swc/crates/swc_bundler/tests/.cache/deno/ca9220de99ceee497dfde4dbea20265f6d5e69e6.ts

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// Loaded from https://deno.land/x/graphql_deno@v15.0.0/lib/subscription/subscribe.js
import { SYMBOL_ASYNC_ITERATOR } from '../polyfills/symbols.js';
import inspect from '../jsutils/inspect.js';
import { addPath, pathToArray } from '../jsutils/Path.js';
import { GraphQLError } from '../error/GraphQLError.js';
import { locatedError } from '../error/locatedError.js';
import { assertValidExecutionArguments, buildExecutionContext, buildResolveInfo, collectFields, execute, getFieldDef, resolveFieldValueOrError } from '../execution/execute.js';
import { getOperationRootType } from '../utilities/getOperationRootType.js';
import mapAsyncIterator from './mapAsyncIterator.js';
export function subscribe(argsOrSchema, document, rootValue, contextValue, variableValues, operationName, fieldResolver, subscribeFieldResolver) {
/* eslint-enable no-redeclare */
// Extract arguments from object args if provided.
return arguments.length === 1 ? subscribeImpl(argsOrSchema) : subscribeImpl({
schema: argsOrSchema,
document,
rootValue,
contextValue,
variableValues,
operationName,
fieldResolver,
subscribeFieldResolver
});
}
/**
* This function checks if the error is a GraphQLError. If it is, report it as
* an ExecutionResult, containing only errors and no data. Otherwise treat the
* error as a system-class error and re-throw it.
*/
function reportGraphQLError(error) {
if (error instanceof GraphQLError) {
return {
errors: [error]
};
}
throw error;
}
function subscribeImpl(args) {
const {
schema,
document,
rootValue,
contextValue,
variableValues,
operationName,
fieldResolver,
subscribeFieldResolver
} = args;
const sourcePromise = createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, subscribeFieldResolver); // For each payload yielded from a subscription, map it over the normal
// GraphQL `execute` function, with `payload` as the rootValue.
// This implements the "MapSourceToResponseEvent" algorithm described in
// the GraphQL specification. The `execute` function provides the
// "ExecuteSubscriptionEvent" algorithm, as it is nearly identical to the
// "ExecuteQuery" algorithm, for which `execute` is also used.
const mapSourceToResponse = payload => execute({
schema,
document,
rootValue: payload,
contextValue,
variableValues,
operationName,
fieldResolver
}); // Resolve the Source Stream, then map every source value to a
// ExecutionResult value as described above.
return sourcePromise.then(resultOrStream => // Note: Flow can't refine isAsyncIterable, so explicit casts are used.
isAsyncIterable(resultOrStream) ? mapAsyncIterator(resultOrStream, mapSourceToResponse, reportGraphQLError) : resultOrStream);
}
/**
* Implements the "CreateSourceEventStream" algorithm described in the
* GraphQL specification, resolving the subscription source event stream.
*
* Returns a Promise which resolves to either an AsyncIterable (if successful)
* or an ExecutionResult (error). The promise will be rejected if the schema or
* other arguments to this function are invalid, or if the resolved event stream
* is not an async iterable.
*
* If the client-provided arguments to this function do not result in a
* compliant subscription, a GraphQL Response (ExecutionResult) with
* descriptive errors and no data will be returned.
*
* If the the source stream could not be created due to faulty subscription
* resolver logic or underlying systems, the promise will resolve to a single
* ExecutionResult containing `errors` and no `data`.
*
* If the operation succeeded, the promise resolves to the AsyncIterable for the
* event stream returned by the resolver.
*
* A Source Event Stream represents a sequence of events, each of which triggers
* a GraphQL execution for that event.
*
* This may be useful when hosting the stateful subscription service in a
* different process or machine than the stateless GraphQL execution engine,
* or otherwise separating these two steps. For more on this, see the
* "Supporting Subscriptions at Scale" information in the GraphQL specification.
*/
export function createSourceEventStream(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver) {
// If arguments are missing or incorrectly typed, this is an internal
// developer mistake which should throw an early error.
assertValidExecutionArguments(schema, document, variableValues);
try {
// If a valid context cannot be created due to incorrect arguments,
// this will throw an error.
const exeContext = buildExecutionContext(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver); // Return early errors if execution context failed.
if (Array.isArray(exeContext)) {
return Promise.resolve({
errors: exeContext
});
}
const type = getOperationRootType(schema, exeContext.operation);
const fields = collectFields(exeContext, type, exeContext.operation.selectionSet, Object.create(null), Object.create(null));
const responseNames = Object.keys(fields);
const responseName = responseNames[0];
const fieldNodes = fields[responseName];
const fieldNode = fieldNodes[0];
const fieldName = fieldNode.name.value;
const fieldDef = getFieldDef(schema, type, fieldName);
if (!fieldDef) {
throw new GraphQLError(`The subscription field "${fieldName}" is not defined.`, fieldNodes);
} // Call the `subscribe()` resolver or the default resolver to produce an
// AsyncIterable yielding raw payloads.
const resolveFn = fieldDef.subscribe ?? exeContext.fieldResolver;
const path = addPath(undefined, responseName);
const info = buildResolveInfo(exeContext, fieldDef, fieldNodes, type, path); // resolveFieldValueOrError implements the "ResolveFieldEventStream"
// algorithm from GraphQL specification. It differs from
// "ResolveFieldValue" due to providing a different `resolveFn`.
const result = resolveFieldValueOrError(exeContext, fieldDef, fieldNodes, resolveFn, rootValue, info); // Coerce to Promise for easier error handling and consistent return type.
return Promise.resolve(result).then(eventStream => {
// If eventStream is an Error, rethrow a located error.
if (eventStream instanceof Error) {
return {
errors: [locatedError(eventStream, fieldNodes, pathToArray(path))]
};
} // Assert field returned an event stream, otherwise yield an error.
if (isAsyncIterable(eventStream)) {
// Note: isAsyncIterable above ensures this will be correct.
return eventStream;
}
throw new Error('Subscription field must return Async Iterable. ' + `Received: ${inspect(eventStream)}.`);
});
} catch (error) {
// As with reportGraphQLError above, if the error is a GraphQLError, report
// it as an ExecutionResult; otherwise treat it as a system-class error and
// re-throw it.
return error instanceof GraphQLError ? Promise.resolve({
errors: [error]
}) : Promise.reject(error);
}
}
/**
* Returns true if the provided object implements the AsyncIterator protocol via
* either implementing a `Symbol.asyncIterator` or `"@@asyncIterator"` method.
*/
function isAsyncIterable(maybeAsyncIterable) {
if (maybeAsyncIterable == null || typeof maybeAsyncIterable !== 'object') {
return false;
}
return typeof maybeAsyncIterable[SYMBOL_ASYNC_ITERATOR] === 'function';
}