"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.visit = visit; exports.visitInParallel = visitInParallel; exports.getVisitFn = getVisitFn; exports.BREAK = exports.QueryDocumentKeys = void 0; var _inspect = _interopRequireDefault(require("../jsutils/inspect")); var _ast = require("./ast"); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } var QueryDocumentKeys = { Name: [], Document: ['definitions'], OperationDefinition: ['name', 'variableDefinitions', 'directives', 'selectionSet'], VariableDefinition: ['variable', 'type', 'defaultValue', 'directives'], Variable: ['name'], SelectionSet: ['selections'], Field: ['alias', 'name', 'arguments', 'directives', 'selectionSet'], Argument: ['name', 'value'], FragmentSpread: ['name', 'directives'], InlineFragment: ['typeCondition', 'directives', 'selectionSet'], FragmentDefinition: ['name', // Note: fragment variable definitions are experimental and may be changed // or removed in the future. 'variableDefinitions', 'typeCondition', 'directives', 'selectionSet'], IntValue: [], FloatValue: [], StringValue: [], BooleanValue: [], NullValue: [], EnumValue: [], ListValue: ['values'], ObjectValue: ['fields'], ObjectField: ['name', 'value'], Directive: ['name', 'arguments'], NamedType: ['name'], ListType: ['type'], NonNullType: ['type'], SchemaDefinition: ['description', 'directives', 'operationTypes'], OperationTypeDefinition: ['type'], ScalarTypeDefinition: ['description', 'name', 'directives'], ObjectTypeDefinition: ['description', 'name', 'interfaces', 'directives', 'fields'], FieldDefinition: ['description', 'name', 'arguments', 'type', 'directives'], InputValueDefinition: ['description', 'name', 'type', 'defaultValue', 'directives'], InterfaceTypeDefinition: ['description', 'name', 'interfaces', 'directives', 'fields'], UnionTypeDefinition: ['description', 'name', 'directives', 'types'], EnumTypeDefinition: ['description', 'name', 'directives', 'values'], EnumValueDefinition: ['description', 'name', 'directives'], InputObjectTypeDefinition: ['description', 'name', 'directives', 'fields'], DirectiveDefinition: ['description', 'name', 'arguments', 'locations'], SchemaExtension: ['directives', 'operationTypes'], ScalarTypeExtension: ['name', 'directives'], ObjectTypeExtension: ['name', 'interfaces', 'directives', 'fields'], InterfaceTypeExtension: ['name', 'interfaces', 'directives', 'fields'], UnionTypeExtension: ['name', 'directives', 'types'], EnumTypeExtension: ['name', 'directives', 'values'], InputObjectTypeExtension: ['name', 'directives', 'fields'] }; exports.QueryDocumentKeys = QueryDocumentKeys; var BREAK = Object.freeze({}); /** * visit() will walk through an AST using a depth first traversal, calling * the visitor's enter function at each node in the traversal, and calling the * leave function after visiting that node and all of its child nodes. * * By returning different values from the enter and leave functions, the * behavior of the visitor can be altered, including skipping over a sub-tree of * the AST (by returning false), editing the AST by returning a value or null * to remove the value, or to stop the whole traversal by returning BREAK. * * When using visit() to edit an AST, the original AST will not be modified, and * a new version of the AST with the changes applied will be returned from the * visit function. * * const editedAST = visit(ast, { * enter(node, key, parent, path, ancestors) { * // @return * // undefined: no action * // false: skip visiting this node * // visitor.BREAK: stop visiting altogether * // null: delete this node * // any value: replace this node with the returned value * }, * leave(node, key, parent, path, ancestors) { * // @return * // undefined: no action * // false: no action * // visitor.BREAK: stop visiting altogether * // null: delete this node * // any value: replace this node with the returned value * } * }); * * Alternatively to providing enter() and leave() functions, a visitor can * instead provide functions named the same as the kinds of AST nodes, or * enter/leave visitors at a named key, leading to four permutations of * visitor API: * * 1) Named visitors triggered when entering a node a specific kind. * * visit(ast, { * Kind(node) { * // enter the "Kind" node * } * }) * * 2) Named visitors that trigger upon entering and leaving a node of * a specific kind. * * visit(ast, { * Kind: { * enter(node) { * // enter the "Kind" node * } * leave(node) { * // leave the "Kind" node * } * } * }) * * 3) Generic visitors that trigger upon entering and leaving any node. * * visit(ast, { * enter(node) { * // enter any node * }, * leave(node) { * // leave any node * } * }) * * 4) Parallel visitors for entering and leaving nodes of a specific kind. * * visit(ast, { * enter: { * Kind(node) { * // enter the "Kind" node * } * }, * leave: { * Kind(node) { * // leave the "Kind" node * } * } * }) */ exports.BREAK = BREAK; function visit(root, visitor) { var visitorKeys = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : QueryDocumentKeys; /* eslint-disable no-undef-init */ var stack = undefined; var inArray = Array.isArray(root); var keys = [root]; var index = -1; var edits = []; var node = undefined; var key = undefined; var parent = undefined; var path = []; var ancestors = []; var newRoot = root; /* eslint-enable no-undef-init */ do { index++; var isLeaving = index === keys.length; var isEdited = isLeaving && edits.length !== 0; if (isLeaving) { key = ancestors.length === 0 ? undefined : path[path.length - 1]; node = parent; parent = ancestors.pop(); if (isEdited) { if (inArray) { node = node.slice(); } else { var clone = {}; for (var _i2 = 0, _Object$keys2 = Object.keys(node); _i2 < _Object$keys2.length; _i2++) { var k = _Object$keys2[_i2]; clone[k] = node[k]; } node = clone; } var editOffset = 0; for (var ii = 0; ii < edits.length; ii++) { var editKey = edits[ii][0]; var editValue = edits[ii][1]; if (inArray) { editKey -= editOffset; } if (inArray && editValue === null) { node.splice(editKey, 1); editOffset++; } else { node[editKey] = editValue; } } } index = stack.index; keys = stack.keys; edits = stack.edits; inArray = stack.inArray; stack = stack.prev; } else { key = parent ? inArray ? index : keys[index] : undefined; node = parent ? parent[key] : newRoot; if (node === null || node === undefined) { continue; } if (parent) { path.push(key); } } var result = void 0; if (!Array.isArray(node)) { if (!(0, _ast.isNode)(node)) { throw new Error("Invalid AST Node: ".concat((0, _inspect.default)(node), ".")); } var visitFn = getVisitFn(visitor, node.kind, isLeaving); if (visitFn) { result = visitFn.call(visitor, node, key, parent, path, ancestors); if (result === BREAK) { break; } if (result === false) { if (!isLeaving) { path.pop(); continue; } } else if (result !== undefined) { edits.push([key, result]); if (!isLeaving) { if ((0, _ast.isNode)(result)) { node = result; } else { path.pop(); continue; } } } } } if (result === undefined && isEdited) { edits.push([key, node]); } if (isLeaving) { path.pop(); } else { var _visitorKeys$node$kin; stack = { inArray: inArray, index: index, keys: keys, edits: edits, prev: stack }; inArray = Array.isArray(node); keys = inArray ? node : (_visitorKeys$node$kin = visitorKeys[node.kind]) !== null && _visitorKeys$node$kin !== void 0 ? _visitorKeys$node$kin : []; index = -1; edits = []; if (parent) { ancestors.push(parent); } parent = node; } } while (stack !== undefined); if (edits.length !== 0) { newRoot = edits[edits.length - 1][1]; } return newRoot; } /** * Creates a new visitor instance which delegates to many visitors to run in * parallel. Each visitor will be visited for each node before moving on. * * If a prior visitor edits a node, no following visitors will see that node. */ function visitInParallel(visitors) { var skipping = new Array(visitors.length); return { enter: function enter(node) { for (var i = 0; i < visitors.length; i++) { if (skipping[i] == null) { var fn = getVisitFn(visitors[i], node.kind, /* isLeaving */ false); if (fn) { var result = fn.apply(visitors[i], arguments); if (result === false) { skipping[i] = node; } else if (result === BREAK) { skipping[i] = BREAK; } else if (result !== undefined) { return result; } } } } }, leave: function leave(node) { for (var i = 0; i < visitors.length; i++) { if (skipping[i] == null) { var fn = getVisitFn(visitors[i], node.kind, /* isLeaving */ true); if (fn) { var result = fn.apply(visitors[i], arguments); if (result === BREAK) { skipping[i] = BREAK; } else if (result !== undefined && result !== false) { return result; } } } else if (skipping[i] === node) { skipping[i] = null; } } } }; } /** * Given a visitor instance, if it is leaving or not, and a node kind, return * the function the visitor runtime should call. */ function getVisitFn(visitor, kind, isLeaving) { var kindVisitor = visitor[kind]; if (kindVisitor) { if (!isLeaving && typeof kindVisitor === 'function') { // { Kind() {} } return kindVisitor; } var kindSpecificVisitor = isLeaving ? kindVisitor.leave : kindVisitor.enter; if (typeof kindSpecificVisitor === 'function') { // { Kind: { enter() {}, leave() {} } } return kindSpecificVisitor; } } else { var specificVisitor = isLeaving ? visitor.leave : visitor.enter; if (specificVisitor) { if (typeof specificVisitor === 'function') { // { enter() {}, leave() {} } return specificVisitor; } var specificKindVisitor = specificVisitor[kind]; if (typeof specificKindVisitor === 'function') { // { enter: { Kind() {} }, leave: { Kind() {} } } return specificKindVisitor; } } } }