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pdf.js/test/unit/ui_utils_spec.js
Jonas Jenwald 426945b480 Update Prettier to version 2.0 
Please note that these changes were done automatically, using `gulp lint --fix`.

Given that the major version number was increased, there's a fair number of (primarily whitespace) changes; please see https://prettier.io/blog/2020/03/21/2.0.0.html
In order to reduce the size of these changes somewhat, this patch maintains the old "arrowParens" style for now (once mozilla-central updates Prettier we can simply choose the same formatting, assuming it will differ here).
2020-04-14 12:28:14 +02:00

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/* Copyright 2017 Mozilla Foundation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import {
backtrackBeforeAllVisibleElements,
binarySearchFirstItem,
EventBus,
getPageSizeInches,
getPDFFileNameFromURL,
getVisibleElements,
isPortraitOrientation,
isValidRotation,
moveToEndOfArray,
waitOnEventOrTimeout,
WaitOnType,
} from "../../web/ui_utils.js";
import { createObjectURL } from "../../src/shared/util.js";
import { isNodeJS } from "../../src/shared/is_node.js";
describe("ui_utils", function () {
describe("binary search", function () {
function isTrue(boolean) {
return boolean;
}
function isGreater3(number) {
return number > 3;
}
it("empty array", function () {
expect(binarySearchFirstItem([], isTrue)).toEqual(0);
});
it("single boolean entry", function () {
expect(binarySearchFirstItem([false], isTrue)).toEqual(1);
expect(binarySearchFirstItem([true], isTrue)).toEqual(0);
});
it("three boolean entries", function () {
expect(binarySearchFirstItem([true, true, true], isTrue)).toEqual(0);
expect(binarySearchFirstItem([false, true, true], isTrue)).toEqual(1);
expect(binarySearchFirstItem([false, false, true], isTrue)).toEqual(2);
expect(binarySearchFirstItem([false, false, false], isTrue)).toEqual(3);
});
it("three numeric entries", function () {
expect(binarySearchFirstItem([0, 1, 2], isGreater3)).toEqual(3);
expect(binarySearchFirstItem([2, 3, 4], isGreater3)).toEqual(2);
expect(binarySearchFirstItem([4, 5, 6], isGreater3)).toEqual(0);
});
});
describe("getPDFFileNameFromURL", function () {
it("gets PDF filename", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/file1.pdf")).toEqual("file1.pdf");
// Absolute URL
expect(
getPDFFileNameFromURL("http://www.example.com/pdfs/file2.pdf")
).toEqual("file2.pdf");
});
it("gets fallback filename", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/file1.txt")).toEqual("document.pdf");
// Absolute URL
expect(
getPDFFileNameFromURL("http://www.example.com/pdfs/file2.txt")
).toEqual("document.pdf");
});
it("gets custom fallback filename", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/file1.txt", "qwerty1.pdf")).toEqual(
"qwerty1.pdf"
);
// Absolute URL
expect(
getPDFFileNameFromURL(
"http://www.example.com/pdfs/file2.txt",
"qwerty2.pdf"
)
).toEqual("qwerty2.pdf");
// An empty string should be a valid custom fallback filename.
expect(getPDFFileNameFromURL("/pdfs/file3.txt", "")).toEqual("");
});
it("gets fallback filename when url is not a string", function () {
expect(getPDFFileNameFromURL(null)).toEqual("document.pdf");
expect(getPDFFileNameFromURL(null, "file.pdf")).toEqual("file.pdf");
});
it("gets PDF filename from URL containing leading/trailing whitespace", function () {
// Relative URL
expect(getPDFFileNameFromURL(" /pdfs/file1.pdf ")).toEqual(
"file1.pdf"
);
// Absolute URL
expect(
getPDFFileNameFromURL(" http://www.example.com/pdfs/file2.pdf ")
).toEqual("file2.pdf");
});
it("gets PDF filename from query string", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/pdfs.html?name=file1.pdf")).toEqual(
"file1.pdf"
);
// Absolute URL
expect(
getPDFFileNameFromURL("http://www.example.com/pdfs/pdf.html?file2.pdf")
).toEqual("file2.pdf");
});
it("gets PDF filename from hash string", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/pdfs.html#name=file1.pdf")).toEqual(
"file1.pdf"
);
// Absolute URL
expect(
getPDFFileNameFromURL("http://www.example.com/pdfs/pdf.html#file2.pdf")
).toEqual("file2.pdf");
});
it("gets correct PDF filename when multiple ones are present", function () {
// Relative URL
expect(getPDFFileNameFromURL("/pdfs/file1.pdf?name=file.pdf")).toEqual(
"file1.pdf"
);
// Absolute URL
expect(
getPDFFileNameFromURL("http://www.example.com/pdfs/file2.pdf#file.pdf")
).toEqual("file2.pdf");
});
it("gets PDF filename from URI-encoded data", function () {
var encodedUrl = encodeURIComponent(
"http://www.example.com/pdfs/file1.pdf"
);
expect(getPDFFileNameFromURL(encodedUrl)).toEqual("file1.pdf");
var encodedUrlWithQuery = encodeURIComponent(
"http://www.example.com/pdfs/file.txt?file2.pdf"
);
expect(getPDFFileNameFromURL(encodedUrlWithQuery)).toEqual("file2.pdf");
});
it("gets PDF filename from data mistaken for URI-encoded", function () {
expect(getPDFFileNameFromURL("/pdfs/%AA.pdf")).toEqual("%AA.pdf");
expect(getPDFFileNameFromURL("/pdfs/%2F.pdf")).toEqual("%2F.pdf");
});
it("gets PDF filename from (some) standard protocols", function () {
// HTTP
expect(getPDFFileNameFromURL("http://www.example.com/file1.pdf")).toEqual(
"file1.pdf"
);
// HTTPS
expect(
getPDFFileNameFromURL("https://www.example.com/file2.pdf")
).toEqual("file2.pdf");
// File
expect(getPDFFileNameFromURL("file:///path/to/files/file3.pdf")).toEqual(
"file3.pdf"
);
// FTP
expect(getPDFFileNameFromURL("ftp://www.example.com/file4.pdf")).toEqual(
"file4.pdf"
);
});
it('gets PDF filename from query string appended to "blob:" URL', function () {
if (isNodeJS) {
pending("Blob in not supported in Node.js.");
}
var typedArray = new Uint8Array([1, 2, 3, 4, 5]);
var blobUrl = createObjectURL(typedArray, "application/pdf");
// Sanity check to ensure that a "blob:" URL was returned.
expect(blobUrl.startsWith("blob:")).toEqual(true);
expect(getPDFFileNameFromURL(blobUrl + "?file.pdf")).toEqual("file.pdf");
});
it('gets fallback filename from query string appended to "data:" URL', function () {
var typedArray = new Uint8Array([1, 2, 3, 4, 5]);
var dataUrl = createObjectURL(
typedArray,
"application/pdf",
/* forceDataSchema = */ true
);
// Sanity check to ensure that a "data:" URL was returned.
expect(dataUrl.startsWith("data:")).toEqual(true);
expect(getPDFFileNameFromURL(dataUrl + "?file1.pdf")).toEqual(
"document.pdf"
);
// Should correctly detect a "data:" URL with leading whitespace.
expect(getPDFFileNameFromURL(" " + dataUrl + "?file2.pdf")).toEqual(
"document.pdf"
);
});
});
describe("EventBus", function () {
it("dispatch event", function () {
var eventBus = new EventBus();
var count = 0;
eventBus.on("test", function (evt) {
expect(evt).toEqual(undefined);
count++;
});
eventBus.dispatch("test");
expect(count).toEqual(1);
});
it("dispatch event with arguments", function () {
const eventBus = new EventBus();
let count = 0;
eventBus.on("test", function (evt) {
expect(evt).toEqual({ abc: 123 });
count++;
});
eventBus.dispatch("test", {
abc: 123,
});
expect(count).toEqual(1);
});
it("dispatch different event", function () {
var eventBus = new EventBus();
var count = 0;
eventBus.on("test", function () {
count++;
});
eventBus.dispatch("nottest");
expect(count).toEqual(0);
});
it("dispatch event multiple times", function () {
var eventBus = new EventBus();
var count = 0;
eventBus.dispatch("test");
eventBus.on("test", function () {
count++;
});
eventBus.dispatch("test");
eventBus.dispatch("test");
expect(count).toEqual(2);
});
it("dispatch event to multiple handlers", function () {
var eventBus = new EventBus();
var count = 0;
eventBus.on("test", function () {
count++;
});
eventBus.on("test", function () {
count++;
});
eventBus.dispatch("test");
expect(count).toEqual(2);
});
it("dispatch to detached", function () {
var eventBus = new EventBus();
var count = 0;
var listener = function () {
count++;
};
eventBus.on("test", listener);
eventBus.dispatch("test");
eventBus.off("test", listener);
eventBus.dispatch("test");
expect(count).toEqual(1);
});
it("dispatch to wrong detached", function () {
var eventBus = new EventBus();
var count = 0;
eventBus.on("test", function () {
count++;
});
eventBus.dispatch("test");
eventBus.off("test", function () {
count++;
});
eventBus.dispatch("test");
expect(count).toEqual(2);
});
it("dispatch to detached during handling", function () {
var eventBus = new EventBus();
var count = 0;
var listener1 = function () {
eventBus.off("test", listener2);
count++;
};
var listener2 = function () {
eventBus.off("test", listener1);
count++;
};
eventBus.on("test", listener1);
eventBus.on("test", listener2);
eventBus.dispatch("test");
eventBus.dispatch("test");
expect(count).toEqual(2);
});
it("should not re-dispatch to DOM", function (done) {
if (isNodeJS) {
pending("Document in not supported in Node.js.");
}
const eventBus = new EventBus();
let count = 0;
eventBus.on("test", function (evt) {
expect(evt).toEqual(undefined);
count++;
});
function domEventListener() {
done.fail("shall not dispatch DOM event.");
}
document.addEventListener("test", domEventListener);
eventBus.dispatch("test");
Promise.resolve().then(() => {
expect(count).toEqual(1);
document.removeEventListener("test", domEventListener);
done();
});
});
});
describe("isValidRotation", function () {
it("should reject non-integer angles", function () {
expect(isValidRotation()).toEqual(false);
expect(isValidRotation(null)).toEqual(false);
expect(isValidRotation(NaN)).toEqual(false);
expect(isValidRotation([90])).toEqual(false);
expect(isValidRotation("90")).toEqual(false);
expect(isValidRotation(90.5)).toEqual(false);
});
it("should reject non-multiple of 90 degree angles", function () {
expect(isValidRotation(45)).toEqual(false);
expect(isValidRotation(-123)).toEqual(false);
});
it("should accept valid angles", function () {
expect(isValidRotation(0)).toEqual(true);
expect(isValidRotation(90)).toEqual(true);
expect(isValidRotation(-270)).toEqual(true);
expect(isValidRotation(540)).toEqual(true);
});
});
describe("isPortraitOrientation", function () {
it("should be portrait orientation", function () {
expect(
isPortraitOrientation({
width: 200,
height: 400,
})
).toEqual(true);
expect(
isPortraitOrientation({
width: 500,
height: 500,
})
).toEqual(true);
});
it("should be landscape orientation", function () {
expect(
isPortraitOrientation({
width: 600,
height: 300,
})
).toEqual(false);
});
});
describe("waitOnEventOrTimeout", function () {
let eventBus;
beforeAll(function (done) {
eventBus = new EventBus();
done();
});
afterAll(function () {
eventBus = null;
});
it("should reject invalid parameters", function (done) {
const invalidTarget = waitOnEventOrTimeout({
target: "window",
name: "DOMContentLoaded",
}).then(
function () {
throw new Error("Should reject invalid parameters.");
},
function (reason) {
expect(reason instanceof Error).toEqual(true);
}
);
const invalidName = waitOnEventOrTimeout({
target: eventBus,
name: "",
}).then(
function () {
throw new Error("Should reject invalid parameters.");
},
function (reason) {
expect(reason instanceof Error).toEqual(true);
}
);
const invalidDelay = waitOnEventOrTimeout({
target: eventBus,
name: "pagerendered",
delay: -1000,
}).then(
function () {
throw new Error("Should reject invalid parameters.");
},
function (reason) {
expect(reason instanceof Error).toEqual(true);
}
);
Promise.all([invalidTarget, invalidName, invalidDelay]).then(
done,
done.fail
);
});
it("should resolve on event, using the DOM", function (done) {
if (isNodeJS) {
pending("Document in not supported in Node.js.");
}
const button = document.createElement("button");
const buttonClicked = waitOnEventOrTimeout({
target: button,
name: "click",
delay: 10000,
});
// Immediately dispatch the expected event.
button.click();
buttonClicked.then(function (type) {
expect(type).toEqual(WaitOnType.EVENT);
done();
}, done.fail);
});
it("should resolve on timeout, using the DOM", function (done) {
if (isNodeJS) {
pending("Document in not supported in Node.js.");
}
const button = document.createElement("button");
const buttonClicked = waitOnEventOrTimeout({
target: button,
name: "click",
delay: 10,
});
// Do *not* dispatch the event, and wait for the timeout.
buttonClicked.then(function (type) {
expect(type).toEqual(WaitOnType.TIMEOUT);
done();
}, done.fail);
});
it("should resolve on event, using the EventBus", function (done) {
const pageRendered = waitOnEventOrTimeout({
target: eventBus,
name: "pagerendered",
delay: 10000,
});
// Immediately dispatch the expected event.
eventBus.dispatch("pagerendered");
pageRendered.then(function (type) {
expect(type).toEqual(WaitOnType.EVENT);
done();
}, done.fail);
});
it("should resolve on timeout, using the EventBus", function (done) {
const pageRendered = waitOnEventOrTimeout({
target: eventBus,
name: "pagerendered",
delay: 10,
});
// Do *not* dispatch the event, and wait for the timeout.
pageRendered.then(function (type) {
expect(type).toEqual(WaitOnType.TIMEOUT);
done();
}, done.fail);
});
});
describe("getPageSizeInches", function () {
it("gets page size (in inches)", function () {
const page = {
view: [0, 0, 595.28, 841.89],
userUnit: 1.0,
rotate: 0,
};
const { width, height } = getPageSizeInches(page);
expect(+width.toPrecision(3)).toEqual(8.27);
expect(+height.toPrecision(4)).toEqual(11.69);
});
it("gets page size (in inches), for non-default /Rotate entry", function () {
const pdfPage1 = { view: [0, 0, 612, 792], userUnit: 1, rotate: 0 };
const { width: width1, height: height1 } = getPageSizeInches(pdfPage1);
expect(width1).toEqual(8.5);
expect(height1).toEqual(11);
const pdfPage2 = { view: [0, 0, 612, 792], userUnit: 1, rotate: 90 };
const { width: width2, height: height2 } = getPageSizeInches(pdfPage2);
expect(width2).toEqual(11);
expect(height2).toEqual(8.5);
});
});
describe("getVisibleElements", function () {
// These values are based on margin/border values in the CSS, but there
// isn't any real need for them to be; they just need to take *some* value.
const BORDER_WIDTH = 9;
const SPACING = 2 * BORDER_WIDTH - 7;
// This is a helper function for assembling an array of view stubs from an
// array of arrays of [width, height] pairs, which represents wrapped lines
// of pages. It uses the above constants to add realistic spacing between
// the pages and the lines.
//
// If you're reading a test that calls makePages, you should think of the
// inputs to makePages as boxes with no borders, being laid out in a
// container that has no margins, so that the top of the tallest page in
// the first row will be at y = 0, and the left of the first page in
// the first row will be at x = 0. The spacing between pages in a row, and
// the spacing between rows, is SPACING. If you wanted to construct an
// actual HTML document with the same layout, you should give each page
// element a margin-right and margin-bottom of SPACING, and add no other
// margins, borders, or padding.
//
// If you're reading makePages itself, you'll see a somewhat more
// complicated picture because this suite of tests is exercising
// getVisibleElements' ability to account for the borders that real page
// elements have. makePages tests this by subtracting a BORDER_WIDTH from
// offsetLeft/Top and adding it to clientLeft/Top. So the element stubs that
// getVisibleElements sees may, for example, actually have an offsetTop of
// -9. If everything is working correctly, this detail won't leak out into
// the tests themselves, and so the tests shouldn't use the value of
// BORDER_WIDTH at all.
function makePages(lines) {
const result = [];
let lineTop = 0,
id = 0;
for (const line of lines) {
const lineHeight = line.reduce(function (maxHeight, pair) {
return Math.max(maxHeight, pair[1]);
}, 0);
let offsetLeft = -BORDER_WIDTH;
for (const [clientWidth, clientHeight] of line) {
const offsetTop =
lineTop + (lineHeight - clientHeight) / 2 - BORDER_WIDTH;
const div = {
offsetLeft,
offsetTop,
clientWidth,
clientHeight,
clientLeft: BORDER_WIDTH,
clientTop: BORDER_WIDTH,
};
result.push({ id, div });
++id;
offsetLeft += clientWidth + SPACING;
}
lineTop += lineHeight + SPACING;
}
return result;
}
// This is a reimplementation of getVisibleElements without the
// optimizations.
function slowGetVisibleElements(scroll, pages) {
const views = [];
const { scrollLeft, scrollTop } = scroll;
const scrollRight = scrollLeft + scroll.clientWidth;
const scrollBottom = scrollTop + scroll.clientHeight;
for (const view of pages) {
const { div } = view;
const viewLeft = div.offsetLeft + div.clientLeft;
const viewRight = viewLeft + div.clientWidth;
const viewTop = div.offsetTop + div.clientTop;
const viewBottom = viewTop + div.clientHeight;
if (
viewLeft < scrollRight &&
viewRight > scrollLeft &&
viewTop < scrollBottom &&
viewBottom > scrollTop
) {
const hiddenHeight =
Math.max(0, scrollTop - viewTop) +
Math.max(0, viewBottom - scrollBottom);
const hiddenWidth =
Math.max(0, scrollLeft - viewLeft) +
Math.max(0, viewRight - scrollRight);
const visibleArea =
(div.clientHeight - hiddenHeight) * (div.clientWidth - hiddenWidth);
const percent =
((visibleArea * 100) / div.clientHeight / div.clientWidth) | 0;
views.push({ id: view.id, x: viewLeft, y: viewTop, view, percent });
}
}
return { first: views[0], last: views[views.length - 1], views };
}
// This function takes a fixed layout of pages and compares the system under
// test to the slower implementation above, for a range of scroll viewport
// sizes and positions.
function scrollOverDocument(pages, horizontally = false) {
const size = pages.reduce(function (max, { div }) {
return Math.max(
max,
horizontally
? div.offsetLeft + div.clientLeft + div.clientWidth
: div.offsetTop + div.clientTop + div.clientHeight
);
}, 0);
// The numbers (7 and 5) are mostly arbitrary, not magic: increase them to
// make scrollOverDocument tests faster, decrease them to make the tests
// more scrupulous, and keep them coprime to reduce the chance of missing
// weird edge case bugs.
for (let i = 0; i < size; i += 7) {
// The screen height (or width) here (j - i) doubles on each inner loop
// iteration; again, this is just to test an interesting range of cases
// without slowing the tests down to check every possible case.
for (let j = i + 5; j < size; j += j - i) {
const scroll = horizontally
? {
scrollTop: 0,
scrollLeft: i,
clientHeight: 10000,
clientWidth: j - i,
}
: {
scrollTop: i,
scrollLeft: 0,
clientHeight: j - i,
clientWidth: 10000,
};
expect(
getVisibleElements(scroll, pages, false, horizontally)
).toEqual(slowGetVisibleElements(scroll, pages));
}
}
}
it("with pages of varying height", function () {
const pages = makePages([
[
[50, 20],
[20, 50],
],
[
[30, 12],
[12, 30],
],
[
[20, 50],
[50, 20],
],
[
[50, 20],
[20, 50],
],
]);
scrollOverDocument(pages);
});
it("widescreen challenge", function () {
const pages = makePages([
[
[10, 50],
[10, 60],
[10, 70],
[10, 80],
[10, 90],
],
[
[10, 90],
[10, 80],
[10, 70],
[10, 60],
[10, 50],
],
[
[10, 50],
[10, 60],
[10, 70],
[10, 80],
[10, 90],
],
]);
scrollOverDocument(pages);
});
it("works with horizontal scrolling", function () {
const pages = makePages([
[
[10, 50],
[20, 20],
[30, 10],
],
]);
scrollOverDocument(pages, true);
});
it("handles `sortByVisibility` correctly", function () {
const scrollEl = {
scrollTop: 75,
scrollLeft: 0,
clientHeight: 750,
clientWidth: 1500,
};
const views = makePages([[[100, 150]], [[100, 150]], [[100, 150]]]);
const visible = getVisibleElements(scrollEl, views);
const visibleSorted = getVisibleElements(
scrollEl,
views,
/* sortByVisibility = */ true
);
const viewsOrder = [],
viewsSortedOrder = [];
for (const view of visible.views) {
viewsOrder.push(view.id);
}
for (const view of visibleSorted.views) {
viewsSortedOrder.push(view.id);
}
expect(viewsOrder).toEqual([0, 1, 2]);
expect(viewsSortedOrder).toEqual([1, 2, 0]);
});
it("handles views being empty", function () {
const scrollEl = {
scrollTop: 10,
scrollLeft: 0,
clientHeight: 750,
clientWidth: 1500,
};
const views = [];
expect(getVisibleElements(scrollEl, views)).toEqual({
first: undefined,
last: undefined,
views: [],
});
});
it("handles all views being hidden (without errors)", function () {
const scrollEl = {
scrollTop: 100000,
scrollLeft: 0,
clientHeight: 750,
clientWidth: 1500,
};
const views = makePages([[[100, 150]], [[100, 150]], [[100, 150]]]);
expect(getVisibleElements(scrollEl, views)).toEqual({
first: undefined,
last: undefined,
views: [],
});
});
// This sub-suite is for a notionally internal helper function for
// getVisibleElements.
describe("backtrackBeforeAllVisibleElements", function () {
// Layout elements common to all tests
const tallPage = [10, 50];
const shortPage = [10, 10];
// A scroll position that ensures that only the tall pages in the second
// row are visible
const top1 =
20 +
SPACING + // height of the first row
40; // a value between 30 (so the short pages on the second row are
// hidden) and 50 (so the tall pages are visible)
// A scroll position that ensures that all of the pages in the second row
// are visible, but the tall ones are a tiny bit cut off
const top2 =
20 +
SPACING + // height of the first row
10; // a value greater than 0 but less than 30
// These tests refer to cases enumerated in the comments of
// backtrackBeforeAllVisibleElements.
it("handles case 1", function () {
const pages = makePages([
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
[tallPage, shortPage, tallPage, shortPage],
[
[10, 50],
[10, 50],
[10, 50],
[10, 50],
],
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
[[10, 20]],
]);
// binary search would land on the second row, first page
const bsResult = 4;
expect(
backtrackBeforeAllVisibleElements(bsResult, pages, top1)
).toEqual(4);
});
it("handles case 2", function () {
const pages = makePages([
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
[tallPage, shortPage, tallPage, tallPage],
[
[10, 50],
[10, 50],
[10, 50],
[10, 50],
],
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
]);
// binary search would land on the second row, third page
const bsResult = 6;
expect(
backtrackBeforeAllVisibleElements(bsResult, pages, top1)
).toEqual(4);
});
it("handles case 3", function () {
const pages = makePages([
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
[tallPage, shortPage, tallPage, shortPage],
[
[10, 50],
[10, 50],
[10, 50],
[10, 50],
],
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
]);
// binary search would land on the third row, first page
const bsResult = 8;
expect(
backtrackBeforeAllVisibleElements(bsResult, pages, top1)
).toEqual(4);
});
it("handles case 4", function () {
const pages = makePages([
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
[tallPage, shortPage, tallPage, shortPage],
[
[10, 50],
[10, 50],
[10, 50],
[10, 50],
],
[
[10, 20],
[10, 20],
[10, 20],
[10, 20],
],
]);
// binary search would land on the second row, first page
const bsResult = 4;
expect(
backtrackBeforeAllVisibleElements(bsResult, pages, top2)
).toEqual(4);
});
});
});
describe("moveToEndOfArray", function () {
it("works on empty arrays", function () {
const data = [];
moveToEndOfArray(data, function () {});
expect(data).toEqual([]);
});
it("works when moving everything", function () {
const data = [1, 2, 3, 4, 5];
moveToEndOfArray(data, function () {
return true;
});
expect(data).toEqual([1, 2, 3, 4, 5]);
});
it("works when moving some things", function () {
const data = [1, 2, 3, 4, 5];
moveToEndOfArray(data, function (x) {
return x % 2 === 0;
});
expect(data).toEqual([1, 3, 5, 2, 4]);
});
it("works when moving one thing", function () {
const data = [1, 2, 3, 4, 5];
moveToEndOfArray(data, function (x) {
return x === 1;
});
expect(data).toEqual([2, 3, 4, 5, 1]);
});
it("works when moving nothing", function () {
const data = [1, 2, 3, 4, 5];
moveToEndOfArray(data, function (x) {
return x === 0;
});
expect(data).toEqual([1, 2, 3, 4, 5]);
});
});
});
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