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Top 10 Examples of "optimism in functional component" in JavaScript

Dive into secure and efficient coding practices with our curated list of the top 10 examples showcasing 'optimism' in functional components in JavaScript. Our advanced machine learning engine meticulously scans each line of code, cross-referencing millions of open source libraries to ensure your implementation is not just functional, but also robust and secure. Elevate your React applications to new heights by mastering the art of handling side effects, API calls, and asynchronous operations with confidence and precision.

// The result of executeStoreQuery can be safely cached only if the
        // underlying store is capable of tracking dependencies and invalidating
        // the cache when relevant data have changed.
        if (contextValue.store instanceof DepTrackingCache) {
          return cacheKeyRoot.lookup(
            contextValue.store,
            query,
            fragmentMatcher,
            JSON.stringify(variableValues),
            rootValue.id,
          );
        }
      }
    });

    this.executeSelectionSet = wrap((options: ExecSelectionSetOptions) => {
      return executeSelectionSet.call(this, options);
    }, {
      makeCacheKey({
        selectionSet,
        rootValue,
        execContext,
      }: ExecSelectionSetOptions) {
        if (execContext.contextValue.store instanceof DepTrackingCache) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            selectionSet,
            execContext.fragmentMatcher,
            JSON.stringify(execContext.variableValues),
            rootValue.id,
          );
        }
constructor({
    cacheKeyRoot = new KeyTrie(canUseWeakMap),
    freezeResults = false,
  }: StoreReaderConfig = {}) {
    const {
      executeStoreQuery,
      executeSelectionSet,
      executeSubSelectedArray,
    } = this;

    this.freezeResults = freezeResults;

    this.executeStoreQuery = wrap((options: ExecStoreQueryOptions) => {
      return executeStoreQuery.call(this, options);
    }, {
      makeCacheKey({
        query,
        rootValue,
        contextValue,
        variableValues,
        fragmentMatcher,
      }: ExecStoreQueryOptions) {
        // The result of executeStoreQuery can be safely cached only if the
        // underlying store is capable of tracking dependencies and invalidating
        // the cache when relevant data have changed.
        if (contextValue.store instanceof DepTrackingCache) {
          return cacheKeyRoot.lookup(
            contextValue.store,
            query,
// When no optimistic writes are currently active, cache.optimisticData ===
    // cache.data, so there are no additional layers on top of the actual data.
    // When an optimistic update happens, this.optimisticData will become a
    // linked list of OptimisticCacheLayer objects that terminates with the
    // original this.data cache object.
    this.optimisticData = this.data;

    this.storeWriter = new StoreWriter();
    this.storeReader = new StoreReader({
      cacheKeyRoot: this.cacheKeyRoot,
      freezeResults: config.freezeResults,
    });

    const cache = this;
    const { maybeBroadcastWatch } = cache;
    this.maybeBroadcastWatch = wrap((c: Cache.WatchOptions) => {
      return maybeBroadcastWatch.call(this, c);
    }, {
      makeCacheKey(c: Cache.WatchOptions) {
        if (c.optimistic) {
          // If we're reading optimistic data, it doesn't matter if this.data
          // is a DepTrackingCache, since it will be ignored.
          return;
        }

        if (c.previousResult) {
          // If a previousResult was provided, assume the caller would prefer
          // to compare the previous data to the new data to determine whether
          // to broadcast, so we should disable caching by returning here, to
          // give maybeBroadcastWatch a chance to do that comparison.
          return;
        }
}
    }

    if (storeFieldName === void 0) {
      storeFieldName = storeKeyNameFromField(field, variables);
    }

    // Make sure custom field names start with the actual field.name.value
    // of the field, so we can always figure out which properties of a
    // StoreObject correspond to which original field names.
    return fieldName === fieldNameFromStoreName(storeFieldName)
      ? storeFieldName
      : fieldName + ":" + storeFieldName;
  }

  private storageTrie = new KeyTrie(true);
  private fieldDep = dep();

  public readField(
    objectOrReference: StoreObject | Reference,
    nameOrField: string | FieldNode,
    getFieldValue: FieldValueGetter,
    variables?: Record,
    typename = getFieldValue(objectOrReference, "__typename"),
  ): Readonly {
    const policies = this;
    const storeFieldName = typeof nameOrField === "string" ? nameOrField
      : policies.getStoreFieldName(typename, nameOrField, variables);
    const fieldName = fieldNameFromStoreName(storeFieldName);
    const existing = getFieldValue(objectOrReference, storeFieldName);
    const policy = policies.getFieldPolicy(typename, fieldName, false);
    const read = policy && policy.read;
? this.data[dataId]
      : this.parent.get(dataId);
  }
}

export class InMemoryCache extends ApolloCache {
  private data: NormalizedCache;
  private optimisticData: NormalizedCache;

  protected config: InMemoryCacheConfig;
  private watches = new Set();
  private addTypename: boolean;
  private typenameDocumentCache = new Map();
  private storeReader: StoreReader;
  private storeWriter: StoreWriter;
  private cacheKeyRoot = new KeyTrie(canUseWeakMap);

  // Set this while in a transaction to prevent broadcasts...
  // don't forget to turn it back on!
  private silenceBroadcast: boolean = false;

  constructor(config: InMemoryCacheConfig = {}) {
    super();
    this.config = { ...defaultConfig, ...config };

    // backwards compat
    if ((this.config as any).customResolvers) {
      invariant.warn(
        'customResolvers have been renamed to cacheRedirects. Please update your config as we will be deprecating customResolvers in the next major version.',
      );
      this.config.cacheRedirects = (this.config as any).customResolvers;
    }
rootValue,
        execContext,
      }: ExecSelectionSetOptions) {
        if (execContext.contextValue.store instanceof DepTrackingCache) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            selectionSet,
            execContext.fragmentMatcher,
            JSON.stringify(execContext.variableValues),
            rootValue.id,
          );
        }
      }
    });

    this.executeSubSelectedArray = wrap((options: ExecSubSelectedArrayOptions) => {
      return executeSubSelectedArray.call(this, options);
    }, {
      makeCacheKey({ field, array, execContext }) {
        if (execContext.contextValue.store instanceof DepTrackingCache) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            field,
            array,
            JSON.stringify(execContext.variableValues),
          );
        }
      }
    });
  }
const cacheKeyRoot =
      config && config.cacheKeyRoot || new KeyTrie(canUseWeakMap);

    this.config = {
      addTypename: true,
      cacheKeyRoot,
      ...config,
    };

    const {
      executeStoreQuery,
      executeSelectionSet,
      executeSubSelectedArray,
    } = this;

    this.executeStoreQuery = wrap((options: ExecStoreQueryOptions) => {
      return executeStoreQuery.call(this, options);
    }, {
      makeCacheKey({
        query,
        objectOrReference,
        contextValue,
        variableValues,
      }: ExecStoreQueryOptions) {
        if (supportsResultCaching(contextValue.store)) {
          return cacheKeyRoot.lookup(
            contextValue.store,
            query,
            JSON.stringify(variableValues),
            isReference(objectOrReference) ? objectOrReference.__ref : objectOrReference,
          );
        }
constructor(private data: NormalizedCacheObject = Object.create(null)) {
    this.depend = wrap((dataId: string) => this.data[dataId], {
      disposable: true,
      makeCacheKey(dataId: string) {
        return dataId;
      },
    });
  }
objectOrReference,
        contextValue,
        variableValues,
      }: ExecStoreQueryOptions) {
        if (supportsResultCaching(contextValue.store)) {
          return cacheKeyRoot.lookup(
            contextValue.store,
            query,
            JSON.stringify(variableValues),
            isReference(objectOrReference) ? objectOrReference.__ref : objectOrReference,
          );
        }
      }
    });

    this.executeSelectionSet = wrap((options: ExecSelectionSetOptions) => {
      return executeSelectionSet.call(this, options);
    }, {
      makeCacheKey({
        selectionSet,
        objectOrReference,
        execContext,
      }: ExecSelectionSetOptions) {
        if (supportsResultCaching(execContext.contextValue.store)) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            selectionSet,
            JSON.stringify(execContext.variableValues),
            isReference(objectOrReference) ? objectOrReference.__ref : objectOrReference,
          );
        }
      }
selectionSet,
        objectOrReference,
        execContext,
      }: ExecSelectionSetOptions) {
        if (supportsResultCaching(execContext.contextValue.store)) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            selectionSet,
            JSON.stringify(execContext.variableValues),
            isReference(objectOrReference) ? objectOrReference.__ref : objectOrReference,
          );
        }
      }
    });

    this.executeSubSelectedArray = wrap((options: ExecSubSelectedArrayOptions) => {
      return executeSubSelectedArray.call(this, options);
    }, {
      makeCacheKey({ field, array, execContext }) {
        if (supportsResultCaching(execContext.contextValue.store)) {
          return cacheKeyRoot.lookup(
            execContext.contextValue.store,
            field,
            array,
            JSON.stringify(execContext.variableValues),
          );
        }
      }
    });
  }

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