boilerplate/dist/index.18dbc454.js

// modules are defined as an array
// [ module function, map of requires ]
//
// map of requires is short require name -> numeric require
//
// anything defined in a previous bundle is accessed via the
// orig method which is the require for previous bundles

(function (modules, entry, mainEntry, parcelRequireName, globalName) {
  /* eslint-disable no-undef */
  var globalObject =
    typeof globalThis !== 'undefined'
      ? globalThis
      : typeof self !== 'undefined'
      ? self
      : typeof window !== 'undefined'
      ? window
      : typeof global !== 'undefined'
      ? global
      : {};
  /* eslint-enable no-undef */

  // Save the require from previous bundle to this closure if any
  var previousRequire =
    typeof globalObject[parcelRequireName] === 'function' &&
    globalObject[parcelRequireName];

  var cache = previousRequire.cache || {};
  // Do not use `require` to prevent Webpack from trying to bundle this call
  var nodeRequire =
    typeof module !== 'undefined' &&
    typeof module.require === 'function' &&
    module.require.bind(module);

  function newRequire(name, jumped) {
    if (!cache[name]) {
      if (!modules[name]) {
        // if we cannot find the module within our internal map or
        // cache jump to the current global require ie. the last bundle
        // that was added to the page.
        var currentRequire =
          typeof globalObject[parcelRequireName] === 'function' &&
          globalObject[parcelRequireName];
        if (!jumped && currentRequire) {
          return currentRequire(name, true);
        }

        // If there are other bundles on this page the require from the
        // previous one is saved to 'previousRequire'. Repeat this as
        // many times as there are bundles until the module is found or
        // we exhaust the require chain.
        if (previousRequire) {
          return previousRequire(name, true);
        }

        // Try the node require function if it exists.
        if (nodeRequire && typeof name === 'string') {
          return nodeRequire(name);
        }

        var err = new Error("Cannot find module '" + name + "'");
        err.code = 'MODULE_NOT_FOUND';
        throw err;
      }

      localRequire.resolve = resolve;
      localRequire.cache = {};

      var module = (cache[name] = new newRequire.Module(name));

      modules[name][0].call(
        module.exports,
        localRequire,
        module,
        module.exports,
        this
      );
    }

    return cache[name].exports;

    function localRequire(x) {
      var res = localRequire.resolve(x);
      return res === false ? {} : newRequire(res);
    }

    function resolve(x) {
      var id = modules[name][1][x];
      return id != null ? id : x;
    }
  }

  function Module(moduleName) {
    this.id = moduleName;
    this.bundle = newRequire;
    this.exports = {};
  }

  newRequire.isParcelRequire = true;
  newRequire.Module = Module;
  newRequire.modules = modules;
  newRequire.cache = cache;
  newRequire.parent = previousRequire;
  newRequire.register = function (id, exports) {
    modules[id] = [
      function (require, module) {
        module.exports = exports;
      },
      {},
    ];
  };

  Object.defineProperty(newRequire, 'root', {
    get: function () {
      return globalObject[parcelRequireName];
    },
  });

  globalObject[parcelRequireName] = newRequire;

  for (var i = 0; i < entry.length; i++) {
    newRequire(entry[i]);
  }

  if (mainEntry) {
    // Expose entry point to Node, AMD or browser globals
    // Based on https://github.com/ForbesLindesay/umd/blob/master/template.js
    var mainExports = newRequire(mainEntry);

    // CommonJS
    if (typeof exports === 'object' && typeof module !== 'undefined') {
      module.exports = mainExports;

      // RequireJS
    } else if (typeof define === 'function' && define.amd) {
      define(function () {
        return mainExports;
      });

      // <script>
    } else if (globalName) {
      this[globalName] = mainExports;
    }
  }
})({"kn9T2":[function(require,module,exports) {
var Refresh = require('react-refresh/runtime');
Refresh.injectIntoGlobalHook(window);
window.$RefreshReg$ = function() {};
window.$RefreshSig$ = function() {
    return function(type) {
        return type;
    };
};

},{"react-refresh/runtime":"786KC"}],"786KC":[function(require,module,exports) {
'use strict';
module.exports = require('./cjs/react-refresh-runtime.development.js');

},{"./cjs/react-refresh-runtime.development.js":"hdge7"}],"hdge7":[function(require,module,exports) {
/** @license React v0.9.0
 * react-refresh-runtime.development.js
 *
 * Copyright (c) Facebook, Inc. and its affiliates.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 */ 'use strict';
(function() {
    // ATTENTION
    // When adding new symbols to this file,
    // Please consider also adding to 'react-devtools-shared/src/backend/ReactSymbols'
    // The Symbol used to tag the ReactElement-like types. If there is no native Symbol
    // nor polyfill, then a plain number is used for performance.
    var REACT_ELEMENT_TYPE = 60103;
    var REACT_PORTAL_TYPE = 60106;
    var REACT_FRAGMENT_TYPE = 60107;
    var REACT_STRICT_MODE_TYPE = 60108;
    var REACT_PROFILER_TYPE = 60114;
    var REACT_PROVIDER_TYPE = 60109;
    var REACT_CONTEXT_TYPE = 60110;
    var REACT_FORWARD_REF_TYPE = 60112;
    var REACT_SUSPENSE_TYPE = 60113;
    var REACT_SUSPENSE_LIST_TYPE = 60120;
    var REACT_MEMO_TYPE = 60115;
    var REACT_LAZY_TYPE = 60116;
    var REACT_BLOCK_TYPE = 60121;
    var REACT_SERVER_BLOCK_TYPE = 60122;
    var REACT_FUNDAMENTAL_TYPE = 60117;
    var REACT_SCOPE_TYPE = 60119;
    var REACT_OPAQUE_ID_TYPE = 60128;
    var REACT_DEBUG_TRACING_MODE_TYPE = 60129;
    var REACT_OFFSCREEN_TYPE = 60130;
    var REACT_LEGACY_HIDDEN_TYPE = 60131;
    if (typeof Symbol === 'function' && Symbol.for) {
        var symbolFor = Symbol.for;
        REACT_ELEMENT_TYPE = symbolFor('react.element');
        REACT_PORTAL_TYPE = symbolFor('react.portal');
        REACT_FRAGMENT_TYPE = symbolFor('react.fragment');
        REACT_STRICT_MODE_TYPE = symbolFor('react.strict_mode');
        REACT_PROFILER_TYPE = symbolFor('react.profiler');
        REACT_PROVIDER_TYPE = symbolFor('react.provider');
        REACT_CONTEXT_TYPE = symbolFor('react.context');
        REACT_FORWARD_REF_TYPE = symbolFor('react.forward_ref');
        REACT_SUSPENSE_TYPE = symbolFor('react.suspense');
        REACT_SUSPENSE_LIST_TYPE = symbolFor('react.suspense_list');
        REACT_MEMO_TYPE = symbolFor('react.memo');
        REACT_LAZY_TYPE = symbolFor('react.lazy');
        REACT_BLOCK_TYPE = symbolFor('react.block');
        REACT_SERVER_BLOCK_TYPE = symbolFor('react.server.block');
        REACT_FUNDAMENTAL_TYPE = symbolFor('react.fundamental');
        REACT_SCOPE_TYPE = symbolFor('react.scope');
        REACT_OPAQUE_ID_TYPE = symbolFor('react.opaque.id');
        REACT_DEBUG_TRACING_MODE_TYPE = symbolFor('react.debug_trace_mode');
        REACT_OFFSCREEN_TYPE = symbolFor('react.offscreen');
        REACT_LEGACY_HIDDEN_TYPE = symbolFor('react.legacy_hidden');
    }
    var PossiblyWeakMap = typeof WeakMap === 'function' ? WeakMap : Map; // We never remove these associations.
    // It's OK to reference families, but use WeakMap/Set for types.
    var allFamiliesByID = new Map();
    var allFamiliesByType = new PossiblyWeakMap();
    var allSignaturesByType = new PossiblyWeakMap(); // This WeakMap is read by React, so we only put families
    // that have actually been edited here. This keeps checks fast.
    // $FlowIssue
    var updatedFamiliesByType = new PossiblyWeakMap(); // This is cleared on every performReactRefresh() call.
    // It is an array of [Family, NextType] tuples.
    var pendingUpdates = []; // This is injected by the renderer via DevTools global hook.
    var helpersByRendererID = new Map();
    var helpersByRoot = new Map(); // We keep track of mounted roots so we can schedule updates.
    var mountedRoots = new Set(); // If a root captures an error, we remember it so we can retry on edit.
    var failedRoots = new Set(); // In environments that support WeakMap, we also remember the last element for every root.
    // It needs to be weak because we do this even for roots that failed to mount.
    // If there is no WeakMap, we won't attempt to do retrying.
    // $FlowIssue
    var rootElements = typeof WeakMap === 'function' ? new WeakMap() : null;
    var isPerformingRefresh = false;
    function computeFullKey(signature) {
        if (signature.fullKey !== null) return signature.fullKey;
        var fullKey = signature.ownKey;
        var hooks;
        try {
            hooks = signature.getCustomHooks();
        } catch (err) {
            // This can happen in an edge case, e.g. if expression like Foo.useSomething
            // depends on Foo which is lazily initialized during rendering.
            // In that case just assume we'll have to remount.
            signature.forceReset = true;
            signature.fullKey = fullKey;
            return fullKey;
        }
        for(var i = 0; i < hooks.length; i++){
            var hook = hooks[i];
            if (typeof hook !== 'function') {
                // Something's wrong. Assume we need to remount.
                signature.forceReset = true;
                signature.fullKey = fullKey;
                return fullKey;
            }
            var nestedHookSignature = allSignaturesByType.get(hook);
            if (nestedHookSignature === undefined) continue;
            var nestedHookKey = computeFullKey(nestedHookSignature);
            if (nestedHookSignature.forceReset) signature.forceReset = true;
            fullKey += '\n---\n' + nestedHookKey;
        }
        signature.fullKey = fullKey;
        return fullKey;
    }
    function haveEqualSignatures(prevType, nextType) {
        var prevSignature = allSignaturesByType.get(prevType);
        var nextSignature = allSignaturesByType.get(nextType);
        if (prevSignature === undefined && nextSignature === undefined) return true;
        if (prevSignature === undefined || nextSignature === undefined) return false;
        if (computeFullKey(prevSignature) !== computeFullKey(nextSignature)) return false;
        if (nextSignature.forceReset) return false;
        return true;
    }
    function isReactClass(type) {
        return type.prototype && type.prototype.isReactComponent;
    }
    function canPreserveStateBetween(prevType, nextType) {
        if (isReactClass(prevType) || isReactClass(nextType)) return false;
        if (haveEqualSignatures(prevType, nextType)) return true;
        return false;
    }
    function resolveFamily(type) {
        // Only check updated types to keep lookups fast.
        return updatedFamiliesByType.get(type);
    } // If we didn't care about IE11, we could use new Map/Set(iterable).
    function cloneMap(map) {
        var clone = new Map();
        map.forEach(function(value, key) {
            clone.set(key, value);
        });
        return clone;
    }
    function cloneSet(set) {
        var clone = new Set();
        set.forEach(function(value) {
            clone.add(value);
        });
        return clone;
    }
    function performReactRefresh() {
        if (pendingUpdates.length === 0) return null;
        if (isPerformingRefresh) return null;
        isPerformingRefresh = true;
        try {
            var staleFamilies = new Set();
            var updatedFamilies = new Set();
            var updates = pendingUpdates;
            pendingUpdates = [];
            updates.forEach(function(_ref) {
                var family = _ref[0], nextType = _ref[1];
                // Now that we got a real edit, we can create associations
                // that will be read by the React reconciler.
                var prevType = family.current;
                updatedFamiliesByType.set(prevType, family);
                updatedFamiliesByType.set(nextType, family);
                family.current = nextType; // Determine whether this should be a re-render or a re-mount.
                if (canPreserveStateBetween(prevType, nextType)) updatedFamilies.add(family);
                else staleFamilies.add(family);
            }); // TODO: rename these fields to something more meaningful.
            var update = {
                updatedFamilies: updatedFamilies,
                // Families that will re-render preserving state
                staleFamilies: staleFamilies // Families that will be remounted
            };
            helpersByRendererID.forEach(function(helpers) {
                // Even if there are no roots, set the handler on first update.
                // This ensures that if *new* roots are mounted, they'll use the resolve handler.
                helpers.setRefreshHandler(resolveFamily);
            });
            var didError = false;
            var firstError = null; // We snapshot maps and sets that are mutated during commits.
            // If we don't do this, there is a risk they will be mutated while
            // we iterate over them. For example, trying to recover a failed root
            // may cause another root to be added to the failed list -- an infinite loop.
            var failedRootsSnapshot = cloneSet(failedRoots);
            var mountedRootsSnapshot = cloneSet(mountedRoots);
            var helpersByRootSnapshot = cloneMap(helpersByRoot);
            failedRootsSnapshot.forEach(function(root) {
                var helpers = helpersByRootSnapshot.get(root);
                if (helpers === undefined) throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');
                failedRoots.has(root);
                if (rootElements === null) return;
                if (!rootElements.has(root)) return;
                var element = rootElements.get(root);
                try {
                    helpers.scheduleRoot(root, element);
                } catch (err) {
                    if (!didError) {
                        didError = true;
                        firstError = err;
                    } // Keep trying other roots.
                }
            });
            mountedRootsSnapshot.forEach(function(root) {
                var helpers = helpersByRootSnapshot.get(root);
                if (helpers === undefined) throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');
                mountedRoots.has(root);
                try {
                    helpers.scheduleRefresh(root, update);
                } catch (err) {
                    if (!didError) {
                        didError = true;
                        firstError = err;
                    } // Keep trying other roots.
                }
            });
            if (didError) throw firstError;
            return update;
        } finally{
            isPerformingRefresh = false;
        }
    }
    function register(type, id) {
        if (type === null) return;
        if (typeof type !== 'function' && typeof type !== 'object') return;
         // This can happen in an edge case, e.g. if we register
        // return value of a HOC but it returns a cached component.
        // Ignore anything but the first registration for each type.
        if (allFamiliesByType.has(type)) return;
         // Create family or remember to update it.
        // None of this bookkeeping affects reconciliation
        // until the first performReactRefresh() call above.
        var family = allFamiliesByID.get(id);
        if (family === undefined) {
            family = {
                current: type
            };
            allFamiliesByID.set(id, family);
        } else pendingUpdates.push([
            family,
            type
        ]);
        allFamiliesByType.set(type, family); // Visit inner types because we might not have registered them.
        if (typeof type === 'object' && type !== null) switch(type.$$typeof){
            case REACT_FORWARD_REF_TYPE:
                register(type.render, id + '$render');
                break;
            case REACT_MEMO_TYPE:
                register(type.type, id + '$type');
                break;
        }
    }
    function setSignature(type, key) {
        var forceReset = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : false;
        var getCustomHooks = arguments.length > 3 ? arguments[3] : undefined;
        allSignaturesByType.set(type, {
            forceReset: forceReset,
            ownKey: key,
            fullKey: null,
            getCustomHooks: getCustomHooks || function() {
                return [];
            }
        });
    } // This is lazily called during first render for a type.
    // It captures Hook list at that time so inline requires don't break comparisons.
    function collectCustomHooksForSignature(type) {
        var signature = allSignaturesByType.get(type);
        if (signature !== undefined) computeFullKey(signature);
    }
    function getFamilyByID(id) {
        return allFamiliesByID.get(id);
    }
    function getFamilyByType(type) {
        return allFamiliesByType.get(type);
    }
    function findAffectedHostInstances(families) {
        var affectedInstances = new Set();
        mountedRoots.forEach(function(root) {
            var helpers = helpersByRoot.get(root);
            if (helpers === undefined) throw new Error('Could not find helpers for a root. This is a bug in React Refresh.');
            var instancesForRoot = helpers.findHostInstancesForRefresh(root, families);
            instancesForRoot.forEach(function(inst) {
                affectedInstances.add(inst);
            });
        });
        return affectedInstances;
    }
    function injectIntoGlobalHook(globalObject) {
        // For React Native, the global hook will be set up by require('react-devtools-core').
        // That code will run before us. So we need to monkeypatch functions on existing hook.
        // For React Web, the global hook will be set up by the extension.
        // This will also run before us.
        var hook = globalObject.__REACT_DEVTOOLS_GLOBAL_HOOK__;
        if (hook === undefined) {
            // However, if there is no DevTools extension, we'll need to set up the global hook ourselves.
            // Note that in this case it's important that renderer code runs *after* this method call.
            // Otherwise, the renderer will think that there is no global hook, and won't do the injection.
            var nextID = 0;
            globalObject.__REACT_DEVTOOLS_GLOBAL_HOOK__ = hook = {
                renderers: new Map(),
                supportsFiber: true,
                inject: function(injected) {
                    return nextID++;
                },
                onScheduleFiberRoot: function(id, root, children) {},
                onCommitFiberRoot: function(id, root, maybePriorityLevel, didError) {},
                onCommitFiberUnmount: function() {}
            };
        } // Here, we just want to get a reference to scheduleRefresh.
        var oldInject = hook.inject;
        hook.inject = function(injected) {
            var id = oldInject.apply(this, arguments);
            if (typeof injected.scheduleRefresh === 'function' && typeof injected.setRefreshHandler === 'function') // This version supports React Refresh.
            helpersByRendererID.set(id, injected);
            return id;
        }; // Do the same for any already injected roots.
        // This is useful if ReactDOM has already been initialized.
        // https://github.com/facebook/react/issues/17626
        hook.renderers.forEach(function(injected, id) {
            if (typeof injected.scheduleRefresh === 'function' && typeof injected.setRefreshHandler === 'function') // This version supports React Refresh.
            helpersByRendererID.set(id, injected);
        }); // We also want to track currently mounted roots.
        var oldOnCommitFiberRoot = hook.onCommitFiberRoot;
        var oldOnScheduleFiberRoot = hook.onScheduleFiberRoot || function() {};
        hook.onScheduleFiberRoot = function(id, root, children) {
            if (!isPerformingRefresh) {
                // If it was intentionally scheduled, don't attempt to restore.
                // This includes intentionally scheduled unmounts.
                failedRoots.delete(root);
                if (rootElements !== null) rootElements.set(root, children);
            }
            return oldOnScheduleFiberRoot.apply(this, arguments);
        };
        hook.onCommitFiberRoot = function(id, root, maybePriorityLevel, didError) {
            var helpers = helpersByRendererID.get(id);
            if (helpers === undefined) return;
            helpersByRoot.set(root, helpers);
            var current = root.current;
            var alternate = current.alternate; // We need to determine whether this root has just (un)mounted.
            // This logic is copy-pasted from similar logic in the DevTools backend.
            // If this breaks with some refactoring, you'll want to update DevTools too.
            if (alternate !== null) {
                var wasMounted = alternate.memoizedState != null && alternate.memoizedState.element != null;
                var isMounted = current.memoizedState != null && current.memoizedState.element != null;
                if (!wasMounted && isMounted) {
                    // Mount a new root.
                    mountedRoots.add(root);
                    failedRoots.delete(root);
                } else if (wasMounted && isMounted) ;
                else if (wasMounted && !isMounted) {
                    // Unmount an existing root.
                    mountedRoots.delete(root);
                    if (didError) // We'll remount it on future edits.
                    failedRoots.add(root);
                    else helpersByRoot.delete(root);
                } else if (!wasMounted && !isMounted) {
                    if (didError) // We'll remount it on future edits.
                    failedRoots.add(root);
                }
            } else // Mount a new root.
            mountedRoots.add(root);
            return oldOnCommitFiberRoot.apply(this, arguments);
        };
    }
    function hasUnrecoverableErrors() {
        // TODO: delete this after removing dependency in RN.
        return false;
    } // Exposed for testing.
    function _getMountedRootCount() {
        return mountedRoots.size;
    } // This is a wrapper over more primitive functions for setting signature.
    // Signatures let us decide whether the Hook order has changed on refresh.
    //
    // This function is intended to be used as a transform target, e.g.:
    // var _s = createSignatureFunctionForTransform()
    //
    // function Hello() {
    //   const [foo, setFoo] = useState(0);
    //   const value = useCustomHook();
    //   _s(); /* Second call triggers collecting the custom Hook list.
    //          * This doesn't happen during the module evaluation because we
    //          * don't want to change the module order with inline requires.
    //          * Next calls are noops. */
    //   return <h1>Hi</h1>;
    // }
    //
    // /* First call specifies the signature: */
    // _s(
    //   Hello,
    //   'useState{[foo, setFoo]}(0)',
    //   () => [useCustomHook], /* Lazy to avoid triggering inline requires */
    // );
    function createSignatureFunctionForTransform() {
        // We'll fill in the signature in two steps.
        // First, we'll know the signature itself. This happens outside the component.
        // Then, we'll know the references to custom Hooks. This happens inside the component.
        // After that, the returned function will be a fast path no-op.
        var status = 'needsSignature';
        var savedType;
        var hasCustomHooks;
        return function(type, key, forceReset, getCustomHooks) {
            switch(status){
                case 'needsSignature':
                    if (type !== undefined) {
                        // If we received an argument, this is the initial registration call.
                        savedType = type;
                        hasCustomHooks = typeof getCustomHooks === 'function';
                        setSignature(type, key, forceReset, getCustomHooks); // The next call we expect is from inside a function, to fill in the custom Hooks.
                        status = 'needsCustomHooks';
                    }
                    break;
                case 'needsCustomHooks':
                    if (hasCustomHooks) collectCustomHooksForSignature(savedType);
                    status = 'resolved';
                    break;
            }
            return type;
        };
    }
    function isLikelyComponentType(type) {
        switch(typeof type){
            case 'function':
                // First, deal with classes.
                if (type.prototype != null) {
                    if (type.prototype.isReactComponent) // React class.
                    return true;
                    var ownNames = Object.getOwnPropertyNames(type.prototype);
                    if (ownNames.length > 1 || ownNames[0] !== 'constructor') // This looks like a class.
                    return false;
                     // eslint-disable-next-line no-proto
                    if (type.prototype.__proto__ !== Object.prototype) // It has a superclass.
                    return false;
                     // Pass through.
                // This looks like a regular function with empty prototype.
                } // For plain functions and arrows, use name as a heuristic.
                var name = type.name || type.displayName;
                return typeof name === 'string' && /^[A-Z]/.test(name);
            case 'object':
                if (type != null) switch(type.$$typeof){
                    case REACT_FORWARD_REF_TYPE:
                    case REACT_MEMO_TYPE:
                        // Definitely React components.
                        return true;
                    default:
                        return false;
                }
                return false;
            default:
                return false;
        }
    }
    exports._getMountedRootCount = _getMountedRootCount;
    exports.collectCustomHooksForSignature = collectCustomHooksForSignature;
    exports.createSignatureFunctionForTransform = createSignatureFunctionForTransform;
    exports.findAffectedHostInstances = findAffectedHostInstances;
    exports.getFamilyByID = getFamilyByID;
    exports.getFamilyByType = getFamilyByType;
    exports.hasUnrecoverableErrors = hasUnrecoverableErrors;
    exports.injectIntoGlobalHook = injectIntoGlobalHook;
    exports.isLikelyComponentType = isLikelyComponentType;
    exports.performReactRefresh = performReactRefresh;
    exports.register = register;
    exports.setSignature = setSignature;
})();

},{}],"g9TDx":[function(require,module,exports) {
"use strict";
var HMR_HOST = null;
var HMR_PORT = null;
var HMR_SECURE = false;
var HMR_ENV_HASH = "d6ea1d42532a7575";
module.bundle.HMR_BUNDLE_ID = "0bcb44a518dbc454";
function _toConsumableArray(arr) {
    return _arrayWithoutHoles(arr) || _iterableToArray(arr) || _unsupportedIterableToArray(arr) || _nonIterableSpread();
}
function _nonIterableSpread() {
    throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
}
function _iterableToArray(iter) {
    if (typeof Symbol !== "undefined" && iter[Symbol.iterator] != null || iter["@@iterator"] != null) return Array.from(iter);
}
function _arrayWithoutHoles(arr) {
    if (Array.isArray(arr)) return _arrayLikeToArray(arr);
}
function _createForOfIteratorHelper(o, allowArrayLike) {
    var it = typeof Symbol !== "undefined" && o[Symbol.iterator] || o["@@iterator"];
    if (!it) {
        if (Array.isArray(o) || (it = _unsupportedIterableToArray(o)) || allowArrayLike && o && typeof o.length === "number") {
            if (it) o = it;
            var i = 0;
            var F = function F() {};
            return {
                s: F,
                n: function n() {
                    if (i >= o.length) return {
                        done: true
                    };
                    return {
                        done: false,
                        value: o[i++]
                    };
                },
                e: function e(_e) {
                    throw _e;
                },
                f: F
            };
        }
        throw new TypeError("Invalid attempt to iterate non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method.");
    }
    var normalCompletion = true, didErr = false, err;
    return {
        s: function s() {
            it = it.call(o);
        },
        n: function n() {
            var step = it.next();
            normalCompletion = step.done;
            return step;
        },
        e: function e(_e2) {
            didErr = true;
            err = _e2;
        },
        f: function f() {
            try {
                if (!normalCompletion && it.return != null) it.return();
            } finally{
                if (didErr) throw err;
            }
        }
    };
}
function _unsupportedIterableToArray(o, minLen) {
    if (!o) return;
    if (typeof o === "string") return _arrayLikeToArray(o, minLen);
    var n = Object.prototype.toString.call(o).slice(8, -1);
    if (n === "Object" && o.constructor) n = o.constructor.name;
    if (n === "Map" || n === "Set") return Array.from(o);
    if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen);
}
function _arrayLikeToArray(arr, len) {
    if (len == null || len > arr.length) len = arr.length;
    for(var i = 0, arr2 = new Array(len); i < len; i++)arr2[i] = arr[i];
    return arr2;
}
/* global HMR_HOST, HMR_PORT, HMR_ENV_HASH, HMR_SECURE */ /*::
import type {
  HMRAsset,
  HMRMessage,
} from '@parcel/reporter-dev-server/src/HMRServer.js';
interface ParcelRequire {
  (string): mixed;
  cache: {|[string]: ParcelModule|};
  hotData: mixed;
  Module: any;
  parent: ?ParcelRequire;
  isParcelRequire: true;
  modules: {|[string]: [Function, {|[string]: string|}]|};
  HMR_BUNDLE_ID: string;
  root: ParcelRequire;
}
interface ParcelModule {
  hot: {|
    data: mixed,
    accept(cb: (Function) => void): void,
    dispose(cb: (mixed) => void): void,
    // accept(deps: Array<string> | string, cb: (Function) => void): void,
    // decline(): void,
    _acceptCallbacks: Array<(Function) => void>,
    _disposeCallbacks: Array<(mixed) => void>,
  |};
}
declare var module: {bundle: ParcelRequire, ...};
declare var HMR_HOST: string;
declare var HMR_PORT: string;
declare var HMR_ENV_HASH: string;
declare var HMR_SECURE: boolean;
*/ var OVERLAY_ID = '__parcel__error__overlay__';
var OldModule = module.bundle.Module;
function Module(moduleName) {
    OldModule.call(this, moduleName);
    this.hot = {
        data: module.bundle.hotData,
        _acceptCallbacks: [],
        _disposeCallbacks: [],
        accept: function accept(fn) {
            this._acceptCallbacks.push(fn || function() {});
        },
        dispose: function dispose(fn) {
            this._disposeCallbacks.push(fn);
        }
    };
    module.bundle.hotData = undefined;
}
module.bundle.Module = Module;
var checkedAssets, acceptedAssets, assetsToAccept /*: Array<[ParcelRequire, string]> */ ;
function getHostname() {
    return HMR_HOST || (location.protocol.indexOf('http') === 0 ? location.hostname : 'localhost');
}
function getPort() {
    return HMR_PORT || location.port;
} // eslint-disable-next-line no-redeclare
var parent = module.bundle.parent;
if ((!parent || !parent.isParcelRequire) && typeof WebSocket !== 'undefined') {
    var hostname = getHostname();
    var port = getPort();
    var protocol = HMR_SECURE || location.protocol == 'https:' && !/localhost|127.0.0.1|0.0.0.0/.test(hostname) ? 'wss' : 'ws';
    var ws = new WebSocket(protocol + '://' + hostname + (port ? ':' + port : '') + '/'); // $FlowFixMe
    ws.onmessage = function(event) {
        checkedAssets = {} /*: {|[string]: boolean|} */ ;
        acceptedAssets = {} /*: {|[string]: boolean|} */ ;
        assetsToAccept = [];
        var data = JSON.parse(event.data);
        if (data.type === 'update') {
            // Remove error overlay if there is one
            if (typeof document !== 'undefined') removeErrorOverlay();
            var assets = data.assets.filter(function(asset) {
                return asset.envHash === HMR_ENV_HASH;
            }); // Handle HMR Update
            var handled = assets.every(function(asset) {
                return asset.type === 'css' || asset.type === 'js' && hmrAcceptCheck(module.bundle.root, asset.id, asset.depsByBundle);
            });
            if (handled) {
                console.clear();
                assets.forEach(function(asset) {
                    hmrApply(module.bundle.root, asset);
                });
                for(var i = 0; i < assetsToAccept.length; i++){
                    var id = assetsToAccept[i][1];
                    if (!acceptedAssets[id]) hmrAcceptRun(assetsToAccept[i][0], id);
                }
            } else window.location.reload();
        }
        if (data.type === 'error') {
            // Log parcel errors to console
            var _iterator = _createForOfIteratorHelper(data.diagnostics.ansi), _step;
            try {
                for(_iterator.s(); !(_step = _iterator.n()).done;){
                    var ansiDiagnostic = _step.value;
                    var stack = ansiDiagnostic.codeframe ? ansiDiagnostic.codeframe : ansiDiagnostic.stack;
                    console.error('🚨 [parcel]: ' + ansiDiagnostic.message + '\n' + stack + '\n\n' + ansiDiagnostic.hints.join('\n'));
                }
            } catch (err) {
                _iterator.e(err);
            } finally{
                _iterator.f();
            }
            if (typeof document !== 'undefined') {
                // Render the fancy html overlay
                removeErrorOverlay();
                var overlay = createErrorOverlay(data.diagnostics.html); // $FlowFixMe
                document.body.appendChild(overlay);
            }
        }
    };
    ws.onerror = function(e) {
        console.error(e.message);
    };
    ws.onclose = function() {
        console.warn('[parcel] 🚨 Connection to the HMR server was lost');
    };
}
function removeErrorOverlay() {
    var overlay = document.getElementById(OVERLAY_ID);
    if (overlay) {
        overlay.remove();
        console.log('[parcel] ✨ Error resolved');
    }
}
function createErrorOverlay(diagnostics) {
    var overlay = document.createElement('div');
    overlay.id = OVERLAY_ID;
    var errorHTML = '<div style="background: black; opacity: 0.85; font-size: 16px; color: white; position: fixed; height: 100%; width: 100%; top: 0px; left: 0px; padding: 30px; font-family: Menlo, Consolas, monospace; z-index: 9999;">';
    var _iterator2 = _createForOfIteratorHelper(diagnostics), _step2;
    try {
        for(_iterator2.s(); !(_step2 = _iterator2.n()).done;){
            var diagnostic = _step2.value;
            var stack = diagnostic.codeframe ? diagnostic.codeframe : diagnostic.stack;
            errorHTML += "\n      <div>\n        <div style=\"font-size: 18px; font-weight: bold; margin-top: 20px;\">\n          \uD83D\uDEA8 ".concat(diagnostic.message, "\n        </div>\n        <pre>").concat(stack, "</pre>\n        <div>\n          ").concat(diagnostic.hints.map(function(hint) {
                return '<div>💡 ' + hint + '</div>';
            }).join(''), "\n        </div>\n        ").concat(diagnostic.documentation ? "<div>\uD83D\uDCDD <a style=\"color: violet\" href=\"".concat(diagnostic.documentation, "\" target=\"_blank\">Learn more</a></div>") : '', "\n      </div>\n    ");
        }
    } catch (err) {
        _iterator2.e(err);
    } finally{
        _iterator2.f();
    }
    errorHTML += '</div>';
    overlay.innerHTML = errorHTML;
    return overlay;
}
function getParents(bundle, id) /*: Array<[ParcelRequire, string]> */ {
    var modules = bundle.modules;
    if (!modules) return [];
    var parents = [];
    var k, d, dep;
    for(k in modules)for(d in modules[k][1]){
        dep = modules[k][1][d];
        if (dep === id || Array.isArray(dep) && dep[dep.length - 1] === id) parents.push([
            bundle,
            k
        ]);
    }
    if (bundle.parent) parents = parents.concat(getParents(bundle.parent, id));
    return parents;
}
function updateLink(link) {
    var newLink = link.cloneNode();
    newLink.onload = function() {
        if (link.parentNode !== null) // $FlowFixMe
        link.parentNode.removeChild(link);
    };
    newLink.setAttribute('href', link.getAttribute('href').split('?')[0] + '?' + Date.now()); // $FlowFixMe
    link.parentNode.insertBefore(newLink, link.nextSibling);
}
var cssTimeout = null;
function reloadCSS() {
    if (cssTimeout) return;
    cssTimeout = setTimeout(function() {
        var links = document.querySelectorAll('link[rel="stylesheet"]');
        for(var i = 0; i < links.length; i++){
            // $FlowFixMe[incompatible-type]
            var href = links[i].getAttribute('href');
            var hostname = getHostname();
            var servedFromHMRServer = hostname === 'localhost' ? new RegExp('^(https?:\\/\\/(0.0.0.0|127.0.0.1)|localhost):' + getPort()).test(href) : href.indexOf(hostname + ':' + getPort());
            var absolute = /^https?:\/\//i.test(href) && href.indexOf(window.location.origin) !== 0 && !servedFromHMRServer;
            if (!absolute) updateLink(links[i]);
        }
        cssTimeout = null;
    }, 50);
}
function hmrApply(bundle, asset) {
    var modules = bundle.modules;
    if (!modules) return;
    if (asset.type === 'css') reloadCSS();
    else if (asset.type === 'js') {
        var deps = asset.depsByBundle[bundle.HMR_BUNDLE_ID];
        if (deps) {
            if (modules[asset.id]) {
                // Remove dependencies that are removed and will become orphaned.
                // This is necessary so that if the asset is added back again, the cache is gone, and we prevent a full page reload.
                var oldDeps = modules[asset.id][1];
                for(var dep in oldDeps)if (!deps[dep] || deps[dep] !== oldDeps[dep]) {
                    var id = oldDeps[dep];
                    var parents = getParents(module.bundle.root, id);
                    if (parents.length === 1) hmrDelete(module.bundle.root, id);
                }
            }
            var fn = new Function('require', 'module', 'exports', asset.output);
            modules[asset.id] = [
                fn,
                deps
            ];
        } else if (bundle.parent) hmrApply(bundle.parent, asset);
    }
}
function hmrDelete(bundle, id1) {
    var modules = bundle.modules;
    if (!modules) return;
    if (modules[id1]) {
        // Collect dependencies that will become orphaned when this module is deleted.
        var deps = modules[id1][1];
        var orphans = [];
        for(var dep in deps){
            var parents = getParents(module.bundle.root, deps[dep]);
            if (parents.length === 1) orphans.push(deps[dep]);
        } // Delete the module. This must be done before deleting dependencies in case of circular dependencies.
        delete modules[id1];
        delete bundle.cache[id1]; // Now delete the orphans.
        orphans.forEach(function(id) {
            hmrDelete(module.bundle.root, id);
        });
    } else if (bundle.parent) hmrDelete(bundle.parent, id1);
}
function hmrAcceptCheck(bundle, id, depsByBundle) {
    if (hmrAcceptCheckOne(bundle, id, depsByBundle)) return true;
     // Traverse parents breadth first. All possible ancestries must accept the HMR update, or we'll reload.
    var parents = getParents(module.bundle.root, id);
    var accepted = false;
    while(parents.length > 0){
        var v = parents.shift();
        var a = hmrAcceptCheckOne(v[0], v[1], null);
        if (a) // If this parent accepts, stop traversing upward, but still consider siblings.
        accepted = true;
        else {
            // Otherwise, queue the parents in the next level upward.
            var p = getParents(module.bundle.root, v[1]);
            if (p.length === 0) {
                // If there are no parents, then we've reached an entry without accepting. Reload.
                accepted = false;
                break;
            }
            parents.push.apply(parents, _toConsumableArray(p));
        }
    }
    return accepted;
}
function hmrAcceptCheckOne(bundle, id, depsByBundle) {
    var modules = bundle.modules;
    if (!modules) return;
    if (depsByBundle && !depsByBundle[bundle.HMR_BUNDLE_ID]) {
        // If we reached the root bundle without finding where the asset should go,
        // there's nothing to do. Mark as "accepted" so we don't reload the page.
        if (!bundle.parent) return true;
        return hmrAcceptCheck(bundle.parent, id, depsByBundle);
    }
    if (checkedAssets[id]) return true;
    checkedAssets[id] = true;
    var cached = bundle.cache[id];
    assetsToAccept.push([
        bundle,
        id
    ]);
    if (!cached || cached.hot && cached.hot._acceptCallbacks.length) return true;
}
function hmrAcceptRun(bundle, id) {
    var cached = bundle.cache[id];
    bundle.hotData = {};
    if (cached && cached.hot) cached.hot.data = bundle.hotData;
    if (cached && cached.hot && cached.hot._disposeCallbacks.length) cached.hot._disposeCallbacks.forEach(function(cb) {
        cb(bundle.hotData);
    });
    delete bundle.cache[id];
    bundle(id);
    cached = bundle.cache[id];
    if (cached && cached.hot && cached.hot._acceptCallbacks.length) cached.hot._acceptCallbacks.forEach(function(cb) {
        var assetsToAlsoAccept = cb(function() {
            return getParents(module.bundle.root, id);
        });
        if (assetsToAlsoAccept && assetsToAccept.length) // $FlowFixMe[method-unbinding]
        assetsToAccept.push.apply(assetsToAccept, assetsToAlsoAccept);
    });
    acceptedAssets[id] = true;
}

},{}],"1SICI":[function(require,module,exports) {

},{}]},["kn9T2","g9TDx","1SICI"], "1SICI", "parcelRequire9b8f")

//# sourceMappingURL=index.18dbc454.js.map