", [ pageRef, ]); return pageIndex; } catch (ex) { warn(`_getPageIndex: "${ex}".`); return -1; } } static async saveNewAnnotations(evaluator, task, annotations) { const xref = evaluator.xref; let baseFontRef; const dependencies = []; const promises = []; for (const annotation of annotations) { switch (annotation.annotationType) { case AnnotationEditorType.FREETEXT: if (!baseFontRef) { const baseFont = new Dict(xref); baseFont.set("BaseFont", Name.get("Helvetica")); baseFont.set("Type", Name.get("Font")); baseFont.set("Subtype", Name.get("Type1")); baseFont.set("Encoding", Name.get("WinAnsiEncoding")); const buffer = []; baseFontRef = xref.getNewTemporaryRef(); writeObject(baseFontRef, baseFont, buffer, null); dependencies.push({ ref: baseFontRef, data: buffer.join("") }); } promises.push( FreeTextAnnotation.createNewAnnotation( xref, annotation, dependencies, { evaluator, task, baseFontRef } ) ); break; case AnnotationEditorType.INK: promises.push( InkAnnotation.createNewAnnotation(xref, annotation, dependencies) ); } } return { annotations: await Promise.all(promises), dependencies, }; } static async printNewAnnotations(evaluator, task, annotations) { if (!annotations) { return null; } const xref = evaluator.xref; const { isOffscreenCanvasSupported } = evaluator.options; const promises = []; for (const annotation of annotations) { switch (annotation.annotationType) { case AnnotationEditorType.FREETEXT: promises.push( FreeTextAnnotation.createNewPrintAnnotation(xref, annotation, { evaluator, task, isOffscreenCanvasSupported, }) ); break; case AnnotationEditorType.INK: promises.push( InkAnnotation.createNewPrintAnnotation(xref, annotation, { isOffscreenCanvasSupported, }) ); break; } } return Promise.all(promises); } } function getRgbColor(color, defaultColor = new Uint8ClampedArray(3)) { if (!Array.isArray(color)) { return defaultColor; } const rgbColor = defaultColor || new Uint8ClampedArray(3); switch (color.length) { case 0: // Transparent, which we indicate with a null value return null; case 1: // Convert grayscale to RGB ColorSpace.singletons.gray.getRgbItem(color, 0, rgbColor, 0); return rgbColor; case 3: // Convert RGB percentages to RGB ColorSpace.singletons.rgb.getRgbItem(color, 0, rgbColor, 0); return rgbColor; case 4: // Convert CMYK to RGB ColorSpace.singletons.cmyk.getRgbItem(color, 0, rgbColor, 0); return rgbColor; default: return defaultColor; } } function getPdfColorArray(color) { return Array.from(color, c => c / 255); } function getQuadPoints(dict, rect) { // The region is described as a number of quadrilaterals. // Each quadrilateral must consist of eight coordinates. const quadPoints = dict.getArray("QuadPoints"); if ( !Array.isArray(quadPoints) || quadPoints.length === 0 || quadPoints.length % 8 > 0 ) { return null; } const quadPointsLists = []; for (let i = 0, ii = quadPoints.length / 8; i < ii; i++) { // Each series of eight numbers represents the coordinates for one // quadrilateral in the order [x1, y1, x2, y2, x3, y3, x4, y4]. // Convert this to an array of objects with x and y coordinates. let minX = Infinity, maxX = -Infinity, minY = Infinity, maxY = -Infinity; for (let j = i * 8, jj = i * 8 + 8; j < jj; j += 2) { const x = quadPoints[j]; const y = quadPoints[j + 1]; minX = Math.min(x, minX); maxX = Math.max(x, maxX); minY = Math.min(y, minY); maxY = Math.max(y, maxY); } // The quadpoints should be ignored if any coordinate in the array // lies outside the region specified by the rectangle. The rectangle // can be `null` for markup annotations since their rectangle may be // incorrect (fixes bug 1538111). if ( rect !== null && (minX < rect[0] || maxX > rect[2] || minY < rect[1] || maxY > rect[3]) ) { return null; } // The PDF specification states in section 12.5.6.10 (figure 64) that the // order of the quadpoints should be bottom left, bottom right, top right // and top left. However, in practice PDF files use a different order, // namely bottom left, bottom right, top left and top right (this is also // mentioned on https://github.com/highkite/pdfAnnotate#QuadPoints), so // this is the actual order we should work with. However, the situation is // even worse since Adobe's own applications and other applications violate // the specification and create annotations with other orders, namely top // left, top right, bottom left and bottom right or even top left, // top right, bottom right and bottom left. To avoid inconsistency and // broken rendering, we normalize all lists to put the quadpoints in the // same standard order (see https://stackoverflow.com/a/10729881). quadPointsLists.push([ { x: minX, y: maxY }, { x: maxX, y: maxY }, { x: minX, y: minY }, { x: maxX, y: minY }, ]); } return quadPointsLists; } function getTransformMatrix(rect, bbox, matrix) { // 12.5.5: Algorithm: Appearance streams const [minX, minY, maxX, maxY] = Util.getAxialAlignedBoundingBox( bbox, matrix ); if (minX === maxX || minY === maxY) { // From real-life file, bbox was [0, 0, 0, 0]. In this case, // just apply the transform for rect return [1, 0, 0, 1, rect[0], rect[1]]; } const xRatio = (rect[2] - rect[0]) / (maxX - minX); const yRatio = (rect[3] - rect[1]) / (maxY - minY); return [ xRatio, 0, 0, yRatio, rect[0] - minX * xRatio, rect[1] - minY * yRatio, ]; } class Annotation { constructor(params) { const { dict, xref } = params; this.setTitle(dict.get("T")); this.setContents(dict.get("Contents")); this.setModificationDate(dict.get("M")); this.setFlags(dict.get("F")); this.setRectangle(dict.getArray("Rect")); this.setColor(dict.getArray("C")); this.setBorderStyle(dict); this.setAppearance(dict); this.setOptionalContent(dict); const MK = dict.get("MK"); this.setBorderAndBackgroundColors(MK); this.setRotation(MK); this._streams = []; if (this.appearance) { this._streams.push(this.appearance); } // The annotation cannot be changed (neither its position/visibility nor its // contents), hence we can just display its appearance and don't generate // a HTML element for it. const isLocked = !!(this.flags & AnnotationFlag.LOCKED); const isContentLocked = !!(this.flags & AnnotationFlag.LOCKEDCONTENTS); // Expose public properties using a data object. this.data = { annotationFlags: this.flags, borderStyle: this.borderStyle, color: this.color, backgroundColor: this.backgroundColor, borderColor: this.borderColor, rotation: this.rotation, contentsObj: this._contents, hasAppearance: !!this.appearance, id: params.id, modificationDate: this.modificationDate, rect: this.rectangle, subtype: params.subtype, hasOwnCanvas: false, noRotate: !!(this.flags & AnnotationFlag.NOROTATE), noHTML: isLocked && isContentLocked, }; if (params.collectFields) { // Fields can act as container for other fields and have // some actions even if no Annotation inherit from them. // Those fields can be referenced by CO (calculation order). const kids = dict.get("Kids"); if (Array.isArray(kids)) { const kidIds = []; for (const kid of kids) { if (kid instanceof Ref) { kidIds.push(kid.toString()); } } if (kidIds.length !== 0) { this.data.kidIds = kidIds; } } this.data.actions = collectActions(xref, dict, AnnotationActionEventType); this.data.fieldName = this._constructFieldName(dict); this.data.pageIndex = params.pageIndex; } this._isOffscreenCanvasSupported = params.isOffscreenCanvasSupported; this._fallbackFontDict = null; this._needAppearances = false; } /** * @private */ _hasFlag(flags, flag) { return !!(flags & flag); } /** * @private */ _isViewable(flags) { return ( !this._hasFlag(flags, AnnotationFlag.INVISIBLE) && !this._hasFlag(flags, AnnotationFlag.NOVIEW) ); } /** * @private */ _isPrintable(flags) { return ( this._hasFlag(flags, AnnotationFlag.PRINT) && !this._hasFlag(flags, AnnotationFlag.INVISIBLE) ); } /** * Check if the annotation must be displayed by taking into account * the value found in the annotationStorage which may have been set * through JS. * * @public * @memberof Annotation * @param {AnnotationStorage} [annotationStorage] - Storage for annotation */ mustBeViewed(annotationStorage) { const storageEntry = annotationStorage && annotationStorage.get(this.data.id); if (storageEntry && storageEntry.hidden !== undefined) { return !storageEntry.hidden; } return this.viewable && !this._hasFlag(this.flags, AnnotationFlag.HIDDEN); } /** * Check if the annotation must be printed by taking into account * the value found in the annotationStorage which may have been set * through JS. * * @public * @memberof Annotation * @param {AnnotationStorage} [annotationStorage] - Storage for annotation */ mustBePrinted(annotationStorage) { const storageEntry = annotationStorage && annotationStorage.get(this.data.id); if (storageEntry && storageEntry.print !== undefined) { return storageEntry.print; } return this.printable; } /** * @type {boolean} */ get viewable() { if (this.data.quadPoints === null) { return false; } if (this.flags === 0) { return true; } return this._isViewable(this.flags); } /** * @type {boolean} */ get printable() { if (this.data.quadPoints === null) { return false; } if (this.flags === 0) { return false; } return this._isPrintable(this.flags); } /** * @private */ _parseStringHelper(data) { const str = typeof data === "string" ? stringToPDFString(data) : ""; const dir = str && bidi(str).dir === "rtl" ? "rtl" : "ltr"; return { str, dir }; } setDefaultAppearance(params) { const defaultAppearance = getInheritableProperty({ dict: params.dict, key: "DA" }) || params.acroForm.get("DA"); this._defaultAppearance = typeof defaultAppearance === "string" ? defaultAppearance : ""; this.data.defaultAppearanceData = parseDefaultAppearance( this._defaultAppearance ); } /** * Set the title. * * @param {string} title - The title of the annotation, used e.g. with * PopupAnnotations. */ setTitle(title) { this._title = this._parseStringHelper(title); } /** * Set the contents. * * @param {string} contents - Text to display for the annotation or, if the * type of annotation does not display text, a * description of the annotation's contents */ setContents(contents) { this._contents = this._parseStringHelper(contents); } /** * Set the modification date. * * @public * @memberof Annotation * @param {string} modificationDate - PDF date string that indicates when the * annotation was last modified */ setModificationDate(modificationDate) { this.modificationDate = typeof modificationDate === "string" ? modificationDate : null; } /** * Set the flags. * * @public * @memberof Annotation * @param {number} flags - Unsigned 32-bit integer specifying annotation * characteristics * @see {@link shared/util.js} */ setFlags(flags) { this.flags = Number.isInteger(flags) && flags > 0 ? flags : 0; } /** * Check if a provided flag is set. * * @public * @memberof Annotation * @param {number} flag - Hexadecimal representation for an annotation * characteristic * @returns {boolean} * @see {@link shared/util.js} */ hasFlag(flag) { return this._hasFlag(this.flags, flag); } /** * Set the rectangle. * * @public * @memberof Annotation * @param {Array} rectangle - The rectangle array with exactly four entries */ setRectangle(rectangle) { if (Array.isArray(rectangle) && rectangle.length === 4) { this.rectangle = Util.normalizeRect(rectangle); } else { this.rectangle = [0, 0, 0, 0]; } } /** * Set the color and take care of color space conversion. * The default value is black, in RGB color space. * * @public * @memberof Annotation * @param {Array} color - The color array containing either 0 * (transparent), 1 (grayscale), 3 (RGB) or * 4 (CMYK) elements */ setColor(color) { this.color = getRgbColor(color); } /** * Set the line endings; should only be used with specific annotation types. * @param {Array} lineEndings - The line endings array. */ setLineEndings(lineEndings) { this.lineEndings = ["None", "None"]; // The default values. if (Array.isArray(lineEndings) && lineEndings.length === 2) { for (let i = 0; i < 2; i++) { const obj = lineEndings[i]; if (obj instanceof Name) { switch (obj.name) { case "None": continue; case "Square": case "Circle": case "Diamond": case "OpenArrow": case "ClosedArrow": case "Butt": case "ROpenArrow": case "RClosedArrow": case "Slash": this.lineEndings[i] = obj.name; continue; } } warn(`Ignoring invalid lineEnding: ${obj}`); } } } setRotation(mk) { this.rotation = 0; if (mk instanceof Dict) { let angle = mk.get("R") || 0; if (Number.isInteger(angle) && angle !== 0) { angle %= 360; if (angle < 0) { angle += 360; } if (angle % 90 === 0) { this.rotation = angle; } } } } /** * Set the color for background and border if any. * The default values are transparent. * * @public * @memberof Annotation * @param {Dict} mk - The MK dictionary */ setBorderAndBackgroundColors(mk) { if (mk instanceof Dict) { this.borderColor = getRgbColor(mk.getArray("BC"), null); this.backgroundColor = getRgbColor(mk.getArray("BG"), null); } else { this.borderColor = this.backgroundColor = null; } } /** * Set the border style (as AnnotationBorderStyle object). * * @public * @memberof Annotation * @param {Dict} borderStyle - The border style dictionary */ setBorderStyle(borderStyle) { if (typeof PDFJSDev === "undefined" || PDFJSDev.test("TESTING")) { assert(this.rectangle, "setRectangle must have been called previously."); } this.borderStyle = new AnnotationBorderStyle(); if (!(borderStyle instanceof Dict)) { return; } if (borderStyle.has("BS")) { const dict = borderStyle.get("BS"); const dictType = dict.get("Type"); if (!dictType || isName(dictType, "Border")) { this.borderStyle.setWidth(dict.get("W"), this.rectangle); this.borderStyle.setStyle(dict.get("S")); this.borderStyle.setDashArray(dict.getArray("D")); } } else if (borderStyle.has("Border")) { const array = borderStyle.getArray("Border"); if (Array.isArray(array) && array.length >= 3) { this.borderStyle.setHorizontalCornerRadius(array[0]); this.borderStyle.setVerticalCornerRadius(array[1]); this.borderStyle.setWidth(array[2], this.rectangle); if (array.length === 4) { // Dash array available this.borderStyle.setDashArray(array[3], /* forceStyle = */ true); } } } else { // There are no border entries in the dictionary. According to the // specification, we should draw a solid border of width 1 in that // case, but Adobe Reader did not implement that part of the // specification and instead draws no border at all, so we do the same. // See also https://github.com/mozilla/pdf.js/issues/6179. this.borderStyle.setWidth(0); } } /** * Set the (normal) appearance. * * @public * @memberof Annotation * @param {Dict} dict - The annotation's data dictionary */ setAppearance(dict) { this.appearance = null; const appearanceStates = dict.get("AP"); if (!(appearanceStates instanceof Dict)) { return; } // In case the normal appearance is a stream, then it is used directly. const normalAppearanceState = appearanceStates.get("N"); if (normalAppearanceState instanceof BaseStream) { this.appearance = normalAppearanceState; return; } if (!(normalAppearanceState instanceof Dict)) { return; } // In case the normal appearance is a dictionary, the `AS` entry provides // the key of the stream in this dictionary. const as = dict.get("AS"); if (!(as instanceof Name) || !normalAppearanceState.has(as.name)) { return; } const appearance = normalAppearanceState.get(as.name); if (appearance instanceof BaseStream) { this.appearance = appearance; } } setOptionalContent(dict) { this.oc = null; const oc = dict.get("OC"); if (oc instanceof Name) { warn("setOptionalContent: Support for /Name-entry is not implemented."); } else if (oc instanceof Dict) { this.oc = oc; } } loadResources(keys, appearance) { return appearance.dict.getAsync("Resources").then(resources => { if (!resources) { return undefined; } const objectLoader = new ObjectLoader(resources, keys, resources.xref); return objectLoader.load().then(function () { return resources; }); }); } async getOperatorList( evaluator, task, intent, renderForms, annotationStorage ) { const data = this.data; let appearance = this.appearance; const isUsingOwnCanvas = !!( this.data.hasOwnCanvas && intent & RenderingIntentFlag.DISPLAY ); if (!appearance) { if (!isUsingOwnCanvas) { return { opList: new OperatorList(), separateForm: false, separateCanvas: false, }; } appearance = new StringStream(""); appearance.dict = new Dict(); } const appearanceDict = appearance.dict; const resources = await this.loadResources( ["ExtGState", "ColorSpace", "Pattern", "Shading", "XObject", "Font"], appearance ); const bbox = appearanceDict.getArray("BBox") || [0, 0, 1, 1]; const matrix = appearanceDict.getArray("Matrix") || [1, 0, 0, 1, 0, 0]; const transform = getTransformMatrix(data.rect, bbox, matrix); const opList = new OperatorList(); let optionalContent; if (this.oc) { optionalContent = await evaluator.parseMarkedContentProps( this.oc, /* resources = */ null ); } if (optionalContent !== undefined) { opList.addOp(OPS.beginMarkedContentProps, ["OC", optionalContent]); } opList.addOp(OPS.beginAnnotation, [ data.id, data.rect, transform, matrix, isUsingOwnCanvas, ]); await evaluator.getOperatorList({ stream: appearance, task, resources, operatorList: opList, fallbackFontDict: this._fallbackFontDict, }); opList.addOp(OPS.endAnnotation, []); if (optionalContent !== undefined) { opList.addOp(OPS.endMarkedContent, []); } this.reset(); return { opList, separateForm: false, separateCanvas: isUsingOwnCanvas }; } async save(evaluator, task, annotationStorage) { return null; } get hasTextContent() { return false; } async extractTextContent(evaluator, task, viewBox) { if (!this.appearance) { return; } const resources = await this.loadResources( ["ExtGState", "Font", "Properties", "XObject"], this.appearance ); const text = []; const buffer = []; const sink = { desiredSize: Math.Infinity, ready: true, enqueue(chunk, size) { for (const item of chunk.items) { buffer.push(item.str); if (item.hasEOL) { text.push(buffer.join("")); buffer.length = 0; } } }, }; await evaluator.getTextContent({ stream: this.appearance, task, resources, includeMarkedContent: true, sink, viewBox, }); this.reset(); if (buffer.length) { text.push(buffer.join("")); } if (text.length > 0) { this.data.textContent = text; } } /** * Get field data for usage in JS sandbox. * * Field object is defined here: * https://www.adobe.com/content/dam/acom/en/devnet/acrobat/pdfs/js_api_reference.pdf#page=16 * * @public * @memberof Annotation * @returns {Object | null} */ getFieldObject() { if (this.data.kidIds) { return { id: this.data.id, actions: this.data.actions, name: this.data.fieldName, strokeColor: this.data.borderColor, fillColor: this.data.backgroundColor, type: "", kidIds: this.data.kidIds, page: this.data.pageIndex, rotation: this.rotation, }; } return null; } /** * Reset the annotation. * * This involves resetting the various streams that are either cached on the * annotation instance or created during its construction. * * @public * @memberof Annotation */ reset() { if ( (typeof PDFJSDev === "undefined" || PDFJSDev.test("TESTING")) && this.appearance && !this._streams.includes(this.appearance) ) { unreachable("The appearance stream should always be reset."); } for (const stream of this._streams) { stream.reset(); } } /** * Construct the (fully qualified) field name from the (partial) field * names of the field and its ancestors. * * @private * @memberof Annotation * @param {Dict} dict - Complete widget annotation dictionary * @returns {string} */ _constructFieldName(dict) { // Both the `Parent` and `T` fields are optional. While at least one of // them should be provided, bad PDF generators may fail to do so. if (!dict.has("T") && !dict.has("Parent")) { warn("Unknown field name, falling back to empty field name."); return ""; } // If no parent exists, the partial and fully qualified names are equal. if (!dict.has("Parent")) { return stringToPDFString(dict.get("T")); } // Form the fully qualified field name by appending the partial name to // the parent's fully qualified name, separated by a period. const fieldName = []; if (dict.has("T")) { fieldName.unshift(stringToPDFString(dict.get("T"))); } let loopDict = dict; const visited = new RefSet(); if (dict.objId) { visited.put(dict.objId); } while (loopDict.has("Parent")) { loopDict = loopDict.get("Parent"); if ( !(loopDict instanceof Dict) || (loopDict.objId && visited.has(loopDict.objId)) ) { // Even though it is not allowed according to the PDF specification, // bad PDF generators may provide a `Parent` entry that is not a // dictionary, but `null` for example (issue 8143). // // If parent has been already visited, it means that we're // in an infinite loop. break; } if (loopDict.objId) { visited.put(loopDict.objId); } if (loopDict.has("T")) { const t = stringToPDFString(loopDict.get("T")); if (!t.startsWith("#")) { // If it starts with a # then it's a class which is not a concept for // datasets elements (https://www.pdfa.org/norm-refs/XFA-3_3.pdf#page=96). fieldName.unshift(t); } } } return fieldName.join("."); } } /** * Contains all data regarding an annotation's border style. */ class AnnotationBorderStyle { constructor() { this.width = 1; this.style = AnnotationBorderStyleType.SOLID; this.dashArray = [3]; this.horizontalCornerRadius = 0; this.verticalCornerRadius = 0; } /** * Set the width. * * @public * @memberof AnnotationBorderStyle * @param {number} width - The width. * @param {Array} rect - The annotation `Rect` entry. */ setWidth(width, rect = [0, 0, 0, 0]) { if (typeof PDFJSDev === "undefined" || PDFJSDev.test("TESTING")) { assert( Array.isArray(rect) && rect.length === 4, "A valid `rect` parameter must be provided." ); } // Some corrupt PDF generators may provide the width as a `Name`, // rather than as a number (fixes issue 10385). if (width instanceof Name) { this.width = 0; // This is consistent with the behaviour in Adobe Reader. return; } if (typeof width === "number") { if (width > 0) { const maxWidth = (rect[2] - rect[0]) / 2; const maxHeight = (rect[3] - rect[1]) / 2; // Ignore large `width`s, since they lead to the Annotation overflowing // the size set by the `Rect` entry thus causing the `annotationLayer` // to render it over the surrounding document (fixes bug1552113.pdf). if ( maxWidth > 0 && maxHeight > 0 && (width > maxWidth || width > maxHeight) ) { warn(`AnnotationBorderStyle.setWidth - ignoring width: ${width}`); width = 1; } } this.width = width; } } /** * Set the style. * * @public * @memberof AnnotationBorderStyle * @param {Name} style - The annotation style. * @see {@link shared/util.js} */ setStyle(style) { if (!(style instanceof Name)) { return; } switch (style.name) { case "S": this.style = AnnotationBorderStyleType.SOLID; break; case "D": this.style = AnnotationBorderStyleType.DASHED; break; case "B": this.style = AnnotationBorderStyleType.BEVELED; break; case "I": this.style = AnnotationBorderStyleType.INSET; break; case "U": this.style = AnnotationBorderStyleType.UNDERLINE; break; default: break; } } /** * Set the dash array. * * @public * @memberof AnnotationBorderStyle * @param {Array} dashArray - The dash array with at least one element * @param {boolean} [forceStyle] */ setDashArray(dashArray, forceStyle = false) { // We validate the dash array, but we do not use it because CSS does not // allow us to change spacing of dashes. For more information, visit // http://www.w3.org/TR/css3-background/#the-border-style. if (Array.isArray(dashArray) && dashArray.length > 0) { // According to the PDF specification: the elements in `dashArray` // shall be numbers that are nonnegative and not all equal to zero. let isValid = true; let allZeros = true; for (const element of dashArray) { const validNumber = +element >= 0; if (!validNumber) { isValid = false; break; } else if (element > 0) { allZeros = false; } } if (isValid && !allZeros) { this.dashArray = dashArray; if (forceStyle) { // Even though we cannot use the dash array in the display layer, // at least ensure that we use the correct border-style. this.setStyle(Name.get("D")); } } else { this.width = 0; // Adobe behavior when the array is invalid. } } else if (dashArray) { this.width = 0; // Adobe behavior when the array is invalid. } } /** * Set the horizontal corner radius (from a Border dictionary). * * @public * @memberof AnnotationBorderStyle * @param {number} radius - The horizontal corner radius. */ setHorizontalCornerRadius(radius) { if (Number.isInteger(radius)) { this.horizontalCornerRadius = radius; } } /** * Set the vertical corner radius (from a Border dictionary). * * @public * @memberof AnnotationBorderStyle * @param {number} radius - The vertical corner radius. */ setVerticalCornerRadius(radius) { if (Number.isInteger(radius)) { this.verticalCornerRadius = radius; } } } class MarkupAnnotation extends Annotation { constructor(params) { super(params); const { dict } = params; if (dict.has("IRT")) { const rawIRT = dict.getRaw("IRT"); this.data.inReplyTo = rawIRT instanceof Ref ? rawIRT.toString() : null; const rt = dict.get("RT"); this.data.replyType = rt instanceof Name ? rt.name : AnnotationReplyType.REPLY; } if (this.data.replyType === AnnotationReplyType.GROUP) { // Subordinate annotations in a group should inherit // the group attributes from the primary annotation. const parent = dict.get("IRT"); this.setTitle(parent.get("T")); this.data.titleObj = this._title; this.setContents(parent.get("Contents")); this.data.contentsObj = this._contents; if (!parent.has("CreationDate")) { this.data.creationDate = null; } else { this.setCreationDate(parent.get("CreationDate")); this.data.creationDate = this.creationDate; } if (!parent.has("M")) { this.data.modificationDate = null; } else { this.setModificationDate(parent.get("M")); this.data.modificationDate = this.modificationDate; } this.data.hasPopup = parent.has("Popup"); if (!parent.has("C")) { // Fall back to the default background color. this.data.color = null; } else { this.setColor(parent.getArray("C")); this.data.color = this.color; } } else { this.data.titleObj = this._title; this.setCreationDate(dict.get("CreationDate")); this.data.creationDate = this.creationDate; this.data.hasPopup = dict.has("Popup"); if (!dict.has("C")) { // Fall back to the default background color. this.data.color = null; } } if (dict.has("RC")) { this.data.richText = XFAFactory.getRichTextAsHtml(dict.get("RC")); } } /** * Set the creation date. * * @public * @memberof MarkupAnnotation * @param {string} creationDate - PDF date string that indicates when the * annotation was originally created */ setCreationDate(creationDate) { this.creationDate = typeof creationDate === "string" ? creationDate : null; } _setDefaultAppearance({ xref, extra, strokeColor, fillColor, blendMode, strokeAlpha, fillAlpha, pointsCallback, }) { let minX = Number.MAX_VALUE; let minY = Number.MAX_VALUE; let maxX = Number.MIN_VALUE; let maxY = Number.MIN_VALUE; const buffer = ["q"]; if (extra) { buffer.push(extra); } if (strokeColor) { buffer.push(`${strokeColor[0]} ${strokeColor[1]} ${strokeColor[2]} RG`); } if (fillColor) { buffer.push(`${fillColor[0]} ${fillColor[1]} ${fillColor[2]} rg`); } let pointsArray = this.data.quadPoints; if (!pointsArray) { // If there are no quadpoints, the rectangle should be used instead. // Convert the rectangle definition to a points array similar to how the // quadpoints are defined. pointsArray = [ [ { x: this.rectangle[0], y: this.rectangle[3] }, { x: this.rectangle[2], y: this.rectangle[3] }, { x: this.rectangle[0], y: this.rectangle[1] }, { x: this.rectangle[2], y: this.rectangle[1] }, ], ]; } for (const points of pointsArray) { const [mX, MX, mY, MY] = pointsCallback(buffer, points); minX = Math.min(minX, mX); maxX = Math.max(maxX, MX); minY = Math.min(minY, mY); maxY = Math.max(maxY, MY); } buffer.push("Q"); const formDict = new Dict(xref); const appearanceStreamDict = new Dict(xref); appearanceStreamDict.set("Subtype", Name.get("Form")); const appearanceStream = new StringStream(buffer.join(" ")); appearanceStream.dict = appearanceStreamDict; formDict.set("Fm0", appearanceStream); const gsDict = new Dict(xref); if (blendMode) { gsDict.set("BM", Name.get(blendMode)); } if (typeof strokeAlpha === "number") { gsDict.set("CA", strokeAlpha); } if (typeof fillAlpha === "number") { gsDict.set("ca", fillAlpha); } const stateDict = new Dict(xref); stateDict.set("GS0", gsDict); const resources = new Dict(xref); resources.set("ExtGState", stateDict); resources.set("XObject", formDict); const appearanceDict = new Dict(xref); appearanceDict.set("Resources", resources); const bbox = (this.data.rect = [minX, minY, maxX, maxY]); appearanceDict.set("BBox", bbox); this.appearance = new StringStream("/GS0 gs /Fm0 Do"); this.appearance.dict = appearanceDict; // This method is only called if there is no appearance for the annotation, // so `this.appearance` is not pushed yet in the `Annotation` constructor. this._streams.push(this.appearance, appearanceStream); } static async createNewAnnotation(xref, annotation, dependencies, params) { const annotationRef = xref.getNewTemporaryRef(); const ap = await this.createNewAppearanceStream(annotation, xref, params); const buffer = []; let annotationDict; if (ap) { const apRef = xref.getNewTemporaryRef(); annotationDict = this.createNewDict(annotation, xref, { apRef }); const transform = xref.encrypt ? xref.encrypt.createCipherTransform(apRef.num, apRef.gen) : null; writeObject(apRef, ap, buffer, transform); dependencies.push({ ref: apRef, data: buffer.join("") }); } else { annotationDict = this.createNewDict(annotation, xref, {}); } buffer.length = 0; const transform = xref.encrypt ? xref.encrypt.createCipherTransform(annotationRef.num, annotationRef.gen) : null; writeObject(annotationRef, annotationDict, buffer, transform); return { ref: annotationRef, data: buffer.join("") }; } static async createNewPrintAnnotation(xref, annotation, params) { const ap = await this.createNewAppearanceStream(annotation, xref, params); const annotationDict = this.createNewDict(annotation, xref, { ap }); return new this.prototype.constructor({ dict: annotationDict, xref, isOffscreenCanvasSupported: params.isOffscreenCanvasSupported, }); } } class WidgetAnnotation extends Annotation { constructor(params) { super(params); const { dict, xref } = params; const data = this.data; this.ref = params.ref; this._needAppearances = params.needAppearances; data.annotationType = AnnotationType.WIDGET; if (data.fieldName === undefined) { data.fieldName = this._constructFieldName(dict); } if (data.actions === undefined) { data.actions = collectActions(xref, dict, AnnotationActionEventType); } let fieldValue = getInheritableProperty({ dict, key: "V", getArray: true, }); data.fieldValue = this._decodeFormValue(fieldValue); const defaultFieldValue = getInheritableProperty({ dict, key: "DV", getArray: true, }); data.defaultFieldValue = this._decodeFormValue(defaultFieldValue); if (fieldValue === undefined && params.xfaDatasets) { // Try to figure out if we have something in the xfa dataset. const path = this._title.str; if (path) { this._hasValueFromXFA = true; data.fieldValue = fieldValue = params.xfaDatasets.getValue(path); } } // When no "V" entry exists, let the fieldValue fallback to the "DV" entry // (fixes issue13823.pdf). if (fieldValue === undefined && data.defaultFieldValue !== null) { data.fieldValue = data.defaultFieldValue; } data.alternativeText = stringToPDFString(dict.get("TU") || ""); this.setDefaultAppearance(params); data.hasAppearance ||= this._needAppearances && data.fieldValue !== undefined && data.fieldValue !== null; const fieldType = getInheritableProperty({ dict, key: "FT" }); data.fieldType = fieldType instanceof Name ? fieldType.name : null; const localResources = getInheritableProperty({ dict, key: "DR" }); const acroFormResources = params.acroForm.get("DR"); const appearanceResources = this.appearance && this.appearance.dict.get("Resources"); this._fieldResources = { localResources, acroFormResources, appearanceResources, mergedResources: Dict.merge({ xref, dictArray: [localResources, appearanceResources, acroFormResources], mergeSubDicts: true, }), }; data.fieldFlags = getInheritableProperty({ dict, key: "Ff" }); if (!Number.isInteger(data.fieldFlags) || data.fieldFlags < 0) { data.fieldFlags = 0; } data.readOnly = this.hasFieldFlag(AnnotationFieldFlag.READONLY); data.required = this.hasFieldFlag(AnnotationFieldFlag.REQUIRED); data.hidden = this._hasFlag(data.annotationFlags, AnnotationFlag.HIDDEN); } /** * Decode the given form value. * * @private * @memberof WidgetAnnotation * @param {Array|Name|string} formValue - The (possibly encoded) * form value. * @returns {Array|string|null} */ _decodeFormValue(formValue) { if (Array.isArray(formValue)) { return formValue .filter(item => typeof item === "string") .map(item => stringToPDFString(item)); } else if (formValue instanceof Name) { return stringToPDFString(formValue.name); } else if (typeof formValue === "string") { return stringToPDFString(formValue); } return null; } /** * Check if a provided field flag is set. * * @public * @memberof WidgetAnnotation * @param {number} flag - Hexadecimal representation for an annotation * field characteristic * @returns {boolean} * @see {@link shared/util.js} */ hasFieldFlag(flag) { return !!(this.data.fieldFlags & flag); } getRotationMatrix(annotationStorage) { const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; let rotation = storageEntry && storageEntry.rotation; if (rotation === undefined) { rotation = this.rotation; } if (rotation === 0) { return IDENTITY_MATRIX; } const width = this.data.rect[2] - this.data.rect[0]; const height = this.data.rect[3] - this.data.rect[1]; return getRotationMatrix(rotation, width, height); } getBorderAndBackgroundAppearances(annotationStorage) { const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; let rotation = storageEntry && storageEntry.rotation; if (rotation === undefined) { rotation = this.rotation; } if (!this.backgroundColor && !this.borderColor) { return ""; } const width = this.data.rect[2] - this.data.rect[0]; const height = this.data.rect[3] - this.data.rect[1]; const rect = rotation === 0 || rotation === 180 ? `0 0 ${width} ${height} re` : `0 0 ${height} ${width} re`; let str = ""; if (this.backgroundColor) { str = `${getPdfColor( this.backgroundColor, /* isFill */ true )} ${rect} f `; } if (this.borderColor) { const borderWidth = this.borderStyle.width || 1; str += `${borderWidth} w ${getPdfColor( this.borderColor, /* isFill */ false )} ${rect} S `; } return str; } async getOperatorList( evaluator, task, intent, renderForms, annotationStorage ) { // Do not render form elements on the canvas when interactive forms are // enabled. The display layer is responsible for rendering them instead. if ( renderForms && !(this instanceof SignatureWidgetAnnotation) && !this.data.noHTML ) { return { opList: new OperatorList(), separateForm: true, separateCanvas: false, }; } if (!this._hasText) { return super.getOperatorList( evaluator, task, intent, renderForms, annotationStorage ); } const content = await this._getAppearance( evaluator, task, intent, annotationStorage ); if (this.appearance && content === null) { return super.getOperatorList( evaluator, task, intent, renderForms, annotationStorage ); } const opList = new OperatorList(); // Even if there is an appearance stream, ignore it. This is the // behaviour used by Adobe Reader. if (!this._defaultAppearance || content === null) { return { opList, separateForm: false, separateCanvas: false }; } const matrix = [1, 0, 0, 1, 0, 0]; const bbox = [ 0, 0, this.data.rect[2] - this.data.rect[0], this.data.rect[3] - this.data.rect[1], ]; const transform = getTransformMatrix(this.data.rect, bbox, matrix); let optionalContent; if (this.oc) { optionalContent = await evaluator.parseMarkedContentProps( this.oc, /* resources = */ null ); } if (optionalContent !== undefined) { opList.addOp(OPS.beginMarkedContentProps, ["OC", optionalContent]); } opList.addOp(OPS.beginAnnotation, [ this.data.id, this.data.rect, transform, this.getRotationMatrix(annotationStorage), /* isUsingOwnCanvas = */ false, ]); const stream = new StringStream(content); await evaluator.getOperatorList({ stream, task, resources: this._fieldResources.mergedResources, operatorList: opList, }); opList.addOp(OPS.endAnnotation, []); if (optionalContent !== undefined) { opList.addOp(OPS.endMarkedContent, []); } return { opList, separateForm: false, separateCanvas: false }; } _getMKDict(rotation) { const mk = new Dict(null); if (rotation) { mk.set("R", rotation); } if (this.borderColor) { mk.set("BC", getPdfColorArray(this.borderColor)); } if (this.backgroundColor) { mk.set("BG", getPdfColorArray(this.backgroundColor)); } return mk.size > 0 ? mk : null; } amendSavedDict(annotationStorage, dict) {} async save(evaluator, task, annotationStorage) { const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; let value = storageEntry && storageEntry.value; let rotation = storageEntry && storageEntry.rotation; if (value === this.data.fieldValue || value === undefined) { if (!this._hasValueFromXFA && rotation === undefined) { return null; } value ||= this.data.fieldValue; } // Value can be an array (with choice list and multiple selections) if ( rotation === undefined && !this._hasValueFromXFA && Array.isArray(value) && Array.isArray(this.data.fieldValue) && value.length === this.data.fieldValue.length && value.every((x, i) => x === this.data.fieldValue[i]) ) { return null; } if (rotation === undefined) { rotation = this.rotation; } let appearance = null; if (!this._needAppearances) { appearance = await this._getAppearance( evaluator, task, RenderingIntentFlag.SAVE, annotationStorage ); if (appearance === null) { // Appearance didn't change. return null; } } else { // No need to create an appearance: the pdf has the flag /NeedAppearances // which means that it's up to the reader to produce an appearance. } let needAppearances = false; if (appearance && appearance.needAppearances) { needAppearances = true; appearance = null; } const { xref } = evaluator; const originalDict = xref.fetchIfRef(this.ref); if (!(originalDict instanceof Dict)) { return null; } const dict = new Dict(xref); for (const key of originalDict.getKeys()) { if (key !== "AP") { dict.set(key, originalDict.getRaw(key)); } } const xfa = { path: this.data.fieldName, value, }; const encoder = val => { return isAscii(val) ? val : stringToUTF16String(val, /* bigEndian = */ true); }; dict.set("V", Array.isArray(value) ? value.map(encoder) : encoder(value)); this.amendSavedDict(annotationStorage, dict); const maybeMK = this._getMKDict(rotation); if (maybeMK) { dict.set("MK", maybeMK); } const encrypt = xref.encrypt; const originalTransform = encrypt ? encrypt.createCipherTransform(this.ref.num, this.ref.gen) : null; const buffer = []; const changes = [ // data for the original object // V field changed + reference for new AP { ref: this.ref, data: "", xfa, needAppearances }, ]; if (appearance !== null) { const newRef = xref.getNewTemporaryRef(); const AP = new Dict(xref); dict.set("AP", AP); AP.set("N", newRef); let newTransform = null; if (encrypt) { newTransform = encrypt.createCipherTransform(newRef.num, newRef.gen); } const resources = this._getSaveFieldResources(xref); const appearanceStream = new StringStream(appearance); const appearanceDict = (appearanceStream.dict = new Dict(xref)); appearanceDict.set("Subtype", Name.get("Form")); appearanceDict.set("Resources", resources); appearanceDict.set("BBox", [ 0, 0, this.data.rect[2] - this.data.rect[0], this.data.rect[3] - this.data.rect[1], ]); const rotationMatrix = this.getRotationMatrix(annotationStorage); if (rotationMatrix !== IDENTITY_MATRIX) { // The matrix isn't the identity one. appearanceDict.set("Matrix", rotationMatrix); } writeObject(newRef, appearanceStream, buffer, newTransform); changes.push( // data for the new AP { ref: newRef, data: buffer.join(""), xfa: null, needAppearances: false, } ); buffer.length = 0; } dict.set("M", `D:${getModificationDate()}`); writeObject(this.ref, dict, buffer, originalTransform); changes[0].data = buffer.join(""); return changes; } async _getAppearance(evaluator, task, intent, annotationStorage) { const isPassword = this.hasFieldFlag(AnnotationFieldFlag.PASSWORD); if (isPassword) { return null; } const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; let value, rotation; if (storageEntry) { value = storageEntry.formattedValue || storageEntry.value; rotation = storageEntry.rotation; } if ( rotation === undefined && value === undefined && !this._needAppearances ) { if (!this._hasValueFromXFA || this.appearance) { // The annotation hasn't been rendered so use the appearance. return null; } } // Empty or it has a trailing whitespace. const colors = this.getBorderAndBackgroundAppearances(annotationStorage); if (value === undefined) { // The annotation has its value in XFA datasets but not in the V field. value = this.data.fieldValue; if (!value) { return `/Tx BMC q ${colors}Q EMC`; } } if (Array.isArray(value) && value.length === 1) { value = value[0]; } assert(typeof value === "string", "Expected `value` to be a string."); value = value.trim(); if (this.data.combo) { // The value can be one of the exportValue or any other values. const option = this.data.options.find( ({ exportValue }) => value === exportValue ); value = (option && option.displayValue) || value; } if (value === "") { // the field is empty: nothing to render return `/Tx BMC q ${colors}Q EMC`; } if (rotation === undefined) { rotation = this.rotation; } let lineCount = -1; let lines; // We could have a text containing for example some sequences of chars and // their diacritics (e.g. "é".normalize("NFKD") shows 1 char when it's 2). // Positioning diacritics is really something we don't want to do here. // So if a font has a glyph for a acute accent and one for "e" then we won't // get any encoding issues but we'll render "e" and then "´". // It's why we normalize the string. We use NFC to preserve the initial // string, (e.g. "²".normalize("NFC") === "²" // but "²".normalize("NFKC") === "2"). // // TODO: it isn't a perfect solution, some chars like "ẹ́" will be // decomposed into two chars ("ẹ" and "´"), so we should detect such // situations and then use either FakeUnicodeFont or set the // /NeedAppearances flag. if (this.data.multiLine) { lines = value.split(/\r\n?|\n/).map(line => line.normalize("NFC")); lineCount = lines.length; } else { lines = [value.replace(/\r\n?|\n/, "").normalize("NFC")]; } const defaultPadding = 1; const defaultHPadding = 2; let totalHeight = this.data.rect[3] - this.data.rect[1]; let totalWidth = this.data.rect[2] - this.data.rect[0]; if (rotation === 90 || rotation === 270) { [totalWidth, totalHeight] = [totalHeight, totalWidth]; } if (!this._defaultAppearance) { // The DA is required and must be a string. // If there is no font named Helvetica in the resource dictionary, // the evaluator will fall back to a default font. // Doing so prevents exceptions and allows saving/printing // the file as expected. this.data.defaultAppearanceData = parseDefaultAppearance( (this._defaultAppearance = "/Helvetica 0 Tf 0 g") ); } let font = await WidgetAnnotation._getFontData( evaluator, task, this.data.defaultAppearanceData, this._fieldResources.mergedResources ); let defaultAppearance, fontSize, lineHeight; const encodedLines = []; let encodingError = false; for (const line of lines) { const encodedString = font.encodeString(line); if (encodedString.length > 1) { encodingError = true; } encodedLines.push(encodedString.join("")); } if (encodingError && intent & RenderingIntentFlag.SAVE) { // We don't have a way to render the field, so we just rely on the // /NeedAppearances trick to let the different sofware correctly render // this pdf. return { needAppearances: true }; } // We check that the font is able to encode the string. if (encodingError && this._isOffscreenCanvasSupported) { // If it can't then we fallback on fake unicode font (mapped to sans-serif // for the rendering). // It means that a printed form can be rendered differently (it depends on // the sans-serif font) but at least we've something to render. // In an ideal world the associated font should correctly handle the // possible chars but a user can add a smiley or whatever. // We could try to embed a font but it means that we must have access // to the raw font file. const fontFamily = this.data.comb ? "monospace" : "sans-serif"; const fakeUnicodeFont = new FakeUnicodeFont(evaluator.xref, fontFamily); const resources = fakeUnicodeFont.createFontResources(lines.join("")); const newFont = resources.getRaw("Font"); if (this._fieldResources.mergedResources.has("Font")) { const oldFont = this._fieldResources.mergedResources.get("Font"); for (const key of newFont.getKeys()) { oldFont.set(key, newFont.getRaw(key)); } } else { this._fieldResources.mergedResources.set("Font", newFont); } const fontName = fakeUnicodeFont.fontName.name; font = await WidgetAnnotation._getFontData( evaluator, task, { fontName, fontSize: 0 }, resources ); for (let i = 0, ii = encodedLines.length; i < ii; i++) { encodedLines[i] = stringToUTF16String(lines[i]); } const savedDefaultAppearance = Object.assign( Object.create(null), this.data.defaultAppearanceData ); this.data.defaultAppearanceData.fontSize = 0; this.data.defaultAppearanceData.fontName = fontName; [defaultAppearance, fontSize, lineHeight] = this._computeFontSize( totalHeight - 2 * defaultPadding, totalWidth - 2 * defaultHPadding, value, font, lineCount ); this.data.defaultAppearanceData = savedDefaultAppearance; } else { if (!this._isOffscreenCanvasSupported) { warn( "_getAppearance: OffscreenCanvas is not supported, annotation may not render correctly." ); } [defaultAppearance, fontSize, lineHeight] = this._computeFontSize( totalHeight - 2 * defaultPadding, totalWidth - 2 * defaultHPadding, value, font, lineCount ); } let descent = font.descent; if (isNaN(descent)) { descent = BASELINE_FACTOR * lineHeight; } else { descent = Math.max( BASELINE_FACTOR * lineHeight, Math.abs(descent) * fontSize ); } // Take into account the space we have to compute the default vertical // padding. const defaultVPadding = Math.min( Math.floor((totalHeight - fontSize) / 2), defaultPadding ); const alignment = this.data.textAlignment; if (this.data.multiLine) { return this._getMultilineAppearance( defaultAppearance, encodedLines, font, fontSize, totalWidth, totalHeight, alignment, defaultHPadding, defaultVPadding, descent, lineHeight, annotationStorage ); } if (this.data.comb) { return this._getCombAppearance( defaultAppearance, font, encodedLines[0], fontSize, totalWidth, totalHeight, defaultHPadding, defaultVPadding, descent, lineHeight, annotationStorage ); } const bottomPadding = defaultVPadding + descent; if (alignment === 0 || alignment > 2) { // Left alignment: nothing to do return ( `/Tx BMC q ${colors}BT ` + defaultAppearance + ` 1 0 0 1 ${numberToString(defaultHPadding)} ${numberToString( bottomPadding )} Tm (${escapeString(encodedLines[0])}) Tj` + " ET Q EMC" ); } const prevInfo = { shift: 0 }; const renderedText = this._renderText( encodedLines[0], font, fontSize, totalWidth, alignment, prevInfo, defaultHPadding, bottomPadding ); return ( `/Tx BMC q ${colors}BT ` + defaultAppearance + ` 1 0 0 1 0 0 Tm ${renderedText}` + " ET Q EMC" ); } static async _getFontData(evaluator, task, appearanceData, resources) { const operatorList = new OperatorList(); const initialState = { font: null, clone() { return this; }, }; const { fontName, fontSize } = appearanceData; await evaluator.handleSetFont( resources, [fontName && Name.get(fontName), fontSize], /* fontRef = */ null, operatorList, task, initialState, /* fallbackFontDict = */ null ); return initialState.font; } _getTextWidth(text, font) { return ( font .charsToGlyphs(text) .reduce((width, glyph) => width + glyph.width, 0) / 1000 ); } _computeFontSize(height, width, text, font, lineCount) { let { fontSize } = this.data.defaultAppearanceData; let lineHeight = (fontSize || 12) * LINE_FACTOR, numberOfLines = Math.round(height / lineHeight); if (!fontSize) { // A zero value for size means that the font shall be auto-sized: // its size shall be computed as a function of the height of the // annotation rectangle (see 12.7.3.3). const roundWithTwoDigits = x => Math.floor(x * 100) / 100; if (lineCount === -1) { const textWidth = this._getTextWidth(text, font); fontSize = roundWithTwoDigits( Math.min( height / LINE_FACTOR, textWidth > width ? width / textWidth : Infinity ) ); numberOfLines = 1; } else { const lines = text.split(/\r\n?|\n/); const cachedLines = []; for (const line of lines) { const encoded = font.encodeString(line).join(""); const glyphs = font.charsToGlyphs(encoded); const positions = font.getCharPositions(encoded); cachedLines.push({ line: encoded, glyphs, positions, }); } const isTooBig = fsize => { // Return true when the text doesn't fit the given height. let totalHeight = 0; for (const cache of cachedLines) { const chunks = this._splitLine(null, font, fsize, width, cache); totalHeight += chunks.length * fsize; if (totalHeight > height) { return true; } } return false; }; // Hard to guess how many lines there are. // The field may have been sized to have 10 lines // and the user entered only 1 so if we get font size from // height and number of lines then we'll get something too big. // So we compute a fake number of lines based on height and // a font size equal to 12 (this is the default font size in // Acrobat). // Then we'll adjust font size to what we have really. numberOfLines = Math.max(numberOfLines, lineCount); while (true) { lineHeight = height / numberOfLines; fontSize = roundWithTwoDigits(lineHeight / LINE_FACTOR); if (isTooBig(fontSize)) { numberOfLines++; continue; } break; } } const { fontName, fontColor } = this.data.defaultAppearanceData; this._defaultAppearance = createDefaultAppearance({ fontSize, fontName, fontColor, }); } return [this._defaultAppearance, fontSize, height / numberOfLines]; } _renderText( text, font, fontSize, totalWidth, alignment, prevInfo, hPadding, vPadding ) { // TODO: we need to take into account (if possible) how the text // is rendered. For example in arabic, the cumulated width of some // glyphs isn't equal to the width of the rendered glyphs because // of ligatures. let shift; if (alignment === 1) { // Center const width = this._getTextWidth(text, font) * fontSize; shift = (totalWidth - width) / 2; } else if (alignment === 2) { // Right const width = this._getTextWidth(text, font) * fontSize; shift = totalWidth - width - hPadding; } else { shift = hPadding; } const shiftStr = numberToString(shift - prevInfo.shift); prevInfo.shift = shift; vPadding = numberToString(vPadding); return `${shiftStr} ${vPadding} Td (${escapeString(text)}) Tj`; } /** * @private */ _getSaveFieldResources(xref) { if (typeof PDFJSDev === "undefined" || PDFJSDev.test("TESTING")) { assert( this.data.defaultAppearanceData, "Expected `_defaultAppearanceData` to have been set." ); } const { localResources, appearanceResources, acroFormResources } = this._fieldResources; const fontName = this.data.defaultAppearanceData && this.data.defaultAppearanceData.fontName; if (!fontName) { return localResources || Dict.empty; } for (const resources of [localResources, appearanceResources]) { if (resources instanceof Dict) { const localFont = resources.get("Font"); if (localFont instanceof Dict && localFont.has(fontName)) { return resources; } } } if (acroFormResources instanceof Dict) { const acroFormFont = acroFormResources.get("Font"); if (acroFormFont instanceof Dict && acroFormFont.has(fontName)) { const subFontDict = new Dict(xref); subFontDict.set(fontName, acroFormFont.getRaw(fontName)); const subResourcesDict = new Dict(xref); subResourcesDict.set("Font", subFontDict); return Dict.merge({ xref, dictArray: [subResourcesDict, localResources], mergeSubDicts: true, }); } } return localResources || Dict.empty; } getFieldObject() { return null; } } class TextWidgetAnnotation extends WidgetAnnotation { constructor(params) { super(params); this._hasText = true; const dict = params.dict; // The field value is always a string. if (typeof this.data.fieldValue !== "string") { this.data.fieldValue = ""; } // Determine the alignment of text in the field. let alignment = getInheritableProperty({ dict, key: "Q" }); if (!Number.isInteger(alignment) || alignment < 0 || alignment > 2) { alignment = null; } this.data.textAlignment = alignment; // Determine the maximum length of text in the field. let maximumLength = getInheritableProperty({ dict, key: "MaxLen" }); if (!Number.isInteger(maximumLength) || maximumLength < 0) { maximumLength = 0; } this.data.maxLen = maximumLength; // Process field flags for the display layer. this.data.multiLine = this.hasFieldFlag(AnnotationFieldFlag.MULTILINE); this.data.comb = this.hasFieldFlag(AnnotationFieldFlag.COMB) && !this.hasFieldFlag(AnnotationFieldFlag.MULTILINE) && !this.hasFieldFlag(AnnotationFieldFlag.PASSWORD) && !this.hasFieldFlag(AnnotationFieldFlag.FILESELECT) && this.data.maxLen !== 0; this.data.doNotScroll = this.hasFieldFlag(AnnotationFieldFlag.DONOTSCROLL); } _getCombAppearance( defaultAppearance, font, text, fontSize, width, height, hPadding, vPadding, descent, lineHeight, annotationStorage ) { const combWidth = width / this.data.maxLen; // Empty or it has a trailing whitespace. const colors = this.getBorderAndBackgroundAppearances(annotationStorage); const buf = []; const positions = font.getCharPositions(text); for (const [start, end] of positions) { buf.push(`(${escapeString(text.substring(start, end))}) Tj`); } const renderedComb = buf.join(` ${numberToString(combWidth)} 0 Td `); return ( `/Tx BMC q ${colors}BT ` + defaultAppearance + ` 1 0 0 1 ${numberToString(hPadding)} ${numberToString( vPadding + descent )} Tm ${renderedComb}` + " ET Q EMC" ); } _getMultilineAppearance( defaultAppearance, lines, font, fontSize, width, height, alignment, hPadding, vPadding, descent, lineHeight, annotationStorage ) { const buf = []; const totalWidth = width - 2 * hPadding; const prevInfo = { shift: 0 }; for (let i = 0, ii = lines.length; i < ii; i++) { const line = lines[i]; const chunks = this._splitLine(line, font, fontSize, totalWidth); for (let j = 0, jj = chunks.length; j < jj; j++) { const chunk = chunks[j]; const vShift = i === 0 && j === 0 ? -vPadding - (lineHeight - descent) : -lineHeight; buf.push( this._renderText( chunk, font, fontSize, width, alignment, prevInfo, hPadding, vShift ) ); } } // Empty or it has a trailing whitespace. const colors = this.getBorderAndBackgroundAppearances(annotationStorage); const renderedText = buf.join("\n"); return ( `/Tx BMC q ${colors}BT ` + defaultAppearance + ` 1 0 0 1 0 ${numberToString(height)} Tm ${renderedText}` + " ET Q EMC" ); } _splitLine(line, font, fontSize, width, cache = {}) { line = cache.line || line; const glyphs = cache.glyphs || font.charsToGlyphs(line); if (glyphs.length <= 1) { // Nothing to split return [line]; } const positions = cache.positions || font.getCharPositions(line); const scale = fontSize / 1000; const chunks = []; let lastSpacePosInStringStart = -1, lastSpacePosInStringEnd = -1, lastSpacePos = -1, startChunk = 0, currentWidth = 0; for (let i = 0, ii = glyphs.length; i < ii; i++) { const [start, end] = positions[i]; const glyph = glyphs[i]; const glyphWidth = glyph.width * scale; if (glyph.unicode === " ") { if (currentWidth + glyphWidth > width) { // We can break here chunks.push(line.substring(startChunk, start)); startChunk = start; currentWidth = glyphWidth; lastSpacePosInStringStart = -1; lastSpacePos = -1; } else { currentWidth += glyphWidth; lastSpacePosInStringStart = start; lastSpacePosInStringEnd = end; lastSpacePos = i; } } else { if (currentWidth + glyphWidth > width) { // We must break to the last white position (if available) if (lastSpacePosInStringStart !== -1) { chunks.push(line.substring(startChunk, lastSpacePosInStringEnd)); startChunk = lastSpacePosInStringEnd; i = lastSpacePos + 1; lastSpacePosInStringStart = -1; currentWidth = 0; } else { // Just break in the middle of the word chunks.push(line.substring(startChunk, start)); startChunk = start; currentWidth = glyphWidth; } } else { currentWidth += glyphWidth; } } } if (startChunk < line.length) { chunks.push(line.substring(startChunk, line.length)); } return chunks; } getFieldObject() { return { id: this.data.id, value: this.data.fieldValue, defaultValue: this.data.defaultFieldValue || "", multiline: this.data.multiLine, password: this.hasFieldFlag(AnnotationFieldFlag.PASSWORD), charLimit: this.data.maxLen, comb: this.data.comb, editable: !this.data.readOnly, hidden: this.data.hidden, name: this.data.fieldName, rect: this.data.rect, actions: this.data.actions, page: this.data.pageIndex, strokeColor: this.data.borderColor, fillColor: this.data.backgroundColor, rotation: this.rotation, type: "text", }; } } class ButtonWidgetAnnotation extends WidgetAnnotation { constructor(params) { super(params); this.checkedAppearance = null; this.uncheckedAppearance = null; this.data.checkBox = !this.hasFieldFlag(AnnotationFieldFlag.RADIO) && !this.hasFieldFlag(AnnotationFieldFlag.PUSHBUTTON); this.data.radioButton = this.hasFieldFlag(AnnotationFieldFlag.RADIO) && !this.hasFieldFlag(AnnotationFieldFlag.PUSHBUTTON); this.data.pushButton = this.hasFieldFlag(AnnotationFieldFlag.PUSHBUTTON); this.data.isTooltipOnly = false; if (this.data.checkBox) { this._processCheckBox(params); } else if (this.data.radioButton) { this._processRadioButton(params); } else if (this.data.pushButton) { this.data.hasOwnCanvas = true; this._processPushButton(params); } else { warn("Invalid field flags for button widget annotation"); } } async getOperatorList( evaluator, task, intent, renderForms, annotationStorage ) { if (this.data.pushButton) { return super.getOperatorList( evaluator, task, intent, false, // we use normalAppearance to render the button annotationStorage ); } let value = null; let rotation = null; if (annotationStorage) { const storageEntry = annotationStorage.get(this.data.id); value = storageEntry ? storageEntry.value : null; rotation = storageEntry ? storageEntry.rotation : null; } if (value === null && this.appearance) { // Nothing in the annotationStorage. // But we've a default appearance so use it. return super.getOperatorList( evaluator, task, intent, renderForms, annotationStorage ); } if (value === null || value === undefined) { // There is no default appearance so use the one derived // from the field value. if (this.data.checkBox) { value = this.data.fieldValue === this.data.exportValue; } else { value = this.data.fieldValue === this.data.buttonValue; } } const appearance = value ? this.checkedAppearance : this.uncheckedAppearance; if (appearance) { const savedAppearance = this.appearance; const savedMatrix = appearance.dict.getArray("Matrix") || IDENTITY_MATRIX; if (rotation) { appearance.dict.set( "Matrix", this.getRotationMatrix(annotationStorage) ); } this.appearance = appearance; const operatorList = super.getOperatorList( evaluator, task, intent, renderForms, annotationStorage ); this.appearance = savedAppearance; appearance.dict.set("Matrix", savedMatrix); return operatorList; } // No appearance return { opList: new OperatorList(), separateForm: false, separateCanvas: false, }; } async save(evaluator, task, annotationStorage) { if (this.data.checkBox) { return this._saveCheckbox(evaluator, task, annotationStorage); } if (this.data.radioButton) { return this._saveRadioButton(evaluator, task, annotationStorage); } // Nothing to save return null; } async _saveCheckbox(evaluator, task, annotationStorage) { if (!annotationStorage) { return null; } const storageEntry = annotationStorage.get(this.data.id); let rotation = storageEntry && storageEntry.rotation; let value = storageEntry && storageEntry.value; if (rotation === undefined) { if (value === undefined) { return null; } const defaultValue = this.data.fieldValue === this.data.exportValue; if (defaultValue === value) { return null; } } const dict = evaluator.xref.fetchIfRef(this.ref); if (!(dict instanceof Dict)) { return null; } if (rotation === undefined) { rotation = this.rotation; } if (value === undefined) { value = this.data.fieldValue === this.data.exportValue; } const xfa = { path: this.data.fieldName, value: value ? this.data.exportValue : "", }; const name = Name.get(value ? this.data.exportValue : "Off"); dict.set("V", name); dict.set("AS", name); dict.set("M", `D:${getModificationDate()}`); const maybeMK = this._getMKDict(rotation); if (maybeMK) { dict.set("MK", maybeMK); } const encrypt = evaluator.xref.encrypt; let originalTransform = null; if (encrypt) { originalTransform = encrypt.createCipherTransform( this.ref.num, this.ref.gen ); } const buffer = [`${this.ref.num} ${this.ref.gen} obj\n`]; writeDict(dict, buffer, originalTransform); buffer.push("\nendobj\n"); return [{ ref: this.ref, data: buffer.join(""), xfa }]; } async _saveRadioButton(evaluator, task, annotationStorage) { if (!annotationStorage) { return null; } const storageEntry = annotationStorage.get(this.data.id); let rotation = storageEntry && storageEntry.rotation; let value = storageEntry && storageEntry.value; if (rotation === undefined) { if (value === undefined) { return null; } const defaultValue = this.data.fieldValue === this.data.buttonValue; if (defaultValue === value) { return null; } } const dict = evaluator.xref.fetchIfRef(this.ref); if (!(dict instanceof Dict)) { return null; } if (value === undefined) { value = this.data.fieldValue === this.data.buttonValue; } if (rotation === undefined) { rotation = this.rotation; } const xfa = { path: this.data.fieldName, value: value ? this.data.buttonValue : "", }; const name = Name.get(value ? this.data.buttonValue : "Off"); let parentBuffer = null; const encrypt = evaluator.xref.encrypt; if (value) { if (this.parent instanceof Ref) { const parent = evaluator.xref.fetch(this.parent); let parentTransform = null; if (encrypt) { parentTransform = encrypt.createCipherTransform( this.parent.num, this.parent.gen ); } parent.set("V", name); parentBuffer = [`${this.parent.num} ${this.parent.gen} obj\n`]; writeDict(parent, parentBuffer, parentTransform); parentBuffer.push("\nendobj\n"); } else if (this.parent instanceof Dict) { this.parent.set("V", name); } } dict.set("AS", name); dict.set("M", `D:${getModificationDate()}`); const maybeMK = this._getMKDict(rotation); if (maybeMK) { dict.set("MK", maybeMK); } let originalTransform = null; if (encrypt) { originalTransform = encrypt.createCipherTransform( this.ref.num, this.ref.gen ); } const buffer = [`${this.ref.num} ${this.ref.gen} obj\n`]; writeDict(dict, buffer, originalTransform); buffer.push("\nendobj\n"); const newRefs = [{ ref: this.ref, data: buffer.join(""), xfa }]; if (parentBuffer !== null) { newRefs.push({ ref: this.parent, data: parentBuffer.join(""), xfa: null, }); } return newRefs; } _getDefaultCheckedAppearance(params, type) { const width = this.data.rect[2] - this.data.rect[0]; const height = this.data.rect[3] - this.data.rect[1]; const bbox = [0, 0, width, height]; // Ratio used to have a mark slightly smaller than the bbox. const FONT_RATIO = 0.8; const fontSize = Math.min(width, height) * FONT_RATIO; // Char Metrics // Widths came from widths for ZapfDingbats. // Heights are guessed with Fontforge and FoxitDingbats.pfb. let metrics, char; if (type === "check") { // Char 33 (2713 in unicode) metrics = { width: 0.755 * fontSize, height: 0.705 * fontSize, }; char = "\x33"; } else if (type === "disc") { // Char 6C (25CF in unicode) metrics = { width: 0.791 * fontSize, height: 0.705 * fontSize, }; char = "\x6C"; } else { unreachable(`_getDefaultCheckedAppearance - unsupported type: ${type}`); } // Values to center the glyph in the bbox. const xShift = numberToString((width - metrics.width) / 2); const yShift = numberToString((height - metrics.height) / 2); const appearance = `q BT /PdfJsZaDb ${fontSize} Tf 0 g ${xShift} ${yShift} Td (${char}) Tj ET Q`; const appearanceStreamDict = new Dict(params.xref); appearanceStreamDict.set("FormType", 1); appearanceStreamDict.set("Subtype", Name.get("Form")); appearanceStreamDict.set("Type", Name.get("XObject")); appearanceStreamDict.set("BBox", bbox); appearanceStreamDict.set("Matrix", [1, 0, 0, 1, 0, 0]); appearanceStreamDict.set("Length", appearance.length); const resources = new Dict(params.xref); const font = new Dict(params.xref); font.set("PdfJsZaDb", this.fallbackFontDict); resources.set("Font", font); appearanceStreamDict.set("Resources", resources); this.checkedAppearance = new StringStream(appearance); this.checkedAppearance.dict = appearanceStreamDict; this._streams.push(this.checkedAppearance); } _processCheckBox(params) { const customAppearance = params.dict.get("AP"); if (!(customAppearance instanceof Dict)) { return; } const normalAppearance = customAppearance.get("N"); if (!(normalAppearance instanceof Dict)) { return; } // See https://bugzilla.mozilla.org/show_bug.cgi?id=1722036. // If we've an AS and a V then take AS. const asValue = this._decodeFormValue(params.dict.get("AS")); if (typeof asValue === "string") { this.data.fieldValue = asValue; } const yes = this.data.fieldValue !== null && this.data.fieldValue !== "Off" ? this.data.fieldValue : "Yes"; const exportValues = normalAppearance.getKeys(); if (exportValues.length === 0) { exportValues.push("Off", yes); } else if (exportValues.length === 1) { if (exportValues[0] === "Off") { exportValues.push(yes); } else { exportValues.unshift("Off"); } } else if (exportValues.includes(yes)) { exportValues.length = 0; exportValues.push("Off", yes); } else { const otherYes = exportValues.find(v => v !== "Off"); exportValues.length = 0; exportValues.push("Off", otherYes); } // Don't use a "V" entry pointing to a non-existent appearance state, // see e.g. bug1720411.pdf where it's an *empty* Name-instance. if (!exportValues.includes(this.data.fieldValue)) { this.data.fieldValue = "Off"; } this.data.exportValue = exportValues[1]; const checkedAppearance = normalAppearance.get(this.data.exportValue); this.checkedAppearance = checkedAppearance instanceof BaseStream ? checkedAppearance : null; const uncheckedAppearance = normalAppearance.get("Off"); this.uncheckedAppearance = uncheckedAppearance instanceof BaseStream ? uncheckedAppearance : null; if (this.checkedAppearance) { this._streams.push(this.checkedAppearance); } else { this._getDefaultCheckedAppearance(params, "check"); } if (this.uncheckedAppearance) { this._streams.push(this.uncheckedAppearance); } this._fallbackFontDict = this.fallbackFontDict; } _processRadioButton(params) { this.data.fieldValue = this.data.buttonValue = null; // The parent field's `V` entry holds a `Name` object with the appearance // state of whichever child field is currently in the "on" state. const fieldParent = params.dict.get("Parent"); if (fieldParent instanceof Dict) { this.parent = params.dict.getRaw("Parent"); const fieldParentValue = fieldParent.get("V"); if (fieldParentValue instanceof Name) { this.data.fieldValue = this._decodeFormValue(fieldParentValue); } } // The button's value corresponds to its appearance state. const appearanceStates = params.dict.get("AP"); if (!(appearanceStates instanceof Dict)) { return; } const normalAppearance = appearanceStates.get("N"); if (!(normalAppearance instanceof Dict)) { return; } for (const key of normalAppearance.getKeys()) { if (key !== "Off") { this.data.buttonValue = this._decodeFormValue(key); break; } } const checkedAppearance = normalAppearance.get(this.data.buttonValue); this.checkedAppearance = checkedAppearance instanceof BaseStream ? checkedAppearance : null; const uncheckedAppearance = normalAppearance.get("Off"); this.uncheckedAppearance = uncheckedAppearance instanceof BaseStream ? uncheckedAppearance : null; if (this.checkedAppearance) { this._streams.push(this.checkedAppearance); } else { this._getDefaultCheckedAppearance(params, "disc"); } if (this.uncheckedAppearance) { this._streams.push(this.uncheckedAppearance); } this._fallbackFontDict = this.fallbackFontDict; } _processPushButton(params) { if ( !params.dict.has("A") && !params.dict.has("AA") && !this.data.alternativeText ) { warn("Push buttons without action dictionaries are not supported"); return; } this.data.isTooltipOnly = !params.dict.has("A") && !params.dict.has("AA"); Catalog.parseDestDictionary({ destDict: params.dict, resultObj: this.data, docBaseUrl: params.pdfManager.docBaseUrl, docAttachments: params.attachments, }); } getFieldObject() { let type = "button"; let exportValues; if (this.data.checkBox) { type = "checkbox"; exportValues = this.data.exportValue; } else if (this.data.radioButton) { type = "radiobutton"; exportValues = this.data.buttonValue; } return { id: this.data.id, value: this.data.fieldValue || "Off", defaultValue: this.data.defaultFieldValue, exportValues, editable: !this.data.readOnly, name: this.data.fieldName, rect: this.data.rect, hidden: this.data.hidden, actions: this.data.actions, page: this.data.pageIndex, strokeColor: this.data.borderColor, fillColor: this.data.backgroundColor, rotation: this.rotation, type, }; } get fallbackFontDict() { const dict = new Dict(); dict.set("BaseFont", Name.get("ZapfDingbats")); dict.set("Type", Name.get("FallbackType")); dict.set("Subtype", Name.get("FallbackType")); dict.set("Encoding", Name.get("ZapfDingbatsEncoding")); return shadow(this, "fallbackFontDict", dict); } } class ChoiceWidgetAnnotation extends WidgetAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.indices = dict.getArray("I"); this.hasIndices = Array.isArray(this.indices) && this.indices.length > 0; // Determine the options. The options array may consist of strings or // arrays. If the array consists of arrays, then the first element of // each array is the export value and the second element of each array is // the display value. If the array consists of strings, then these // represent both the export and display value. In this case, we convert // it to an array of arrays as well for convenience in the display layer. // Note that the specification does not state that the `Opt` field is // inheritable, but in practice PDF generators do make annotations // inherit the options from a parent annotation (issue 8094). this.data.options = []; const options = getInheritableProperty({ dict, key: "Opt" }); if (Array.isArray(options)) { for (let i = 0, ii = options.length; i < ii; i++) { const option = xref.fetchIfRef(options[i]); const isOptionArray = Array.isArray(option); this.data.options[i] = { exportValue: this._decodeFormValue( isOptionArray ? xref.fetchIfRef(option[0]) : option ), displayValue: this._decodeFormValue( isOptionArray ? xref.fetchIfRef(option[1]) : option ), }; } } if (!this.hasIndices) { // The field value can be `null` if no item is selected, a string if one // item is selected or an array of strings if multiple items are selected. // For consistency in the API and convenience in the display layer, we // always make the field value an array with zero, one or multiple items. if (typeof this.data.fieldValue === "string") { this.data.fieldValue = [this.data.fieldValue]; } else if (!this.data.fieldValue) { this.data.fieldValue = []; } } else { // The specs say that we should have an indices array only with // multiselectable Choice and the "V" entry should have the // precedence, but Acrobat itself is using it whatever the // the "V" entry is (see bug 1770750). this.data.fieldValue = []; const ii = this.data.options.length; for (const i of this.indices) { if (Number.isInteger(i) && i >= 0 && i < ii) { this.data.fieldValue.push(this.data.options[i].exportValue); } } } // Process field flags for the display layer. this.data.combo = this.hasFieldFlag(AnnotationFieldFlag.COMBO); this.data.multiSelect = this.hasFieldFlag(AnnotationFieldFlag.MULTISELECT); this._hasText = true; } getFieldObject() { const type = this.data.combo ? "combobox" : "listbox"; const value = this.data.fieldValue.length > 0 ? this.data.fieldValue[0] : null; return { id: this.data.id, value, defaultValue: this.data.defaultFieldValue, editable: !this.data.readOnly, name: this.data.fieldName, rect: this.data.rect, numItems: this.data.fieldValue.length, multipleSelection: this.data.multiSelect, hidden: this.data.hidden, actions: this.data.actions, items: this.data.options, page: this.data.pageIndex, strokeColor: this.data.borderColor, fillColor: this.data.backgroundColor, rotation: this.rotation, type, }; } amendSavedDict(annotationStorage, dict) { if (!this.hasIndices) { return; } const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; let values = storageEntry && storageEntry.value; if (!Array.isArray(values)) { values = [values]; } const indices = []; const { options } = this.data; for (let i = 0, j = 0, ii = options.length; i < ii; i++) { if (options[i].exportValue === values[j]) { indices.push(i); j += 1; } } dict.set("I", indices); } async _getAppearance(evaluator, task, intent, annotationStorage) { if (this.data.combo) { return super._getAppearance(evaluator, task, intent, annotationStorage); } let exportedValue, rotation; const storageEntry = annotationStorage ? annotationStorage.get(this.data.id) : undefined; if (storageEntry) { rotation = storageEntry.rotation; exportedValue = storageEntry.value; } if ( rotation === undefined && exportedValue === undefined && !this._needAppearances ) { // The annotation hasn't been rendered so use the appearance return null; } if (exportedValue === undefined) { exportedValue = this.data.fieldValue; } else if (!Array.isArray(exportedValue)) { exportedValue = [exportedValue]; } const defaultPadding = 1; const defaultHPadding = 2; let totalHeight = this.data.rect[3] - this.data.rect[1]; let totalWidth = this.data.rect[2] - this.data.rect[0]; if (rotation === 90 || rotation === 270) { [totalWidth, totalHeight] = [totalHeight, totalWidth]; } const lineCount = this.data.options.length; const valueIndices = []; for (let i = 0; i < lineCount; i++) { const { exportValue } = this.data.options[i]; if (exportedValue.includes(exportValue)) { valueIndices.push(i); } } if (!this._defaultAppearance) { // The DA is required and must be a string. // If there is no font named Helvetica in the resource dictionary, // the evaluator will fall back to a default font. // Doing so prevents exceptions and allows saving/printing // the file as expected. this.data.defaultAppearanceData = parseDefaultAppearance( (this._defaultAppearance = "/Helvetica 0 Tf 0 g") ); } const font = await WidgetAnnotation._getFontData( evaluator, task, this.data.defaultAppearanceData, this._fieldResources.mergedResources ); let defaultAppearance; let { fontSize } = this.data.defaultAppearanceData; if (!fontSize) { const lineHeight = (totalHeight - defaultPadding) / lineCount; let lineWidth = -1; let value; for (const { displayValue } of this.data.options) { const width = this._getTextWidth(displayValue, font); if (width > lineWidth) { lineWidth = width; value = displayValue; } } [defaultAppearance, fontSize] = this._computeFontSize( lineHeight, totalWidth - 2 * defaultHPadding, value, font, -1 ); } else { defaultAppearance = this._defaultAppearance; } const lineHeight = fontSize * LINE_FACTOR; const vPadding = (lineHeight - fontSize) / 2; const numberOfVisibleLines = Math.floor(totalHeight / lineHeight); let firstIndex; if (valueIndices.length === 1) { const valuePosition = valueIndices[0]; const indexInPage = valuePosition % numberOfVisibleLines; firstIndex = valuePosition - indexInPage; } else { // If nothing is selected (valueIndice.length === 0), we render // from the first element. firstIndex = valueIndices.length ? valueIndices[0] : 0; } const end = Math.min(firstIndex + numberOfVisibleLines + 1, lineCount); const buf = ["/Tx BMC q", `1 1 ${totalWidth} ${totalHeight} re W n`]; if (valueIndices.length) { // This value has been copied/pasted from annotation-choice-widget.pdf. // It corresponds to rgb(153, 193, 218). buf.push("0.600006 0.756866 0.854904 rg"); // Highlight the lines in filling a blue rectangle at the selected // positions. for (const index of valueIndices) { if (firstIndex <= index && index < end) { buf.push( `1 ${ totalHeight - (index - firstIndex + 1) * lineHeight } ${totalWidth} ${lineHeight} re f` ); } } } buf.push("BT", defaultAppearance, `1 0 0 1 0 ${totalHeight} Tm`); const prevInfo = { shift: 0 }; for (let i = firstIndex; i < end; i++) { const { displayValue } = this.data.options[i]; const vpadding = i === firstIndex ? vPadding : 0; buf.push( this._renderText( displayValue, font, fontSize, totalWidth, 0, prevInfo, defaultHPadding, -lineHeight + vpadding ) ); } buf.push("ET Q EMC"); return buf.join("\n"); } } class SignatureWidgetAnnotation extends WidgetAnnotation { constructor(params) { super(params); // Unset the fieldValue since it's (most likely) a `Dict` which is // non-serializable and will thus cause errors when sending annotations // to the main-thread (issue 10347). this.data.fieldValue = null; this.data.hasOwnCanvas = this.data.noRotate; } getFieldObject() { return { id: this.data.id, value: null, page: this.data.pageIndex, type: "signature", }; } } class TextAnnotation extends MarkupAnnotation { constructor(params) { const DEFAULT_ICON_SIZE = 22; // px super(params); // No rotation for Text (see 12.5.6.4). this.data.noRotate = true; this.data.hasOwnCanvas = this.data.noRotate; const { dict } = params; this.data.annotationType = AnnotationType.TEXT; if (this.data.hasAppearance) { this.data.name = "NoIcon"; } else { this.data.rect[1] = this.data.rect[3] - DEFAULT_ICON_SIZE; this.data.rect[2] = this.data.rect[0] + DEFAULT_ICON_SIZE; this.data.name = dict.has("Name") ? dict.get("Name").name : "Note"; } if (dict.has("State")) { this.data.state = dict.get("State") || null; this.data.stateModel = dict.get("StateModel") || null; } else { this.data.state = null; this.data.stateModel = null; } } } class LinkAnnotation extends Annotation { constructor(params) { super(params); this.data.annotationType = AnnotationType.LINK; const quadPoints = getQuadPoints(params.dict, this.rectangle); if (quadPoints) { this.data.quadPoints = quadPoints; } // The color entry for a link annotation is the color of the border. this.data.borderColor ||= this.data.color; Catalog.parseDestDictionary({ destDict: params.dict, resultObj: this.data, docBaseUrl: params.pdfManager.docBaseUrl, docAttachments: params.attachments, }); } } class PopupAnnotation extends Annotation { constructor(params) { super(params); const { dict } = params; this.data.annotationType = AnnotationType.POPUP; let parentItem = dict.get("Parent"); if (!parentItem) { warn("Popup annotation has a missing or invalid parent annotation."); return; } const parentSubtype = parentItem.get("Subtype"); this.data.parentType = parentSubtype instanceof Name ? parentSubtype.name : null; const rawParent = dict.getRaw("Parent"); this.data.parentId = rawParent instanceof Ref ? rawParent.toString() : null; const parentRect = parentItem.getArray("Rect"); if (Array.isArray(parentRect) && parentRect.length === 4) { this.data.parentRect = Util.normalizeRect(parentRect); } else { this.data.parentRect = [0, 0, 0, 0]; } const rt = parentItem.get("RT"); if (isName(rt, AnnotationReplyType.GROUP)) { // Subordinate annotations in a group should inherit // the group attributes from the primary annotation. parentItem = parentItem.get("IRT"); } if (!parentItem.has("M")) { this.data.modificationDate = null; } else { this.setModificationDate(parentItem.get("M")); this.data.modificationDate = this.modificationDate; } if (!parentItem.has("C")) { // Fall back to the default background color. this.data.color = null; } else { this.setColor(parentItem.getArray("C")); this.data.color = this.color; } // If the Popup annotation is not viewable, but the parent annotation is, // that is most likely a bug. Fallback to inherit the flags from the parent // annotation (this is consistent with the behaviour in Adobe Reader). if (!this.viewable) { const parentFlags = parentItem.get("F"); if (this._isViewable(parentFlags)) { this.setFlags(parentFlags); } } this.setTitle(parentItem.get("T")); this.data.titleObj = this._title; this.setContents(parentItem.get("Contents")); this.data.contentsObj = this._contents; if (parentItem.has("RC")) { this.data.richText = XFAFactory.getRichTextAsHtml(parentItem.get("RC")); } } } class FreeTextAnnotation extends MarkupAnnotation { constructor(params) { super(params); this.data.hasOwnCanvas = this.data.noRotate; const { xref } = params; this.data.annotationType = AnnotationType.FREETEXT; this.setDefaultAppearance(params); if (!this.appearance && this._isOffscreenCanvasSupported) { const strokeAlpha = params.dict.get("CA"); const fakeUnicodeFont = new FakeUnicodeFont(xref, "sans-serif"); const fontData = this.data.defaultAppearanceData; this.appearance = fakeUnicodeFont.createAppearance( this._contents.str, this.rectangle, this.rotation, fontData.fontSize || 10, fontData.fontColor, strokeAlpha ); this._streams.push(this.appearance, FakeUnicodeFont.toUnicodeStream); } else if (!this._isOffscreenCanvasSupported) { warn( "FreeTextAnnotation: OffscreenCanvas is not supported, annotation may not render correctly." ); } } get hasTextContent() { return !!this.appearance; } static createNewDict(annotation, xref, { apRef, ap }) { const { color, fontSize, rect, rotation, user, value } = annotation; const freetext = new Dict(xref); freetext.set("Type", Name.get("Annot")); freetext.set("Subtype", Name.get("FreeText")); freetext.set("CreationDate", `D:${getModificationDate()}`); freetext.set("Rect", rect); const da = `/Helv ${fontSize} Tf ${getPdfColor(color, /* isFill */ true)}`; freetext.set("DA", da); freetext.set( "Contents", isAscii(value) ? value : stringToUTF16String(value, /* bigEndian = */ true) ); freetext.set("F", 4); freetext.set("Border", [0, 0, 0]); freetext.set("Rotate", rotation); if (user) { freetext.set( "T", isAscii(user) ? user : stringToUTF16String(user, /* bigEndian = */ true) ); } if (apRef || ap) { const n = new Dict(xref); freetext.set("AP", n); if (apRef) { n.set("N", apRef); } else { n.set("N", ap); } } return freetext; } static async createNewAppearanceStream(annotation, xref, params) { const { baseFontRef, evaluator, task } = params; const { color, fontSize, rect, rotation, value } = annotation; const resources = new Dict(xref); const font = new Dict(xref); if (baseFontRef) { font.set("Helv", baseFontRef); } else { const baseFont = new Dict(xref); baseFont.set("BaseFont", Name.get("Helvetica")); baseFont.set("Type", Name.get("Font")); baseFont.set("Subtype", Name.get("Type1")); baseFont.set("Encoding", Name.get("WinAnsiEncoding")); font.set("Helv", baseFont); } resources.set("Font", font); const helv = await WidgetAnnotation._getFontData( evaluator, task, { fontName: "Helvetica", fontSize, }, resources ); const [x1, y1, x2, y2] = rect; let w = x2 - x1; let h = y2 - y1; if (rotation % 180 !== 0) { [w, h] = [h, w]; } const lines = value.split("\n"); const scale = fontSize / 1000; let totalWidth = -Infinity; const encodedLines = []; for (let line of lines) { const encoded = helv.encodeString(line); if (encoded.length > 1) { // The font doesn't contain all the chars. return null; } line = encoded.join(""); encodedLines.push(line); let lineWidth = 0; const glyphs = helv.charsToGlyphs(line); for (const glyph of glyphs) { lineWidth += glyph.width * scale; } totalWidth = Math.max(totalWidth, lineWidth); } let hscale = 1; if (totalWidth > w) { hscale = w / totalWidth; } let vscale = 1; const lineHeight = LINE_FACTOR * fontSize; const lineDescent = LINE_DESCENT_FACTOR * fontSize; const totalHeight = lineHeight * lines.length; if (totalHeight > h) { vscale = h / totalHeight; } const fscale = Math.min(hscale, vscale); const newFontSize = fontSize * fscale; const buffer = [ "q", `0 0 ${numberToString(w)} ${numberToString(h)} re W n`, `BT`, `1 0 0 1 0 ${numberToString(h + lineDescent)} Tm 0 Tc ${getPdfColor( color, /* isFill */ true )}`, `/Helv ${numberToString(newFontSize)} Tf`, ]; const vShift = numberToString(lineHeight); for (const line of encodedLines) { buffer.push(`0 -${vShift} Td (${escapeString(line)}) Tj`); } buffer.push("ET", "Q"); const appearance = buffer.join("\n"); const appearanceStreamDict = new Dict(xref); appearanceStreamDict.set("FormType", 1); appearanceStreamDict.set("Subtype", Name.get("Form")); appearanceStreamDict.set("Type", Name.get("XObject")); appearanceStreamDict.set("BBox", [0, 0, w, h]); appearanceStreamDict.set("Resources", resources); if (rotation) { const matrix = getRotationMatrix(rotation, w, h); appearanceStreamDict.set("Matrix", matrix); } const ap = new StringStream(appearance); ap.dict = appearanceStreamDict; return ap; } } class LineAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.LINE; this.data.hasOwnCanvas = this.data.noRotate; const lineCoordinates = dict.getArray("L"); this.data.lineCoordinates = Util.normalizeRect(lineCoordinates); this.setLineEndings(dict.getArray("LE")); this.data.lineEndings = this.lineEndings; if (!this.appearance) { // The default stroke color is black. const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); const interiorColor = getRgbColor(dict.getArray("IC"), null); // The default fill color is transparent. Setting the fill colour is // necessary if/when we want to add support for non-default line endings. const fillColor = interiorColor ? getPdfColorArray(interiorColor) : null; const fillAlpha = fillColor ? strokeAlpha : null; const borderWidth = this.borderStyle.width || 1, borderAdjust = 2 * borderWidth; // If the /Rect-entry is empty/wrong, create a fallback rectangle so that // we get similar rendering/highlighting behaviour as in Adobe Reader. const bbox = [ this.data.lineCoordinates[0] - borderAdjust, this.data.lineCoordinates[1] - borderAdjust, this.data.lineCoordinates[2] + borderAdjust, this.data.lineCoordinates[3] + borderAdjust, ]; if (!Util.intersect(this.rectangle, bbox)) { this.rectangle = bbox; } this._setDefaultAppearance({ xref, extra: `${borderWidth} w`, strokeColor, fillColor, strokeAlpha, fillAlpha, pointsCallback: (buffer, points) => { buffer.push( `${lineCoordinates[0]} ${lineCoordinates[1]} m`, `${lineCoordinates[2]} ${lineCoordinates[3]} l`, "S" ); return [ points[0].x - borderWidth, points[1].x + borderWidth, points[3].y - borderWidth, points[1].y + borderWidth, ]; }, }); } } } class SquareAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.SQUARE; this.data.hasOwnCanvas = this.data.noRotate; if (!this.appearance) { // The default stroke color is black. const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); const interiorColor = getRgbColor(dict.getArray("IC"), null); // The default fill color is transparent. const fillColor = interiorColor ? getPdfColorArray(interiorColor) : null; const fillAlpha = fillColor ? strokeAlpha : null; if (this.borderStyle.width === 0 && !fillColor) { // Prevent rendering a "hairline" border (fixes issue14164.pdf). return; } this._setDefaultAppearance({ xref, extra: `${this.borderStyle.width} w`, strokeColor, fillColor, strokeAlpha, fillAlpha, pointsCallback: (buffer, points) => { const x = points[2].x + this.borderStyle.width / 2; const y = points[2].y + this.borderStyle.width / 2; const width = points[3].x - points[2].x - this.borderStyle.width; const height = points[1].y - points[3].y - this.borderStyle.width; buffer.push(`${x} ${y} ${width} ${height} re`); if (fillColor) { buffer.push("B"); } else { buffer.push("S"); } return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } } class CircleAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.CIRCLE; if (!this.appearance) { // The default stroke color is black. const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); const interiorColor = getRgbColor(dict.getArray("IC"), null); // The default fill color is transparent. const fillColor = interiorColor ? getPdfColorArray(interiorColor) : null; const fillAlpha = fillColor ? strokeAlpha : null; if (this.borderStyle.width === 0 && !fillColor) { // Prevent rendering a "hairline" border (fixes issue14164.pdf). return; } // Circles are approximated by Bézier curves with four segments since // there is no circle primitive in the PDF specification. For the control // points distance, see https://stackoverflow.com/a/27863181. const controlPointsDistance = (4 / 3) * Math.tan(Math.PI / (2 * 4)); this._setDefaultAppearance({ xref, extra: `${this.borderStyle.width} w`, strokeColor, fillColor, strokeAlpha, fillAlpha, pointsCallback: (buffer, points) => { const x0 = points[0].x + this.borderStyle.width / 2; const y0 = points[0].y - this.borderStyle.width / 2; const x1 = points[3].x - this.borderStyle.width / 2; const y1 = points[3].y + this.borderStyle.width / 2; const xMid = x0 + (x1 - x0) / 2; const yMid = y0 + (y1 - y0) / 2; const xOffset = ((x1 - x0) / 2) * controlPointsDistance; const yOffset = ((y1 - y0) / 2) * controlPointsDistance; buffer.push( `${xMid} ${y1} m`, `${xMid + xOffset} ${y1} ${x1} ${yMid + yOffset} ${x1} ${yMid} c`, `${x1} ${yMid - yOffset} ${xMid + xOffset} ${y0} ${xMid} ${y0} c`, `${xMid - xOffset} ${y0} ${x0} ${yMid - yOffset} ${x0} ${yMid} c`, `${x0} ${yMid + yOffset} ${xMid - xOffset} ${y1} ${xMid} ${y1} c`, "h" ); if (fillColor) { buffer.push("B"); } else { buffer.push("S"); } return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } } class PolylineAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.POLYLINE; this.data.hasOwnCanvas = this.data.noRotate; this.data.vertices = []; if (!(this instanceof PolygonAnnotation)) { // Only meaningful for polyline annotations. this.setLineEndings(dict.getArray("LE")); this.data.lineEndings = this.lineEndings; } // The vertices array is an array of numbers representing the alternating // horizontal and vertical coordinates, respectively, of each vertex. // Convert this to an array of objects with x and y coordinates. const rawVertices = dict.getArray("Vertices"); if (!Array.isArray(rawVertices)) { return; } for (let i = 0, ii = rawVertices.length; i < ii; i += 2) { this.data.vertices.push({ x: rawVertices[i], y: rawVertices[i + 1], }); } if (!this.appearance) { // The default stroke color is black. const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); const borderWidth = this.borderStyle.width || 1, borderAdjust = 2 * borderWidth; // If the /Rect-entry is empty/wrong, create a fallback rectangle so that // we get similar rendering/highlighting behaviour as in Adobe Reader. const bbox = [Infinity, Infinity, -Infinity, -Infinity]; for (const vertex of this.data.vertices) { bbox[0] = Math.min(bbox[0], vertex.x - borderAdjust); bbox[1] = Math.min(bbox[1], vertex.y - borderAdjust); bbox[2] = Math.max(bbox[2], vertex.x + borderAdjust); bbox[3] = Math.max(bbox[3], vertex.y + borderAdjust); } if (!Util.intersect(this.rectangle, bbox)) { this.rectangle = bbox; } this._setDefaultAppearance({ xref, extra: `${borderWidth} w`, strokeColor, strokeAlpha, pointsCallback: (buffer, points) => { const vertices = this.data.vertices; for (let i = 0, ii = vertices.length; i < ii; i++) { buffer.push( `${vertices[i].x} ${vertices[i].y} ${i === 0 ? "m" : "l"}` ); } buffer.push("S"); return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } } class PolygonAnnotation extends PolylineAnnotation { constructor(params) { // Polygons are specific forms of polylines, so reuse their logic. super(params); this.data.annotationType = AnnotationType.POLYGON; } } class CaretAnnotation extends MarkupAnnotation { constructor(params) { super(params); this.data.annotationType = AnnotationType.CARET; } } class InkAnnotation extends MarkupAnnotation { constructor(params) { super(params); this.data.hasOwnCanvas = this.data.noRotate; const { dict, xref } = params; this.data.annotationType = AnnotationType.INK; this.data.inkLists = []; const rawInkLists = dict.getArray("InkList"); if (!Array.isArray(rawInkLists)) { return; } for (let i = 0, ii = rawInkLists.length; i < ii; ++i) { // The raw ink lists array contains arrays of numbers representing // the alternating horizontal and vertical coordinates, respectively, // of each vertex. Convert this to an array of objects with x and y // coordinates. this.data.inkLists.push([]); for (let j = 0, jj = rawInkLists[i].length; j < jj; j += 2) { this.data.inkLists[i].push({ x: xref.fetchIfRef(rawInkLists[i][j]), y: xref.fetchIfRef(rawInkLists[i][j + 1]), }); } } if (!this.appearance) { // The default stroke color is black. const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); const borderWidth = this.borderStyle.width || 1, borderAdjust = 2 * borderWidth; // If the /Rect-entry is empty/wrong, create a fallback rectangle so that // we get similar rendering/highlighting behaviour as in Adobe Reader. const bbox = [Infinity, Infinity, -Infinity, -Infinity]; for (const inkLists of this.data.inkLists) { for (const vertex of inkLists) { bbox[0] = Math.min(bbox[0], vertex.x - borderAdjust); bbox[1] = Math.min(bbox[1], vertex.y - borderAdjust); bbox[2] = Math.max(bbox[2], vertex.x + borderAdjust); bbox[3] = Math.max(bbox[3], vertex.y + borderAdjust); } } if (!Util.intersect(this.rectangle, bbox)) { this.rectangle = bbox; } this._setDefaultAppearance({ xref, extra: `${borderWidth} w`, strokeColor, strokeAlpha, pointsCallback: (buffer, points) => { // According to the specification, see "12.5.6.13 Ink Annotations": // When drawn, the points shall be connected by straight lines or // curves in an implementation-dependent way. // In order to simplify things, we utilize straight lines for now. for (const inkList of this.data.inkLists) { for (let i = 0, ii = inkList.length; i < ii; i++) { buffer.push( `${inkList[i].x} ${inkList[i].y} ${i === 0 ? "m" : "l"}` ); } buffer.push("S"); } return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } static createNewDict(annotation, xref, { apRef, ap }) { const { paths, rect, rotation } = annotation; const ink = new Dict(xref); ink.set("Type", Name.get("Annot")); ink.set("Subtype", Name.get("Ink")); ink.set("CreationDate", `D:${getModificationDate()}`); ink.set("Rect", rect); ink.set( "InkList", paths.map(p => p.points) ); ink.set("F", 4); ink.set("Border", [0, 0, 0]); ink.set("Rotate", rotation); const n = new Dict(xref); ink.set("AP", n); if (apRef) { n.set("N", apRef); } else { n.set("N", ap); } return ink; } static async createNewAppearanceStream(annotation, xref, params) { const { color, rect, rotation, paths, thickness, opacity } = annotation; const [x1, y1, x2, y2] = rect; let w = x2 - x1; let h = y2 - y1; if (rotation % 180 !== 0) { [w, h] = [h, w]; } const appearanceBuffer = [ `${thickness} w 1 J 1 j`, `${getPdfColor(color, /* isFill */ false)}`, ]; if (opacity !== 1) { appearanceBuffer.push("/R0 gs"); } const buffer = []; for (const { bezier } of paths) { buffer.length = 0; buffer.push( `${numberToString(bezier[0])} ${numberToString(bezier[1])} m` ); for (let i = 2, ii = bezier.length; i < ii; i += 6) { const curve = bezier .slice(i, i + 6) .map(numberToString) .join(" "); buffer.push(`${curve} c`); } buffer.push("S"); appearanceBuffer.push(buffer.join("\n")); } const appearance = appearanceBuffer.join("\n"); const appearanceStreamDict = new Dict(xref); appearanceStreamDict.set("FormType", 1); appearanceStreamDict.set("Subtype", Name.get("Form")); appearanceStreamDict.set("Type", Name.get("XObject")); appearanceStreamDict.set("BBox", [0, 0, w, h]); appearanceStreamDict.set("Length", appearance.length); if (rotation) { const matrix = getRotationMatrix(rotation, w, h); appearanceStreamDict.set("Matrix", matrix); } if (opacity !== 1) { const resources = new Dict(xref); const extGState = new Dict(xref); const r0 = new Dict(xref); r0.set("CA", opacity); r0.set("Type", Name.get("ExtGState")); extGState.set("R0", r0); resources.set("ExtGState", extGState); appearanceStreamDict.set("Resources", resources); } const ap = new StringStream(appearance); ap.dict = appearanceStreamDict; return ap; } } class HighlightAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.HIGHLIGHT; const quadPoints = (this.data.quadPoints = getQuadPoints(dict, null)); if (quadPoints) { const resources = this.appearance && this.appearance.dict.get("Resources"); if (!this.appearance || !(resources && resources.has("ExtGState"))) { if (this.appearance) { // Workaround for cases where there's no /ExtGState-entry directly // available, e.g. when the appearance stream contains a /XObject of // the /Form-type, since that causes the highlighting to completely // obscure the PDF content below it (fixes issue13242.pdf). warn("HighlightAnnotation - ignoring built-in appearance stream."); } // Default color is yellow in Acrobat Reader const fillColor = this.color ? getPdfColorArray(this.color) : [1, 1, 0]; const fillAlpha = dict.get("CA"); this._setDefaultAppearance({ xref, fillColor, blendMode: "Multiply", fillAlpha, pointsCallback: (buffer, points) => { buffer.push( `${points[0].x} ${points[0].y} m`, `${points[1].x} ${points[1].y} l`, `${points[3].x} ${points[3].y} l`, `${points[2].x} ${points[2].y} l`, "f" ); return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } else { this.data.hasPopup = false; } } } class UnderlineAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.UNDERLINE; const quadPoints = (this.data.quadPoints = getQuadPoints(dict, null)); if (quadPoints) { if (!this.appearance) { // Default color is black const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); this._setDefaultAppearance({ xref, extra: "[] 0 d 1 w", strokeColor, strokeAlpha, pointsCallback: (buffer, points) => { buffer.push( `${points[2].x} ${points[2].y} m`, `${points[3].x} ${points[3].y} l`, "S" ); return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } else { this.data.hasPopup = false; } } } class SquigglyAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.SQUIGGLY; const quadPoints = (this.data.quadPoints = getQuadPoints(dict, null)); if (quadPoints) { if (!this.appearance) { // Default color is black const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); this._setDefaultAppearance({ xref, extra: "[] 0 d 1 w", strokeColor, strokeAlpha, pointsCallback: (buffer, points) => { const dy = (points[0].y - points[2].y) / 6; let shift = dy; let x = points[2].x; const y = points[2].y; const xEnd = points[3].x; buffer.push(`${x} ${y + shift} m`); do { x += 2; shift = shift === 0 ? dy : 0; buffer.push(`${x} ${y + shift} l`); } while (x < xEnd); buffer.push("S"); return [points[2].x, xEnd, y - 2 * dy, y + 2 * dy]; }, }); } } else { this.data.hasPopup = false; } } } class StrikeOutAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; this.data.annotationType = AnnotationType.STRIKEOUT; const quadPoints = (this.data.quadPoints = getQuadPoints(dict, null)); if (quadPoints) { if (!this.appearance) { // Default color is black const strokeColor = this.color ? getPdfColorArray(this.color) : [0, 0, 0]; const strokeAlpha = dict.get("CA"); this._setDefaultAppearance({ xref, extra: "[] 0 d 1 w", strokeColor, strokeAlpha, pointsCallback: (buffer, points) => { buffer.push( `${(points[0].x + points[2].x) / 2} ` + `${(points[0].y + points[2].y) / 2} m`, `${(points[1].x + points[3].x) / 2} ` + `${(points[1].y + points[3].y) / 2} l`, "S" ); return [points[0].x, points[1].x, points[3].y, points[1].y]; }, }); } } else { this.data.hasPopup = false; } } } class StampAnnotation extends MarkupAnnotation { constructor(params) { super(params); this.data.annotationType = AnnotationType.STAMP; this.data.hasOwnCanvas = this.data.noRotate; } } class FileAttachmentAnnotation extends MarkupAnnotation { constructor(params) { super(params); const { dict, xref } = params; const file = new FileSpec(dict.get("FS"), xref); this.data.annotationType = AnnotationType.FILEATTACHMENT; this.data.hasOwnCanvas = this.data.noRotate; this.data.file = file.serializable; const name = dict.get("Name"); this.data.name = name instanceof Name ? stringToPDFString(name.name) : "PushPin"; } } export { Annotation, AnnotationBorderStyle, AnnotationFactory, getQuadPoints, MarkupAnnotation, PopupAnnotation, };