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bbaf619f63
swc_bundler: - [x] Fix wrapped esms. (denoland/deno#9307) - [x] Make test secure.
376 lines
9.4 KiB
TypeScript
376 lines
9.4 KiB
TypeScript
// Loaded from https://deno.land/x/graphql_deno@v15.0.0/lib/utilities/TypeInfo.js
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import find from '../polyfills/find.js';
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import { Kind } from '../language/kinds.js';
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import { getVisitFn } from '../language/visitor.js';
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import { isNode } from '../language/ast.js';
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import { isObjectType, isInterfaceType, isEnumType, isInputObjectType, isListType, isCompositeType, isInputType, isOutputType, getNullableType, getNamedType } from '../type/definition.js';
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import { SchemaMetaFieldDef, TypeMetaFieldDef, TypeNameMetaFieldDef } from '../type/introspection.js';
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import { typeFromAST } from './typeFromAST.js';
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/**
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* TypeInfo is a utility class which, given a GraphQL schema, can keep track
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* of the current field and type definitions at any point in a GraphQL document
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* AST during a recursive descent by calling `enter(node)` and `leave(node)`.
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*/
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export class TypeInfo {
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constructor(schema, // NOTE: this experimental optional second parameter is only needed in order
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// to support non-spec-compliant code bases. You should never need to use it.
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// It may disappear in the future.
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getFieldDefFn, // Initial type may be provided in rare cases to facilitate traversals
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// beginning somewhere other than documents.
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initialType) {
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this._schema = schema;
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this._typeStack = [];
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this._parentTypeStack = [];
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this._inputTypeStack = [];
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this._fieldDefStack = [];
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this._defaultValueStack = [];
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this._directive = null;
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this._argument = null;
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this._enumValue = null;
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this._getFieldDef = getFieldDefFn ?? getFieldDef;
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if (initialType) {
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if (isInputType(initialType)) {
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this._inputTypeStack.push(initialType);
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}
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if (isCompositeType(initialType)) {
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this._parentTypeStack.push(initialType);
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}
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if (isOutputType(initialType)) {
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this._typeStack.push(initialType);
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}
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}
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}
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getType() {
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if (this._typeStack.length > 0) {
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return this._typeStack[this._typeStack.length - 1];
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}
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}
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getParentType() {
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if (this._parentTypeStack.length > 0) {
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return this._parentTypeStack[this._parentTypeStack.length - 1];
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}
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}
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getInputType() {
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if (this._inputTypeStack.length > 0) {
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return this._inputTypeStack[this._inputTypeStack.length - 1];
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}
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}
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getParentInputType() {
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if (this._inputTypeStack.length > 1) {
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return this._inputTypeStack[this._inputTypeStack.length - 2];
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}
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}
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getFieldDef() {
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if (this._fieldDefStack.length > 0) {
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return this._fieldDefStack[this._fieldDefStack.length - 1];
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}
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}
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getDefaultValue() {
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if (this._defaultValueStack.length > 0) {
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return this._defaultValueStack[this._defaultValueStack.length - 1];
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}
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}
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getDirective() {
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return this._directive;
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}
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getArgument() {
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return this._argument;
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}
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getEnumValue() {
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return this._enumValue;
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}
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enter(node) {
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const schema = this._schema; // Note: many of the types below are explicitly typed as "mixed" to drop
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// any assumptions of a valid schema to ensure runtime types are properly
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// checked before continuing since TypeInfo is used as part of validation
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// which occurs before guarantees of schema and document validity.
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switch (node.kind) {
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case Kind.SELECTION_SET:
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{
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const namedType = getNamedType(this.getType());
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this._parentTypeStack.push(isCompositeType(namedType) ? namedType : undefined);
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break;
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}
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case Kind.FIELD:
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{
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const parentType = this.getParentType();
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let fieldDef;
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let fieldType;
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if (parentType) {
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fieldDef = this._getFieldDef(schema, parentType, node);
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if (fieldDef) {
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fieldType = fieldDef.type;
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}
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}
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this._fieldDefStack.push(fieldDef);
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this._typeStack.push(isOutputType(fieldType) ? fieldType : undefined);
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break;
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}
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case Kind.DIRECTIVE:
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this._directive = schema.getDirective(node.name.value);
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break;
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case Kind.OPERATION_DEFINITION:
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{
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let type;
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switch (node.operation) {
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case 'query':
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type = schema.getQueryType();
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break;
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case 'mutation':
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type = schema.getMutationType();
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break;
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case 'subscription':
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type = schema.getSubscriptionType();
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break;
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}
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this._typeStack.push(isObjectType(type) ? type : undefined);
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break;
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}
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case Kind.INLINE_FRAGMENT:
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case Kind.FRAGMENT_DEFINITION:
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{
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const typeConditionAST = node.typeCondition;
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const outputType = typeConditionAST ? typeFromAST(schema, typeConditionAST) : getNamedType(this.getType());
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this._typeStack.push(isOutputType(outputType) ? outputType : undefined);
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break;
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}
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case Kind.VARIABLE_DEFINITION:
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{
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const inputType = typeFromAST(schema, node.type);
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this._inputTypeStack.push(isInputType(inputType) ? inputType : undefined);
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break;
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}
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case Kind.ARGUMENT:
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{
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let argDef;
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let argType;
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const fieldOrDirective = this.getDirective() ?? this.getFieldDef();
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if (fieldOrDirective) {
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argDef = find(fieldOrDirective.args, arg => arg.name === node.name.value);
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if (argDef) {
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argType = argDef.type;
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}
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}
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this._argument = argDef;
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this._defaultValueStack.push(argDef ? argDef.defaultValue : undefined);
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this._inputTypeStack.push(isInputType(argType) ? argType : undefined);
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break;
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}
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case Kind.LIST:
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{
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const listType = getNullableType(this.getInputType());
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const itemType = isListType(listType) ? listType.ofType : listType; // List positions never have a default value.
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this._defaultValueStack.push(undefined);
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this._inputTypeStack.push(isInputType(itemType) ? itemType : undefined);
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break;
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}
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case Kind.OBJECT_FIELD:
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{
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const objectType = getNamedType(this.getInputType());
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let inputFieldType;
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let inputField;
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if (isInputObjectType(objectType)) {
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inputField = objectType.getFields()[node.name.value];
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if (inputField) {
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inputFieldType = inputField.type;
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}
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}
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this._defaultValueStack.push(inputField ? inputField.defaultValue : undefined);
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this._inputTypeStack.push(isInputType(inputFieldType) ? inputFieldType : undefined);
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break;
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}
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case Kind.ENUM:
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{
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const enumType = getNamedType(this.getInputType());
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let enumValue;
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if (isEnumType(enumType)) {
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enumValue = enumType.getValue(node.value);
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}
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this._enumValue = enumValue;
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break;
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}
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}
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}
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leave(node) {
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switch (node.kind) {
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case Kind.SELECTION_SET:
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this._parentTypeStack.pop();
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break;
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case Kind.FIELD:
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this._fieldDefStack.pop();
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this._typeStack.pop();
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break;
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case Kind.DIRECTIVE:
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this._directive = null;
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break;
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case Kind.OPERATION_DEFINITION:
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case Kind.INLINE_FRAGMENT:
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case Kind.FRAGMENT_DEFINITION:
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this._typeStack.pop();
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break;
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case Kind.VARIABLE_DEFINITION:
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this._inputTypeStack.pop();
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break;
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case Kind.ARGUMENT:
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this._argument = null;
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this._defaultValueStack.pop();
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this._inputTypeStack.pop();
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break;
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case Kind.LIST:
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case Kind.OBJECT_FIELD:
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this._defaultValueStack.pop();
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this._inputTypeStack.pop();
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break;
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case Kind.ENUM:
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this._enumValue = null;
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break;
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}
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}
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}
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/**
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* Not exactly the same as the executor's definition of getFieldDef, in this
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* statically evaluated environment we do not always have an Object type,
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* and need to handle Interface and Union types.
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*/
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function getFieldDef(schema, parentType, fieldNode) {
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const name = fieldNode.name.value;
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if (name === SchemaMetaFieldDef.name && schema.getQueryType() === parentType) {
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return SchemaMetaFieldDef;
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}
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if (name === TypeMetaFieldDef.name && schema.getQueryType() === parentType) {
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return TypeMetaFieldDef;
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}
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if (name === TypeNameMetaFieldDef.name && isCompositeType(parentType)) {
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return TypeNameMetaFieldDef;
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}
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if (isObjectType(parentType) || isInterfaceType(parentType)) {
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return parentType.getFields()[name];
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}
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}
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/**
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* Creates a new visitor instance which maintains a provided TypeInfo instance
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* along with visiting visitor.
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*/
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export function visitWithTypeInfo(typeInfo, visitor) {
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return {
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enter(node) {
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typeInfo.enter(node);
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const fn = getVisitFn(visitor, node.kind,
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/* isLeaving */
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false);
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if (fn) {
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const result = fn.apply(visitor, arguments);
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if (result !== undefined) {
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typeInfo.leave(node);
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if (isNode(result)) {
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typeInfo.enter(result);
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}
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}
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return result;
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}
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},
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leave(node) {
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const fn = getVisitFn(visitor, node.kind,
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/* isLeaving */
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true);
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let result;
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if (fn) {
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result = fn.apply(visitor, arguments);
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}
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typeInfo.leave(node);
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return result;
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}
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};
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} |