/**
* @licstart The following is the entire license notice for the
* JavaScript code in this page
*
* Copyright 2022 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.TextLayerRenderTask = void 0;
exports.renderTextLayer = renderTextLayer;
var _util = require("../shared/util.js");
var _display_utils = require("./display_utils.js");
const MAX_TEXT_DIVS_TO_RENDER = 100000;
const DEFAULT_FONT_SIZE = 30;
const DEFAULT_FONT_ASCENT = 0.8;
const ascentCache = new Map();
const AllWhitespaceRegexp = /^\s+$/g;
function getAscent(fontFamily, ctx) {
const cachedAscent = ascentCache.get(fontFamily);
if (cachedAscent) {
return cachedAscent;
}
ctx.save();
ctx.font = `${DEFAULT_FONT_SIZE}px ${fontFamily}`;
const metrics = ctx.measureText("");
let ascent = metrics.fontBoundingBoxAscent;
let descent = Math.abs(metrics.fontBoundingBoxDescent);
if (ascent) {
ctx.restore();
const ratio = ascent / (ascent + descent);
ascentCache.set(fontFamily, ratio);
return ratio;
}
ctx.strokeStyle = "red";
ctx.clearRect(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE);
ctx.strokeText("g", 0, 0);
let pixels = ctx.getImageData(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE).data;
descent = 0;
for (let i = pixels.length - 1 - 3; i >= 0; i -= 4) {
if (pixels[i] > 0) {
descent = Math.ceil(i / 4 / DEFAULT_FONT_SIZE);
break;
}
}
ctx.clearRect(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE);
ctx.strokeText("A", 0, DEFAULT_FONT_SIZE);
pixels = ctx.getImageData(0, 0, DEFAULT_FONT_SIZE, DEFAULT_FONT_SIZE).data;
ascent = 0;
for (let i = 0, ii = pixels.length; i < ii; i += 4) {
if (pixels[i] > 0) {
ascent = DEFAULT_FONT_SIZE - Math.floor(i / 4 / DEFAULT_FONT_SIZE);
break;
}
}
ctx.restore();
if (ascent) {
const ratio = ascent / (ascent + descent);
ascentCache.set(fontFamily, ratio);
return ratio;
}
ascentCache.set(fontFamily, DEFAULT_FONT_ASCENT);
return DEFAULT_FONT_ASCENT;
}
function appendText(task, geom, styles, ctx) {
const textDiv = document.createElement("span");
const textDivProperties = task._enhanceTextSelection ? {
angle: 0,
canvasWidth: 0,
hasText: geom.str !== "",
hasEOL: geom.hasEOL,
originalTransform: null,
paddingBottom: 0,
paddingLeft: 0,
paddingRight: 0,
paddingTop: 0,
scale: 1,
fontSize: 0
} : {
angle: 0,
canvasWidth: 0,
hasText: geom.str !== "",
hasEOL: geom.hasEOL,
fontSize: 0
};
task._textDivs.push(textDiv);
const tx = _util.Util.transform(task._viewport.transform, geom.transform);
let angle = Math.atan2(tx[1], tx[0]);
const style = styles[geom.fontName];
if (style.vertical) {
angle += Math.PI / 2;
}
const fontHeight = Math.hypot(tx[2], tx[3]);
const fontAscent = fontHeight * getAscent(style.fontFamily, ctx);
let left, top;
if (angle === 0) {
left = tx[4];
top = tx[5] - fontAscent;
} else {
left = tx[4] + fontAscent * Math.sin(angle);
top = tx[5] - fontAscent * Math.cos(angle);
}
textDiv.style.left = `${left}px`;
textDiv.style.top = `${top}px`;
textDiv.style.fontSize = `${fontHeight}px`;
textDiv.style.fontFamily = style.fontFamily;
textDivProperties.fontSize = fontHeight;
textDiv.setAttribute("role", "presentation");
textDiv.textContent = geom.str;
textDiv.dir = geom.dir;
if (task._fontInspectorEnabled) {
textDiv.dataset.fontName = geom.fontName;
}
if (angle !== 0) {
textDivProperties.angle = angle * (180 / Math.PI);
}
let shouldScaleText = false;
if (geom.str.length > 1 || task._enhanceTextSelection && AllWhitespaceRegexp.test(geom.str)) {
shouldScaleText = true;
} else if (geom.str !== " " && geom.transform[0] !== geom.transform[3]) {
const absScaleX = Math.abs(geom.transform[0]),
absScaleY = Math.abs(geom.transform[3]);
if (absScaleX !== absScaleY && Math.max(absScaleX, absScaleY) / Math.min(absScaleX, absScaleY) > 1.5) {
shouldScaleText = true;
}
}
if (shouldScaleText) {
if (style.vertical) {
textDivProperties.canvasWidth = geom.height * task._viewport.scale;
} else {
textDivProperties.canvasWidth = geom.width * task._viewport.scale;
}
}
task._textDivProperties.set(textDiv, textDivProperties);
if (task._textContentStream) {
task._layoutText(textDiv);
}
if (task._enhanceTextSelection && textDivProperties.hasText) {
let angleCos = 1,
angleSin = 0;
if (angle !== 0) {
angleCos = Math.cos(angle);
angleSin = Math.sin(angle);
}
const divWidth = (style.vertical ? geom.height : geom.width) * task._viewport.scale;
const divHeight = fontHeight;
let m, b;
if (angle !== 0) {
m = [angleCos, angleSin, -angleSin, angleCos, left, top];
b = _util.Util.getAxialAlignedBoundingBox([0, 0, divWidth, divHeight], m);
} else {
b = [left, top, left + divWidth, top + divHeight];
}
task._bounds.push({
left: b[0],
top: b[1],
right: b[2],
bottom: b[3],
div: textDiv,
size: [divWidth, divHeight],
m
});
}
}
function render(task) {
if (task._canceled) {
return;
}
const textDivs = task._textDivs;
const capability = task._capability;
const textDivsLength = textDivs.length;
if (textDivsLength > MAX_TEXT_DIVS_TO_RENDER) {
task._renderingDone = true;
capability.resolve();
return;
}
if (!task._textContentStream) {
for (let i = 0; i < textDivsLength; i++) {
task._layoutText(textDivs[i]);
}
}
task._renderingDone = true;
capability.resolve();
}
function findPositiveMin(ts, offset, count) {
let result = 0;
for (let i = 0; i < count; i++) {
const t = ts[offset++];
if (t > 0) {
result = result ? Math.min(t, result) : t;
}
}
return result;
}
function expand(task) {
const bounds = task._bounds;
const viewport = task._viewport;
const expanded = expandBounds(viewport.width, viewport.height, bounds);
for (let i = 0; i < expanded.length; i++) {
const div = bounds[i].div;
const divProperties = task._textDivProperties.get(div);
if (divProperties.angle === 0) {
divProperties.paddingLeft = bounds[i].left - expanded[i].left;
divProperties.paddingTop = bounds[i].top - expanded[i].top;
divProperties.paddingRight = expanded[i].right - bounds[i].right;
divProperties.paddingBottom = expanded[i].bottom - bounds[i].bottom;
task._textDivProperties.set(div, divProperties);
continue;
}
const e = expanded[i],
b = bounds[i];
const m = b.m,
c = m[0],
s = m[1];
const points = [[0, 0], [0, b.size[1]], [b.size[0], 0], b.size];
const ts = new Float64Array(64);
for (let j = 0, jj = points.length; j < jj; j++) {
const t = _util.Util.applyTransform(points[j], m);
ts[j + 0] = c && (e.left - t[0]) / c;
ts[j + 4] = s && (e.top - t[1]) / s;
ts[j + 8] = c && (e.right - t[0]) / c;
ts[j + 12] = s && (e.bottom - t[1]) / s;
ts[j + 16] = s && (e.left - t[0]) / -s;
ts[j + 20] = c && (e.top - t[1]) / c;
ts[j + 24] = s && (e.right - t[0]) / -s;
ts[j + 28] = c && (e.bottom - t[1]) / c;
ts[j + 32] = c && (e.left - t[0]) / -c;
ts[j + 36] = s && (e.top - t[1]) / -s;
ts[j + 40] = c && (e.right - t[0]) / -c;
ts[j + 44] = s && (e.bottom - t[1]) / -s;
ts[j + 48] = s && (e.left - t[0]) / s;
ts[j + 52] = c && (e.top - t[1]) / -c;
ts[j + 56] = s && (e.right - t[0]) / s;
ts[j + 60] = c && (e.bottom - t[1]) / -c;
}
const boxScale = 1 + Math.min(Math.abs(c), Math.abs(s));
divProperties.paddingLeft = findPositiveMin(ts, 32, 16) / boxScale;
divProperties.paddingTop = findPositiveMin(ts, 48, 16) / boxScale;
divProperties.paddingRight = findPositiveMin(ts, 0, 16) / boxScale;
divProperties.paddingBottom = findPositiveMin(ts, 16, 16) / boxScale;
task._textDivProperties.set(div, divProperties);
}
}
function expandBounds(width, height, boxes) {
const bounds = boxes.map(function (box, i) {
return {
x1: box.left,
y1: box.top,
x2: box.right,
y2: box.bottom,
index: i,
x1New: undefined,
x2New: undefined
};
});
expandBoundsLTR(width, bounds);
const expanded = new Array(boxes.length);
for (const b of bounds) {
const i = b.index;
expanded[i] = {
left: b.x1New,
top: 0,
right: b.x2New,
bottom: 0
};
}
boxes.map(function (box, i) {
const e = expanded[i],
b = bounds[i];
b.x1 = box.top;
b.y1 = width - e.right;
b.x2 = box.bottom;
b.y2 = width - e.left;
b.index = i;
b.x1New = undefined;
b.x2New = undefined;
});
expandBoundsLTR(height, bounds);
for (const b of bounds) {
const i = b.index;
expanded[i].top = b.x1New;
expanded[i].bottom = b.x2New;
}
return expanded;
}
function expandBoundsLTR(width, bounds) {
bounds.sort(function (a, b) {
return a.x1 - b.x1 || a.index - b.index;
});
const fakeBoundary = {
x1: -Infinity,
y1: -Infinity,
x2: 0,
y2: Infinity,
index: -1,
x1New: 0,
x2New: 0
};
const horizon = [{
start: -Infinity,
end: Infinity,
boundary: fakeBoundary
}];
for (const boundary of bounds) {
let i = 0;
while (i < horizon.length && horizon[i].end <= boundary.y1) {
i++;
}
let j = horizon.length - 1;
while (j >= 0 && horizon[j].start >= boundary.y2) {
j--;
}
let horizonPart, affectedBoundary;
let q,
k,
maxXNew = -Infinity;
for (q = i; q <= j; q++) {
horizonPart = horizon[q];
affectedBoundary = horizonPart.boundary;
let xNew;
if (affectedBoundary.x2 > boundary.x1) {
xNew = affectedBoundary.index > boundary.index ? affectedBoundary.x1New : boundary.x1;
} else if (affectedBoundary.x2New === undefined) {
xNew = (affectedBoundary.x2 + boundary.x1) / 2;
} else {
xNew = affectedBoundary.x2New;
}
if (xNew > maxXNew) {
maxXNew = xNew;
}
}
boundary.x1New = maxXNew;
for (q = i; q <= j; q++) {
horizonPart = horizon[q];
affectedBoundary = horizonPart.boundary;
if (affectedBoundary.x2New === undefined) {
if (affectedBoundary.x2 > boundary.x1) {
if (affectedBoundary.index > boundary.index) {
affectedBoundary.x2New = affectedBoundary.x2;
}
} else {
affectedBoundary.x2New = maxXNew;
}
} else if (affectedBoundary.x2New > maxXNew) {
affectedBoundary.x2New = Math.max(maxXNew, affectedBoundary.x2);
}
}
const changedHorizon = [];
let lastBoundary = null;
for (q = i; q <= j; q++) {
horizonPart = horizon[q];
affectedBoundary = horizonPart.boundary;
const useBoundary = affectedBoundary.x2 > boundary.x2 ? affectedBoundary : boundary;
if (lastBoundary === useBoundary) {
changedHorizon.at(-1).end = horizonPart.end;
} else {
changedHorizon.push({
start: horizonPart.start,
end: horizonPart.end,
boundary: useBoundary
});
lastBoundary = useBoundary;
}
}
if (horizon[i].start < boundary.y1) {
changedHorizon[0].start = boundary.y1;
changedHorizon.unshift({
start: horizon[i].start,
end: boundary.y1,
boundary: horizon[i].boundary
});
}
if (boundary.y2 < horizon[j].end) {
changedHorizon.at(-1).end = boundary.y2;
changedHorizon.push({
start: boundary.y2,
end: horizon[j].end,
boundary: horizon[j].boundary
});
}
for (q = i; q <= j; q++) {
horizonPart = horizon[q];
affectedBoundary = horizonPart.boundary;
if (affectedBoundary.x2New !== undefined) {
continue;
}
let used = false;
for (k = i - 1; !used && k >= 0 && horizon[k].start >= affectedBoundary.y1; k--) {
used = horizon[k].boundary === affectedBoundary;
}
for (k = j + 1; !used && k < horizon.length && horizon[k].end <= affectedBoundary.y2; k++) {
used = horizon[k].boundary === affectedBoundary;
}
for (k = 0; !used && k < changedHorizon.length; k++) {
used = changedHorizon[k].boundary === affectedBoundary;
}
if (!used) {
affectedBoundary.x2New = maxXNew;
}
}
Array.prototype.splice.apply(horizon, [i, j - i + 1, ...changedHorizon]);
}
for (const horizonPart of horizon) {
const affectedBoundary = horizonPart.boundary;
if (affectedBoundary.x2New === undefined) {
affectedBoundary.x2New = Math.max(width, affectedBoundary.x2);
}
}
}
class TextLayerRenderTask {
constructor({
textContent,
textContentStream,
container,
viewport,
textDivs,
textContentItemsStr,
enhanceTextSelection
}) {
if (enhanceTextSelection) {
(0, _display_utils.deprecated)("The `enhanceTextSelection` functionality will be removed in the future.");
}
this._textContent = textContent;
this._textContentStream = textContentStream;
this._container = container;
this._document = container.ownerDocument;
this._viewport = viewport;
this._textDivs = textDivs || [];
this._textContentItemsStr = textContentItemsStr || [];
this._enhanceTextSelection = !!enhanceTextSelection;
this._fontInspectorEnabled = !!globalThis.FontInspector?.enabled;
this._reader = null;
this._layoutTextLastFontSize = null;
this._layoutTextLastFontFamily = null;
this._layoutTextCtx = null;
this._textDivProperties = new WeakMap();
this._renderingDone = false;
this._canceled = false;
this._capability = (0, _util.createPromiseCapability)();
this._renderTimer = null;
this._bounds = [];
this._devicePixelRatio = globalThis.devicePixelRatio || 1;
this._capability.promise.finally(() => {
if (!this._enhanceTextSelection) {
this._textDivProperties = null;
}
if (this._layoutTextCtx) {
this._layoutTextCtx.canvas.width = 0;
this._layoutTextCtx.canvas.height = 0;
this._layoutTextCtx = null;
}
}).catch(() => {});
}
get promise() {
return this._capability.promise;
}
cancel() {
this._canceled = true;
if (this._reader) {
this._reader.cancel(new _util.AbortException("TextLayer task cancelled.")).catch(() => {});
this._reader = null;
}
if (this._renderTimer !== null) {
clearTimeout(this._renderTimer);
this._renderTimer = null;
}
this._capability.reject(new Error("TextLayer task cancelled."));
}
_processItems(items, styleCache) {
for (let i = 0, len = items.length; i < len; i++) {
if (items[i].str === undefined) {
if (items[i].type === "beginMarkedContentProps" || items[i].type === "beginMarkedContent") {
const parent = this._container;
this._container = document.createElement("span");
this._container.classList.add("markedContent");
if (items[i].id !== null) {
this._container.setAttribute("id", `${items[i].id}`);
}
parent.append(this._container);
} else if (items[i].type === "endMarkedContent") {
this._container = this._container.parentNode;
}
continue;
}
this._textContentItemsStr.push(items[i].str);
appendText(this, items[i], styleCache, this._layoutTextCtx);
}
}
_layoutText(textDiv) {
const textDivProperties = this._textDivProperties.get(textDiv);
let transform = "";
if (textDivProperties.canvasWidth !== 0 && textDivProperties.hasText) {
const {
fontFamily
} = textDiv.style;
const {
fontSize
} = textDivProperties;
if (fontSize !== this._layoutTextLastFontSize || fontFamily !== this._layoutTextLastFontFamily) {
this._layoutTextCtx.font = `${fontSize * this._devicePixelRatio}px ${fontFamily}`;
this._layoutTextLastFontSize = fontSize;
this._layoutTextLastFontFamily = fontFamily;
}
const {
width
} = this._layoutTextCtx.measureText(textDiv.textContent);
if (width > 0) {
const scale = this._devicePixelRatio * textDivProperties.canvasWidth / width;
if (this._enhanceTextSelection) {
textDivProperties.scale = scale;
}
transform = `scaleX(${scale})`;
}
}
if (textDivProperties.angle !== 0) {
transform = `rotate(${textDivProperties.angle}deg) ${transform}`;
}
if (transform.length > 0) {
if (this._enhanceTextSelection) {
textDivProperties.originalTransform = transform;
}
textDiv.style.transform = transform;
}
if (textDivProperties.hasText) {
this._container.append(textDiv);
}
if (textDivProperties.hasEOL) {
const br = document.createElement("br");
br.setAttribute("role", "presentation");
this._container.append(br);
}
}
_render(timeout = 0) {
const capability = (0, _util.createPromiseCapability)();
let styleCache = Object.create(null);
const canvas = this._document.createElement("canvas");
canvas.height = canvas.width = DEFAULT_FONT_SIZE;
this._layoutTextCtx = canvas.getContext("2d", {
alpha: false
});
if (this._textContent) {
const textItems = this._textContent.items;
const textStyles = this._textContent.styles;
this._processItems(textItems, textStyles);
capability.resolve();
} else if (this._textContentStream) {
const pump = () => {
this._reader.read().then(({
value,
done
}) => {
if (done) {
capability.resolve();
return;
}
Object.assign(styleCache, value.styles);
this._processItems(value.items, styleCache);
pump();
}, capability.reject);
};
this._reader = this._textContentStream.getReader();
pump();
} else {
throw new Error('Neither "textContent" nor "textContentStream" parameters specified.');
}
capability.promise.then(() => {
styleCache = null;
if (!timeout) {
render(this);
} else {
this._renderTimer = setTimeout(() => {
render(this);
this._renderTimer = null;
}, timeout);
}
}, this._capability.reject);
}
expandTextDivs(expandDivs = false) {
if (!this._enhanceTextSelection || !this._renderingDone) {
return;
}
if (this._bounds !== null) {
expand(this);
this._bounds = null;
}
const transformBuf = [],
paddingBuf = [];
for (let i = 0, ii = this._textDivs.length; i < ii; i++) {
const div = this._textDivs[i];
const divProps = this._textDivProperties.get(div);
if (!divProps.hasText) {
continue;
}
if (expandDivs) {
transformBuf.length = 0;
paddingBuf.length = 0;
if (divProps.originalTransform) {
transformBuf.push(divProps.originalTransform);
}
if (divProps.paddingTop > 0) {
paddingBuf.push(`${divProps.paddingTop}px`);
transformBuf.push(`translateY(${-divProps.paddingTop}px)`);
} else {
paddingBuf.push(0);
}
if (divProps.paddingRight > 0) {
paddingBuf.push(`${divProps.paddingRight / divProps.scale}px`);
} else {
paddingBuf.push(0);
}
if (divProps.paddingBottom > 0) {
paddingBuf.push(`${divProps.paddingBottom}px`);
} else {
paddingBuf.push(0);
}
if (divProps.paddingLeft > 0) {
paddingBuf.push(`${divProps.paddingLeft / divProps.scale}px`);
transformBuf.push(`translateX(${-divProps.paddingLeft / divProps.scale}px)`);
} else {
paddingBuf.push(0);
}
div.style.padding = paddingBuf.join(" ");
if (transformBuf.length) {
div.style.transform = transformBuf.join(" ");
}
} else {
div.style.padding = null;
div.style.transform = divProps.originalTransform;
}
}
}
}
exports.TextLayerRenderTask = TextLayerRenderTask;
function renderTextLayer(renderParameters) {
const task = new TextLayerRenderTask({
textContent: renderParameters.textContent,
textContentStream: renderParameters.textContentStream,
container: renderParameters.container,
viewport: renderParameters.viewport,
textDivs: renderParameters.textDivs,
textContentItemsStr: renderParameters.textContentItemsStr,
enhanceTextSelection: renderParameters.enhanceTextSelection
});
task._render(renderParameters.timeout);
return task;
}