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pdf.js/src/display/svg.js
Jonas Jenwald 05edd91bdb Remove the isNum helper function 
The call-sites are replaced by direct `typeof`-checks instead, which removes unnecessary function calls. Note that in the `src/`-folder we already had more `typeof`-cases than `isNum`-calls.

These changes were *mostly* done using regular expression search-and-replace, with two exceptions:
 - In `Font._charToGlyph` we no longer unconditionally update the `width`, since that seems completely unnecessary.
 - In `PDFDocument.documentInfo`, when parsing custom entries, we now do the `typeof`-check once.
2022-02-22 11:55:34 +01:00

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/* 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.
*/
/* globals __non_webpack_require__ */
import {
FONT_IDENTITY_MATRIX,
IDENTITY_MATRIX,
ImageKind,
OPS,
TextRenderingMode,
unreachable,
Util,
warn,
} from "../shared/util.js";
import { DOMSVGFactory } from "./display_utils.js";
import { isNodeJS } from "../shared/is_node.js";
/** @type {any} */
let SVGGraphics = class {
constructor() {
unreachable("Not implemented: SVGGraphics");
}
};
if (
typeof PDFJSDev === "undefined" ||
PDFJSDev.test("!PRODUCTION || GENERIC")
) {
const SVG_DEFAULTS = {
fontStyle: "normal",
fontWeight: "normal",
fillColor: "#000000",
};
const XML_NS = "http://www.w3.org/XML/1998/namespace";
const XLINK_NS = "http://www.w3.org/1999/xlink";
const LINE_CAP_STYLES = ["butt", "round", "square"];
const LINE_JOIN_STYLES = ["miter", "round", "bevel"];
const createObjectURL = function (
data,
contentType = "",
forceDataSchema = false
) {
if (
URL.createObjectURL &&
typeof Blob !== "undefined" &&
!forceDataSchema
) {
return URL.createObjectURL(new Blob([data], { type: contentType }));
}
// Blob/createObjectURL is not available, falling back to data schema.
const digits =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
let buffer = `data:${contentType};base64,`;
for (let i = 0, ii = data.length; i < ii; i += 3) {
const b1 = data[i] & 0xff;
const b2 = data[i + 1] & 0xff;
const b3 = data[i + 2] & 0xff;
const d1 = b1 >> 2,
d2 = ((b1 & 3) << 4) | (b2 >> 4);
const d3 = i + 1 < ii ? ((b2 & 0xf) << 2) | (b3 >> 6) : 64;
const d4 = i + 2 < ii ? b3 & 0x3f : 64;
buffer += digits[d1] + digits[d2] + digits[d3] + digits[d4];
}
return buffer;
};
const convertImgDataToPng = (function () {
const PNG_HEADER = new Uint8Array([
0x89, 0x50, 0x4e, 0x47, 0x0d, 0x0a, 0x1a, 0x0a,
]);
const CHUNK_WRAPPER_SIZE = 12;
const crcTable = new Int32Array(256);
for (let i = 0; i < 256; i++) {
let c = i;
for (let h = 0; h < 8; h++) {
if (c & 1) {
c = 0xedb88320 ^ ((c >> 1) & 0x7fffffff);
} else {
c = (c >> 1) & 0x7fffffff;
}
}
crcTable[i] = c;
}
function crc32(data, start, end) {
let crc = -1;
for (let i = start; i < end; i++) {
const a = (crc ^ data[i]) & 0xff;
const b = crcTable[a];
crc = (crc >>> 8) ^ b;
}
return crc ^ -1;
}
function writePngChunk(type, body, data, offset) {
let p = offset;
const len = body.length;
data[p] = (len >> 24) & 0xff;
data[p + 1] = (len >> 16) & 0xff;
data[p + 2] = (len >> 8) & 0xff;
data[p + 3] = len & 0xff;
p += 4;
data[p] = type.charCodeAt(0) & 0xff;
data[p + 1] = type.charCodeAt(1) & 0xff;
data[p + 2] = type.charCodeAt(2) & 0xff;
data[p + 3] = type.charCodeAt(3) & 0xff;
p += 4;
data.set(body, p);
p += body.length;
const crc = crc32(data, offset + 4, p);
data[p] = (crc >> 24) & 0xff;
data[p + 1] = (crc >> 16) & 0xff;
data[p + 2] = (crc >> 8) & 0xff;
data[p + 3] = crc & 0xff;
}
function adler32(data, start, end) {
let a = 1;
let b = 0;
for (let i = start; i < end; ++i) {
a = (a + (data[i] & 0xff)) % 65521;
b = (b + a) % 65521;
}
return (b << 16) | a;
}
/**
* @param {Uint8Array} literals The input data.
* @returns {Uint8Array} The DEFLATE-compressed data stream in zlib format.
* This is the required format for compressed streams in the PNG format:
* http://www.libpng.org/pub/png/spec/1.2/PNG-Compression.html
*/
function deflateSync(literals) {
if (!isNodeJS) {
// zlib is certainly not available outside of Node.js. We can either use
// the pako library for client-side DEFLATE compression, or use the
// canvas API of the browser to obtain a more optimal PNG file.
return deflateSyncUncompressed(literals);
}
try {
// NOTE: This implementation is far from perfect, but already way better
// than not applying any compression.
//
// A better algorithm will try to choose a good predictor/filter and
// then choose a suitable zlib compression strategy (e.g. 3,Z_RLE).
//
// Node v0.11.12 zlib.deflateSync is introduced (and returns a Buffer).
// Node v3.0.0 Buffer inherits from Uint8Array.
// Node v8.0.0 zlib.deflateSync accepts Uint8Array as input.
let input;
// eslint-disable-next-line no-undef
if (parseInt(process.versions.node) >= 8) {
input = literals;
} else {
// eslint-disable-next-line no-undef
input = Buffer.from(literals);
}
const output = __non_webpack_require__("zlib").deflateSync(input, {
level: 9,
});
return output instanceof Uint8Array ? output : new Uint8Array(output);
} catch (e) {
warn(
"Not compressing PNG because zlib.deflateSync is unavailable: " + e
);
}
return deflateSyncUncompressed(literals);
}
// An implementation of DEFLATE with compression level 0 (Z_NO_COMPRESSION).
function deflateSyncUncompressed(literals) {
let len = literals.length;
const maxBlockLength = 0xffff;
const deflateBlocks = Math.ceil(len / maxBlockLength);
const idat = new Uint8Array(2 + len + deflateBlocks * 5 + 4);
let pi = 0;
idat[pi++] = 0x78; // compression method and flags
idat[pi++] = 0x9c; // flags
let pos = 0;
while (len > maxBlockLength) {
// writing non-final DEFLATE blocks type 0 and length of 65535
idat[pi++] = 0x00;
idat[pi++] = 0xff;
idat[pi++] = 0xff;
idat[pi++] = 0x00;
idat[pi++] = 0x00;
idat.set(literals.subarray(pos, pos + maxBlockLength), pi);
pi += maxBlockLength;
pos += maxBlockLength;
len -= maxBlockLength;
}
// writing non-final DEFLATE blocks type 0
idat[pi++] = 0x01;
idat[pi++] = len & 0xff;
idat[pi++] = (len >> 8) & 0xff;
idat[pi++] = ~len & 0xffff & 0xff;
idat[pi++] = ((~len & 0xffff) >> 8) & 0xff;
idat.set(literals.subarray(pos), pi);
pi += literals.length - pos;
const adler = adler32(literals, 0, literals.length); // checksum
idat[pi++] = (adler >> 24) & 0xff;
idat[pi++] = (adler >> 16) & 0xff;
idat[pi++] = (adler >> 8) & 0xff;
idat[pi++] = adler & 0xff;
return idat;
}
function encode(imgData, kind, forceDataSchema, isMask) {
const width = imgData.width;
const height = imgData.height;
let bitDepth, colorType, lineSize;
const bytes = imgData.data;
switch (kind) {
case ImageKind.GRAYSCALE_1BPP:
colorType = 0;
bitDepth = 1;
lineSize = (width + 7) >> 3;
break;
case ImageKind.RGB_24BPP:
colorType = 2;
bitDepth = 8;
lineSize = width * 3;
break;
case ImageKind.RGBA_32BPP:
colorType = 6;
bitDepth = 8;
lineSize = width * 4;
break;
default:
throw new Error("invalid format");
}
// prefix every row with predictor 0
const literals = new Uint8Array((1 + lineSize) * height);
let offsetLiterals = 0,
offsetBytes = 0;
for (let y = 0; y < height; ++y) {
literals[offsetLiterals++] = 0; // no prediction
literals.set(
bytes.subarray(offsetBytes, offsetBytes + lineSize),
offsetLiterals
);
offsetBytes += lineSize;
offsetLiterals += lineSize;
}
if (kind === ImageKind.GRAYSCALE_1BPP && isMask) {
// inverting for image masks
offsetLiterals = 0;
for (let y = 0; y < height; y++) {
offsetLiterals++; // skipping predictor
for (let i = 0; i < lineSize; i++) {
literals[offsetLiterals++] ^= 0xff;
}
}
}
const ihdr = new Uint8Array([
(width >> 24) & 0xff,
(width >> 16) & 0xff,
(width >> 8) & 0xff,
width & 0xff,
(height >> 24) & 0xff,
(height >> 16) & 0xff,
(height >> 8) & 0xff,
height & 0xff,
bitDepth, // bit depth
colorType, // color type
0x00, // compression method
0x00, // filter method
0x00, // interlace method
]);
const idat = deflateSync(literals);
// PNG consists of: header, IHDR+data, IDAT+data, and IEND.
const pngLength =
PNG_HEADER.length + CHUNK_WRAPPER_SIZE * 3 + ihdr.length + idat.length;
const data = new Uint8Array(pngLength);
let offset = 0;
data.set(PNG_HEADER, offset);
offset += PNG_HEADER.length;
writePngChunk("IHDR", ihdr, data, offset);
offset += CHUNK_WRAPPER_SIZE + ihdr.length;
writePngChunk("IDATA", idat, data, offset);
offset += CHUNK_WRAPPER_SIZE + idat.length;
writePngChunk("IEND", new Uint8Array(0), data, offset);
return createObjectURL(data, "image/png", forceDataSchema);
}
// eslint-disable-next-line no-shadow
return function convertImgDataToPng(imgData, forceDataSchema, isMask) {
const kind =
imgData.kind === undefined ? ImageKind.GRAYSCALE_1BPP : imgData.kind;
return encode(imgData, kind, forceDataSchema, isMask);
};
})();
class SVGExtraState {
constructor() {
this.fontSizeScale = 1;
this.fontWeight = SVG_DEFAULTS.fontWeight;
this.fontSize = 0;
this.textMatrix = IDENTITY_MATRIX;
this.fontMatrix = FONT_IDENTITY_MATRIX;
this.leading = 0;
this.textRenderingMode = TextRenderingMode.FILL;
this.textMatrixScale = 1;
// Current point (in user coordinates)
this.x = 0;
this.y = 0;
// Start of text line (in text coordinates)
this.lineX = 0;
this.lineY = 0;
// Character and word spacing
this.charSpacing = 0;
this.wordSpacing = 0;
this.textHScale = 1;
this.textRise = 0;
// Default foreground and background colors
this.fillColor = SVG_DEFAULTS.fillColor;
this.strokeColor = "#000000";
this.fillAlpha = 1;
this.strokeAlpha = 1;
this.lineWidth = 1;
this.lineJoin = "";
this.lineCap = "";
this.miterLimit = 0;
this.dashArray = [];
this.dashPhase = 0;
this.dependencies = [];
// Clipping
this.activeClipUrl = null;
this.clipGroup = null;
this.maskId = "";
}
clone() {
return Object.create(this);
}
setCurrentPoint(x, y) {
this.x = x;
this.y = y;
}
}
// eslint-disable-next-line no-inner-declarations
function opListToTree(opList) {
let opTree = [];
const tmp = [];
for (const opListElement of opList) {
if (opListElement.fn === "save") {
opTree.push({ fnId: 92, fn: "group", items: [] });
tmp.push(opTree);
opTree = opTree[opTree.length - 1].items;
continue;
}
if (opListElement.fn === "restore") {
opTree = tmp.pop();
} else {
opTree.push(opListElement);
}
}
return opTree;
}
/**
* Format a float number as a string.
*
* @param value {number} - The float number to format.
* @returns {string}
*/
// eslint-disable-next-line no-inner-declarations
function pf(value) {
if (Number.isInteger(value)) {
return value.toString();
}
const s = value.toFixed(10);
let i = s.length - 1;
if (s[i] !== "0") {
return s;
}
// Remove trailing zeros.
do {
i--;
} while (s[i] === "0");
return s.substring(0, s[i] === "." ? i : i + 1);
}
/**
* Format a transform matrix as a string. The standard rotation, scale and
* translation matrices are replaced by their shorter forms, and for
* identity matrices an empty string is returned to save memory.
*
* @param m {Array} - The transform matrix to format.
* @returns {string}
*/
// eslint-disable-next-line no-inner-declarations
function pm(m) {
if (m[4] === 0 && m[5] === 0) {
if (m[1] === 0 && m[2] === 0) {
if (m[0] === 1 && m[3] === 1) {
return "";
}
return `scale(${pf(m[0])} ${pf(m[3])})`;
}
if (m[0] === m[3] && m[1] === -m[2]) {
const a = (Math.acos(m[0]) * 180) / Math.PI;
return `rotate(${pf(a)})`;
}
} else {
if (m[0] === 1 && m[1] === 0 && m[2] === 0 && m[3] === 1) {
return `translate(${pf(m[4])} ${pf(m[5])})`;
}
}
return (
`matrix(${pf(m[0])} ${pf(m[1])} ${pf(m[2])} ${pf(m[3])} ${pf(m[4])} ` +
`${pf(m[5])})`
);
}
// The counts below are relevant for all pages, so they have to be global
// instead of being members of `SVGGraphics` (which is recreated for
// each page).
let clipCount = 0;
let maskCount = 0;
let shadingCount = 0;
SVGGraphics = class {
constructor(commonObjs, objs, forceDataSchema = false) {
this.svgFactory = new DOMSVGFactory();
this.current = new SVGExtraState();
this.transformMatrix = IDENTITY_MATRIX; // Graphics state matrix
this.transformStack = [];
this.extraStack = [];
this.commonObjs = commonObjs;
this.objs = objs;
this.pendingClip = null;
this.pendingEOFill = false;
this.embedFonts = false;
this.embeddedFonts = Object.create(null);
this.cssStyle = null;
this.forceDataSchema = !!forceDataSchema;
// In `src/shared/util.js` the operator names are mapped to IDs.
// The list below represents the reverse of that, i.e., it maps IDs
// to operator names.
this._operatorIdMapping = [];
for (const op in OPS) {
this._operatorIdMapping[OPS[op]] = op;
}
}
save() {
this.transformStack.push(this.transformMatrix);
const old = this.current;
this.extraStack.push(old);
this.current = old.clone();
}
restore() {
this.transformMatrix = this.transformStack.pop();
this.current = this.extraStack.pop();
this.pendingClip = null;
this.tgrp = null;
}
group(items) {
this.save();
this.executeOpTree(items);
this.restore();
}
loadDependencies(operatorList) {
const fnArray = operatorList.fnArray;
const argsArray = operatorList.argsArray;
for (let i = 0, ii = fnArray.length; i < ii; i++) {
if (fnArray[i] !== OPS.dependency) {
continue;
}
for (const obj of argsArray[i]) {
const objsPool = obj.startsWith("g_") ? this.commonObjs : this.objs;
const promise = new Promise(resolve => {
objsPool.get(obj, resolve);
});
this.current.dependencies.push(promise);
}
}
return Promise.all(this.current.dependencies);
}
transform(a, b, c, d, e, f) {
const transformMatrix = [a, b, c, d, e, f];
this.transformMatrix = Util.transform(
this.transformMatrix,
transformMatrix
);
this.tgrp = null;
}
getSVG(operatorList, viewport) {
this.viewport = viewport;
const svgElement = this._initialize(viewport);
return this.loadDependencies(operatorList).then(() => {
this.transformMatrix = IDENTITY_MATRIX;
this.executeOpTree(this.convertOpList(operatorList));
return svgElement;
});
}
convertOpList(operatorList) {
const operatorIdMapping = this._operatorIdMapping;
const argsArray = operatorList.argsArray;
const fnArray = operatorList.fnArray;
const opList = [];
for (let i = 0, ii = fnArray.length; i < ii; i++) {
const fnId = fnArray[i];
opList.push({
fnId,
fn: operatorIdMapping[fnId],
args: argsArray[i],
});
}
return opListToTree(opList);
}
executeOpTree(opTree) {
for (const opTreeElement of opTree) {
const fn = opTreeElement.fn;
const fnId = opTreeElement.fnId;
const args = opTreeElement.args;
switch (fnId | 0) {
case OPS.beginText:
this.beginText();
break;
case OPS.dependency:
// Handled in `loadDependencies`, so no warning should be shown.
break;
case OPS.setLeading:
this.setLeading(args);
break;
case OPS.setLeadingMoveText:
this.setLeadingMoveText(args[0], args[1]);
break;
case OPS.setFont:
this.setFont(args);
break;
case OPS.showText:
this.showText(args[0]);
break;
case OPS.showSpacedText:
this.showText(args[0]);
break;
case OPS.endText:
this.endText();
break;
case OPS.moveText:
this.moveText(args[0], args[1]);
break;
case OPS.setCharSpacing:
this.setCharSpacing(args[0]);
break;
case OPS.setWordSpacing:
this.setWordSpacing(args[0]);
break;
case OPS.setHScale:
this.setHScale(args[0]);
break;
case OPS.setTextMatrix:
this.setTextMatrix(
args[0],
args[1],
args[2],
args[3],
args[4],
args[5]
);
break;
case OPS.setTextRise:
this.setTextRise(args[0]);
break;
case OPS.setTextRenderingMode:
this.setTextRenderingMode(args[0]);
break;
case OPS.setLineWidth:
this.setLineWidth(args[0]);
break;
case OPS.setLineJoin:
this.setLineJoin(args[0]);
break;
case OPS.setLineCap:
this.setLineCap(args[0]);
break;
case OPS.setMiterLimit:
this.setMiterLimit(args[0]);
break;
case OPS.setFillRGBColor:
this.setFillRGBColor(args[0], args[1], args[2]);
break;
case OPS.setStrokeRGBColor:
this.setStrokeRGBColor(args[0], args[1], args[2]);
break;
case OPS.setStrokeColorN:
this.setStrokeColorN(args);
break;
case OPS.setFillColorN:
this.setFillColorN(args);
break;
case OPS.shadingFill:
this.shadingFill(args[0]);
break;
case OPS.setDash:
this.setDash(args[0], args[1]);
break;
case OPS.setRenderingIntent:
this.setRenderingIntent(args[0]);
break;
case OPS.setFlatness:
this.setFlatness(args[0]);
break;
case OPS.setGState:
this.setGState(args[0]);
break;
case OPS.fill:
this.fill();
break;
case OPS.eoFill:
this.eoFill();
break;
case OPS.stroke:
this.stroke();
break;
case OPS.fillStroke:
this.fillStroke();
break;
case OPS.eoFillStroke:
this.eoFillStroke();
break;
case OPS.clip:
this.clip("nonzero");
break;
case OPS.eoClip:
this.clip("evenodd");
break;
case OPS.paintSolidColorImageMask:
this.paintSolidColorImageMask();
break;
case OPS.paintImageXObject:
this.paintImageXObject(args[0]);
break;
case OPS.paintInlineImageXObject:
this.paintInlineImageXObject(args[0]);
break;
case OPS.paintImageMaskXObject:
this.paintImageMaskXObject(args[0]);
break;
case OPS.paintFormXObjectBegin:
this.paintFormXObjectBegin(args[0], args[1]);
break;
case OPS.paintFormXObjectEnd:
this.paintFormXObjectEnd();
break;
case OPS.closePath:
this.closePath();
break;
case OPS.closeStroke:
this.closeStroke();
break;
case OPS.closeFillStroke:
this.closeFillStroke();
break;
case OPS.closeEOFillStroke:
this.closeEOFillStroke();
break;
case OPS.nextLine:
this.nextLine();
break;
case OPS.transform:
this.transform(
args[0],
args[1],
args[2],
args[3],
args[4],
args[5]
);
break;
case OPS.constructPath:
this.constructPath(args[0], args[1]);
break;
case OPS.endPath:
this.endPath();
break;
case 92:
this.group(opTreeElement.items);
break;
default:
warn(`Unimplemented operator ${fn}`);
break;
}
}
}
setWordSpacing(wordSpacing) {
this.current.wordSpacing = wordSpacing;
}
setCharSpacing(charSpacing) {
this.current.charSpacing = charSpacing;
}
nextLine() {
this.moveText(0, this.current.leading);
}
setTextMatrix(a, b, c, d, e, f) {
const current = this.current;
current.textMatrix = current.lineMatrix = [a, b, c, d, e, f];
current.textMatrixScale = Math.hypot(a, b);
current.x = current.lineX = 0;
current.y = current.lineY = 0;
current.xcoords = [];
current.ycoords = [];
current.tspan = this.svgFactory.createElement("svg:tspan");
current.tspan.setAttributeNS(null, "font-family", current.fontFamily);
current.tspan.setAttributeNS(
null,
"font-size",
`${pf(current.fontSize)}px`
);
current.tspan.setAttributeNS(null, "y", pf(-current.y));
current.txtElement = this.svgFactory.createElement("svg:text");
current.txtElement.appendChild(current.tspan);
}
beginText() {
const current = this.current;
current.x = current.lineX = 0;
current.y = current.lineY = 0;
current.textMatrix = IDENTITY_MATRIX;
current.lineMatrix = IDENTITY_MATRIX;
current.textMatrixScale = 1;
current.tspan = this.svgFactory.createElement("svg:tspan");
current.txtElement = this.svgFactory.createElement("svg:text");
current.txtgrp = this.svgFactory.createElement("svg:g");
current.xcoords = [];
current.ycoords = [];
}
moveText(x, y) {
const current = this.current;
current.x = current.lineX += x;
current.y = current.lineY += y;
current.xcoords = [];
current.ycoords = [];
current.tspan = this.svgFactory.createElement("svg:tspan");
current.tspan.setAttributeNS(null, "font-family", current.fontFamily);
current.tspan.setAttributeNS(
null,
"font-size",
`${pf(current.fontSize)}px`
);
current.tspan.setAttributeNS(null, "y", pf(-current.y));
}
showText(glyphs) {
const current = this.current;
const font = current.font;
const fontSize = current.fontSize;
if (fontSize === 0) {
return;
}
const fontSizeScale = current.fontSizeScale;
const charSpacing = current.charSpacing;
const wordSpacing = current.wordSpacing;
const fontDirection = current.fontDirection;
const textHScale = current.textHScale * fontDirection;
const vertical = font.vertical;
const spacingDir = vertical ? 1 : -1;
const defaultVMetrics = font.defaultVMetrics;
const widthAdvanceScale = fontSize * current.fontMatrix[0];
let x = 0;
for (const glyph of glyphs) {
if (glyph === null) {
// Word break
x += fontDirection * wordSpacing;
continue;
} else if (typeof glyph === "number") {
x += (spacingDir * glyph * fontSize) / 1000;
continue;
}
const spacing = (glyph.isSpace ? wordSpacing : 0) + charSpacing;
const character = glyph.fontChar;
let scaledX, scaledY;
let width = glyph.width;
if (vertical) {
let vx;
const vmetric = glyph.vmetric || defaultVMetrics;
vx = glyph.vmetric ? vmetric[1] : width * 0.5;
vx = -vx * widthAdvanceScale;
const vy = vmetric[2] * widthAdvanceScale;
width = vmetric ? -vmetric[0] : width;
scaledX = vx / fontSizeScale;
scaledY = (x + vy) / fontSizeScale;
} else {
scaledX = x / fontSizeScale;
scaledY = 0;
}
if (glyph.isInFont || font.missingFile) {
current.xcoords.push(current.x + scaledX);
if (vertical) {
current.ycoords.push(-current.y + scaledY);
}
current.tspan.textContent += character;
} else {
// TODO: To assist with text selection, we should replace the missing
// character with a space character if charWidth is not zero.
// But we cannot just do "character = ' '", because the ' ' character
// might actually map to a different glyph.
}
let charWidth;
if (vertical) {
charWidth = width * widthAdvanceScale - spacing * fontDirection;
} else {
charWidth = width * widthAdvanceScale + spacing * fontDirection;
}
x += charWidth;
}
current.tspan.setAttributeNS(
null,
"x",
current.xcoords.map(pf).join(" ")
);
if (vertical) {
current.tspan.setAttributeNS(
null,
"y",
current.ycoords.map(pf).join(" ")
);
} else {
current.tspan.setAttributeNS(null, "y", pf(-current.y));
}
if (vertical) {
current.y -= x;
} else {
current.x += x * textHScale;
}
current.tspan.setAttributeNS(null, "font-family", current.fontFamily);
current.tspan.setAttributeNS(
null,
"font-size",
`${pf(current.fontSize)}px`
);
if (current.fontStyle !== SVG_DEFAULTS.fontStyle) {
current.tspan.setAttributeNS(null, "font-style", current.fontStyle);
}
if (current.fontWeight !== SVG_DEFAULTS.fontWeight) {
current.tspan.setAttributeNS(null, "font-weight", current.fontWeight);
}
const fillStrokeMode =
current.textRenderingMode & TextRenderingMode.FILL_STROKE_MASK;
if (
fillStrokeMode === TextRenderingMode.FILL ||
fillStrokeMode === TextRenderingMode.FILL_STROKE
) {
if (current.fillColor !== SVG_DEFAULTS.fillColor) {
current.tspan.setAttributeNS(null, "fill", current.fillColor);
}
if (current.fillAlpha < 1) {
current.tspan.setAttributeNS(null, "fill-opacity", current.fillAlpha);
}
} else if (current.textRenderingMode === TextRenderingMode.ADD_TO_PATH) {
// Workaround for Firefox: We must set fill="transparent" because
// fill="none" would generate an empty clipping path.
current.tspan.setAttributeNS(null, "fill", "transparent");
} else {
current.tspan.setAttributeNS(null, "fill", "none");
}
if (
fillStrokeMode === TextRenderingMode.STROKE ||
fillStrokeMode === TextRenderingMode.FILL_STROKE
) {
const lineWidthScale = 1 / (current.textMatrixScale || 1);
this._setStrokeAttributes(current.tspan, lineWidthScale);
}
// Include the text rise in the text matrix since the `pm` function
// creates the SVG element's `translate` entry (work on a copy to avoid
// altering the original text matrix).
let textMatrix = current.textMatrix;
if (current.textRise !== 0) {
textMatrix = textMatrix.slice();
textMatrix[5] += current.textRise;
}
current.txtElement.setAttributeNS(
null,
"transform",
`${pm(textMatrix)} scale(${pf(textHScale)}, -1)`
);
current.txtElement.setAttributeNS(XML_NS, "xml:space", "preserve");
current.txtElement.appendChild(current.tspan);
current.txtgrp.appendChild(current.txtElement);
this._ensureTransformGroup().appendChild(current.txtElement);
}
setLeadingMoveText(x, y) {
this.setLeading(-y);
this.moveText(x, y);
}
addFontStyle(fontObj) {
if (!fontObj.data) {
throw new Error(
"addFontStyle: No font data available, " +
'ensure that the "fontExtraProperties" API parameter is set.'
);
}
if (!this.cssStyle) {
this.cssStyle = this.svgFactory.createElement("svg:style");
this.cssStyle.setAttributeNS(null, "type", "text/css");
this.defs.appendChild(this.cssStyle);
}
const url = createObjectURL(
fontObj.data,
fontObj.mimetype,
this.forceDataSchema
);
this.cssStyle.textContent +=
`@font-face { font-family: "${fontObj.loadedName}";` +
` src: url(${url}); }\n`;
}
setFont(details) {
const current = this.current;
const fontObj = this.commonObjs.get(details[0]);
let size = details[1];
current.font = fontObj;
if (
this.embedFonts &&
!fontObj.missingFile &&
!this.embeddedFonts[fontObj.loadedName]
) {
this.addFontStyle(fontObj);
this.embeddedFonts[fontObj.loadedName] = fontObj;
}
current.fontMatrix = fontObj.fontMatrix || FONT_IDENTITY_MATRIX;
let bold = "normal";
if (fontObj.black) {
bold = "900";
} else if (fontObj.bold) {
bold = "bold";
}
const italic = fontObj.italic ? "italic" : "normal";
if (size < 0) {
size = -size;
current.fontDirection = -1;
} else {
current.fontDirection = 1;
}
current.fontSize = size;
current.fontFamily = fontObj.loadedName;
current.fontWeight = bold;
current.fontStyle = italic;
current.tspan = this.svgFactory.createElement("svg:tspan");
current.tspan.setAttributeNS(null, "y", pf(-current.y));
current.xcoords = [];
current.ycoords = [];
}
endText() {
const current = this.current;
if (
current.textRenderingMode & TextRenderingMode.ADD_TO_PATH_FLAG &&
current.txtElement?.hasChildNodes()
) {
// If no glyphs are shown (i.e. no child nodes), no clipping occurs.
current.element = current.txtElement;
this.clip("nonzero");
this.endPath();
}
}
// Path properties
setLineWidth(width) {
if (width > 0) {
this.current.lineWidth = width;
}
}
setLineCap(style) {
this.current.lineCap = LINE_CAP_STYLES[style];
}
setLineJoin(style) {
this.current.lineJoin = LINE_JOIN_STYLES[style];
}
setMiterLimit(limit) {
this.current.miterLimit = limit;
}
setStrokeAlpha(strokeAlpha) {
this.current.strokeAlpha = strokeAlpha;
}
setStrokeRGBColor(r, g, b) {
this.current.strokeColor = Util.makeHexColor(r, g, b);
}
setFillAlpha(fillAlpha) {
this.current.fillAlpha = fillAlpha;
}
setFillRGBColor(r, g, b) {
this.current.fillColor = Util.makeHexColor(r, g, b);
this.current.tspan = this.svgFactory.createElement("svg:tspan");
this.current.xcoords = [];
this.current.ycoords = [];
}
setStrokeColorN(args) {
this.current.strokeColor = this._makeColorN_Pattern(args);
}
setFillColorN(args) {
this.current.fillColor = this._makeColorN_Pattern(args);
}
shadingFill(args) {
const width = this.viewport.width;
const height = this.viewport.height;
const inv = Util.inverseTransform(this.transformMatrix);
const bl = Util.applyTransform([0, 0], inv);
const br = Util.applyTransform([0, height], inv);
const ul = Util.applyTransform([width, 0], inv);
const ur = Util.applyTransform([width, height], inv);
const x0 = Math.min(bl[0], br[0], ul[0], ur[0]);
const y0 = Math.min(bl[1], br[1], ul[1], ur[1]);
const x1 = Math.max(bl[0], br[0], ul[0], ur[0]);
const y1 = Math.max(bl[1], br[1], ul[1], ur[1]);
const rect = this.svgFactory.createElement("svg:rect");
rect.setAttributeNS(null, "x", x0);
rect.setAttributeNS(null, "y", y0);
rect.setAttributeNS(null, "width", x1 - x0);
rect.setAttributeNS(null, "height", y1 - y0);
rect.setAttributeNS(null, "fill", this._makeShadingPattern(args));
if (this.current.fillAlpha < 1) {
rect.setAttributeNS(null, "fill-opacity", this.current.fillAlpha);
}
this._ensureTransformGroup().appendChild(rect);
}
/**
* @private
*/
_makeColorN_Pattern(args) {
if (args[0] === "TilingPattern") {
return this._makeTilingPattern(args);
}
return this._makeShadingPattern(args);
}
/**
* @private
*/
_makeTilingPattern(args) {
const color = args[1];
const operatorList = args[2];
const matrix = args[3] || IDENTITY_MATRIX;
const [x0, y0, x1, y1] = args[4];
const xstep = args[5];
const ystep = args[6];
const paintType = args[7];
const tilingId = `shading${shadingCount++}`;
const [tx0, ty0, tx1, ty1] = Util.normalizeRect([
...Util.applyTransform([x0, y0], matrix),
...Util.applyTransform([x1, y1], matrix),
]);
const [xscale, yscale] = Util.singularValueDecompose2dScale(matrix);
const txstep = xstep * xscale;
const tystep = ystep * yscale;
const tiling = this.svgFactory.createElement("svg:pattern");
tiling.setAttributeNS(null, "id", tilingId);
tiling.setAttributeNS(null, "patternUnits", "userSpaceOnUse");
tiling.setAttributeNS(null, "width", txstep);
tiling.setAttributeNS(null, "height", tystep);
tiling.setAttributeNS(null, "x", `${tx0}`);
tiling.setAttributeNS(null, "y", `${ty0}`);
// Save current state.
const svg = this.svg;
const transformMatrix = this.transformMatrix;
const fillColor = this.current.fillColor;
const strokeColor = this.current.strokeColor;
const bbox = this.svgFactory.create(tx1 - tx0, ty1 - ty0);
this.svg = bbox;
this.transformMatrix = matrix;
if (paintType === 2) {
const cssColor = Util.makeHexColor(...color);
this.current.fillColor = cssColor;
this.current.strokeColor = cssColor;
}
this.executeOpTree(this.convertOpList(operatorList));
// Restore saved state.
this.svg = svg;
this.transformMatrix = transformMatrix;
this.current.fillColor = fillColor;
this.current.strokeColor = strokeColor;
tiling.appendChild(bbox.childNodes[0]);
this.defs.appendChild(tiling);
return `url(#${tilingId})`;
}
/**
* @private
*/
_makeShadingPattern(args) {
if (typeof args === "string") {
args = this.objs.get(args);
}
switch (args[0]) {
case "RadialAxial":
const shadingId = `shading${shadingCount++}`;
const colorStops = args[3];
let gradient;
switch (args[1]) {
case "axial":
const point0 = args[4];
const point1 = args[5];
gradient = this.svgFactory.createElement("svg:linearGradient");
gradient.setAttributeNS(null, "id", shadingId);
gradient.setAttributeNS(null, "gradientUnits", "userSpaceOnUse");
gradient.setAttributeNS(null, "x1", point0[0]);
gradient.setAttributeNS(null, "y1", point0[1]);
gradient.setAttributeNS(null, "x2", point1[0]);
gradient.setAttributeNS(null, "y2", point1[1]);
break;
case "radial":
const focalPoint = args[4];
const circlePoint = args[5];
const focalRadius = args[6];
const circleRadius = args[7];
gradient = this.svgFactory.createElement("svg:radialGradient");
gradient.setAttributeNS(null, "id", shadingId);
gradient.setAttributeNS(null, "gradientUnits", "userSpaceOnUse");
gradient.setAttributeNS(null, "cx", circlePoint[0]);
gradient.setAttributeNS(null, "cy", circlePoint[1]);
gradient.setAttributeNS(null, "r", circleRadius);
gradient.setAttributeNS(null, "fx", focalPoint[0]);
gradient.setAttributeNS(null, "fy", focalPoint[1]);
gradient.setAttributeNS(null, "fr", focalRadius);
break;
default:
throw new Error(`Unknown RadialAxial type: ${args[1]}`);
}
for (const colorStop of colorStops) {
const stop = this.svgFactory.createElement("svg:stop");
stop.setAttributeNS(null, "offset", colorStop[0]);
stop.setAttributeNS(null, "stop-color", colorStop[1]);
gradient.appendChild(stop);
}
this.defs.appendChild(gradient);
return `url(#${shadingId})`;
case "Mesh":
warn("Unimplemented pattern Mesh");
return null;
case "Dummy":
return "hotpink";
default:
throw new Error(`Unknown IR type: ${args[0]}`);
}
}
setDash(dashArray, dashPhase) {
this.current.dashArray = dashArray;
this.current.dashPhase = dashPhase;
}
constructPath(ops, args) {
const current = this.current;
let x = current.x,
y = current.y;
let d = [];
let j = 0;
for (const op of ops) {
switch (op | 0) {
case OPS.rectangle:
x = args[j++];
y = args[j++];
const width = args[j++];
const height = args[j++];
const xw = x + width;
const yh = y + height;
d.push(
"M",
pf(x),
pf(y),
"L",
pf(xw),
pf(y),
"L",
pf(xw),
pf(yh),
"L",
pf(x),
pf(yh),
"Z"
);
break;
case OPS.moveTo:
x = args[j++];
y = args[j++];
d.push("M", pf(x), pf(y));
break;
case OPS.lineTo:
x = args[j++];
y = args[j++];
d.push("L", pf(x), pf(y));
break;
case OPS.curveTo:
x = args[j + 4];
y = args[j + 5];
d.push(
"C",
pf(args[j]),
pf(args[j + 1]),
pf(args[j + 2]),
pf(args[j + 3]),
pf(x),
pf(y)
);
j += 6;
break;
case OPS.curveTo2:
d.push(
"C",
pf(x),
pf(y),
pf(args[j]),
pf(args[j + 1]),
pf(args[j + 2]),
pf(args[j + 3])
);
x = args[j + 2];
y = args[j + 3];
j += 4;
break;
case OPS.curveTo3:
x = args[j + 2];
y = args[j + 3];
d.push(
"C",
pf(args[j]),
pf(args[j + 1]),
pf(x),
pf(y),
pf(x),
pf(y)
);
j += 4;
break;
case OPS.closePath:
d.push("Z");
break;
}
}
d = d.join(" ");
if (
current.path &&
ops.length > 0 &&
ops[0] !== OPS.rectangle &&
ops[0] !== OPS.moveTo
) {
// If a path does not start with an OPS.rectangle or OPS.moveTo, it has
// probably been divided into two OPS.constructPath operators by
// OperatorList. Append the commands to the previous path element.
d = current.path.getAttributeNS(null, "d") + d;
} else {
current.path = this.svgFactory.createElement("svg:path");
this._ensureTransformGroup().appendChild(current.path);
}
current.path.setAttributeNS(null, "d", d);
current.path.setAttributeNS(null, "fill", "none");
// Saving a reference in current.element so that it can be addressed
// in 'fill' and 'stroke'
current.element = current.path;
current.setCurrentPoint(x, y);
}
endPath() {
const current = this.current;
// Painting operators end a path.
current.path = null;
if (!this.pendingClip) {
return;
}
if (!current.element) {
this.pendingClip = null;
return;
}
// Add the current path to a clipping path.
const clipId = `clippath${clipCount++}`;
const clipPath = this.svgFactory.createElement("svg:clipPath");
clipPath.setAttributeNS(null, "id", clipId);
clipPath.setAttributeNS(null, "transform", pm(this.transformMatrix));
// A deep clone is needed when text is used as a clipping path.
const clipElement = current.element.cloneNode(true);
if (this.pendingClip === "evenodd") {
clipElement.setAttributeNS(null, "clip-rule", "evenodd");
} else {
clipElement.setAttributeNS(null, "clip-rule", "nonzero");
}
this.pendingClip = null;
clipPath.appendChild(clipElement);
this.defs.appendChild(clipPath);
if (current.activeClipUrl) {
// The previous clipping group content can go out of order -- resetting
// cached clipGroups.
current.clipGroup = null;
for (const prev of this.extraStack) {
prev.clipGroup = null;
}
// Intersect with the previous clipping path.
clipPath.setAttributeNS(null, "clip-path", current.activeClipUrl);
}
current.activeClipUrl = `url(#${clipId})`;
this.tgrp = null;
}
clip(type) {
this.pendingClip = type;
}
closePath() {
const current = this.current;
if (current.path) {
const d = `${current.path.getAttributeNS(null, "d")}Z`;
current.path.setAttributeNS(null, "d", d);
}
}
setLeading(leading) {
this.current.leading = -leading;
}
setTextRise(textRise) {
this.current.textRise = textRise;
}
setTextRenderingMode(textRenderingMode) {
this.current.textRenderingMode = textRenderingMode;
}
setHScale(scale) {
this.current.textHScale = scale / 100;
}
setRenderingIntent(intent) {
// This operation is ignored since we haven't found a use case for it yet.
}
setFlatness(flatness) {
// This operation is ignored since we haven't found a use case for it yet.
}
setGState(states) {
for (const [key, value] of states) {
switch (key) {
case "LW":
this.setLineWidth(value);
break;
case "LC":
this.setLineCap(value);
break;
case "LJ":
this.setLineJoin(value);
break;
case "ML":
this.setMiterLimit(value);
break;
case "D":
this.setDash(value[0], value[1]);
break;
case "RI":
this.setRenderingIntent(value);
break;
case "FL":
this.setFlatness(value);
break;
case "Font":
this.setFont(value);
break;
case "CA":
this.setStrokeAlpha(value);
break;
case "ca":
this.setFillAlpha(value);
break;
default:
warn(`Unimplemented graphic state operator ${key}`);
break;
}
}
}
fill() {
const current = this.current;
if (current.element) {
current.element.setAttributeNS(null, "fill", current.fillColor);
current.element.setAttributeNS(null, "fill-opacity", current.fillAlpha);
this.endPath();
}
}
stroke() {
const current = this.current;
if (current.element) {
this._setStrokeAttributes(current.element);
current.element.setAttributeNS(null, "fill", "none");
this.endPath();
}
}
/**
* @private
*/
_setStrokeAttributes(element, lineWidthScale = 1) {
const current = this.current;
let dashArray = current.dashArray;
if (lineWidthScale !== 1 && dashArray.length > 0) {
dashArray = dashArray.map(function (value) {
return lineWidthScale * value;
});
}
element.setAttributeNS(null, "stroke", current.strokeColor);
element.setAttributeNS(null, "stroke-opacity", current.strokeAlpha);
element.setAttributeNS(null, "stroke-miterlimit", pf(current.miterLimit));
element.setAttributeNS(null, "stroke-linecap", current.lineCap);
element.setAttributeNS(null, "stroke-linejoin", current.lineJoin);
element.setAttributeNS(
null,
"stroke-width",
pf(lineWidthScale * current.lineWidth) + "px"
);
element.setAttributeNS(
null,
"stroke-dasharray",
dashArray.map(pf).join(" ")
);
element.setAttributeNS(
null,
"stroke-dashoffset",
pf(lineWidthScale * current.dashPhase) + "px"
);
}
eoFill() {
if (this.current.element) {
this.current.element.setAttributeNS(null, "fill-rule", "evenodd");
}
this.fill();
}
fillStroke() {
// Order is important since stroke wants fill to be none.
// First stroke, then if fill needed, it will be overwritten.
this.stroke();
this.fill();
}
eoFillStroke() {
if (this.current.element) {
this.current.element.setAttributeNS(null, "fill-rule", "evenodd");
}
this.fillStroke();
}
closeStroke() {
this.closePath();
this.stroke();
}
closeFillStroke() {
this.closePath();
this.fillStroke();
}
closeEOFillStroke() {
this.closePath();
this.eoFillStroke();
}
paintSolidColorImageMask() {
const rect = this.svgFactory.createElement("svg:rect");
rect.setAttributeNS(null, "x", "0");
rect.setAttributeNS(null, "y", "0");
rect.setAttributeNS(null, "width", "1px");
rect.setAttributeNS(null, "height", "1px");
rect.setAttributeNS(null, "fill", this.current.fillColor);
this._ensureTransformGroup().appendChild(rect);
}
paintImageXObject(objId) {
const imgData = objId.startsWith("g_")
? this.commonObjs.get(objId)
: this.objs.get(objId);
if (!imgData) {
warn(`Dependent image with object ID ${objId} is not ready yet`);
return;
}
this.paintInlineImageXObject(imgData);
}
paintInlineImageXObject(imgData, mask) {
const width = imgData.width;
const height = imgData.height;
const imgSrc = convertImgDataToPng(imgData, this.forceDataSchema, !!mask);
const cliprect = this.svgFactory.createElement("svg:rect");
cliprect.setAttributeNS(null, "x", "0");
cliprect.setAttributeNS(null, "y", "0");
cliprect.setAttributeNS(null, "width", pf(width));
cliprect.setAttributeNS(null, "height", pf(height));
this.current.element = cliprect;
this.clip("nonzero");
const imgEl = this.svgFactory.createElement("svg:image");
imgEl.setAttributeNS(XLINK_NS, "xlink:href", imgSrc);
imgEl.setAttributeNS(null, "x", "0");
imgEl.setAttributeNS(null, "y", pf(-height));
imgEl.setAttributeNS(null, "width", pf(width) + "px");
imgEl.setAttributeNS(null, "height", pf(height) + "px");
imgEl.setAttributeNS(
null,
"transform",
`scale(${pf(1 / width)} ${pf(-1 / height)})`
);
if (mask) {
mask.appendChild(imgEl);
} else {
this._ensureTransformGroup().appendChild(imgEl);
}
}
paintImageMaskXObject(imgData) {
const current = this.current;
const width = imgData.width;
const height = imgData.height;
const fillColor = current.fillColor;
current.maskId = `mask${maskCount++}`;
const mask = this.svgFactory.createElement("svg:mask");
mask.setAttributeNS(null, "id", current.maskId);
const rect = this.svgFactory.createElement("svg:rect");
rect.setAttributeNS(null, "x", "0");
rect.setAttributeNS(null, "y", "0");
rect.setAttributeNS(null, "width", pf(width));
rect.setAttributeNS(null, "height", pf(height));
rect.setAttributeNS(null, "fill", fillColor);
rect.setAttributeNS(null, "mask", `url(#${current.maskId})`);
this.defs.appendChild(mask);
this._ensureTransformGroup().appendChild(rect);
this.paintInlineImageXObject(imgData, mask);
}
paintFormXObjectBegin(matrix, bbox) {
if (Array.isArray(matrix) && matrix.length === 6) {
this.transform(
matrix[0],
matrix[1],
matrix[2],
matrix[3],
matrix[4],
matrix[5]
);
}
if (bbox) {
const width = bbox[2] - bbox[0];
const height = bbox[3] - bbox[1];
const cliprect = this.svgFactory.createElement("svg:rect");
cliprect.setAttributeNS(null, "x", bbox[0]);
cliprect.setAttributeNS(null, "y", bbox[1]);
cliprect.setAttributeNS(null, "width", pf(width));
cliprect.setAttributeNS(null, "height", pf(height));
this.current.element = cliprect;
this.clip("nonzero");
this.endPath();
}
}
paintFormXObjectEnd() {}
/**
* @private
*/
_initialize(viewport) {
const svg = this.svgFactory.create(viewport.width, viewport.height);
// Create the definitions element.
const definitions = this.svgFactory.createElement("svg:defs");
svg.appendChild(definitions);
this.defs = definitions;
// Create the root group element, which acts a container for all other
// groups and applies the viewport transform.
const rootGroup = this.svgFactory.createElement("svg:g");
rootGroup.setAttributeNS(null, "transform", pm(viewport.transform));
svg.appendChild(rootGroup);
// For the construction of the SVG image we are only interested in the
// root group, so we expose it as the entry point of the SVG image for
// the other code in this class.
this.svg = rootGroup;
return svg;
}
/**
* @private
*/
_ensureClipGroup() {
if (!this.current.clipGroup) {
const clipGroup = this.svgFactory.createElement("svg:g");
clipGroup.setAttributeNS(null, "clip-path", this.current.activeClipUrl);
this.svg.appendChild(clipGroup);
this.current.clipGroup = clipGroup;
}
return this.current.clipGroup;
}
/**
* @private
*/
_ensureTransformGroup() {
if (!this.tgrp) {
this.tgrp = this.svgFactory.createElement("svg:g");
this.tgrp.setAttributeNS(null, "transform", pm(this.transformMatrix));
if (this.current.activeClipUrl) {
this._ensureClipGroup().appendChild(this.tgrp);
} else {
this.svg.appendChild(this.tgrp);
}
}
return this.tgrp;
}
};
}
export { SVGGraphics };
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