Skip to content

Instantly share code, notes, and snippets.

@monotter

monotter/lordz.io MacOS Big Sur fix.js

Last active March 6, 2021 03:31
Show Gist options
  • Save monotter/e2f95152246b512bcc786d258c1204e3 to your computer and use it in GitHub Desktop.
Save monotter/e2f95152246b512bcc786d258c1204e3 to your computer and use it in GitHub Desktop.
Download ZIP
Raw
lordz.io MacOS Big Sur fix.js
var usrAgent = navigator.userAgent.replace(/Intel Mac OS X ([0-9]+)_([0-9])_([0-9])/,function(full, main, mid, last, len, all){
if(main<11) return full;
return `Intel Mac OS X ${10}_${15+parseInt(mid)}_${7+parseInt(last)}`
})
var UnityLoader = UnityLoader || {
compatibilityCheck: function(e, t, r) {
UnityLoader.SystemInfo.hasWebGL ? UnityLoader.SystemInfo.mobile ? e.popup("Please note that Unity WebGL is not currently supported on mobiles. Press OK if you wish to continue anyway.", [{
text: "OK",
callback: t
}]) : ["Edge", "Firefox", "Chrome", "Safari"].indexOf(UnityLoader.SystemInfo.browser) == -1 ? e.popup("Please note that your browser is not currently supported for this Unity WebGL content. Press OK if you wish to continue anyway.", [{
text: "OK",
callback: t
}]) : t() : e.popup("Your browser does not support WebGL", [{
text: "OK",
callback: r
}])
},
Blobs: {},
loadCode: function(e, t, r) {
var n = [].slice.call(UnityLoader.Cryptography.md5(e)).map(function(e) {
return ("0" + e.toString(16)).substr(-2)
}).join("")
, o = document.createElement("script")
, i = URL.createObjectURL(new Blob(['UnityLoader["' + n + '"]=', e],{
type: "text/javascript"
}));
UnityLoader.Blobs[i] = r,
o.src = i,
o.onload = function() {
URL.revokeObjectURL(i),
t(n)
}
,
document.body.appendChild(o)
},
allocateHeapJob: function(e, t) {
for (var r = e.TOTAL_STACK || 5242880, n = e.TOTAL_MEMORY || (e.buffer ? e.buffer.byteLength : 268435456), o = 65536, i = 16777216, a = o; a < n || a < 2 * r; )
a += a < i ? a : i;
a != n && e.printErr("increasing TOTAL_MEMORY to " + a + " to be compliant with the asm.js spec (and given that TOTAL_STACK=" + r + ")"),
n = a,
t.parameters.useWasm ? (e.wasmMemory = new WebAssembly.Memory({
initial: n / o,
maximum: n / o
}),
e.buffer = e.wasmMemory.buffer) : e.buffer ? e.buffer.byteLength != n && (e.printErr("provided buffer should be " + n + " bytes, but it is " + e.buffer.byteLength + ", reallocating the buffer"),
e.buffer = new ArrayBuffer(n)) : e.buffer = new ArrayBuffer(n),
e.TOTAL_MEMORY = e.buffer.byteLength,
t.complete()
},
setupIndexedDBJob: function(e, t) {
function r(n) {
r.called || (r.called = !0,
e.indexedDB = n,
t.complete())
}
try {
var n = window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB
, o = n.open("/idbfs-test");
o.onerror = function(e) {
e.preventDefault(),
r()
}
,
o.onsuccess = function() {
o.result.close(),
r(n)
}
,
setTimeout(r, 1e3)
} catch (e) {
r()
}
},
processWasmCodeJob: function(e, t) {
e.wasmBinary = UnityLoader.Job.result(e, "downloadWasmCode"),
t.complete()
},
processWasmFrameworkJob: function(e, t) {
UnityLoader.loadCode(UnityLoader.Job.result(e, "downloadWasmFramework"), function(r) {
UnityLoader[r](e),
t.complete()
}, {
Module: e,
url: e.wasmFrameworkUrl
})
},
processAsmCodeJob: function(e, t) {
var r = UnityLoader.Job.result(e, "downloadAsmCode");
UnityLoader.loadCode(Math.fround ? r : UnityLoader.Utils.optimizeMathFround(r), function(r) {
e.asm = UnityLoader[r],
t.complete()
}, {
Module: e,
url: e.asmCodeUrl
})
},
processAsmFrameworkJob: function(e, t) {
UnityLoader.loadCode(UnityLoader.Job.result(e, "downloadAsmFramework"), function(r) {
UnityLoader[r](e),
t.complete()
}, {
Module: e,
url: e.asmFrameworkUrl
})
},
processAsmMemoryJob: function(e, t) {
e.memoryInitializerRequest.status = 200,
e.memoryInitializerRequest.response = UnityLoader.Job.result(e, "downloadAsmMemory"),
e.memoryInitializerRequest.callback && e.memoryInitializerRequest.callback(),
t.complete()
},
processDataJob: function(e, t) {
var r = UnityLoader.Job.result(e, "downloadData")
, n = new DataView(r.buffer,r.byteOffset,r.byteLength)
, o = 0
, i = "UnityWebData1.0\0";
if (!String.fromCharCode.apply(null, r.subarray(o, o + i.length)) == i)
throw "unknown data format";
o += i.length;
var a = n.getUint32(o, !0);
for (o += 4; o < a; ) {
var s = n.getUint32(o, !0);
o += 4;
var d = n.getUint32(o, !0);
o += 4;
var l = n.getUint32(o, !0);
o += 4;
var f = String.fromCharCode.apply(null, r.subarray(o, o + l));
o += l;
for (var u = 0, c = f.indexOf("/", u) + 1; c > 0; u = c,
c = f.indexOf("/", u) + 1)
e.FS_createPath(f.substring(0, u), f.substring(u, c - 1), !0, !0);
e.FS_createDataFile(f, null, r.subarray(s, s + d), !0, !0, !0)
}
e.removeRunDependency("processDataJob"),
t.complete()
},
downloadJob: function(e, t) {
var r = new XMLHttpRequest;
r.open("GET", t.parameters.url),
r.responseType = "arraybuffer",
r.onload = function() {
UnityLoader.Compression.decompress(new Uint8Array(r.response), function(e) {
t.complete(e)
})
}
,
t.parameters.onprogress && r.addEventListener("progress", t.parameters.onprogress),
t.parameters.onload && r.addEventListener("load", t.parameters.onload),
r.send()
},
scheduleBuildDownloadJob: function(e, t, r) {
UnityLoader.Progress.update(e, t),
UnityLoader.Job.schedule(e, t, [], UnityLoader.downloadJob, {
url: e.resolveBuildUrl(r),
onprogress: function(r) {
UnityLoader.Progress.update(e, t, r)
},
onload: function(r) {
UnityLoader.Progress.update(e, t, r)
}
})
},
loadModule: function(e) {
if (e.useWasm = e.wasmCodeUrl && UnityLoader.SystemInfo.hasWasm,
e.useWasm)
UnityLoader.scheduleBuildDownloadJob(e, "downloadWasmCode", e.wasmCodeUrl),
UnityLoader.Job.schedule(e, "processWasmCode", ["downloadWasmCode"], UnityLoader.processWasmCodeJob),
UnityLoader.scheduleBuildDownloadJob(e, "downloadWasmFramework", e.wasmFrameworkUrl),
UnityLoader.Job.schedule(e, "processWasmFramework", ["downloadWasmFramework", "processWasmCode", "setupIndexedDB"], UnityLoader.processWasmFrameworkJob);
else {
if (!e.asmCodeUrl)
throw "WebAssembly support is not detected in this browser.";
UnityLoader.scheduleBuildDownloadJob(e, "downloadAsmCode", e.asmCodeUrl),
UnityLoader.Job.schedule(e, "processAsmCode", ["downloadAsmCode"], UnityLoader.processAsmCodeJob),
UnityLoader.scheduleBuildDownloadJob(e, "downloadAsmMemory", e.asmMemoryUrl),
UnityLoader.Job.schedule(e, "processAsmMemory", ["downloadAsmMemory"], UnityLoader.processAsmMemoryJob),
e.memoryInitializerRequest = {
addEventListener: function(t, r) {
e.memoryInitializerRequest.callback = r
}
},
e.asmLibraryUrl && (e.dynamicLibraries = [e.asmLibraryUrl].map(e.resolveBuildUrl)),
UnityLoader.scheduleBuildDownloadJob(e, "downloadAsmFramework", e.asmFrameworkUrl),
UnityLoader.Job.schedule(e, "processAsmFramework", ["downloadAsmFramework", "processAsmCode", "setupIndexedDB"], UnityLoader.processAsmFrameworkJob)
}
UnityLoader.scheduleBuildDownloadJob(e, "downloadData", e.dataUrl),
UnityLoader.Job.schedule(e, "setupIndexedDB", [], UnityLoader.setupIndexedDBJob),
e.preRun.push(function() {
e.addRunDependency("processDataJob"),
UnityLoader.Job.schedule(e, "processData", ["downloadData"], UnityLoader.processDataJob)
})
},
instantiate: function(e, t, r) {
function n(e, r) {
if ("string" == typeof e && !(e = document.getElementById(e)))
return !1;
e.innerHTML = "",
e.style.border = e.style.margin = e.style.padding = 0,
"static" == getComputedStyle(e).getPropertyValue("position") && (e.style.position = "relative"),
e.style.width = r.width || e.style.width,
e.style.height = r.height || e.style.height,
r.container = e;
var n = r.Module;
return n.canvas = document.createElement("canvas"),
n.canvas.style.width = "100%",
n.canvas.style.height = "100%",
n.canvas.addEventListener("contextmenu", function(e) {
e.preventDefault()
}),
n.canvas.id = "#canvas",
e.appendChild(n.canvas),
r.compatibilityCheck(r, function() {
var t = new XMLHttpRequest;
t.open("GET", r.url, !0),
t.responseType = "text",
t.onerror = function() {
console.log("Could not download " + r.url),
0 == document.URL.indexOf("file:") && alert("It seems your browser does not support running Unity WebGL content from file:// urls. Please upload it to an http server, or try a different browser.")
}
,
t.onload = function() {
var o = JSON.parse(t.responseText);
for (var i in o)
"undefined" == typeof n[i] && (n[i] = o[i]);
for (var a = !1, s = 0; s < n.graphicsAPI.length; s++) {
var d = n.graphicsAPI[s];
"WebGL 2.0" == d && 2 == UnityLoader.SystemInfo.hasWebGL ? a = !0 : "WebGL 1.0" == d && UnityLoader.SystemInfo.hasWebGL >= 1 ? a = !0 : n.print("Warning: Unsupported graphics API " + d)
}
return a ? (e.style.background = n.backgroundUrl ? "center/cover url('" + n.resolveBuildUrl(n.backgroundUrl) + "')" : n.backgroundColor ? " " + n.backgroundColor : "",
r.onProgress(r, 0),
void UnityLoader.loadModule(n)) : void r.popup("Your browser does not support any of the required graphics API for this content: " + n.graphicsAPI, [{
text: "OK"
}])
}
,
t.send()
}, function() {
n.print("Instantiation of the '" + t + "' terminated due to the failed compatibility check.")
}),
!0
}
var o = {
url: t,
onProgress: UnityLoader.Progress.handler,
compatibilityCheck: UnityLoader.compatibilityCheck,
Module: {
preRun: [],
postRun: [],
print: function(e) {
console.log(e)
},
printErr: function(e) {
console.error(e)
},
Jobs: {},
buildDownloadProgress: {},
resolveBuildUrl: function(e) {
return e.match(/(http|https|ftp|file):\/\//) ? e : t.substring(0, t.lastIndexOf("/") + 1) + e
}
},
SetFullscreen: function() {
if (o.Module.SetFullscreen)
return o.Module.SetFullscreen.apply(o.Module, arguments)
},
SendMessage: function() {
if (o.Module.SendMessage)
return o.Module.SendMessage.apply(o.Module, arguments)
}
};
o.Module.gameInstance = o,
o.popup = function(e, t) {
return UnityLoader.Error.popup(o, e, t)
}
,
o.Module.postRun.push(function() {
o.onProgress(o, 1)
});
for (var i in r)
if ("Module" == i)
for (var a in r[i])
o.Module[a] = r[i][a];
else
o[i] = r[i];
return n(e, o) || document.addEventListener("DOMContentLoaded", function() {
n(e, o)
}),
o
},
SystemInfo: function() {
var e, t, r, n = "-", o = navigator.appVersion, i = usrAgent, a = navigator.appName, s = navigator.appVersion, d = parseInt(navigator.appVersion, 10);
(t = i.indexOf("Opera")) != -1 ? (a = "Opera",
s = i.substring(t + 6),
(t = i.indexOf("Version")) != -1 && (s = i.substring(t + 8))) : (t = i.indexOf("MSIE")) != -1 ? (a = "Microsoft Internet Explorer",
s = i.substring(t + 5)) : (t = i.indexOf("Edge")) != -1 ? (a = "Edge",
s = i.substring(t + 5)) : (t = i.indexOf("Chrome")) != -1 ? (a = "Chrome",
s = i.substring(t + 7)) : (t = i.indexOf("Safari")) != -1 ? (a = "Safari",
s = i.substring(t + 7),
(t = i.indexOf("Version")) != -1 && (s = i.substring(t + 8))) : (t = i.indexOf("Firefox")) != -1 ? (a = "Firefox",
s = i.substring(t + 8)) : i.indexOf("Trident/") != -1 ? (a = "Microsoft Internet Explorer",
s = i.substring(i.indexOf("rv:") + 3)) : (e = i.lastIndexOf(" ") + 1) < (t = i.lastIndexOf("/")) && (a = i.substring(e, t),
s = i.substring(t + 1),
a.toLowerCase() == a.toUpperCase() && (a = navigator.appName)),
(r = s.indexOf(";")) != -1 && (s = s.substring(0, r)),
(r = s.indexOf(" ")) != -1 && (s = s.substring(0, r)),
(r = s.indexOf(")")) != -1 && (s = s.substring(0, r)),
d = parseInt("" + s, 10),
isNaN(d) ? (s = "" + parseFloat(navigator.appVersion),
d = parseInt(navigator.appVersion, 10)) : s = "" + parseFloat(s);
var l = /Mobile|mini|Fennec|Android|iP(ad|od|hone)/.test(o)
, f = n
, u = [{
s: "Windows 3.11",
r: /Win16/
}, {
s: "Windows 95",
r: /(Windows 95|Win95|Windows_95)/
}, {
s: "Windows ME",
r: /(Win 9x 4.90|Windows ME)/
}, {
s: "Windows 98",
r: /(Windows 98|Win98)/
}, {
s: "Windows CE",
r: /Windows CE/
}, {
s: "Windows 2000",
r: /(Windows NT 5.0|Windows 2000)/
}, {
s: "Windows XP",
r: /(Windows NT 5.1|Windows XP)/
}, {
s: "Windows Server 2003",
r: /Windows NT 5.2/
}, {
s: "Windows Vista",
r: /Windows NT 6.0/
}, {
s: "Windows 7",
r: /(Windows 7|Windows NT 6.1)/
}, {
s: "Windows 8.1",
r: /(Windows 8.1|Windows NT 6.3)/
}, {
s: "Windows 8",
r: /(Windows 8|Windows NT 6.2)/
}, {
s: "Windows 10",
r: /(Windows 10|Windows NT 10.0)/
}, {
s: "Windows NT 4.0",
r: /(Windows NT 4.0|WinNT4.0|WinNT|Windows NT)/
}, {
s: "Windows ME",
r: /Windows ME/
}, {
s: "Android",
r: /Android/
}, {
s: "Open BSD",
r: /OpenBSD/
}, {
s: "Sun OS",
r: /SunOS/
}, {
s: "Linux",
r: /(Linux|X11)/
}, {
s: "iOS",
r: /(iPhone|iPad|iPod)/
}, {
s: "Mac OS X",
r: /Mac OS X/
}, {
s: "Mac OS",
r: /(MacPPC|MacIntel|Mac_PowerPC|Macintosh)/
}, {
s: "QNX",
r: /QNX/
}, {
s: "UNIX",
r: /UNIX/
}, {
s: "BeOS",
r: /BeOS/
}, {
s: "OS/2",
r: /OS\/2/
}, {
s: "Search Bot",
r: /(nuhk|Googlebot|Yammybot|Openbot|Slurp|MSNBot|Ask Jeeves\/Teoma|ia_archiver)/
}];
for (var c in u) {
var h = u[c];
if (h.r.test(i)) {
f = h.s;
break
}
}
var p = n;
switch (/Windows/.test(f) && (p = /Windows (.*)/.exec(f)[1],
f = "Windows"),
f) {
case "Mac OS X":
p = /Mac OS X (10[\.\_\d]+)/.exec(i)[1];
break;
case "Android":
p = /Android ([\.\_\d]+)/.exec(i)[1];
break;
case "iOS":
p = /OS (\d+)_(\d+)_?(\d+)?/.exec(o),
p = p[1] + "." + p[2] + "." + (0 | p[3])
}
return {
width: screen.width ? screen.width : 0,
height: screen.height ? screen.height : 0,
browser: a,
browserVersion: s,
mobile: l,
os: f,
osVersion: p,
gpu: function() {
var e = document.createElement("canvas")
, t = e.getContext("experimental-webgl");
if (t) {
var r = t.getExtension("WEBGL_debug_renderer_info");
if (r)
return t.getParameter(r.UNMASKED_RENDERER_WEBGL)
}
return n
}(),
language: window.navigator.userLanguage || window.navigator.language,
hasWebGL: function() {
if (!window.WebGLRenderingContext)
return 0;
var e = document.createElement("canvas")
, t = e.getContext("webgl2");
return t ? 2 : (t = e.getContext("experimental-webgl2"),
t ? 2 : (t = e.getContext("webgl"),
t || (t = e.getContext("experimental-webgl")) ? 1 : 0))
}(),
hasCursorLock: function() {
var e = document.createElement("canvas");
return e.requestPointerLock || e.mozRequestPointerLock || e.webkitRequestPointerLock || e.msRequestPointerLock ? 1 : 0
}(),
hasFullscreen: function() {
var e = document.createElement("canvas");
return (e.requestFullScreen || e.mozRequestFullScreen || e.msRequestFullscreen || e.webkitRequestFullScreen) && (a.indexOf("Safari") == -1 || s >= 10.1) ? 1 : 0
}(),
hasWasm: "object" == typeof WebAssembly && "function" == typeof WebAssembly.validate && "function" == typeof WebAssembly.compile
}
}(),
Error: {
init: function() {
return Error.stackTraceLimit = 50,
window.addEventListener("error", function(e) {
var t = UnityLoader.Error.getModule(e);
if (!t)
return UnityLoader.Error.handler(e);
var r = t.useWasm ? t.wasmSymbolsUrl : t.asmSymbolsUrl;
if (!r)
return UnityLoader.Error.handler(e, t);
var n = new XMLHttpRequest;
n.open("GET", t.resolveBuildUrl(r)),
n.responseType = "arraybuffer",
n.onload = function() {
UnityLoader.loadCode(UnityLoader.Compression.decompress(new Uint8Array(n.response)), function(r) {
t.demangleSymbol = UnityLoader[r](),
UnityLoader.Error.handler(e, t)
})
}
,
n.send()
}),
!0
}(),
stackTraceFormat: usrAgent.indexOf("Chrome") != -1 ? "(\\s+at\\s+)(([\\w\\d_\\.]*?)([\\w\\d_$]+)(/[\\w\\d_\\./]+|))(\\s+\\[.*\\]|)\\s*\\((blob:.*)\\)" : "(\\s*)(([\\w\\d_\\.]*?)([\\w\\d_$]+)(/[\\w\\d_\\./]+|))(\\s+\\[.*\\]|)\\s*@(blob:.*)",
stackTraceFormatWasm: usrAgent.indexOf("Chrome") != -1 ? "((\\s+at\\s*)\\s\\(<WASM>\\[(\\d+)\\]\\+\\d+\\))()" : "((\\s*)wasm-function\\[(\\d+)\\])@(blob:.*)",
blobParseRegExp: new RegExp("^(blob:.*)(:\\d+:\\d+)$"),
getModule: function(e) {
var t = e.message.match(new RegExp(this.stackTraceFormat,"g"));
for (var r in t) {
var n = t[r].match(new RegExp("^" + this.stackTraceFormat + "$"))
, o = n[7].match(this.blobParseRegExp);
if (o && UnityLoader.Blobs[o[1]] && UnityLoader.Blobs[o[1]].Module)
return UnityLoader.Blobs[o[1]].Module
}
},
demangle: function(e, t) {
var r = e.message;
return t ? (r = r.replace(new RegExp(this.stackTraceFormat,"g"), function(e) {
var r = e.match(new RegExp("^" + this.stackTraceFormat + "$"))
, n = r[7].match(this.blobParseRegExp)
, o = t.demangleSymbol ? t.demangleSymbol(r[4]) : r[4]
, i = n && UnityLoader.Blobs[n[1]] && UnityLoader.Blobs[n[1]].url ? UnityLoader.Blobs[n[1]].url : "blob";
return r[1] + o + (r[2] != o ? " [" + r[2] + "]" : "") + " (" + (n ? i.substr(i.lastIndexOf("/") + 1) + n[2] : r[7]) + ")"
}
.bind(this)),
t.useWasm && (r = r.replace(new RegExp(this.stackTraceFormatWasm,"g"), function(e) {
var r = e.match(new RegExp("^" + this.stackTraceFormatWasm + "$"))
, n = t.demangleSymbol ? t.demangleSymbol(r[3]) : r[3]
, o = r[4].match(this.blobParseRegExp)
, i = o && UnityLoader.Blobs[o[1]] && UnityLoader.Blobs[o[1]].url ? UnityLoader.Blobs[o[1]].url : "blob";
return (n == r[3] ? r[1] : r[2] + n + " [wasm:" + r[3] + "]") + (r[4] ? " (" + (o ? i.substr(i.lastIndexOf("/") + 1) + o[2] : r[4]) + ")" : "")
}
.bind(this))),
r) : r
},
handler: function(e, t) {
var r = t ? this.demangle(e, t) : e.message;
if (!(t && t.errorhandler && t.errorhandler(r, e.filename, e.lineno) || (console.log("Invoking error handler due to\n" + r),
"function" == typeof dump && dump("Invoking error handler due to\n" + r),
r.indexOf("UnknownError") != -1 || r.indexOf("Program terminated with exit(0)") != -1 || this.didShowErrorMessage))) {
var r = "An error occurred running the Unity content on this page. See your browser JavaScript console for more info. The error was:\n" + r;
r.indexOf("DISABLE_EXCEPTION_CATCHING") != -1 ? r = "An exception has occurred, but exception handling has been disabled in this build. If you are the developer of this content, enable exceptions in your project WebGL player settings to be able to catch the exception or see the stack trace." : r.indexOf("Cannot enlarge memory arrays") != -1 ? r = "Out of memory. If you are the developer of this content, try allocating more memory to your WebGL build in the WebGL player settings." : r.indexOf("Invalid array buffer length") == -1 && r.indexOf("Invalid typed array length") == -1 && r.indexOf("out of memory") == -1 || (r = "The browser could not allocate enough memory for the WebGL content. If you are the developer of this content, try allocating less memory to your WebGL build in the WebGL player settings."),
alert(r),
this.didShowErrorMessage = !0
}
},
popup: function(e, t, r) {
r = r || [{
text: "OK"
}];
var n = document.createElement("div");
n.style.cssText = "position: absolute; top: 50%; left: 50%; -webkit-transform: translate(-50%, -50%); transform: translate(-50%, -50%); text-align: center; border: 1px solid black; padding: 5px; background: #E8E8E8";
var o = document.createElement("span");
o.textContent = t,
n.appendChild(o),
n.appendChild(document.createElement("br"));
for (var i = 0; i < r.length; i++) {
var a = document.createElement("button");
r[i].text && (a.textContent = r[i].text),
r[i].callback && (a.onclick = r[i].callback),
a.style.margin = "5px",
a.addEventListener("click", function() {
e.container.removeChild(n)
}),
n.appendChild(a)
}
e.container.appendChild(n)
}
},
Job: {
schedule: function(e, t, r, n, o) {
o = o || {};
var i = e.Jobs[t];
if (i || (i = e.Jobs[t] = {
dependencies: {},
dependants: {}
}),
i.callback)
throw "[UnityLoader.Job.schedule] job '" + t + "' has been already scheduled";
if ("function" != typeof n)
throw "[UnityLoader.Job.schedule] job '" + t + "' has invalid callback";
if ("object" != typeof o)
throw "[UnityLoader.Job.schedule] job '" + t + "' has invalid parameters";
i.callback = function(e, t) {
i.starttime = performance.now(),
n(e, t)
}
,
i.parameters = o,
i.complete = function(r) {
i.endtime = performance.now(),
i.result = {
value: r
};
for (var n in i.dependants) {
var o = e.Jobs[n];
o.dependencies[t] = i.dependants[n] = !1;
var a = "function" != typeof o.callback;
for (var s in o.dependencies)
a = a || o.dependencies[s];
if (!a) {
if (o.executed)
throw "[UnityLoader.Job.schedule] job '" + t + "' has already been executed";
o.executed = !0,
setTimeout(o.callback.bind(null, e, o), 0)
}
}
}
;
var a = !1;
r.forEach(function(r) {
var n = e.Jobs[r];
n || (n = e.Jobs[r] = {
dependencies: {},
dependants: {}
}),
(i.dependencies[r] = n.dependants[t] = !n.result) && (a = !0)
}),
a || (i.executed = !0,
setTimeout(i.callback.bind(null, e, i), 0))
},
result: function(e, t) {
var r = e.Jobs[t];
if (!r)
throw "[UnityLoader.Job.result] job '" + t + "' does not exist";
if ("object" != typeof r.result)
throw "[UnityLoader.Job.result] job '" + t + "' has invalid result";
return r.result.value
}
},
Utils: {
assert: function(e, t) {
e || abort("Assertion failed: " + t)
},
optimizeMathFround: function(e, t) {
console.log("optimizing out Math.fround calls");
for (var r = {
LOOKING_FOR_MODULE: 0,
SCANNING_MODULE_VARIABLES: 1,
SCANNING_MODULE_FUNCTIONS: 2
}, n = ["EMSCRIPTEN_START_ASM", "EMSCRIPTEN_START_FUNCS", "EMSCRIPTEN_END_FUNCS"], o = "var", i = "global.Math.fround;", a = 0, s = t ? r.LOOKING_FOR_MODULE : r.SCANNING_MODULE_VARIABLES, d = 0, l = 0; s <= r.SCANNING_MODULE_FUNCTIONS && a < e.length; a++)
if (47 == e[a] && 47 == e[a + 1] && 32 == e[a + 2] && String.fromCharCode.apply(null, e.subarray(a + 3, a + 3 + n[s].length)) === n[s])
s++;
else if (s != r.SCANNING_MODULE_VARIABLES || l || 61 != e[a] || String.fromCharCode.apply(null, e.subarray(a + 1, a + 1 + i.length)) !== i) {
if (l && 40 == e[a]) {
for (var f = 0; f < l && e[a - 1 - f] == e[d - f]; )
f++;
if (f == l) {
var u = e[a - 1 - f];
if (u < 36 || 36 < u && u < 48 || 57 < u && u < 65 || 90 < u && u < 95 || 95 < u && u < 97 || 122 < u)
for (; f; f--)
e[a - f] = 32
}
}
} else {
for (d = a - 1; 32 != e[d - l]; )
l++;
l && String.fromCharCode.apply(null, e.subarray(d - l - o.length, d - l)) === o || (d = l = 0)
}
return e
}
},
Cryptography: {
crc32: function(e) {
var t = UnityLoader.Cryptography.crc32.module;
if (!t) {
var r = new ArrayBuffer(16777216)
, n = function(e, t, r) {
"use asm";
var n = new e.Uint8Array(r);
var o = new e.Uint32Array(r);
function i(e, t) {
e = e | 0;
t = t | 0;
var r = 0;
for (r = o[1024 >> 2] | 0; t; e = e + 1 | 0,
t = t - 1 | 0)
r = o[(r & 255 ^ n[e]) << 2 >> 2] ^ r >>> 8 ^ 4278190080;
o[1024 >> 2] = r
}
return {
process: i
}
}({
Uint8Array: Uint8Array,
Uint32Array: Uint32Array
}, null, r);
t = UnityLoader.Cryptography.crc32.module = {
buffer: r,
HEAPU8: new Uint8Array(r),
HEAPU32: new Uint32Array(r),
process: n.process,
crc32: 1024,
data: 1028
};
for (var o = 0; o < 256; o++) {
for (var i = 255 ^ o, a = 0; a < 8; a++)
i = i >>> 1 ^ (1 & i ? 3988292384 : 0);
t.HEAPU32[o] = i
}
}
t.HEAPU32[t.crc32 >> 2] = 0;
for (var s = 0; s < e.length; ) {
var d = Math.min(t.HEAPU8.length - t.data, e.length - s);
t.HEAPU8.set(e.subarray(s, s + d), t.data),
crc = t.process(t.data, d),
s += d
}
var l = t.HEAPU32[t.crc32 >> 2];
return new Uint8Array([l >> 24, l >> 16, l >> 8, l])
},
md5: function(e) {
var t = UnityLoader.Cryptography.md5.module;
if (!t) {
var r = new ArrayBuffer(16777216)
, n = function(e, t, r) {
"use asm";
var n = new e.Uint32Array(r);
function o(e, t) {
e = e | 0;
t = t | 0;
var r = 0
, o = 0
, i = 0
, a = 0
, s = 0
, d = 0
, l = 0
, f = 0
, u = 0
, c = 0
, h = 0
, p = 0;
r = n[128] | 0,
o = n[129] | 0,
i = n[130] | 0,
a = n[131] | 0;
for (; t; e = e + 64 | 0,
t = t - 1 | 0) {
s = r;
d = o;
l = i;
f = a;
for (c = 0; (c | 0) < 512; c = c + 8 | 0) {
p = n[c >> 2] | 0;
r = r + (n[c + 4 >> 2] | 0) + (n[e + (p >>> 14) >> 2] | 0) + ((c | 0) < 128 ? a ^ o & (i ^ a) : (c | 0) < 256 ? i ^ a & (o ^ i) : (c | 0) < 384 ? o ^ i ^ a : i ^ (o | ~a)) | 0;
h = (r << (p & 31) | r >>> 32 - (p & 31)) + o | 0;
r = a;
a = i;
i = o;
o = h
}
r = r + s | 0;
o = o + d | 0;
i = i + l | 0;
a = a + f | 0
}
n[128] = r;
n[129] = o;
n[130] = i;
n[131] = a
}
return {
process: o
}
}({
Uint32Array: Uint32Array
}, null, r);
t = UnityLoader.Cryptography.md5.module = {
buffer: r,
HEAPU8: new Uint8Array(r),
HEAPU32: new Uint32Array(r),
process: n.process,
md5: 512,
data: 576
},
t.HEAPU32.set(new Uint32Array([7, 3614090360, 65548, 3905402710, 131089, 606105819, 196630, 3250441966, 262151, 4118548399, 327692, 1200080426, 393233, 2821735955, 458774, 4249261313, 524295, 1770035416, 589836, 2336552879, 655377, 4294925233, 720918, 2304563134, 786439, 1804603682, 851980, 4254626195, 917521, 2792965006, 983062, 1236535329, 65541, 4129170786, 393225, 3225465664, 720910, 643717713, 20, 3921069994, 327685, 3593408605, 655369, 38016083, 983054, 3634488961, 262164, 3889429448, 589829, 568446438, 917513, 3275163606, 196622, 4107603335, 524308, 1163531501, 851973, 2850285829, 131081, 4243563512, 458766, 1735328473, 786452, 2368359562, 327684, 4294588738, 524299, 2272392833, 720912, 1839030562, 917527, 4259657740, 65540, 2763975236, 262155, 1272893353, 458768, 4139469664, 655383, 3200236656, 851972, 681279174, 11, 3936430074, 196624, 3572445317, 393239, 76029189, 589828, 3654602809, 786443, 3873151461, 983056, 530742520, 131095, 3299628645, 6, 4096336452, 458762, 1126891415, 917519, 2878612391, 327701, 4237533241, 786438, 1700485571, 196618, 2399980690, 655375, 4293915773, 65557, 2240044497, 524294, 1873313359, 983050, 4264355552, 393231, 2734768916, 851989, 1309151649, 262150, 4149444226, 720906, 3174756917, 131087, 718787259, 589845, 3951481745]))
}
t.HEAPU32.set(new Uint32Array([1732584193, 4023233417, 2562383102, 271733878]), t.md5 >> 2);
for (var o = 0; o < e.length; ) {
var i = Math.min(t.HEAPU8.length - t.data, e.length - o) & -64;
if (t.HEAPU8.set(e.subarray(o, o + i), t.data),
o += i,
t.process(t.data, i >> 6),
e.length - o < 64) {
if (i = e.length - o,
t.HEAPU8.set(e.subarray(e.length - i, e.length), t.data),
o += i,
t.HEAPU8[t.data + i++] = 128,
i > 56) {
for (var a = i; a < 64; a++)
t.HEAPU8[t.data + a] = 0;
t.process(t.data, 1),
i = 0
}
for (var a = i; a < 64; a++)
t.HEAPU8[t.data + a] = 0;
for (var s = e.length, d = 0, a = 56; a < 64; a++,
d = (224 & s) >> 5,
s /= 256)
t.HEAPU8[t.data + a] = ((31 & s) << 3) + d;
t.process(t.data, 1)
}
}
return new Uint8Array(t.HEAPU8.subarray(t.md5, t.md5 + 16))
},
sha1: function(e) {
var t = UnityLoader.Cryptography.sha1.module;
if (!t) {
var r = new ArrayBuffer(16777216)
, n = function(e, t, r) {
"use asm";
var n = new e.Uint32Array(r);
function o(e, t) {
e = e | 0;
t = t | 0;
var r = 0
, o = 0
, i = 0
, a = 0
, s = 0
, d = 0
, l = 0
, f = 0
, u = 0
, c = 0
, h = 0
, p = 0;
r = n[80] | 0,
o = n[81] | 0,
i = n[82] | 0,
a = n[83] | 0,
s = n[84] | 0;
for (; t; e = e + 64 | 0,
t = t - 1 | 0) {
d = r;
l = o;
f = i;
u = a;
c = s;
for (p = 0; (p | 0) < 320; p = p + 4 | 0,
s = a,
a = i,
i = o << 30 | o >>> 2,
o = r,
r = h) {
if ((p | 0) < 64) {
h = n[e + p >> 2] | 0;
h = h << 24 & 4278190080 | h << 8 & 16711680 | h >>> 8 & 65280 | h >>> 24 & 255
} else {
h = n[p - 12 >> 2] ^ n[p - 32 >> 2] ^ n[p - 56 >> 2] ^ n[p - 64 >> 2];
h = h << 1 | h >>> 31
}
n[p >> 2] = h;
h = h + ((r << 5 | r >>> 27) + s) + ((p | 0) < 80 ? (o & i | ~o & a | 0) + 1518500249 | 0 : (p | 0) < 160 ? (o ^ i ^ a) + 1859775393 | 0 : (p | 0) < 240 ? (o & i | o & a | i & a) + 2400959708 | 0 : (o ^ i ^ a) + 3395469782 | 0) | 0
}
r = r + d | 0;
o = o + l | 0;
i = i + f | 0;
a = a + u | 0;
s = s + c | 0
}
n[80] = r;
n[81] = o;
n[82] = i;
n[83] = a;
n[84] = s
}
return {
process: o
}
}({
Uint32Array: Uint32Array
}, null, r);
t = UnityLoader.Cryptography.sha1.module = {
buffer: r,
HEAPU8: new Uint8Array(r),
HEAPU32: new Uint32Array(r),
process: n.process,
sha1: 320,
data: 384
}
}
t.HEAPU32.set(new Uint32Array([1732584193, 4023233417, 2562383102, 271733878, 3285377520]), t.sha1 >> 2);
for (var o = 0; o < e.length; ) {
var i = Math.min(t.HEAPU8.length - t.data, e.length - o) & -64;
if (t.HEAPU8.set(e.subarray(o, o + i), t.data),
o += i,
t.process(t.data, i >> 6),
e.length - o < 64) {
if (i = e.length - o,
t.HEAPU8.set(e.subarray(e.length - i, e.length), t.data),
o += i,
t.HEAPU8[t.data + i++] = 128,
i > 56) {
for (var a = i; a < 64; a++)
t.HEAPU8[t.data + a] = 0;
t.process(t.data, 1),
i = 0
}
for (var a = i; a < 64; a++)
t.HEAPU8[t.data + a] = 0;
for (var s = e.length, d = 0, a = 63; a >= 56; a--,
d = (224 & s) >> 5,
s /= 256)
t.HEAPU8[t.data + a] = ((31 & s) << 3) + d;
t.process(t.data, 1)
}
}
for (var l = new Uint8Array(20), a = 0; a < l.length; a++)
l[a] = t.HEAPU8[t.sha1 + (a & -4) + 3 - (3 & a)];
return l
}
},
Progress: {
Styles: {
Dark: {
progressLogoUrl: "data:image/png;base64,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",
progressEmptyUrl: "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAI0AAAASCAYAAABmbl0zAAAACXBIWXMAAAsSAAALEgHS3X78AAAATUlEQVRo3u3aIQ4AIAwEQUr4/5cPiyMVBDOj0M2mCKgkGdAwjYCudZzLOLiITYPrCdEgGkSDaEA0iAbRIBpEA6JBNHx1vnL7V4NNwxsbCNMGI3YImu0AAAAASUVORK5CYII=",
progressFullUrl: "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAI0AAAASCAYAAABmbl0zAAAACXBIWXMAAAsSAAALEgHS3X78AAAAO0lEQVRo3u3SQREAAAjDMMC/56EB3omEXjtJCg5GAkyDaTANpsE0YBpMg2kwDaYB02AaTINpMA2Yhr8FO18EIBpZMeQAAAAASUVORK5CYII="
},
Light: {
progressLogoUrl: "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAJoAAACCCAYAAAC+etHhAAAACXBIWXMAAAsSAAALEgHS3X78AAAIhUlEQVR42u2dzW3bSBTH/yFcgNIBg5wDMKccPa5ATAVxKkhUga0KbFdgdmCpglDHnFZAzsGyBHWgPYjcMIQlkm++3sy8P7AInI3tGfKnN+9rZt4cj0eIRLaVySMQudBV/4v3Hz7JE+GvAoACcA2gBLAC8Dj3h/z+9dMfaCKWyntgqfbrvpYU0LxaNBELLQZgFSP/XgW3dIq8LodlD665UgBqAU302nLYB2uh+fOWApqoWw7LC36WrtgvnwKaPanW0kzxs0wsvQsABwEtnbTD0pOFKQFUAlq8aYelIT9LV9cCWnxph9KCnxW1nyagjb+8zmoVzMeat/81Alo4flZntUJTCaZVgtRBy3G5vBOargU0fnoJ1GoF6ael2iZURghZF7AUAhqfl/EQ+YdIQGOg7xH4YmN+moDGwPn/FvkcFfwnj5MH7Y7JSzg4gE1A8/hJv/UI1gantuuP7Z9JLZ8ppTfuHINVA9i1f+4HwciP1CxaKqDdOnj4HVibAVivBSO2l+8CzMpRKYC2sGTN+harnhGMuLKsCoy6OVIAzVQ6gwLWUC7zd9cCmjvloKcz9i1QW5jpx1dwm0wtAXwV0NzoYYY/tB9YrYOFsVC06flcc12GYsRfFNB6TvwXwsPlANZwHtQa5Kr1626JVlRAm/Byng3+vKa1Di7AGsJPtWbrdtxbImhs2oauIofs0FqE2mOoT61GND1IqD4imwJ7FjFkAHDTRl6+IMvbqJdqzQ69Dwx1CVQCml3IvjLwT6hzqV9JTWwFNJ6QVZ7nozRe8voMfBQtBbR4IdOxZtUZqKgBTAEGHSuZQGZF1GpEF7xcWlKDXD4zgcxKOoNaz3wasVpUP22ZMmgxQgbopTPuJwQJYtEEMq10xmoijA1xXHlqoMUKmU4AUONUtZiiDfF3qJRAixkypfEy53RZ7EL00zKBzLs1e5y5HIpFcwRZxRAynXTGmrjUUqLhImbQTEP2lRlkOumMfj1zjqhpjjJW0GKHDJjXXNnXHvQWnpr4fdcxgpYCZAXoe0V19nbuQUtzqNhASwGyzppRtIH+PgTq95exgJYKZCXRQozVM6eKmua4jgG0VCDTsWZPMNOIGVSaIxPISLoHLZ3RwFwPP7Xr1kvbUCaQzdYC9L2i1HRG8H5aJpCRlswFEYrK8Fio+bQ8NNBMQrYPADJf6YxL8B6IH+hgQDMN2Q34ixoAVLC3UWbu8rmGh11hGSPIDswh853OOKc5aQ6TwYh10FKETGe3+ZPl+c1Jc6x9PetMIJskandGg/H2bF01E5dCG8GIFdBShSzXSGe4Cm6mWLWVz4d45QGyTi8IQ7lGOqN2NMYdLu9VeITnXftXniArEL9cpmrqkWBk7fthZB4gS0Fz27N1dbgAm7cAYCpoAhn9pfuwILszvjCL89Eygcy4Vp4syIZbADAGmkCmF01XHn93H/DKYTAyG7RcINPSk+ff3wdry+nBDEFrwL+wzVm+b87LGY1ldOmsBDaydLo7TEDWTxspj2OZHAwIbHRR+9V0pRiNZTJoAhtdC9BPFNLR8sxY7riDJrDRdQf3XazqzN9/B4NKzJQSVBeum4xGh6E4Z+VEaJ7hrplzbMPJAzw3lk4tqtuA7TPC6d74l2hhFNzkssoJY7lFIG1CJpfRAqdbeBcBgNaAXsZxlZOcsinYa2Awt/HRNGyhJIephencQWCwwLQWc19BCgk007CVgcCm0/dPPTxZNwjgEqSQQTMN220gsFWgNQ/aTjHMPTL0OSTQUoWNatVsphgU4d8Ht1M9Ndhq0A9XsXGfek5cCovQQEsRNqpVs2FJSo0PTHCgpQZbA3oHrWmrRjnr7BAyaKnBRt0TkMPsPk+KRat9PDDTB/GlApvOvoBvMJPuUMTv28UAWkqwVaCf929iCaXehLKJBbSUYFtrzEk38qNYtAae7pfPLH/iTcJ2zxC0GvRCtY5Vy4mg1r4elO0LLUzCdgdGrck9UbfXKY35UP2zbaygmYbtmSFsB9B3P1HroNQj3OuYQUsBtnvQ0x2UjgpKWsNrs6nLaxRjh41aMfiGeWUk6vHtXvd5ur4YNmbYqNfuzO3uCKbs5BO02GGjWrXbGQ5+MGUn36DFDJvO6T1TrNoCtIiz9v1gMo+/O1bYqG3fasIcFHFMu5RBixU2nTro2AYSalpjkzposcJG7e4Y20BCCQQaeCo7cQPNBmyKwZyo8zm3gSQHrZu25vCCuYBmGrYX+D8GoNZ4yQ+GrBnA5Jw0TqCZhG2B0wZl37BR5/LadUDBlZ04g2YDttLjXBqYa/umuANszjjhCJpp2F4AHFvo7j34b4/El90/1E8hwLJTX1fgq6r984sGZMMTEBX+JEZrnPJLOr7U1HTHCrTmzYc2NUHtpq25vMw3x+Px/y/ef/iEyPRjhgWzDd4/RJ/xsZ1DQQD87bn/+fvXTwHNoFQLG9UamARPZywUbXA6GowFaBniVg16q3W3zP4w5OPpjIWiHacXEbtFA+gH6dmweHm7hLo4p+wdLlQExKLxSjGYtngN3Fx60YBB2Sk10HRSDDbAc3HzXc3tBaQCms5BeqbBK2D/9rsttxeQgo9mIsUQmt6OWXDx0exqlcAcWR6tnxpocyLEULXlOKjUQAPivwmmFtB4qAGT658tBT0CGiOxuNA+FWuWMmhdwfljC10sftuO68CukLb2+PvugBKnTlaFMNMgGwEtnBfVvazFALw8AN+zEdDCXF4r/Om4yAfgcbswjfXynwlPs6PVz61/d8PMv9tyfnhi0fQsSN1bZpVn/64W0NJYZvv+XT4Az7Z/x/5GZwHN3jLb9++KAXim/bst9wcioLlRl0bpKhJqAF7Uy6aAFod/dxDQRC78uzqESQpo4ft3OwFNZNO/W7YQbkKYxF+t3CKRLUllQCSgieLRf80sS5fCDVbiAAAAAElFTkSuQmCC",
progressEmptyUrl: "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAI0AAAASCAYAAABmbl0zAAAACXBIWXMAAAsSAAALEgHS3X78AAAAUUlEQVRo3u3aMQ4AEAxAUcRJzGb3v1mt3cQglvcmc/NTA3XMFQUuNCPgVk/nahwchE2D6wnRIBpEg2hANIgG0SAaRAOiQTR8lV+5/avBpuGNDcz6A6oq1CgNAAAAAElFTkSuQmCC",
progressFullUrl: "data:image/png;base64,iVBORw0KGgoAAAANSUhEUgAAAI0AAAASCAYAAABmbl0zAAAACXBIWXMAAAsSAAALEgHS3X78AAAAQElEQVRo3u3SMREAMAgAsVIpnTvj3xlogDmR8PfxftaBgSsBpsE0mAbTYBowDabBNJgG04BpMA2mwTSYBkzDXgP/hgGnr4PpeAAAAABJRU5ErkJggg=="
}
},
handler: function(e, t) {
if (e.Module) {
var r = UnityLoader.Progress.Styles[e.Module.splashScreenStyle]
, n = e.Module.progressLogoUrl ? e.Module.resolveBuildUrl(e.Module.progressLogoUrl) : r.progressLogoUrl
, o = e.Module.progressEmptyUrl ? e.Module.resolveBuildUrl(e.Module.progressEmptyUrl) : r.progressEmptyUrl
, i = e.Module.progressFullUrl ? e.Module.resolveBuildUrl(e.Module.progressFullUrl) : r.progressFullUrl
, a = "position: absolute; left: 50%; top: 50%; -webkit-transform: translate(-50%, -50%); transform: translate(-50%, -50%);";
e.logo || (e.logo = document.createElement("div"),
e.logo.style.cssText = a + "background: url('" + n + "') no-repeat center / contain; width: 154px; height: 130px;",
e.container.appendChild(e.logo)),
e.progress || (e.progress = document.createElement("div"),
e.progress.style.cssText = a + " height: 18px; width: 141px; margin-top: 90px;",
e.progress.empty = document.createElement("div"),
e.progress.empty.style.cssText = "background: url('" + o + "') no-repeat right / cover; float: right; width: 100%; height: 100%; display: inline-block;",
e.progress.appendChild(e.progress.empty),
e.progress.full = document.createElement("div"),
e.progress.full.style.cssText = "background: url('" + i + "') no-repeat left / cover; float: left; width: 0%; height: 100%; display: inline-block;",
e.progress.appendChild(e.progress.full),
e.container.appendChild(e.progress)),
e.progress.full.style.width = 100 * t + "%",
e.progress.empty.style.width = 100 * (1 - t) + "%",
1 == t && (e.logo.style.display = e.progress.style.display = "none")
}
},
update: function(e, t, r) {
var n = e.buildDownloadProgress[t];
n || (n = e.buildDownloadProgress[t] = {
started: !1,
finished: !1,
lengthComputable: !1,
total: 0,
loaded: 0
}),
"object" != typeof r || "progress" != r.type && "load" != r.type || (n.started || (n.started = !0,
n.lengthComputable = r.lengthComputable,
n.total = r.total),
n.loaded = r.loaded,
"load" == r.type && (n.finished = !0));
var o = 0
, i = 0
, a = 0
, s = 0
, d = 0;
for (var t in e.buildDownloadProgress) {
var n = e.buildDownloadProgress[t];
if (!n.started)
return 0;
a++,
n.lengthComputable ? (o += n.loaded,
i += n.total,
s++) : n.finished || d++
}
var l = a ? (a - d - (i ? s * (i - o) / i : 0)) / a : 0;
e.gameInstance.onProgress(e.gameInstance, .9 * l)
}
},
Compression: {
identity: {
require: function() {
return {}
},
decompress: function(e) {
return e
}
},
gzip: {
require: function(e) {
var t = {
"inflate.js": function(e, t, r) {
"use strict";
function n(e) {
if (!(this instanceof n))
return new n(e);
this.options = s.assign({
chunkSize: 16384,
windowBits: 0,
to: ""
}, e || {});
var t = this.options;
t.raw && t.windowBits >= 0 && t.windowBits < 16 && (t.windowBits = -t.windowBits,
0 === t.windowBits && (t.windowBits = -15)),
!(t.windowBits >= 0 && t.windowBits < 16) || e && e.windowBits || (t.windowBits += 32),
t.windowBits > 15 && t.windowBits < 48 && 0 === (15 & t.windowBits) && (t.windowBits |= 15),
this.err = 0,
this.msg = "",
this.ended = !1,
this.chunks = [],
this.strm = new u,
this.strm.avail_out = 0;
var r = a.inflateInit2(this.strm, t.windowBits);
if (r !== l.Z_OK)
throw new Error(f[r]);
this.header = new c,
a.inflateGetHeader(this.strm, this.header)
}
function o(e, t) {
var r = new n(t);
if (r.push(e, !0),
r.err)
throw r.msg || f[r.err];
return r.result
}
function i(e, t) {
return t = t || {},
t.raw = !0,
o(e, t)
}
var a = e("./zlib/inflate")
, s = e("./utils/common")
, d = e("./utils/strings")
, l = e("./zlib/constants")
, f = e("./zlib/messages")
, u = e("./zlib/zstream")
, c = e("./zlib/gzheader")
, h = Object.prototype.toString;
n.prototype.push = function(e, t) {
var r, n, o, i, f, u, c = this.strm, p = this.options.chunkSize, w = this.options.dictionary, b = !1;
if (this.ended)
return !1;
n = t === ~~t ? t : t === !0 ? l.Z_FINISH : l.Z_NO_FLUSH,
"string" == typeof e ? c.input = d.binstring2buf(e) : "[object ArrayBuffer]" === h.call(e) ? c.input = new Uint8Array(e) : c.input = e,
c.next_in = 0,
c.avail_in = c.input.length;
do {
if (0 === c.avail_out && (c.output = new s.Buf8(p),
c.next_out = 0,
c.avail_out = p),
r = a.inflate(c, l.Z_NO_FLUSH),
r === l.Z_NEED_DICT && w && (u = "string" == typeof w ? d.string2buf(w) : "[object ArrayBuffer]" === h.call(w) ? new Uint8Array(w) : w,
r = a.inflateSetDictionary(this.strm, u)),
r === l.Z_BUF_ERROR && b === !0 && (r = l.Z_OK,
b = !1),
r !== l.Z_STREAM_END && r !== l.Z_OK)
return this.onEnd(r),
this.ended = !0,
!1;
c.next_out && (0 !== c.avail_out && r !== l.Z_STREAM_END && (0 !== c.avail_in || n !== l.Z_FINISH && n !== l.Z_SYNC_FLUSH) || ("string" === this.options.to ? (o = d.utf8border(c.output, c.next_out),
i = c.next_out - o,
f = d.buf2string(c.output, o),
c.next_out = i,
c.avail_out = p - i,
i && s.arraySet(c.output, c.output, o, i, 0),
this.onData(f)) : this.onData(s.shrinkBuf(c.output, c.next_out)))),
0 === c.avail_in && 0 === c.avail_out && (b = !0)
} while ((c.avail_in > 0 || 0 === c.avail_out) && r !== l.Z_STREAM_END);return r === l.Z_STREAM_END && (n = l.Z_FINISH),
n === l.Z_FINISH ? (r = a.inflateEnd(this.strm),
this.onEnd(r),
this.ended = !0,
r === l.Z_OK) : n !== l.Z_SYNC_FLUSH || (this.onEnd(l.Z_OK),
c.avail_out = 0,
!0)
}
,
n.prototype.onData = function(e) {
this.chunks.push(e)
}
,
n.prototype.onEnd = function(e) {
e === l.Z_OK && ("string" === this.options.to ? this.result = this.chunks.join("") : this.result = s.flattenChunks(this.chunks)),
this.chunks = [],
this.err = e,
this.msg = this.strm.msg
}
,
r.Inflate = n,
r.inflate = o,
r.inflateRaw = i,
r.ungzip = o
},
"utils/common.js": function(e, t, r) {
"use strict";
var n = "undefined" != typeof Uint8Array && "undefined" != typeof Uint16Array && "undefined" != typeof Int32Array;
r.assign = function(e) {
for (var t = Array.prototype.slice.call(arguments, 1); t.length; ) {
var r = t.shift();
if (r) {
if ("object" != typeof r)
throw new TypeError(r + "must be non-object");
for (var n in r)
r.hasOwnProperty(n) && (e[n] = r[n])
}
}
return e
}
,
r.shrinkBuf = function(e, t) {
return e.length === t ? e : e.subarray ? e.subarray(0, t) : (e.length = t,
e)
}
;
var o = {
arraySet: function(e, t, r, n, o) {
if (t.subarray && e.subarray)
return void e.set(t.subarray(r, r + n), o);
for (var i = 0; i < n; i++)
e[o + i] = t[r + i]
},
flattenChunks: function(e) {
var t, r, n, o, i, a;
for (n = 0,
t = 0,
r = e.length; t < r; t++)
n += e[t].length;
for (a = new Uint8Array(n),
o = 0,
t = 0,
r = e.length; t < r; t++)
i = e[t],
a.set(i, o),
o += i.length;
return a
}
}
, i = {
arraySet: function(e, t, r, n, o) {
for (var i = 0; i < n; i++)
e[o + i] = t[r + i]
},
flattenChunks: function(e) {
return [].concat.apply([], e)
}
};
r.setTyped = function(e) {
e ? (r.Buf8 = Uint8Array,
r.Buf16 = Uint16Array,
r.Buf32 = Int32Array,
r.assign(r, o)) : (r.Buf8 = Array,
r.Buf16 = Array,
r.Buf32 = Array,
r.assign(r, i))
}
,
r.setTyped(n)
},
"utils/strings.js": function(e, t, r) {
"use strict";
function n(e, t) {
if (t < 65537 && (e.subarray && a || !e.subarray && i))
return String.fromCharCode.apply(null, o.shrinkBuf(e, t));
for (var r = "", n = 0; n < t; n++)
r += String.fromCharCode(e[n]);
return r
}
var o = e("./common")
, i = !0
, a = !0;
try {
String.fromCharCode.apply(null, [0])
} catch (e) {
i = !1
}
try {
String.fromCharCode.apply(null, new Uint8Array(1))
} catch (e) {
a = !1
}
for (var s = new o.Buf8(256), d = 0; d < 256; d++)
s[d] = d >= 252 ? 6 : d >= 248 ? 5 : d >= 240 ? 4 : d >= 224 ? 3 : d >= 192 ? 2 : 1;
s[254] = s[254] = 1,
r.string2buf = function(e) {
var t, r, n, i, a, s = e.length, d = 0;
for (i = 0; i < s; i++)
r = e.charCodeAt(i),
55296 === (64512 & r) && i + 1 < s && (n = e.charCodeAt(i + 1),
56320 === (64512 & n) && (r = 65536 + (r - 55296 << 10) + (n - 56320),
i++)),
d += r < 128 ? 1 : r < 2048 ? 2 : r < 65536 ? 3 : 4;
for (t = new o.Buf8(d),
a = 0,
i = 0; a < d; i++)
r = e.charCodeAt(i),
55296 === (64512 & r) && i + 1 < s && (n = e.charCodeAt(i + 1),
56320 === (64512 & n) && (r = 65536 + (r - 55296 << 10) + (n - 56320),
i++)),
r < 128 ? t[a++] = r : r < 2048 ? (t[a++] = 192 | r >>> 6,
t[a++] = 128 | 63 & r) : r < 65536 ? (t[a++] = 224 | r >>> 12,
t[a++] = 128 | r >>> 6 & 63,
t[a++] = 128 | 63 & r) : (t[a++] = 240 | r >>> 18,
t[a++] = 128 | r >>> 12 & 63,
t[a++] = 128 | r >>> 6 & 63,
t[a++] = 128 | 63 & r);
return t
}
,
r.buf2binstring = function(e) {
return n(e, e.length)
}
,
r.binstring2buf = function(e) {
for (var t = new o.Buf8(e.length), r = 0, n = t.length; r < n; r++)
t[r] = e.charCodeAt(r);
return t
}
,
r.buf2string = function(e, t) {
var r, o, i, a, d = t || e.length, l = new Array(2 * d);
for (o = 0,
r = 0; r < d; )
if (i = e[r++],
i < 128)
l[o++] = i;
else if (a = s[i],
a > 4)
l[o++] = 65533,
r += a - 1;
else {
for (i &= 2 === a ? 31 : 3 === a ? 15 : 7; a > 1 && r < d; )
i = i << 6 | 63 & e[r++],
a--;
a > 1 ? l[o++] = 65533 : i < 65536 ? l[o++] = i : (i -= 65536,
l[o++] = 55296 | i >> 10 & 1023,
l[o++] = 56320 | 1023 & i)
}
return n(l, o)
}
,
r.utf8border = function(e, t) {
var r;
for (t = t || e.length,
t > e.length && (t = e.length),
r = t - 1; r >= 0 && 128 === (192 & e[r]); )
r--;
return r < 0 ? t : 0 === r ? t : r + s[e[r]] > t ? r : t
}
},
"zlib/inflate.js": function(e, t, r) {
"use strict";
function n(e) {
return (e >>> 24 & 255) + (e >>> 8 & 65280) + ((65280 & e) << 8) + ((255 & e) << 24)
}
function o() {
this.mode = 0,
this.last = !1,
this.wrap = 0,
this.havedict = !1,
this.flags = 0,
this.dmax = 0,
this.check = 0,
this.total = 0,
this.head = null,
this.wbits = 0,
this.wsize = 0,
this.whave = 0,
this.wnext = 0,
this.window = null,
this.hold = 0,
this.bits = 0,
this.length = 0,
this.offset = 0,
this.extra = 0,
this.lencode = null,
this.distcode = null,
this.lenbits = 0,
this.distbits = 0,
this.ncode = 0,
this.nlen = 0,
this.ndist = 0,
this.have = 0,
this.next = null,
this.lens = new g.Buf16(320),
this.work = new g.Buf16(288),
this.lendyn = null,
this.distdyn = null,
this.sane = 0,
this.back = 0,
this.was = 0
}
function i(e) {
var t;
return e && e.state ? (t = e.state,
e.total_in = e.total_out = t.total = 0,
e.msg = "",
t.wrap && (e.adler = 1 & t.wrap),
t.mode = P,
t.last = 0,
t.havedict = 0,
t.dmax = 32768,
t.head = null,
t.hold = 0,
t.bits = 0,
t.lencode = t.lendyn = new g.Buf32(we),
t.distcode = t.distdyn = new g.Buf32(be),
t.sane = 1,
t.back = -1,
O) : R
}
function a(e) {
var t;
return e && e.state ? (t = e.state,
t.wsize = 0,
t.whave = 0,
t.wnext = 0,
i(e)) : R
}
function s(e, t) {
var r, n;
return e && e.state ? (n = e.state,
t < 0 ? (r = 0,
t = -t) : (r = (t >> 4) + 1,
t < 48 && (t &= 15)),
t && (t < 8 || t > 15) ? R : (null !== n.window && n.wbits !== t && (n.window = null),
n.wrap = r,
n.wbits = t,
a(e))) : R
}
function d(e, t) {
var r, n;
return e ? (n = new o,
e.state = n,
n.window = null,
r = s(e, t),
r !== O && (e.state = null),
r) : R
}
function l(e) {
return d(e, ge)
}
function f(e) {
if (ye) {
var t;
for (b = new g.Buf32(512),
m = new g.Buf32(32),
t = 0; t < 144; )
e.lens[t++] = 8;
for (; t < 256; )
e.lens[t++] = 9;
for (; t < 280; )
e.lens[t++] = 7;
for (; t < 288; )
e.lens[t++] = 8;
for (U(E, e.lens, 0, 288, b, 0, e.work, {
bits: 9
}),
t = 0; t < 32; )
e.lens[t++] = 5;
U(k, e.lens, 0, 32, m, 0, e.work, {
bits: 5
}),
ye = !1
}
e.lencode = b,
e.lenbits = 9,
e.distcode = m,
e.distbits = 5
}
function u(e, t, r, n) {
var o, i = e.state;
return null === i.window && (i.wsize = 1 << i.wbits,
i.wnext = 0,
i.whave = 0,
i.window = new g.Buf8(i.wsize)),
n >= i.wsize ? (g.arraySet(i.window, t, r - i.wsize, i.wsize, 0),
i.wnext = 0,
i.whave = i.wsize) : (o = i.wsize - i.wnext,
o > n && (o = n),
g.arraySet(i.window, t, r - n, o, i.wnext),
n -= o,
n ? (g.arraySet(i.window, t, r - n, n, 0),
i.wnext = n,
i.whave = i.wsize) : (i.wnext += o,
i.wnext === i.wsize && (i.wnext = 0),
i.whave < i.wsize && (i.whave += o))),
0
}
function c(e, t) {
var r, o, i, a, s, d, l, c, h, p, w, b, m, we, be, me, ge, ye, Ae, ve, Ue, xe, Ee, ke, Be = 0, We = new g.Buf8(4), Le = [16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15];
if (!e || !e.state || !e.output || !e.input && 0 !== e.avail_in)
return R;
r = e.state,
r.mode === j && (r.mode = X),
s = e.next_out,
i = e.output,
l = e.avail_out,
a = e.next_in,
o = e.input,
d = e.avail_in,
c = r.hold,
h = r.bits,
p = d,
w = l,
xe = O;
e: for (; ; )
switch (r.mode) {
case P:
if (0 === r.wrap) {
r.mode = X;
break
}
for (; h < 16; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (2 & r.wrap && 35615 === c) {
r.check = 0,
We[0] = 255 & c,
We[1] = c >>> 8 & 255,
r.check = A(r.check, We, 2, 0),
c = 0,
h = 0,
r.mode = T;
break
}
if (r.flags = 0,
r.head && (r.head.done = !1),
!(1 & r.wrap) || (((255 & c) << 8) + (c >> 8)) % 31) {
e.msg = "incorrect header check",
r.mode = ce;
break
}
if ((15 & c) !== I) {
e.msg = "unknown compression method",
r.mode = ce;
break
}
if (c >>>= 4,
h -= 4,
Ue = (15 & c) + 8,
0 === r.wbits)
r.wbits = Ue;
else if (Ue > r.wbits) {
e.msg = "invalid window size",
r.mode = ce;
break
}
r.dmax = 1 << Ue,
e.adler = r.check = 1,
r.mode = 512 & c ? G : j,
c = 0,
h = 0;
break;
case T:
for (; h < 16; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (r.flags = c,
(255 & r.flags) !== I) {
e.msg = "unknown compression method",
r.mode = ce;
break
}
if (57344 & r.flags) {
e.msg = "unknown header flags set",
r.mode = ce;
break
}
r.head && (r.head.text = c >> 8 & 1),
512 & r.flags && (We[0] = 255 & c,
We[1] = c >>> 8 & 255,
r.check = A(r.check, We, 2, 0)),
c = 0,
h = 0,
r.mode = F;
case F:
for (; h < 32; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.head && (r.head.time = c),
512 & r.flags && (We[0] = 255 & c,
We[1] = c >>> 8 & 255,
We[2] = c >>> 16 & 255,
We[3] = c >>> 24 & 255,
r.check = A(r.check, We, 4, 0)),
c = 0,
h = 0,
r.mode = D;
case D:
for (; h < 16; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.head && (r.head.xflags = 255 & c,
r.head.os = c >> 8),
512 & r.flags && (We[0] = 255 & c,
We[1] = c >>> 8 & 255,
r.check = A(r.check, We, 2, 0)),
c = 0,
h = 0,
r.mode = V;
case V:
if (1024 & r.flags) {
for (; h < 16; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.length = c,
r.head && (r.head.extra_len = c),
512 & r.flags && (We[0] = 255 & c,
We[1] = c >>> 8 & 255,
r.check = A(r.check, We, 2, 0)),
c = 0,
h = 0
} else
r.head && (r.head.extra = null);
r.mode = Z;
case Z:
if (1024 & r.flags && (b = r.length,
b > d && (b = d),
b && (r.head && (Ue = r.head.extra_len - r.length,
r.head.extra || (r.head.extra = new Array(r.head.extra_len)),
g.arraySet(r.head.extra, o, a, b, Ue)),
512 & r.flags && (r.check = A(r.check, o, b, a)),
d -= b,
a += b,
r.length -= b),
r.length))
break e;
r.length = 0,
r.mode = q;
case q:
if (2048 & r.flags) {
if (0 === d)
break e;
b = 0;
do
Ue = o[a + b++],
r.head && Ue && r.length < 65536 && (r.head.name += String.fromCharCode(Ue));
while (Ue && b < d);if (512 & r.flags && (r.check = A(r.check, o, b, a)),
d -= b,
a += b,
Ue)
break e
} else
r.head && (r.head.name = null);
r.length = 0,
r.mode = Y;
case Y:
if (4096 & r.flags) {
if (0 === d)
break e;
b = 0;
do
Ue = o[a + b++],
r.head && Ue && r.length < 65536 && (r.head.comment += String.fromCharCode(Ue));
while (Ue && b < d);if (512 & r.flags && (r.check = A(r.check, o, b, a)),
d -= b,
a += b,
Ue)
break e
} else
r.head && (r.head.comment = null);
r.mode = z;
case z:
if (512 & r.flags) {
for (; h < 16; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (c !== (65535 & r.check)) {
e.msg = "header crc mismatch",
r.mode = ce;
break
}
c = 0,
h = 0
}
r.head && (r.head.hcrc = r.flags >> 9 & 1,
r.head.done = !0),
e.adler = r.check = 0,
r.mode = j;
break;
case G:
for (; h < 32; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
e.adler = r.check = n(c),
c = 0,
h = 0,
r.mode = J;
case J:
if (0 === r.havedict)
return e.next_out = s,
e.avail_out = l,
e.next_in = a,
e.avail_in = d,
r.hold = c,
r.bits = h,
N;
e.adler = r.check = 1,
r.mode = j;
case j:
if (t === W || t === L)
break e;
case X:
if (r.last) {
c >>>= 7 & h,
h -= 7 & h,
r.mode = le;
break
}
for (; h < 3; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
switch (r.last = 1 & c,
c >>>= 1,
h -= 1,
3 & c) {
case 0:
r.mode = K;
break;
case 1:
if (f(r),
r.mode = re,
t === L) {
c >>>= 2,
h -= 2;
break e
}
break;
case 2:
r.mode = $;
break;
case 3:
e.msg = "invalid block type",
r.mode = ce
}
c >>>= 2,
h -= 2;
break;
case K:
for (c >>>= 7 & h,
h -= 7 & h; h < 32; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if ((65535 & c) !== (c >>> 16 ^ 65535)) {
e.msg = "invalid stored block lengths",
r.mode = ce;
break
}
if (r.length = 65535 & c,
c = 0,
h = 0,
r.mode = Q,
t === L)
break e;
case Q:
r.mode = _;
case _:
if (b = r.length) {
if (b > d && (b = d),
b > l && (b = l),
0 === b)
break e;
g.arraySet(i, o, a, b, s),
d -= b,
a += b,
l -= b,
s += b,
r.length -= b;
break
}
r.mode = j;
break;
case $:
for (; h < 14; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (r.nlen = (31 & c) + 257,
c >>>= 5,
h -= 5,
r.ndist = (31 & c) + 1,
c >>>= 5,
h -= 5,
r.ncode = (15 & c) + 4,
c >>>= 4,
h -= 4,
r.nlen > 286 || r.ndist > 30) {
e.msg = "too many length or distance symbols",
r.mode = ce;
break
}
r.have = 0,
r.mode = ee;
case ee:
for (; r.have < r.ncode; ) {
for (; h < 3; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.lens[Le[r.have++]] = 7 & c,
c >>>= 3,
h -= 3
}
for (; r.have < 19; )
r.lens[Le[r.have++]] = 0;
if (r.lencode = r.lendyn,
r.lenbits = 7,
Ee = {
bits: r.lenbits
},
xe = U(x, r.lens, 0, 19, r.lencode, 0, r.work, Ee),
r.lenbits = Ee.bits,
xe) {
e.msg = "invalid code lengths set",
r.mode = ce;
break
}
r.have = 0,
r.mode = te;
case te:
for (; r.have < r.nlen + r.ndist; ) {
for (; Be = r.lencode[c & (1 << r.lenbits) - 1],
be = Be >>> 24,
me = Be >>> 16 & 255,
ge = 65535 & Be,
!(be <= h); ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (ge < 16)
c >>>= be,
h -= be,
r.lens[r.have++] = ge;
else {
if (16 === ge) {
for (ke = be + 2; h < ke; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (c >>>= be,
h -= be,
0 === r.have) {
e.msg = "invalid bit length repeat",
r.mode = ce;
break
}
Ue = r.lens[r.have - 1],
b = 3 + (3 & c),
c >>>= 2,
h -= 2
} else if (17 === ge) {
for (ke = be + 3; h < ke; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
c >>>= be,
h -= be,
Ue = 0,
b = 3 + (7 & c),
c >>>= 3,
h -= 3
} else {
for (ke = be + 7; h < ke; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
c >>>= be,
h -= be,
Ue = 0,
b = 11 + (127 & c),
c >>>= 7,
h -= 7
}
if (r.have + b > r.nlen + r.ndist) {
e.msg = "invalid bit length repeat",
r.mode = ce;
break
}
for (; b--; )
r.lens[r.have++] = Ue
}
}
if (r.mode === ce)
break;
if (0 === r.lens[256]) {
e.msg = "invalid code -- missing end-of-block",
r.mode = ce;
break
}
if (r.lenbits = 9,
Ee = {
bits: r.lenbits
},
xe = U(E, r.lens, 0, r.nlen, r.lencode, 0, r.work, Ee),
r.lenbits = Ee.bits,
xe) {
e.msg = "invalid literal/lengths set",
r.mode = ce;
break
}
if (r.distbits = 6,
r.distcode = r.distdyn,
Ee = {
bits: r.distbits
},
xe = U(k, r.lens, r.nlen, r.ndist, r.distcode, 0, r.work, Ee),
r.distbits = Ee.bits,
xe) {
e.msg = "invalid distances set",
r.mode = ce;
break
}
if (r.mode = re,
t === L)
break e;
case re:
r.mode = ne;
case ne:
if (d >= 6 && l >= 258) {
e.next_out = s,
e.avail_out = l,
e.next_in = a,
e.avail_in = d,
r.hold = c,
r.bits = h,
v(e, w),
s = e.next_out,
i = e.output,
l = e.avail_out,
a = e.next_in,
o = e.input,
d = e.avail_in,
c = r.hold,
h = r.bits,
r.mode === j && (r.back = -1);
break
}
for (r.back = 0; Be = r.lencode[c & (1 << r.lenbits) - 1],
be = Be >>> 24,
me = Be >>> 16 & 255,
ge = 65535 & Be,
!(be <= h); ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (me && 0 === (240 & me)) {
for (ye = be,
Ae = me,
ve = ge; Be = r.lencode[ve + ((c & (1 << ye + Ae) - 1) >> ye)],
be = Be >>> 24,
me = Be >>> 16 & 255,
ge = 65535 & Be,
!(ye + be <= h); ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
c >>>= ye,
h -= ye,
r.back += ye
}
if (c >>>= be,
h -= be,
r.back += be,
r.length = ge,
0 === me) {
r.mode = de;
break
}
if (32 & me) {
r.back = -1,
r.mode = j;
break
}
if (64 & me) {
e.msg = "invalid literal/length code",
r.mode = ce;
break
}
r.extra = 15 & me,
r.mode = oe;
case oe:
if (r.extra) {
for (ke = r.extra; h < ke; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.length += c & (1 << r.extra) - 1,
c >>>= r.extra,
h -= r.extra,
r.back += r.extra
}
r.was = r.length,
r.mode = ie;
case ie:
for (; Be = r.distcode[c & (1 << r.distbits) - 1],
be = Be >>> 24,
me = Be >>> 16 & 255,
ge = 65535 & Be,
!(be <= h); ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (0 === (240 & me)) {
for (ye = be,
Ae = me,
ve = ge; Be = r.distcode[ve + ((c & (1 << ye + Ae) - 1) >> ye)],
be = Be >>> 24,
me = Be >>> 16 & 255,
ge = 65535 & Be,
!(ye + be <= h); ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
c >>>= ye,
h -= ye,
r.back += ye
}
if (c >>>= be,
h -= be,
r.back += be,
64 & me) {
e.msg = "invalid distance code",
r.mode = ce;
break
}
r.offset = ge,
r.extra = 15 & me,
r.mode = ae;
case ae:
if (r.extra) {
for (ke = r.extra; h < ke; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
r.offset += c & (1 << r.extra) - 1,
c >>>= r.extra,
h -= r.extra,
r.back += r.extra
}
if (r.offset > r.dmax) {
e.msg = "invalid distance too far back",
r.mode = ce;
break
}
r.mode = se;
case se:
if (0 === l)
break e;
if (b = w - l,
r.offset > b) {
if (b = r.offset - b,
b > r.whave && r.sane) {
e.msg = "invalid distance too far back",
r.mode = ce;
break
}
b > r.wnext ? (b -= r.wnext,
m = r.wsize - b) : m = r.wnext - b,
b > r.length && (b = r.length),
we = r.window
} else
we = i,
m = s - r.offset,
b = r.length;
b > l && (b = l),
l -= b,
r.length -= b;
do
i[s++] = we[m++];
while (--b);0 === r.length && (r.mode = ne);
break;
case de:
if (0 === l)
break e;
i[s++] = r.length,
l--,
r.mode = ne;
break;
case le:
if (r.wrap) {
for (; h < 32; ) {
if (0 === d)
break e;
d--,
c |= o[a++] << h,
h += 8
}
if (w -= l,
e.total_out += w,
r.total += w,
w && (e.adler = r.check = r.flags ? A(r.check, i, w, s - w) : y(r.check, i, w, s - w)),
w = l,
(r.flags ? c : n(c)) !== r.check) {
e.msg = "incorrect data check",
r.mode = ce;
break
}
c = 0,
h = 0
}
r.mode = fe;
case fe:
if (r.wrap && r.flags) {
for (; h < 32; ) {
if (0 === d)
break e;
d--,
c += o[a++] << h,
h += 8
}
if (c !== (4294967295 & r.total)) {
e.msg = "incorrect length check",
r.mode = ce;
break
}
c = 0,
h = 0
}
r.mode = ue;
case ue:
xe = M;
break e;
case ce:
xe = C;
break e;
case he:
return S;
case pe:
default:
return R
}
return e.next_out = s,
e.avail_out = l,
e.next_in = a,
e.avail_in = d,
r.hold = c,
r.bits = h,
(r.wsize || w !== e.avail_out && r.mode < ce && (r.mode < le || t !== B)) && u(e, e.output, e.next_out, w - e.avail_out) ? (r.mode = he,
S) : (p -= e.avail_in,
w -= e.avail_out,
e.total_in += p,
e.total_out += w,
r.total += w,
r.wrap && w && (e.adler = r.check = r.flags ? A(r.check, i, w, e.next_out - w) : y(r.check, i, w, e.next_out - w)),
e.data_type = r.bits + (r.last ? 64 : 0) + (r.mode === j ? 128 : 0) + (r.mode === re || r.mode === Q ? 256 : 0),
(0 === p && 0 === w || t === B) && xe === O && (xe = H),
xe)
}
function h(e) {
if (!e || !e.state)
return R;
var t = e.state;
return t.window && (t.window = null),
e.state = null,
O
}
function p(e, t) {
var r;
return e && e.state ? (r = e.state,
0 === (2 & r.wrap) ? R : (r.head = t,
t.done = !1,
O)) : R
}
function w(e, t) {
var r, n, o, i = t.length;
return e && e.state ? (r = e.state,
0 !== r.wrap && r.mode !== J ? R : r.mode === J && (n = 1,
n = y(n, t, i, 0),
n !== r.check) ? C : (o = u(e, t, i, i)) ? (r.mode = he,
S) : (r.havedict = 1,
O)) : R
}
var b, m, g = e("../utils/common"), y = e("./adler32"), A = e("./crc32"), v = e("./inffast"), U = e("./inftrees"), x = 0, E = 1, k = 2, B = 4, W = 5, L = 6, O = 0, M = 1, N = 2, R = -2, C = -3, S = -4, H = -5, I = 8, P = 1, T = 2, F = 3, D = 4, V = 5, Z = 6, q = 7, Y = 8, z = 9, G = 10, J = 11, j = 12, X = 13, K = 14, Q = 15, _ = 16, $ = 17, ee = 18, te = 19, re = 20, ne = 21, oe = 22, ie = 23, ae = 24, se = 25, de = 26, le = 27, fe = 28, ue = 29, ce = 30, he = 31, pe = 32, we = 852, be = 592, me = 15, ge = me, ye = !0;
r.inflateReset = a,
r.inflateReset2 = s,
r.inflateResetKeep = i,
r.inflateInit = l,
r.inflateInit2 = d,
r.inflate = c,
r.inflateEnd = h,
r.inflateGetHeader = p,
r.inflateSetDictionary = w,
r.inflateInfo = "pako inflate (from Nodeca project)"
},
"zlib/constants.js": function(e, t, r) {
"use strict";
t.exports = {
Z_NO_FLUSH: 0,
Z_PARTIAL_FLUSH: 1,
Z_SYNC_FLUSH: 2,
Z_FULL_FLUSH: 3,
Z_FINISH: 4,
Z_BLOCK: 5,
Z_TREES: 6,
Z_OK: 0,
Z_STREAM_END: 1,
Z_NEED_DICT: 2,
Z_ERRNO: -1,
Z_STREAM_ERROR: -2,
Z_DATA_ERROR: -3,
Z_BUF_ERROR: -5,
Z_NO_COMPRESSION: 0,
Z_BEST_SPEED: 1,
Z_BEST_COMPRESSION: 9,
Z_DEFAULT_COMPRESSION: -1,
Z_FILTERED: 1,
Z_HUFFMAN_ONLY: 2,
Z_RLE: 3,
Z_FIXED: 4,
Z_DEFAULT_STRATEGY: 0,
Z_BINARY: 0,
Z_TEXT: 1,
Z_UNKNOWN: 2,
Z_DEFLATED: 8
}
},
"zlib/messages.js": function(e, t, r) {
"use strict";
t.exports = {
2: "need dictionary",
1: "stream end",
0: "",
"-1": "file error",
"-2": "stream error",
"-3": "data error",
"-4": "insufficient memory",
"-5": "buffer error",
"-6": "incompatible version"
}
},
"zlib/zstream.js": function(e, t, r) {
"use strict";
function n() {
this.input = null,
this.next_in = 0,
this.avail_in = 0,
this.total_in = 0,
this.output = null,
this.next_out = 0,
this.avail_out = 0,
this.total_out = 0,
this.msg = "",
this.state = null,
this.data_type = 2,
this.adler = 0
}
t.exports = n
},
"zlib/gzheader.js": function(e, t, r) {
"use strict";
function n() {
this.text = 0,
this.time = 0,
this.xflags = 0,
this.os = 0,
this.extra = null,
this.extra_len = 0,
this.name = "",
this.comment = "",
this.hcrc = 0,
this.done = !1
}
t.exports = n
},
"zlib/adler32.js": function(e, t, r) {
"use strict";
function n(e, t, r, n) {
for (var o = 65535 & e | 0, i = e >>> 16 & 65535 | 0, a = 0; 0 !== r; ) {
a = r > 2e3 ? 2e3 : r,
r -= a;
do
o = o + t[n++] | 0,
i = i + o | 0;
while (--a);o %= 65521,
i %= 65521
}
return o | i << 16 | 0
}
t.exports = n
},
"zlib/crc32.js": function(e, t, r) {
"use strict";
function n() {
for (var e, t = [], r = 0; r < 256; r++) {
e = r;
for (var n = 0; n < 8; n++)
e = 1 & e ? 3988292384 ^ e >>> 1 : e >>> 1;
t[r] = e
}
return t
}
function o(e, t, r, n) {
var o = i
, a = n + r;
e ^= -1;
for (var s = n; s < a; s++)
e = e >>> 8 ^ o[255 & (e ^ t[s])];
return e ^ -1
}
var i = n();
t.exports = o
},
"zlib/inffast.js": function(e, t, r) {
"use strict";
var n = 30
, o = 12;
t.exports = function(e, t) {
var r, i, a, s, d, l, f, u, c, h, p, w, b, m, g, y, A, v, U, x, E, k, B, W, L;
r = e.state,
i = e.next_in,
W = e.input,
a = i + (e.avail_in - 5),
s = e.next_out,
L = e.output,
d = s - (t - e.avail_out),
l = s + (e.avail_out - 257),
f = r.dmax,
u = r.wsize,
c = r.whave,
h = r.wnext,
p = r.window,
w = r.hold,
b = r.bits,
m = r.lencode,
g = r.distcode,
y = (1 << r.lenbits) - 1,
A = (1 << r.distbits) - 1;
e: do {
b < 15 && (w += W[i++] << b,
b += 8,
w += W[i++] << b,
b += 8),
v = m[w & y];
t: for (; ; ) {
if (U = v >>> 24,
w >>>= U,
b -= U,
U = v >>> 16 & 255,
0 === U)
L[s++] = 65535 & v;
else {
if (!(16 & U)) {
if (0 === (64 & U)) {
v = m[(65535 & v) + (w & (1 << U) - 1)];
continue t
}
if (32 & U) {
r.mode = o;
break e
}
e.msg = "invalid literal/length code",
r.mode = n;
break e
}
x = 65535 & v,
U &= 15,
U && (b < U && (w += W[i++] << b,
b += 8),
x += w & (1 << U) - 1,
w >>>= U,
b -= U),
b < 15 && (w += W[i++] << b,
b += 8,
w += W[i++] << b,
b += 8),
v = g[w & A];
r: for (; ; ) {
if (U = v >>> 24,
w >>>= U,
b -= U,
U = v >>> 16 & 255,
!(16 & U)) {
if (0 === (64 & U)) {
v = g[(65535 & v) + (w & (1 << U) - 1)];
continue r
}
e.msg = "invalid distance code",
r.mode = n;
break e
}
if (E = 65535 & v,
U &= 15,
b < U && (w += W[i++] << b,
b += 8,
b < U && (w += W[i++] << b,
b += 8)),
E += w & (1 << U) - 1,
E > f) {
e.msg = "invalid distance too far back",
r.mode = n;
break e
}
if (w >>>= U,
b -= U,
U = s - d,
E > U) {
if (U = E - U,
U > c && r.sane) {
e.msg = "invalid distance too far back",
r.mode = n;
break e
}
if (k = 0,
B = p,
0 === h) {
if (k += u - U,
U < x) {
x -= U;
do
L[s++] = p[k++];
while (--U);k = s - E,
B = L
}
} else if (h < U) {
if (k += u + h - U,
U -= h,
U < x) {
x -= U;
do
L[s++] = p[k++];
while (--U);if (k = 0,
h < x) {
U = h,
x -= U;
do
L[s++] = p[k++];
while (--U);k = s - E,
B = L
}
}
} else if (k += h - U,
U < x) {
x -= U;
do
L[s++] = p[k++];
while (--U);k = s - E,
B = L
}
for (; x > 2; )
L[s++] = B[k++],
L[s++] = B[k++],
L[s++] = B[k++],
x -= 3;
x && (L[s++] = B[k++],
x > 1 && (L[s++] = B[k++]))
} else {
k = s - E;
do
L[s++] = L[k++],
L[s++] = L[k++],
L[s++] = L[k++],
x -= 3;
while (x > 2);x && (L[s++] = L[k++],
x > 1 && (L[s++] = L[k++]))
}
break
}
}
break
}
} while (i < a && s < l);x = b >> 3,
i -= x,
b -= x << 3,
w &= (1 << b) - 1,
e.next_in = i,
e.next_out = s,
e.avail_in = i < a ? 5 + (a - i) : 5 - (i - a),
e.avail_out = s < l ? 257 + (l - s) : 257 - (s - l),
r.hold = w,
r.bits = b
}
},
"zlib/inftrees.js": function(e, t, r) {
"use strict";
var n = e("../utils/common")
, o = 15
, i = 852
, a = 592
, s = 0
, d = 1
, l = 2
, f = [3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31, 35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258, 0, 0]
, u = [16, 16, 16, 16, 16, 16, 16, 16, 17, 17, 17, 17, 18, 18, 18, 18, 19, 19, 19, 19, 20, 20, 20, 20, 21, 21, 21, 21, 16, 72, 78]
, c = [1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, 257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145, 8193, 12289, 16385, 24577, 0, 0]
, h = [16, 16, 16, 16, 17, 17, 18, 18, 19, 19, 20, 20, 21, 21, 22, 22, 23, 23, 24, 24, 25, 25, 26, 26, 27, 27, 28, 28, 29, 29, 64, 64];
t.exports = function(e, t, r, p, w, b, m, g) {
var y, A, v, U, x, E, k, B, W, L = g.bits, O = 0, M = 0, N = 0, R = 0, C = 0, S = 0, H = 0, I = 0, P = 0, T = 0, F = null, D = 0, V = new n.Buf16(o + 1), Z = new n.Buf16(o + 1), q = null, Y = 0;
for (O = 0; O <= o; O++)
V[O] = 0;
for (M = 0; M < p; M++)
V[t[r + M]]++;
for (C = L,
R = o; R >= 1 && 0 === V[R]; R--)
;
if (C > R && (C = R),
0 === R)
return w[b++] = 20971520,
w[b++] = 20971520,
g.bits = 1,
0;
for (N = 1; N < R && 0 === V[N]; N++)
;
for (C < N && (C = N),
I = 1,
O = 1; O <= o; O++)
if (I <<= 1,
I -= V[O],
I < 0)
return -1;
if (I > 0 && (e === s || 1 !== R))
return -1;
for (Z[1] = 0,
O = 1; O < o; O++)
Z[O + 1] = Z[O] + V[O];
for (M = 0; M < p; M++)
0 !== t[r + M] && (m[Z[t[r + M]]++] = M);
if (e === s ? (F = q = m,
E = 19) : e === d ? (F = f,
D -= 257,
q = u,
Y -= 257,
E = 256) : (F = c,
q = h,
E = -1),
T = 0,
M = 0,
O = N,
x = b,
S = C,
H = 0,
v = -1,
P = 1 << C,
U = P - 1,
e === d && P > i || e === l && P > a)
return 1;
for (; ; ) {
k = O - H,
m[M] < E ? (B = 0,
W = m[M]) : m[M] > E ? (B = q[Y + m[M]],
W = F[D + m[M]]) : (B = 96,
W = 0),
y = 1 << O - H,
A = 1 << S,
N = A;
do
A -= y,
w[x + (T >> H) + A] = k << 24 | B << 16 | W | 0;
while (0 !== A);for (y = 1 << O - 1; T & y; )
y >>= 1;
if (0 !== y ? (T &= y - 1,
T += y) : T = 0,
M++,
0 === --V[O]) {
if (O === R)
break;
O = t[r + m[M]]
}
if (O > C && (T & U) !== v) {
for (0 === H && (H = C),
x += N,
S = O - H,
I = 1 << S; S + H < R && (I -= V[S + H],
!(I <= 0)); )
S++,
I <<= 1;
if (P += 1 << S,
e === d && P > i || e === l && P > a)
return 1;
v = T & U,
w[v] = C << 24 | S << 16 | x - b | 0
}
}
return 0 !== T && (w[x + T] = O - H << 24 | 64 << 16 | 0),
g.bits = C,
0
}
}
};
for (var r in t)
t[r].folder = r.substring(0, r.lastIndexOf("/") + 1);
var n = function(e) {
var r = [];
return e = e.split("/").every(function(e) {
return ".." == e ? r.pop() : "." == e || "" == e || r.push(e)
}) ? r.join("/") : null,
e ? t[e] || t[e + ".js"] || t[e + "/index.js"] : null
}
, o = function(e, t) {
return e ? n(e.folder + "node_modules/" + t) || o(e.parent, t) : null
}
, i = function(e, t) {
var r = t.match(/^\//) ? null : e ? t.match(/^\.\.?\//) ? n(e.folder + t) : o(e, t) : n(t);
if (!r)
throw "module not found: " + t;
return r.exports || (r.parent = e,
r(i.bind(null, r), r, r.exports = {})),
r.exports
};
return i(null, e)
},
decompress: function(e) {
this.exports || (this.exports = this.require("inflate.js"));
try {
return this.exports.inflate(e)
} catch (e) {}
},
hasUnityMarker: function(e) {
var t = 10
, r = "UnityWeb Compressed Content (gzip)";
if (t > e.length || 31 != e[0] || 139 != e[1])
return !1;
var n = e[3];
if (4 & n) {
if (t + 2 > e.length)
return !1;
if (t += 2 + e[t] + (e[t + 1] << 8),
t > e.length)
return !1
}
if (8 & n) {
for (; t < e.length && e[t]; )
t++;
if (t + 1 > e.length)
return !1;
t++
}
return 16 & n && String.fromCharCode.apply(null, e.subarray(t, t + r.length + 1)) == r + "\0"
}
},
brotli: {
require: function(e) {
var t = {
"decompress.js": function(e, t, r) {
t.exports = e("./dec/decode").BrotliDecompressBuffer
},
"dec/bit_reader.js": function(e, t, r) {
function n(e) {
this.buf_ = new Uint8Array(i),
this.input_ = e,
this.reset()
}
const o = 4096
, i = 8224
, a = 8191
, s = new Uint32Array([0, 1, 3, 7, 15, 31, 63, 127, 255, 511, 1023, 2047, 4095, 8191, 16383, 32767, 65535, 131071, 262143, 524287, 1048575, 2097151, 4194303, 8388607, 16777215]);
n.READ_SIZE = o,
n.IBUF_MASK = a,
n.prototype.reset = function() {
this.buf_ptr_ = 0,
this.val_ = 0,
this.pos_ = 0,
this.bit_pos_ = 0,
this.bit_end_pos_ = 0,
this.eos_ = 0,
this.readMoreInput();
for (var e = 0; e < 4; e++)
this.val_ |= this.buf_[this.pos_] << 8 * e,
++this.pos_;
return this.bit_end_pos_ > 0
}
,
n.prototype.readMoreInput = function() {
if (!(this.bit_end_pos_ > 256))
if (this.eos_) {
if (this.bit_pos_ > this.bit_end_pos_)
throw new Error("Unexpected end of input " + this.bit_pos_ + " " + this.bit_end_pos_)
} else {
var e = this.buf_ptr_
, t = this.input_.read(this.buf_, e, o);
if (t < 0)
throw new Error("Unexpected end of input");
if (t < o) {
this.eos_ = 1;
for (var r = 0; r < 32; r++)
this.buf_[e + t + r] = 0
}
if (0 === e) {
for (var r = 0; r < 32; r++)
this.buf_[8192 + r] = this.buf_[r];
this.buf_ptr_ = o
} else
this.buf_ptr_ = 0;
this.bit_end_pos_ += t << 3
}
}
,
n.prototype.fillBitWindow = function() {
for (; this.bit_pos_ >= 8; )
this.val_ >>>= 8,
this.val_ |= this.buf_[this.pos_ & a] << 24,
++this.pos_,
this.bit_pos_ = this.bit_pos_ - 8 >>> 0,
this.bit_end_pos_ = this.bit_end_pos_ - 8 >>> 0
}
,
n.prototype.readBits = function(e) {
32 - this.bit_pos_ < e && this.fillBitWindow();
var t = this.val_ >>> this.bit_pos_ & s[e];
return this.bit_pos_ += e,
t
}
,
t.exports = n
},
"dec/context.js": function(e, t, r) {
r.lookup = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 0, 4, 4, 0, 0, 4, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 8, 12, 16, 12, 12, 20, 12, 16, 24, 28, 12, 12, 32, 12, 36, 12, 44, 44, 44, 44, 44, 44, 44, 44, 44, 44, 32, 32, 24, 40, 28, 12, 12, 48, 52, 52, 52, 48, 52, 52, 52, 48, 52, 52, 52, 52, 52, 48, 52, 52, 52, 52, 52, 48, 52, 52, 52, 52, 52, 24, 12, 28, 12, 12, 12, 56, 60, 60, 60, 56, 60, 60, 60, 56, 60, 60, 60, 60, 60, 56, 60, 60, 60, 60, 60, 56, 60, 60, 60, 60, 60, 24, 12, 28, 12, 0, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 0, 1, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 2, 3, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 1, 1, 1, 1, 1, 1, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 2, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 3, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 4, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 6, 7, 0, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 8, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 16, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 40, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 48, 56, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 62, 63, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2, 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 6, 6, 6, 6, 7, 7, 7, 7, 8, 8, 8, 8, 9, 9, 9, 9, 10, 10, 10, 10, 11, 11, 11, 11, 12, 12, 12, 12, 13, 13, 13, 13, 14, 14, 14, 14, 15, 15, 15, 15, 16, 16, 16, 16, 17, 17, 17, 17, 18, 18, 18, 18, 19, 19, 19, 19, 20, 20, 20, 20, 21, 21, 21, 21, 22, 22, 22, 22, 23, 23, 23, 23, 24, 24, 24, 24, 25, 25, 25, 25, 26, 26, 26, 26, 27, 27, 27, 27, 28, 28, 28, 28, 29, 29, 29, 29, 30, 30, 30, 30, 31, 31, 31, 31, 32, 32, 32, 32, 33, 33, 33, 33, 34, 34, 34, 34, 35, 35, 35, 35, 36, 36, 36, 36, 37, 37, 37, 37, 38, 38, 38, 38, 39, 39, 39, 39, 40, 40, 40, 40, 41, 41, 41, 41, 42, 42, 42, 42, 43, 43, 43, 43, 44, 44, 44, 44, 45, 45, 45, 45, 46, 46, 46, 46, 47, 47, 47, 47, 48, 48, 48, 48, 49, 49, 49, 49, 50, 50, 50, 50, 51, 51, 51, 51, 52, 52, 52, 52, 53, 53, 53, 53, 54, 54, 54, 54, 55, 55, 55, 55, 56, 56, 56, 56, 57, 57, 57, 57, 58, 58, 58, 58, 59, 59, 59, 59, 60, 60, 60, 60, 61, 61, 61, 61, 62, 62, 62, 62, 63, 63, 63, 63, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]),
r.lookupOffsets = new Uint16Array([1024, 1536, 1280, 1536, 0, 256, 768, 512])
},
"dec/decode.js": function(e, t, r) {
function n(e) {
var t;
return 0 === e.readBits(1) ? 16 : (t = e.readBits(3),
t > 0 ? 17 + t : (t = e.readBits(3),
t > 0 ? 8 + t : 17))
}
function o(e) {
if (e.readBits(1)) {
var t = e.readBits(3);
return 0 === t ? 1 : e.readBits(t) + (1 << t)
}
return 0
}
function i() {
this.meta_block_length = 0,
this.input_end = 0,
this.is_uncompressed = 0,
this.is_metadata = !1
}
function a(e) {
var t, r, n, o = new i;
if (o.input_end = e.readBits(1),
o.input_end && e.readBits(1))
return o;
if (t = e.readBits(2) + 4,
7 === t) {
if (o.is_metadata = !0,
0 !== e.readBits(1))
throw new Error("Invalid reserved bit");
if (r = e.readBits(2),
0 === r)
return o;
for (n = 0; n < r; n++) {
var a = e.readBits(8);
if (n + 1 === r && r > 1 && 0 === a)
throw new Error("Invalid size byte");
o.meta_block_length |= a << 8 * n
}
} else
for (n = 0; n < t; ++n) {
var s = e.readBits(4);
if (n + 1 === t && t > 4 && 0 === s)
throw new Error("Invalid size nibble");
o.meta_block_length |= s << 4 * n
}
return ++o.meta_block_length,
o.input_end || o.is_metadata || (o.is_uncompressed = e.readBits(1)),
o
}
function s(e, t, r) {
var n;
return r.fillBitWindow(),
t += r.val_ >>> r.bit_pos_ & F,
n = e[t].bits - T,
n > 0 && (r.bit_pos_ += T,
t += e[t].value,
t += r.val_ >>> r.bit_pos_ & (1 << n) - 1),
r.bit_pos_ += e[t].bits,
e[t].value
}
function d(e, t, r, n) {
for (var o = 0, i = N, a = 0, s = 0, d = 32768, l = [], f = 0; f < 32; f++)
l.push(new B(0,0));
for (W(l, 0, 5, e, V); o < t && d > 0; ) {
var u, c = 0;
if (n.readMoreInput(),
n.fillBitWindow(),
c += n.val_ >>> n.bit_pos_ & 31,
n.bit_pos_ += l[c].bits,
u = 255 & l[c].value,
u < R)
a = 0,
r[o++] = u,
0 !== u && (i = u,
d -= 32768 >> u);
else {
var h, p, w = u - 14, b = 0;
if (u === R && (b = i),
s !== b && (a = 0,
s = b),
h = a,
a > 0 && (a -= 2,
a <<= w),
a += n.readBits(w) + 3,
p = a - h,
o + p > t)
throw new Error("[ReadHuffmanCodeLengths] symbol + repeat_delta > num_symbols");
for (var m = 0; m < p; m++)
r[o + m] = s;
o += p,
0 !== s && (d -= p << 15 - s)
}
}
if (0 !== d)
throw new Error("[ReadHuffmanCodeLengths] space = " + d);
for (; o < t; o++)
r[o] = 0
}
function l(e, t, r, n) {
var o, i = 0, a = new Uint8Array(e);
if (n.readMoreInput(),
o = n.readBits(2),
1 === o) {
for (var s, l = e - 1, f = 0, u = new Int32Array(4), c = n.readBits(2) + 1; l; )
l >>= 1,
++f;
for (s = 0; s < c; ++s)
u[s] = n.readBits(f) % e,
a[u[s]] = 2;
switch (a[u[0]] = 1,
c) {
case 1:
break;
case 3:
if (u[0] === u[1] || u[0] === u[2] || u[1] === u[2])
throw new Error("[ReadHuffmanCode] invalid symbols");
break;
case 2:
if (u[0] === u[1])
throw new Error("[ReadHuffmanCode] invalid symbols");
a[u[1]] = 1;
break;
case 4:
if (u[0] === u[1] || u[0] === u[2] || u[0] === u[3] || u[1] === u[2] || u[1] === u[3] || u[2] === u[3])
throw new Error("[ReadHuffmanCode] invalid symbols");
n.readBits(1) ? (a[u[2]] = 3,
a[u[3]] = 3) : a[u[0]] = 2
}
} else {
var s, h = new Uint8Array(V), p = 32, w = 0, b = [new B(2,0), new B(2,4), new B(2,3), new B(3,2), new B(2,0), new B(2,4), new B(2,3), new B(4,1), new B(2,0), new B(2,4), new B(2,3), new B(3,2), new B(2,0), new B(2,4), new B(2,3), new B(4,5)];
for (s = o; s < V && p > 0; ++s) {
var m, g = Z[s], y = 0;
n.fillBitWindow(),
y += n.val_ >>> n.bit_pos_ & 15,
n.bit_pos_ += b[y].bits,
m = b[y].value,
h[g] = m,
0 !== m && (p -= 32 >> m,
++w)
}
if (1 !== w && 0 !== p)
throw new Error("[ReadHuffmanCode] invalid num_codes or space");
d(h, e, a, n)
}
if (i = W(t, r, T, a, e),
0 === i)
throw new Error("[ReadHuffmanCode] BuildHuffmanTable failed: ");
return i
}
function f(e, t, r) {
var n, o;
return n = s(e, t, r),
o = O.kBlockLengthPrefixCode[n].nbits,
O.kBlockLengthPrefixCode[n].offset + r.readBits(o)
}
function u(e, t, r) {
var n;
return e < q ? (r += Y[e],
r &= 3,
n = t[r] + z[e]) : n = e - q + 1,
n
}
function c(e, t) {
for (var r = e[t], n = t; n; --n)
e[n] = e[n - 1];
e[0] = r
}
function h(e, t) {
var r, n = new Uint8Array(256);
for (r = 0; r < 256; ++r)
n[r] = r;
for (r = 0; r < t; ++r) {
var o = e[r];
e[r] = n[o],
o && c(n, o)
}
}
function p(e, t) {
this.alphabet_size = e,
this.num_htrees = t,
this.codes = new Array(t + t * G[e + 31 >>> 5]),
this.htrees = new Uint32Array(t)
}
function w(e, t) {
var r, n, i, a = {
num_htrees: null,
context_map: null
}, d = 0;
t.readMoreInput();
var f = a.num_htrees = o(t) + 1
, u = a.context_map = new Uint8Array(e);
if (f <= 1)
return a;
for (r = t.readBits(1),
r && (d = t.readBits(4) + 1),
n = [],
i = 0; i < D; i++)
n[i] = new B(0,0);
for (l(f + d, n, 0, t),
i = 0; i < e; ) {
var c;
if (t.readMoreInput(),
c = s(n, 0, t),
0 === c)
u[i] = 0,
++i;
else if (c <= d)
for (var p = 1 + (1 << c) + t.readBits(c); --p; ) {
if (i >= e)
throw new Error("[DecodeContextMap] i >= context_map_size");
u[i] = 0,
++i
}
else
u[i] = c - d,
++i
}
return t.readBits(1) && h(u, e),
a
}
function b(e, t, r, n, o, i, a) {
var d, l = 2 * r, f = r, u = s(t, r * D, a);
d = 0 === u ? o[l + (1 & i[f])] : 1 === u ? o[l + (i[f] - 1 & 1)] + 1 : u - 2,
d >= e && (d -= e),
n[r] = d,
o[l + (1 & i[f])] = d,
++i[f]
}
function m(e, t, r, n, o, i) {
var a, s = o + 1, d = r & o, l = i.pos_ & E.IBUF_MASK;
if (t < 8 || i.bit_pos_ + (t << 3) < i.bit_end_pos_)
for (; t-- > 0; )
i.readMoreInput(),
n[d++] = i.readBits(8),
d === s && (e.write(n, s),
d = 0);
else {
if (i.bit_end_pos_ < 32)
throw new Error("[CopyUncompressedBlockToOutput] br.bit_end_pos_ < 32");
for (; i.bit_pos_ < 32; )
n[d] = i.val_ >>> i.bit_pos_,
i.bit_pos_ += 8,
++d,
--t;
if (a = i.bit_end_pos_ - i.bit_pos_ >> 3,
l + a > E.IBUF_MASK) {
for (var f = E.IBUF_MASK + 1 - l, u = 0; u < f; u++)
n[d + u] = i.buf_[l + u];
a -= f,
d += f,
t -= f,
l = 0
}
for (var u = 0; u < a; u++)
n[d + u] = i.buf_[l + u];
if (d += a,
t -= a,
d >= s) {
e.write(n, s),
d -= s;
for (var u = 0; u < d; u++)
n[u] = n[s + u]
}
for (; d + t >= s; ) {
if (a = s - d,
i.input_.read(n, d, a) < a)
throw new Error("[CopyUncompressedBlockToOutput] not enough bytes");
e.write(n, s),
t -= a,
d = 0
}
if (i.input_.read(n, d, t) < t)
throw new Error("[CopyUncompressedBlockToOutput] not enough bytes");
i.reset()
}
}
function g(e) {
var t = e.bit_pos_ + 7 & -8
, r = e.readBits(t - e.bit_pos_);
return 0 == r
}
function y(e) {
var t = new U(e)
, r = new E(t);
n(r);
var o = a(r);
return o.meta_block_length
}
function A(e, t) {
var r = new U(e);
null == t && (t = y(e));
var n = new Uint8Array(t)
, o = new x(n);
return v(r, o),
o.pos < o.buffer.length && (o.buffer = o.buffer.subarray(0, o.pos)),
o.buffer
}
function v(e, t) {
var r, i, d, c, h, y, A, v, U, x = 0, W = 0, N = 0, R = 0, T = [16, 15, 11, 4], F = 0, V = 0, Z = 0, Y = [new p(0,0), new p(0,0), new p(0,0)];
const z = 128 + E.READ_SIZE;
U = new E(e),
N = n(U),
i = (1 << N) - 16,
d = 1 << N,
c = d - 1,
h = new Uint8Array(d + z + k.maxDictionaryWordLength),
y = d,
A = [],
v = [];
for (var G = 0; G < 3240; G++)
A[G] = new B(0,0),
v[G] = new B(0,0);
for (; !W; ) {
var J, j, X, K, Q, _, $, ee, te, re = 0, ne = [1 << 28, 1 << 28, 1 << 28], oe = [0], ie = [1, 1, 1], ae = [0, 1, 0, 1, 0, 1], se = [0], de = null, le = null, fe = null, ue = 0, ce = null, he = 0, pe = 0, we = null, be = 0, me = 0, ge = 0;
for (r = 0; r < 3; ++r)
Y[r].codes = null,
Y[r].htrees = null;
U.readMoreInput();
var ye = a(U);
if (re = ye.meta_block_length,
x + re > t.buffer.length) {
var Ae = new Uint8Array(x + re);
Ae.set(t.buffer),
t.buffer = Ae
}
if (W = ye.input_end,
J = ye.is_uncompressed,
ye.is_metadata)
for (g(U); re > 0; --re)
U.readMoreInput(),
U.readBits(8);
else if (0 !== re)
if (J)
U.bit_pos_ = U.bit_pos_ + 7 & -8,
m(t, re, x, h, c, U),
x += re;
else {
for (r = 0; r < 3; ++r)
ie[r] = o(U) + 1,
ie[r] >= 2 && (l(ie[r] + 2, A, r * D, U),
l(H, v, r * D, U),
ne[r] = f(v, r * D, U),
se[r] = 1);
for (U.readMoreInput(),
j = U.readBits(2),
X = q + (U.readBits(4) << j),
K = (1 << j) - 1,
Q = X + (48 << j),
le = new Uint8Array(ie[0]),
r = 0; r < ie[0]; ++r)
U.readMoreInput(),
le[r] = U.readBits(2) << 1;
var ve = w(ie[0] << I, U);
_ = ve.num_htrees,
de = ve.context_map;
var Ue = w(ie[2] << P, U);
for ($ = Ue.num_htrees,
fe = Ue.context_map,
Y[0] = new p(C,_),
Y[1] = new p(S,ie[1]),
Y[2] = new p(Q,$),
r = 0; r < 3; ++r)
Y[r].decode(U);
for (ce = 0,
we = 0,
ee = le[oe[0]],
me = L.lookupOffsets[ee],
ge = L.lookupOffsets[ee + 1],
te = Y[1].htrees[0]; re > 0; ) {
var xe, Ee, ke, Be, We, Le, Oe, Me, Ne, Re, Ce;
for (U.readMoreInput(),
0 === ne[1] && (b(ie[1], A, 1, oe, ae, se, U),
ne[1] = f(v, D, U),
te = Y[1].htrees[oe[1]]),
--ne[1],
xe = s(Y[1].codes, te, U),
Ee = xe >> 6,
Ee >= 2 ? (Ee -= 2,
Oe = -1) : Oe = 0,
ke = O.kInsertRangeLut[Ee] + (xe >> 3 & 7),
Be = O.kCopyRangeLut[Ee] + (7 & xe),
We = O.kInsertLengthPrefixCode[ke].offset + U.readBits(O.kInsertLengthPrefixCode[ke].nbits),
Le = O.kCopyLengthPrefixCode[Be].offset + U.readBits(O.kCopyLengthPrefixCode[Be].nbits),
V = h[x - 1 & c],
Z = h[x - 2 & c],
Re = 0; Re < We; ++Re)
U.readMoreInput(),
0 === ne[0] && (b(ie[0], A, 0, oe, ae, se, U),
ne[0] = f(v, 0, U),
ue = oe[0] << I,
ce = ue,
ee = le[oe[0]],
me = L.lookupOffsets[ee],
ge = L.lookupOffsets[ee + 1]),
Ne = L.lookup[me + V] | L.lookup[ge + Z],
he = de[ce + Ne],
--ne[0],
Z = V,
V = s(Y[0].codes, Y[0].htrees[he], U),
h[x & c] = V,
(x & c) === c && t.write(h, d),
++x;
if (re -= We,
re <= 0)
break;
if (Oe < 0) {
var Ne;
if (U.readMoreInput(),
0 === ne[2] && (b(ie[2], A, 2, oe, ae, se, U),
ne[2] = f(v, 2160, U),
pe = oe[2] << P,
we = pe),
--ne[2],
Ne = 255 & (Le > 4 ? 3 : Le - 2),
be = fe[we + Ne],
Oe = s(Y[2].codes, Y[2].htrees[be], U),
Oe >= X) {
var Se, He, Ie;
Oe -= X,
He = Oe & K,
Oe >>= j,
Se = (Oe >> 1) + 1,
Ie = (2 + (1 & Oe) << Se) - 4,
Oe = X + (Ie + U.readBits(Se) << j) + He
}
}
if (Me = u(Oe, T, F),
Me < 0)
throw new Error("[BrotliDecompress] invalid distance");
if (R = x < i && R !== i ? x : i,
Ce = x & c,
Me > R) {
if (!(Le >= k.minDictionaryWordLength && Le <= k.maxDictionaryWordLength))
throw new Error("Invalid backward reference. pos: " + x + " distance: " + Me + " len: " + Le + " bytes left: " + re);
var Ie = k.offsetsByLength[Le]
, Pe = Me - R - 1
, Te = k.sizeBitsByLength[Le]
, Fe = (1 << Te) - 1
, De = Pe & Fe
, Ve = Pe >> Te;
if (Ie += De * Le,
!(Ve < M.kNumTransforms))
throw new Error("Invalid backward reference. pos: " + x + " distance: " + Me + " len: " + Le + " bytes left: " + re);
var Ze = M.transformDictionaryWord(h, Ce, Ie, Le, Ve);
if (Ce += Ze,
x += Ze,
re -= Ze,
Ce >= y) {
t.write(h, d);
for (var qe = 0; qe < Ce - y; qe++)
h[qe] = h[y + qe]
}
} else {
if (Oe > 0 && (T[3 & F] = Me,
++F),
Le > re)
throw new Error("Invalid backward reference. pos: " + x + " distance: " + Me + " len: " + Le + " bytes left: " + re);
for (Re = 0; Re < Le; ++Re)
h[x & c] = h[x - Me & c],
(x & c) === c && t.write(h, d),
++x,
--re
}
V = h[x - 1 & c],
Z = h[x - 2 & c]
}
x &= 1073741823
}
}
t.write(h, x & c)
}
var U = e("./streams").BrotliInput
, x = e("./streams").BrotliOutput
, E = e("./bit_reader")
, k = e("./dictionary")
, B = e("./huffman").HuffmanCode
, W = e("./huffman").BrotliBuildHuffmanTable
, L = e("./context")
, O = e("./prefix")
, M = e("./transform");
const N = 8
, R = 16
, C = 256
, S = 704
, H = 26
, I = 6
, P = 2
, T = 8
, F = 255
, D = 1080
, V = 18
, Z = new Uint8Array([1, 2, 3, 4, 0, 5, 17, 6, 16, 7, 8, 9, 10, 11, 12, 13, 14, 15])
, q = 16
, Y = new Uint8Array([3, 2, 1, 0, 3, 3, 3, 3, 3, 3, 2, 2, 2, 2, 2, 2])
, z = new Int8Array([0, 0, 0, 0, -1, 1, -2, 2, -3, 3, -1, 1, -2, 2, -3, 3])
, G = new Uint16Array([256, 402, 436, 468, 500, 534, 566, 598, 630, 662, 694, 726, 758, 790, 822, 854, 886, 920, 952, 984, 1016, 1048, 1080]);
p.prototype.decode = function(e) {
var t, r, n = 0;
for (t = 0; t < this.num_htrees; ++t)
this.htrees[t] = n,
r = l(this.alphabet_size, this.codes, n, e),
n += r
}
,
r.BrotliDecompressedSize = y,
r.BrotliDecompressBuffer = A,
r.BrotliDecompress = v,
k.init()
},
"dec/dictionary.js": function(e, t, r) {
var n = e("./dictionary-browser");
r.init = function() {
r.dictionary = n.init()
}
,
r.offsetsByLength = new Uint32Array([0, 0, 0, 0, 0, 4096, 9216, 21504, 35840, 44032, 53248, 63488, 74752, 87040, 93696, 100864, 104704, 106752, 108928, 113536, 115968, 118528, 119872, 121280, 122016]),
r.sizeBitsByLength = new Uint8Array([0, 0, 0, 0, 10, 10, 11, 11, 10, 10, 10, 10, 10, 9, 9, 8, 7, 7, 8, 7, 7, 6, 6, 5, 5]),
r.minDictionaryWordLength = 4,
r.maxDictionaryWordLength = 24
},
"dec/dictionary.bin.js": function(e, t, r) {
t.exports = "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";
},
"dec/dictionary-browser.js": function(e, t, r) {
var n = e("base64-js");
r.init = function() {
var t = e("./decode").BrotliDecompressBuffer
, r = n.toByteArray(e("./dictionary.bin.js"));
return t(r)
}
},
"dec/huffman.js": function(e, t, r) {
function n(e, t) {
this.bits = e,
this.value = t
}
function o(e, t) {
for (var r = 1 << t - 1; e & r; )
r >>= 1;
return (e & r - 1) + r
}
function i(e, t, r, o, i) {
do
o -= r,
e[t + o] = new n(i.bits,i.value);
while (o > 0)
}
function a(e, t, r) {
for (var n = 1 << t - r; t < s && (n -= e[t],
!(n <= 0)); )
++t,
n <<= 1;
return t - r
}
r.HuffmanCode = n;
const s = 15;
r.BrotliBuildHuffmanTable = function(e, t, r, d, l) {
var f, u, c, h, p, w, b, m, g, y, A, v = t, U = new Int32Array(16), x = new Int32Array(16);
for (A = new Int32Array(l),
c = 0; c < l; c++)
U[d[c]]++;
for (x[1] = 0,
u = 1; u < s; u++)
x[u + 1] = x[u] + U[u];
for (c = 0; c < l; c++)
0 !== d[c] && (A[x[d[c]]++] = c);
if (m = r,
g = 1 << m,
y = g,
1 === x[s]) {
for (h = 0; h < y; ++h)
e[t + h] = new n(0,65535 & A[0]);
return y
}
for (h = 0,
c = 0,
u = 1,
p = 2; u <= r; ++u,
p <<= 1)
for (; U[u] > 0; --U[u])
f = new n(255 & u,65535 & A[c++]),
i(e, t + h, p, g, f),
h = o(h, u);
for (b = y - 1,
w = -1,
u = r + 1,
p = 2; u <= s; ++u,
p <<= 1)
for (; U[u] > 0; --U[u])
(h & b) !== w && (t += g,
m = a(U, u, r),
g = 1 << m,
y += g,
w = h & b,
e[v + w] = new n(m + r & 255,t - v - w & 65535)),
f = new n(u - r & 255,65535 & A[c++]),
i(e, t + (h >> r), p, g, f),
h = o(h, u);
return y
}
},
"dec/prefix.js": function(e, t, r) {
function n(e, t) {
this.offset = e,
this.nbits = t
}
r.kBlockLengthPrefixCode = [new n(1,2), new n(5,2), new n(9,2), new n(13,2), new n(17,3), new n(25,3), new n(33,3), new n(41,3), new n(49,4), new n(65,4), new n(81,4), new n(97,4), new n(113,5), new n(145,5), new n(177,5), new n(209,5), new n(241,6), new n(305,6), new n(369,7), new n(497,8), new n(753,9), new n(1265,10), new n(2289,11), new n(4337,12), new n(8433,13), new n(16625,24)],
r.kInsertLengthPrefixCode = [new n(0,0), new n(1,0), new n(2,0), new n(3,0), new n(4,0), new n(5,0), new n(6,1), new n(8,1), new n(10,2), new n(14,2), new n(18,3), new n(26,3), new n(34,4), new n(50,4), new n(66,5), new n(98,5), new n(130,6), new n(194,7), new n(322,8), new n(578,9), new n(1090,10), new n(2114,12), new n(6210,14), new n(22594,24)],
r.kCopyLengthPrefixCode = [new n(2,0), new n(3,0), new n(4,0), new n(5,0), new n(6,0), new n(7,0), new n(8,0), new n(9,0), new n(10,1), new n(12,1), new n(14,2), new n(18,2), new n(22,3), new n(30,3), new n(38,4), new n(54,4), new n(70,5), new n(102,5), new n(134,6), new n(198,7), new n(326,8), new n(582,9), new n(1094,10), new n(2118,24)],
r.kInsertRangeLut = [0, 0, 8, 8, 0, 16, 8, 16, 16],
r.kCopyRangeLut = [0, 8, 0, 8, 16, 0, 16, 8, 16]
},
"dec/streams.js": function(e, t, r) {
function n(e) {
this.buffer = e,
this.pos = 0
}
function o(e) {
this.buffer = e,
this.pos = 0
}
n.prototype.read = function(e, t, r) {
this.pos + r > this.buffer.length && (r = this.buffer.length - this.pos);
for (var n = 0; n < r; n++)
e[t + n] = this.buffer[this.pos + n];
return this.pos += r,
r
}
,
r.BrotliInput = n,
o.prototype.write = function(e, t) {
if (this.pos + t > this.buffer.length)
throw new Error("Output buffer is not large enough");
return this.buffer.set(e.subarray(0, t), this.pos),
this.pos += t,
t
}
,
r.BrotliOutput = o
},
"dec/transform.js": function(e, t, r) {
function n(e, t, r) {
this.prefix = new Uint8Array(e.length),
this.transform = t,
this.suffix = new Uint8Array(r.length);
for (var n = 0; n < e.length; n++)
this.prefix[n] = e.charCodeAt(n);
for (var n = 0; n < r.length; n++)
this.suffix[n] = r.charCodeAt(n)
}
function o(e, t) {
return e[t] < 192 ? (e[t] >= 97 && e[t] <= 122 && (e[t] ^= 32),
1) : e[t] < 224 ? (e[t + 1] ^= 32,
2) : (e[t + 2] ^= 5,
3)
}
var i = e("./dictionary");
const a = 0
, s = 1
, d = 2
, l = 3
, f = 4
, u = 5
, c = 6
, h = 7
, p = 8
, w = 9
, b = 10
, m = 11
, g = 12
, y = 13
, A = 14
, v = 15
, U = 16
, x = 17
, E = 18
, k = 20;
var B = [new n("",a,""), new n("",a," "), new n(" ",a," "), new n("",g,""), new n("",b," "), new n("",a," the "), new n(" ",a,""), new n("s ",a," "), new n("",a," of "), new n("",b,""), new n("",a," and "), new n("",y,""), new n("",s,""), new n(", ",a," "), new n("",a,", "), new n(" ",b," "), new n("",a," in "), new n("",a," to "), new n("e ",a," "), new n("",a,'"'), new n("",a,"."), new n("",a,'">'), new n("",a,"\n"), new n("",l,""), new n("",a,"]"), new n("",a," for "), new n("",A,""), new n("",d,""), new n("",a," a "), new n("",a," that "), new n(" ",b,""), new n("",a,". "), new n(".",a,""), new n(" ",a,", "), new n("",v,""), new n("",a," with "), new n("",a,"'"), new n("",a," from "), new n("",a," by "), new n("",U,""), new n("",x,""), new n(" the ",a,""), new n("",f,""), new n("",a,". The "), new n("",m,""), new n("",a," on "), new n("",a," as "), new n("",a," is "), new n("",h,""), new n("",s,"ing "), new n("",a,"\n\t"), new n("",a,":"), new n(" ",a,". "), new n("",a,"ed "), new n("",k,""), new n("",E,""), new n("",c,""), new n("",a,"("), new n("",b,", "), new n("",p,""), new n("",a," at "), new n("",a,"ly "), new n(" the ",a," of "), new n("",u,""), new n("",w,""), new n(" ",b,", "), new n("",b,'"'), new n(".",a,"("), new n("",m," "), new n("",b,'">'), new n("",a,'="'), new n(" ",a,"."), new n(".com/",a,""), new n(" the ",a," of the "), new n("",b,"'"), new n("",a,". This "), new n("",a,","), new n(".",a," "), new n("",b,"("), new n("",b,"."), new n("",a," not "), new n(" ",a,'="'), new n("",a,"er "), new n(" ",m," "), new n("",a,"al "), new n(" ",m,""), new n("",a,"='"), new n("",m,'"'), new n("",b,". "), new n(" ",a,"("), new n("",a,"ful "), new n(" ",b,". "), new n("",a,"ive "), new n("",a,"less "), new n("",m,"'"), new n("",a,"est "), new n(" ",b,"."), new n("",m,'">'), new n(" ",a,"='"), new n("",b,","), new n("",a,"ize "), new n("",m,"."), new n("\xc2\xa0",a,""), new n(" ",a,","), new n("",b,'="'), new n("",m,'="'), new n("",a,"ous "), new n("",m,", "), new n("",b,"='"), new n(" ",b,","), new n(" ",m,'="'), new n(" ",m,", "), new n("",m,","), new n("",m,"("), new n("",m,". "), new n(" ",m,"."), new n("",m,"='"), new n(" ",m,". "), new n(" ",b,'="'), new n(" ",m,"='"), new n(" ",b,"='")];
r.kTransforms = B,
r.kNumTransforms = B.length,
r.transformDictionaryWord = function(e, t, r, n, a) {
var s, d = B[a].prefix, l = B[a].suffix, f = B[a].transform, u = f < g ? 0 : f - 11, c = 0, h = t;
u > n && (u = n);
for (var p = 0; p < d.length; )
e[t++] = d[p++];
for (r += u,
n -= u,
f <= w && (n -= f),
c = 0; c < n; c++)
e[t++] = i.dictionary[r + c];
if (s = t - n,
f === b)
o(e, s);
else if (f === m)
for (; n > 0; ) {
var y = o(e, s);
s += y,
n -= y
}
for (var A = 0; A < l.length; )
e[t++] = l[A++];
return t - h
}
},
"node_modules/base64-js/index.js": function(e, t, r) {
"use strict";
function n(e) {
var t = e.length;
if (t % 4 > 0)
throw new Error("Invalid string. Length must be a multiple of 4");
return "=" === e[t - 2] ? 2 : "=" === e[t - 1] ? 1 : 0
}
function o(e) {
return 3 * e.length / 4 - n(e)
}
function i(e) {
var t, r, o, i, a, s, d = e.length;
a = n(e),
s = new u(3 * d / 4 - a),
o = a > 0 ? d - 4 : d;
var l = 0;
for (t = 0,
r = 0; t < o; t += 4,
r += 3)
i = f[e.charCodeAt(t)] << 18 | f[e.charCodeAt(t + 1)] << 12 | f[e.charCodeAt(t + 2)] << 6 | f[e.charCodeAt(t + 3)],
s[l++] = i >> 16 & 255,
s[l++] = i >> 8 & 255,
s[l++] = 255 & i;
return 2 === a ? (i = f[e.charCodeAt(t)] << 2 | f[e.charCodeAt(t + 1)] >> 4,
s[l++] = 255 & i) : 1 === a && (i = f[e.charCodeAt(t)] << 10 | f[e.charCodeAt(t + 1)] << 4 | f[e.charCodeAt(t + 2)] >> 2,
s[l++] = i >> 8 & 255,
s[l++] = 255 & i),
s
}
function a(e) {
return l[e >> 18 & 63] + l[e >> 12 & 63] + l[e >> 6 & 63] + l[63 & e]
}
function s(e, t, r) {
for (var n, o = [], i = t; i < r; i += 3)
n = (e[i] << 16) + (e[i + 1] << 8) + e[i + 2],
o.push(a(n));
return o.join("")
}
function d(e) {
for (var t, r = e.length, n = r % 3, o = "", i = [], a = 16383, d = 0, f = r - n; d < f; d += a)
i.push(s(e, d, d + a > f ? f : d + a));
return 1 === n ? (t = e[r - 1],
o += l[t >> 2],
o += l[t << 4 & 63],
o += "==") : 2 === n && (t = (e[r - 2] << 8) + e[r - 1],
o += l[t >> 10],
o += l[t >> 4 & 63],
o += l[t << 2 & 63],
o += "="),
i.push(o),
i.join("")
}
r.byteLength = o,
r.toByteArray = i,
r.fromByteArray = d;
for (var l = [], f = [], u = "undefined" != typeof Uint8Array ? Uint8Array : Array, c = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/", h = 0, p = c.length; h < p; ++h)
l[h] = c[h],
f[c.charCodeAt(h)] = h;
f["-".charCodeAt(0)] = 62,
f["_".charCodeAt(0)] = 63
}
};
for (var r in t)
t[r].folder = r.substring(0, r.lastIndexOf("/") + 1);
var n = function(e) {
var r = [];
return e = e.split("/").every(function(e) {
return ".." == e ? r.pop() : "." == e || "" == e || r.push(e)
}) ? r.join("/") : null,
e ? t[e] || t[e + ".js"] || t[e + "/index.js"] : null
}
, o = function(e, t) {
return e ? n(e.folder + "node_modules/" + t) || o(e.parent, t) : null
}
, i = function(e, t) {
var r = t.match(/^\//) ? null : e ? t.match(/^\.\.?\//) ? n(e.folder + t) : o(e, t) : n(t);
if (!r)
throw "module not found: " + t;
return r.exports || (r.parent = e,
r(i.bind(null, r), r, r.exports = {})),
r.exports
};
return i(null, e)
},
decompress: function(e) {
this.exports || (this.exports = this.require("decompress.js"));
try {
return this.exports(e)
} catch (e) {}
},
hasUnityMarker: function(e) {
var t = "UnityWeb Compressed Content (brotli)";
if (!e.length)
return !1;
var r = 1 & e[0] ? 14 & e[0] ? 4 : 7 : 1
, n = e[0] & (1 << r) - 1
, o = 1 + (Math.log(t.length - 1) / Math.log(2) >> 3);
if (commentOffset = r + 1 + 2 + 1 + 2 + (o << 3) + 7 >> 3,
17 == n || commentOffset > e.length)
return !1;
for (var i = n + (6 + (o << 4) + (t.length - 1 << 6) << r), a = 0; a < commentOffset; a++,
i >>>= 8)
if (e[a] != (255 & i))
return !1;
return String.fromCharCode.apply(null, e.subarray(commentOffset, commentOffset + t.length)) == t
}
},
decompress: function(e, t) {
var r = this.gzip.hasUnityMarker(e) ? this.gzip : this.brotli.hasUnityMarker(e) ? this.brotli : this.identity;
if (this.serverSetupWarningEnabled && r != this.identity && (console.log("You can reduce your startup time if you configure your web server to host .unityweb files using " + (r == this.gzip ? "gzip" : "brotli") + " compression."),
this.serverSetupWarningEnabled = !1),
"function" != typeof t)
return r.decompress(e);
if (!r.worker) {
var n = URL.createObjectURL(new Blob(["this.require = ", r.require.toString(), "; this.decompress = ", r.decompress.toString(), "; this.onmessage = ", function(e) {
var t = {
id: e.data.id,
decompressed: this.decompress(e.data.compressed)
};
postMessage(t, t.decompressed ? [t.decompressed.buffer] : [])
}
.toString(), "; postMessage({ ready: true });"],{
type: "text/javascript"
}));
r.worker = new Worker(n),
r.worker.onmessage = function(e) {
return e.data.ready ? void URL.revokeObjectURL(n) : (this.callbacks[e.data.id](e.data.decompressed),
void delete this.callbacks[e.data.id])
}
,
r.worker.callbacks = {},
r.worker.nextCallbackId = 0
}
var o = r.worker.nextCallbackId++;
r.worker.callbacks[o] = t,
r.worker.postMessage({
id: o,
compressed: e
}, [e.buffer])
},
serverSetupWarningEnabled: !0
}
};
Sign up for free to join this conversation on GitHub. Already have an account? Sign in to comment