/**
* Name: Metaverse
* Date: 2022/4/24
* Author: https://www.4dkankan.com
* Copyright © 2022 4DAGE Co., Ltd. All rights reserved.
* Licensed under the GLP license
*/
(function (factory) {
  typeof define === 'function' && define.amd ? define(factory) :
  factory();
})((function () { 'use strict';

  function asyncGeneratorStep(gen, resolve, reject, _next, _throw, key, arg) {
    try {
      var info = gen[key](arg);
      var value = info.value;
    } catch (error) {
      reject(error);
      return;
    }

    if (info.done) {
      resolve(value);
    } else {
      Promise.resolve(value).then(_next, _throw);
    }
  }

  function _asyncToGenerator(fn) {
    return function () {
      var self = this,
          args = arguments;
      return new Promise(function (resolve, reject) {
        var gen = fn.apply(self, args);

        function _next(value) {
          asyncGeneratorStep(gen, resolve, reject, _next, _throw, "next", value);
        }

        function _throw(err) {
          asyncGeneratorStep(gen, resolve, reject, _next, _throw, "throw", err);
        }

        _next(undefined);
      });
    };
  }

  function createCommonjsModule(fn) {
    var module = { exports: {} };
  	return fn(module, module.exports), module.exports;
  }

  /**
   * Copyright (c) 2014-present, Facebook, Inc.
   *
   * This source code is licensed under the MIT license found in the
   * LICENSE file in the root directory of this source tree.
   */

  var runtime_1 = createCommonjsModule(function (module) {
  var runtime = (function (exports) {

    var Op = Object.prototype;
    var hasOwn = Op.hasOwnProperty;
    var undefined$1; // More compressible than void 0.
    var $Symbol = typeof Symbol === "function" ? Symbol : {};
    var iteratorSymbol = $Symbol.iterator || "@@iterator";
    var asyncIteratorSymbol = $Symbol.asyncIterator || "@@asyncIterator";
    var toStringTagSymbol = $Symbol.toStringTag || "@@toStringTag";

    function define(obj, key, value) {
      Object.defineProperty(obj, key, {
        value: value,
        enumerable: true,
        configurable: true,
        writable: true
      });
      return obj[key];
    }
    try {
      // IE 8 has a broken Object.defineProperty that only works on DOM objects.
      define({}, "");
    } catch (err) {
      define = function(obj, key, value) {
        return obj[key] = value;
      };
    }

    function wrap(innerFn, outerFn, self, tryLocsList) {
      // If outerFn provided and outerFn.prototype is a Generator, then outerFn.prototype instanceof Generator.
      var protoGenerator = outerFn && outerFn.prototype instanceof Generator ? outerFn : Generator;
      var generator = Object.create(protoGenerator.prototype);
      var context = new Context(tryLocsList || []);

      // The ._invoke method unifies the implementations of the .next,
      // .throw, and .return methods.
      generator._invoke = makeInvokeMethod(innerFn, self, context);

      return generator;
    }
    exports.wrap = wrap;

    // Try/catch helper to minimize deoptimizations. Returns a completion
    // record like context.tryEntries[i].completion. This interface could
    // have been (and was previously) designed to take a closure to be
    // invoked without arguments, but in all the cases we care about we
    // already have an existing method we want to call, so there's no need
    // to create a new function object. We can even get away with assuming
    // the method takes exactly one argument, since that happens to be true
    // in every case, so we don't have to touch the arguments object. The
    // only additional allocation required is the completion record, which
    // has a stable shape and so hopefully should be cheap to allocate.
    function tryCatch(fn, obj, arg) {
      try {
        return { type: "normal", arg: fn.call(obj, arg) };
      } catch (err) {
        return { type: "throw", arg: err };
      }
    }

    var GenStateSuspendedStart = "suspendedStart";
    var GenStateSuspendedYield = "suspendedYield";
    var GenStateExecuting = "executing";
    var GenStateCompleted = "completed";

    // Returning this object from the innerFn has the same effect as
    // breaking out of the dispatch switch statement.
    var ContinueSentinel = {};

    // Dummy constructor functions that we use as the .constructor and
    // .constructor.prototype properties for functions that return Generator
    // objects. For full spec compliance, you may wish to configure your
    // minifier not to mangle the names of these two functions.
    function Generator() {}
    function GeneratorFunction() {}
    function GeneratorFunctionPrototype() {}

    // This is a polyfill for %IteratorPrototype% for environments that
    // don't natively support it.
    var IteratorPrototype = {};
    define(IteratorPrototype, iteratorSymbol, function () {
      return this;
    });

    var getProto = Object.getPrototypeOf;
    var NativeIteratorPrototype = getProto && getProto(getProto(values([])));
    if (NativeIteratorPrototype &&
        NativeIteratorPrototype !== Op &&
        hasOwn.call(NativeIteratorPrototype, iteratorSymbol)) {
      // This environment has a native %IteratorPrototype%; use it instead
      // of the polyfill.
      IteratorPrototype = NativeIteratorPrototype;
    }

    var Gp = GeneratorFunctionPrototype.prototype =
      Generator.prototype = Object.create(IteratorPrototype);
    GeneratorFunction.prototype = GeneratorFunctionPrototype;
    define(Gp, "constructor", GeneratorFunctionPrototype);
    define(GeneratorFunctionPrototype, "constructor", GeneratorFunction);
    GeneratorFunction.displayName = define(
      GeneratorFunctionPrototype,
      toStringTagSymbol,
      "GeneratorFunction"
    );

    // Helper for defining the .next, .throw, and .return methods of the
    // Iterator interface in terms of a single ._invoke method.
    function defineIteratorMethods(prototype) {
      ["next", "throw", "return"].forEach(function(method) {
        define(prototype, method, function(arg) {
          return this._invoke(method, arg);
        });
      });
    }

    exports.isGeneratorFunction = function(genFun) {
      var ctor = typeof genFun === "function" && genFun.constructor;
      return ctor
        ? ctor === GeneratorFunction ||
          // For the native GeneratorFunction constructor, the best we can
          // do is to check its .name property.
          (ctor.displayName || ctor.name) === "GeneratorFunction"
        : false;
    };

    exports.mark = function(genFun) {
      if (Object.setPrototypeOf) {
        Object.setPrototypeOf(genFun, GeneratorFunctionPrototype);
      } else {
        genFun.__proto__ = GeneratorFunctionPrototype;
        define(genFun, toStringTagSymbol, "GeneratorFunction");
      }
      genFun.prototype = Object.create(Gp);
      return genFun;
    };

    // Within the body of any async function, `await x` is transformed to
    // `yield regeneratorRuntime.awrap(x)`, so that the runtime can test
    // `hasOwn.call(value, "__await")` to determine if the yielded value is
    // meant to be awaited.
    exports.awrap = function(arg) {
      return { __await: arg };
    };

    function AsyncIterator(generator, PromiseImpl) {
      function invoke(method, arg, resolve, reject) {
        var record = tryCatch(generator[method], generator, arg);
        if (record.type === "throw") {
          reject(record.arg);
        } else {
          var result = record.arg;
          var value = result.value;
          if (value &&
              typeof value === "object" &&
              hasOwn.call(value, "__await")) {
            return PromiseImpl.resolve(value.__await).then(function(value) {
              invoke("next", value, resolve, reject);
            }, function(err) {
              invoke("throw", err, resolve, reject);
            });
          }

          return PromiseImpl.resolve(value).then(function(unwrapped) {
            // When a yielded Promise is resolved, its final value becomes
            // the .value of the Promise<{value,done}> result for the
            // current iteration.
            result.value = unwrapped;
            resolve(result);
          }, function(error) {
            // If a rejected Promise was yielded, throw the rejection back
            // into the async generator function so it can be handled there.
            return invoke("throw", error, resolve, reject);
          });
        }
      }

      var previousPromise;

      function enqueue(method, arg) {
        function callInvokeWithMethodAndArg() {
          return new PromiseImpl(function(resolve, reject) {
            invoke(method, arg, resolve, reject);
          });
        }

        return previousPromise =
          // If enqueue has been called before, then we want to wait until
          // all previous Promises have been resolved before calling invoke,
          // so that results are always delivered in the correct order. If
          // enqueue has not been called before, then it is important to
          // call invoke immediately, without waiting on a callback to fire,
          // so that the async generator function has the opportunity to do
          // any necessary setup in a predictable way. This predictability
          // is why the Promise constructor synchronously invokes its
          // executor callback, and why async functions synchronously
          // execute code before the first await. Since we implement simple
          // async functions in terms of async generators, it is especially
          // important to get this right, even though it requires care.
          previousPromise ? previousPromise.then(
            callInvokeWithMethodAndArg,
            // Avoid propagating failures to Promises returned by later
            // invocations of the iterator.
            callInvokeWithMethodAndArg
          ) : callInvokeWithMethodAndArg();
      }

      // Define the unified helper method that is used to implement .next,
      // .throw, and .return (see defineIteratorMethods).
      this._invoke = enqueue;
    }

    defineIteratorMethods(AsyncIterator.prototype);
    define(AsyncIterator.prototype, asyncIteratorSymbol, function () {
      return this;
    });
    exports.AsyncIterator = AsyncIterator;

    // Note that simple async functions are implemented on top of
    // AsyncIterator objects; they just return a Promise for the value of
    // the final result produced by the iterator.
    exports.async = function(innerFn, outerFn, self, tryLocsList, PromiseImpl) {
      if (PromiseImpl === void 0) PromiseImpl = Promise;

      var iter = new AsyncIterator(
        wrap(innerFn, outerFn, self, tryLocsList),
        PromiseImpl
      );

      return exports.isGeneratorFunction(outerFn)
        ? iter // If outerFn is a generator, return the full iterator.
        : iter.next().then(function(result) {
            return result.done ? result.value : iter.next();
          });
    };

    function makeInvokeMethod(innerFn, self, context) {
      var state = GenStateSuspendedStart;

      return function invoke(method, arg) {
        if (state === GenStateExecuting) {
          throw new Error("Generator is already running");
        }

        if (state === GenStateCompleted) {
          if (method === "throw") {
            throw arg;
          }

          // Be forgiving, per 25.3.3.3.3 of the spec:
          // https://people.mozilla.org/~jorendorff/es6-draft.html#sec-generatorresume
          return doneResult();
        }

        context.method = method;
        context.arg = arg;

        while (true) {
          var delegate = context.delegate;
          if (delegate) {
            var delegateResult = maybeInvokeDelegate(delegate, context);
            if (delegateResult) {
              if (delegateResult === ContinueSentinel) continue;
              return delegateResult;
            }
          }

          if (context.method === "next") {
            // Setting context._sent for legacy support of Babel's
            // function.sent implementation.
            context.sent = context._sent = context.arg;

          } else if (context.method === "throw") {
            if (state === GenStateSuspendedStart) {
              state = GenStateCompleted;
              throw context.arg;
            }

            context.dispatchException(context.arg);

          } else if (context.method === "return") {
            context.abrupt("return", context.arg);
          }

          state = GenStateExecuting;

          var record = tryCatch(innerFn, self, context);
          if (record.type === "normal") {
            // If an exception is thrown from innerFn, we leave state ===
            // GenStateExecuting and loop back for another invocation.
            state = context.done
              ? GenStateCompleted
              : GenStateSuspendedYield;

            if (record.arg === ContinueSentinel) {
              continue;
            }

            return {
              value: record.arg,
              done: context.done
            };

          } else if (record.type === "throw") {
            state = GenStateCompleted;
            // Dispatch the exception by looping back around to the
            // context.dispatchException(context.arg) call above.
            context.method = "throw";
            context.arg = record.arg;
          }
        }
      };
    }

    // Call delegate.iterator[context.method](context.arg) and handle the
    // result, either by returning a { value, done } result from the
    // delegate iterator, or by modifying context.method and context.arg,
    // setting context.delegate to null, and returning the ContinueSentinel.
    function maybeInvokeDelegate(delegate, context) {
      var method = delegate.iterator[context.method];
      if (method === undefined$1) {
        // A .throw or .return when the delegate iterator has no .throw
        // method always terminates the yield* loop.
        context.delegate = null;

        if (context.method === "throw") {
          // Note: ["return"] must be used for ES3 parsing compatibility.
          if (delegate.iterator["return"]) {
            // If the delegate iterator has a return method, give it a
            // chance to clean up.
            context.method = "return";
            context.arg = undefined$1;
            maybeInvokeDelegate(delegate, context);

            if (context.method === "throw") {
              // If maybeInvokeDelegate(context) changed context.method from
              // "return" to "throw", let that override the TypeError below.
              return ContinueSentinel;
            }
          }

          context.method = "throw";
          context.arg = new TypeError(
            "The iterator does not provide a 'throw' method");
        }

        return ContinueSentinel;
      }

      var record = tryCatch(method, delegate.iterator, context.arg);

      if (record.type === "throw") {
        context.method = "throw";
        context.arg = record.arg;
        context.delegate = null;
        return ContinueSentinel;
      }

      var info = record.arg;

      if (! info) {
        context.method = "throw";
        context.arg = new TypeError("iterator result is not an object");
        context.delegate = null;
        return ContinueSentinel;
      }

      if (info.done) {
        // Assign the result of the finished delegate to the temporary
        // variable specified by delegate.resultName (see delegateYield).
        context[delegate.resultName] = info.value;

        // Resume execution at the desired location (see delegateYield).
        context.next = delegate.nextLoc;

        // If context.method was "throw" but the delegate handled the
        // exception, let the outer generator proceed normally. If
        // context.method was "next", forget context.arg since it has been
        // "consumed" by the delegate iterator. If context.method was
        // "return", allow the original .return call to continue in the
        // outer generator.
        if (context.method !== "return") {
          context.method = "next";
          context.arg = undefined$1;
        }

      } else {
        // Re-yield the result returned by the delegate method.
        return info;
      }

      // The delegate iterator is finished, so forget it and continue with
      // the outer generator.
      context.delegate = null;
      return ContinueSentinel;
    }

    // Define Generator.prototype.{next,throw,return} in terms of the
    // unified ._invoke helper method.
    defineIteratorMethods(Gp);

    define(Gp, toStringTagSymbol, "Generator");

    // A Generator should always return itself as the iterator object when the
    // @@iterator function is called on it. Some browsers' implementations of the
    // iterator prototype chain incorrectly implement this, causing the Generator
    // object to not be returned from this call. This ensures that doesn't happen.
    // See https://github.com/facebook/regenerator/issues/274 for more details.
    define(Gp, iteratorSymbol, function() {
      return this;
    });

    define(Gp, "toString", function() {
      return "[object Generator]";
    });

    function pushTryEntry(locs) {
      var entry = { tryLoc: locs[0] };

      if (1 in locs) {
        entry.catchLoc = locs[1];
      }

      if (2 in locs) {
        entry.finallyLoc = locs[2];
        entry.afterLoc = locs[3];
      }

      this.tryEntries.push(entry);
    }

    function resetTryEntry(entry) {
      var record = entry.completion || {};
      record.type = "normal";
      delete record.arg;
      entry.completion = record;
    }

    function Context(tryLocsList) {
      // The root entry object (effectively a try statement without a catch
      // or a finally block) gives us a place to store values thrown from
      // locations where there is no enclosing try statement.
      this.tryEntries = [{ tryLoc: "root" }];
      tryLocsList.forEach(pushTryEntry, this);
      this.reset(true);
    }

    exports.keys = function(object) {
      var keys = [];
      for (var key in object) {
        keys.push(key);
      }
      keys.reverse();

      // Rather than returning an object with a next method, we keep
      // things simple and return the next function itself.
      return function next() {
        while (keys.length) {
          var key = keys.pop();
          if (key in object) {
            next.value = key;
            next.done = false;
            return next;
          }
        }

        // To avoid creating an additional object, we just hang the .value
        // and .done properties off the next function object itself. This
        // also ensures that the minifier will not anonymize the function.
        next.done = true;
        return next;
      };
    };

    function values(iterable) {
      if (iterable) {
        var iteratorMethod = iterable[iteratorSymbol];
        if (iteratorMethod) {
          return iteratorMethod.call(iterable);
        }

        if (typeof iterable.next === "function") {
          return iterable;
        }

        if (!isNaN(iterable.length)) {
          var i = -1, next = function next() {
            while (++i < iterable.length) {
              if (hasOwn.call(iterable, i)) {
                next.value = iterable[i];
                next.done = false;
                return next;
              }
            }

            next.value = undefined$1;
            next.done = true;

            return next;
          };

          return next.next = next;
        }
      }

      // Return an iterator with no values.
      return { next: doneResult };
    }
    exports.values = values;

    function doneResult() {
      return { value: undefined$1, done: true };
    }

    Context.prototype = {
      constructor: Context,

      reset: function(skipTempReset) {
        this.prev = 0;
        this.next = 0;
        // Resetting context._sent for legacy support of Babel's
        // function.sent implementation.
        this.sent = this._sent = undefined$1;
        this.done = false;
        this.delegate = null;

        this.method = "next";
        this.arg = undefined$1;

        this.tryEntries.forEach(resetTryEntry);

        if (!skipTempReset) {
          for (var name in this) {
            // Not sure about the optimal order of these conditions:
            if (name.charAt(0) === "t" &&
                hasOwn.call(this, name) &&
                !isNaN(+name.slice(1))) {
              this[name] = undefined$1;
            }
          }
        }
      },

      stop: function() {
        this.done = true;

        var rootEntry = this.tryEntries[0];
        var rootRecord = rootEntry.completion;
        if (rootRecord.type === "throw") {
          throw rootRecord.arg;
        }

        return this.rval;
      },

      dispatchException: function(exception) {
        if (this.done) {
          throw exception;
        }

        var context = this;
        function handle(loc, caught) {
          record.type = "throw";
          record.arg = exception;
          context.next = loc;

          if (caught) {
            // If the dispatched exception was caught by a catch block,
            // then let that catch block handle the exception normally.
            context.method = "next";
            context.arg = undefined$1;
          }

          return !! caught;
        }

        for (var i = this.tryEntries.length - 1; i >= 0; --i) {
          var entry = this.tryEntries[i];
          var record = entry.completion;

          if (entry.tryLoc === "root") {
            // Exception thrown outside of any try block that could handle
            // it, so set the completion value of the entire function to
            // throw the exception.
            return handle("end");
          }

          if (entry.tryLoc <= this.prev) {
            var hasCatch = hasOwn.call(entry, "catchLoc");
            var hasFinally = hasOwn.call(entry, "finallyLoc");

            if (hasCatch && hasFinally) {
              if (this.prev < entry.catchLoc) {
                return handle(entry.catchLoc, true);
              } else if (this.prev < entry.finallyLoc) {
                return handle(entry.finallyLoc);
              }

            } else if (hasCatch) {
              if (this.prev < entry.catchLoc) {
                return handle(entry.catchLoc, true);
              }

            } else if (hasFinally) {
              if (this.prev < entry.finallyLoc) {
                return handle(entry.finallyLoc);
              }

            } else {
              throw new Error("try statement without catch or finally");
            }
          }
        }
      },

      abrupt: function(type, arg) {
        for (var i = this.tryEntries.length - 1; i >= 0; --i) {
          var entry = this.tryEntries[i];
          if (entry.tryLoc <= this.prev &&
              hasOwn.call(entry, "finallyLoc") &&
              this.prev < entry.finallyLoc) {
            var finallyEntry = entry;
            break;
          }
        }

        if (finallyEntry &&
            (type === "break" ||
             type === "continue") &&
            finallyEntry.tryLoc <= arg &&
            arg <= finallyEntry.finallyLoc) {
          // Ignore the finally entry if control is not jumping to a
          // location outside the try/catch block.
          finallyEntry = null;
        }

        var record = finallyEntry ? finallyEntry.completion : {};
        record.type = type;
        record.arg = arg;

        if (finallyEntry) {
          this.method = "next";
          this.next = finallyEntry.finallyLoc;
          return ContinueSentinel;
        }

        return this.complete(record);
      },

      complete: function(record, afterLoc) {
        if (record.type === "throw") {
          throw record.arg;
        }

        if (record.type === "break" ||
            record.type === "continue") {
          this.next = record.arg;
        } else if (record.type === "return") {
          this.rval = this.arg = record.arg;
          this.method = "return";
          this.next = "end";
        } else if (record.type === "normal" && afterLoc) {
          this.next = afterLoc;
        }

        return ContinueSentinel;
      },

      finish: function(finallyLoc) {
        for (var i = this.tryEntries.length - 1; i >= 0; --i) {
          var entry = this.tryEntries[i];
          if (entry.finallyLoc === finallyLoc) {
            this.complete(entry.completion, entry.afterLoc);
            resetTryEntry(entry);
            return ContinueSentinel;
          }
        }
      },

      "catch": function(tryLoc) {
        for (var i = this.tryEntries.length - 1; i >= 0; --i) {
          var entry = this.tryEntries[i];
          if (entry.tryLoc === tryLoc) {
            var record = entry.completion;
            if (record.type === "throw") {
              var thrown = record.arg;
              resetTryEntry(entry);
            }
            return thrown;
          }
        }

        // The context.catch method must only be called with a location
        // argument that corresponds to a known catch block.
        throw new Error("illegal catch attempt");
      },

      delegateYield: function(iterable, resultName, nextLoc) {
        this.delegate = {
          iterator: values(iterable),
          resultName: resultName,
          nextLoc: nextLoc
        };

        if (this.method === "next") {
          // Deliberately forget the last sent value so that we don't
          // accidentally pass it on to the delegate.
          this.arg = undefined$1;
        }

        return ContinueSentinel;
      }
    };

    // Regardless of whether this script is executing as a CommonJS module
    // or not, return the runtime object so that we can declare the variable
    // regeneratorRuntime in the outer scope, which allows this module to be
    // injected easily by `bin/regenerator --include-runtime script.js`.
    return exports;

  }(
    // If this script is executing as a CommonJS module, use module.exports
    // as the regeneratorRuntime namespace. Otherwise create a new empty
    // object. Either way, the resulting object will be used to initialize
    // the regeneratorRuntime variable at the top of this file.
    module.exports 
  ));

  try {
    regeneratorRuntime = runtime;
  } catch (accidentalStrictMode) {
    // This module should not be running in strict mode, so the above
    // assignment should always work unless something is misconfigured. Just
    // in case runtime.js accidentally runs in strict mode, in modern engines
    // we can explicitly access globalThis. In older engines we can escape
    // strict mode using a global Function call. This could conceivably fail
    // if a Content Security Policy forbids using Function, but in that case
    // the proper solution is to fix the accidental strict mode problem. If
    // you've misconfigured your bundler to force strict mode and applied a
    // CSP to forbid Function, and you're not willing to fix either of those
    // problems, please detail your unique predicament in a GitHub issue.
    if (typeof globalThis === "object") {
      globalThis.regeneratorRuntime = runtime;
    } else {
      Function("r", "regeneratorRuntime = r")(runtime);
    }
  }
  });

  var regenerator = runtime_1;

  function _classCallCheck(instance, Constructor) {
    if (!(instance instanceof Constructor)) {
      throw new TypeError("Cannot call a class as a function");
    }
  }

  function _defineProperties(target, props) {
    for (var i = 0; i < props.length; i++) {
      var descriptor = props[i];
      descriptor.enumerable = descriptor.enumerable || false;
      descriptor.configurable = true;
      if ("value" in descriptor) descriptor.writable = true;
      Object.defineProperty(target, descriptor.key, descriptor);
    }
  }

  function _createClass(Constructor, protoProps, staticProps) {
    if (protoProps) _defineProperties(Constructor.prototype, protoProps);
    if (staticProps) _defineProperties(Constructor, staticProps);
    Object.defineProperty(Constructor, "prototype", {
      writable: false
    });
    return Constructor;
  }

  function _setPrototypeOf(o, p) {
    _setPrototypeOf = Object.setPrototypeOf || function _setPrototypeOf(o, p) {
      o.__proto__ = p;
      return o;
    };

    return _setPrototypeOf(o, p);
  }

  function _inherits(subClass, superClass) {
    if (typeof superClass !== "function" && superClass !== null) {
      throw new TypeError("Super expression must either be null or a function");
    }

    subClass.prototype = Object.create(superClass && superClass.prototype, {
      constructor: {
        value: subClass,
        writable: true,
        configurable: true
      }
    });
    Object.defineProperty(subClass, "prototype", {
      writable: false
    });
    if (superClass) _setPrototypeOf(subClass, superClass);
  }

  function _typeof(obj) {
    "@babel/helpers - typeof";

    return _typeof = "function" == typeof Symbol && "symbol" == typeof Symbol.iterator ? function (obj) {
      return typeof obj;
    } : function (obj) {
      return obj && "function" == typeof Symbol && obj.constructor === Symbol && obj !== Symbol.prototype ? "symbol" : typeof obj;
    }, _typeof(obj);
  }

  function _assertThisInitialized(self) {
    if (self === void 0) {
      throw new ReferenceError("this hasn't been initialised - super() hasn't been called");
    }

    return self;
  }

  function _possibleConstructorReturn(self, call) {
    if (call && (_typeof(call) === "object" || typeof call === "function")) {
      return call;
    } else if (call !== void 0) {
      throw new TypeError("Derived constructors may only return object or undefined");
    }

    return _assertThisInitialized(self);
  }

  function _getPrototypeOf(o) {
    _getPrototypeOf = Object.setPrototypeOf ? Object.getPrototypeOf : function _getPrototypeOf(o) {
      return o.__proto__ || Object.getPrototypeOf(o);
    };
    return _getPrototypeOf(o);
  }

  var eventemitter3 = createCommonjsModule(function (module) {

  var has = Object.prototype.hasOwnProperty
    , prefix = '~';

  /**
   * Constructor to create a storage for our `EE` objects.
   * An `Events` instance is a plain object whose properties are event names.
   *
   * @constructor
   * @private
   */
  function Events() {}

  //
  // We try to not inherit from `Object.prototype`. In some engines creating an
  // instance in this way is faster than calling `Object.create(null)` directly.
  // If `Object.create(null)` is not supported we prefix the event names with a
  // character to make sure that the built-in object properties are not
  // overridden or used as an attack vector.
  //
  if (Object.create) {
    Events.prototype = Object.create(null);

    //
    // This hack is needed because the `__proto__` property is still inherited in
    // some old browsers like Android 4, iPhone 5.1, Opera 11 and Safari 5.
    //
    if (!new Events().__proto__) prefix = false;
  }

  /**
   * Representation of a single event listener.
   *
   * @param {Function} fn The listener function.
   * @param {*} context The context to invoke the listener with.
   * @param {Boolean} [once=false] Specify if the listener is a one-time listener.
   * @constructor
   * @private
   */
  function EE(fn, context, once) {
    this.fn = fn;
    this.context = context;
    this.once = once || false;
  }

  /**
   * Add a listener for a given event.
   *
   * @param {EventEmitter} emitter Reference to the `EventEmitter` instance.
   * @param {(String|Symbol)} event The event name.
   * @param {Function} fn The listener function.
   * @param {*} context The context to invoke the listener with.
   * @param {Boolean} once Specify if the listener is a one-time listener.
   * @returns {EventEmitter}
   * @private
   */
  function addListener(emitter, event, fn, context, once) {
    if (typeof fn !== 'function') {
      throw new TypeError('The listener must be a function');
    }

    var listener = new EE(fn, context || emitter, once)
      , evt = prefix ? prefix + event : event;

    if (!emitter._events[evt]) emitter._events[evt] = listener, emitter._eventsCount++;
    else if (!emitter._events[evt].fn) emitter._events[evt].push(listener);
    else emitter._events[evt] = [emitter._events[evt], listener];

    return emitter;
  }

  /**
   * Clear event by name.
   *
   * @param {EventEmitter} emitter Reference to the `EventEmitter` instance.
   * @param {(String|Symbol)} evt The Event name.
   * @private
   */
  function clearEvent(emitter, evt) {
    if (--emitter._eventsCount === 0) emitter._events = new Events();
    else delete emitter._events[evt];
  }

  /**
   * Minimal `EventEmitter` interface that is molded against the Node.js
   * `EventEmitter` interface.
   *
   * @constructor
   * @public
   */
  function EventEmitter() {
    this._events = new Events();
    this._eventsCount = 0;
  }

  /**
   * Return an array listing the events for which the emitter has registered
   * listeners.
   *
   * @returns {Array}
   * @public
   */
  EventEmitter.prototype.eventNames = function eventNames() {
    var names = []
      , events
      , name;

    if (this._eventsCount === 0) return names;

    for (name in (events = this._events)) {
      if (has.call(events, name)) names.push(prefix ? name.slice(1) : name);
    }

    if (Object.getOwnPropertySymbols) {
      return names.concat(Object.getOwnPropertySymbols(events));
    }

    return names;
  };

  /**
   * Return the listeners registered for a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @returns {Array} The registered listeners.
   * @public
   */
  EventEmitter.prototype.listeners = function listeners(event) {
    var evt = prefix ? prefix + event : event
      , handlers = this._events[evt];

    if (!handlers) return [];
    if (handlers.fn) return [handlers.fn];

    for (var i = 0, l = handlers.length, ee = new Array(l); i < l; i++) {
      ee[i] = handlers[i].fn;
    }

    return ee;
  };

  /**
   * Return the number of listeners listening to a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @returns {Number} The number of listeners.
   * @public
   */
  EventEmitter.prototype.listenerCount = function listenerCount(event) {
    var evt = prefix ? prefix + event : event
      , listeners = this._events[evt];

    if (!listeners) return 0;
    if (listeners.fn) return 1;
    return listeners.length;
  };

  /**
   * Calls each of the listeners registered for a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @returns {Boolean} `true` if the event had listeners, else `false`.
   * @public
   */
  EventEmitter.prototype.emit = function emit(event, a1, a2, a3, a4, a5) {
    var evt = prefix ? prefix + event : event;

    if (!this._events[evt]) return false;

    var listeners = this._events[evt]
      , len = arguments.length
      , args
      , i;

    if (listeners.fn) {
      if (listeners.once) this.removeListener(event, listeners.fn, undefined, true);

      switch (len) {
        case 1: return listeners.fn.call(listeners.context), true;
        case 2: return listeners.fn.call(listeners.context, a1), true;
        case 3: return listeners.fn.call(listeners.context, a1, a2), true;
        case 4: return listeners.fn.call(listeners.context, a1, a2, a3), true;
        case 5: return listeners.fn.call(listeners.context, a1, a2, a3, a4), true;
        case 6: return listeners.fn.call(listeners.context, a1, a2, a3, a4, a5), true;
      }

      for (i = 1, args = new Array(len -1); i < len; i++) {
        args[i - 1] = arguments[i];
      }

      listeners.fn.apply(listeners.context, args);
    } else {
      var length = listeners.length
        , j;

      for (i = 0; i < length; i++) {
        if (listeners[i].once) this.removeListener(event, listeners[i].fn, undefined, true);

        switch (len) {
          case 1: listeners[i].fn.call(listeners[i].context); break;
          case 2: listeners[i].fn.call(listeners[i].context, a1); break;
          case 3: listeners[i].fn.call(listeners[i].context, a1, a2); break;
          case 4: listeners[i].fn.call(listeners[i].context, a1, a2, a3); break;
          default:
            if (!args) for (j = 1, args = new Array(len -1); j < len; j++) {
              args[j - 1] = arguments[j];
            }

            listeners[i].fn.apply(listeners[i].context, args);
        }
      }
    }

    return true;
  };

  /**
   * Add a listener for a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @param {Function} fn The listener function.
   * @param {*} [context=this] The context to invoke the listener with.
   * @returns {EventEmitter} `this`.
   * @public
   */
  EventEmitter.prototype.on = function on(event, fn, context) {
    return addListener(this, event, fn, context, false);
  };

  /**
   * Add a one-time listener for a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @param {Function} fn The listener function.
   * @param {*} [context=this] The context to invoke the listener with.
   * @returns {EventEmitter} `this`.
   * @public
   */
  EventEmitter.prototype.once = function once(event, fn, context) {
    return addListener(this, event, fn, context, true);
  };

  /**
   * Remove the listeners of a given event.
   *
   * @param {(String|Symbol)} event The event name.
   * @param {Function} fn Only remove the listeners that match this function.
   * @param {*} context Only remove the listeners that have this context.
   * @param {Boolean} once Only remove one-time listeners.
   * @returns {EventEmitter} `this`.
   * @public
   */
  EventEmitter.prototype.removeListener = function removeListener(event, fn, context, once) {
    var evt = prefix ? prefix + event : event;

    if (!this._events[evt]) return this;
    if (!fn) {
      clearEvent(this, evt);
      return this;
    }

    var listeners = this._events[evt];

    if (listeners.fn) {
      if (
        listeners.fn === fn &&
        (!once || listeners.once) &&
        (!context || listeners.context === context)
      ) {
        clearEvent(this, evt);
      }
    } else {
      for (var i = 0, events = [], length = listeners.length; i < length; i++) {
        if (
          listeners[i].fn !== fn ||
          (once && !listeners[i].once) ||
          (context && listeners[i].context !== context)
        ) {
          events.push(listeners[i]);
        }
      }

      //
      // Reset the array, or remove it completely if we have no more listeners.
      //
      if (events.length) this._events[evt] = events.length === 1 ? events[0] : events;
      else clearEvent(this, evt);
    }

    return this;
  };

  /**
   * Remove all listeners, or those of the specified event.
   *
   * @param {(String|Symbol)} [event] The event name.
   * @returns {EventEmitter} `this`.
   * @public
   */
  EventEmitter.prototype.removeAllListeners = function removeAllListeners(event) {
    var evt;

    if (event) {
      evt = prefix ? prefix + event : event;
      if (this._events[evt]) clearEvent(this, evt);
    } else {
      this._events = new Events();
      this._eventsCount = 0;
    }

    return this;
  };

  //
  // Alias methods names because people roll like that.
  //
  EventEmitter.prototype.off = EventEmitter.prototype.removeListener;
  EventEmitter.prototype.addListener = EventEmitter.prototype.on;

  //
  // Expose the prefix.
  //
  EventEmitter.prefixed = prefix;

  //
  // Allow `EventEmitter` to be imported as module namespace.
  //
  EventEmitter.EventEmitter = EventEmitter;

  //
  // Expose the module.
  //
  {
    module.exports = EventEmitter;
  }
  });

  var WorkerClass = null;

  try {
      var WorkerThreads =
          typeof module !== 'undefined' && typeof module.require === 'function' && module.require('worker_threads') ||
          typeof __non_webpack_require__ === 'function' && __non_webpack_require__('worker_threads') ||
          typeof require === 'function' && require('worker_threads');
      WorkerClass = WorkerThreads.Worker;
  } catch(e) {} // eslint-disable-line

  function decodeBase64$1(base64, enableUnicode) {
      return Buffer.from(base64, 'base64').toString(enableUnicode ? 'utf16' : 'utf8');
  }

  function createBase64WorkerFactory$2(base64, sourcemapArg, enableUnicodeArg) {
      var sourcemap = sourcemapArg === undefined ? null : sourcemapArg;
      var enableUnicode = enableUnicodeArg === undefined ? false : enableUnicodeArg;
      var source = decodeBase64$1(base64, enableUnicode);
      var start = source.indexOf('\n', 10) + 1;
      var body = source.substring(start) + (sourcemap ? '\/\/# sourceMappingURL=' + sourcemap : '');
      return function WorkerFactory(options) {
          return new WorkerClass(body, Object.assign({}, options, { eval: true }));
      };
  }

  function decodeBase64(base64, enableUnicode) {
      var binaryString = atob(base64);
      if (enableUnicode) {
          var binaryView = new Uint8Array(binaryString.length);
          for (var i = 0, n = binaryString.length; i < n; ++i) {
              binaryView[i] = binaryString.charCodeAt(i);
          }
          return String.fromCharCode.apply(null, new Uint16Array(binaryView.buffer));
      }
      return binaryString;
  }

  function createURL(base64, sourcemapArg, enableUnicodeArg) {
      var sourcemap = sourcemapArg === undefined ? null : sourcemapArg;
      var enableUnicode = enableUnicodeArg === undefined ? false : enableUnicodeArg;
      var source = decodeBase64(base64, enableUnicode);
      var start = source.indexOf('\n', 10) + 1;
      var body = source.substring(start) + (sourcemap ? '\/\/# sourceMappingURL=' + sourcemap : '');
      var blob = new Blob([body], { type: 'application/javascript' });
      return URL.createObjectURL(blob);
  }

  function createBase64WorkerFactory$1(base64, sourcemapArg, enableUnicodeArg) {
      var url;
      return function WorkerFactory(options) {
          url = url || createURL(base64, sourcemapArg, enableUnicodeArg);
          return new Worker(url, options);
      };
  }

  var kIsNodeJS = Object.prototype.toString.call(typeof process !== 'undefined' ? process : 0) === '[object process]';

  function isNodeJS() {
      return kIsNodeJS;
  }

  function createBase64WorkerFactory(base64, sourcemapArg, enableUnicodeArg) {
      if (isNodeJS()) {
          return createBase64WorkerFactory$2(base64, sourcemapArg, enableUnicodeArg);
      }
      return createBase64WorkerFactory$1(base64, sourcemapArg, enableUnicodeArg);
  }

  var WorkerFactory = createBase64WorkerFactory('/* rollup-plugin-web-worker-loader */
(function () {
  'use strict';

  //
  //  Copyright (c) 2013 Sam Leitch. All rights reserved.
  //
  //  Permission is hereby granted, free of charge, to any person obtaining a copy
  //  of this software and associated documentation files (the "Software"), to
  //  deal in the Software without restriction, including without limitation the
  //  rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  //  sell copies of the Software, and to permit persons to whom the Software is
  //  furnished to do so, subject to the following conditions:
  //
  //  The above copyright notice and this permission notice shall be included in
  //  all copies or substantial portions of the Software.
  //
  //  THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  //  IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  //  FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  //  AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  //  LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  //  FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
  //  IN THE SOFTWARE.
  //

  /**
   * This class wraps the details of the h264bsd library.
   * Module object is an Emscripten module provided globally by TinyH264.js
   *
   * In order to use this class, you first queue encoded data using queueData.
   * Each call to decode() will decode a single encoded element.
   * When decode() returns H264bsdDecoder.PIC_RDY, a picture is ready in the output buffer.
   * You can also use the onPictureReady() function to determine when a picture is ready.
   * The output buffer can be accessed by calling getNextOutputPicture()
   * An output picture may also be decoded using an H264bsdCanvas.
   * When you're done decoding, make sure to call release() to clean up internal buffers.
   */
  var TinyH264Decoder = /*#__PURE__*/function () {
    function TinyH264Decoder(tinyH264Module, onPictureReady) {
      this.tinyH264Module = tinyH264Module;
      this.onPictureReady = onPictureReady;
      this.pStorage = this.tinyH264Module._h264bsdAlloc();
      this.pWidth = this.tinyH264Module._malloc(4);
      this.pHeight = this.tinyH264Module._malloc(4);
      this.pPicture = this.tinyH264Module._malloc(4);
      this._decBuffer = this.tinyH264Module._malloc(1024 * 1024);

      this.tinyH264Module._h264bsdInit(this.pStorage, 0);
    }

    var _proto = TinyH264Decoder.prototype;

    _proto.release = function release() {
      var pStorage = this.pStorage;

      if (pStorage !== 0) {
        this.tinyH264Module._h264bsdShutdown(pStorage);

        this.tinyH264Module._h264bsdFree(pStorage);
      }

      this.tinyH264Module._free(this.pWidth);

      this.tinyH264Module._free(this.pHeight);

      this.tinyH264Module._free(this.pPicture);

      this.pStorage = 0;
      this.pWidth = 0;
      this.pHeight = 0;
    };

    _proto.decode = function decode(nal) {
      if (nal instanceof ArrayBuffer) {
        nal = new Uint8Array(nal);
      }

      this.tinyH264Module.HEAPU8.set(nal, this._decBuffer);

      var retCode = this.tinyH264Module._h264bsdDecode(this.pStorage, this._decBuffer, nal.byteLength, this.pPicture, this.pWidth, this.pHeight);

      if (retCode === TinyH264Decoder.PIC_RDY) {
        var width = this.tinyH264Module.getValue(this.pWidth, 'i32');
        var height = this.tinyH264Module.getValue(this.pHeight, 'i32');
        var picPtr = this.tinyH264Module.getValue(this.pPicture, 'i8*');
        var pic = new Uint8Array(this.tinyH264Module.HEAPU8.subarray(picPtr, picPtr + width * height * 3 / 2));
        this.onPictureReady(pic, width, height);
      }
    };

    return TinyH264Decoder;
  }();

  TinyH264Decoder.RDY = 0;
  TinyH264Decoder.PIC_RDY = 1;
  TinyH264Decoder.HDRS_RDY = 2;
  TinyH264Decoder.ERROR = 3;
  TinyH264Decoder.PARAM_SET_ERROR = 4;
  TinyH264Decoder.MEMALLOC_ERROR = 5;

  var Module = function () {
    var _scriptDir = typeof document !== 'undefined' && document.currentScript ? document.currentScript.src : undefined;

    return function (Module) {
      Module = Module || {};
      var Module = typeof Module !== "undefined" ? Module : {};
      var readyPromiseResolve, readyPromiseReject;
      Module["ready"] = new Promise(function (resolve, reject) {
        readyPromiseResolve = resolve;
        readyPromiseReject = reject;
      });
      var moduleOverrides = {};
      var key;

      for (key in Module) {
        if (Module.hasOwnProperty(key)) {
          moduleOverrides[key] = Module[key];
        }
      }
      var ENVIRONMENT_IS_WORKER = true;
      var scriptDirectory = "";

      function locateFile(path) {
        if (Module["locateFile"]) {
          return Module["locateFile"](path, scriptDirectory);
        }

        return scriptDirectory + path;
      }

      var readBinary;

      {
        {
          scriptDirectory = self.location.href;
        }

        if (_scriptDir) {
          scriptDirectory = _scriptDir;
        }

        if (scriptDirectory.indexOf("blob:") !== 0) {
          scriptDirectory = scriptDirectory.substr(0, scriptDirectory.lastIndexOf("/") + 1);
        } else {
          scriptDirectory = "";
        }

        {

          {
            readBinary = function readBinary(url) {
              try {
                var xhr = new XMLHttpRequest();
                xhr.open("GET", url, false);
                xhr.responseType = "arraybuffer";
                xhr.send(null);
                return new Uint8Array(xhr.response);
              } catch (err) {
                var data = tryParseAsDataURI(url);

                if (data) {
                  return data;
                }

                throw err;
              }
            };
          }
        }
      }

      Module["print"] || console.log.bind(console);
      var err = Module["printErr"] || console.warn.bind(console);

      for (key in moduleOverrides) {
        if (moduleOverrides.hasOwnProperty(key)) {
          Module[key] = moduleOverrides[key];
        }
      }

      moduleOverrides = null;
      if (Module["arguments"]) ;
      if (Module["thisProgram"]) ;
      if (Module["quit"]) ;
      var wasmBinary;
      if (Module["wasmBinary"]) wasmBinary = Module["wasmBinary"];
      Module["noExitRuntime"] || true;

      if (typeof WebAssembly !== "object") {
        abort("no native wasm support detected");
      }

      function getValue(ptr, type, noSafe) {
        type = type || "i8";
        if (type.charAt(type.length - 1) === "*") type = "i32";

        switch (type) {
          case "i1":
            return HEAP8[ptr >> 0];

          case "i8":
            return HEAP8[ptr >> 0];

          case "i16":
            return HEAP16[ptr >> 1];

          case "i32":
            return HEAP32[ptr >> 2];

          case "i64":
            return HEAP32[ptr >> 2];

          case "float":
            return HEAPF32[ptr >> 2];

          case "double":
            return HEAPF64[ptr >> 3];

          default:
            abort("invalid type for getValue: " + type);
        }

        return null;
      }

      var wasmMemory;
      var ABORT = false;

      function alignUp(x, multiple) {
        if (x % multiple > 0) {
          x += multiple - x % multiple;
        }

        return x;
      }

      var buffer, HEAP8, HEAPU8, HEAP16, HEAP32, HEAPF32, HEAPF64;

      function updateGlobalBufferAndViews(buf) {
        buffer = buf;
        Module["HEAP8"] = HEAP8 = new Int8Array(buf);
        Module["HEAP16"] = HEAP16 = new Int16Array(buf);
        Module["HEAP32"] = HEAP32 = new Int32Array(buf);
        Module["HEAPU8"] = HEAPU8 = new Uint8Array(buf);
        Module["HEAPU16"] = new Uint16Array(buf);
        Module["HEAPU32"] = new Uint32Array(buf);
        Module["HEAPF32"] = HEAPF32 = new Float32Array(buf);
        Module["HEAPF64"] = HEAPF64 = new Float64Array(buf);
      }

      Module["INITIAL_MEMORY"] || 16777216;
      var wasmTable;
      var __ATPRERUN__ = [];
      var __ATINIT__ = [];
      var __ATPOSTRUN__ = [];

      function preRun() {
        if (Module["preRun"]) {
          if (typeof Module["preRun"] == "function") Module["preRun"] = [Module["preRun"]];

          while (Module["preRun"].length) {
            addOnPreRun(Module["preRun"].shift());
          }
        }

        callRuntimeCallbacks(__ATPRERUN__);
      }

      function initRuntime() {
        callRuntimeCallbacks(__ATINIT__);
      }

      function postRun() {
        if (Module["postRun"]) {
          if (typeof Module["postRun"] == "function") Module["postRun"] = [Module["postRun"]];

          while (Module["postRun"].length) {
            addOnPostRun(Module["postRun"].shift());
          }
        }

        callRuntimeCallbacks(__ATPOSTRUN__);
      }

      function addOnPreRun(cb) {
        __ATPRERUN__.unshift(cb);
      }

      function addOnInit(cb) {
        __ATINIT__.unshift(cb);
      }

      function addOnPostRun(cb) {
        __ATPOSTRUN__.unshift(cb);
      }

      var runDependencies = 0;
      var dependenciesFulfilled = null;

      function addRunDependency(id) {
        runDependencies++;

        if (Module["monitorRunDependencies"]) {
          Module["monitorRunDependencies"](runDependencies);
        }
      }

      function removeRunDependency(id) {
        runDependencies--;

        if (Module["monitorRunDependencies"]) {
          Module["monitorRunDependencies"](runDependencies);
        }

        if (runDependencies == 0) {

          if (dependenciesFulfilled) {
            var callback = dependenciesFulfilled;
            dependenciesFulfilled = null;
            callback();
          }
        }
      }

      Module["preloadedImages"] = {};
      Module["preloadedAudios"] = {};

      function abort(what) {
        {
          if (Module["onAbort"]) {
            Module["onAbort"](what);
          }
        }
        what += "";
        err(what);
        ABORT = true;
        what = "abort(" + what + "). Build with -s ASSERTIONS=1 for more info.";
        var e = new WebAssembly.RuntimeError(what);
        readyPromiseReject(e);
        throw e;
      }

      var dataURIPrefix = "data:application/octet-stream;base64,";

      function isDataURI(filename) {
        return filename.startsWith(dataURIPrefix);
      }

      var wasmBinaryFile;
      wasmBinaryFile = 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      if (!isDataURI(wasmBinaryFile)) {
        wasmBinaryFile = locateFile(wasmBinaryFile);
      }

      function getBinary(file) {
        try {
          if (file == wasmBinaryFile && wasmBinary) {
            return new Uint8Array(wasmBinary);
          }

          var binary = tryParseAsDataURI(file);

          if (binary) {
            return binary;
          }

          if (readBinary) {
            return readBinary(file);
          } else {
            throw "both async and sync fetching of the wasm failed";
          }
        } catch (err) {
          abort(err);
        }
      }

      function getBinaryPromise() {
        if (!wasmBinary && (ENVIRONMENT_IS_WORKER)) {
          if (typeof fetch === "function") {
            return fetch(wasmBinaryFile, {
              credentials: "same-origin"
            }).then(function (response) {
              if (!response["ok"]) {
                throw "failed to load wasm binary file at '" + wasmBinaryFile + "'";
              }

              return response["arrayBuffer"]();
            }).catch(function () {
              return getBinary(wasmBinaryFile);
            });
          }
        }

        return Promise.resolve().then(function () {
          return getBinary(wasmBinaryFile);
        });
      }

      function createWasm() {
        var info = {
          "a": asmLibraryArg
        };

        function receiveInstance(instance, module) {
          var exports = instance.exports;
          Module["asm"] = exports;
          wasmMemory = Module["asm"]["c"];
          updateGlobalBufferAndViews(wasmMemory.buffer);
          wasmTable = Module["asm"]["l"];
          addOnInit(Module["asm"]["d"]);
          removeRunDependency();
        }

        addRunDependency();

        function receiveInstantiationResult(result) {
          receiveInstance(result["instance"]);
        }

        function instantiateArrayBuffer(receiver) {
          return getBinaryPromise().then(function (binary) {
            return WebAssembly.instantiate(binary, info);
          }).then(function (instance) {
            return instance;
          }).then(receiver, function (reason) {
            err("failed to asynchronously prepare wasm: " + reason);
            abort(reason);
          });
        }

        function instantiateAsync() {
          if (!wasmBinary && typeof WebAssembly.instantiateStreaming === "function" && !isDataURI(wasmBinaryFile) && typeof fetch === "function") {
            return fetch(wasmBinaryFile, {
              credentials: "same-origin"
            }).then(function (response) {
              var result = WebAssembly.instantiateStreaming(response, info);
              return result.then(receiveInstantiationResult, function (reason) {
                err("wasm streaming compile failed: " + reason);
                err("falling back to ArrayBuffer instantiation");
                return instantiateArrayBuffer(receiveInstantiationResult);
              });
            });
          } else {
            return instantiateArrayBuffer(receiveInstantiationResult);
          }
        }

        if (Module["instantiateWasm"]) {
          try {
            var exports = Module["instantiateWasm"](info, receiveInstance);
            return exports;
          } catch (e) {
            err("Module.instantiateWasm callback failed with error: " + e);
            return false;
          }
        }

        instantiateAsync().catch(readyPromiseReject);
        return {};
      }

      function callRuntimeCallbacks(callbacks) {
        while (callbacks.length > 0) {
          var callback = callbacks.shift();

          if (typeof callback == "function") {
            callback(Module);
            continue;
          }

          var func = callback.func;

          if (typeof func === "number") {
            if (callback.arg === undefined) {
              wasmTable.get(func)();
            } else {
              wasmTable.get(func)(callback.arg);
            }
          } else {
            func(callback.arg === undefined ? null : callback.arg);
          }
        }
      }

      function _emscripten_memcpy_big(dest, src, num) {
        HEAPU8.copyWithin(dest, src, src + num);
      }

      function emscripten_realloc_buffer(size) {
        try {
          wasmMemory.grow(size - buffer.byteLength + 65535 >>> 16);
          updateGlobalBufferAndViews(wasmMemory.buffer);
          return 1;
        } catch (e) {}
      }

      function _emscripten_resize_heap(requestedSize) {
        var oldSize = HEAPU8.length;
        requestedSize = requestedSize >>> 0;
        var maxHeapSize = 2147483648;

        if (requestedSize > maxHeapSize) {
          return false;
        }

        for (var cutDown = 1; cutDown <= 4; cutDown *= 2) {
          var overGrownHeapSize = oldSize * (1 + .2 / cutDown);
          overGrownHeapSize = Math.min(overGrownHeapSize, requestedSize + 100663296);
          var newSize = Math.min(maxHeapSize, alignUp(Math.max(requestedSize, overGrownHeapSize), 65536));
          var replacement = emscripten_realloc_buffer(newSize);

          if (replacement) {
            return true;
          }
        }

        return false;
      }

      var decodeBase64 = typeof atob === "function" ? atob : function (input) {
        var keyStr = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
        var output = "";
        var chr1, chr2, chr3;
        var enc1, enc2, enc3, enc4;
        var i = 0;
        input = input.replace(/[^A-Za-z0-9\+\/\=]/g, "");

        do {
          enc1 = keyStr.indexOf(input.charAt(i++));
          enc2 = keyStr.indexOf(input.charAt(i++));
          enc3 = keyStr.indexOf(input.charAt(i++));
          enc4 = keyStr.indexOf(input.charAt(i++));
          chr1 = enc1 << 2 | enc2 >> 4;
          chr2 = (enc2 & 15) << 4 | enc3 >> 2;
          chr3 = (enc3 & 3) << 6 | enc4;
          output = output + String.fromCharCode(chr1);

          if (enc3 !== 64) {
            output = output + String.fromCharCode(chr2);
          }

          if (enc4 !== 64) {
            output = output + String.fromCharCode(chr3);
          }
        } while (i < input.length);

        return output;
      };

      function intArrayFromBase64(s) {
        try {
          var decoded = decodeBase64(s);
          var bytes = new Uint8Array(decoded.length);

          for (var i = 0; i < decoded.length; ++i) {
            bytes[i] = decoded.charCodeAt(i);
          }

          return bytes;
        } catch (_) {
          throw new Error("Converting base64 string to bytes failed.");
        }
      }

      function tryParseAsDataURI(filename) {
        if (!isDataURI(filename)) {
          return;
        }

        return intArrayFromBase64(filename.slice(dataURIPrefix.length));
      }

      var asmLibraryArg = {
        "b": _emscripten_memcpy_big,
        "a": _emscripten_resize_heap
      };
      createWasm();

      Module["___wasm_call_ctors"] = function () {
        return (Module["___wasm_call_ctors"] = Module["asm"]["d"]).apply(null, arguments);
      };

      Module["_h264bsdInit"] = function () {
        return (Module["_h264bsdInit"] = Module["asm"]["e"]).apply(null, arguments);
      };

      Module["_malloc"] = function () {
        return (Module["_malloc"] = Module["asm"]["f"]).apply(null, arguments);
      };

      Module["_free"] = function () {
        return (Module["_free"] = Module["asm"]["g"]).apply(null, arguments);
      };

      Module["_h264bsdDecode"] = function () {
        return (Module["_h264bsdDecode"] = Module["asm"]["h"]).apply(null, arguments);
      };

      Module["_h264bsdShutdown"] = function () {
        return (Module["_h264bsdShutdown"] = Module["asm"]["i"]).apply(null, arguments);
      };

      Module["_h264bsdAlloc"] = function () {
        return (Module["_h264bsdAlloc"] = Module["asm"]["j"]).apply(null, arguments);
      };

      Module["_h264bsdFree"] = function () {
        return (Module["_h264bsdFree"] = Module["asm"]["k"]).apply(null, arguments);
      };

      Module["getValue"] = getValue;
      var calledRun;

      dependenciesFulfilled = function runCaller() {
        if (!calledRun) run();
        if (!calledRun) dependenciesFulfilled = runCaller;
      };

      function run(args) {

        if (runDependencies > 0) {
          return;
        }

        preRun();

        if (runDependencies > 0) {
          return;
        }

        function doRun() {
          if (calledRun) return;
          calledRun = true;
          Module["calledRun"] = true;
          if (ABORT) return;
          initRuntime();
          readyPromiseResolve(Module);
          if (Module["onRuntimeInitialized"]) Module["onRuntimeInitialized"]();
          postRun();
        }

        if (Module["setStatus"]) {
          Module["setStatus"]("Running...");
          setTimeout(function () {
            setTimeout(function () {
              Module["setStatus"]("");
            }, 1);
            doRun();
          }, 1);
        } else {
          doRun();
        }
      }

      Module["run"] = run;

      if (Module["preInit"]) {
        if (typeof Module["preInit"] == "function") Module["preInit"] = [Module["preInit"]];

        while (Module["preInit"].length > 0) {
          Module["preInit"].pop()();
        }
      }

      run();
      return Module.ready;
    };
  }();

  var h264Decoders = {};

  function init() {
    return Module().then(function (tinyH264) {
      self.addEventListener('message', function (e) {
        var message = e.data;
        var renderStateId = message.renderStateId;
        var messageType = message.type;

        switch (messageType) {
          case 'decode':
            {
              var decoder = h264Decoders[renderStateId];

              if (!decoder) {
                decoder = new TinyH264Decoder(tinyH264, function (output, width, height) {
                  postMessage({
                    type: 'pictureReady',
                    width: width,
                    height: height,
                    renderStateId: renderStateId,
                    data: output.buffer
                  }, [output.buffer]);
                });
                h264Decoders[renderStateId] = decoder;
              }

              decoder.decode(new Uint8Array(message.data, message.offset, message.length));
              break;
            }

          case 'release':
            {
              var _decoder = h264Decoders[renderStateId];

              if (_decoder) {
                _decoder.release();

                delete h264Decoders[renderStateId];
              }

              break;
            }
        }
      });
      self.postMessage({
        'type': 'decoderReady'
      });
    });
  }

  init();

})();

', null, false);
  /* eslint-enable */

  /** Detect free variable `global` from Node.js. */
  var freeGlobal = typeof global == 'object' && global && global.Object === Object && global;

  var freeGlobal$1 = freeGlobal;

  /** Detect free variable `self`. */
  var freeSelf = typeof self == 'object' && self && self.Object === Object && self;

  /** Used as a reference to the global object. */
  var root = freeGlobal$1 || freeSelf || Function('return this')();

  var root$1 = root;

  /** Built-in value references. */
  var Symbol$1 = root$1.Symbol;

  var Symbol$2 = Symbol$1;

  /** Used for built-in method references. */
  var objectProto$1 = Object.prototype;

  /** Used to check objects for own properties. */
  var hasOwnProperty = objectProto$1.hasOwnProperty;

  /**
   * Used to resolve the
   * [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
   * of values.
   */
  var nativeObjectToString$1 = objectProto$1.toString;

  /** Built-in value references. */
  var symToStringTag$1 = Symbol$2 ? Symbol$2.toStringTag : undefined;

  /**
   * A specialized version of `baseGetTag` which ignores `Symbol.toStringTag` values.
   *
   * @private
   * @param {*} value The value to query.
   * @returns {string} Returns the raw `toStringTag`.
   */
  function getRawTag(value) {
    var isOwn = hasOwnProperty.call(value, symToStringTag$1),
        tag = value[symToStringTag$1];

    try {
      value[symToStringTag$1] = undefined;
      var unmasked = true;
    } catch (e) {}

    var result = nativeObjectToString$1.call(value);
    if (unmasked) {
      if (isOwn) {
        value[symToStringTag$1] = tag;
      } else {
        delete value[symToStringTag$1];
      }
    }
    return result;
  }

  /** Used for built-in method references. */
  var objectProto = Object.prototype;

  /**
   * Used to resolve the
   * [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring)
   * of values.
   */
  var nativeObjectToString = objectProto.toString;

  /**
   * Converts `value` to a string using `Object.prototype.toString`.
   *
   * @private
   * @param {*} value The value to convert.
   * @returns {string} Returns the converted string.
   */
  function objectToString(value) {
    return nativeObjectToString.call(value);
  }

  /** `Object#toString` result references. */
  var nullTag = '[object Null]',
      undefinedTag = '[object Undefined]';

  /** Built-in value references. */
  var symToStringTag = Symbol$2 ? Symbol$2.toStringTag : undefined;

  /**
   * The base implementation of `getTag` without fallbacks for buggy environments.
   *
   * @private
   * @param {*} value The value to query.
   * @returns {string} Returns the `toStringTag`.
   */
  function baseGetTag(value) {
    if (value == null) {
      return value === undefined ? undefinedTag : nullTag;
    }
    return (symToStringTag && symToStringTag in Object(value))
      ? getRawTag(value)
      : objectToString(value);
  }

  /**
   * Checks if `value` is object-like. A value is object-like if it's not `null`
   * and has a `typeof` result of "object".
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is object-like, else `false`.
   * @example
   *
   * _.isObjectLike({});
   * // => true
   *
   * _.isObjectLike([1, 2, 3]);
   * // => true
   *
   * _.isObjectLike(_.noop);
   * // => false
   *
   * _.isObjectLike(null);
   * // => false
   */
  function isObjectLike(value) {
    return value != null && typeof value == 'object';
  }

  /** `Object#toString` result references. */
  var symbolTag = '[object Symbol]';

  /**
   * Checks if `value` is classified as a `Symbol` primitive or object.
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is a symbol, else `false`.
   * @example
   *
   * _.isSymbol(Symbol.iterator);
   * // => true
   *
   * _.isSymbol('abc');
   * // => false
   */
  function isSymbol(value) {
    return typeof value == 'symbol' ||
      (isObjectLike(value) && baseGetTag(value) == symbolTag);
  }

  /**
   * Checks if `value` is classified as an `Array` object.
   *
   * @static
   * @memberOf _
   * @since 0.1.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is an array, else `false`.
   * @example
   *
   * _.isArray([1, 2, 3]);
   * // => true
   *
   * _.isArray(document.body.children);
   * // => false
   *
   * _.isArray('abc');
   * // => false
   *
   * _.isArray(_.noop);
   * // => false
   */
  var isArray = Array.isArray;

  var isArray$1 = isArray;

  /** Used to match a single whitespace character. */
  var reWhitespace = /\s/;

  /**
   * Used by `_.trim` and `_.trimEnd` to get the index of the last non-whitespace
   * character of `string`.
   *
   * @private
   * @param {string} string The string to inspect.
   * @returns {number} Returns the index of the last non-whitespace character.
   */
  function trimmedEndIndex(string) {
    var index = string.length;

    while (index-- && reWhitespace.test(string.charAt(index))) {}
    return index;
  }

  /** Used to match leading whitespace. */
  var reTrimStart = /^\s+/;

  /**
   * The base implementation of `_.trim`.
   *
   * @private
   * @param {string} string The string to trim.
   * @returns {string} Returns the trimmed string.
   */
  function baseTrim(string) {
    return string
      ? string.slice(0, trimmedEndIndex(string) + 1).replace(reTrimStart, '')
      : string;
  }

  /**
   * Checks if `value` is the
   * [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types)
   * of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`)
   *
   * @static
   * @memberOf _
   * @since 0.1.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is an object, else `false`.
   * @example
   *
   * _.isObject({});
   * // => true
   *
   * _.isObject([1, 2, 3]);
   * // => true
   *
   * _.isObject(_.noop);
   * // => true
   *
   * _.isObject(null);
   * // => false
   */
  function isObject(value) {
    var type = typeof value;
    return value != null && (type == 'object' || type == 'function');
  }

  /** Used as references for various `Number` constants. */
  var NAN = 0 / 0;

  /** Used to detect bad signed hexadecimal string values. */
  var reIsBadHex = /^[-+]0x[0-9a-f]+$/i;

  /** Used to detect binary string values. */
  var reIsBinary = /^0b[01]+$/i;

  /** Used to detect octal string values. */
  var reIsOctal = /^0o[0-7]+$/i;

  /** Built-in method references without a dependency on `root`. */
  var freeParseInt = parseInt;

  /**
   * Converts `value` to a number.
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to process.
   * @returns {number} Returns the number.
   * @example
   *
   * _.toNumber(3.2);
   * // => 3.2
   *
   * _.toNumber(Number.MIN_VALUE);
   * // => 5e-324
   *
   * _.toNumber(Infinity);
   * // => Infinity
   *
   * _.toNumber('3.2');
   * // => 3.2
   */
  function toNumber(value) {
    if (typeof value == 'number') {
      return value;
    }
    if (isSymbol(value)) {
      return NAN;
    }
    if (isObject(value)) {
      var other = typeof value.valueOf == 'function' ? value.valueOf() : value;
      value = isObject(other) ? (other + '') : other;
    }
    if (typeof value != 'string') {
      return value === 0 ? value : +value;
    }
    value = baseTrim(value);
    var isBinary = reIsBinary.test(value);
    return (isBinary || reIsOctal.test(value))
      ? freeParseInt(value.slice(2), isBinary ? 2 : 8)
      : (reIsBadHex.test(value) ? NAN : +value);
  }

  /** Used as references for various `Number` constants. */
  var INFINITY = 1 / 0,
      MAX_INTEGER = 1.7976931348623157e+308;

  /**
   * Converts `value` to a finite number.
   *
   * @static
   * @memberOf _
   * @since 4.12.0
   * @category Lang
   * @param {*} value The value to convert.
   * @returns {number} Returns the converted number.
   * @example
   *
   * _.toFinite(3.2);
   * // => 3.2
   *
   * _.toFinite(Number.MIN_VALUE);
   * // => 5e-324
   *
   * _.toFinite(Infinity);
   * // => 1.7976931348623157e+308
   *
   * _.toFinite('3.2');
   * // => 3.2
   */
  function toFinite(value) {
    if (!value) {
      return value === 0 ? value : 0;
    }
    value = toNumber(value);
    if (value === INFINITY || value === -INFINITY) {
      var sign = (value < 0 ? -1 : 1);
      return sign * MAX_INTEGER;
    }
    return value === value ? value : 0;
  }

  /** `Object#toString` result references. */
  var asyncTag = '[object AsyncFunction]',
      funcTag = '[object Function]',
      genTag = '[object GeneratorFunction]',
      proxyTag = '[object Proxy]';

  /**
   * Checks if `value` is classified as a `Function` object.
   *
   * @static
   * @memberOf _
   * @since 0.1.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is a function, else `false`.
   * @example
   *
   * _.isFunction(_);
   * // => true
   *
   * _.isFunction(/abc/);
   * // => false
   */
  function isFunction(value) {
    if (!isObject(value)) {
      return false;
    }
    // The use of `Object#toString` avoids issues with the `typeof` operator
    // in Safari 9 which returns 'object' for typed arrays and other constructors.
    var tag = baseGetTag(value);
    return tag == funcTag || tag == genTag || tag == asyncTag || tag == proxyTag;
  }

  /** Used as references for various `Number` constants. */
  var MAX_SAFE_INTEGER$1 = 9007199254740991;

  /** Used to detect unsigned integer values. */
  var reIsUint = /^(?:0|[1-9]\d*)$/;

  /**
   * Checks if `value` is a valid array-like index.
   *
   * @private
   * @param {*} value The value to check.
   * @param {number} [length=MAX_SAFE_INTEGER] The upper bounds of a valid index.
   * @returns {boolean} Returns `true` if `value` is a valid index, else `false`.
   */
  function isIndex(value, length) {
    var type = typeof value;
    length = length == null ? MAX_SAFE_INTEGER$1 : length;

    return !!length &&
      (type == 'number' ||
        (type != 'symbol' && reIsUint.test(value))) &&
          (value > -1 && value % 1 == 0 && value < length);
  }

  /**
   * Performs a
   * [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero)
   * comparison between two values to determine if they are equivalent.
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to compare.
   * @param {*} other The other value to compare.
   * @returns {boolean} Returns `true` if the values are equivalent, else `false`.
   * @example
   *
   * var object = { 'a': 1 };
   * var other = { 'a': 1 };
   *
   * _.eq(object, object);
   * // => true
   *
   * _.eq(object, other);
   * // => false
   *
   * _.eq('a', 'a');
   * // => true
   *
   * _.eq('a', Object('a'));
   * // => false
   *
   * _.eq(NaN, NaN);
   * // => true
   */
  function eq(value, other) {
    return value === other || (value !== value && other !== other);
  }

  /** Used as references for various `Number` constants. */
  var MAX_SAFE_INTEGER = 9007199254740991;

  /**
   * Checks if `value` is a valid array-like length.
   *
   * **Note:** This method is loosely based on
   * [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength).
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is a valid length, else `false`.
   * @example
   *
   * _.isLength(3);
   * // => true
   *
   * _.isLength(Number.MIN_VALUE);
   * // => false
   *
   * _.isLength(Infinity);
   * // => false
   *
   * _.isLength('3');
   * // => false
   */
  function isLength(value) {
    return typeof value == 'number' &&
      value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER;
  }

  /**
   * Checks if `value` is array-like. A value is considered array-like if it's
   * not a function and has a `value.length` that's an integer greater than or
   * equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`.
   *
   * @static
   * @memberOf _
   * @since 4.0.0
   * @category Lang
   * @param {*} value The value to check.
   * @returns {boolean} Returns `true` if `value` is array-like, else `false`.
   * @example
   *
   * _.isArrayLike([1, 2, 3]);
   * // => true
   *
   * _.isArrayLike(document.body.children);
   * // => true
   *
   * _.isArrayLike('abc');
   * // => true
   *
   * _.isArrayLike(_.noop);
   * // => false
   */
  function isArrayLike(value) {
    return value != null && isLength(value.length) && !isFunction(value);
  }

  /**
   * Checks if the given arguments are from an iteratee call.
   *
   * @private
   * @param {*} value The potential iteratee value argument.
   * @param {*} index The potential iteratee index or key argument.
   * @param {*} object The potential iteratee object argument.
   * @returns {boolean} Returns `true` if the arguments are from an iteratee call,
   *  else `false`.
   */
  function isIterateeCall(value, index, object) {
    if (!isObject(object)) {
      return false;
    }
    var type = typeof index;
    if (type == 'number'
          ? (isArrayLike(object) && isIndex(index, object.length))
          : (type == 'string' && index in object)
        ) {
      return eq(object[index], value);
    }
    return false;
  }

  /* Built-in method references for those with the same name as other `lodash` methods. */
  var nativeCeil = Math.ceil,
      nativeMax = Math.max;

  /**
   * The base implementation of `_.range` and `_.rangeRight` which doesn't
   * coerce arguments.
   *
   * @private
   * @param {number} start The start of the range.
   * @param {number} end The end of the range.
   * @param {number} step The value to increment or decrement by.
   * @param {boolean} [fromRight] Specify iterating from right to left.
   * @returns {Array} Returns the range of numbers.
   */
  function baseRange(start, end, step, fromRight) {
    var index = -1,
        length = nativeMax(nativeCeil((end - start) / (step || 1)), 0),
        result = Array(length);

    while (length--) {
      result[fromRight ? length : ++index] = start;
      start += step;
    }
    return result;
  }

  /**
   * Creates a `_.range` or `_.rangeRight` function.
   *
   * @private
   * @param {boolean} [fromRight] Specify iterating from right to left.
   * @returns {Function} Returns the new range function.
   */
  function createRange(fromRight) {
    return function(start, end, step) {
      if (step && typeof step != 'number' && isIterateeCall(start, end, step)) {
        end = step = undefined;
      }
      // Ensure the sign of `-0` is preserved.
      start = toFinite(start);
      if (end === undefined) {
        end = start;
        start = 0;
      } else {
        end = toFinite(end);
      }
      step = step === undefined ? (start < end ? 1 : -1) : toFinite(step);
      return baseRange(start, end, step, fromRight);
    };
  }

  /**
   * Creates an array of numbers (positive and/or negative) progressing from
   * `start` up to, but not including, `end`. A step of `-1` is used if a negative
   * `start` is specified without an `end` or `step`. If `end` is not specified,
   * it's set to `start` with `start` then set to `0`.
   *
   * **Note:** JavaScript follows the IEEE-754 standard for resolving
   * floating-point values which can produce unexpected results.
   *
   * @static
   * @since 0.1.0
   * @memberOf _
   * @category Util
   * @param {number} [start=0] The start of the range.
   * @param {number} end The end of the range.
   * @param {number} [step=1] The value to increment or decrement by.
   * @returns {Array} Returns the range of numbers.
   * @see _.inRange, _.rangeRight
   * @example
   *
   * _.range(4);
   * // => [0, 1, 2, 3]
   *
   * _.range(-4);
   * // => [0, -1, -2, -3]
   *
   * _.range(1, 5);
   * // => [1, 2, 3, 4]
   *
   * _.range(0, 20, 5);
   * // => [0, 5, 10, 15]
   *
   * _.range(0, -4, -1);
   * // => [0, -1, -2, -3]
   *
   * _.range(1, 4, 0);
   * // => [1, 1, 1]
   *
   * _.range(0);
   * // => []
   */
  var range = createRange();

  var range$1 = range;

  // Unique ID creation requires a high quality random # generator. In the browser we therefore
  // require the crypto API and do not support built-in fallback to lower quality random number
  // generators (like Math.random()).
  var getRandomValues;
  var rnds8 = new Uint8Array(16);
  function rng() {
    // lazy load so that environments that need to polyfill have a chance to do so
    if (!getRandomValues) {
      // getRandomValues needs to be invoked in a context where "this" is a Crypto implementation. Also,
      // find the complete implementation of crypto (msCrypto) on IE11.
      getRandomValues = typeof crypto !== 'undefined' && crypto.getRandomValues && crypto.getRandomValues.bind(crypto) || typeof msCrypto !== 'undefined' && typeof msCrypto.getRandomValues === 'function' && msCrypto.getRandomValues.bind(msCrypto);

      if (!getRandomValues) {
        throw new Error('crypto.getRandomValues() not supported. See https://github.com/uuidjs/uuid#getrandomvalues-not-supported');
      }
    }

    return getRandomValues(rnds8);
  }

  var REGEX = /^(?:[0-9a-f]{8}-[0-9a-f]{4}-[1-5][0-9a-f]{3}-[89ab][0-9a-f]{3}-[0-9a-f]{12}|00000000-0000-0000-0000-000000000000)$/i;

  function validate(uuid) {
    return typeof uuid === 'string' && REGEX.test(uuid);
  }

  /**
   * Convert array of 16 byte values to UUID string format of the form:
   * XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX
   */

  var byteToHex = [];

  for (var i = 0; i < 256; ++i) {
    byteToHex.push((i + 0x100).toString(16).substr(1));
  }

  function stringify(arr) {
    var offset = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : 0;
    // Note: Be careful editing this code!  It's been tuned for performance
    // and works in ways you may not expect. See https://github.com/uuidjs/uuid/pull/434
    var uuid = (byteToHex[arr[offset + 0]] + byteToHex[arr[offset + 1]] + byteToHex[arr[offset + 2]] + byteToHex[arr[offset + 3]] + '-' + byteToHex[arr[offset + 4]] + byteToHex[arr[offset + 5]] + '-' + byteToHex[arr[offset + 6]] + byteToHex[arr[offset + 7]] + '-' + byteToHex[arr[offset + 8]] + byteToHex[arr[offset + 9]] + '-' + byteToHex[arr[offset + 10]] + byteToHex[arr[offset + 11]] + byteToHex[arr[offset + 12]] + byteToHex[arr[offset + 13]] + byteToHex[arr[offset + 14]] + byteToHex[arr[offset + 15]]).toLowerCase(); // Consistency check for valid UUID.  If this throws, it's likely due to one
    // of the following:
    // - One or more input array values don't map to a hex octet (leading to
    // "undefined" in the uuid)
    // - Invalid input values for the RFC `version` or `variant` fields

    if (!validate(uuid)) {
      throw TypeError('Stringified UUID is invalid');
    }

    return uuid;
  }

  function v4(options, buf, offset) {
    options = options || {};
    var rnds = options.random || (options.rng || rng)(); // Per 4.4, set bits for version and `clock_seq_hi_and_reserved`

    rnds[6] = rnds[6] & 0x0f | 0x40;
    rnds[8] = rnds[8] & 0x3f | 0x80; // Copy bytes to buffer, if provided

    if (buf) {
      offset = offset || 0;

      for (var i = 0; i < 16; ++i) {
        buf[offset + i] = rnds[i];
      }

      return buf;
    }

    return stringify(rnds);
  }

  function _createSuper(Derived) { var hasNativeReflectConstruct = _isNativeReflectConstruct(); return function _createSuperInternal() { var Super = _getPrototypeOf(Derived), result; if (hasNativeReflectConstruct) { var NewTarget = _getPrototypeOf(this).constructor; result = Reflect.construct(Super, arguments, NewTarget); } else { result = Super.apply(this, arguments); } return _possibleConstructorReturn(this, result); }; }

  function _isNativeReflectConstruct() { if (typeof Reflect === "undefined" || !Reflect.construct) return false; if (Reflect.construct.sham) return false; if (typeof Proxy === "function") return true; try { Boolean.prototype.valueOf.call(Reflect.construct(Boolean, [], function () {})); return true; } catch (e) { return false; } }
  var VDecoder = /*#__PURE__*/function (_EventEmitter) {
    _inherits(VDecoder, _EventEmitter);

    var _super = _createSuper(VDecoder);

    function VDecoder(_ref) {
      var _this;

      _ref.chunkSize;
          var _ref$maxChip = _ref.maxChip,
          maxChip = _ref$maxChip === void 0 ? 100 : _ref$maxChip;

      _classCallCheck(this, VDecoder);

      _this = _super.call(this); // this.cacheSegmentCount = cacheSegmentCount;
      // this.chunkSize = chunkSize;

      _this.cacheBuffer = [];
      _this.cacheBufferTotal = null;
      _this.worker = new WorkerFactory();

      _this.initWorker();

      _this.tempVideos = [];
      _this.ready = false;
      _this.decoding = false;
      _this.decodingId = null;
      _this.start = null;
      _this.maxChip = maxChip;
      return _this;
    }

    _createClass(VDecoder, [{
      key: "initWorker",
      value: function initWorker() {
        var _this2 = this;

        this.worker.addEventListener("message", function (e) {
          var message =
          /** @type {{type:string, width:number, height:number, data:ArrayBuffer, renderStateId:number}} */
          e.data;

          switch (message.type) {
            case "pictureReady":
              //   onPictureReady(message);
              // console.log(
              //   "[VDecoder]::decodeData",
              //   Object.assign(message, { clipId: this.decodingId })
              // );
              _this2.emit("decodeData", Object.assign(message, {
                clipId: _this2.decodingId
              }));

              if (_this2.decoding && _this2.decodingId) {
                _this2.decodeNext(_this2.decodingId);
              }

              break;

            case "decoderReady":
              _this2.ready = true;

              _this2.emit("ready");

              break;
          }
        });
      }
      /**
       *
       * @param {*} rangeArray array [2,100]
       */

    }, {
      key: "fetch",
      value: function (_fetch) {
        function fetch(_x) {
          return _fetch.apply(this, arguments);
        }

        fetch.toString = function () {
          return _fetch.toString();
        };

        return fetch;
      }(function (_ref2) {
        var _this3 = this;

        var path = _ref2.path,
            rangeArray = _ref2.range,
            _ref2$decode = _ref2.decode,
            decode = _ref2$decode === void 0 ? true : _ref2$decode;

        if (!this.ready) {
          throw new Error("decoder is not ready");
        }

        var url = path;

        if (!(isArray$1(rangeArray) && rangeArray.length === 2)) {
          throw new Error("range must is an array!");
        }

        if (this.tempVideos.length > this.maxChip) {
          this.flush();
          console.log("flush");
        }

        var rangeFetch = [];

        if (rangeArray[0] < 0 || rangeArray[1] < 0) {
          console.error("[VDecoder]:range: 非法", "".concat([rangeArray[0], rangeArray[1]]));
          return;
        }

        if (rangeArray[0] < rangeArray[1]) {
          rangeFetch = range$1(rangeArray[0], rangeArray[1] + 1);
          console.log("[VDecoder]:顺时 +", rangeFetch);
        } else {
          rangeFetch = range$1(rangeArray[1], rangeArray[0] + 1).reverse();
          console.log("[VDecoder]:逆时 -", rangeFetch);
        }

        var allFetch = rangeFetch.map(function (i) {
          return fetch("".concat(url, "/").concat(i)).then(function (response) {
            return response.arrayBuffer().then(function (buffer) {
              return new Uint8Array(buffer);
            });
          });
        });
        return Promise.all(allFetch).then(function (data) {
          var clip = {
            id: v4(),
            data: data
          };

          if (data.length > 0) {
            _this3.emit("fetchDone", clip);

            _this3.cacheBuffer = data.slice();

            _this3.tempVideos.push(clip);

            console.log("[VDecoder]:获取clip,", clip);

            if (decode) {
              _this3.start = Date.now();
              _this3.cacheBufferTotal = clip.data.length;

              _this3.decodeNext(clip.id);
            }

            return Promise.resolve(clip);
          } else {
            console.warn("[VDecoder]:fetch取帧为空", rangeFetch);
          }
        }).catch(function (error) {
          console.log("error", error);
        });
      }
      /**
       * @param {Uint8Array} h264Nal
       */
      )
    }, {
      key: "decode",
      value: function decode(h264Nal, id) {
        this.worker.postMessage({
          type: "decode",
          data: h264Nal.buffer,
          offset: h264Nal.byteOffset,
          length: h264Nal.byteLength,
          renderStateId: id
        }, [h264Nal.buffer]);
      }
    }, {
      key: "decodeNext",
      value: function decodeNext(clipId) {
        var _this4 = this;

        var nextFrame = this.cacheBuffer.shift();
        this.decodingId = clipId;
        this.decoding = true;
        var tempId = this.cacheBufferTotal - this.cacheBuffer.length - 1;

        if (nextFrame) {
          this.decode(nextFrame, tempId);
        } else {
          console.log("tempVideos", this.tempVideos.length);
          var clip = this.tempVideos.find(function (_ref3) {
            var id = _ref3.id;
            return id === _this4.decodingId;
          });

          if (clip) {
            var fps = 1000 / (Date.now() - this.start) * clip.data.length;
            console.log("Decoded ".concat(clip.data.length, " frames in ").concat(Date.now() - this.start, "ms @ ").concat(fps >> 0, "FPS"));
          } else {
            console.warn("不存在clip");
          }

          this.decoding = false; // this.decodingId = null;

          tempId = 0;
          clip && clip.id && this.emit("decodeDone", clip.id);
        }
      }
    }, {
      key: "flush",
      value: function flush() {
        this.tempVideos = [];
      }
    }, {
      key: "preloader",
      value: function preloader(preload) {}
    }], [{
      key: "isSupport",
      value: function isSupport() {
        return !!( // UC and Quark browser (iOS/Android) support wasm/asm limited,
        // its iOS version make wasm/asm performance very slow （maybe hook something）
        // its Android version removed support for wasm/asm, it just run pure javascript codes,
        // so it is very easy to cause memory leaks
        !/UCBrowser|Quark/.test(window.navigator.userAgent) && window.fetch && window.ReadableStream && window.Promise && window.URL && window.URL.createObjectURL && window.Blob && window.Worker && !!new Audio().canPlayType("audio/aac;").replace(/^no$/, "") && (window.AudioContext || window.webkitAudioContext));
      }
    }]);

    return VDecoder;
  }(eventemitter3);

  var ShaderProgram = /*#__PURE__*/function () {
    /**
     * @param {WebGLRenderingContext}gl
     */
    function ShaderProgram(gl) {
      _classCallCheck(this, ShaderProgram);

      this.gl = gl;
      this.program = this.gl.createProgram();
    }
    /**
     * @param {WebGLShader}shader
     */


    _createClass(ShaderProgram, [{
      key: "attach",
      value: function attach(shader) {
        this.gl.attachShader(this.program, shader);
      }
    }, {
      key: "link",
      value: function link() {
        this.gl.linkProgram(this.program); // If creating the shader program failed, alert.

        if (!this.gl.getProgramParameter(this.program, this.gl.LINK_STATUS)) {
          console.error('Unable to initialize the shader program.');
        }
      }
    }, {
      key: "use",
      value: function use() {
        this.gl.useProgram(this.program);
      }
      /**
       * @param {string}name
       * @return {number}
       */

    }, {
      key: "getAttributeLocation",
      value: function getAttributeLocation(name) {
        return this.gl.getAttribLocation(this.program, name);
      }
      /**
       * @param {string}name
       * @return {WebGLUniformLocation | null}
       */

    }, {
      key: "getUniformLocation",
      value: function getUniformLocation(name) {
        return this.gl.getUniformLocation(this.program, name);
      }
      /**
       * @param {WebGLUniformLocation}uniformLocation
       * @param {Array<number>}array
       */

    }, {
      key: "setUniformM4",
      value: function setUniformM4(uniformLocation, array) {
        this.gl.uniformMatrix4fv(uniformLocation, false, array);
      }
    }]);

    return ShaderProgram;
  }();

  /**
   * Represents a WebGL shader object and provides a mechanism to load shaders from HTML
   * script tags.
   */
  var ShaderCompiler = /*#__PURE__*/function () {
    function ShaderCompiler() {
      _classCallCheck(this, ShaderCompiler);
    }

    _createClass(ShaderCompiler, null, [{
      key: "compile",
      value:
      /**
       * @param {WebGLRenderingContext}gl
       * @param {{type: string, source: string}}script
       * @return {WebGLShader}
       */
      function compile(gl, script) {
        var shader; // Now figure out what type of shader script we have, based on its MIME type.

        if (script.type === 'x-shader/x-fragment') {
          shader = gl.createShader(gl.FRAGMENT_SHADER);
        } else if (script.type === 'x-shader/x-vertex') {
          shader = gl.createShader(gl.VERTEX_SHADER);
        } else {
          throw new Error('Unknown shader type: ' + script.type);
        } // Send the source to the shader object.


        gl.shaderSource(shader, script.source); // Compile the shader program.

        gl.compileShader(shader); // See if it compiled successfully.

        if (!gl.getShaderParameter(shader, gl.COMPILE_STATUS)) {
          throw new Error('An error occurred compiling the shaders: ' + gl.getShaderInfoLog(shader));
        }

        return shader;
      }
    }]);

    return ShaderCompiler;
  }();

  /**
   * @type {{type: string, source: string}}
   */
  var vertexQuad = {
    type: 'x-shader/x-vertex',
    source: "\n  precision mediump float;\n\n  uniform mat4 u_projection;\n  attribute vec2 a_position;\n  attribute vec2 a_texCoord;\n  varying vec2 v_texCoord;\n  void main(){\n      v_texCoord = a_texCoord;\n      gl_Position = u_projection * vec4(a_position, 0.0, 1.0);\n  }\n"
  };
  /**
   * @type {{type: string, source: string}}
   */

  var fragmentYUV = {
    type: 'x-shader/x-fragment',
    source: "\n  precision lowp float;\n  \n  varying vec2 v_texCoord;\n  \n  uniform sampler2D yTexture;\n  uniform sampler2D uTexture;\n  uniform sampler2D vTexture;\n    \n  const mat4 conversion = mat4(\n    1.0,     0.0,     1.402,  -0.701,\n    1.0,    -0.344,  -0.714,   0.529,\n    1.0,     1.772,   0.0,    -0.886,\n    0.0,     0.0,     0.0,     0.0\n  );\n\n  void main(void) {\n    float yChannel = texture2D(yTexture, v_texCoord).x;\n    float uChannel = texture2D(uTexture, v_texCoord).x;\n    float vChannel = texture2D(vTexture, v_texCoord).x;\n    vec4 channels = vec4(yChannel, uChannel, vChannel, 1.0);\n    vec3 rgb = (channels * conversion).xyz;\n    gl_FragColor = vec4(rgb, 1.0);\n  }\n"
  };

  var YUVSurfaceShader = /*#__PURE__*/function () {
    function YUVSurfaceShader(gl, vertexBuffer, shaderArgs, program) {
      _classCallCheck(this, YUVSurfaceShader);

      this.gl = gl;
      this.vertexBuffer = vertexBuffer;
      this.shaderArgs = shaderArgs;
      this.program = program;
    }
    /**
     *
     * @param {Texture} textureY
     * @param {Texture} textureU
     * @param {Texture} textureV
     */


    _createClass(YUVSurfaceShader, [{
      key: "setTexture",
      value: function setTexture(textureY, textureU, textureV) {
        var gl = this.gl;
        gl.uniform1i(this.shaderArgs.yTexture, 0);
        gl.uniform1i(this.shaderArgs.uTexture, 1);
        gl.uniform1i(this.shaderArgs.vTexture, 2);
        gl.activeTexture(gl.TEXTURE0);
        gl.bindTexture(gl.TEXTURE_2D, textureY.texture);
        gl.activeTexture(gl.TEXTURE1);
        gl.bindTexture(gl.TEXTURE_2D, textureU.texture);
        gl.activeTexture(gl.TEXTURE2);
        gl.bindTexture(gl.TEXTURE_2D, textureV.texture);
      }
    }, {
      key: "use",
      value: function use() {
        this.program.use();
      }
    }, {
      key: "release",
      value: function release() {
        var gl = this.gl;
        gl.useProgram(null);
      }
      /**
       * @param {{w:number, h:number}}encodedFrameSize
       * @param {{maxXTexCoord:number, maxYTexCoord:number}} h264RenderState
       */

    }, {
      key: "updateShaderData",
      value: function updateShaderData(encodedFrameSize, h264RenderState) {
        var w = encodedFrameSize.w,
            h = encodedFrameSize.h;
        this.gl.viewport(0, 0, w, h);
        this.program.setUniformM4(this.shaderArgs.u_projection, [2.0 / w, 0, 0, 0, 0, 2.0 / -h, 0, 0, 0, 0, 1, 0, -1, 1, 0, 1]);
        this.gl.bindBuffer(this.gl.ARRAY_BUFFER, this.vertexBuffer);
        this.gl.bufferData(this.gl.ARRAY_BUFFER, new Float32Array([// First triangle
        // top left:
        0, 0, 0, 0, // top right:
        w, 0, h264RenderState.maxXTexCoord, 0, // bottom right:
        w, h, h264RenderState.maxXTexCoord, h264RenderState.maxYTexCoord, // Second triangle
        // bottom right:
        w, h, h264RenderState.maxXTexCoord, h264RenderState.maxYTexCoord, // bottom left:
        0, h, 0, h264RenderState.maxYTexCoord, // top left:
        0, 0, 0, 0]), this.gl.DYNAMIC_DRAW);
        this.gl.vertexAttribPointer(this.shaderArgs.a_position, 2, this.gl.FLOAT, false, 16, 0);
        this.gl.vertexAttribPointer(this.shaderArgs.a_texCoord, 2, this.gl.FLOAT, false, 16, 8);
      }
    }, {
      key: "draw",
      value: function draw() {
        var gl = this.gl;
        gl.clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT | gl.STENCIL_BUFFER_BIT);
        gl.drawArrays(this.gl.TRIANGLE_STRIP, 0, 6);
        gl.bindTexture(gl.TEXTURE_2D, null);
      }
    }], [{
      key: "create",
      value:
      /**
       *
       * @param {WebGLRenderingContext} gl
       * @returns {YUVSurfaceShader}
       */
      function create(gl) {
        var program = this._initShaders(gl);

        var shaderArgs = this._initShaderArgs(gl, program);

        var vertexBuffer = this._initBuffers(gl);

        return new YUVSurfaceShader(gl, vertexBuffer, shaderArgs, program);
      }
    }, {
      key: "_initShaders",
      value: function _initShaders(gl) {
        var program = new ShaderProgram(gl);
        program.attach(ShaderCompiler.compile(gl, vertexQuad));
        program.attach(ShaderCompiler.compile(gl, fragmentYUV));
        program.link();
        program.use();
        return program;
      }
    }, {
      key: "_initShaderArgs",
      value: function _initShaderArgs(gl, program) {
        // find shader arguments
        var shaderArgs = {};
        shaderArgs.yTexture = program.getUniformLocation('yTexture');
        shaderArgs.uTexture = program.getUniformLocation('uTexture');
        shaderArgs.vTexture = program.getUniformLocation('vTexture');
        shaderArgs.u_projection = program.getUniformLocation('u_projection');
        shaderArgs.a_position = program.getAttributeLocation('a_position');
        gl.enableVertexAttribArray(shaderArgs.a_position);
        shaderArgs.a_texCoord = program.getAttributeLocation('a_texCoord');
        gl.enableVertexAttribArray(shaderArgs.a_texCoord);
        return shaderArgs;
      }
    }, {
      key: "_initBuffers",
      value: function _initBuffers(gl) {
        // Create vertex buffer object.
        return gl.createBuffer();
      }
    }]);

    return YUVSurfaceShader;
  }();

  // Copyright 2019 Erik De Rijcke
  //
  // This file is part of Greenfield.
  //
  // Greenfield is free software: you can redistribute it and/or modify
  // it under the terms of the GNU Affero General Public License as published by
  // the Free Software Foundation, either version 3 of the License, or
  // (at your option) any later version.
  //
  // Greenfield is distributed in the hope that it will be useful,
  // but WITHOUT ANY WARRANTY; without even the implied warranty of
  // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  // GNU Affero General Public License for more details.
  //
  // You should have received a copy of the GNU Affero General Public License
  // along with Greenfield.  If not, see <https://www.gnu.org/licenses/>.

  /**
   * Represents a WebGL texture object.
   */
  var Texture = /*#__PURE__*/function () {
    /**
     * Use Texture.create(..) instead.
     * @param {WebGLRenderingContext}gl
     * @param {number}format
     * @param {WebGLTexture}texture
     * @private
     */
    function Texture(gl, format, texture) {
      _classCallCheck(this, Texture);

      /**
       * @type {WebGLRenderingContext}
       */
      this.gl = gl;
      /**
       * @type {WebGLTexture}
       */

      this.texture = texture;
      /**
       * @type {number}
       */

      this.format = format;
    }
    /**
     * @param {!Uint8Array|HTMLVideoElement}buffer
     * @param {!Rect}geo
     * @param {number}stride
     */


    _createClass(Texture, [{
      key: "subImage2dBuffer",
      value: function subImage2dBuffer(buffer, x, y, width, height) {
        var gl = this.gl;
        gl.bindTexture(gl.TEXTURE_2D, this.texture);
        gl.texSubImage2D(gl.TEXTURE_2D, 0, x, y, width, height, this.format, gl.UNSIGNED_BYTE, buffer);
        gl.bindTexture(gl.TEXTURE_2D, null);
      }
      /**
       * @param {!Uint8Array|HTMLVideoElement}buffer
       * @param {number}width
       * @param {number}height
       */

    }, {
      key: "image2dBuffer",
      value: function image2dBuffer(buffer, width, height) {
        var gl = this.gl;
        gl.bindTexture(gl.TEXTURE_2D, this.texture);
        gl.texImage2D(gl.TEXTURE_2D, 0, this.format, width, height, 0, this.format, gl.UNSIGNED_BYTE, buffer);
        gl.bindTexture(gl.TEXTURE_2D, null);
      }
    }, {
      key: "delete",
      value: function _delete() {
        this.gl.deleteTexture(this.texture);
        this.texture = null;
      }
    }], [{
      key: "create",
      value:
      /**
       * @param {!WebGLRenderingContext}gl
       * @param {!number}format
       * @return {!Texture}
       */
      function create(gl, format) {
        var texture = gl.createTexture();
        gl.bindTexture(gl.TEXTURE_2D, texture);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE);
        gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE);
        gl.bindTexture(gl.TEXTURE_2D, null);
        return new Texture(gl, format, texture);
      }
    }]);

    return Texture;
  }();

  var canvas = null;
  var yuvSurfaceShader = null;
  var yTexture = null;
  var uTexture = null;
  var vTexture = null;

  function initWebGLCanvas() {
    canvas = document.createElement("canvas");
    canvas.id = "test_canvas";
    canvas.style = "position: fixed;top:0;left: 0;z-index: 100;";
    var gl = canvas.getContext("webgl");
    yuvSurfaceShader = YUVSurfaceShader.create(gl);
    yTexture = Texture.create(gl, gl.LUMINANCE);
    uTexture = Texture.create(gl, gl.LUMINANCE);
    vTexture = Texture.create(gl, gl.LUMINANCE);
    document.body.append(canvas);
  }

  function draw(buffer, width, height) {
    canvas.width = width;
    canvas.height = height; // the width & height returned are actually padded, so we have to use the frame size to get the real image dimension
    // when uploading to texture

    var stride = width; // stride
    // height is padded with filler rows
    // if we knew the size of the video before encoding, we could cut out the black filler pixels. We don't, so just set
    // it to the size after encoding

    var sourceWidth = width;
    var sourceHeight = height;
    var maxXTexCoord = sourceWidth / stride;
    var maxYTexCoord = sourceHeight / height;
    var lumaSize = stride * height;
    var chromaSize = lumaSize >> 2;
    var yBuffer = buffer.subarray(0, lumaSize);
    var uBuffer = buffer.subarray(lumaSize, lumaSize + chromaSize);
    var vBuffer = buffer.subarray(lumaSize + chromaSize, lumaSize + 2 * chromaSize); //   console.log("yBuffer", 1);
    //   window.updateTexture(yBuffer);

    var chromaHeight = height >> 1;
    var chromaStride = stride >> 1; // we upload the entire image, including stride padding & filler rows. The actual visible image will be mapped
    // from texture coordinates as to crop out stride padding & filler rows using maxXTexCoord and maxYTexCoord.

    yTexture.image2dBuffer(yBuffer, stride, height);
    uTexture.image2dBuffer(uBuffer, chromaStride, chromaHeight);
    vTexture.image2dBuffer(vBuffer, chromaStride, chromaHeight);
    yuvSurfaceShader.setTexture(yTexture, uTexture, vTexture);
    yuvSurfaceShader.updateShaderData({
      w: width,
      h: height
    }, {
      maxXTexCoord,
      maxYTexCoord
    }); // debugger
    // data = window.changeTexture(data);
    // window.updateTexture( data );

    yuvSurfaceShader.draw();
  }

  var socket = io("ws://192.168.0.150:3000", {
    reconnectionDelayMax: 10000
  });
  socket.on("connect", function (data) {
    console.log("socket connect");
  });
  var vDecoder = new VDecoder({
    maxChip: 100
  });
  vDecoder.on("ready", function () {
    console.log("ready"); // 测试canvas

    initWebGLCanvas(); //   vDecoder.fetch({
    //     path: "https://laser-data.oss-cn-shenzhen.aliyuncs.com/test-video/1011",
    //     range: [0, 66],
    //   });

    vDecoder.on("fetchDone", function (clip) {
      console.log("fetchDone", clip);
    }); //监听 decodeData

    vDecoder.on("decodeData", function (data) {
      // console.log("decodeData", data);
      var width = data.width,
          height = data.height,
          buffer = data.data;
      draw(new Uint8Array(buffer), width, height); // window.updateTexture( new Uint8Array(buffer) );
      // window.up
    });
    vDecoder.on("decodeDone", /*#__PURE__*/function () {
      var _ref = _asyncToGenerator( /*#__PURE__*/regenerator.mark(function _callee(id) {
        return regenerator.wrap(function _callee$(_context) {
          while (1) {
            switch (_context.prev = _context.next) {
              case 0:
                // vDecoder.fetch({
                //   path: "https://laser-data.oss-cn-shenzhen.aliyuncs.com/test-video/1011",
                //   range: [0, 66],
                // });
                // console.log("clipId", clipId);

              case 1:
              case "end":
                return _context.stop();
            }
          }
        }, _callee);
      }));

      return function (_x) {
        return _ref.apply(this, arguments);
      };
    }());
  });
  var rtc = new RTCPeerConnection();
  socket.on("offer", /*#__PURE__*/function () {
    var _ref2 = _asyncToGenerator( /*#__PURE__*/regenerator.mark(function _callee2(data) {
      var offer, answer;
      return regenerator.wrap(function _callee2$(_context2) {
        while (1) {
          switch (_context2.prev = _context2.next) {
            case 0:
              offer = new RTCSessionDescription({
                sdp: data.sdp,
                type: data.type
              });
              console.log("offer", offer);
              rtc.setRemoteDescription(offer);
              _context2.next = 6;
              return rtc.createAnswer();

            case 6:
              answer = _context2.sent;
              console.log("send-answer", answer);
              rtc.setLocalDescription(answer);
              socket.emit("answer", JSON.stringify(answer));

            case 10:
            case "end":
              return _context2.stop();
          }
        }
      }, _callee2);
    }));

    return function (_x2) {
      return _ref2.apply(this, arguments);
    };
  }());
  socket.on("candidate", function (data) {
    if (/172\./.test(data.candidate)) return;
    var candidate = new RTCIceCandidate(data);
    rtc.addIceCandidate(candidate);
    console.log("candidate", candidate);
  });

  rtc.ondatachannel = function (data) {
    console.log("DataChannel from ", data);
    var inputChannel = data.channel;

    inputChannel.onopen = function (data) {
      console.warn("onopen", data);
    };

    inputChannel.onmessage = function (data) {
      var id = 0;

      if (data.data) {
        var h264Nal = new Uint8Array(data.data); // console.warn("onmessage", data);

        vDecoder.worker.postMessage({
          type: "decode",
          data: h264Nal.buffer,
          offset: h264Nal.byteOffset,
          length: h264Nal.byteLength,
          renderStateId: id
        }, [h264Nal.buffer]);
        id++;
      }
    };

    inputChannel.onclose = function (data) {
      console.warn("onclose", data);
    };
  };

  console.log("rtc", rtc);

  rtc.oniceconnectionstatechange = function (data) {
    console.log("oniceconnectionstatechange", data);
  };

  rtc.onicegatheringstatechange = function (data) {
    console.log("onicegatheringstatechange", data);
  };

  rtc.onicecandidate = function (data) {
    console.log("onicecandidate", data);
    socket.emit("ice_candidate", data.candidate);
  };

}));
//# sourceMappingURL=video.js.map