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swc_bundler: - [x] Fix wrapped esms. (denoland/deno#9307) - [x] Make test secure.
812 lines
27 KiB
TypeScript
812 lines
27 KiB
TypeScript
// Loaded from https://deno.land/x/graphql_deno@v15.0.0/lib/execution/execute.js
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import arrayFrom from '../polyfills/arrayFrom.js';
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import inspect from '../jsutils/inspect.js';
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import memoize3 from '../jsutils/memoize3.js';
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import invariant from '../jsutils/invariant.js';
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import devAssert from '../jsutils/devAssert.js';
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import isPromise from '../jsutils/isPromise.js';
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import isObjectLike from '../jsutils/isObjectLike.js';
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import isCollection from '../jsutils/isCollection.js';
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import promiseReduce from '../jsutils/promiseReduce.js';
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import promiseForObject from '../jsutils/promiseForObject.js';
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import { addPath, pathToArray } from '../jsutils/Path.js';
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import { GraphQLError } from '../error/GraphQLError.js';
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import { locatedError } from '../error/locatedError.js';
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import { Kind } from '../language/kinds.js';
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import { assertValidSchema } from '../type/validate.js';
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import { SchemaMetaFieldDef, TypeMetaFieldDef, TypeNameMetaFieldDef } from '../type/introspection.js';
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import { GraphQLIncludeDirective, GraphQLSkipDirective } from '../type/directives.js';
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import { isObjectType, isAbstractType, isLeafType, isListType, isNonNullType } from '../type/definition.js';
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import { typeFromAST } from '../utilities/typeFromAST.js';
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import { getOperationRootType } from '../utilities/getOperationRootType.js';
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import { getVariableValues, getArgumentValues, getDirectiveValues } from './values.js';
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/**
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* Terminology
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*
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* "Definitions" are the generic name for top-level statements in the document.
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* Examples of this include:
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* 1) Operations (such as a query)
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* 2) Fragments
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*
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* "Operations" are a generic name for requests in the document.
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* Examples of this include:
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* 1) query,
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* 2) mutation
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*
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* "Selections" are the definitions that can appear legally and at
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* single level of the query. These include:
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* 1) field references e.g "a"
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* 2) fragment "spreads" e.g. "...c"
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* 3) inline fragment "spreads" e.g. "...on Type { a }"
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*/
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/**
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* Data that must be available at all points during query execution.
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*
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* Namely, schema of the type system that is currently executing,
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* and the fragments defined in the query document
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*/
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export function execute(argsOrSchema, document, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver) {
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/* eslint-enable no-redeclare */
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// Extract arguments from object args if provided.
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return arguments.length === 1 ? executeImpl(argsOrSchema) : executeImpl({
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schema: argsOrSchema,
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document,
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rootValue,
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contextValue,
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variableValues,
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operationName,
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fieldResolver,
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typeResolver
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});
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}
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function executeImpl(args) {
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const {
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schema,
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document,
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rootValue,
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contextValue,
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variableValues,
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operationName,
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fieldResolver,
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typeResolver
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} = args; // If arguments are missing or incorrect, throw an error.
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assertValidExecutionArguments(schema, document, variableValues); // If a valid execution context cannot be created due to incorrect arguments,
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// a "Response" with only errors is returned.
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const exeContext = buildExecutionContext(schema, document, rootValue, contextValue, variableValues, operationName, fieldResolver, typeResolver); // Return early errors if execution context failed.
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if (Array.isArray(exeContext)) {
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return {
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errors: exeContext
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};
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} // Return a Promise that will eventually resolve to the data described by
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// The "Response" section of the GraphQL specification.
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//
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// If errors are encountered while executing a GraphQL field, only that
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// field and its descendants will be omitted, and sibling fields will still
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// be executed. An execution which encounters errors will still result in a
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// resolved Promise.
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const data = executeOperation(exeContext, exeContext.operation, rootValue);
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return buildResponse(exeContext, data);
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}
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/**
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* Given a completed execution context and data, build the { errors, data }
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* response defined by the "Response" section of the GraphQL specification.
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*/
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function buildResponse(exeContext, data) {
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if (isPromise(data)) {
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return data.then(resolved => buildResponse(exeContext, resolved));
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}
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return exeContext.errors.length === 0 ? {
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data
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} : {
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errors: exeContext.errors,
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data
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};
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}
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/**
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* Essential assertions before executing to provide developer feedback for
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* improper use of the GraphQL library.
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*
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* @internal
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*/
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export function assertValidExecutionArguments(schema, document, rawVariableValues) {
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devAssert(document, 'Must provide document.'); // If the schema used for execution is invalid, throw an error.
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assertValidSchema(schema); // Variables, if provided, must be an object.
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devAssert(rawVariableValues == null || isObjectLike(rawVariableValues), 'Variables must be provided as an Object where each property is a variable value. Perhaps look to see if an unparsed JSON string was provided.');
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}
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/**
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* Constructs a ExecutionContext object from the arguments passed to
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* execute, which we will pass throughout the other execution methods.
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*
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* Throws a GraphQLError if a valid execution context cannot be created.
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*
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* @internal
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*/
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export function buildExecutionContext(schema, document, rootValue, contextValue, rawVariableValues, operationName, fieldResolver, typeResolver) {
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let operation;
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const fragments = Object.create(null);
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for (const definition of document.definitions) {
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switch (definition.kind) {
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case Kind.OPERATION_DEFINITION:
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if (operationName == null) {
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if (operation !== undefined) {
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return [new GraphQLError('Must provide operation name if query contains multiple operations.')];
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}
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operation = definition;
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} else if (definition.name?.value === operationName) {
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operation = definition;
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}
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break;
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case Kind.FRAGMENT_DEFINITION:
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fragments[definition.name.value] = definition;
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break;
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}
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}
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if (!operation) {
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if (operationName != null) {
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return [new GraphQLError(`Unknown operation named "${operationName}".`)];
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}
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return [new GraphQLError('Must provide an operation.')];
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}
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/* istanbul ignore next (See https://github.com/graphql/graphql-js/issues/2203) */
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const variableDefinitions = operation.variableDefinitions ?? [];
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const coercedVariableValues = getVariableValues(schema, variableDefinitions, rawVariableValues ?? {}, {
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maxErrors: 50
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});
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if (coercedVariableValues.errors) {
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return coercedVariableValues.errors;
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}
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return {
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schema,
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fragments,
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rootValue,
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contextValue,
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operation,
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variableValues: coercedVariableValues.coerced,
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fieldResolver: fieldResolver ?? defaultFieldResolver,
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typeResolver: typeResolver ?? defaultTypeResolver,
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errors: []
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};
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}
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/**
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* Implements the "Evaluating operations" section of the spec.
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*/
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function executeOperation(exeContext, operation, rootValue) {
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const type = getOperationRootType(exeContext.schema, operation);
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const fields = collectFields(exeContext, type, operation.selectionSet, Object.create(null), Object.create(null));
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const path = undefined; // Errors from sub-fields of a NonNull type may propagate to the top level,
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// at which point we still log the error and null the parent field, which
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// in this case is the entire response.
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//
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// Similar to completeValueCatchingError.
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try {
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const result = operation.operation === 'mutation' ? executeFieldsSerially(exeContext, type, rootValue, path, fields) : executeFields(exeContext, type, rootValue, path, fields);
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if (isPromise(result)) {
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return result.then(undefined, error => {
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exeContext.errors.push(error);
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return Promise.resolve(null);
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});
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}
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return result;
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} catch (error) {
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exeContext.errors.push(error);
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return null;
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}
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}
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/**
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* Implements the "Evaluating selection sets" section of the spec
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* for "write" mode.
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*/
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function executeFieldsSerially(exeContext, parentType, sourceValue, path, fields) {
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return promiseReduce(Object.keys(fields), (results, responseName) => {
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const fieldNodes = fields[responseName];
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const fieldPath = addPath(path, responseName);
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const result = resolveField(exeContext, parentType, sourceValue, fieldNodes, fieldPath);
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if (result === undefined) {
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return results;
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}
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if (isPromise(result)) {
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return result.then(resolvedResult => {
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results[responseName] = resolvedResult;
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return results;
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});
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}
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results[responseName] = result;
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return results;
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}, Object.create(null));
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}
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/**
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* Implements the "Evaluating selection sets" section of the spec
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* for "read" mode.
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*/
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function executeFields(exeContext, parentType, sourceValue, path, fields) {
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const results = Object.create(null);
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let containsPromise = false;
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for (const responseName of Object.keys(fields)) {
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const fieldNodes = fields[responseName];
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const fieldPath = addPath(path, responseName);
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const result = resolveField(exeContext, parentType, sourceValue, fieldNodes, fieldPath);
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if (result !== undefined) {
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results[responseName] = result;
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if (!containsPromise && isPromise(result)) {
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containsPromise = true;
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}
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}
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} // If there are no promises, we can just return the object
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if (!containsPromise) {
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return results;
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} // Otherwise, results is a map from field name to the result of resolving that
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// field, which is possibly a promise. Return a promise that will return this
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// same map, but with any promises replaced with the values they resolved to.
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return promiseForObject(results);
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}
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/**
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* Given a selectionSet, adds all of the fields in that selection to
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* the passed in map of fields, and returns it at the end.
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*
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* CollectFields requires the "runtime type" of an object. For a field which
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* returns an Interface or Union type, the "runtime type" will be the actual
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* Object type returned by that field.
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*
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* @internal
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*/
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export function collectFields(exeContext, runtimeType, selectionSet, fields, visitedFragmentNames) {
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for (const selection of selectionSet.selections) {
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switch (selection.kind) {
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case Kind.FIELD:
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{
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if (!shouldIncludeNode(exeContext, selection)) {
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continue;
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}
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const name = getFieldEntryKey(selection);
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if (!fields[name]) {
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fields[name] = [];
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}
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fields[name].push(selection);
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break;
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}
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case Kind.INLINE_FRAGMENT:
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{
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if (!shouldIncludeNode(exeContext, selection) || !doesFragmentConditionMatch(exeContext, selection, runtimeType)) {
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continue;
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}
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collectFields(exeContext, runtimeType, selection.selectionSet, fields, visitedFragmentNames);
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break;
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}
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case Kind.FRAGMENT_SPREAD:
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{
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const fragName = selection.name.value;
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if (visitedFragmentNames[fragName] || !shouldIncludeNode(exeContext, selection)) {
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continue;
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}
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visitedFragmentNames[fragName] = true;
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const fragment = exeContext.fragments[fragName];
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if (!fragment || !doesFragmentConditionMatch(exeContext, fragment, runtimeType)) {
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continue;
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}
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collectFields(exeContext, runtimeType, fragment.selectionSet, fields, visitedFragmentNames);
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break;
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}
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}
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}
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return fields;
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}
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/**
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* Determines if a field should be included based on the @include and @skip
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* directives, where @skip has higher precedence than @include.
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*/
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function shouldIncludeNode(exeContext, node) {
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const skip = getDirectiveValues(GraphQLSkipDirective, node, exeContext.variableValues);
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if (skip?.if === true) {
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return false;
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}
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const include = getDirectiveValues(GraphQLIncludeDirective, node, exeContext.variableValues);
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if (include?.if === false) {
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return false;
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}
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return true;
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}
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/**
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* Determines if a fragment is applicable to the given type.
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*/
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function doesFragmentConditionMatch(exeContext, fragment, type) {
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const typeConditionNode = fragment.typeCondition;
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if (!typeConditionNode) {
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return true;
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}
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const conditionalType = typeFromAST(exeContext.schema, typeConditionNode);
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if (conditionalType === type) {
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return true;
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}
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if (isAbstractType(conditionalType)) {
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return exeContext.schema.isSubType(conditionalType, type);
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}
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return false;
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}
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/**
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* Implements the logic to compute the key of a given field's entry
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*/
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function getFieldEntryKey(node) {
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return node.alias ? node.alias.value : node.name.value;
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}
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/**
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* Resolves the field on the given source object. In particular, this
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* figures out the value that the field returns by calling its resolve function,
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* then calls completeValue to complete promises, serialize scalars, or execute
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* the sub-selection-set for objects.
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*/
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function resolveField(exeContext, parentType, source, fieldNodes, path) {
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const fieldNode = fieldNodes[0];
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const fieldName = fieldNode.name.value;
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const fieldDef = getFieldDef(exeContext.schema, parentType, fieldName);
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if (!fieldDef) {
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return;
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}
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const resolveFn = fieldDef.resolve ?? exeContext.fieldResolver;
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const info = buildResolveInfo(exeContext, fieldDef, fieldNodes, parentType, path); // Get the resolve function, regardless of if its result is normal
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// or abrupt (error).
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const result = resolveFieldValueOrError(exeContext, fieldDef, fieldNodes, resolveFn, source, info);
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return completeValueCatchingError(exeContext, fieldDef.type, fieldNodes, info, path, result);
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}
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/**
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* @internal
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*/
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export function buildResolveInfo(exeContext, fieldDef, fieldNodes, parentType, path) {
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// The resolve function's optional fourth argument is a collection of
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// information about the current execution state.
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return {
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fieldName: fieldDef.name,
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fieldNodes,
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returnType: fieldDef.type,
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parentType,
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path,
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schema: exeContext.schema,
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fragments: exeContext.fragments,
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rootValue: exeContext.rootValue,
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operation: exeContext.operation,
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variableValues: exeContext.variableValues
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};
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}
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/**
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* Isolates the "ReturnOrAbrupt" behavior to not de-opt the `resolveField`
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* function. Returns the result of resolveFn or the abrupt-return Error object.
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*
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* @internal
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*/
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export function resolveFieldValueOrError(exeContext, fieldDef, fieldNodes, resolveFn, source, info) {
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try {
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// Build a JS object of arguments from the field.arguments AST, using the
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// variables scope to fulfill any variable references.
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// TODO: find a way to memoize, in case this field is within a List type.
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const args = getArgumentValues(fieldDef, fieldNodes[0], exeContext.variableValues); // The resolve function's optional third argument is a context value that
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// is provided to every resolve function within an execution. It is commonly
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// used to represent an authenticated user, or request-specific caches.
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const contextValue = exeContext.contextValue;
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const result = resolveFn(source, args, contextValue, info);
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return isPromise(result) ? result.then(undefined, asErrorInstance) : result;
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} catch (error) {
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return asErrorInstance(error);
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}
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} // Sometimes a non-error is thrown, wrap it as an Error instance to ensure a
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// consistent Error interface.
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function asErrorInstance(error) {
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if (error instanceof Error) {
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return error;
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}
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return new Error('Unexpected error value: ' + inspect(error));
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} // This is a small wrapper around completeValue which detects and logs errors
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// in the execution context.
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function completeValueCatchingError(exeContext, returnType, fieldNodes, info, path, result) {
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try {
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let completed;
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if (isPromise(result)) {
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completed = result.then(resolved => completeValue(exeContext, returnType, fieldNodes, info, path, resolved));
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} else {
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completed = completeValue(exeContext, returnType, fieldNodes, info, path, result);
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}
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if (isPromise(completed)) {
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// Note: we don't rely on a `catch` method, but we do expect "thenable"
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// to take a second callback for the error case.
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return completed.then(undefined, error => handleFieldError(error, fieldNodes, path, returnType, exeContext));
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}
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return completed;
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} catch (error) {
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return handleFieldError(error, fieldNodes, path, returnType, exeContext);
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}
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}
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function handleFieldError(rawError, fieldNodes, path, returnType, exeContext) {
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const error = locatedError(asErrorInstance(rawError), fieldNodes, pathToArray(path)); // If the field type is non-nullable, then it is resolved without any
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// protection from errors, however it still properly locates the error.
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if (isNonNullType(returnType)) {
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throw error;
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} // Otherwise, error protection is applied, logging the error and resolving
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// a null value for this field if one is encountered.
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exeContext.errors.push(error);
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return null;
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}
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/**
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* Implements the instructions for completeValue as defined in the
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* "Field entries" section of the spec.
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*
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* If the field type is Non-Null, then this recursively completes the value
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* for the inner type. It throws a field error if that completion returns null,
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* as per the "Nullability" section of the spec.
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*
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* If the field type is a List, then this recursively completes the value
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* for the inner type on each item in the list.
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*
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* If the field type is a Scalar or Enum, ensures the completed value is a legal
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* value of the type by calling the `serialize` method of GraphQL type
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* definition.
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*
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* If the field is an abstract type, determine the runtime type of the value
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* and then complete based on that type
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*
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* Otherwise, the field type expects a sub-selection set, and will complete the
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* value by evaluating all sub-selections.
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|
*/
|
|
|
|
|
|
function completeValue(exeContext, returnType, fieldNodes, info, path, result) {
|
|
// If result is an Error, throw a located error.
|
|
if (result instanceof Error) {
|
|
throw result;
|
|
} // If field type is NonNull, complete for inner type, and throw field error
|
|
// if result is null.
|
|
|
|
|
|
if (isNonNullType(returnType)) {
|
|
const completed = completeValue(exeContext, returnType.ofType, fieldNodes, info, path, result);
|
|
|
|
if (completed === null) {
|
|
throw new Error(`Cannot return null for non-nullable field ${info.parentType.name}.${info.fieldName}.`);
|
|
}
|
|
|
|
return completed;
|
|
} // If result value is null or undefined then return null.
|
|
|
|
|
|
if (result == null) {
|
|
return null;
|
|
} // If field type is List, complete each item in the list with the inner type
|
|
|
|
|
|
if (isListType(returnType)) {
|
|
return completeListValue(exeContext, returnType, fieldNodes, info, path, result);
|
|
} // If field type is a leaf type, Scalar or Enum, serialize to a valid value,
|
|
// returning null if serialization is not possible.
|
|
|
|
|
|
if (isLeafType(returnType)) {
|
|
return completeLeafValue(returnType, result);
|
|
} // If field type is an abstract type, Interface or Union, determine the
|
|
// runtime Object type and complete for that type.
|
|
|
|
|
|
if (isAbstractType(returnType)) {
|
|
return completeAbstractValue(exeContext, returnType, fieldNodes, info, path, result);
|
|
} // If field type is Object, execute and complete all sub-selections.
|
|
|
|
|
|
if (isObjectType(returnType)) {
|
|
return completeObjectValue(exeContext, returnType, fieldNodes, info, path, result);
|
|
} // Not reachable. All possible output types have been considered.
|
|
|
|
|
|
invariant(false, 'Cannot complete value of unexpected output type: ' + inspect(returnType));
|
|
}
|
|
/**
|
|
* Complete a list value by completing each item in the list with the
|
|
* inner type
|
|
*/
|
|
|
|
|
|
function completeListValue(exeContext, returnType, fieldNodes, info, path, result) {
|
|
if (!isCollection(result)) {
|
|
throw new GraphQLError(`Expected Iterable, but did not find one for field "${info.parentType.name}.${info.fieldName}".`);
|
|
} // This is specified as a simple map, however we're optimizing the path
|
|
// where the list contains no Promises by avoiding creating another Promise.
|
|
|
|
|
|
const itemType = returnType.ofType;
|
|
let containsPromise = false;
|
|
const completedResults = arrayFrom(result, (item, index) => {
|
|
// No need to modify the info object containing the path,
|
|
// since from here on it is not ever accessed by resolver functions.
|
|
const fieldPath = addPath(path, index);
|
|
const completedItem = completeValueCatchingError(exeContext, itemType, fieldNodes, info, fieldPath, item);
|
|
|
|
if (!containsPromise && isPromise(completedItem)) {
|
|
containsPromise = true;
|
|
}
|
|
|
|
return completedItem;
|
|
});
|
|
return containsPromise ? Promise.all(completedResults) : completedResults;
|
|
}
|
|
/**
|
|
* Complete a Scalar or Enum by serializing to a valid value, returning
|
|
* null if serialization is not possible.
|
|
*/
|
|
|
|
|
|
function completeLeafValue(returnType, result) {
|
|
const serializedResult = returnType.serialize(result);
|
|
|
|
if (serializedResult === undefined) {
|
|
throw new Error(`Expected a value of type "${inspect(returnType)}" but ` + `received: ${inspect(result)}`);
|
|
}
|
|
|
|
return serializedResult;
|
|
}
|
|
/**
|
|
* Complete a value of an abstract type by determining the runtime object type
|
|
* of that value, then complete the value for that type.
|
|
*/
|
|
|
|
|
|
function completeAbstractValue(exeContext, returnType, fieldNodes, info, path, result) {
|
|
const resolveTypeFn = returnType.resolveType ?? exeContext.typeResolver;
|
|
const contextValue = exeContext.contextValue;
|
|
const runtimeType = resolveTypeFn(result, contextValue, info, returnType);
|
|
|
|
if (isPromise(runtimeType)) {
|
|
return runtimeType.then(resolvedRuntimeType => completeObjectValue(exeContext, ensureValidRuntimeType(resolvedRuntimeType, exeContext, returnType, fieldNodes, info, result), fieldNodes, info, path, result));
|
|
}
|
|
|
|
return completeObjectValue(exeContext, ensureValidRuntimeType(runtimeType, exeContext, returnType, fieldNodes, info, result), fieldNodes, info, path, result);
|
|
}
|
|
|
|
function ensureValidRuntimeType(runtimeTypeOrName, exeContext, returnType, fieldNodes, info, result) {
|
|
const runtimeType = typeof runtimeTypeOrName === 'string' ? exeContext.schema.getType(runtimeTypeOrName) : runtimeTypeOrName;
|
|
|
|
if (!isObjectType(runtimeType)) {
|
|
throw new GraphQLError(`Abstract type "${returnType.name}" must resolve to an Object type at runtime for field "${info.parentType.name}.${info.fieldName}" with ` + `value ${inspect(result)}, received "${inspect(runtimeType)}". ` + `Either the "${returnType.name}" type should provide a "resolveType" function or each possible type should provide an "isTypeOf" function.`, fieldNodes);
|
|
}
|
|
|
|
if (!exeContext.schema.isSubType(returnType, runtimeType)) {
|
|
throw new GraphQLError(`Runtime Object type "${runtimeType.name}" is not a possible type for "${returnType.name}".`, fieldNodes);
|
|
}
|
|
|
|
return runtimeType;
|
|
}
|
|
/**
|
|
* Complete an Object value by executing all sub-selections.
|
|
*/
|
|
|
|
|
|
function completeObjectValue(exeContext, returnType, fieldNodes, info, path, result) {
|
|
// If there is an isTypeOf predicate function, call it with the
|
|
// current result. If isTypeOf returns false, then raise an error rather
|
|
// than continuing execution.
|
|
if (returnType.isTypeOf) {
|
|
const isTypeOf = returnType.isTypeOf(result, exeContext.contextValue, info);
|
|
|
|
if (isPromise(isTypeOf)) {
|
|
return isTypeOf.then(resolvedIsTypeOf => {
|
|
if (!resolvedIsTypeOf) {
|
|
throw invalidReturnTypeError(returnType, result, fieldNodes);
|
|
}
|
|
|
|
return collectAndExecuteSubfields(exeContext, returnType, fieldNodes, path, result);
|
|
});
|
|
}
|
|
|
|
if (!isTypeOf) {
|
|
throw invalidReturnTypeError(returnType, result, fieldNodes);
|
|
}
|
|
}
|
|
|
|
return collectAndExecuteSubfields(exeContext, returnType, fieldNodes, path, result);
|
|
}
|
|
|
|
function invalidReturnTypeError(returnType, result, fieldNodes) {
|
|
return new GraphQLError(`Expected value of type "${returnType.name}" but got: ${inspect(result)}.`, fieldNodes);
|
|
}
|
|
|
|
function collectAndExecuteSubfields(exeContext, returnType, fieldNodes, path, result) {
|
|
// Collect sub-fields to execute to complete this value.
|
|
const subFieldNodes = collectSubfields(exeContext, returnType, fieldNodes);
|
|
return executeFields(exeContext, returnType, result, path, subFieldNodes);
|
|
}
|
|
/**
|
|
* A memoized collection of relevant subfields with regard to the return
|
|
* type. Memoizing ensures the subfields are not repeatedly calculated, which
|
|
* saves overhead when resolving lists of values.
|
|
*/
|
|
|
|
|
|
const collectSubfields = memoize3(_collectSubfields);
|
|
|
|
function _collectSubfields(exeContext, returnType, fieldNodes) {
|
|
let subFieldNodes = Object.create(null);
|
|
const visitedFragmentNames = Object.create(null);
|
|
|
|
for (const node of fieldNodes) {
|
|
if (node.selectionSet) {
|
|
subFieldNodes = collectFields(exeContext, returnType, node.selectionSet, subFieldNodes, visitedFragmentNames);
|
|
}
|
|
}
|
|
|
|
return subFieldNodes;
|
|
}
|
|
/**
|
|
* If a resolveType function is not given, then a default resolve behavior is
|
|
* used which attempts two strategies:
|
|
*
|
|
* First, See if the provided value has a `__typename` field defined, if so, use
|
|
* that value as name of the resolved type.
|
|
*
|
|
* Otherwise, test each possible type for the abstract type by calling
|
|
* isTypeOf for the object being coerced, returning the first type that matches.
|
|
*/
|
|
|
|
|
|
export const defaultTypeResolver = function (value, contextValue, info, abstractType) {
|
|
// First, look for `__typename`.
|
|
if (isObjectLike(value) && typeof value.__typename === 'string') {
|
|
return value.__typename;
|
|
} // Otherwise, test each possible type.
|
|
|
|
|
|
const possibleTypes = info.schema.getPossibleTypes(abstractType);
|
|
const promisedIsTypeOfResults = [];
|
|
|
|
for (let i = 0; i < possibleTypes.length; i++) {
|
|
const type = possibleTypes[i];
|
|
|
|
if (type.isTypeOf) {
|
|
const isTypeOfResult = type.isTypeOf(value, contextValue, info);
|
|
|
|
if (isPromise(isTypeOfResult)) {
|
|
promisedIsTypeOfResults[i] = isTypeOfResult;
|
|
} else if (isTypeOfResult) {
|
|
return type;
|
|
}
|
|
}
|
|
}
|
|
|
|
if (promisedIsTypeOfResults.length) {
|
|
return Promise.all(promisedIsTypeOfResults).then(isTypeOfResults => {
|
|
for (let i = 0; i < isTypeOfResults.length; i++) {
|
|
if (isTypeOfResults[i]) {
|
|
return possibleTypes[i];
|
|
}
|
|
}
|
|
});
|
|
}
|
|
};
|
|
/**
|
|
* If a resolve function is not given, then a default resolve behavior is used
|
|
* which takes the property of the source object of the same name as the field
|
|
* and returns it as the result, or if it's a function, returns the result
|
|
* of calling that function while passing along args and context value.
|
|
*/
|
|
|
|
export const defaultFieldResolver = function (source, args, contextValue, info) {
|
|
// ensure source is a value for which property access is acceptable.
|
|
if (isObjectLike(source) || typeof source === 'function') {
|
|
const property = source[info.fieldName];
|
|
|
|
if (typeof property === 'function') {
|
|
return source[info.fieldName](args, contextValue, info);
|
|
}
|
|
|
|
return property;
|
|
}
|
|
};
|
|
/**
|
|
* This method looks up the field on the given type definition.
|
|
* It has special casing for the two introspection fields, __schema
|
|
* and __typename. __typename is special because it can always be
|
|
* queried as a field, even in situations where no other fields
|
|
* are allowed, like on a Union. __schema could get automatically
|
|
* added to the query type, but that would require mutating type
|
|
* definitions, which would cause issues.
|
|
*
|
|
* @internal
|
|
*/
|
|
|
|
export function getFieldDef(schema, parentType, fieldName) {
|
|
if (fieldName === SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {
|
|
return SchemaMetaFieldDef;
|
|
} else if (fieldName === TypeMetaFieldDef.name && schema.getQueryType() === parentType) {
|
|
return TypeMetaFieldDef;
|
|
} else if (fieldName === TypeNameMetaFieldDef.name) {
|
|
return TypeNameMetaFieldDef;
|
|
}
|
|
|
|
return parentType.getFields()[fieldName];
|
|
} |