"use strict"; var _Object$keys = require("babel-runtime/core-js/object/keys")["default"]; var _getIterator = require("babel-runtime/core-js/get-iterator")["default"]; var _interopRequireWildcard = require("babel-runtime/helpers/interop-require-wildcard")["default"]; var _interopRequireDefault = require("babel-runtime/helpers/interop-require-default")["default"]; exports.__esModule = true; exports.explode = explode; exports.verify = verify; exports.merge = merge; var _pathLibVirtualTypes = require("./path/lib/virtual-types"); var virtualTypes = _interopRequireWildcard(_pathLibVirtualTypes); var _babelMessages = require("babel-messages"); var messages = _interopRequireWildcard(_babelMessages); var _babelTypes = require("babel-types"); var t = _interopRequireWildcard(_babelTypes); var _lodashLangClone = require("lodash/lang/clone"); var _lodashLangClone2 = _interopRequireDefault(_lodashLangClone); /** * explode() will take a visitor object with all of the various shorthands * that we support, and validates & normalizes it into a common format, ready * to be used in traversal * * The various shorthands are: * * `Identifier() { ... }` -> `Identifier: { enter() { ... } }` * * `"Identifier|NumericLiteral": { ... }` -> `Identifier: { ... }, NumericLiteral: { ... }` * * Aliases in `babel-types`: e.g. `Property: { ... }` -> `ObjectProperty: { ... }, ClassProperty: { ... }` * * Other normalizations are: * * Visitors of virtual types are wrapped, so that they are only visited when * their dynamic check passes * * `enter` and `exit` functions are wrapped in arrays, to ease merging of * visitors */ function explode(visitor) { if (visitor._exploded) return visitor; visitor._exploded = true; // normalise pipes for (var nodeType in visitor) { if (shouldIgnoreKey(nodeType)) continue; var parts = nodeType.split("|"); if (parts.length === 1) continue; var fns = visitor[nodeType]; delete visitor[nodeType]; for (var _i = 0; _i < parts.length; _i++) { var part = parts[_i]; visitor[part] = fns; } } // verify data structure verify(visitor); // make sure there's no __esModule type since this is because we're using loose mode // and it sets __esModule to be enumerable on all modules :( delete visitor.__esModule; // ensure visitors are objects ensureEntranceObjects(visitor); // ensure enter/exit callbacks are arrays ensureCallbackArrays(visitor); // add type wrappers var _arr = _Object$keys(visitor); for (var _i2 = 0; _i2 < _arr.length; _i2++) { var nodeType = _arr[_i2]; if (shouldIgnoreKey(nodeType)) continue; var wrapper = virtualTypes[nodeType]; if (!wrapper) continue; // wrap all the functions var fns = visitor[nodeType]; for (var type in fns) { fns[type] = wrapCheck(wrapper, fns[type]); } // clear it from the visitor delete visitor[nodeType]; if (wrapper.types) { var _arr2 = wrapper.types; for (var _i4 = 0; _i4 < _arr2.length; _i4++) { var type = _arr2[_i4]; // merge the visitor if necessary or just put it back in if (visitor[type]) { mergePair(visitor[type], fns); } else { visitor[type] = fns; } } } else { mergePair(visitor, fns); } } // add aliases for (var nodeType in visitor) { if (shouldIgnoreKey(nodeType)) continue; var fns = visitor[nodeType]; var aliases = t.FLIPPED_ALIAS_KEYS[nodeType]; var deprecratedKey = t.DEPRECATED_KEYS[nodeType]; if (deprecratedKey) { console.trace("Visitor defined for " + nodeType + " but it has been renamed to " + deprecratedKey); aliases = [deprecratedKey]; } if (!aliases) continue; // clear it from the visitor delete visitor[nodeType]; for (var _iterator = aliases, _isArray = Array.isArray(_iterator), _i3 = 0, _iterator = _isArray ? _iterator : _getIterator(_iterator);;) { var _ref; if (_isArray) { if (_i3 >= _iterator.length) break; _ref = _iterator[_i3++]; } else { _i3 = _iterator.next(); if (_i3.done) break; _ref = _i3.value; } var alias = _ref; var existing = visitor[alias]; if (existing) { mergePair(existing, fns); } else { visitor[alias] = _lodashLangClone2["default"](fns); } } } for (var nodeType in visitor) { if (shouldIgnoreKey(nodeType)) continue; ensureCallbackArrays(visitor[nodeType]); } return visitor; } function verify(visitor) { if (visitor._verified) return; if (typeof visitor === "function") { throw new Error(messages.get("traverseVerifyRootFunction")); } for (var nodeType in visitor) { if (nodeType === "enter" || nodeType === "exit") { validateVisitorMethods(nodeType, visitor[nodeType]); } if (shouldIgnoreKey(nodeType)) continue; if (t.TYPES.indexOf(nodeType) < 0) { throw new Error(messages.get("traverseVerifyNodeType", nodeType)); } var visitors = visitor[nodeType]; if (typeof visitors === "object") { for (var visitorKey in visitors) { if (visitorKey === "enter" || visitorKey === "exit") { // verify that it just contains functions validateVisitorMethods(nodeType + "." + visitorKey, visitors[visitorKey]); } else { throw new Error(messages.get("traverseVerifyVisitorProperty", nodeType, visitorKey)); } } } } visitor._verified = true; } function validateVisitorMethods(path, val) { var fns = [].concat(val); for (var _iterator2 = fns, _isArray2 = Array.isArray(_iterator2), _i5 = 0, _iterator2 = _isArray2 ? _iterator2 : _getIterator(_iterator2);;) { var _ref2; if (_isArray2) { if (_i5 >= _iterator2.length) break; _ref2 = _iterator2[_i5++]; } else { _i5 = _iterator2.next(); if (_i5.done) break; _ref2 = _i5.value; } var fn = _ref2; if (typeof fn !== "function") { throw new TypeError("Non-function found defined in " + path + " with type " + typeof fn); } } } function merge(visitors) { var states = arguments.length <= 1 || arguments[1] === undefined ? [] : arguments[1]; var rootVisitor = {}; for (var i = 0; i < visitors.length; i++) { var visitor = visitors[i]; var state = states[i]; explode(visitor); for (var type in visitor) { var visitorType = visitor[type]; // if we have state then overload the callbacks to take it if (state) visitorType = wrapWithState(visitorType, state); var nodeVisitor = rootVisitor[type] = rootVisitor[type] || {}; mergePair(nodeVisitor, visitorType); } } return rootVisitor; } function wrapWithState(oldVisitor, state) { var newVisitor = {}; for (var key in oldVisitor) { var fns = oldVisitor[key]; // not an enter/exit array of callbacks if (!Array.isArray(fns)) continue; fns = fns.map(function (fn) { var newFn = function newFn(path) { return fn.call(state, path, state); }; newFn.toString = function () { return fn.toString(); }; return newFn; }); newVisitor[key] = fns; } return newVisitor; } function ensureEntranceObjects(obj) { for (var key in obj) { if (shouldIgnoreKey(key)) continue; var fns = obj[key]; if (typeof fns === "function") { obj[key] = { enter: fns }; } } } function ensureCallbackArrays(obj) { if (obj.enter && !Array.isArray(obj.enter)) obj.enter = [obj.enter]; if (obj.exit && !Array.isArray(obj.exit)) obj.exit = [obj.exit]; } function wrapCheck(wrapper, fn) { var newFn = function newFn(path) { if (wrapper.checkPath(path)) { return fn.apply(this, arguments); } }; newFn.toString = function () { return fn.toString(); }; return newFn; } function shouldIgnoreKey(key) { // internal/hidden key if (key[0] === "_") return true; // ignore function keys if (key === "enter" || key === "exit" || key === "shouldSkip") return true; // ignore other options if (key === "blacklist" || key === "noScope" || key === "skipKeys") return true; return false; } function mergePair(dest, src) { for (var key in src) { dest[key] = [].concat(dest[key] || [], src[key]); } }