@azinformatica/pdfjs-dist
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Generic build of Mozilla's PDF.js library. (FORK)
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JavaScript
/**
* @licstart The following is the entire license notice for the
* Javascript code in this page
*
* Copyright 2021 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.
*
* @licend The above is the entire license notice for the
* Javascript code in this page
*/
"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.CanvasGraphics = void 0;
var _util = require("../shared/util.js");
var _pattern_helper = require("./pattern_helper.js");
const MIN_FONT_SIZE = 16;
const MAX_FONT_SIZE = 100;
const MAX_GROUP_SIZE = 4096;
const COMPILE_TYPE3_GLYPHS = true;
const MAX_SIZE_TO_COMPILE = 1000;
const FULL_CHUNK_HEIGHT = 16;
const LINEWIDTH_SCALE_FACTOR = 1.000001;
function addContextCurrentTransform(ctx) {
if (ctx.mozCurrentTransform) {
return;
}
ctx._originalSave = ctx.save;
ctx._originalRestore = ctx.restore;
ctx._originalRotate = ctx.rotate;
ctx._originalScale = ctx.scale;
ctx._originalTranslate = ctx.translate;
ctx._originalTransform = ctx.transform;
ctx._originalSetTransform = ctx.setTransform;
ctx._originalResetTransform = ctx.resetTransform;
ctx._transformMatrix = ctx._transformMatrix || [1, 0, 0, 1, 0, 0];
ctx._transformStack = [];
try {
const desc = Object.getOwnPropertyDescriptor(Object.getPrototypeOf(ctx), "lineWidth");
ctx._setLineWidth = desc.set;
ctx._getLineWidth = desc.get;
Object.defineProperty(ctx, "lineWidth", {
set: function setLineWidth(width) {
this._setLineWidth(width * LINEWIDTH_SCALE_FACTOR);
},
get: function getLineWidth() {
return this._getLineWidth();
}
});
} catch (_) {}
Object.defineProperty(ctx, "mozCurrentTransform", {
get: function getCurrentTransform() {
return this._transformMatrix;
}
});
Object.defineProperty(ctx, "mozCurrentTransformInverse", {
get: function getCurrentTransformInverse() {
const [a, b, c, d, e, f] = this._transformMatrix;
const ad_bc = a * d - b * c;
const bc_ad = b * c - a * d;
return [d / ad_bc, b / bc_ad, c / bc_ad, a / ad_bc, (d * e - c * f) / bc_ad, (b * e - a * f) / ad_bc];
}
});
ctx.save = function ctxSave() {
const old = this._transformMatrix;
this._transformStack.push(old);
this._transformMatrix = old.slice(0, 6);
this._originalSave();
};
ctx.restore = function ctxRestore() {
const prev = this._transformStack.pop();
if (prev) {
this._transformMatrix = prev;
this._originalRestore();
}
};
ctx.translate = function ctxTranslate(x, y) {
const m = this._transformMatrix;
m[4] = m[0] * x + m[2] * y + m[4];
m[5] = m[1] * x + m[3] * y + m[5];
this._originalTranslate(x, y);
};
ctx.scale = function ctxScale(x, y) {
const m = this._transformMatrix;
m[0] *= x;
m[1] *= x;
m[2] *= y;
m[3] *= y;
this._originalScale(x, y);
};
ctx.transform = function ctxTransform(a, b, c, d, e, f) {
const m = this._transformMatrix;
this._transformMatrix = [m[0] * a + m[2] * b, m[1] * a + m[3] * b, m[0] * c + m[2] * d, m[1] * c + m[3] * d, m[0] * e + m[2] * f + m[4], m[1] * e + m[3] * f + m[5]];
ctx._originalTransform(a, b, c, d, e, f);
};
ctx.setTransform = function ctxSetTransform(a, b, c, d, e, f) {
this._transformMatrix = [a, b, c, d, e, f];
ctx._originalSetTransform(a, b, c, d, e, f);
};
ctx.resetTransform = function ctxResetTransform() {
this._transformMatrix = [1, 0, 0, 1, 0, 0];
ctx._originalResetTransform();
};
ctx.rotate = function ctxRotate(angle) {
const cosValue = Math.cos(angle);
const sinValue = Math.sin(angle);
const m = this._transformMatrix;
this._transformMatrix = [m[0] * cosValue + m[2] * sinValue, m[1] * cosValue + m[3] * sinValue, m[0] * -sinValue + m[2] * cosValue, m[1] * -sinValue + m[3] * cosValue, m[4], m[5]];
this._originalRotate(angle);
};
}
class CachedCanvases {
constructor(canvasFactory) {
this.canvasFactory = canvasFactory;
this.cache = Object.create(null);
}
getCanvas(id, width, height, trackTransform) {
let canvasEntry;
if (this.cache[id] !== undefined) {
canvasEntry = this.cache[id];
this.canvasFactory.reset(canvasEntry, width, height);
canvasEntry.context.setTransform(1, 0, 0, 1, 0, 0);
} else {
canvasEntry = this.canvasFactory.create(width, height);
this.cache[id] = canvasEntry;
}
if (trackTransform) {
addContextCurrentTransform(canvasEntry.context);
}
return canvasEntry;
}
clear() {
for (const id in this.cache) {
const canvasEntry = this.cache[id];
this.canvasFactory.destroy(canvasEntry);
delete this.cache[id];
}
}
}
function compileType3Glyph(imgData) {
const POINT_TO_PROCESS_LIMIT = 1000;
const POINT_TYPES = new Uint8Array([0, 2, 4, 0, 1, 0, 5, 4, 8, 10, 0, 8, 0, 2, 1, 0]);
const width = imgData.width,
height = imgData.height,
width1 = width + 1;
let i, ii, j, j0;
const points = new Uint8Array(width1 * (height + 1));
const lineSize = width + 7 & ~7,
data0 = imgData.data;
const data = new Uint8Array(lineSize * height);
let pos = 0;
for (i = 0, ii = data0.length; i < ii; i++) {
const elem = data0[i];
let mask = 128;
while (mask > 0) {
data[pos++] = elem & mask ? 0 : 255;
mask >>= 1;
}
}
let count = 0;
pos = 0;
if (data[pos] !== 0) {
points[0] = 1;
++count;
}
for (j = 1; j < width; j++) {
if (data[pos] !== data[pos + 1]) {
points[j] = data[pos] ? 2 : 1;
++count;
}
pos++;
}
if (data[pos] !== 0) {
points[j] = 2;
++count;
}
for (i = 1; i < height; i++) {
pos = i * lineSize;
j0 = i * width1;
if (data[pos - lineSize] !== data[pos]) {
points[j0] = data[pos] ? 1 : 8;
++count;
}
let sum = (data[pos] ? 4 : 0) + (data[pos - lineSize] ? 8 : 0);
for (j = 1; j < width; j++) {
sum = (sum >> 2) + (data[pos + 1] ? 4 : 0) + (data[pos - lineSize + 1] ? 8 : 0);
if (POINT_TYPES[sum]) {
points[j0 + j] = POINT_TYPES[sum];
++count;
}
pos++;
}
if (data[pos - lineSize] !== data[pos]) {
points[j0 + j] = data[pos] ? 2 : 4;
++count;
}
if (count > POINT_TO_PROCESS_LIMIT) {
return null;
}
}
pos = lineSize * (height - 1);
j0 = i * width1;
if (data[pos] !== 0) {
points[j0] = 8;
++count;
}
for (j = 1; j < width; j++) {
if (data[pos] !== data[pos + 1]) {
points[j0 + j] = data[pos] ? 4 : 8;
++count;
}
pos++;
}
if (data[pos] !== 0) {
points[j0 + j] = 4;
++count;
}
if (count > POINT_TO_PROCESS_LIMIT) {
return null;
}
const steps = new Int32Array([0, width1, -1, 0, -width1, 0, 0, 0, 1]);
const outlines = [];
for (i = 0; count && i <= height; i++) {
let p = i * width1;
const end = p + width;
while (p < end && !points[p]) {
p++;
}
if (p === end) {
continue;
}
const coords = [p % width1, i];
const p0 = p;
let type = points[p];
do {
const step = steps[type];
do {
p += step;
} while (!points[p]);
const pp = points[p];
if (pp !== 5 && pp !== 10) {
type = pp;
points[p] = 0;
} else {
type = pp & 0x33 * type >> 4;
points[p] &= type >> 2 | type << 2;
}
coords.push(p % width1, p / width1 | 0);
if (!points[p]) {
--count;
}
} while (p0 !== p);
outlines.push(coords);
--i;
}
const drawOutline = function (c) {
c.save();
c.scale(1 / width, -1 / height);
c.translate(0, -height);
c.beginPath();
for (let k = 0, kk = outlines.length; k < kk; k++) {
const o = outlines[k];
c.moveTo(o[0], o[1]);
for (let l = 2, ll = o.length; l < ll; l += 2) {
c.lineTo(o[l], o[l + 1]);
}
}
c.fill();
c.beginPath();
c.restore();
};
return drawOutline;
}
class CanvasExtraState {
constructor() {
this.alphaIsShape = false;
this.fontSize = 0;
this.fontSizeScale = 1;
this.textMatrix = _util.IDENTITY_MATRIX;
this.textMatrixScale = 1;
this.fontMatrix = _util.FONT_IDENTITY_MATRIX;
this.leading = 0;
this.x = 0;
this.y = 0;
this.lineX = 0;
this.lineY = 0;
this.charSpacing = 0;
this.wordSpacing = 0;
this.textHScale = 1;
this.textRenderingMode = _util.TextRenderingMode.FILL;
this.textRise = 0;
this.fillColor = "#000000";
this.strokeColor = "#000000";
this.patternFill = false;
this.fillAlpha = 1;
this.strokeAlpha = 1;
this.lineWidth = 1;
this.activeSMask = null;
this.resumeSMaskCtx = null;
this.transferMaps = null;
}
clone() {
return Object.create(this);
}
setCurrentPoint(x, y) {
this.x = x;
this.y = y;
}
}
const CanvasGraphics = function CanvasGraphicsClosure() {
const EXECUTION_TIME = 15;
const EXECUTION_STEPS = 10;
function putBinaryImageData(ctx, imgData, transferMaps = null) {
if (typeof ImageData !== "undefined" && imgData instanceof ImageData) {
ctx.putImageData(imgData, 0, 0);
return;
}
const height = imgData.height,
width = imgData.width;
const partialChunkHeight = height % FULL_CHUNK_HEIGHT;
const fullChunks = (height - partialChunkHeight) / FULL_CHUNK_HEIGHT;
const totalChunks = partialChunkHeight === 0 ? fullChunks : fullChunks + 1;
const chunkImgData = ctx.createImageData(width, FULL_CHUNK_HEIGHT);
let srcPos = 0,
destPos;
const src = imgData.data;
const dest = chunkImgData.data;
let i, j, thisChunkHeight, elemsInThisChunk;
let transferMapRed, transferMapGreen, transferMapBlue, transferMapGray;
if (transferMaps) {
switch (transferMaps.length) {
case 1:
transferMapRed = transferMaps[0];
transferMapGreen = transferMaps[0];
transferMapBlue = transferMaps[0];
transferMapGray = transferMaps[0];
break;
case 4:
transferMapRed = transferMaps[0];
transferMapGreen = transferMaps[1];
transferMapBlue = transferMaps[2];
transferMapGray = transferMaps[3];
break;
}
}
if (imgData.kind === _util.ImageKind.GRAYSCALE_1BPP) {
const srcLength = src.byteLength;
const dest32 = new Uint32Array(dest.buffer, 0, dest.byteLength >> 2);
const dest32DataLength = dest32.length;
const fullSrcDiff = width + 7 >> 3;
let white = 0xffffffff;
let black = _util.IsLittleEndianCached.value ? 0xff000000 : 0x000000ff;
if (transferMapGray) {
if (transferMapGray[0] === 0xff && transferMapGray[0xff] === 0) {
[white, black] = [black, white];
}
}
for (i = 0; i < totalChunks; i++) {
thisChunkHeight = i < fullChunks ? FULL_CHUNK_HEIGHT : partialChunkHeight;
destPos = 0;
for (j = 0; j < thisChunkHeight; j++) {
const srcDiff = srcLength - srcPos;
let k = 0;
const kEnd = srcDiff > fullSrcDiff ? width : srcDiff * 8 - 7;
const kEndUnrolled = kEnd & ~7;
let mask = 0;
let srcByte = 0;
for (; k < kEndUnrolled; k += 8) {
srcByte = src[srcPos++];
dest32[destPos++] = srcByte & 128 ? white : black;
dest32[destPos++] = srcByte & 64 ? white : black;
dest32[destPos++] = srcByte & 32 ? white : black;
dest32[destPos++] = srcByte & 16 ? white : black;
dest32[destPos++] = srcByte & 8 ? white : black;
dest32[destPos++] = srcByte & 4 ? white : black;
dest32[destPos++] = srcByte & 2 ? white : black;
dest32[destPos++] = srcByte & 1 ? white : black;
}
for (; k < kEnd; k++) {
if (mask === 0) {
srcByte = src[srcPos++];
mask = 128;
}
dest32[destPos++] = srcByte & mask ? white : black;
mask >>= 1;
}
}
while (destPos < dest32DataLength) {
dest32[destPos++] = 0;
}
ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);
}
} else if (imgData.kind === _util.ImageKind.RGBA_32BPP) {
const hasTransferMaps = !!(transferMapRed || transferMapGreen || transferMapBlue);
j = 0;
elemsInThisChunk = width * FULL_CHUNK_HEIGHT * 4;
for (i = 0; i < fullChunks; i++) {
dest.set(src.subarray(srcPos, srcPos + elemsInThisChunk));
srcPos += elemsInThisChunk;
if (hasTransferMaps) {
for (let k = 0; k < elemsInThisChunk; k += 4) {
if (transferMapRed) {
dest[k + 0] = transferMapRed[dest[k + 0]];
}
if (transferMapGreen) {
dest[k + 1] = transferMapGreen[dest[k + 1]];
}
if (transferMapBlue) {
dest[k + 2] = transferMapBlue[dest[k + 2]];
}
}
}
ctx.putImageData(chunkImgData, 0, j);
j += FULL_CHUNK_HEIGHT;
}
if (i < totalChunks) {
elemsInThisChunk = width * partialChunkHeight * 4;
dest.set(src.subarray(srcPos, srcPos + elemsInThisChunk));
if (hasTransferMaps) {
for (let k = 0; k < elemsInThisChunk; k += 4) {
if (transferMapRed) {
dest[k + 0] = transferMapRed[dest[k + 0]];
}
if (transferMapGreen) {
dest[k + 1] = transferMapGreen[dest[k + 1]];
}
if (transferMapBlue) {
dest[k + 2] = transferMapBlue[dest[k + 2]];
}
}
}
ctx.putImageData(chunkImgData, 0, j);
}
} else if (imgData.kind === _util.ImageKind.RGB_24BPP) {
const hasTransferMaps = !!(transferMapRed || transferMapGreen || transferMapBlue);
thisChunkHeight = FULL_CHUNK_HEIGHT;
elemsInThisChunk = width * thisChunkHeight;
for (i = 0; i < totalChunks; i++) {
if (i >= fullChunks) {
thisChunkHeight = partialChunkHeight;
elemsInThisChunk = width * thisChunkHeight;
}
destPos = 0;
for (j = elemsInThisChunk; j--;) {
dest[destPos++] = src[srcPos++];
dest[destPos++] = src[srcPos++];
dest[destPos++] = src[srcPos++];
dest[destPos++] = 255;
}
if (hasTransferMaps) {
for (let k = 0; k < destPos; k += 4) {
if (transferMapRed) {
dest[k + 0] = transferMapRed[dest[k + 0]];
}
if (transferMapGreen) {
dest[k + 1] = transferMapGreen[dest[k + 1]];
}
if (transferMapBlue) {
dest[k + 2] = transferMapBlue[dest[k + 2]];
}
}
}
ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);
}
} else {
throw new Error(`bad image kind: ${imgData.kind}`);
}
}
function putBinaryImageMask(ctx, imgData) {
const height = imgData.height,
width = imgData.width;
const partialChunkHeight = height % FULL_CHUNK_HEIGHT;
const fullChunks = (height - partialChunkHeight) / FULL_CHUNK_HEIGHT;
const totalChunks = partialChunkHeight === 0 ? fullChunks : fullChunks + 1;
const chunkImgData = ctx.createImageData(width, FULL_CHUNK_HEIGHT);
let srcPos = 0;
const src = imgData.data;
const dest = chunkImgData.data;
for (let i = 0; i < totalChunks; i++) {
const thisChunkHeight = i < fullChunks ? FULL_CHUNK_HEIGHT : partialChunkHeight;
let destPos = 3;
for (let j = 0; j < thisChunkHeight; j++) {
let elem,
mask = 0;
for (let k = 0; k < width; k++) {
if (!mask) {
elem = src[srcPos++];
mask = 128;
}
dest[destPos] = elem & mask ? 0 : 255;
destPos += 4;
mask >>= 1;
}
}
ctx.putImageData(chunkImgData, 0, i * FULL_CHUNK_HEIGHT);
}
}
function copyCtxState(sourceCtx, destCtx) {
const properties = ["strokeStyle", "fillStyle", "fillRule", "globalAlpha", "lineWidth", "lineCap", "lineJoin", "miterLimit", "globalCompositeOperation", "font"];
for (let i = 0, ii = properties.length; i < ii; i++) {
const property = properties[i];
if (sourceCtx[property] !== undefined) {
destCtx[property] = sourceCtx[property];
}
}
if (sourceCtx.setLineDash !== undefined) {
destCtx.setLineDash(sourceCtx.getLineDash());
destCtx.lineDashOffset = sourceCtx.lineDashOffset;
}
}
function resetCtxToDefault(ctx) {
ctx.strokeStyle = "#000000";
ctx.fillStyle = "#000000";
ctx.fillRule = "nonzero";
ctx.globalAlpha = 1;
ctx.lineWidth = 1;
ctx.lineCap = "butt";
ctx.lineJoin = "miter";
ctx.miterLimit = 10;
ctx.globalCompositeOperation = "source-over";
ctx.font = "10px sans-serif";
if (ctx.setLineDash !== undefined) {
ctx.setLineDash([]);
ctx.lineDashOffset = 0;
}
}
function composeSMaskBackdrop(bytes, r0, g0, b0) {
const length = bytes.length;
for (let i = 3; i < length; i += 4) {
const alpha = bytes[i];
if (alpha === 0) {
bytes[i - 3] = r0;
bytes[i - 2] = g0;
bytes[i - 1] = b0;
} else if (alpha < 255) {
const alpha_ = 255 - alpha;
bytes[i - 3] = bytes[i - 3] * alpha + r0 * alpha_ >> 8;
bytes[i - 2] = bytes[i - 2] * alpha + g0 * alpha_ >> 8;
bytes[i - 1] = bytes[i - 1] * alpha + b0 * alpha_ >> 8;
}
}
}
function composeSMaskAlpha(maskData, layerData, transferMap) {
const length = maskData.length;
const scale = 1 / 255;
for (let i = 3; i < length; i += 4) {
const alpha = transferMap ? transferMap[maskData[i]] : maskData[i];
layerData[i] = layerData[i] * alpha * scale | 0;
}
}
function composeSMaskLuminosity(maskData, layerData, transferMap) {
const length = maskData.length;
for (let i = 3; i < length; i += 4) {
const y = maskData[i - 3] * 77 + maskData[i - 2] * 152 + maskData[i - 1] * 28;
layerData[i] = transferMap ? layerData[i] * transferMap[y >> 8] >> 8 : layerData[i] * y >> 16;
}
}
function genericComposeSMask(maskCtx, layerCtx, width, height, subtype, backdrop, transferMap) {
const hasBackdrop = !!backdrop;
const r0 = hasBackdrop ? backdrop[0] : 0;
const g0 = hasBackdrop ? backdrop[1] : 0;
const b0 = hasBackdrop ? backdrop[2] : 0;
let composeFn;
if (subtype === "Luminosity") {
composeFn = composeSMaskLuminosity;
} else {
composeFn = composeSMaskAlpha;
}
const PIXELS_TO_PROCESS = 1048576;
const chunkSize = Math.min(height, Math.ceil(PIXELS_TO_PROCESS / width));
for (let row = 0; row < height; row += chunkSize) {
const chunkHeight = Math.min(chunkSize, height - row);
const maskData = maskCtx.getImageData(0, row, width, chunkHeight);
const layerData = layerCtx.getImageData(0, row, width, chunkHeight);
if (hasBackdrop) {
composeSMaskBackdrop(maskData.data, r0, g0, b0);
}
composeFn(maskData.data, layerData.data, transferMap);
maskCtx.putImageData(layerData, 0, row);
}
}
function composeSMask(ctx, smask, layerCtx) {
const mask = smask.canvas;
const maskCtx = smask.context;
ctx.setTransform(smask.scaleX, 0, 0, smask.scaleY, smask.offsetX, smask.offsetY);
genericComposeSMask(maskCtx, layerCtx, mask.width, mask.height, smask.subtype, smask.backdrop, smask.transferMap);
ctx.drawImage(mask, 0, 0);
}
const LINE_CAP_STYLES = ["butt", "round", "square"];
const LINE_JOIN_STYLES = ["miter", "round", "bevel"];
const NORMAL_CLIP = {};
const EO_CLIP = {};
class CanvasGraphics {
constructor(canvasCtx, commonObjs, objs, canvasFactory, imageLayer, optionalContentConfig) {
this.ctx = canvasCtx;
this.current = new CanvasExtraState();
this.stateStack = [];
this.pendingClip = null;
this.pendingEOFill = false;
this.res = null;
this.xobjs = null;
this.commonObjs = commonObjs;
this.objs = objs;
this.canvasFactory = canvasFactory;
this.imageLayer = imageLayer;
this.groupStack = [];
this.processingType3 = null;
this.baseTransform = null;
this.baseTransformStack = [];
this.groupLevel = 0;
this.smaskStack = [];
this.smaskCounter = 0;
this.tempSMask = null;
this.contentVisible = true;
this.markedContentStack = [];
this.optionalContentConfig = optionalContentConfig;
this.cachedCanvases = new CachedCanvases(this.canvasFactory);
this.cachedPatterns = new Map();
if (canvasCtx) {
addContextCurrentTransform(canvasCtx);
}
this._cachedGetSinglePixelWidth = null;
}
beginDrawing({
transform,
viewport,
transparency = false,
background = null
}) {
const width = this.ctx.canvas.width;
const height = this.ctx.canvas.height;
this.ctx.save();
this.ctx.fillStyle = background || "rgb(255, 255, 255)";
this.ctx.fillRect(0, 0, width, height);
this.ctx.restore();
if (transparency) {
const transparentCanvas = this.cachedCanvases.getCanvas("transparent", width, height, true);
this.compositeCtx = this.ctx;
this.transparentCanvas = transparentCanvas.canvas;
this.ctx = transparentCanvas.context;
this.ctx.save();
this.ctx.transform.apply(this.ctx, this.compositeCtx.mozCurrentTransform);
}
this.ctx.save();
resetCtxToDefault(this.ctx);
if (transform) {
this.ctx.transform.apply(this.ctx, transform);
}
this.ctx.transform.apply(this.ctx, viewport.transform);
this.baseTransform = this.ctx.mozCurrentTransform.slice();
this._combinedScaleFactor = Math.hypot(this.baseTransform[0], this.baseTransform[2]);
if (this.imageLayer) {
this.imageLayer.beginLayout();
}
}
executeOperatorList(operatorList, executionStartIdx, continueCallback, stepper) {
const argsArray = operatorList.argsArray;
const fnArray = operatorList.fnArray;
let i = executionStartIdx || 0;
const argsArrayLen = argsArray.length;
if (argsArrayLen === i) {
return i;
}
const chunkOperations = argsArrayLen - i > EXECUTION_STEPS && typeof continueCallback === "function";
const endTime = chunkOperations ? Date.now() + EXECUTION_TIME : 0;
let steps = 0;
const commonObjs = this.commonObjs;
const objs = this.objs;
let fnId;
while (true) {
if (stepper !== undefined && i === stepper.nextBreakPoint) {
stepper.breakIt(i, continueCallback);
return i;
}
fnId = fnArray[i];
if (fnId !== _util.OPS.dependency) {
this[fnId].apply(this, argsArray[i]);
} else {
for (const depObjId of argsArray[i]) {
const objsPool = depObjId.startsWith("g_") ? commonObjs : objs;
if (!objsPool.has(depObjId)) {
objsPool.get(depObjId, continueCallback);
return i;
}
}
}
i++;
if (i === argsArrayLen) {
return i;
}
if (chunkOperations && ++steps > EXECUTION_STEPS) {
if (Date.now() > endTime) {
continueCallback();
return i;
}
steps = 0;
}
}
}
endDrawing() {
while (this.stateStack.length || this.current.activeSMask !== null) {
this.restore();
}
this.ctx.restore();
if (this.transparentCanvas) {
this.ctx = this.compositeCtx;
this.ctx.save();
this.ctx.setTransform(1, 0, 0, 1, 0, 0);
this.ctx.drawImage(this.transparentCanvas, 0, 0);
this.ctx.restore();
this.transparentCanvas = null;
}
this.cachedCanvases.clear();
this.cachedPatterns.clear();
if (this.imageLayer) {
this.imageLayer.endLayout();
}
}
_scaleImage(img, inverseTransform) {
const width = img.width;
const height = img.height;
let widthScale = Math.max(Math.hypot(inverseTransform[0], inverseTransform[1]), 1);
let heightScale = Math.max(Math.hypot(inverseTransform[2], inverseTransform[3]), 1);
let paintWidth = width,
paintHeight = height;
let tmpCanvasId = "prescale1";
let tmpCanvas, tmpCtx;
while (widthScale > 2 && paintWidth > 1 || heightScale > 2 && paintHeight > 1) {
let newWidth = paintWidth,
newHeight = paintHeight;
if (widthScale > 2 && paintWidth > 1) {
newWidth = Math.ceil(paintWidth / 2);
widthScale /= paintWidth / newWidth;
}
if (heightScale > 2 && paintHeight > 1) {
newHeight = Math.ceil(paintHeight / 2);
heightScale /= paintHeight / newHeight;
}
tmpCanvas = this.cachedCanvases.getCanvas(tmpCanvasId, newWidth, newHeight);
tmpCtx = tmpCanvas.context;
tmpCtx.clearRect(0, 0, newWidth, newHeight);
tmpCtx.drawImage(img, 0, 0, paintWidth, paintHeight, 0, 0, newWidth, newHeight);
img = tmpCanvas.canvas;
paintWidth = newWidth;
paintHeight = newHeight;
tmpCanvasId = tmpCanvasId === "prescale1" ? "prescale2" : "prescale1";
}
return {
img,
paintWidth,
paintHeight
};
}
_createMaskCanvas(img) {
const ctx = this.ctx;
const width = img.width,
height = img.height;
const fillColor = this.current.fillColor;
const isPatternFill = this.current.patternFill;
const maskCanvas = this.cachedCanvases.getCanvas("maskCanvas", width, height);
const maskCtx = maskCanvas.context;
putBinaryImageMask(maskCtx, img);
const objToCanvas = ctx.mozCurrentTransform;
let maskToCanvas = _util.Util.transform(objToCanvas, [1 / width, 0, 0, -1 / height, 0, 0]);
maskToCanvas = _util.Util.transform(maskToCanvas, [1, 0, 0, 1, 0, -height]);
const cord1 = _util.Util.applyTransform([0, 0], maskToCanvas);
const cord2 = _util.Util.applyTransform([width, height], maskToCanvas);
const rect = _util.Util.normalizeRect([cord1[0], cord1[1], cord2[0], cord2[1]]);
const drawnWidth = Math.ceil(rect[2] - rect[0]);
const drawnHeight = Math.ceil(rect[3] - rect[1]);
const fillCanvas = this.cachedCanvases.getCanvas("fillCanvas", drawnWidth, drawnHeight, true);
const fillCtx = fillCanvas.context;
const offsetX = Math.min(cord1[0], cord2[0]);
const offsetY = Math.min(cord1[1], cord2[1]);
fillCtx.translate(-offsetX, -offsetY);
fillCtx.transform.apply(fillCtx, maskToCanvas);
const scaled = this._scaleImage(maskCanvas.canvas, fillCtx.mozCurrentTransformInverse);
fillCtx.drawImage(scaled.img, 0, 0, scaled.img.width, scaled.img.height, 0, 0, width, height);
fillCtx.globalCompositeOperation = "source-in";
const inverse = _util.Util.transform(fillCtx.mozCurrentTransformInverse, [1, 0, 0, 1, -offsetX, -offsetY]);
fillCtx.fillStyle = isPatternFill ? fillColor.getPattern(ctx, this, inverse, false) : fillColor;
fillCtx.fillRect(0, 0, width, height);
return {
canvas: fillCanvas.canvas,
offsetX: Math.round(offsetX),
offsetY: Math.round(offsetY)
};
}
setLineWidth(width) {
this.current.lineWidth = width;
this.ctx.lineWidth = width;
}
setLineCap(style) {
this.ctx.lineCap = LINE_CAP_STYLES[style];
}
setLineJoin(style) {
this.ctx.lineJoin = LINE_JOIN_STYLES[style];
}
setMiterLimit(limit) {
this.ctx.miterLimit = limit;
}
setDash(dashArray, dashPhase) {
const ctx = this.ctx;
if (ctx.setLineDash !== undefined) {
ctx.setLineDash(dashArray);
ctx.lineDashOffset = dashPhase;
}
}
setRenderingIntent(intent) {}
setFlatness(flatness) {}
setGState(states) {
for (let i = 0, ii = states.length; i < ii; i++) {
const state = states[i];
const key = state[0];
const value = state[1];
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[0], value[1]);
break;
case "CA":
this.current.strokeAlpha = state[1];
break;
case "ca":
this.current.fillAlpha = state[1];
this.ctx.globalAlpha = state[1];
break;
case "BM":
this.ctx.globalCompositeOperation = value;
break;
case "SMask":
if (this.current.activeSMask) {
if (this.stateStack.length > 0 && this.stateStack[this.stateStack.length - 1].activeSMask === this.current.activeSMask) {
this.suspendSMaskGroup();
} else {
this.endSMaskGroup();
}
}
this.current.activeSMask = value ? this.tempSMask : null;
if (this.current.activeSMask) {
this.beginSMaskGroup();
}
this.tempSMask = null;
break;
case "TR":
this.current.transferMaps = value;
}
}
}
beginSMaskGroup() {
const activeSMask = this.current.activeSMask;
const drawnWidth = activeSMask.canvas.width;
const drawnHeight = activeSMask.canvas.height;
const cacheId = "smaskGroupAt" + this.groupLevel;
const scratchCanvas = this.cachedCanvases.getCanvas(cacheId, drawnWidth, drawnHeight, true);
const currentCtx = this.ctx;
const currentTransform = currentCtx.mozCurrentTransform;
this.ctx.save();
const groupCtx = scratchCanvas.context;
groupCtx.scale(1 / activeSMask.scaleX, 1 / activeSMask.scaleY);
groupCtx.translate(-activeSMask.offsetX, -activeSMask.offsetY);
groupCtx.transform.apply(groupCtx, currentTransform);
activeSMask.startTransformInverse = groupCtx.mozCurrentTransformInverse;
copyCtxState(currentCtx, groupCtx);
this.ctx = groupCtx;
this.setGState([["BM", "source-over"], ["ca", 1], ["CA", 1]]);
this.groupStack.push(currentCtx);
this.groupLevel++;
}
suspendSMaskGroup() {
const groupCtx = this.ctx;
this.groupLevel--;
this.ctx = this.groupStack.pop();
composeSMask(this.ctx, this.current.activeSMask, groupCtx);
this.ctx.restore();
this.ctx.save();
copyCtxState(groupCtx, this.ctx);
this.current.resumeSMaskCtx = groupCtx;
const deltaTransform = _util.Util.transform(this.current.activeSMask.startTransformInverse, groupCtx.mozCurrentTransform);
this.ctx.transform.apply(this.ctx, deltaTransform);
groupCtx.save();
groupCtx.setTransform(1, 0, 0, 1, 0, 0);
groupCtx.clearRect(0, 0, groupCtx.canvas.width, groupCtx.canvas.height);
groupCtx.restore();
}
resumeSMaskGroup() {
const groupCtx = this.current.resumeSMaskCtx;
const currentCtx = this.ctx;
this.ctx = groupCtx;
this.groupStack.push(currentCtx);
this.groupLevel++;
}
endSMaskGroup() {
const groupCtx = this.ctx;
this.groupLevel--;
this.ctx = this.groupStack.pop();
composeSMask(this.ctx, this.current.activeSMask, groupCtx);
this.ctx.restore();
copyCtxState(groupCtx, this.ctx);
const deltaTransform = _util.Util.transform(this.current.activeSMask.startTransformInverse, groupCtx.mozCurrentTransform);
this.ctx.transform.apply(this.ctx, deltaTransform);
}
save() {
this.ctx.save();
const old = this.current;
this.stateStack.push(old);
this.current = old.clone();
this.current.resumeSMaskCtx = null;
}
restore() {
if (this.current.resumeSMaskCtx) {
this.resumeSMaskGroup();
}
if (this.current.activeSMask !== null && (this.stateStack.length === 0 || this.stateStack[this.stateStack.length - 1].activeSMask !== this.current.activeSMask)) {
this.endSMaskGroup();
}
if (this.stateStack.length !== 0) {
this.current = this.stateStack.pop();
this.ctx.restore();
this.pendingClip = null;
this._cachedGetSinglePixelWidth = null;
} else {
this.current.activeSMask = null;
}
}
transform(a, b, c, d, e, f) {
this.ctx.transform(a, b, c, d, e, f);
this._cachedGetSinglePixelWidth = null;
}
constructPath(ops, args) {
const ctx = this.ctx;
const current = this.current;
let x = current.x,
y = current.y;
for (let i = 0, j = 0, ii = ops.length; i < ii; i++) {
switch (ops[i] | 0) {
case _util.OPS.rectangle:
x = args[j++];
y = args[j++];
const width = args[j++];
const height = args[j++];
const xw = x + width;
const yh = y + height;
ctx.moveTo(x, y);
if (width === 0 || height === 0) {
ctx.lineTo(xw, yh);
} else {
ctx.lineTo(xw, y);
ctx.lineTo(xw, yh);
ctx.lineTo(x, yh);
}
ctx.closePath();
break;
case _util.OPS.moveTo:
x = args[j++];
y = args[j++];
ctx.moveTo(x, y);
break;
case _util.OPS.lineTo:
x = args[j++];
y = args[j++];
ctx.lineTo(x, y);
break;
case _util.OPS.curveTo:
x = args[j + 4];
y = args[j + 5];
ctx.bezierCurveTo(args[j], args[j + 1], args[j + 2], args[j + 3], x, y);
j += 6;
break;
case _util.OPS.curveTo2:
ctx.bezierCurveTo(x, y, args[j], args[j + 1], args[j + 2], args[j + 3]);
x = args[j + 2];
y = args[j + 3];
j += 4;
break;
case _util.OPS.curveTo3:
x = args[j + 2];
y = args[j + 3];
ctx.bezierCurveTo(args[j], args[j + 1], x, y, x, y);
j += 4;
break;
case _util.OPS.closePath:
ctx.closePath();
break;
}
}
current.setCurrentPoint(x, y);
}
closePath() {
this.ctx.closePath();
}
stroke(consumePath) {
consumePath = typeof consumePath !== "undefined" ? consumePath : true;
const ctx = this.ctx;
const strokeColor = this.current.strokeColor;
ctx.globalAlpha = this.current.strokeAlpha;
if (this.contentVisible) {
if (typeof strokeColor === "object" && strokeColor?.getPattern) {
const lineWidth = this.getSinglePixelWidth();
ctx.save();
ctx.strokeStyle = strokeColor.getPattern(ctx, this, ctx.mozCurrentTransformInverse);
ctx.lineWidth = Math.max(lineWidth, this.current.lineWidth);
ctx.stroke();
ctx.restore();
} else {
const lineWidth = this.getSinglePixelWidth();
if (lineWidth < 0 && -lineWidth >= this.current.lineWidth) {
ctx.save();
ctx.resetTransform();
ctx.lineWidth = Math.round(this._combinedScaleFactor);
ctx.stroke();
ctx.restore();
} else {
ctx.lineWidth = Math.max(lineWidth, this.current.lineWidth);
ctx.stroke();
}
}
}
if (consumePath) {
this.consumePath();
}
ctx.globalAlpha = this.current.fillAlpha;
}
closeStroke() {
this.closePath();
this.stroke();
}
fill(consumePath) {
consumePath = typeof consumePath !== "undefined" ? consumePath : true;
const ctx = this.ctx;
const fillColor = this.current.fillColor;
const isPatternFill = this.current.patternFill;
let needRestore = false;
if (isPatternFill) {
ctx.save();
ctx.fillStyle = fillColor.getPattern(ctx, this, ctx.mozCurrentTransformInverse);
needRestore = true;
}
if (this.contentVisible) {
if (this.pendingEOFill) {
ctx.fill("evenodd");
this.pendingEOFill = false;
} else {
ctx.fill();
}
}
if (needRestore) {
ctx.restore();
}
if (consumePath) {
this.consumePath();
}
}
eoFill() {
this.pendingEOFill = true;
this.fill();
}
fillStroke() {
this.fill(false);
this.stroke(false);
this.consumePath();
}
eoFillStroke() {
this.pendingEOFill = true;
this.fillStroke();
}
closeFillStroke() {
this.closePath();
this.fillStroke();
}
closeEOFillStroke() {
this.pendingEOFill = true;
this.closePath();
this.fillStroke();
}
endPath() {
this.consumePath();
}
clip() {
this.pendingClip = NORMAL_CLIP;
}
eoClip() {
this.pendingClip = EO_CLIP;
}
beginText() {
this.current.textMatrix = _util.IDENTITY_MATRIX;
this.current.textMatrixScale = 1;
this.current.x = this.current.lineX = 0;
this.current.y = this.current.lineY = 0;
}
endText() {
const paths = this.pendingTextPaths;
const ctx = this.ctx;
if (paths === undefined) {
ctx.beginPath();
return;
}
ctx.save();
ctx.beginPath();
for (let i = 0; i < paths.length; i++) {
const path = paths[i];
ctx.setTransform.apply(ctx, path.transform);
ctx.translate(path.x, path.y);
path.addToPath(ctx, path.fontSize);
}
ctx.restore();
ctx.clip();
ctx.beginPath();
delete this.pendingTextPaths;
}
setCharSpacing(spacing) {
this.current.charSpacing = spacing;
}
setWordSpacing(spacing) {
this.current.wordSpacing = spacing;
}
setHScale(scale) {
this.current.textHScale = scale / 100;
}
setLeading(leading) {
this.current.leading = -leading;
}
setFont(fontRefName, size) {
const fontObj = this.commonObjs.get(fontRefName);
const current = this.current;
if (!fontObj) {
throw new Error(`Can't find font for ${fontRefName}`);
}
current.fontMatrix = fontObj.fontMatrix || _util.FONT_IDENTITY_MATRIX;
if (current.fontMatrix[0] === 0 || current.fontMatrix[3] === 0) {
(0, _util.warn)("Invalid font matrix for font " + fontRefName);
}
if (size < 0) {
size = -size;
current.fontDirection = -1;
} else {
current.fontDirection = 1;
}
this.current.font = fontObj;
this.current.fontSize = size;
if (fontObj.isType3Font) {
return;
}
const name = fontObj.loadedName || "sans-serif";
let bold = "normal";
if (fontObj.black) {
bold = "900";
} else if (fontObj.bold) {
bold = "bold";
}
const italic = fontObj.italic ? "italic" : "normal";
const typeface = `"${name}", ${fontObj.fallbackName}`;
let browserFontSize = size;
if (size < MIN_FONT_SIZE) {
browserFontSize = MIN_FONT_SIZE;
} else if (size > MAX_FONT_SIZE) {
browserFontSize = MAX_FONT_SIZE;
}
this.current.fontSizeScale = size / browserFontSize;
this.ctx.font = `${italic} ${bold} ${browserFontSize}px ${typeface}`;
}
setTextRenderingMode(mode) {
this.current.textRenderingMode = mode;
}
setTextRise(rise) {
this.current.textRise = rise;
}
moveText(x, y) {
this.current.x = this.current.lineX += x;
this.current.y = this.current.lineY += y;
}
setLeadingMoveText(x, y) {
this.setLeading(-y);
this.moveText(x, y);
}
setTextMatrix(a, b, c, d, e, f) {
this.current.textMatrix = [a, b, c, d, e, f];
this.current.textMatrixScale = Math.hypot(a, b);
this.current.x = this.current.lineX = 0;
this.current.y = this.current.lineY = 0;
}
nextLine() {
this.moveText(0, this.current.leading);
}
paintChar(character, x, y, patternTransform, resetLineWidthToOne) {
const ctx = this.ctx;
const current = this.current;
const font = current.font;
const textRenderingMode = current.textRenderingMode;
const fontSize = current.fontSize / current.fontSizeScale;
const fillStrokeMode = textRenderingMode & _util.TextRenderingMode.FILL_STROKE_MASK;
const isAddToPathSet = !!(textRenderingMode & _util.TextRenderingMode.ADD_TO_PATH_FLAG);
const patternFill = current.patternFill && !font.missingFile;
let addToPath;
if (font.disableFontFace || isAddToPathSet || patternFill) {
addToPath = font.getPathGenerator(this.commonObjs, character);
}
if (font.disableFontFace || patternFill) {
ctx.save();
ctx.translate(x, y);
ctx.beginPath();
addToPath(ctx, fontSize);
if (patternTransform) {
ctx.setTransform.apply(ctx, patternTransform);
}
if (fillStrokeMode === _util.TextRenderingMode.FILL || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {
ctx.fill();
}
if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {
if (resetLineWidthToOne) {
ctx.resetTransform();
ctx.lineWidth = Math.round(this._combinedScaleFactor);
}
ctx.stroke();
}
ctx.restore();
} else {
if (fillStrokeMode === _util.TextRenderingMode.FILL || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {
ctx.fillText(character, x, y);
}
if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {
if (resetLineWidthToOne) {
ctx.save();
ctx.moveTo(x, y);
ctx.resetTransform();
ctx.lineWidth = Math.round(this._combinedScaleFactor);
ctx.strokeText(character, 0, 0);
ctx.restore();
} else {
ctx.strokeText(character, x, y);
}
}
}
if (isAddToPathSet) {
const paths = this.pendingTextPaths || (this.pendingTextPaths = []);
paths.push({
transform: ctx.mozCurrentTransform,
x,
y,
fontSize,
addToPath
});
}
}
get isFontSubpixelAAEnabled() {
const {
context: ctx
} = this.cachedCanvases.getCanvas("isFontSubpixelAAEnabled", 10, 10);
ctx.scale(1.5, 1);
ctx.fillText("I", 0, 10);
const data = ctx.getImageData(0, 0, 10, 10).data;
let enabled = false;
for (let i = 3; i < data.length; i += 4) {
if (data[i] > 0 && data[i] < 255) {
enabled = true;
break;
}
}
return (0, _util.shadow)(this, "isFontSubpixelAAEnabled", enabled);
}
showText(glyphs) {
const current = this.current;
const font = current.font;
if (font.isType3Font) {
return this.showType3Text(glyphs);
}
const fontSize = current.fontSize;
if (fontSize === 0) {
return undefined;
}
const ctx = this.ctx;
const fontSizeScale = current.fontSizeScale;
const charSpacing = current.charSpacing;
const wordSpacing = current.wordSpacing;
const fontDirection = current.fontDirection;
const textHScale = current.textHScale * fontDirection;
const glyphsLength = glyphs.length;
const vertical = font.vertical;
const spacingDir = vertical ? 1 : -1;
const defaultVMetrics = font.defaultVMetrics;
const widthAdvanceScale = fontSize * current.fontMatrix[0];
const simpleFillText = current.textRenderingMode === _util.TextRenderingMode.FILL && !font.disableFontFace && !current.patternFill;
ctx.save();
let patternTransform;
if (current.patternFill) {
ctx.save();
const pattern = current.fillColor.getPattern(ctx, this, ctx.mozCurrentTransformInverse);
patternTransform = ctx.mozCurrentTransform;
ctx.restore();
ctx.fillStyle = pattern;
}
ctx.transform.apply(ctx, current.textMatrix);
ctx.translate(current.x, current.y + current.textRise);
if (fontDirection > 0) {
ctx.scale(textHScale, -1);
} else {
ctx.scale(textHScale, 1);
}
let lineWidth = current.lineWidth;
let resetLineWidthToOne = false;
const scale = current.textMatrixScale;
if (scale === 0 || lineWidth === 0) {
const fillStrokeMode = current.textRenderingMode & _util.TextRenderingMode.FILL_STROKE_MASK;
if (fillStrokeMode === _util.TextRenderingMode.STROKE || fillStrokeMode === _util.TextRenderingMode.FILL_STROKE) {
this._cachedGetSinglePixelWidth = null;
lineWidth = this.getSinglePixelWidth();
resetLineWidthToOne = lineWidth < 0;
}
} else {
lineWidth /= scale;
}
if (fontSizeScale !== 1.0) {
ctx.scale(fontSizeScale, fontSizeScale);
lineWidth /= fontSizeScale;
}
ctx.lineWidth = lineWidth;
let x = 0,
i;
for (i = 0; i < glyphsLength; ++i) {
const glyph = glyphs[i];
if ((0, _util.isNum)(glyph)) {
x += spacingDir * glyph * fontSize / 1000;
continue;
}
let restoreNeeded = false;
const spacing = (glyph.isSpace ? wordSpacing : 0) + charSpacing;
const character = glyph.fontChar;
const accent = glyph.accent;
let scaledX, scaledY;
let width = glyph.width;
if (vertical) {
const vmetric = glyph.vmetric || defaultVMetrics;
const vx = -(glyph.vmetric ? vmetric[1] : width * 0.5) * 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 (font.remeasure && width > 0) {
const measuredWidth = ctx.measureText(character).width * 1000 / fontSize * fontSizeScale;
if (width < measuredWidth && this.isFontSubpixelAAEnabled) {
const characterScaleX = width / measuredWidth;
restoreNeeded = true;
ctx.save();
ctx.scale(characterScaleX, 1);
scaledX /= characterScaleX;
} else if (width !== measuredWidth) {
scaledX += (width - measuredWidth) / 2000 * fontSize / fontSizeScale;
}
}
if (this.contentVisible && (glyph.isInFont || font.missingFile)) {
if (simpleFillText && !accent) {
ctx.fillText(character, scaledX, scaledY);
} else {
this.paintChar(character, scaledX, scaledY, patternTransform, resetLineWidthToOne);
if (accent) {
const scaledAccentX = scaledX + fontSize * accent.offset.x / fontSizeScale;
const scaledAccentY = scaledY - fontSize * accent.offset.y / fontSizeScale;
this.paintChar(accent.fontChar, scaledAccentX, scaledAccentY, patternTransform, resetLineWidthToOne);
}
}
}
let charWidth;
if (vertical) {
charWidth = width * widthAdvanceScale - spacing * fontDirection;
} else {
charWidth = width * widthAdvanceScale + spacing * fontDirection;
}
x += charWidth;
if (restoreNeeded) {
ctx.restore();
}
}
if (vertical) {
current.y -= x;
} else {
current.x += x * textHScale;
}
ctx.restore();
return undefined;
}
showType3Text(glyphs) {
const ctx = this.ctx;
const current = this.current;
const font = current.font;
const fontSize = current.fontSize;
const fontDirection = current.fontDirection;
const spacingDir = font.vertical ? 1 : -1;
const charSpacing = current.charSpacing;
const wordSpacing = current.wordSpacing;
const textHScale = current.textHScale * fontDirection;
const fontMatrix = current.fontMatrix || _util.FONT_IDENTITY_MATRIX;
const glyphsLength = glyphs.length;
const isTextInvisible = current.textRenderingMode === _util.TextRenderingMode.INVISIBLE;
l