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@ardatan/relay-compiler

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A compiler tool for building GraphQL-driven applications.

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/** * 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. * * * @format * @emails oncall+relay */ // flowlint ambiguous-object-type:error 'use strict'; var _interopRequireDefault = require("@babel/runtime/helpers/interopRequireDefault"); var _createForOfIteratorHelper2 = _interopRequireDefault(require("@babel/runtime/helpers/createForOfIteratorHelper")); var _inheritsLoose2 = _interopRequireDefault(require("@babel/runtime/helpers/inheritsLoose")); var _require = require('./CompilerError'), createCompilerError = _require.createCompilerError; var _require2 = require('./SchemaUtils'), isSchemaDefinitionAST = _require2.isSchemaDefinitionAST; var _require3 = require('graphql'), GraphQLFloat = _require3.GraphQLFloat, GraphQLInt = _require3.GraphQLInt, GraphQLBoolean = _require3.GraphQLBoolean, GraphQLString = _require3.GraphQLString, GraphQLID = _require3.GraphQLID, parse = _require3.parse, parseType = _require3.parseType, print = _require3.print, valueFromASTUntyped = _require3.valueFromASTUntyped; /** * @private */ var Type = /*#__PURE__*/function () { function Type(name, isClient) { this.name = name; this.isClient = isClient; } var _proto = Type.prototype; _proto.toString = function toString() { return this.name; }; _proto.toJSON = function toJSON() { return String(this); }; return Type; }(); /** * @private */ var ScalarType = /*#__PURE__*/function (_Type) { (0, _inheritsLoose2["default"])(ScalarType, _Type); function ScalarType() { return _Type.apply(this, arguments) || this; } return ScalarType; }(Type); /** * @private */ var EnumType = /*#__PURE__*/function (_Type2) { (0, _inheritsLoose2["default"])(EnumType, _Type2); function EnumType(name, values, isClient) { var _this; _this = _Type2.call(this, name, isClient) || this; _this.values = values; return _this; } return EnumType; }(Type); /** * @private */ var UnionType = /*#__PURE__*/function (_Type3) { (0, _inheritsLoose2["default"])(UnionType, _Type3); function UnionType() { return _Type3.apply(this, arguments) || this; } return UnionType; }(Type); /** * @private */ var ObjectType = /*#__PURE__*/function (_Type4) { (0, _inheritsLoose2["default"])(ObjectType, _Type4); function ObjectType() { return _Type4.apply(this, arguments) || this; } return ObjectType; }(Type); /** * @private */ var InputObjectType = /*#__PURE__*/function (_Type5) { (0, _inheritsLoose2["default"])(InputObjectType, _Type5); function InputObjectType() { return _Type5.apply(this, arguments) || this; } return InputObjectType; }(Type); /** * @private */ var InterfaceType = /*#__PURE__*/function (_Type6) { (0, _inheritsLoose2["default"])(InterfaceType, _Type6); function InterfaceType() { return _Type6.apply(this, arguments) || this; } return InterfaceType; }(Type); /** * @private */ var List = /*#__PURE__*/function () { function List(type) { this.ofType = type; this._typeString = "[".concat(String(this.ofType), "]"); } var _proto2 = List.prototype; _proto2.toString = function toString() { return this._typeString; }; _proto2.toJSON = function toJSON() { return this.toString(); }; return List; }(); /** * @private */ var NonNull = /*#__PURE__*/function () { function NonNull(type) { this.ofType = type; this._typeString = "".concat(String(this.ofType), "!"); } var _proto3 = NonNull.prototype; _proto3.toString = function toString() { return this._typeString; }; _proto3.toJSON = function toJSON() { return this.toString(); }; return NonNull; }(); /** * @private */ var Field = function Field(schema, name, type, belongsTo, args, directives, isClient) { this.name = name; this.type = type; this.belongsTo = belongsTo; this.isClient = isClient; this.args = parseInputArgumentDefinitionsMap(schema, args); this.directives = directives; }; /** * @private */ function unwrap(type) { if (type instanceof NonNull || type instanceof List) { return unwrap(type.ofType); } return type; } /** * @private */ function hasConcreteTypeThatImplements(schema, type, interfaceType) { return _isAbstractType(type) && getConcreteTypes(schema, type).some(function (concreteType) { return schema.implementsInterface(schema.assertCompositeType(concreteType), interfaceType); }); } /** * @private */ function getConcreteTypes(schema, type) { var concreteTypes = new Set(); schema.getPossibleTypes(type).forEach(function (possibleType) { if (_isObject(possibleType)) { concreteTypes.add(possibleType); } }); return Array.from(concreteTypes); } var TYPENAME_FIELD = '__typename'; var CLIENT_ID_FIELD = '__id'; var QUERY_TYPE_KEY = Symbol('Query'); var MUTATION_TYPE_KEY = Symbol('Mutation'); var SUBSCRIPTION_TYPE_KEY = Symbol('Subscription'); function _isScalar(type) { return type instanceof ScalarType; } function _isObject(type) { return type instanceof ObjectType; } function _isEnum(type) { return type instanceof EnumType; } function _isUnion(type) { return type instanceof UnionType; } function _isInputObject(type) { return type instanceof InputObjectType; } function _isInterface(type) { return type instanceof InterfaceType; } function _isWrapper(type) { return type instanceof List || type instanceof NonNull; } function isBaseType(type) { return type instanceof ScalarType || type instanceof ObjectType || type instanceof EnumType || type instanceof UnionType || type instanceof InputObjectType || type instanceof InterfaceType; } function _isAbstractType(type) { return type instanceof UnionType || type instanceof InterfaceType; } function _isCompositeType(type) { return type instanceof ObjectType || type instanceof UnionType || type instanceof InterfaceType; } function _isInputType(type) { return type instanceof InputObjectType || type instanceof ScalarType || type instanceof EnumType; } var Schema = /*#__PURE__*/function () { /** * @private */ function Schema(typeMap) { var _this2 = this; this._typeMap = typeMap; this._typeWrappersMap = new Map(); this._fieldsMap = new Map(); this._typeNameMap = new Map(); this._clientIdMap = new Map(); this._directiveMap = new Map(typeMap.getDirectives().map(function (directive) { return [directive.name, { locations: directive.locations, args: parseInputArgumentDefinitions(_this2, directive.args), name: directive.name, isClient: directive.isClient }]; })); } var _proto4 = Schema.prototype; _proto4.getTypes = function getTypes() { return this._typeMap.getTypes(); }; _proto4.getTypeFromAST = function getTypeFromAST(typeNode) { if (typeNode.kind === 'NonNullType') { var innerType = this.getTypeFromAST(typeNode.type); if (!innerType) { return; } if (innerType instanceof NonNull) { throw createCompilerError('Unable to wrap non-nullable type with non-null wrapper.'); } var cacheKey = "".concat(this.getTypeString(innerType), "!"); var type = this._typeWrappersMap.get(cacheKey); if (type) { return type; } type = new NonNull(innerType); this._typeWrappersMap.set(cacheKey, type); return type; } else if (typeNode.kind === 'ListType') { var _innerType = this.getTypeFromAST(typeNode.type); if (!_innerType) { return; } var _cacheKey = "[".concat(this.getTypeString(_innerType), "]"); var _type = this._typeWrappersMap.get(_cacheKey); if (_type) { return _type; } _type = new List(_innerType); this._typeWrappersMap.set(_cacheKey, _type); return _type; } return this._typeMap.getTypeByName(typeNode.name.value); }; _proto4._getRawType = function _getRawType(typeName) { var type = this._typeWrappersMap.get(typeName); if (type) { return type; } if (typeof typeName === 'string') { return this.getTypeFromAST(parseType(typeName)); } else { var operationType; if (typeName === QUERY_TYPE_KEY) { operationType = this._typeMap.getQueryType(); } else if (typeName === MUTATION_TYPE_KEY) { operationType = this._typeMap.getMutationType(); } else if (typeName === SUBSCRIPTION_TYPE_KEY) { operationType = this._typeMap.getSubscriptionType(); } if (operationType instanceof ObjectType) { return operationType; } } }; _proto4.getTypeFromString = function getTypeFromString(typeName) { return this._getRawType(typeName); }; _proto4.expectTypeFromString = function expectTypeFromString(typeName) { var type = this.getTypeFromString(typeName); if (type == null) { throw createCompilerError("Unknown type: '".concat(typeName, "'.")); } return type; }; _proto4.expectTypeFromAST = function expectTypeFromAST(ast) { var type = this.getTypeFromAST(ast); if (type == null) { throw createCompilerError("Unknown type: '".concat(print(ast), "'."), null, [ast]); } return type; }; _proto4.getNonNullType = function getNonNullType(type) { if (type instanceof NonNull) { return type; } var cacheKey = "".concat(String(type), "!"); var nonNullType = this._typeWrappersMap.get(cacheKey); if (nonNullType) { return nonNullType; } nonNullType = new NonNull(type); this._typeWrappersMap.set(cacheKey, nonNullType); return nonNullType; }; _proto4.getRawType = function getRawType(type) { return unwrap(type); }; _proto4.getNullableType = function getNullableType(type) { if (type instanceof NonNull) { return type.ofType; } return type; }; _proto4.getListItemType = function getListItemType(type) { if (type instanceof List) { return type.ofType; } return type; }; _proto4.mapListItemType = function mapListItemType(type, mapper) { if (!(type instanceof List)) { throw createCompilerError('Expected List type'); } var innerType = mapper(type.ofType); var cacheKey = "[".concat(this.getTypeString(innerType), "]"); var newType = this._typeWrappersMap.get(cacheKey); if (newType) { return newType; } newType = new List(innerType); this._typeWrappersMap.set(cacheKey, newType); return newType; }; _proto4.areEqualTypes = function areEqualTypes(typeA, typeB) { if (typeA === typeB) { return true; } if (typeA instanceof NonNull && typeB instanceof NonNull) { return this.areEqualTypes(typeA.ofType, typeB.ofType); } if (typeA instanceof List && typeB instanceof List) { return this.areEqualTypes(typeA.ofType, typeB.ofType); } if (isBaseType(typeA) && isBaseType(typeB)) { return typeA.name === typeB.name; } return false; } /** * Determine if the given type may implement the named type: * - it is the named type * - it implements the named interface * - it is an abstract type and *some* of its concrete types may * implement the named type */ ; _proto4.mayImplement = function mayImplement(type, interfaceType) { return this.areEqualTypes(type, interfaceType) || this.implementsInterface(type, interfaceType) || this.isAbstractType(type) && hasConcreteTypeThatImplements(this, type, interfaceType); }; _proto4.implementsInterface = function implementsInterface(type, interfaceType) { var _this3 = this; return this.getInterfaces(type).some(function (typeInterface) { return _this3.areEqualTypes(typeInterface, interfaceType); }); }; _proto4.canHaveSelections = function canHaveSelections(type) { return this.isObject(type) || this.isInterface(type); }; _proto4.getTypeString = function getTypeString(type) { return type.toString(); }; _proto4.isTypeSubTypeOf = function isTypeSubTypeOf(maybeSubType, superType) { // Equivalent type is a valid subtype if (maybeSubType === superType) { return true; } // If superType is non-null, maybeSubType must also be non-null. if (superType instanceof NonNull) { if (maybeSubType instanceof NonNull) { return this.isTypeSubTypeOf(maybeSubType.ofType, superType.ofType); } return false; } if (maybeSubType instanceof NonNull) { // If superType is nullable, maybeSubType may be non-null or nullable. return this.isTypeSubTypeOf(maybeSubType.ofType, superType); } // If superType type is a list, maybeSubType type must also be a list. if (superType instanceof List) { if (maybeSubType instanceof List) { return this.isTypeSubTypeOf(maybeSubType.ofType, superType.ofType); } return false; } if (maybeSubType instanceof List) { // If superType is not a list, maybeSubType must also be not a list. return false; } // If superType type is an abstract type, maybeSubType type may be a currently // possible object type. if (this.isAbstractType(superType) && this.isObject(maybeSubType) && this.isPossibleType(this.assertAbstractType(superType), this.assertObjectType(maybeSubType))) { return true; } // Otherwise, maybeSubType is not a valid subtype of the superType. return false; } /** * Provided two composite types, determine if they "overlap". Two composite * types overlap when the Sets of possible concrete types for each intersect. * * This is often used to determine if a fragment of a given type could possibly * be visited in a context of another type. * * This function is commutative. */ ; _proto4.doTypesOverlap = function doTypesOverlap(typeA, typeB) { var _this4 = this; // Equivalent types overlap if (typeA === typeB) { return true; } if (_isAbstractType(typeA)) { if (_isAbstractType(typeB)) { // If both types are abstract, then determine if there is any intersection // between possible concrete types of each. return Array.from(this.getPossibleTypes(typeA)).some(function (type) { if (_isObject(type)) { return _this4.isPossibleType(typeB, type); } }); } // Determine if the latter type is a possible concrete type of the former. return this.isPossibleType(typeA, typeB); } if (_isAbstractType(typeB)) { // Determine if the former type is a possible concrete type of the latter. return this.isPossibleType(typeB, typeA); } // Otherwise the types do not overlap. return false; }; _proto4.isPossibleType = function isPossibleType(superType, maybeSubType) { return this._typeMap.getPossibleTypeSet(superType).has(maybeSubType); }; _proto4.assertScalarFieldType = function assertScalarFieldType(type) { // Scalar type fields can be wrappers / or can be scalars/enums if (_isWrapper(type) && !_isScalar(unwrap(type)) && !_isEnum(unwrap(type)) || !_isWrapper(type) && !_isScalar(type) && !_isEnum(type)) { throw createCompilerError("Expected ".concat(String(type), " to be a Scalar or Enum type.")); } return type; }; _proto4.assertLinkedFieldType = function assertLinkedFieldType(type) { // Linked Field types can be wrappers / or can be composite types if (_isWrapper(type) && !_isCompositeType(unwrap(type)) || !_isWrapper(type) && !_isCompositeType(type)) { throw createCompilerError("Expected ".concat(String(type), " to be a Object, Interface or a Union Type.")); } return type; }; _proto4.assertInputType = function assertInputType(type) { // Input type fields can be wrappers / or can be scalars/enums if (_isWrapper(type) && !_isInputType(unwrap(type)) || !_isWrapper(type) && !_isInputType(type)) { throw createCompilerError("Expected ".concat(String(type), " to be a Input, Scalar or Enum type.")); } return type; }; _proto4.asCompositeType = function asCompositeType(type) { if (_isCompositeType(type)) { return type; } }; _proto4.asInputType = function asInputType(type) { if (_isWrapper(type) && _isInputType(unwrap(type)) || !_isWrapper(type) && _isInputType(type)) { return type; } }; _proto4.asScalarFieldType = function asScalarFieldType(type) { if (_isScalar(type) || _isEnum(type)) { return type; } }; _proto4.assertScalarType = function assertScalarType(type) { if (!_isScalar(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a scalar type, got ").concat(this.getTypeString(type), ".")); } return type; }; _proto4.assertObjectType = function assertObjectType(type) { if (!_isObject(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be an object type.")); } return type; }; _proto4.assertInputObjectType = function assertInputObjectType(type) { if (!_isInputObject(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be an input type.")); } return type; }; _proto4.asInputObjectType = function asInputObjectType(type) { if (!_isInputObject(type)) { return null; } return type; }; _proto4.assertInterfaceType = function assertInterfaceType(type) { if (!_isInterface(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be an interface type.")); } return type; }; _proto4.assertCompositeType = function assertCompositeType(type) { if (!_isCompositeType(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a composite type.")); } return type; }; _proto4.assertAbstractType = function assertAbstractType(type) { if (!_isAbstractType(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be an abstract type.")); } return type; }; _proto4.assertLeafType = function assertLeafType(type) { if (!this.isLeafType(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a leaf type.")); } return type; }; _proto4.assertUnionType = function assertUnionType(type) { if (!_isUnion(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a union type.")); } return type; }; _proto4.assertEnumType = function assertEnumType(type) { if (!_isEnum(type)) { throw createCompilerError("Expected ".concat(String(type), " to be an enum type.")); } return type; }; _proto4.assertIntType = function assertIntType(type) { if (!_isScalar(type) || !this.isInt(type)) { throw createCompilerError("Expected ".concat(String(type), " to be an 'Int' type.")); } return type; }; _proto4.assertFloatType = function assertFloatType(type) { if (!_isScalar(type) || !this.isFloat(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a 'Float' type.")); } return type; }; _proto4.assertBooleanType = function assertBooleanType(type) { if (!_isScalar(type) || !this.isBoolean(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a 'Boolean' type.")); } return type; }; _proto4.assertStringType = function assertStringType(type) { if (!_isScalar(type) || !this.isString(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be a 'String' type.")); } return type; }; _proto4.assertIdType = function assertIdType(type) { if (!_isScalar(type) || !this.isId(type)) { throw createCompilerError("Expected ".concat(this.getTypeString(type), " to be an ID type.")); } return type; }; _proto4.expectBooleanType = function expectBooleanType() { return this.assertScalarType(this.expectTypeFromString('Boolean')); }; _proto4.expectIntType = function expectIntType() { return this.assertScalarType(this.expectTypeFromString('Int')); }; _proto4.expectFloatType = function expectFloatType() { return this.assertScalarType(this.expectTypeFromString('Float')); }; _proto4.expectStringType = function expectStringType() { return this.assertScalarType(this.expectTypeFromString('String')); }; _proto4.expectIdType = function expectIdType() { return this.assertScalarType(this.expectTypeFromString('ID')); }; _proto4.getQueryType = function getQueryType() { var queryType = this._getRawType(QUERY_TYPE_KEY); if (queryType && _isObject(queryType)) { return queryType; } }; _proto4.getMutationType = function getMutationType() { var mutationType = this._getRawType(MUTATION_TYPE_KEY); if (mutationType && _isObject(mutationType)) { return mutationType; } }; _proto4.getSubscriptionType = function getSubscriptionType() { var subscriptionType = this._getRawType(SUBSCRIPTION_TYPE_KEY); if (subscriptionType && _isObject(subscriptionType)) { return subscriptionType; } }; _proto4.expectQueryType = function expectQueryType() { var queryType = this.getQueryType(); if (queryType == null) { throw createCompilerError('Query type is not defined on the Schema'); } return queryType; }; _proto4.expectMutationType = function expectMutationType() { var mutationType = this.getMutationType(); if (mutationType == null) { throw createCompilerError('Mutation type is not defined the Schema'); } return mutationType; }; _proto4.expectSubscriptionType = function expectSubscriptionType() { var subscriptionType = this.getSubscriptionType(); if (subscriptionType == null) { throw createCompilerError('Subscription type is not defined the Schema'); } return subscriptionType; }; _proto4.isNonNull = function isNonNull(type) { return type instanceof NonNull; }; _proto4.isList = function isList(type) { return type instanceof List; }; _proto4.isWrapper = function isWrapper(type) { return _isWrapper(type); }; _proto4.isScalar = function isScalar(type) { return _isScalar(type); }; _proto4.isObject = function isObject(type) { return _isObject(type); }; _proto4.isEnum = function isEnum(type) { return _isEnum(type); }; _proto4.isUnion = function isUnion(type) { return _isUnion(type); }; _proto4.isInputObject = function isInputObject(type) { return _isInputObject(type); }; _proto4.isInterface = function isInterface(type) { return _isInterface(type); }; _proto4.isInputType = function isInputType(type) { // Wrappers can be input types (so it's save to check unwrapped type here) return _isInputType(type) || _isWrapper(type) && _isInputType(unwrap(type)); }; _proto4.isCompositeType = function isCompositeType(type) { return _isCompositeType(type); }; _proto4.isAbstractType = function isAbstractType(type) { return _isAbstractType(type); }; _proto4.isLeafType = function isLeafType(type) { return this.isScalar(type) || this.isEnum(type); }; _proto4.isId = function isId(type) { if (type instanceof ScalarType) { return type.name === 'ID'; } return false; }; _proto4.isInt = function isInt(type) { if (type instanceof ScalarType) { return type.name === 'Int'; } return false; }; _proto4.isFloat = function isFloat(type) { if (type instanceof ScalarType) { return type.name === 'Float'; } return false; }; _proto4.isBoolean = function isBoolean(type) { if (type instanceof ScalarType) { return type.name === 'Boolean'; } return false; }; _proto4.isString = function isString(type) { if (type instanceof ScalarType) { return type.name === 'String'; } return false; }; _proto4.hasField = function hasField(type, fieldName) { var canHaveTypename = this.isObject(type) || this.isAbstractType(type); // Special case for __typename field if (canHaveTypename && (fieldName === TYPENAME_FIELD || fieldName === CLIENT_ID_FIELD)) { return true; } if (type instanceof ObjectType || type instanceof InterfaceType) { return this._typeMap.getField(type, fieldName) != null; } else if (type instanceof InputObjectType) { return this._typeMap.getInputField(type, fieldName) != null; } return false; }; _proto4.hasId = function hasId(type) { if (!this.hasField(type, 'id')) { return false; } var idField = this.expectField(type, 'id'); return this.areEqualTypes(this.getNullableType(this.getFieldType(idField)), this.expectIdType()); }; _proto4.getFields = function getFields(type) { var fieldsMap = this._getFieldsMap(type); return Array.from(fieldsMap.values()); }; _proto4._getFieldsMap = function _getFieldsMap(type) { var cachedMap = this._fieldsMap.get(type); if (cachedMap != null) { return cachedMap; } var fieldsMap = new Map(); if (type instanceof ObjectType || type instanceof InterfaceType) { var fields = this._typeMap.getFieldMap(type); if (fields) { var _iterator = (0, _createForOfIteratorHelper2["default"])(fields), _step; try { for (_iterator.s(); !(_step = _iterator.n()).done;) { var _step$value = _step.value, fieldName = _step$value[0], fieldDefinition = _step$value[1]; var fieldType = this.expectTypeFromAST(fieldDefinition.type); fieldsMap.set(fieldName, new Field(this, fieldName, fieldType, this.assertCompositeType(type), fieldDefinition.arguments, fieldDefinition.directives, fieldDefinition.isClient)); } } catch (err) { _iterator.e(err); } finally { _iterator.f(); } } } else if (type instanceof InputObjectType) { var _fields = this._typeMap.getInputFieldMap(type); if (_fields) { var _iterator2 = (0, _createForOfIteratorHelper2["default"])(_fields), _step2; try { for (_iterator2.s(); !(_step2 = _iterator2.n()).done;) { var _step2$value = _step2.value, _fieldName = _step2$value[0], typeNode = _step2$value[1]; var _fieldType = this.expectTypeFromAST(typeNode); fieldsMap.set(_fieldName, new Field(this, _fieldName, _fieldType, type, [], null, false)); } } catch (err) { _iterator2.e(err); } finally { _iterator2.f(); } } } if (fieldsMap.size === 0) { throw createCompilerError("_getFieldsMap: Type '".concat(type.name, "' should have fields.")); } this._fieldsMap.set(type, fieldsMap); return fieldsMap; }; _proto4.getFieldByName = function getFieldByName(type, fieldName) { if (!this.hasField(type, fieldName)) { return; } // A "special" case for __typename and __id fields - which should // not be in the list of type fields, but should be fine to select if (fieldName === TYPENAME_FIELD) { var typename = this._typeNameMap.get(type); if (!typename) { typename = new Field(this, TYPENAME_FIELD, this.getNonNullType(this.expectStringType()), type, [], null, false); this._typeNameMap.set(type, typename); } return typename; } if (fieldName === CLIENT_ID_FIELD) { var clientId = this._clientIdMap.get(type); if (!clientId) { clientId = new Field(this, CLIENT_ID_FIELD, this.getNonNullType(this.expectIdType()), type, [], null, true); this._clientIdMap.set(type, clientId); } return clientId; } if (_isUnion(type)) { throw createCompilerError("Unexpected union type '".concat(this.getTypeString(type), "' in the 'getFieldByName(...)'. Expected type with fields")); } var fieldsMap = this._getFieldsMap(type); return fieldsMap.get(fieldName); }; _proto4.expectField = function expectField(type, fieldName) { var field = this.getFieldByName(type, fieldName); if (!field) { throw createCompilerError("Unknown field '".concat(fieldName, "' on type '").concat(this.getTypeString(type), "'.")); } return field; }; _proto4.getFieldConfig = function getFieldConfig(field) { return { type: field.type, args: Array.from(field.args.values()) }; }; _proto4.getFieldName = function getFieldName(field) { return field.name; }; _proto4.getFieldType = function getFieldType(field) { return field.type; }; _proto4.getFieldParentType = function getFieldParentType(field) { return field.belongsTo; }; _proto4.getFieldArgs = function getFieldArgs(field) { return Array.from(field.args.values()); }; _proto4.getFieldArgByName = function getFieldArgByName(field, argName) { return field.args.get(argName); }; _proto4.getEnumValues = function getEnumValues(type) { return type.values; }; _proto4.getUnionTypes = function getUnionTypes(type) { return Array.from(this._typeMap.getPossibleTypeSet(type)); }; _proto4.getInterfaces = function getInterfaces(type) { if (type instanceof ObjectType) { return this._typeMap.getInterfaces(type); } return []; }; _proto4.getPossibleTypes = function getPossibleTypes(type) { return this._typeMap.getPossibleTypeSet(type); }; _proto4.getFetchableFieldName = function getFetchableFieldName(type) { return this._typeMap.getFetchableFieldName(type); }; _proto4.parseLiteral = function parseLiteral(type, valueNode) { if (type instanceof EnumType && valueNode.kind === 'EnumValue') { return this.parseValue(type, valueNode.value); } else if (type instanceof ScalarType) { if (valueNode.kind === 'BooleanValue' && type.name === 'Boolean') { return GraphQLBoolean.parseLiteral(valueNode); } else if (valueNode.kind === 'FloatValue' && type.name === 'Float') { return GraphQLFloat.parseLiteral(valueNode); } else if (valueNode.kind === 'IntValue' && (type.name === 'Int' || type.name === 'ID' || type.name === 'Float')) { return GraphQLInt.parseLiteral(valueNode); } else if (valueNode.kind === 'StringValue' && (type.name === 'String' || type.name === 'ID')) { return GraphQLString.parseLiteral(valueNode); } else if (!isDefaultScalar(type.name)) { return valueFromASTUntyped(valueNode); } } }; _proto4.parseValue = function parseValue(type, value) { if (type instanceof EnumType) { return type.values.includes(value) ? value : undefined; } else if (type instanceof ScalarType) { switch (type.name) { case 'Boolean': return GraphQLBoolean.parseValue(value); case 'Float': return GraphQLFloat.parseValue(value); case 'Int': return GraphQLInt.parseValue(value); case 'String': return GraphQLString.parseValue(value); case 'ID': return GraphQLID.parseValue(value); default: return value; } } }; _proto4.serialize = function serialize(type, value) { if (type instanceof EnumType) { return type.values.includes(value) ? value : undefined; } else if (type instanceof ScalarType) { switch (type.name) { case 'Boolean': return GraphQLBoolean.serialize(value); case 'Float': return GraphQLFloat.serialize(value); case 'Int': return GraphQLInt.serialize(value); case 'String': return GraphQLString.serialize(value); case 'ID': return GraphQLID.serialize(value); default: return value; } } }; _proto4.getDirectives = function getDirectives() { return Array.from(this._directiveMap.values()); }; _proto4.getDirective = function getDirective(directiveName) { return this._directiveMap.get(directiveName); }; _proto4.isServerType = function isServerType(type) { var unwrapped = unwrap(type); return unwrapped.isClient === false; }; _proto4.isServerField = function isServerField(field) { return field.isClient === false; }; _proto4.isServerDirective = function isServerDirective(directiveName) { var directive = this._directiveMap.get(directiveName); return (directive === null || directive === void 0 ? void 0 : directive.isClient) === false; }; _proto4.isServerDefinedField = function isServerDefinedField(type, field) { return this.isAbstractType(type) && field.directives.some(function (_ref) { var name = _ref.name; return name === 'fixme_fat_interface'; }) || this.hasField(type, field.name) && this.isServerField(this.expectField(type, field.name)); }; _proto4.isClientDefinedField = function isClientDefinedField(type, field) { return !this.isServerDefinedField(type, field); }; _proto4.extend = function extend(extensions) { var doc = Array.isArray(extensions) ? parse(extensions.join('\n')) : extensions; var schemaExtensions = []; doc.definitions.forEach(function (definition) { if (isSchemaDefinitionAST(definition)) { schemaExtensions.push(definition); } }); if (schemaExtensions.length > 0) { return new Schema(this._typeMap.extend(schemaExtensions)); } return this; }; return Schema; }(); var TypeMap = /*#__PURE__*/function () { function TypeMap(source, extensions) { this._types = new Map([['ID', new ScalarType('ID', false)], ['String', new ScalarType('String', false)], ['Boolean', new ScalarType('Boolean', false)], ['Float', new ScalarType('Float', false)], ['Int', new ScalarType('Int', false)]]); this._typeInterfaces = new Map(); this._unionTypes = new Map(); this._interfaceImplementations = new Map(); this._fields = new Map(); this._inputFields = new Map(); this._directives = new Map([['include', { name: 'include', isClient: false, locations: ['FIELD', 'FRAGMENT_SPREAD', 'INLINE_FRAGMENT'], args: [{ name: 'if', typeNode: parseType('Boolean!'), defaultValue: undefined }] }], ['skip', { name: 'skip', isClient: false, locations: ['FIELD', 'FRAGMENT_SPREAD', 'INLINE_FRAGMENT'], args: [{ name: 'if', typeNode: parseType('Boolean!'), defaultValue: undefined }] }], ['deprecated', { name: 'deprecated', isClient: false, locations: ['FIELD_DEFINITION', 'ENUM_VALUE'], args: [{ name: 'reason', typeNode: parseType('String'), defaultValue: { kind: 'StringValue', value: 'No longer supported' } }] }]]); this._queryTypeName = 'Query'; this._mutationTypeName = 'Mutation'; this._subscriptionTypeName = 'Subscription'; this._source = source; this._extensions = extensions; this._fetchable = new Map(); this._parse(source); this._extend(extensions); } var _proto5 = TypeMap.prototype; _proto5._parse = function _parse(source) { var _this5 = this; var document = parse(source, { noLocation: true }); document.definitions.forEach(function (definition) { switch (definition.kind) { case 'SchemaDefinition': { _this5._parseSchemaDefinition(definition); break; } case 'ScalarTypeDefinition': { _this5._parseScalarNode(definition, false); break; } case 'EnumTypeDefinition': { _this5._parseEnumNode(definition, false); break; } case 'ObjectTypeDefinition': { _this5._parseObjectTypeNode(definition, false); break; } case 'InputObjectTypeDefinition': { _this5._parseInputObjectTypeNode(definition, false); break; } case 'UnionTypeDefinition': { _this5._parseUnionNode(definition, false); break; } case 'InterfaceTypeDefinition': { _this5._parseInterfaceNode(definition, false); break; } case 'DirectiveDefinition': { _this5._parseDirective(definition, false); break; } } }); }; _proto5._parseSchemaDefinition = function _parseSchemaDefinition(node) { var _this6 = this; node.operationTypes.forEach(function (operationType) { switch (operationType.operation) { case 'query': _this6._queryTypeName = operationType.type.name.value; break; case 'mutation': _this6._mutationTypeName = operationType.type.name.value; break; case 'subscription': _this6._subscriptionTypeName = operationType.type.name.value; break; } }); }; _proto5._parseScalarNode = function _parseScalarNode(node, isClient) { var name = node.name.value; if (!isDefaultScalar(name) && this._types.has(name)) { throw createCompilerError("_parseScalarNode: Duplicate definition for type ".concat(name, "."), null, [node]); } this._types.set(name, new ScalarType(name, isClient)); }; _proto5._parseEnumNode = function _parseEnumNode(node, isClient) { var name = node.name.value; if (this._types.has(name)) { throw createCompilerError("_parseEnumNode: Duplicate definition for type ".concat(name, "."), null, [node]); } // SDL doesn't have information about the actual ENUM values var values = node.values ? node.values.map(function (value) { return value.name.value; }) : []; this._types.set(name, new EnumType(name, values, isClient)); }; _proto5._parseObjectTypeNode = function _parseObjectTypeNode(node, isClient) { var _this7 = this; var _this$_types$get; var name = node.name.value; // Objects may be created by _parseUnionNode var type = (_this$_types$get = this._types.get(name)) !== null && _this$_types$get !== void 0 ? _this$_types$get : new ObjectType(name, isClient); if (!(type instanceof ObjectType)) { throw createCompilerError("_parseObjectTypeNode: Expected object type, got ".concat(String(type)), null, [node]); } if (type.isClient !== isClient) { throw createCompilerError("_parseObjectTypeNode: Cannot create object type '".concat(name, "' defined as a client type."), null, [node]); } var typeInterfaces = []; node.interfaces && node.interfaces.forEach(function (interfaceTypeNode) { var _this$_interfaceImple; var interfaceName = interfaceTypeNode.name.value; var interfaceType = _this7._types.get(interfaceName); if (!interfaceType) { interfaceType = new InterfaceType(interfaceName, isClient); _this7._types.set(interfaceName, interfaceType); } if (!(interfaceType instanceof InterfaceType)) { throw createCompilerError('_parseObjectTypeNode: Expected interface type', null, [interfaceTypeNode]); } var implementations = (_this$_interfaceImple = _this7._interfaceImplementations.get(interfaceType)) !== null && _this$_interfaceImple !== void 0 ? _this$_interfaceImple : new Set(); implementations.add(type); _this7._interfaceImplementations.set(interfaceType, implementations); typeInterfaces.push(interfaceType); }); var fetchable = null; node.directives && node.directives.forEach(function (directiveNode) { if (directiveNode.name.value === 'fetchable') { var field_name_arg = directiveNode.arguments && directiveNode.arguments.find(function (arg) { return arg.name.value === 'field_name'; }); if (field_name_arg != null && field_name_arg.value.kind === 'StringValue') { fetchable = { field_name: field_name_arg.value.value }; } } }); this._typeInterfaces.set(type, typeInterfaces); this._types.set(name, type); if (fetchable != null) { this._fetchable.set(type, fetchable); } node.fields && this._handleTypeFieldsStrict(type, node.fields, isClient); }; _proto5._parseInputObjectTypeNode = function _parseInputObjectTypeNode(node, isClient) { var name = node.name.value; if (this._types.has(name)) { throw createCompilerError('_parseInputObjectTypeNode: Unable to parse schema file. Duplicate definition for object type', null, [node]); } var type = new InputObjectType(name, isClient); this._types.set(name, type); this._parseInputObjectFields(type, node); }; _proto5._parseUnionNode = function _parseUnionNode(node, isClient) { var _this8 = this; var name = node.name.value; if (this._types.has(name)) { throw createCompilerError('_parseUnionNode: Unable to parse schema file. Duplicate definition for object type', null, [node]); } var union = new UnionType(name, isClient); this._types.set(name, union); this._unionTypes.set(union, new Set(node.types ? node.types.map(function (typeInUnion) { var _this$_types$get2; var typeInUnionName = typeInUnion.name.value; var object = (_this$_types$get2 = _this8._types.get(typeInUnionName)) !== null && _this$_types$get2 !== void 0 ? _this$_types$get2 : new ObjectType(typeInUnionName, false); if (!(object instanceof ObjectType)) { throw createCompilerError('_parseUnionNode: Expected object type', null, [typeInUnion]); } _this8._types.set(typeInUnionName, object); return object; }) : [])); }; _proto5._parseInterfaceNode = function _parseInterfaceNode(node, isClient) { var name = node.name.value; var type = this._types.get(name); if (!type) { type = new InterfaceType(name, isClient); this._types.set(name, type); } if (!(type instanceof InterfaceType)) { throw createCompilerError("_parseInterfaceNode: Expected interface type. Got ".concat(String(type)), null, [node]); } if (type.isClient !== isClient) { throw createCompilerError("_parseInterfaceNode: Cannot create interface '".concat(name, "' defined as a client interface"), null, [node]); } node.fields && this._handleTypeFieldsStrict(type, node.fields, isClient); }; _proto5._handleTypeFieldsStrict = function _handleTypeFieldsStrict(type, fields, isClient) { if (this._fields.has(type)) { throw createCompilerError('_handleTypeFieldsStrict: Unable to parse schema file. Duplicate definition for object type'); } this._handleTypeFields(type, fields, isClient); }; _proto5._handleTypeFields = function _handleTypeFields(type, fields, isClient) { var _this$_fields$get; var fieldsMap = (_this$_fields$get = this._fields.get(type)) !== null && _this$_fields$get !== void 0 ? _this$_fields$get : new Map(); fields.forEach(function (fieldNode) { var fieldName = fieldNode.name.value; if (fieldsMap.has(fieldName)) { throw createCompilerError("_handleTypeFields: Duplicate definition for field '".concat(fieldName, "'.")); } fieldsMap.set(fieldName, { arguments: fieldNode.arguments ? fieldNode.arguments.map(function (arg) { return { name: arg.name.value, typeNode: arg.type, defaultValue: arg.defaultValue }; }) : [], directives: fieldNode.directives ? fieldNode.directives.map(function (directive) { return { name: directive.name.value, args: directive.arguments ? directive.arguments.map(function (arg) { return { name: arg.name.value, value: arg.value }; }) : [] }; }) : null, type: fieldNode.type, isClient: isClient }); }); this._fields.set(type, fieldsMap); }; _proto5._parseInputObjectFields = function _parseInputObjectFields(type, node) { if (this._inputFields.has(type)) { throw createCompilerError('_parseInputObjectFields: Unable to parse schema file. Duplicate definition for type', null, [node]); } var fields = new Map(); if (node.fields) { node.fields.forEach(function (fieldNode) { fields.set(fieldNode.name.value, fieldNode.type); }); } this._inputFields.set(type, fields); }; _proto5._parseDirective = function _parseDirective(node, isClient) { var name = node.name.value; this._directives.set(name, { name: name, args: node.arguments ? node.arguments.map(function (arg) { return { name: arg.name.value, typeNode: arg.type, defaultValue: arg.defaultValue }; }) : [], locations: node.locations.map(function (location) { switch (location.value) { case 'QUERY': case 'MUTATION': case 'SUBSCRIPTION': case 'FIELD': case 'FRAGMENT_DEFINITION': case 'FRAGMENT_SPREAD': case 'INLINE_FRAGMENT': case 'VARIABLE_DEFINITION': case 'SCHEMA': case 'SCALAR': case 'OBJECT': case 'FIELD_DEFINITION': case 'ARGUMENT_DEFINITION': case 'INTERFACE': case 'UNION': case 'ENUM': case 'ENUM_VALUE': case 'INPUT_OBJECT': case 'INPUT_FIELD_DEFINITION': return location.value; default: throw createCompilerError('Invalid directive location'); } }), isClient: isClient }); }; _proto5._parseObjectTypeExtension = function _parseObjectTypeExtension(node) { var type = this._types.get(node.name.value); if (!(type instanceof ObjectType)) { throw createCompilerError("_parseObjectTypeExtension: Expected to find type with the name '".concat(node.name.value, "'"), null, [node]); } node.fields && this._handleTypeFields(type, node.fields, true /** client fields */ ); }; _proto5._parseInterfaceTypeExtension = function _parseInterfaceTypeExtension(node) { var type = this._types.get(node.name.value); if (!(type instanceof InterfaceType)) { throw createCompilerError('_parseInterfaceTypeExtension: Expected to have an interface type'); } node.fields && this._handleTypeFields(type, node.fields, true); }; _proto5._extend = function _extend(extensions) { var _this9 = this; extensions.forEach(function (definition) { if (definition.kind === 'ObjectTypeDefinition') { _this9._parseObjectTypeNode(definition, true); } else if (definition.kind === 'InterfaceTypeDefinition') { _this9._parseInterfaceNode(definition, true); } else if (definition.kind === 'ScalarTypeDefinition') { _this9._parseScalarNode(definition, true); } else if (definition.kind === 'EnumTypeDefinition') { _this9._parseEnumNode(definition, true); } else if (definition.kind === 'InterfaceTypeExtension') { _this9._parseInterfaceTypeExtension(definition); } else if (definition.kind === 'ObjectTypeExtension') { _this9._parseObjectTypeExtension(definition); } else if (definition.kind === 'DirectiveDefinition') { _this9._parseDirective(definition, true /* client directive */ ); } else { throw createCompilerError("Unexpected extension kind: '".concat(definition.kind, "'"), null, [definition]); } }); }; _proto5.getTypes = function getTypes() { return Array.from(this._types.values()); }; _proto5.getTypeByName = function getTypeByName(typename) { return this._types.get(typename); }; _proto5.getInterfaces = function getInterfaces(type) { var _this$_typeInterfaces; return (_this$_typeInterfaces = this._typeInterfaces.get(type)) !== null && _this$_typeInterfaces !== void 0 ? _this$_typeInterfaces : []; }; _proto5.getPossibleTypeSet = function getPossibleTypeSet(type) { var set; if (type instanceof InterfaceType) { var _this$_interfaceImple2; set = (_this$_interfaceImple2 = this._interfaceImplementations.get(type)) !== null && _this$_interfaceImple2 !== void 0 ? _this$_interfaceImple2 : new Set(); } else if (type instanceof UnionType) { var _this$_unionTypes$get; set = (_this$_unionTypes$get = this._unionTypes.get(type)) !== null && _this$_unionTypes$get !== void 0 ? _this$_unionTypes$get : new Set(); } else { throw createCompilerError('Invalid type supplied to "getPossibleTypeSet"'); } if (!set) { throw createCompilerError("Unable to find possible types for ".concat(type.name)); } return set; }; _proto5.getFetchableFieldName = function getFetchableFieldName(type) { var _this$_fetchable$get$, _this$_fetchable$get; return (_this$_fetchable$get$ = (_this$_fetchable$get = this._fetchable.get(type)) === null || _this$_fetchable$get === void 0 ? void 0 : _this$_fetchable$get.field_name) !== null && _this$_fetchable$get$ !== void 0 ? _this$_fetchable$get$ : null; }; _proto5.getQueryType = function getQueryType() { return this._types.get(this._queryTypeName); }; _proto5.getMutationType = function getMutationType() { return this._types.get(this._mutationTypeName); }; _proto5.getSubscriptionType = function getSubscriptio