Front end of the Slack clone application.

fast-path.js 13KB

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  1. var assert = require("assert");
  2. var types = require("./types");
  3. var n = types.namedTypes;
  4. var Node = n.Node;
  5. var isArray = types.builtInTypes.array;
  6. var isNumber = types.builtInTypes.number;
  7. function FastPath(value) {
  8. assert.ok(this instanceof FastPath);
  9. this.stack = [value];
  10. }
  11. var FPp = FastPath.prototype;
  12. module.exports = FastPath;
  13. // Static convenience function for coercing a value to a FastPath.
  14. FastPath.from = function(obj) {
  15. if (obj instanceof FastPath) {
  16. // Return a defensive copy of any existing FastPath instances.
  17. return obj.copy();
  18. }
  19. if (obj instanceof types.NodePath) {
  20. // For backwards compatibility, unroll NodePath instances into
  21. // lightweight FastPath [..., name, value] stacks.
  22. var copy = Object.create(FastPath.prototype);
  23. var stack = [obj.value];
  24. for (var pp; (pp = obj.parentPath); obj = pp)
  25. stack.push(obj.name, pp.value);
  26. copy.stack = stack.reverse();
  27. return copy;
  28. }
  29. // Otherwise use obj as the value of the new FastPath instance.
  30. return new FastPath(obj);
  31. };
  32. FPp.copy = function copy() {
  33. var copy = Object.create(FastPath.prototype);
  34. copy.stack = this.stack.slice(0);
  35. return copy;
  36. };
  37. // The name of the current property is always the penultimate element of
  38. // this.stack, and always a String.
  39. FPp.getName = function getName() {
  40. var s = this.stack;
  41. var len = s.length;
  42. if (len > 1) {
  43. return s[len - 2];
  44. }
  45. // Since the name is always a string, null is a safe sentinel value to
  46. // return if we do not know the name of the (root) value.
  47. return null;
  48. };
  49. // The value of the current property is always the final element of
  50. // this.stack.
  51. FPp.getValue = function getValue() {
  52. var s = this.stack;
  53. return s[s.length - 1];
  54. };
  55. function getNodeHelper(path, count) {
  56. var s = path.stack;
  57. for (var i = s.length - 1; i >= 0; i -= 2) {
  58. var value = s[i];
  59. if (n.Node.check(value) && --count < 0) {
  60. return value;
  61. }
  62. }
  63. return null;
  64. }
  65. FPp.getNode = function getNode(count) {
  66. return getNodeHelper(this, ~~count);
  67. };
  68. FPp.getParentNode = function getParentNode(count) {
  69. return getNodeHelper(this, ~~count + 1);
  70. };
  71. // The length of the stack can be either even or odd, depending on whether
  72. // or not we have a name for the root value. The difference between the
  73. // index of the root value and the index of the final value is always
  74. // even, though, which allows us to return the root value in constant time
  75. // (i.e. without iterating backwards through the stack).
  76. FPp.getRootValue = function getRootValue() {
  77. var s = this.stack;
  78. if (s.length % 2 === 0) {
  79. return s[1];
  80. }
  81. return s[0];
  82. };
  83. // Temporarily push properties named by string arguments given after the
  84. // callback function onto this.stack, then call the callback with a
  85. // reference to this (modified) FastPath object. Note that the stack will
  86. // be restored to its original state after the callback is finished, so it
  87. // is probably a mistake to retain a reference to the path.
  88. FPp.call = function call(callback/*, name1, name2, ... */) {
  89. var s = this.stack;
  90. var origLen = s.length;
  91. var value = s[origLen - 1];
  92. var argc = arguments.length;
  93. for (var i = 1; i < argc; ++i) {
  94. var name = arguments[i];
  95. value = value[name];
  96. s.push(name, value);
  97. }
  98. var result = callback(this);
  99. s.length = origLen;
  100. return result;
  101. };
  102. // Similar to FastPath.prototype.call, except that the value obtained by
  103. // accessing this.getValue()[name1][name2]... should be array-like. The
  104. // callback will be called with a reference to this path object for each
  105. // element of the array.
  106. FPp.each = function each(callback/*, name1, name2, ... */) {
  107. var s = this.stack;
  108. var origLen = s.length;
  109. var value = s[origLen - 1];
  110. var argc = arguments.length;
  111. for (var i = 1; i < argc; ++i) {
  112. var name = arguments[i];
  113. value = value[name];
  114. s.push(name, value);
  115. }
  116. for (var i = 0; i < value.length; ++i) {
  117. if (i in value) {
  118. s.push(i, value[i]);
  119. // If the callback needs to know the value of i, call
  120. // path.getName(), assuming path is the parameter name.
  121. callback(this);
  122. s.length -= 2;
  123. }
  124. }
  125. s.length = origLen;
  126. };
  127. // Similar to FastPath.prototype.each, except that the results of the
  128. // callback function invocations are stored in an array and returned at
  129. // the end of the iteration.
  130. FPp.map = function map(callback/*, name1, name2, ... */) {
  131. var s = this.stack;
  132. var origLen = s.length;
  133. var value = s[origLen - 1];
  134. var argc = arguments.length;
  135. for (var i = 1; i < argc; ++i) {
  136. var name = arguments[i];
  137. value = value[name];
  138. s.push(name, value);
  139. }
  140. var result = new Array(value.length);
  141. for (var i = 0; i < value.length; ++i) {
  142. if (i in value) {
  143. s.push(i, value[i]);
  144. result[i] = callback(this, i);
  145. s.length -= 2;
  146. }
  147. }
  148. s.length = origLen;
  149. return result;
  150. };
  151. // Inspired by require("ast-types").NodePath.prototype.needsParens, but
  152. // more efficient because we're iterating backwards through a stack.
  153. FPp.needsParens = function(assumeExpressionContext) {
  154. var parent = this.getParentNode();
  155. if (!parent) {
  156. return false;
  157. }
  158. var name = this.getName();
  159. var node = this.getNode();
  160. // If the value of this path is some child of a Node and not a Node
  161. // itself, then it doesn't need parentheses. Only Node objects (in
  162. // fact, only Expression nodes) need parentheses.
  163. if (this.getValue() !== node) {
  164. return false;
  165. }
  166. // Only expressions need parentheses.
  167. if (!n.Expression.check(node)) {
  168. return false;
  169. }
  170. // Identifiers never need parentheses.
  171. if (node.type === "Identifier") {
  172. return false;
  173. }
  174. if (parent.type === "ParenthesizedExpression") {
  175. return false;
  176. }
  177. switch (node.type) {
  178. case "UnaryExpression":
  179. case "SpreadElement":
  180. case "SpreadProperty":
  181. return parent.type === "MemberExpression"
  182. && name === "object"
  183. && parent.object === node;
  184. case "BinaryExpression":
  185. case "LogicalExpression":
  186. switch (parent.type) {
  187. case "CallExpression":
  188. return name === "callee"
  189. && parent.callee === node;
  190. case "UnaryExpression":
  191. case "SpreadElement":
  192. case "SpreadProperty":
  193. return true;
  194. case "MemberExpression":
  195. return name === "object"
  196. && parent.object === node;
  197. case "BinaryExpression":
  198. case "LogicalExpression":
  199. var po = parent.operator;
  200. var pp = PRECEDENCE[po];
  201. var no = node.operator;
  202. var np = PRECEDENCE[no];
  203. if (pp > np) {
  204. return true;
  205. }
  206. if (pp === np && name === "right") {
  207. assert.strictEqual(parent.right, node);
  208. return true;
  209. }
  210. default:
  211. return false;
  212. }
  213. case "SequenceExpression":
  214. switch (parent.type) {
  215. case "ForStatement":
  216. // Although parentheses wouldn't hurt around sequence
  217. // expressions in the head of for loops, traditional style
  218. // dictates that e.g. i++, j++ should not be wrapped with
  219. // parentheses.
  220. return false;
  221. case "ExpressionStatement":
  222. return name !== "expression";
  223. default:
  224. // Otherwise err on the side of overparenthesization, adding
  225. // explicit exceptions above if this proves overzealous.
  226. return true;
  227. }
  228. case "YieldExpression":
  229. switch (parent.type) {
  230. case "BinaryExpression":
  231. case "LogicalExpression":
  232. case "UnaryExpression":
  233. case "SpreadElement":
  234. case "SpreadProperty":
  235. case "CallExpression":
  236. case "MemberExpression":
  237. case "NewExpression":
  238. case "ConditionalExpression":
  239. case "YieldExpression":
  240. return true;
  241. default:
  242. return false;
  243. }
  244. case "Literal":
  245. return parent.type === "MemberExpression"
  246. && isNumber.check(node.value)
  247. && name === "object"
  248. && parent.object === node;
  249. case "AssignmentExpression":
  250. case "ConditionalExpression":
  251. switch (parent.type) {
  252. case "UnaryExpression":
  253. case "SpreadElement":
  254. case "SpreadProperty":
  255. case "BinaryExpression":
  256. case "LogicalExpression":
  257. return true;
  258. case "CallExpression":
  259. return name === "callee"
  260. && parent.callee === node;
  261. case "ConditionalExpression":
  262. return name === "test"
  263. && parent.test === node;
  264. case "MemberExpression":
  265. return name === "object"
  266. && parent.object === node;
  267. default:
  268. return false;
  269. }
  270. case "ArrowFunctionExpression":
  271. if(parent.type === 'CallExpression' &&
  272. name === 'callee') {
  273. return true;
  274. };
  275. return isBinary(parent);
  276. case "ObjectExpression":
  277. if (parent.type === "ArrowFunctionExpression" &&
  278. name === "body") {
  279. return true;
  280. }
  281. default:
  282. if (parent.type === "NewExpression" &&
  283. name === "callee" &&
  284. parent.callee === node) {
  285. return containsCallExpression(node);
  286. }
  287. }
  288. if (assumeExpressionContext !== true &&
  289. !this.canBeFirstInStatement() &&
  290. this.firstInStatement())
  291. return true;
  292. return false;
  293. };
  294. function isBinary(node) {
  295. return n.BinaryExpression.check(node)
  296. || n.LogicalExpression.check(node);
  297. }
  298. function isUnaryLike(node) {
  299. return n.UnaryExpression.check(node)
  300. // I considered making SpreadElement and SpreadProperty subtypes
  301. // of UnaryExpression, but they're not really Expression nodes.
  302. || (n.SpreadElement && n.SpreadElement.check(node))
  303. || (n.SpreadProperty && n.SpreadProperty.check(node));
  304. }
  305. var PRECEDENCE = {};
  306. [["||"],
  307. ["&&"],
  308. ["|"],
  309. ["^"],
  310. ["&"],
  311. ["==", "===", "!=", "!=="],
  312. ["<", ">", "<=", ">=", "in", "instanceof"],
  313. [">>", "<<", ">>>"],
  314. ["+", "-"],
  315. ["*", "/", "%"]
  316. ].forEach(function(tier, i) {
  317. tier.forEach(function(op) {
  318. PRECEDENCE[op] = i;
  319. });
  320. });
  321. function containsCallExpression(node) {
  322. if (n.CallExpression.check(node)) {
  323. return true;
  324. }
  325. if (isArray.check(node)) {
  326. return node.some(containsCallExpression);
  327. }
  328. if (n.Node.check(node)) {
  329. return types.someField(node, function(name, child) {
  330. return containsCallExpression(child);
  331. });
  332. }
  333. return false;
  334. }
  335. FPp.canBeFirstInStatement = function() {
  336. var node = this.getNode();
  337. return !n.FunctionExpression.check(node)
  338. && !n.ObjectExpression.check(node);
  339. };
  340. FPp.firstInStatement = function() {
  341. var s = this.stack;
  342. var parentName, parent;
  343. var childName, child;
  344. for (var i = s.length - 1; i >= 0; i -= 2) {
  345. if (n.Node.check(s[i])) {
  346. childName = parentName;
  347. child = parent;
  348. parentName = s[i - 1];
  349. parent = s[i];
  350. }
  351. if (!parent || !child) {
  352. continue;
  353. }
  354. if (n.BlockStatement.check(parent) &&
  355. parentName === "body" &&
  356. childName === 0) {
  357. assert.strictEqual(parent.body[0], child);
  358. return true;
  359. }
  360. if (n.ExpressionStatement.check(parent) &&
  361. childName === "expression") {
  362. assert.strictEqual(parent.expression, child);
  363. return true;
  364. }
  365. if (n.SequenceExpression.check(parent) &&
  366. parentName === "expressions" &&
  367. childName === 0) {
  368. assert.strictEqual(parent.expressions[0], child);
  369. continue;
  370. }
  371. if (n.CallExpression.check(parent) &&
  372. childName === "callee") {
  373. assert.strictEqual(parent.callee, child);
  374. continue;
  375. }
  376. if (n.MemberExpression.check(parent) &&
  377. childName === "object") {
  378. assert.strictEqual(parent.object, child);
  379. continue;
  380. }
  381. if (n.ConditionalExpression.check(parent) &&
  382. childName === "test") {
  383. assert.strictEqual(parent.test, child);
  384. continue;
  385. }
  386. if (isBinary(parent) &&
  387. childName === "left") {
  388. assert.strictEqual(parent.left, child);
  389. continue;
  390. }
  391. if (n.UnaryExpression.check(parent) &&
  392. !parent.prefix &&
  393. childName === "argument") {
  394. assert.strictEqual(parent.argument, child);
  395. continue;
  396. }
  397. return false;
  398. }
  399. return true;
  400. };