42 skills found · Page 1 of 2
vincentarelbundock / MarginaleffectsR package to compute and plot predictions, slopes, marginal means, and comparisons (contrasts, risk ratios, odds, etc.) for over 100 classes of statistical and ML models. Conduct linear and non-linear hypothesis tests, or equivalence tests. Calculate uncertainty estimates using the delta method, bootstrapping, or simulation-based inference
MrPowers / MackDelta Lake helper methods in PySpark
e10v / Tea TastingA Python package for the statistical analysis of A/B tests
thunlp / DeltaPapersMust-read Papers of Parameter-Efficient Tuning (Delta Tuning) Methods on Pre-trained Models.
Masudbro94 / Python Hacked Mobile Phone Open in app Get started ITNEXT Published in ITNEXT You have 2 free member-only stories left this month. Sign up for Medium and get an extra one Kush Kush Follow Apr 15, 2021 · 7 min read · Listen Save How you can Control your Android Device with Python Photo by Caspar Camille Rubin on Unsplash Photo by Caspar Camille Rubin on Unsplash Introduction A while back I was thinking of ways in which I could annoy my friends by spamming them with messages for a few minutes, and while doing some research I came across the Android Debug Bridge. In this quick guide I will show you how you can interface with it using Python and how to create 2 quick scripts. The ADB (Android Debug Bridge) is a command line tool (CLI) which can be used to control and communicate with an Android device. You can do many things such as install apps, debug apps, find hidden features and use a shell to interface with the device directly. To enable the ADB, your device must firstly have Developer Options unlocked and USB debugging enabled. To unlock developer options, you can go to your devices settings and scroll down to the about section and find the build number of the current software which is on the device. Click the build number 7 times and Developer Options will be enabled. Then you can go to the Developer Options panel in the settings and enable USB debugging from there. Now the only other thing you need is a USB cable to connect your device to your computer. Here is what todays journey will look like: Installing the requirements Getting started The basics of writing scripts Creating a selfie timer Creating a definition searcher Installing the requirements The first of the 2 things we need to install, is the ADB tool on our computer. This comes automatically bundled with Android Studio, so if you already have that then do not worry. Otherwise, you can head over to the official docs and at the top of the page there should be instructions on how to install it. Once you have installed the ADB tool, you need to get the python library which we will use to interface with the ADB and our device. You can install the pure-python-adb library using pip install pure-python-adb. Optional: To make things easier for us while developing our scripts, we can install an open-source program called scrcpy which allows us to display and control our android device with our computer using a mouse and keyboard. To install it, you can head over to the Github repo and download the correct version for your operating system (Windows, macOS or Linux). If you are on Windows, then extract the zip file into a directory and add this directory to your path. This is so we can access the program from anywhere on our system just by typing in scrcpy into our terminal window. Getting started Now that all the dependencies are installed, we can start up our ADB and connect our device. Firstly, connect your device to your PC with the USB cable, if USB debugging is enabled then a message should pop up asking if it is okay for your PC to control the device, simply answer yes. Then on your PC, open up a terminal window and start the ADB server by typing in adb start-server. This should print out the following messages: * daemon not running; starting now at tcp:5037 * daemon started successfully If you also installed scrcpy, then you can start that by just typing scrcpy into the terminal. However, this will only work if you added it to your path, otherwise you can open the executable by changing your terminal directory to the directory of where you installed scrcpy and typing scrcpy.exe. Hopefully if everything works out, you should be able to see your device on your PC and be able to control it using your mouse and keyboard. Now we can create a new python file and check if we can find our connected device using the library: Here we import the AdbClient class and create a client object using it. Then we can get a list of devices connected. Lastly, we get the first device out of our list (it is generally the only one there if there is only one device connected). The basics of writing scripts The main way we are going to interface with our device is using the shell, through this we can send commands to simulate a touch at a specific location or to swipe from A to B. To simulate screen touches (taps) we first need to work out how the screen coordinates work. To help with these we can activate the pointer location setting in the developer options. Once activated, wherever you touch on the screen, you can see that the coordinates for that point appear at the top. The coordinate system works like this: A diagram to show how the coordinate system works A diagram to show how the coordinate system works The top left corner of the display has the x and y coordinates (0, 0) respectively, and the bottom right corners’ coordinates are the largest possible values of x and y. Now that we know how the coordinate system works, we need to check out the different commands we can run. I have made a list of commands and how to use them below for quick reference: Input tap x y Input text “hello world!” Input keyevent eventID Here is a list of some common eventID’s: 3: home button 4: back button 5: call 6: end call 24: volume up 25: volume down 26: turn device on or off 27: open camera 64: open browser 66: enter 67: backspace 207: contacts 220: brightness down 221: brightness up 277: cut 278: copy 279: paste If you wanted to find more, here is a long list of them here. Creating a selfie timer Now we know what we can do, let’s start doing it. In this first example I will show you how to create a quick selfie timer. To get started we need to import our libraries and create a connect function to connect to our device: You can see that the connect function is identical to the previous example of how to connect to your device, except here we return the device and client objects for later use. In our main code, we can call the connect function to retrieve the device and client objects. From there we can open up the camera app, wait 5 seconds and take a photo. It’s really that simple! As I said before, this is simply replicating what you would usually do, so thinking about how to do things is best if you do them yourself manually first and write down the steps. Creating a definition searcher We can do something a bit more complex now, and that is to ask the browser to find the definition of a particular word and take a screenshot to save it on our computer. The basic flow of this program will be as such: 1. Open the browser 2. Click the search bar 3. Enter the search query 4. Wait a few seconds 5. Take a screenshot and save it But, before we get started, you need to find the coordinates of your search bar in your default browser, you can use the method I suggested earlier to find them easily. For me they were (440, 200). To start, we will have to import the same libraries as before, and we will also have our same connect method. In our main function we can call the connect function, as well as assign a variable to the x and y coordinates of our search bar. Notice how this is a string and not a list or tuple, this is so we can easily incorporate the coordinates into our shell command. We can also take an input from the user to see what word they want to get the definition for: We will add that query to a full sentence which will then be searched, this is so that we can always get the definition. After that we can open the browser and input our search query into the search bar as such: Here we use the eventID 66 to simulate the press of the enter key to execute our search. If you wanted to, you could change the wait timings per your needs. Lastly, we will take a screenshot using the screencap method on our device object, and we can save that as a .png file: Here we must open the file in the write bytes mode because the screencap method returns bytes representing the image. If all went according to plan, you should have a quick script which searches for a specific word. Here it is working on my phone: A GIF to show how the definition searcher example works on my phone A GIF to show how the definition searcher example works on my phone Final thoughts Hopefully you have learned something new today, personally I never even knew this was a thing before I did some research into it. The cool thing is, that you can do anything you normal would be able to do, and more since it just simulates your own touches and actions! I hope you enjoyed the article and thank you for reading! 💖 468 9 468 9 More from ITNEXT Follow ITNEXT is a platform for IT developers & software engineers to share knowledge, connect, collaborate, learn and experience next-gen technologies. Sabrina Amrouche Sabrina Amrouche ·Apr 15, 2021 Using the Spotify Algorithm to Find High Energy Physics Particles Python 5 min read Using the Spotify Algorithm to Find High Energy Physics Particles Wenkai Fan Wenkai Fan ·Apr 14, 2021 Responsive design at different levels in Flutter Flutter 3 min read Responsive design at different levels in Flutter Abhishek Gupta Abhishek Gupta ·Apr 14, 2021 Getting started with Kafka and Rust: Part 2 Kafka 9 min read Getting started with Kafka and Rust: Part 2 Adriano Raiano Adriano Raiano ·Apr 14, 2021 How to properly internationalize a React application using i18next React 17 min read How to properly internationalize a React application using i18next Gary A. Stafford Gary A. Stafford ·Apr 14, 2021 AWS IoT Core for LoRaWAN, AWS IoT Analytics, and Amazon QuickSight Lora 11 min read AWS IoT Core for LoRaWAN, Amazon IoT Analytics, and Amazon QuickSight Read more from ITNEXT Recommended from Medium Morpheus Morpheus Morpheus Swap — Resurrection Ashutosh Kumar Ashutosh Kumar GIT Branching strategies and GitFlow Balachandar Paulraj Balachandar Paulraj Delta Lake Clones: Systematic Approach for Testing, Sharing data Jason Porter Jason Porter Week 3 -Yieldly No-Loss Lottery Results Casino slot machines Mikolaj Szabó Mikolaj Szabó in HackerNoon.com Why functional programming matters Tt Tt Set Up LaTeX on Mac OS X Sierra Goutham Pratapa Goutham Pratapa Upgrade mongo to the latest build Julia Says Julia Says in Top Software Developers in the World How to Choose a Software Vendor AboutHelpTermsPrivacy Get the Medium app A button that says 'Download on the App Store', and if clicked it will lead you to the iOS App store A button that says 'Get it on, Google Play', and if clicked it will lead you to the Google Play store
btschwertfeger / Python CmethodsA collection of bias correction techniques written in Python - for climate sciences.
Blue-Universe / Time Series Analysis Statistical ArbitrageThis project used GARCH type models to estimate volatility and used delta hedging method to make a profit.
Cognitive-AI-Systems / MAPF GPT DDG[IROS-2025] MAPF-GPT-DDG is a scalable decentralized multi-agent pathfinding (MAPF) solver based on imitation learning. It builds upon MAPF-GPT by introducing a novel fine-tuning method called Delta Data Generation (DDG) — a reward-free active learning approach that identifies and corrects failure cases in the policy.
EliSchwartz / DeltaEncoderThis is the tensorflow implementation for the paper "Delta-encoder: an effective sample synthesis method for few-shot object recognition" https://arxiv.org/abs/1806.04734
amir-f / Delta SimrankCalculate SimRank for a Networkx graph using the Delta Simrank method within MapReduce framework
mrpowers-io / JodieDelta lake and filesystem helper methods
fastdatascience / FaststylometryStylometry library for Burrows' Delta method
Kalvar / MLDeltaLearningMachine Learning in Ruby implemented Delta Learning method.
Myndex / Deltaphistar𝜟𝜱✴︎ or Delta Phi Star is a variant method of determining lightness contrast, and a sibling of APCA and SACAM. It is a simplified version using easily invertible standardized maths, however it lacks some useful properties such as polarity sensitivity. In fact, it is intended for applications where a "general" simplifed perceptual contrast is desired, where polarity sensitivity is not needed (or is ambiguous).
brianlaiii / VectorDisplacementTransferA blendShape delta transfer tool that preserves local vertex rotations, ensuring more natural deformation propagation compared to traditional world-space methods.
Gabriel1231n2j3n / Hacks Para Krunker// ==UserScript== // @name aimbot gratis para krunker.io // @description Este es el mejor aimbot mod menuq puedas obtener // @version 2.19 // @author Gabriel - // @iconURL 31676a4e532e706e673f7261773d74727565.png // @match *://krunker.io/* // @exclude *://krunker.io/editor* // @exclude *://krunker.io/social* // @run-at document-start // @grant none // @noframes // ==/UserScript== /* eslint-env es6 */ /* eslint-disable no-caller, no-undef, no-loop-func */ var CRC2d = CanvasRenderingContext2D.prototype; var skid, skidStr = [...Array(8)].map(_ => 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ'[~~(Math.random()*52)]).join(''); class Skid { constructor() { skid = this; this.downKeys = new Set(); this.settings = null; this.vars = {}; this.playerMaps = []; this.skinCache = {}; this.inputFrame = 0; this.renderFrame = 0; this.fps = 0; this.lists = { renderESP: { off: "Off", walls: "Walls", twoD: "2d", full: "Full" }, renderChams: { off: "Off", white: "White", blue: "Blue", teal: "Teal", purple: "Purple", green: "Green", yellow: "Yellow", red: "Red", }, autoBhop: { off: "Off", autoJump: "Auto Jump", keyJump: "Key Jump", autoSlide: "Auto Slide", keySlide: "Key Slide" }, autoAim: { off: "Off", correction: "Aim Correction", assist: "Legit Aim Assist", easyassist: "Easy Aim Assist", silent: "Silent Aim", trigger: "Trigger Bot", quickScope: "Quick Scope" }, audioStreams: { off: 'Off', _2000s: 'General German/English', _HipHopRNB: 'Hip Hop / RNB', _Oldskool: 'Hip Hop Oldskool', _Country: 'Country', _Pop: 'Pop', _Dance: 'Dance', _Dubstep: 'DubStep', _Lowfi: 'LoFi HipHop', _Jazz: 'Jazz', _Oldies: 'Golden Oldies', _Club: 'Club', _Folk: 'Folk', _ClassicRock: 'Classic Rock', _Metal: 'Heavy Metal', _DeathMetal: 'Death Metal', _Classical: 'Classical', _Alternative: 'Alternative', }, } this.consts = { twoPI: Math.PI * 2, halfPI: Math.PI / 2, playerHeight: 11, cameraHeight: 1.5, headScale: 2, armScale: 1.3, armInset: 0.1, chestWidth: 2.6, hitBoxPad: 1, crouchDst: 3, recoilMlt: 0.3, nameOffset: 0.6, nameOffsetHat: 0.8, }; this.key = { frame: 0, delta: 1, xdir: 2, ydir: 3, moveDir: 4, shoot: 5, scope: 6, jump: 7, reload: 8, crouch: 9, weaponScroll: 10, weaponSwap: 11, moveLock: 12 }; this.css = { noTextShadows: `*, .button.small, .bigShadowT { text-shadow: none !important; }`, hideAdverts: `#aMerger, #endAMerger { display: none !important }`, hideSocials: `.headerBarRight > .verticalSeparator, .imageButton { display: none }`, cookieButton: `#onetrust-consent-sdk { display: none !important }`, newsHolder: `#newsHolder { display: none !important }`, }; this.isProxy = Symbol("isProxy"); this.spinTimer = 1800; let wait = setInterval(_ => { this.head = document.head||document.getElementsByTagName('head')[0] if (this.head) { clearInterval(wait); Object.entries(this.css).forEach(entry => { this.css[entry[0]] = this.createElement("style", entry[1]); }) this.onLoad(); } }, 100); } canStore() { return this.isDefined(Storage); } saveVal(name, val) { if (this.canStore()) localStorage.setItem("kro_utilities_"+name, val); } deleteVal(name) { if (this.canStore()) localStorage.removeItem("kro_utilities_"+name); } getSavedVal(name) { if (this.canStore()) return localStorage.getItem("kro_utilities_"+name); return null; } isType(item, type) { return typeof item === type; } isDefined(object) { return !this.isType(object, "undefined") && object !== null; } isNative(fn) { return (/^function\s*[a-z0-9_\$]*\s*\([^)]*\)\s*\{\s*\[native code\]\s*\}/i).test('' + fn) } getStatic(s, d) { return this.isDefined(s) ? s : d } crossDomain(url) { return "https://crossorigin.me/" + url; } async waitFor(test, timeout_ms = 20000, doWhile = null) { let sleep = (ms) => new Promise((resolve) => setTimeout(resolve, ms)); return new Promise(async (resolve, reject) => { if (typeof timeout_ms != "number") reject("Timeout argument not a number in waitFor(selector, timeout_ms)"); let result, freq = 100; while (result === undefined || result === false || result === null || result.length === 0) { if (doWhile && doWhile instanceof Function) doWhile(); if (timeout_ms % 1000 < freq) console.log("waiting for: ", test); if ((timeout_ms -= freq) < 0) { console.log( "Timeout : ", test ); resolve(false); return; } await sleep(freq); result = typeof test === "string" ? Function(test)() : test(); } console.log("Passed : ", test); resolve(result); }); }; createSettings() { this.settings = { //Rendering showSkidBtn: { pre: "<div class='setHed'>Rendering</div>", name: "Show Skid Button", val: true, html: () => this.generateSetting("checkbox", "showSkidBtn", this), set: (value, init) => { let button = document.getElementById("mainButton"); if (!button) { button = this.createButton("5k1D", "https://i.imgur.com/1tWAEJx.gif", this.toggleMenu, value) } else button.style.display = value ? "inherit" : "none"; } }, hideAdverts: { name: "Hide Advertisments", val: true, html: () => this.generateSetting("checkbox", "hideAdverts", this), set: (value, init) => { if (value) this.head.appendChild(this.css.hideAdverts) else if (!init) this.css.hideAdverts.remove() } }, hideStreams: { name: "Hide Streams", val: false, html: () => this.generateSetting("checkbox", "hideStreams", this), set: (value) => { window.streamContainer.style.display = value ? "none" : "inherit" } }, hideMerch: { name: "Hide Merch", val: false, html: () => this.generateSetting("checkbox", "hideMerch", this), set: value => { window.merchHolder.style.display = value ? "none" : "inherit" } }, hideNewsConsole: { name: "Hide News Console", val: false, html: () => this.generateSetting("checkbox", "hideNewsConsole", this), set: value => { window.newsHolder.style.display = value ? "none" : "inherit" } }, hideCookieButton: { name: "Hide Security Manage Button", val: false, html: () => this.generateSetting("checkbox", "hideCookieButton", this), set: value => { window['onetrust-consent-sdk'].style.display = value ? "none" : "inherit" } }, noTextShadows: { name: "Remove Text Shadows", val: false, html: () => this.generateSetting("checkbox", "noTextShadows", this), set: (value, init) => { if (value) this.head.appendChild(this.css.noTextShadows) else if (!init) this.css.noTextShadows.remove() } }, customCSS: { name: "Custom CSS", val: "", html: () => this.generateSetting("url", "customCSS", "URL to CSS file"), resources: { css: document.createElement("link") }, set: (value, init) => { if (value.startsWith("http")&&value.endsWith(".css")) { //let proxy = 'https://cors-anywhere.herokuapp.com/'; this.settings.customCSS.resources.css.href = value } if (init) { this.settings.customCSS.resources.css.rel = "stylesheet" try { this.head.appendChild(this.settings.customCSS.resources.css) } catch(e) { alert(e) this.settings.customCSS.resources.css = null } } } }, renderESP: { name: "Player ESP Type", val: "off", html: () => this.generateSetting("select", "renderESP", this.lists.renderESP), }, renderTracers: { name: "Player Tracers", val: false, html: () => this.generateSetting("checkbox", "renderTracers"), }, rainbowColor: { name: "Rainbow ESP", val: false, html: () => this.generateSetting("checkbox", "rainbowColor"), }, renderChams: { name: "Player Chams", val: "off", html: () => this.generateSetting( "select", "renderChams", this.lists.renderChams ), }, renderWireFrame: { name: "Player Wireframe", val: false, html: () => this.generateSetting("checkbox", "renderWireFrame"), }, customBillboard: { name: "Custom Billboard Text", val: "", html: () => this.generateSetting( "text", "customBillboard", "Custom Billboard Text" ), }, //Weapon autoReload: { pre: "<br><div class='setHed'>Weapon</div>", name: "Auto Reload", val: false, html: () => this.generateSetting("checkbox", "autoReload"), }, autoAim: { name: "Auto Aim Type", val: "off", html: () => this.generateSetting("select", "autoAim", this.lists.autoAim), }, frustrumCheck: { name: "Line of Sight Check", val: false, html: () => this.generateSetting("checkbox", "frustrumCheck"), }, wallPenetrate: { name: "Aim through Penetratables", val: false, html: () => this.generateSetting("checkbox", "wallPenetrate"), }, weaponZoom: { name: "Weapon Zoom", val: 1.0, min: 0, max: 50.0, step: 0.01, html: () => this.generateSetting("slider", "weaponZoom"), set: (value) => { if (this.renderer) this.renderer.adsFovMlt = value;} }, weaponTrails: { name: "Weapon Trails", val: false, html: () => this.generateSetting("checkbox", "weaponTrails"), set: (value) => { if (this.me) this.me.weapon.trail = value;} }, //Player autoBhop: { pre: "<br><div class='setHed'>Player</div>", name: "Auto Bhop Type", val: "off", html: () => this.generateSetting("select", "autoBhop", this.lists.autoBhop), }, thirdPerson: { name: "Third Person", val: false, html: () => this.generateSetting("checkbox", "thirdPerson"), set: (value, init) => { if (value) this.thirdPerson = 1; else if (!init) this.thirdPerson = undefined; } }, skinUnlock: { name: "Unlock Skins", val: false, html: () => this.generateSetting("checkbox", "skinUnlock", this), }, //GamePlay disableWpnSnd: { pre: "<br><div class='setHed'>GamePlay</div>", name: "Disable Players Weapon Sounds", val: false, html: () => this.generateSetting("checkbox", "disableWpnSnd", this), }, disableHckSnd: { name: "Disable Hacker Fart Sounds", val: false, html: () => this.generateSetting("checkbox", "disableHckSnd", this), }, autoActivateNuke: { name: "Auto Activate Nuke", val: false, html: () => this.generateSetting("checkbox", "autoActivateNuke", this), }, autoFindNew: { name: "New Lobby Finder", val: false, html: () => this.generateSetting("checkbox", "autoFindNew", this), }, autoClick: { name: "Auto Start Game", val: false, html: () => this.generateSetting("checkbox", "autoClick", this), }, inActivity: { name: "No InActivity Kick", val: true, html: () => this.generateSetting("checkbox", "autoClick", this), }, //Radio Stream Player playStream: { pre: "<br><div class='setHed'>Radio Stream Player</div>", name: "Stream Select", val: "off", html: () => this.generateSetting("select", "playStream", this.lists.audioStreams), set: (value) => { if (value == "off") { if ( this.settings.playStream.audio ) { this.settings.playStream.audio.pause(); this.settings.playStream.audio.currentTime = 0; this.settings.playStream.audio = null; } return; } let url = this.settings.playStream.urls[value]; if (!this.settings.playStream.audio) { this.settings.playStream.audio = new Audio(url); this.settings.playStream.audio.volume = this.settings.audioVolume.val||0.5 } else { this.settings.playStream.audio.src = url; } this.settings.playStream.audio.load(); this.settings.playStream.audio.play(); }, urls: { _2000s: 'http://0n-2000s.radionetz.de/0n-2000s.aac', _HipHopRNB: 'https://stream-mixtape-geo.ntslive.net/mixtape2', _Country: 'https://live.wostreaming.net/direct/wboc-waaifmmp3-ibc2', _Dance: 'http://streaming.radionomy.com/A-RADIO-TOP-40', _Pop: 'http://bigrradio.cdnstream1.com/5106_128', _Jazz: 'http://strm112.1.fm/ajazz_mobile_mp3', _Oldies: 'http://strm112.1.fm/60s_70s_mobile_mp3', _Club: 'http://strm112.1.fm/club_mobile_mp3', _Folk: 'https://freshgrass.streamguys1.com/irish-128mp3', _ClassicRock: 'http://1a-classicrock.radionetz.de/1a-classicrock.mp3', _Metal: 'http://streams.radiobob.de/metalcore/mp3-192', _DeathMetal: 'http://stream.laut.fm/beatdownx', _Classical: 'http://live-radio01.mediahubaustralia.com/FM2W/aac/', _Alternative: 'http://bigrradio.cdnstream1.com/5187_128', _Dubstep: 'http://streaming.radionomy.com/R1Dubstep?lang=en', _Lowfi: 'http://streams.fluxfm.de/Chillhop/mp3-256', _Oldskool: 'http://streams.90s90s.de/hiphop/mp3-128/', }, audio: null, }, audioVolume: { name: "Radio Volume", val: 0.5, min: 0, max: 1, step: 0.01, html: () => this.generateSetting("slider", "audioVolume"), set: (value) => { if (this.settings.playStream.audio) this.settings.playStream.audio.volume = value;} }, }; // Inject Html let waitForWindows = setInterval(_ => { if (window.windows) { const menu = window.windows[11]; menu.header = "Settings"; menu.gen = _ => { var tmpHTML = `<div style='text-align:center'> <a onclick='window.open("https://skidlamer.github.io/")' class='menuLink'>SkidFest Settings</center></a> <hr> </div>`; for (const key in this.settings) { if (this.settings[key].pre) tmpHTML += this.settings[key].pre; tmpHTML += "<div class='settName' id='" + key + "_div' style='display:" + (this.settings[key].hide ? 'none' : 'block') + "'>" + this.settings[key].name + " " + this.settings[key].html() + "</div>"; } tmpHTML += `<br><hr><a onclick='${skidStr}.resetSettings()' class='menuLink'>Reset Settings</a> | <a onclick='${skidStr}.saveScript()' class='menuLink'>Save GameScript</a>` return tmpHTML; }; clearInterval(waitForWindows); //this.createButton("5k1D", "https://i.imgur.com/1tWAEJx.gif", this.toggleMenu) } }, 100); // setupSettings for (const key in this.settings) { this.settings[key].def = this.settings[key].val; if (!this.settings[key].disabled) { let tmpVal = this.getSavedVal(key); this.settings[key].val = tmpVal !== null ? tmpVal : this.settings[key].val; if (this.settings[key].val == "false") this.settings[key].val = false; if (this.settings[key].val == "true") this.settings[key].val = true; if (this.settings[key].val == "undefined") this.settings[key].val = this.settings[key].def; if (this.settings[key].set) this.settings[key].set(this.settings[key].val, true); } } } generateSetting(type, name, extra) { switch (type) { case 'checkbox': return `<label class="switch"><input type="checkbox" onclick="${skidStr}.setSetting('${name}', this.checked)" ${this.settings[name].val ? 'checked' : ''}><span class="slider"></span></label>`; case 'slider': return `<span class='sliderVal' id='slid_utilities_${name}'>${this.settings[name].val}</span><div class='slidecontainer'><input type='range' min='${this.settings[name].min}' max='${this.settings[name].max}' step='${this.settings[name].step}' value='${this.settings[name].val}' class='sliderM' oninput="${skidStr}.setSetting('${name}', this.value)"></div>` case 'select': { let temp = `<select onchange="${skidStr}.setSetting(\x27${name}\x27, this.value)" class="inputGrey2">`; for (let option in extra) { temp += '<option value="' + option + '" ' + (option == this.settings[name].val ? 'selected' : '') + '>' + extra[option] + '</option>'; } temp += '</select>'; return temp; } default: return `<input type="${type}" name="${type}" id="slid_utilities_${name}"\n${'color' == type ? 'style="float:right;margin-top:5px"' : `class="inputGrey2" placeholder="${extra}"`}\nvalue="${this.settings[name].val}" oninput="${skidStr}.setSetting(\x27${name}\x27, this.value)"/>`; } } resetSettings() { if (confirm("Are you sure you want to reset all your settings? This will also refresh the page")) { Object.keys(localStorage).filter(x => x.includes("kro_utilities_")).forEach(x => localStorage.removeItem(x)); location.reload(); } } setSetting(t, e) { this.settings[t].val = e; this.saveVal(t, e); if (document.getElementById(`slid_utilities_${t}`)) document.getElementById(`slid_utilities_${t}`).innerHTML = e; if (this.settings[t].set) this.settings[t].set(e); } createObserver(elm, check, callback, onshow = true) { return new MutationObserver((mutationsList, observer) => { if (check == 'src' || onshow && mutationsList[0].target.style.display == 'block' || !onshow) { callback(mutationsList[0].target); } }).observe(elm, check == 'childList' ? {childList: true} : {attributes: true, attributeFilter: [check]}); } createListener(elm, type, callback = null) { if (!this.isDefined(elm)) { alert("Failed creating " + type + "listener"); return } elm.addEventListener(type, event => callback(event)); } createElement(element, attribute, inner) { if (!this.isDefined(element)) { return null; } if (!this.isDefined(inner)) { inner = ""; } let el = document.createElement(element); if (this.isType(attribute, 'object')) { for (let key in attribute) { el.setAttribute(key, attribute[key]); } } if (!Array.isArray(inner)) { inner = [inner]; } for (let i = 0; i < inner.length; i++) { if (inner[i].tagName) { el.appendChild(inner[i]); } else { el.appendChild(document.createTextNode(inner[i])); } } return el; } createButton(name, iconURL, fn, visible) { visible = visible ? "inherit":"none"; let menu = document.querySelector("#menuItemContainer"); let icon = this.createElement("div",{"class":"menuItemIcon", "style":`background-image:url("${iconURL}");display:inherit;`}); let title= this.createElement("div",{"class":"menuItemTitle", "style":`display:inherit;`}, name); let host = this.createElement("div",{"id":"mainButton", "class":"menuItem", "onmouseenter":"playTick()", "onclick":"showWindow(12)", "style":`display:${visible};`},[icon, title]); if (menu) menu.append(host) } objectHas(obj, arr) { return arr.some(prop => obj.hasOwnProperty(prop)); } getVersion() { const elems = document.getElementsByClassName('terms'); const version = elems[elems.length - 1].innerText; return version; } saveAs(name, data) { let blob = new Blob([data], {type: 'text/plain'}); let el = window.document.createElement("a"); el.href = window.URL.createObjectURL(blob); el.download = name; window.document.body.appendChild(el); el.click(); window.document.body.removeChild(el); } saveScript() { this.fetchScript().then(script => { this.saveAs("game_" + this.getVersion() + ".js", script) }) } isKeyDown(key) { return this.downKeys.has(key); } simulateKey(keyCode) { var oEvent = document.createEvent('KeyboardEvent'); // Chromium Hack Object.defineProperty(oEvent, 'keyCode', { get : function() { return this.keyCodeVal; } }); Object.defineProperty(oEvent, 'which', { get : function() { return this.keyCodeVal; } }); if (oEvent.initKeyboardEvent) { oEvent.initKeyboardEvent("keypress", true, true, document.defaultView, keyCode, keyCode, "", "", false, ""); } else { oEvent.initKeyEvent("keypress", true, true, document.defaultView, false, false, false, false, keyCode, 0); } oEvent.keyCodeVal = keyCode; if (oEvent.keyCode !== keyCode) { alert("keyCode mismatch " + oEvent.keyCode + "(" + oEvent.which + ")"); } document.body.dispatchEvent(oEvent); } toggleMenu() { let lock = document.pointerLockElement || document.mozPointerLockElement; if (lock) document.exitPointerLock(); window.showWindow(12); if (this.isDefined(window.SOUND)) window.SOUND.play(`tick_0`,0.1) } onLoad() { this.createSettings(); this.createObservers(); this.waitFor(_=>this.isDefined(this.exports)).then(_=> { if (!this.isDefined(this.exports)) { alert("This Mod Needs To Be Updated Please Try Agian Later"); return; } //console.dir(this.exports); let toFind = { overlay: ["render", "canvas"], config: ["accAnnounce", "availableRegions", "assetCat"], three: ["ACESFilmicToneMapping", "TextureLoader", "ObjectLoader"], ws: ["socketReady", "ingressPacketCount", "ingressPacketCount", "egressDataSize"], utility: ["VectorAdd", "VectorAngleSign"], //colors: ["challLvl", "getChallCol"], //ui: ["showEndScreen", "toggleControlUI", "toggleEndScreen", "updatePlayInstructions"], //events: ["actions", "events"], } for (let rootKey in this.exports) { let exp = this.exports[rootKey].exports; for (let name in toFind) { if (this.objectHas(exp, toFind[name])) { console.log("Found Export ", name); delete toFind[name]; this[name] = exp; } } } if (!(Object.keys(toFind).length === 0 && toFind.constructor === Object)) { for (let name in toFind) { alert("Failed To Find Export " + name); } } else { Object.defineProperty(this.config, "nameVisRate", { value: 0, writable: false, configurable: true, }) this.ctx = this.overlay.canvas.getContext('2d'); this.overlay.render = new Proxy(this.overlay.render, { apply: function(target, that, args) { return [target.apply(that, args), render.apply(that, args)] } }) function render(scale, game, controls, renderer, me) { let width = skid.overlay.canvas.width / scale; let height = skid.overlay.canvas.height / scale; const renderArgs = [scale, game, controls, renderer, me]; if (renderArgs && void 0 !== skid) { ["scale", "game", "controls", "renderer", "me"].forEach((item, index)=>{ skid[item] = renderArgs[index]; }); if (me) { skid.ctx.save(); skid.ctx.scale(scale, scale); //this.ctx.clearRect(0, 0, width, height); skid.onRender(); //window.requestAnimationFrame.call(window, renderArgs.callee.caller.bind(this)); skid.ctx.restore(); } if(skid.settings && skid.settings.autoClick.val && window.endUI.style.display == "none" && window.windowHolder.style.display == "none") { controls.toggle(true); } } } // Skins const $skins = Symbol("skins"); Object.defineProperty(Object.prototype, "skins", { set: function(fn) { this[$skins] = fn; if (void 0 == this.localSkins || !this.localSkins.length) { this.localSkins = Array.apply(null, Array(5e3)).map((x, i) => { return { ind: i, cnt: 0x1, } }) } return fn; }, get: function() { return skid.settings.skinUnlock.val && this.stats ? this.localSkins : this[$skins]; } }) this.waitFor(_=>this.ws.connected === true, 40000).then(_=> { this.ws.__event = this.ws._dispatchEvent.bind(this.ws); this.ws.__send = this.ws.send.bind(this.ws); this.ws.send = new Proxy(this.ws.send, { apply: function(target, that, args) { if (args[0] == "ah2") return; try { var original_fn = Function.prototype.apply.apply(target, [that, args]); } catch (e) { e.stack = e.stack = e.stack.replace(/\n.*Object\.apply.*/, ''); throw e; } if (args[0] === "en") { skid.skinCache = { main: args[1][2][0], secondary: args[1][2][1], hat: args[1][3], body: args[1][4], knife: args[1][9], dye: args[1][14], waist: args[1][17], } } return original_fn; } }) this.ws._dispatchEvent = new Proxy(this.ws._dispatchEvent, { apply: function(target, that, [type, event]) { if (type =="init") { if(event[10] && event[10].length && event[10].bill && skid.settings.customBillboard.val.length > 1) { event[10].bill.txt = skid.settings.customBillboard.val; } } if (skid.settings.skinUnlock.val && skid.skinCache && type === "0") { let skins = skid.skinCache; let pInfo = event[0]; let pSize = 38; while (pInfo.length % pSize !== 0) pSize++; for(let i = 0; i < pInfo.length; i += pSize) { if (pInfo[i] === skid.ws.socketId||0) { pInfo[i + 12] = [skins.main, skins.secondary]; pInfo[i + 13] = skins.hat; pInfo[i + 14] = skins.body; pInfo[i + 19] = skins.knife; pInfo[i + 24] = skins.dye; pInfo[i + 33] = skins.waist; } } } return target.apply(that, arguments[2]); } }) }) if (this.isDefined(window.SOUND)) { window.SOUND.play = new Proxy(window.SOUND.play, { apply: function(target, that, [src, vol, loop, rate]) { if ( src.startsWith("fart_") && skid.settings.disableHckSnd.val ) return; return target.apply(that, [src, vol, loop, rate]); } }) } AudioParam.prototype.setValueAtTime = new Proxy(AudioParam.prototype.setValueAtTime, { apply: function(target, that, [value, startTime]) { return target.apply(that, [value, 0]); } }) this.rayC = new this.three.Raycaster(); this.vec2 = new this.three.Vector2(0, 0); } }) } gameJS(script) { let entries = { // Deobfu inView: { regex: /(\w+\['(\w+)']\){if\(\(\w+=\w+\['\w+']\['position']\['clone']\(\))/, index: 2 }, spectating: { regex: /\['team']:window\['(\w+)']/, index: 1 }, //inView: { regex: /\]\)continue;if\(!\w+\['(.+?)\']\)continue;/, index: 1 }, //canSee: { regex: /\w+\['(\w+)']\(\w+,\w+\['x'],\w+\['y'],\w+\['z']\)\)&&/, index: 1 }, //procInputs: { regex: /this\['(\w+)']=function\((\w+),(\w+),\w+,\w+\){(this)\['recon']/, index: 1 }, aimVal: { regex: /this\['(\w+)']-=0x1\/\(this\['weapon']\['\w+']\/\w+\)/, index: 1 }, pchObjc: { regex: /0x0,this\['(\w+)']=new \w+\['Object3D']\(\),this/, index: 1 }, didShoot: { regex: /--,\w+\['(\w+)']=!0x0/, index: 1 }, nAuto: { regex: /'Single\\x20Fire','varN':'(\w+)'/, index: 1 }, crouchVal: { regex: /this\['(\w+)']\+=\w\['\w+']\*\w+,0x1<=this\['\w+']/, index: 1 }, recoilAnimY: { regex: /\+\(-Math\['PI']\/0x4\*\w+\+\w+\['(\w+)']\*\w+\['\w+']\)\+/, index: 1 }, //recoilAnimY: { regex: /this\['recoilAnim']=0x0,this\[(.*?\(''\))]/, index: 1 }, ammos: { regex: /\['length'];for\(\w+=0x0;\w+<\w+\['(\w+)']\['length']/, index: 1 }, weaponIndex: { regex: /\['weaponConfig']\[\w+]\['secondary']&&\(\w+\['(\w+)']==\w+/, index: 1 }, isYou: { regex: /0x0,this\['(\w+)']=\w+,this\['\w+']=!0x0,this\['inputs']/, index: 1 }, objInstances: { regex: /\w+\['\w+']\(0x0,0x0,0x0\);if\(\w+\['(\w+)']=\w+\['\w+']/, index: 1 }, getWorldPosition: { regex: /{\w+=\w+\['camera']\['(\w+)']\(\);/, index: 1 }, //mouseDownL: { regex: /this\['\w+'\]=function\(\){this\['(\w+)'\]=\w*0,this\['(\w+)'\]=\w*0,this\['\w+'\]={}/, index: 1 }, mouseDownR: { regex: /this\['(\w+)']=0x0,this\['keys']=/, index: 1 }, //reloadTimer: { regex: /this\['(\w+)']&&\(\w+\['\w+']\(this\),\w+\['\w+']\(this\)/, index: 1 }, maxHealth: { regex: /this\['health']\/this\['(\w+)']\?/, index: 1 }, xDire: { regex: /this\['(\w+)']=Math\['lerpAngle']\(this\['xDir2']/, index: 1 }, yDire: { regex: /this\['(\w+)']=Math\['lerpAngle']\(this\['yDir2']/, index: 1 }, //xVel: { regex: /this\['x']\+=this\['(\w+)']\*\w+\['map']\['config']\['speedX']/, index: 1 }, yVel: { regex: /this\['y']\+=this\['(\w+)']\*\w+\['map']\['config']\['speedY']/, index: 1 }, //zVel: { regex: /this\['z']\+=this\['(\w+)']\*\w+\['map']\['config']\['speedZ']/, index: 1 }, // Patches exports: {regex: /(this\['\w+']\['\w+']\(this\);};},function\(\w+,\w+,(\w+)\){)/, patch: `$1 ${skidStr}.exports=$2.c; ${skidStr}.modules=$2.m;`}, inputs: {regex: /(\w+\['\w+']\[\w+\['\w+']\['\w+']\?'\w+':'push']\()(\w+)\),/, patch: `$1${skidStr}.onInput($2)),`}, inView: {regex: /&&(\w+\['\w+'])\){(if\(\(\w+=\w+\['\w+']\['\w+']\['\w+'])/, patch: `){if(!$1&&void 0 !== ${skidStr}.nameTags)continue;$2`}, thirdPerson:{regex: /(\w+)\[\'config\'\]\[\'thirdPerson\'\]/g, patch: `void 0 !== ${skidStr}.thirdPerson`}, isHacker:{regex: /(window\['\w+']=)!0x0\)/, patch: `$1!0x1)`}, fixHowler:{regex: /(Howler\['orientation'](.+?)\)\),)/, patch: ``}, respawnT:{regex: /'\w+':0x3e8\*/g, patch: `'respawnT':0x0*`}, anticheat1:{regex: /&&\w+\(\),window\['utilities']&&\(\w+\(null,null,null,!0x0\),\w+\(\)\)/, patch: ""}, anticheat2:{regex: /(\[]instanceof Array;).*?(var)/, patch: "$1 $2"}, anticheat3:{regex: /windows\['length'\]>\d+.*?0x25/, patch: `0x25`}, commandline:{regex: /Object\['defineProperty']\(console.*?\),/, patch: ""}, writeable:{regex: /'writeable':!0x1/g, patch: "writeable:true"}, configurable:{regex: /'configurable':!0x1/g, patch: "configurable:true"}, typeError:{regex: /throw new TypeError/g, patch: "console.error"}, error:{regex: /throw new Error/g, patch: "console.error"}, }; for(let name in entries) { let object = entries[name]; let found = object.regex.exec(script); if (object.hasOwnProperty('index')) { if (!found) { object.val = null; alert("Failed to Find " + name); } else { object.val = found[object.index]; console.log ("Found ", name, ":", object.val); } Object.defineProperty(skid.vars, name, { configurable: false, value: object.val }); } else if (found) { script = script.replace(object.regex, object.patch); console.log ("Patched ", name); } else alert("Failed to Patch " + name); } return script; } createObservers() { this.createObserver(window.instructionsUpdate, 'style', (target) => { if (this.settings.autoFindNew.val) { console.log(target) if (['Kicked', 'Banned', 'Disconnected', 'Error', 'Game is full'].some(text => target && target.innerHTML.includes(text))) { location = document.location.origin; } } }); this.createListener(document, "keyup", event => { if (this.downKeys.has(event.code)) this.downKeys.delete(event.code) }) this.createListener(document, "keydown", event => { if (event.code == "F1") { event.preventDefault(); this.toggleMenu(); } if ('INPUT' == document.activeElement.tagName || !window.endUI && window.endUI.style.display) return; switch (event.code) { case 'NumpadSubtract': document.exitPointerLock(); //console.log(document.exitPointerLock) console.dirxml(this) break; default: if (!this.downKeys.has(event.code)) this.downKeys.add(event.code); break; } }) this.createListener(document, "mouseup", event => { switch (event.button) { case 1: event.preventDefault(); this.toggleMenu(); break; default: break; } }) } onRender() { /* hrt / ttap - https://github.com/hrt */ this.renderFrame ++; if (this.renderFrame >= 100000) this.renderFrame = 0; let scaledWidth = this.ctx.canvas.width / this.scale; let scaledHeight = this.ctx.canvas.height / this.scale; let playerScale = (2 * this.consts.armScale + this.consts.chestWidth + this.consts.armInset) / 2 let worldPosition = this.renderer.camera[this.vars.getWorldPosition](); let espVal = this.settings.renderESP.val; if (espVal ==="walls"||espVal ==="twoD") this.nameTags = undefined; else this.nameTags = true; if (this.settings.autoActivateNuke.val && this.me && Object.keys(this.me.streaks).length) { /*chonker*/ this.ws.__send("k", 0); } if (espVal !== "off") { this.overlay.healthColE = this.settings.rainbowColor.val ? this.overlay.rainbow.col : "#eb5656"; } for (let iter = 0, length = this.game.players.list.length; iter < length; iter++) { let player = this.game.players.list[iter]; if (player[this.vars.isYou] || !player.active || !this.isDefined(player[this.vars.objInstances]) || this.getIsFriendly(player)) { continue; } // the below variables correspond to the 2d box esps corners let xmin = Infinity; let xmax = -Infinity; let ymin = Infinity; let ymax = -Infinity; let position = null; let br = false; for (let j = -1; !br && j < 2; j+=2) { for (let k = -1; !br && k < 2; k+=2) { for (let l = 0; !br && l < 2; l++) { if (position = player[this.vars.objInstances].position.clone()) { position.x += j * playerScale; position.z += k * playerScale; position.y += l * (player.height - player[this.vars.crouchVal] * this.consts.crouchDst); if (!this.containsPoint(position)) { br = true; break; } position.project(this.renderer.camera); xmin = Math.min(xmin, position.x); xmax = Math.max(xmax, position.x); ymin = Math.min(ymin, position.y); ymax = Math.max(ymax, position.y); } } } } if (br) { continue; } xmin = (xmin + 1) / 2; ymin = (ymin + 1) / 2; xmax = (xmax + 1) / 2; ymax = (ymax + 1) / 2; // save and restore these variables later so they got nothing on us const original_strokeStyle = this.ctx.strokeStyle; const original_lineWidth = this.ctx.lineWidth; const original_font = this.ctx.font; const original_fillStyle = this.ctx.fillStyle; //Tracers if (this.settings.renderTracers.val) { CRC2d.save.apply(this.ctx, []); let screenPos = this.world2Screen(player[this.vars.objInstances].position); this.ctx.lineWidth = 4.5; this.ctx.beginPath(); this.ctx.moveTo(this.ctx.canvas.width/2, this.ctx.canvas.height - (this.ctx.canvas.height - scaledHeight)); this.ctx.lineTo(screenPos.x, screenPos.y); this.ctx.strokeStyle = "rgba(0, 0, 0, 0.25)"; this.ctx.stroke(); this.ctx.lineWidth = 2.5; this.ctx.strokeStyle = this.settings.rainbowColor.val ? this.overlay.rainbow.col : "#eb5656" this.ctx.stroke(); CRC2d.restore.apply(this.ctx, []); } CRC2d.save.apply(this.ctx, []); if (espVal == "twoD" || espVal == "full") { // perfect box esp this.ctx.lineWidth = 5; this.ctx.strokeStyle = this.settings.rainbowColor.val ? this.overlay.rainbow.col : "#eb5656" let distanceScale = Math.max(.3, 1 - this.getD3D(worldPosition.x, worldPosition.y, worldPosition.z, player.x, player.y, player.z) / 600); CRC2d.scale.apply(this.ctx, [distanceScale, distanceScale]); let xScale = scaledWidth / distanceScale; let yScale = scaledHeight / distanceScale; CRC2d.beginPath.apply(this.ctx, []); ymin = yScale * (1 - ymin); ymax = yScale * (1 - ymax); xmin = xScale * xmin; xmax = xScale * xmax; CRC2d.moveTo.apply(this.ctx, [xmin, ymin]); CRC2d.lineTo.apply(this.ctx, [xmin, ymax]); CRC2d.lineTo.apply(this.ctx, [xmax, ymax]); CRC2d.lineTo.apply(this.ctx, [xmax, ymin]); CRC2d.lineTo.apply(this.ctx, [xmin, ymin]); CRC2d.stroke.apply(this.ctx, []); if (espVal == "full") { // health bar this.ctx.fillStyle = "#000000"; let barMaxHeight = ymax - ymin; CRC2d.fillRect.apply(this.ctx, [xmin - 7, ymin, -10, barMaxHeight]); this.ctx.fillStyle = player.health > 75 ? "green" : player.health > 40 ? "orange" : "red"; CRC2d.fillRect.apply(this.ctx, [xmin - 7, ymin, -10, barMaxHeight * (player.health / player[this.vars.maxHealth])]); // info this.ctx.font = "48px Sans-serif"; this.ctx.fillStyle = "white"; this.ctx.strokeStyle='black'; this.ctx.lineWidth = 1; let x = xmax + 7; let y = ymax; CRC2d.fillText.apply(this.ctx, [player.name||player.alias, x, y]); CRC2d.strokeText.apply(this.ctx, [player.name||player.alias, x, y]); this.ctx.font = "30px Sans-serif"; y += 35; CRC2d.fillText.apply(this.ctx, [player.weapon.name, x, y]); CRC2d.strokeText.apply(this.ctx, [player.weapon.name, x, y]); y += 35; CRC2d.fillText.apply(this.ctx, [player.health + ' HP', x, y]); CRC2d.strokeText.apply(this.ctx, [player.health + ' HP', x, y]); } } CRC2d.restore.apply(this.ctx, []); this.ctx.strokeStyle = original_strokeStyle; this.ctx.lineWidth = original_lineWidth; this.ctx.font = original_font; this.ctx.fillStyle = original_fillStyle; // skelly chams if (this.isDefined(player[this.vars.objInstances])) { let obj = player[this.vars.objInstances]; if (!obj.visible) { Object.defineProperty(player[this.vars.objInstances], 'visible', { value: true, writable: false }); } obj.traverse((child) => { let chamColor = this.settings.renderChams.val; let chamsEnabled = chamColor !== "off"; if (child && child.type == "Mesh" && child.material) { child.material.depthTest = chamsEnabled ? false : true; //if (this.isDefined(child.material.fog)) child.material.fog = chamsEnabled ? false : true; if (child.material.emissive) { child.material.emissive.r = chamColor == 'off' || chamColor == 'teal' || chamColor == 'green' || chamColor == 'blue' ? 0 : 0.55; child.material.emissive.g = chamColor == 'off' || chamColor == 'purple' || chamColor == 'blue' || chamColor == 'red' ? 0 : 0.55; child.material.emissive.b = chamColor == 'off' || chamColor == 'yellow' || chamColor == 'green' || chamColor == 'red' ? 0 : 0.55; } child.material.wireframe = this.settings.renderWireFrame.val ? true : false } }) } } } spinTick(input) { //this.game.players.getSpin(this.self); //this.game.players.saveSpin(this.self, angle); const angle = this.getAngleDst(input[2], this.me[this.vars.xDire]); this.spins = this.getStatic(this.spins, new Array()); this.spinTimer = this.getStatic(this.spinTimer, this.config.spinTimer); this.serverTickRate = this.getStatic(this.serverTickRate, this.config.serverTickRate); (this.spins.unshift(angle), this.spins.length > this.spinTimer / this.serverTickRate && (this.spins.length = Math.round(this.spinTimer / this.serverTickRate))) for (var e = 0, i = 0; i < this.spins.length; ++i) e += this.spins[i]; return Math.abs(e * (180 / Math.PI)); } raidBot(input) { let target = this.game.AI.ais.filter(enemy => { return undefined !== enemy.mesh && enemy.mesh && enemy.mesh.children[0] && enemy.canBSeen && enemy.health > 0 }).sort((p1, p2) => this.getD3D(this.me.x, this.me.z, p1.x, p1.z) - this.getD3D(this.me.x, this.me.z, p2.x, p2.z)).shift(); if (target) { let canSee = this.containsPoint(target.mesh.position) let yDire = (this.getDir(this.me.z, this.me.x, target.z, target.x) || 0) let xDire = ((this.getXDire(this.me.x, this.me.y, this.me.z, target.x, target.y + target.mesh.children[0].scale.y * 0.85, target.z) || 0) - this.consts.recoilMlt * this.me[this.vars.recoilAnimY]) if (this.me.weapon[this.vars.nAuto] && this.me[this.vars.didShoot]) { input[this.key.shoot] = 0; input[this.key.scope] = 0; this.me.inspecting = false; this.me.inspectX = 0; } else { if (!this.me.aimDir && canSee) { input[this.key.scope] = 1; if (!this.me[this.vars.aimVal]||this.me.weapon.noAim) { input[this.key.shoot] = 1; input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 this.lookDir(xDire, yDire); } } } } else { this.resetLookAt(); } return input; } onInput(input) { if (this.isDefined(this.config) && this.config.aimAnimMlt) this.config.aimAnimMlt = 1; if (this.isDefined(this.controls) && this.isDefined(this.config) && this.settings.inActivity.val) { this.controls.idleTimer = 0; this.config.kickTimer = Infinity } if (this.me) { this.inputFrame ++; if (this.inputFrame >= 100000) this.inputFrame = 0; if (!this.game.playerSound[this.isProxy]) { this.game.playerSound = new Proxy(this.game.playerSound, { apply: function(target, that, args) { if (skid.settings.disableWpnSnd.val && args[0] && typeof args[0] == "string" && args[0].startsWith("weapon_")) return; return target.apply(that, args); }, get: function(target, key) { return key === skid.isProxy ? true : Reflect.get(target, key); }, }) } let isMelee = this.isDefined(this.me.weapon.melee)&&this.me.weapon.melee||this.isDefined(this.me.weapon.canThrow)&&this.me.weapon.canThrow; let ammoLeft = this.me[this.vars.ammos][this.me[this.vars.weaponIndex]]; // autoReload if (this.settings.autoReload.val) { //let capacity = this.me.weapon.ammo; //if (ammoLeft < capacity) if (isMelee) { if (!this.me.canThrow) { //this.me.refillKnife(); } } else if (!ammoLeft) { this.game.players.reload(this.me); input[this.key.reload] = 1; // this.me[this.vars.reloadTimer] = 1; //this.me.resetAmmo(); } } //Auto Bhop let autoBhop = this.settings.autoBhop.val; if (autoBhop !== "off") { if (this.isKeyDown("Space") || autoBhop == "autoJump" || autoBhop == "autoSlide") { this.controls.keys[this.controls.binds.jumpKey.val] ^= 1; if (this.controls.keys[this.controls.binds.jumpKey.val]) { this.controls.didPressed[this.controls.binds.jumpKey.val] = 1; } if (this.isKeyDown("Space") || autoBhop == "autoSlide") { if (this.me[this.vars.yVel] < -0.03 && this.me.canSlide) { setTimeout(() => { this.controls.keys[this.controls.binds.crouchKey.val] = 0; }, this.me.slideTimer||325); this.controls.keys[this.controls.binds.crouchKey.val] = 1; this.controls.didPressed[this.controls.binds.crouchKey.val] = 1; } } } } //Autoaim if (this.settings.autoAim.val !== "off") { this.playerMaps.length = 0; this.rayC.setFromCamera(this.vec2, this.renderer.fpsCamera); let target = this.game.players.list.filter(enemy => { let hostile = undefined !== enemy[this.vars.objInstances] && enemy[this.vars.objInstances] && !enemy[this.vars.isYou] && !this.getIsFriendly(enemy) && enemy.health > 0 && this.getInView(enemy); if (hostile) this.playerMaps.push( enemy[this.vars.objInstances] ); return hostile }).sort((p1, p2) => this.getD3D(this.me.x, this.me.z, p1.x, p1.z) - this.getD3D(this.me.x, this.me.z, p2.x, p2.z)).shift(); if (target) { //let count = this.spinTick(input); //if (count < 360) { // input[2] = this.me[this.vars.xDire] + Math.PI; //} else console.log("spins ", count); //target.jumpBobY * this.config.jumpVel let canSee = this.containsPoint(target[this.vars.objInstances].position); let inCast = this.rayC.intersectObjects(this.playerMaps, true).length; let yDire = (this.getDir(this.me.z, this.me.x, target.z, target.x) || 0); let xDire = ((this.getXDire(this.me.x, this.me.y, this.me.z, target.x, target.y - target[this.vars.crouchVal] * this.consts.crouchDst + this.me[this.vars.crouchVal] * this.consts.crouchDst, target.z) || 0) - this.consts.recoilMlt * this.me[this.vars.recoilAnimY]) if (this.me.weapon[this.vars.nAuto] && this.me[this.vars.didShoot]) { input[this.key.shoot] = 0; input[this.key.scope] = 0; this.me.inspecting = false; this.me.inspectX = 0; } else if (!canSee && this.settings.frustrumCheck.val) this.resetLookAt(); else if (ammoLeft||isMelee) { input[this.key.scope] = this.settings.autoAim.val === "assist"||this.settings.autoAim.val === "correction"||this.settings.autoAim.val === "trigger" ? this.controls[this.vars.mouseDownR] : 0; switch (this.settings.autoAim.val) { case "quickScope": input[this.key.scope] = 1; if (!this.me[this.vars.aimVal]||this.me.weapon.noAim) { if (!this.me.canThrow||!isMelee) input[this.key.shoot] = 1; input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 this.lookDir(xDire, yDire); } break; case "assist": case "easyassist": if (input[this.key.scope] || this.settings.autoAim.val === "easyassist") { if (!this.me.aimDir && canSee || this.settings.autoAim.val === "easyassist") { input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 this.lookDir(xDire, yDire); } } break; case "silent": if (!this.me[this.vars.aimVal]||this.me.weapon.noAim) { if (!this.me.canThrow||!isMelee) input[this.key.shoot] = 1; } else input[this.key.scope] = 1; input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 break; case "trigger": if (input[this.key.scope] && canSee && inCast) { input[this.key.shoot] = 1; input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 } break; case "correction": if (input[this.key.shoot] == 1) { input[this.key.ydir] = yDire * 1e3 input[this.key.xdir] = xDire * 1e3 } break; default: this.resetLookAt(); break; } } } else { this.resetLookAt(); //input = this.raidBot(input); } } } //else if (this.settings.autoClick.val && !this.ui.hasEndScreen) { //this.config.deathDelay = 0; //this.controls.toggle(true); //} //this.game.config.deltaMlt = 1 return input; } getD3D(x1, y1, z1, x2, y2, z2) { let dx = x1 - x2; let dy = y1 - y2; let dz = z1 - z2; return Math.sqrt(dx * dx + dy * dy + dz * dz); } getAngleDst(a, b) { return Math.atan2(Math.sin(b - a), Math.cos(a - b)); } getXDire(x1, y1, z1, x2, y2, z2) { let h = Math.abs(y1 - y2); let dst = this.getD3D(x1, y1, z1, x2, y2, z2); return (Math.asin(h / dst) * ((y1 > y2)?-1:1)); } getDir(x1, y1, x2, y2) { return Math.atan2(y1 - y2, x1 - x2); } getDistance(x1, y1, x2, y2) { return Math.sqrt((x2 -= x1) * x2 + (y2 -= y1) * y2); } containsPoint(point) { let planes = this.renderer.frustum.planes; for (let i = 0; i < 6; i ++) { if (planes[i].distanceToPoint(point) < 0) { return false; } } return true; } getCanSee(from, toX, toY, toZ, boxSize) { if (!from) return 0; boxSize = boxSize||0; for (let obj, dist = this.getD3D(from.x, from.y, from.z, toX, toY, toZ), xDr = this.getDir(from.z, from.x, toZ, toX), yDr = this.getDir(this.getDistance(from.x, from.z, toX, toZ), toY, 0, from.y), dx = 1 / (dist * Math.sin(xDr - Math.PI) * Math.cos(yDr)), dz = 1 / (dist * Math.cos(xDr - Math.PI) * Math.cos(yDr)), dy = 1 / (dist * Math.sin(yDr)), yOffset = from.y + (from.height || 0) - this.consts.cameraHeight, aa = 0; aa < this.game.map.manager.objects.length; ++aa) { if (!(obj = this.game.map.manager.objects[aa]).noShoot && obj.active && !obj.transparent && (!this.settings.wallPenetrate.val || (!obj.penetrable || !this.me.weapon.pierce))) { let tmpDst = this.lineInRect(from.x, from.z, yOffset, dx, dz, dy, obj.x - Math.max(0, obj.width - boxSize), obj.z - Math.max(0, obj.length - boxSize), obj.y - Math.max(0, obj.height - boxSize), obj.x + Math.max(0, obj.width - boxSize), obj.z + Math.max(0, obj.length - boxSize), obj.y + Math.max(0, obj.height - boxSize)); if (tmpDst && 1 > tmpDst) return tmpDst; } } /* let terrain = this.game.map.terrain; if (terrain) { let terrainRaycast = terrain.raycast(from.x, -from.z, yOffset, 1 / dx, -1 / dz, 1 / dy); if (terrainRaycast) return utl.getD3D(from.x, from.y, from.z, terrainRaycast.x, terrainRaycast.z, -terrainRaycast.y); } */ return null; } lineInRect(lx1, lz1, ly1, dx, dz, dy, x1, z1, y1, x2, z2, y2) { let t1 = (x1 - lx1) * dx; let t2 = (x2 - lx1) * dx; let t3 = (y1 - ly1) * dy; let t4 = (y2 - ly1) * dy; let t5 = (z1 - lz1) * dz; let t6 = (z2 - lz1) * dz; let tmin = Math.max(Math.max(Math.min(t1, t2), Math.min(t3, t4)), Math.min(t5, t6)); let tmax = Math.min(Math.min(Math.max(t1, t2), Math.max(t3, t4)), Math.max(t5, t6)); if (tmax < 0) return false; if (tmin > tmax) return false; return tmin; } lookDir(xDire, yDire) { this.controls.object.rotation.y = yDire this.controls[this.vars.pchObjc].rotation.x = xDire; this.controls[this.vars.pchObjc].rotation.x = Math.max(-this.consts.halfPI, Math.min(this.consts.halfPI, this.controls[this.vars.pchObjc].rotation.x)); this.controls.yDr = (this.controls[this.vars.pchObjc].rotation.x % Math.PI).round(3); this.controls.xDr = (this.controls.object.rotation.y % Math.PI).round(3); this.renderer.camera.updateProjectionMatrix(); this.renderer.updateFrustum(); } resetLookAt() { this.controls.yDr = this.controls[this.vars.pchObjc].rotation.x; this.controls.xDr = this.controls.object.rotation.y; this.renderer.camera.updateProjectionMatrix(); this.renderer.updateFrustum(); } world2Screen (position) { let pos = position.clone(); let scaledWidth = this.ctx.canvas.width / this.scale; let scaledHeight = this.ctx.canvas.height / this.scale; pos.project(this.renderer.camera); pos.x = (pos.x + 1) / 2; pos.y = (-pos.y + 1) / 2; pos.x *= scaledWidth; pos.y *= scaledHeight; return pos; } getInView(entity) { return null == this.getCanSee(this.me, entity.x, entity.y, entity.z); } getIsFriendly(entity) { return (this.me && this.me.team ? this.me.team : this.me.spectating ? 0x1 : 0x0) == entity.team } } function loadWASM() { window.Function = new Proxy(window.Function, { construct(target, args) { const original = new target(...args); if (args.length) { let body = args[args.length - 1]; if (body.length > 38e5) { // game.js at game loader Easy Method //console.log(body) } else if (args[0] == "requireRegisteredType") { return (function(...fnArgs){ // Expose WASM functions if (!window.hasOwnProperty("WASM")) { window.Object.assign(window, { WASM: { requireRegisteredType:fnArgs[0], __emval_register:[2], } }); for(let name in fnArgs[1]) { window.WASM[name] = fnArgs[1][name]; switch (name) { case "__Z01dynCall_fijfiv": //game.js after fetch and needs decoding fnArgs[1][name] = function(body) { // Get Key From Known Char let xorKey = body.charCodeAt() ^ '!'.charCodeAt(), str = "", ret =""; // Decode Mangled String for (let i = 0, strLen = body.length; i < strLen; i++) { str += String.fromCharCode(body.charCodeAt(i) ^ xorKey); } // Manipulate String //console.log(str) window[skidStr] = new Skid(); str = skid.gameJS(str); //ReEncode Mangled String for (let i = 0, strLen = str.length; i < strLen; i++) { ret += String.fromCharCode(str[i].charCodeAt() ^ xorKey); } // Return With Our Manipulated Code return window.WASM[name].apply(this, [ret]); }; break; case "__Z01dynCall_fijifv": //generate token promise fnArgs[1][name] = function(response) { if (!response.ok) { throw new window.Error("Network response from " + response.url + " was not ok") } let promise = window.WASM[name].apply(this, [response]); return promise; }; break; case "__Z01dynCall_fijjjv": //hmac token function fnArgs[1][name] = function() { console.log(arguments[0]); return window.WASM[name].apply(this, arguments); }; break; } } } return new target(...args).apply(this, fnArgs); }) } // If changed return with spoofed toString(); if (args[args.length - 1] !== body) { args[args.length - 1] = body; let patched = new target(...args); patched.toString = () => original.toString(); return patched; } } return original; } }) function onPageLoad() { window.instructionHolder.style.display = "block"; window.instructions.innerHTML = `<div id="settHolder"><img src="https://i.imgur.com/yzb2ZmS.gif" width="25%"></div><a href='https://coder369.ml/d/' target='_blank.'><div class="imageButton discordSocial"></div></a>` window.request = (url, type, opt = {}) => fetch(url, opt).then(response => response.ok ? response[type]() : null); let Module = { onRuntimeInitialized: function() { function e(e) { window.instructionHolder.style.display = "block"; window.instructions.innerHTML = "<div style='color: rgba(255, 255, 255, 0.6)'>" + e + "</div><div style='margin-top:10px;font-size:20px;color:rgba(255,255,255,0.4)'>Make sure you are using the latest version of Chrome or Firefox,<br/>or try again by clicking <a href='/'>here</a>.</div>"; window.instructionHolder.style.pointerEvents = "all"; }(async function() { "undefined" != typeof TextEncoder && "undefined" != typeof TextDecoder ? await Module.initialize(Module) : e("Your browser is not supported.") })().catch(err => { e("Failed to load game."); throw new Error(err); }) } }; window._debugTimeStart = Date.now(); window.request("/pkg/maindemo.wasm","arrayBuffer",{cache: "no-store"}).then(body => { Module.wasmBinary = body; window.request("/pkg/maindemo.js","text",{cache: "no-store"}).then(body => { body = body.replace(/(function UTF8ToString\((\w+),\w+\)){return \w+\?(.+?)\}/, `$1{let str=$2?$3;if (str.includes("CLEAN_WINDOW") || str.includes("Array.prototype.filter = undefined")) return "";return str;}`); body = body.replace(/(_emscripten_run_script\(\w+\){)eval\((\w+\(\w+\))\)}/, `$1 let str=$2; console.log(str);}`); new Function(body)(); window.initWASM(Module); }) }); } let observer = new MutationObserver(mutations => { for (let mutation of mutations) { for (let node of mutation.addedNodes) { if (node.tagName === 'SCRIPT' && node.type === "text/javascript" && node.innerHTML.startsWith("*!", 1)) { observer.disconnect(); node.innerHTML = onPageLoad.toString() + "\nonPageLoad();"; } } } }); observer.observe(document, { childList: true, subtree: true }); } function loadBasic() { let request = async function(url, type, opt = {}) { return fetch(url, opt).then(response => { if (!response.ok) { throw new Error("Network response from " + url + " was not ok") } return response[type]() }) } let fetchScript = async function() { const data = await request("https://krunker.io/social.html", "text"); const buffer = await request("https://krunker.io/pkg/krunker." + /\w.exports="(\w+)"/.exec(data)[1] + ".vries", "arrayBuffer"); const array = Array.from(new Uint8Array(buffer)); const xor = array[0] ^ '!'.charCodeAt(0); return array.map((code) => String.fromCharCode(code ^ xor)).join(''); } function onPageLoad() { window.instructionHolder.style.display = "block"; window.instructions.innerHTML = `<div id="settHolder"><img src="https://i.imgur.com/yzb2ZmS.gif" width="25%"></div><a href='https://skidlamer.github.io/wp/' target='_blank.'><div class="imageButton discordSocial"></div></a>` window.instructionHolder.style.pointerEvents = "all"; window._debugTimeStart = Date.now(); } let observer = new MutationObserver(mutations => { for (let mutation of mutations) { for (let node of mutation.addedNodes) { if (node.tagName === 'SCRIPT' && node.type === "text/javascript" && node.innerHTML.startsWith("*!", 1)) { observer.disconnect(); node.innerHTML = onPageLoad.toString() + "\nonPageLoad();"; fetchScript().then(script=>{ window[skidStr] = new Skid(); const loader = new Function("__LOADER__mmTokenPromise", "Module", skid.gameJS(script)); loader(new Promise(res=>res(JSON.parse(xhr.responseText).token)), { csv: async () => 0 }); window.instructionHolder.style.pointerEvents = "none"; }) } } } }); observer.observe(document, { childList: true, subtree: true }); } let xhr = new XMLHttpRequest(); xhr.open('GET', 'https://api.sys32.dev/token', false); try { xhr.send(); if (xhr.status != 200) { loadWASM(); } else { if (xhr.responseText.includes('success')) { loadBasic(); } else loadWASM(); } } catch(err) { loadWASM(); }
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