MediaWiki:Timeless.js
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/* Any JavaScript here will be loaded for all users on every page load. */
/** <pre>
* [NOTE: The below Javascript was stolen from https://oldschool.runescape.wiki/w/MediaWiki:Gadget-highlightTable-core.js on 10/28/2020 by User:Falterfire]
* highlightTable.js
*
* Description:
* Adds highlighting to tables
*
* History:
* - 1.0: Row highlighting - Quarenon
* - 1.1: Update from pengLocations.js v1.0 - Quarenon
* - 2.0: pengLocations v2.1, Granular cookie - Saftzie
* - 2.1: Made compatible with jquery.tablesorter - Cqm
* - 2.2: Switch to localStorage - Cqm
* - 3.0: Allow cell highlighting - mejrs
*
* @todo Allow the stored data to be coupled to the table in question. Currently the data is stored
* on the page itself, so if any tables are shuffled, the highlighting doesn't follow. For
* the same reason tables hosted on other pages are not synchronized.
*/
/**
* DATA STORAGE STRUCTURE
* ----------------------
*
* In its raw, uncompressed format, the stored data is as follows:
* {
* hashedPageName1: [
* [0, 1, 0, 1, 0, 1],
* [1, 0, 1, 0, 1, 0],
* [0, 0, 0, 0, 0, 0]
* ],
* hashedPageName2: [
* [0, 1, 0, 1, 0, 1],
* [1, 0, 1, 0, 1, 0],
* [0, 0, 0, 0, 0, 0]
* ]
* }
*
* Where `hashedPageNameX` is the value of wgPageName passed through our `hashString` function,
* the arrays of numbers representing tables on a page (from top to bottom) and the numbers
* representing whether a row is highlighted or not, depending on if it is 1 or 0 respectively.
*
* During compression, these numbers are collected into groups of 6 and converted to base64.
* For example:
*
* 1. [0, 1, 0, 1, 0, 1]
* 2. 0x010101 (1 + 4 + 16 = 21)
* 3. BASE_64_URL[21] (U)
*
* Once each table's rows have been compressed into strings, they are concatenated using `.` as a
* delimiter. The hashed page name (which is guaranteed to be 8 characters long) is then prepended
* to this string to look something like the following:
*
* XXXXXXXXab.dc.ef
*
*
* The first character of a hashed page name is then used to form the object that is actually
* stored. As the hashing function uses hexadecimal, this gives us 16 possible characters (0-9A-Z).
*
* {
* A: ...
* B: ...
* C: ...
* // etc.
* }
*
* The final step of compression is to merge each page's data together under it's respective top
* level key. this is done by concatenation again, separated by a `!`.
*
* The resulting object is then converted to a string and persisted in local storage. When
* uncompressing data, simply perform the following steps in reverse.
*
* For the implementation of this algorithm, see:
* - `compress`
* - `parse`
* - `hashString`
*
* Note that while rows could theoretically be compressed further by using all ASCII characters,
* eventually we'd start using characters outside printable ASCII which makes debugging painful.
*/
/*jshint bitwise:false, camelcase:true, curly:true, eqeqeq:true, es3:false,
forin:true, immed:true, indent:4, latedef:true, newcap:true,
noarg:true, noempty:true, nonew:true, plusplus:true, quotmark:single,
undef:true, unused:true, strict:true, trailing:true,
browser:true, devel:false, jquery:true,
onevar:true
*/
(function($, mw) {
'use strict';
var hasLocalStorage = function(){
try {
localStorage.setItem('test', 'test')
localStorage.removeItem('test')
return true
} catch (e) {
return false
}
}
// constants
var STORAGE_KEY = 'mi:lightTable',
TABLE_CLASS = 'lighttable',
LIGHT_ON_CLASS = 'highlight-on',
MOUSE_OVER_CLASS = 'highlight-over',
BASE_64_URL = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_',
PAGE_SEPARATOR = '!',
TABLE_SEPARATOR = '.',
CASTAGNOLI_POLYNOMIAL = 0x04c11db7,
UINT32_MAX = 0xffffffff,
self = {
/*
* Stores the current uncompressed data for the current page.
*/
data: null,
/*
* Perform initial checks on the page and browser.
*/
init: function() {
var $tables = $('table.' + TABLE_CLASS),
hashedPageName = self.hashString(mw.config.get('wgPageName'));
// check we have some tables to interact with
if (!$tables.length) {
return;
}
// check the browser supports local storage
if (!hasLocalStorage()) {
return;
}
self.data = self.load(hashedPageName, $tables.length);
self.initTables(hashedPageName, $tables);
},
/*
* Initialise table highlighting.
*
* @param hashedPageName The current page name as a hash.
* @param $tables A list of highlightable tables on the current page.
*/
initTables: function(hashedPageName, $tables) {
$tables.each(function(tIndex) {
var $this = $(this),
// data cells
$cells = $this.find('td'),
$rows = $this.find('tr:has(td)'),
// don't rely on headers to find number of columns
// count them dynamically
columns = 1,
tableData = self.data[tIndex],
mode = 'cells';
// Switching between either highlighting rows or cells
if (!$this.hasClass('individual')) {
mode = 'rows';
$cells = $rows;
}
// initialise rows if necessary
while ($cells.length > tableData.length) {
tableData.push(0);
}
// counting the column count
// necessary to determine colspan of reset button
$rows.each(function() {
var $this = $(this);
columns = Math.max(columns, $this.children('th,td').length);
});
$cells.each(function(cIndex) {
var $this = $(this),
cellData = tableData[cIndex];
// forbid highlighting any cells/rows that have class nohighlight
if (!$this.hasClass('nohighlight')) {
// initialize highlighting based on the cookie
self.setHighlight($this, cellData);
// set mouse events
$this
.mouseover(function() {
self.setHighlight($this, 2);
})
.mouseout(function() {
self.setHighlight($this, tableData[cIndex]);
})
.click(function(e) {
// don't toggle highlight when clicking links
if ((e.target.tagName !== 'A') && (e.target.tagName !== 'IMG')) {
// 1 -> 0
// 0 -> 1
tableData[cIndex] = 1 - tableData[cIndex];
self.setHighlight($this, tableData[cIndex]);
self.save(hashedPageName);
}
});
}
});
// add a button for reset
var button = new OO.ui.ButtonWidget({
label: 'Clear selection',
icon: 'clear',
title: 'Removes all highlights from the table',
classes: ['ht-reset'] // this class is targeted by other gadgets, be careful removing it
});
button.$element.click(function() {
$cells.each(function(cIndex) {
tableData[cIndex] = 0;
self.setHighlight($(this), 0);
});
self.save(hashedPageName, $tables.length);
});
$this.append(
$('<tfoot>')
.append(
$('<tr>')
.append(
$('<th>')
.attr('colspan', columns)
.append(button.$element)
)
)
);
});
},
/*
* Change the cell background color based on mouse events.
*
* @param $cell The cell element.
* @param val The value to control what class to add (if any).
* 0 -> light off (no class)
* 1 -> light on
* 2 -> mouse over
*/
setHighlight: function($cell, val) {
$cell.removeClass(MOUSE_OVER_CLASS);
$cell.removeClass(LIGHT_ON_CLASS);
switch (val) {
// light on
case 1:
$cell.addClass(LIGHT_ON_CLASS);
break;
// mouse-over
case 2:
$cell.addClass(MOUSE_OVER_CLASS);
break;
}
},
/*
* Merge the updated data for the current page into the data for other pages into local storage.
*
* @param hashedPageName A hash of the current page name.
*/
save: function(hashedPageName) {
// load the existing data so we know where to save it
var curData = localStorage.getItem(STORAGE_KEY),
compressedData;
if (curData === null) {
curData = {};
} else {
curData = JSON.parse(curData);
curData = self.parse(curData);
}
// merge in our updated data and compress it
curData[hashedPageName] = self.data;
compressedData = self.compress(curData);
// convert to a string and save to localStorage
compressedData = JSON.stringify(compressedData);
localStorage.setItem(STORAGE_KEY, compressedData);
},
/*
* Compress the entire data set using tha algoritm documented at the top of the page.
*
* @param data The data to compress.
*
* @return the compressed data.
*/
compress: function(data) {
var ret = {};
Object.keys(data).forEach(function(hashedPageName) {
var pageData = data[hashedPageName],
pageKey = hashedPageName.charAt(0);
if (!ret.hasOwnProperty(pageKey)) {
ret[pageKey] = {};
}
ret[pageKey][hashedPageName] = [];
pageData.forEach(function(tableData) {
var compressedTableData = '',
i, j, k;
for (i = 0; i < Math.ceil(tableData.length / 6); i += 1) {
k = tableData[6 * i];
for (j = 1; j < 6; j += 1) {
k = 2 * k + ((6 * i + j < tableData.length) ? tableData[6 * i + j] : 0);
}
compressedTableData += BASE_64_URL.charAt(k);
}
ret[pageKey][hashedPageName].push(compressedTableData);
});
ret[pageKey][hashedPageName] = ret[pageKey][hashedPageName].join(TABLE_SEPARATOR);
});
Object.keys(ret).forEach(function(pageKey) {
var hashKeys = Object.keys(ret[pageKey]),
hashedData = [];
hashKeys.forEach(function(key) {
var pageData = ret[pageKey][key];
hashedData.push(key + pageData);
});
hashedData = hashedData.join(PAGE_SEPARATOR);
ret[pageKey] = hashedData;
});
return ret;
},
/*
* Get the existing data for the current page.
*
* @param hashedPageName A hash of the current page name.
* @param numTables The number of tables on the current page. Used to ensure the loaded
* data matches the number of tables on the page thus handling cases
* where tables have been added or removed. This does not check the
* amount of rows in the given tables.
*
* @return The data for the current page.
*/
load: function(hashedPageName, numTables) {
var data = localStorage.getItem(STORAGE_KEY),
pageData;
if (data === null) {
pageData = [];
} else {
data = JSON.parse(data);
data = self.parse(data);
if (data.hasOwnProperty(hashedPageName)) {
pageData = data[hashedPageName];
} else {
pageData = [];
}
}
// if more tables were added
// add extra arrays to store the data in
// also populates if no existing data was found
while (numTables > pageData.length) {
pageData.push([]);
}
// if tables were removed, remove data from the end of the list
// as there's no way to tell which was removed
while (numTables < pageData.length) {
pageData.pop();
}
return pageData;
},
/*
* Parse the compressed data as loaded from local storage using the algorithm desribed
* at the top of the page.
*
* @param data The data to parse.
*
* @return the parsed data.
*/
parse: function(data) {
var ret = {};
Object.keys(data).forEach(function(pageKey) {
var pageData = data[pageKey].split(PAGE_SEPARATOR);
pageData.forEach(function(tableData) {
var hashedPageName = tableData.substr(0, 8);
tableData = tableData.substr(8).split(TABLE_SEPARATOR);
ret[hashedPageName] = [];
tableData.forEach(function(rowData, index) {
var i, j, k;
ret[hashedPageName].push([]);
for (i = 0; i < rowData.length; i += 1) {
k = BASE_64_URL.indexOf(rowData.charAt(i));
// input validation
if (k < 0) {
k = 0;
}
for (j = 5; j >= 0; j -= 1) {
ret[hashedPageName][index][6 * i + j] = (k & 0x1);
k >>= 1;
}
}
});
});
});
return ret;
},
/*
* Hash a string into a big endian 32 bit hex string. Used to hash page names.
*
* @param input The string to hash.
*
* @return the result of the hash.
*/
hashString: function(input) {
var ret = 0,
table = [],
i, j, k;
// guarantee 8-bit chars
input = window.unescape(window.encodeURI(input));
// calculate the crc (cyclic redundancy check) for all 8-bit data
// bit-wise operations discard anything left of bit 31
for (i = 0; i < 256; i += 1) {
k = (i << 24);
for (j = 0; j < 8; j += 1) {
k = (k << 1) ^ ((k >>> 31) * CASTAGNOLI_POLYNOMIAL);
}
table[i] = k;
}
// the actual calculation
for (i = 0; i < input.length; i += 1) {
ret = (ret << 8) ^ table[(ret >>> 24) ^ input.charCodeAt(i)];
}
// make negative numbers unsigned
if (ret < 0) {
ret += UINT32_MAX;
}
// 32-bit hex string, padded on the left
ret = '0000000' + ret.toString(16).toUpperCase();
ret = ret.substr(ret.length - 8);
return ret;
}
};
$(self.init);
/*
// sample data for testing the algorithm used
var data = {
// page1
'0FF47C63': [
[0, 1, 1, 0, 1, 0],
[0, 1, 1, 0, 1, 0, 1, 1, 1],
[0, 0, 0, 0, 1, 1, 0, 0]
],
// page2
'02B75ABA': [
[0, 1, 0, 1, 1, 0],
[1, 1, 1, 0, 1, 0, 1, 1, 0],
[0, 0, 1, 1, 0, 0, 0, 0]
],
// page3
'0676470D': [
[1, 0, 0, 1, 0, 1],
[1, 0, 0, 1, 0, 1, 0, 0, 0],
[1, 1, 1, 1, 0, 0, 1, 1]
]
};
console.log('input', data);
var compressedData = self.compress(data);
console.log('compressed', compressedData);
var parsedData = self.parse(compressedData);
console.log(parsedData);
*/
}(this.jQuery, this.mediaWiki));
// </pre>
//[This is the end of the section stolen from https://oldschool.runescape.wiki/w/MediaWiki:Gadget-highlightTable-core.js]
/* Sets the top property for stickyHeader tables */
function setStickyHeaderTop() {
const stickyTables = document.getElementsByClassName('stickyHeader');
const headHeight = document.getElementById('mw-header-container').offsetHeight;
for (var i = 0; i < stickyTables.length; i++) {
const firstRow = stickyTables[i].getElementsByClassName('headerRow-0');
const secondRow = stickyTables[i].getElementsByClassName('headerRow-1');
var firstHeight = 0;
if (firstRow.length > 0) {
firstHeight = firstRow[0].offsetHeight;
const firstHeaders = firstRow[0].getElementsByTagName('th');
for (var j = 0; j < firstHeaders.length; j++) {
firstHeaders[j].style.top = headHeight + 'px';
}
if (secondRow.length > 0) {
const secondHeaders = secondRow[0].getElementsByTagName('th');
var secondHeight = headHeight + firstHeight;
for (var j = 0; j < secondHeaders.length; j++) {
secondHeaders[j].style.top = secondHeight + 'px';
}
}
}
}
}
$(document).ready(function () {
if (document.getElementsByClassName("stickyHeader").length > 0) {
setStickyHeaderTop();
$(window).resize(setStickyHeaderTop);
}
const darkMode = localStorage.getItem("darkMode");
if (darkMode === "true") {
document.body.classList.add("darkMode");
} else {
document.body.classList.remove("darkMode");
}
$("#personal-inner").append('<button onClick="toggleDarkMode();" style="margin:.5rem!important;">Toggle Dark Mode</button>');
});
function toggleDarkMode() {
const darkMode = localStorage.getItem("darkMode");
if (darkMode !== "true") {
localStorage.setItem("darkMode", true);
document.body.classList.add("darkMode");
} else {
localStorage.setItem("darkMode", false);
document.body.classList.remove("darkMode");
}
}
