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'use strict';

Object.defineProperty(exports, "__esModule", {
  value: true
});
exports.visit = visit;
exports.visitInParallel = visitInParallel;
exports.visitWithTypeInfo = visitWithTypeInfo;
exports.getVisitFn = getVisitFn;
/**
 *  Copyright (c) 2015, Facebook, Inc.
 *  All rights reserved.
 *
 *  This source code is licensed under the BSD-style license found in the
 *  LICENSE file in the root directory of this source tree. An additional grant
 *  of patent rights can be found in the PATENTS file in the same directory.
 */

var QueryDocumentKeys = exports.QueryDocumentKeys = {
  Name: [],

  Document: ['definitions'],
  OperationDefinition: ['name', 'variableDefinitions', 'directives', 'selectionSet'],
  VariableDefinition: ['variable', 'type', 'defaultValue'],
  Variable: ['name'],
  SelectionSet: ['selections'],
  Field: ['alias', 'name', 'arguments', 'directives', 'selectionSet'],
  Argument: ['name', 'value'],

  FragmentSpread: ['name', 'directives'],
  InlineFragment: ['typeCondition', 'directives', 'selectionSet'],
  FragmentDefinition: ['name', '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: ['directives', 'operationTypes'],
  OperationTypeDefinition: ['type'],

  ScalarTypeDefinition: ['name', 'directives'],
  ObjectTypeDefinition: ['name', 'interfaces', 'directives', 'fields'],
  FieldDefinition: ['name', 'arguments', 'type', 'directives'],
  InputValueDefinition: ['name', 'type', 'defaultValue', 'directives'],
  InterfaceTypeDefinition: ['name', 'directives', 'fields'],
  UnionTypeDefinition: ['name', 'directives', 'types'],
  EnumTypeDefinition: ['name', 'directives', 'values'],
  EnumValueDefinition: ['name', 'directives'],
  InputObjectTypeDefinition: ['name', 'directives', 'fields'],

  TypeExtensionDefinition: ['definition'],

  DirectiveDefinition: ['name', 'arguments', 'locations']
};

var BREAK = exports.BREAK = {};

/**
 * 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
 *         }
 *       }
 *     })
 */
function visit(root, visitor, keyMap) {
  var visitorKeys = keyMap || QueryDocumentKeys;

  var stack = void 0;
  var inArray = Array.isArray(root);
  var keys = [root];
  var index = -1;
  var edits = [];
  var parent = void 0;
  var path = [];
  var ancestors = [];
  var newRoot = root;

  do {
    index++;
    var isLeaving = index === keys.length;
    var key = void 0;
    var node = void 0;
    var isEdited = isLeaving && edits.length !== 0;
    if (isLeaving) {
      key = ancestors.length === 0 ? undefined : path.pop();
      node = parent;
      parent = ancestors.pop();
      if (isEdited) {
        if (inArray) {
          node = node.slice();
        } else {
          var clone = {};
          for (var k in node) {
            if (node.hasOwnProperty(k)) {
              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 (!isNode(node)) {
        throw new Error('Invalid AST Node: ' + JSON.stringify(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 (isNode(result)) {
              node = result;
            } else {
              path.pop();
              continue;
            }
          }
        }
      }
    }

    if (result === undefined && isEdited) {
      edits.push([key, node]);
    }

    if (!isLeaving) {
      stack = { inArray: inArray, index: index, keys: keys, edits: edits, prev: stack };
      inArray = Array.isArray(node);
      keys = inArray ? node : visitorKeys[node.kind] || [];
      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;
}

function isNode(maybeNode) {
  return maybeNode && typeof maybeNode.kind === 'string';
}

/**
 * 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]) {
          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]) {
          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;
        }
      }
    }
  };
}

/**
 * Creates a new visitor instance which maintains a provided TypeInfo instance
 * along with visiting visitor.
 */
function visitWithTypeInfo(typeInfo, visitor) {
  return {
    enter: function enter(node) {
      typeInfo.enter(node);
      var fn = getVisitFn(visitor, node.kind, /* isLeaving */false);
      if (fn) {
        var result = fn.apply(visitor, arguments);
        if (result !== undefined) {
          typeInfo.leave(node);
          if (isNode(result)) {
            typeInfo.enter(result);
          }
        }
        return result;
      }
    },
    leave: function leave(node) {
      var fn = getVisitFn(visitor, node.kind, /* isLeaving */true);
      var result = void 0;
      if (fn) {
        result = fn.apply(visitor, arguments);
      }
      typeInfo.leave(node);
      return result;
    }
  };
}

/**
 * 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;
      }
    }
  }
}




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