pax_global_header00006660000000000000000000000064133763017420014520gustar00rootroot0000000000000052 comment=10e57d830563180e346cce95614e4bc3c49436f3 ast-types-0.11.7/000077500000000000000000000000001337630174200135375ustar00rootroot00000000000000ast-types-0.11.7/.gitignore000066400000000000000000000000751337630174200155310ustar00rootroot00000000000000node_modules test/data/babylon test/data/typescript-compiler ast-types-0.11.7/.npmignore000066400000000000000000000000241337630174200155320ustar00rootroot00000000000000/node_modules /test ast-types-0.11.7/.travis.yml000066400000000000000000000001301337630174200156420ustar00rootroot00000000000000language: node_js node_js: - "9" - "8" - "7" - "6" - "5" - "4" sudo: false ast-types-0.11.7/LICENSE000066400000000000000000000020631337630174200145450ustar00rootroot00000000000000Copyright (c) 2013 Ben Newman Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ast-types-0.11.7/README.md000066400000000000000000000420641337630174200150240ustar00rootroot00000000000000# AST Types [![Build Status](https://travis-ci.org/benjamn/ast-types.svg?branch=master)](https://travis-ci.org/benjamn/ast-types) [![Greenkeeper badge](https://badges.greenkeeper.io/benjamn/ast-types.svg)](https://greenkeeper.io/) This module provides an efficient, modular, [Esprima](https://github.com/ariya/esprima)-compatible implementation of the [abstract syntax tree](http://en.wikipedia.org/wiki/Abstract_syntax_tree) type hierarchy pioneered by the [Mozilla Parser API](https://developer.mozilla.org/en-US/docs/SpiderMonkey/Parser_API). Installation --- From NPM: npm install ast-types From GitHub: cd path/to/node_modules git clone git://github.com/benjamn/ast-types.git cd ast-types npm install . Basic Usage --- ```js var assert = require("assert"); var n = require("ast-types").namedTypes; var b = require("ast-types").builders; var fooId = b.identifier("foo"); var ifFoo = b.ifStatement(fooId, b.blockStatement([ b.expressionStatement(b.callExpression(fooId, [])) ])); assert.ok(n.IfStatement.check(ifFoo)); assert.ok(n.Statement.check(ifFoo)); assert.ok(n.Node.check(ifFoo)); assert.ok(n.BlockStatement.check(ifFoo.consequent)); assert.strictEqual( ifFoo.consequent.body[0].expression.arguments.length, 0); assert.strictEqual(ifFoo.test, fooId); assert.ok(n.Expression.check(ifFoo.test)); assert.ok(n.Identifier.check(ifFoo.test)); assert.ok(!n.Statement.check(ifFoo.test)); ``` AST Traversal --- Because it understands the AST type system so thoroughly, this library is able to provide excellent node iteration and traversal mechanisms. If you want complete control over the traversal, and all you need is a way of enumerating the known fields of your AST nodes and getting their values, you may be interested in the primitives `getFieldNames` and `getFieldValue`: ```js var types = require("ast-types"); var partialFunExpr = { type: "FunctionExpression" }; // Even though partialFunExpr doesn't actually contain all the fields that // are expected for a FunctionExpression, types.getFieldNames knows: console.log(types.getFieldNames(partialFunExpr)); // [ 'type', 'id', 'params', 'body', 'generator', 'expression', // 'defaults', 'rest', 'async' ] // For fields that have default values, types.getFieldValue will return // the default if the field is not actually defined. console.log(types.getFieldValue(partialFunExpr, "generator")); // false ``` Two more low-level helper functions, `eachField` and `someField`, are defined in terms of `getFieldNames` and `getFieldValue`: ```js // Iterate over all defined fields of an object, including those missing // or undefined, passing each field name and effective value (as returned // by getFieldValue) to the callback. If the object has no corresponding // Def, the callback will never be called. exports.eachField = function(object, callback, context) { getFieldNames(object).forEach(function(name) { callback.call(this, name, getFieldValue(object, name)); }, context); }; // Similar to eachField, except that iteration stops as soon as the // callback returns a truthy value. Like Array.prototype.some, the final // result is either true or false to indicates whether the callback // returned true for any element or not. exports.someField = function(object, callback, context) { return getFieldNames(object).some(function(name) { return callback.call(this, name, getFieldValue(object, name)); }, context); }; ``` So here's how you might make a copy of an AST node: ```js var copy = {}; require("ast-types").eachField(node, function(name, value) { // Note that undefined fields will be visited too, according to // the rules associated with node.type, and default field values // will be substituted if appropriate. copy[name] = value; }) ``` But that's not all! You can also easily visit entire syntax trees using the powerful `types.visit` abstraction. Here's a trivial example of how you might assert that `arguments.callee` is never used in `ast`: ```js var assert = require("assert"); var types = require("ast-types"); var n = types.namedTypes; types.visit(ast, { // This method will be called for any node with .type "MemberExpression": visitMemberExpression: function(path) { // Visitor methods receive a single argument, a NodePath object // wrapping the node of interest. var node = path.node; if (n.Identifier.check(node.object) && node.object.name === "arguments" && n.Identifier.check(node.property)) { assert.notStrictEqual(node.property.name, "callee"); } // It's your responsibility to call this.traverse with some // NodePath object (usually the one passed into the visitor // method) before the visitor method returns, or return false to // indicate that the traversal need not continue any further down // this subtree. this.traverse(path); } }); ``` Here's a slightly more involved example of transforming `...rest` parameters into browser-runnable ES5 JavaScript: ```js var b = types.builders; // Reuse the same AST structure for Array.prototype.slice.call. var sliceExpr = b.memberExpression( b.memberExpression( b.memberExpression( b.identifier("Array"), b.identifier("prototype"), false ), b.identifier("slice"), false ), b.identifier("call"), false ); types.visit(ast, { // This method will be called for any node whose type is a subtype of // Function (e.g., FunctionDeclaration, FunctionExpression, and // ArrowFunctionExpression). Note that types.visit precomputes a // lookup table from every known type to the appropriate visitor // method to call for nodes of that type, so the dispatch takes // constant time. visitFunction: function(path) { // Visitor methods receive a single argument, a NodePath object // wrapping the node of interest. var node = path.node; // It's your responsibility to call this.traverse with some // NodePath object (usually the one passed into the visitor // method) before the visitor method returns, or return false to // indicate that the traversal need not continue any further down // this subtree. An assertion will fail if you forget, which is // awesome, because it means you will never again make the // disastrous mistake of forgetting to traverse a subtree. Also // cool: because you can call this method at any point in the // visitor method, it's up to you whether your traversal is // pre-order, post-order, or both! this.traverse(path); // This traversal is only concerned with Function nodes that have // rest parameters. if (!node.rest) { return; } // For the purposes of this example, we won't worry about functions // with Expression bodies. n.BlockStatement.assert(node.body); // Use types.builders to build a variable declaration of the form // // var rest = Array.prototype.slice.call(arguments, n); // // where `rest` is the name of the rest parameter, and `n` is a // numeric literal specifying the number of named parameters the // function takes. var restVarDecl = b.variableDeclaration("var", [ b.variableDeclarator( node.rest, b.callExpression(sliceExpr, [ b.identifier("arguments"), b.literal(node.params.length) ]) ) ]); // Similar to doing node.body.body.unshift(restVarDecl), except // that the other NodePath objects wrapping body statements will // have their indexes updated to accommodate the new statement. path.get("body", "body").unshift(restVarDecl); // Nullify node.rest now that we have simulated the behavior of // the rest parameter using ordinary JavaScript. path.get("rest").replace(null); // There's nothing wrong with doing node.rest = null, but I wanted // to point out that the above statement has the same effect. assert.strictEqual(node.rest, null); } }); ``` Here's how you might use `types.visit` to implement a function that determines if a given function node refers to `this`: ```js function usesThis(funcNode) { n.Function.assert(funcNode); var result = false; types.visit(funcNode, { visitThisExpression: function(path) { result = true; // The quickest way to terminate the traversal is to call // this.abort(), which throws a special exception (instanceof // this.AbortRequest) that will be caught in the top-level // types.visit method, so you don't have to worry about // catching the exception yourself. this.abort(); }, visitFunction: function(path) { // ThisExpression nodes in nested scopes don't count as `this` // references for the original function node, so we can safely // avoid traversing this subtree. return false; }, visitCallExpression: function(path) { var node = path.node; // If the function contains CallExpression nodes involving // super, those expressions will implicitly depend on the // value of `this`, even though they do not explicitly contain // any ThisExpression nodes. if (this.isSuperCallExpression(node)) { result = true; this.abort(); // Throws AbortRequest exception. } this.traverse(path); }, // Yes, you can define arbitrary helper methods. isSuperCallExpression: function(callExpr) { n.CallExpression.assert(callExpr); return this.isSuperIdentifier(callExpr.callee) || this.isSuperMemberExpression(callExpr.callee); }, // And even helper helper methods! isSuperIdentifier: function(node) { return n.Identifier.check(node.callee) && node.callee.name === "super"; }, isSuperMemberExpression: function(node) { return n.MemberExpression.check(node.callee) && n.Identifier.check(node.callee.object) && node.callee.object.name === "super"; } }); return result; } ``` As you might guess, when an `AbortRequest` is thrown from a subtree, the exception will propagate from the corresponding calls to `this.traverse` in the ancestor visitor methods. If you decide you want to cancel the request, simply catch the exception and call its `.cancel()` method. The rest of the subtree beneath the `try`-`catch` block will be abandoned, but the remaining siblings of the ancestor node will still be visited. NodePath --- The `NodePath` object passed to visitor methods is a wrapper around an AST node, and it serves to provide access to the chain of ancestor objects (all the way back to the root of the AST) and scope information. In general, `path.node` refers to the wrapped node, `path.parent.node` refers to the nearest `Node` ancestor, `path.parent.parent.node` to the grandparent, and so on. Note that `path.node` may not be a direct property value of `path.parent.node`; for instance, it might be the case that `path.node` is an element of an array that is a direct child of the parent node: ```js path.node === path.parent.node.elements[3] ``` in which case you should know that `path.parentPath` provides finer-grained access to the complete path of objects (not just the `Node` ones) from the root of the AST: ```js // In reality, path.parent is the grandparent of path: path.parentPath.parentPath === path.parent // The path.parentPath object wraps the elements array (note that we use // .value because the elements array is not a Node): path.parentPath.value === path.parent.node.elements // The path.node object is the fourth element in that array: path.parentPath.value[3] === path.node // Unlike path.node and path.value, which are synonyms because path.node // is a Node object, path.parentPath.node is distinct from // path.parentPath.value, because the elements array is not a // Node. Instead, path.parentPath.node refers to the closest ancestor // Node, which happens to be the same as path.parent.node: path.parentPath.node === path.parent.node // The path is named for its index in the elements array: path.name === 3 // Likewise, path.parentPath is named for the property by which // path.parent.node refers to it: path.parentPath.name === "elements" // Putting it all together, we can follow the chain of object references // from path.parent.node all the way to path.node by accessing each // property by name: path.parent.node[path.parentPath.name][path.name] === path.node ``` These `NodePath` objects are created during the traversal without modifying the AST nodes themselves, so it's not a problem if the same node appears more than once in the AST (like `Array.prototype.slice.call` in the example above), because it will be visited with a distict `NodePath` each time it appears. Child `NodePath` objects are created lazily, by calling the `.get` method of a parent `NodePath` object: ```js // If a NodePath object for the elements array has never been created // before, it will be created here and cached in the future: path.get("elements").get(3).value === path.value.elements[3] // Alternatively, you can pass multiple property names to .get instead of // chaining multiple .get calls: path.get("elements", 0).value === path.value.elements[0] ``` `NodePath` objects support a number of useful methods: ```js // Replace one node with another node: var fifth = path.get("elements", 4); fifth.replace(newNode); // Now do some stuff that might rearrange the list, and this replacement // remains safe: fifth.replace(newerNode); // Replace the third element in an array with two new nodes: path.get("elements", 2).replace( b.identifier("foo"), b.thisExpression() ); // Remove a node and its parent if it would leave a redundant AST node: //e.g. var t = 1, y =2; removing the `t` and `y` declarators results in `var undefined`. path.prune(); //returns the closest parent `NodePath`. // Remove a node from a list of nodes: path.get("elements", 3).replace(); // Add three new nodes to the beginning of a list of nodes: path.get("elements").unshift(a, b, c); // Remove and return the first node in a list of nodes: path.get("elements").shift(); // Push two new nodes onto the end of a list of nodes: path.get("elements").push(d, e); // Remove and return the last node in a list of nodes: path.get("elements").pop(); // Insert a new node before/after the seventh node in a list of nodes: var seventh = path.get("elements", 6); seventh.insertBefore(newNode); seventh.insertAfter(newNode); // Insert a new element at index 5 in a list of nodes: path.get("elements").insertAt(5, newNode); ``` Scope --- The object exposed as `path.scope` during AST traversals provides information about variable and function declarations in the scope that contains `path.node`. See [scope.js](lib/scope.js) for its public interface, which currently includes `.isGlobal`, `.getGlobalScope()`, `.depth`, `.declares(name)`, `.lookup(name)`, and `.getBindings()`. Custom AST Node Types --- The `ast-types` module was designed to be extended. To that end, it provides a readable, declarative syntax for specifying new AST node types, based primarily upon the `require("ast-types").Type.def` function: ```js var types = require("ast-types"); var def = types.Type.def; var string = types.builtInTypes.string; var b = types.builders; // Suppose you need a named File type to wrap your Programs. def("File") .bases("Node") .build("name", "program") .field("name", string) .field("program", def("Program")); // Prevent further modifications to the File type (and any other // types newly introduced by def(...)). types.finalize(); // The b.file builder function is now available. It expects two // arguments, as named by .build("name", "program") above. var main = b.file("main.js", b.program([ // Pointless program contents included for extra color. b.functionDeclaration(b.identifier("succ"), [ b.identifier("x") ], b.blockStatement([ b.returnStatement( b.binaryExpression( "+", b.identifier("x"), b.literal(1) ) ) ])) ])); assert.strictEqual(main.name, "main.js"); assert.strictEqual(main.program.body[0].params[0].name, "x"); // etc. // If you pass the wrong type of arguments, or fail to pass enough // arguments, an AssertionError will be thrown. b.file(b.blockStatement([])); // ==> AssertionError: {"body":[],"type":"BlockStatement","loc":null} does not match type string b.file("lib/types.js", b.thisExpression()); // ==> AssertionError: {"type":"ThisExpression","loc":null} does not match type Program ``` The `def` syntax is used to define all the default AST node types found in [core.js](def/core.js), [e4x.js](def/e4x.js), [es6.js](def/es6.js), [es7.js](def/es7.js), [flow.js](def/flow.js), and [jsx.js](def/jsx.js), so you have no shortage of examples to learn from. ast-types-0.11.7/def/000077500000000000000000000000001337630174200142755ustar00rootroot00000000000000ast-types-0.11.7/def/babel-core.js000066400000000000000000000177331337630174200166410ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./es7")); var types = fork.use(require("../lib/types")); var defaults = fork.use(require("../lib/shared")).defaults; var def = types.Type.def; var or = types.Type.or; def("Noop") .bases("Statement") .build(); def("DoExpression") .bases("Expression") .build("body") .field("body", [def("Statement")]); def("Super") .bases("Expression") .build(); def("BindExpression") .bases("Expression") .build("object", "callee") .field("object", or(def("Expression"), null)) .field("callee", def("Expression")); def("Decorator") .bases("Node") .build("expression") .field("expression", def("Expression")); def("Property") .field("decorators", or([def("Decorator")], null), defaults["null"]); def("MethodDefinition") .field("decorators", or([def("Decorator")], null), defaults["null"]); def("MetaProperty") .bases("Expression") .build("meta", "property") .field("meta", def("Identifier")) .field("property", def("Identifier")); def("ParenthesizedExpression") .bases("Expression") .build("expression") .field("expression", def("Expression")); def("ImportSpecifier") .bases("ModuleSpecifier") .build("imported", "local") .field("imported", def("Identifier")); def("ImportDefaultSpecifier") .bases("ModuleSpecifier") .build("local"); def("ImportNamespaceSpecifier") .bases("ModuleSpecifier") .build("local"); def("ExportDefaultDeclaration") .bases("Declaration") .build("declaration") .field("declaration", or(def("Declaration"), def("Expression"))); def("ExportNamedDeclaration") .bases("Declaration") .build("declaration", "specifiers", "source") .field("declaration", or(def("Declaration"), null)) .field("specifiers", [def("ExportSpecifier")], defaults.emptyArray) .field("source", or(def("Literal"), null), defaults["null"]); def("ExportSpecifier") .bases("ModuleSpecifier") .build("local", "exported") .field("exported", def("Identifier")); def("ExportNamespaceSpecifier") .bases("Specifier") .build("exported") .field("exported", def("Identifier")); def("ExportDefaultSpecifier") .bases("Specifier") .build("exported") .field("exported", def("Identifier")); def("ExportAllDeclaration") .bases("Declaration") .build("exported", "source") .field("exported", or(def("Identifier"), null)) .field("source", def("Literal")); def("CommentBlock") .bases("Comment") .build("value", /*optional:*/ "leading", "trailing"); def("CommentLine") .bases("Comment") .build("value", /*optional:*/ "leading", "trailing"); def("Directive") .bases("Node") .build("value") .field("value", def("DirectiveLiteral")); def("DirectiveLiteral") .bases("Node", "Expression") .build("value") .field("value", String, defaults["use strict"]); def("BlockStatement") .bases("Statement") .build("body") .field("body", [def("Statement")]) .field("directives", [def("Directive")], defaults.emptyArray); def("Program") .bases("Node") .build("body") .field("body", [def("Statement")]) .field("directives", [def("Directive")], defaults.emptyArray); // Split Literal def("StringLiteral") .bases("Literal") .build("value") .field("value", String); def("NumericLiteral") .bases("Literal") .build("value") .field("value", Number) .field("raw", or(String, null), defaults["null"]) .field("extra", { rawValue: Number, raw: String }, function getDefault() { return { rawValue: this.value, raw: this.value + "" } }); def("BigIntLiteral") .bases("Literal") .build("value") // Only String really seems appropriate here, since BigInt values // often exceed the limits of JS numbers. .field("value", or(String, Number)) .field("extra", { rawValue: String, raw: String }, function getDefault() { return { rawValue: String(this.value), raw: this.value + "n" }; }); def("NullLiteral") .bases("Literal") .build() .field("value", null, defaults["null"]); def("BooleanLiteral") .bases("Literal") .build("value") .field("value", Boolean); def("RegExpLiteral") .bases("Literal") .build("pattern", "flags") .field("pattern", String) .field("flags", String) .field("value", RegExp, function () { return new RegExp(this.pattern, this.flags); }); var ObjectExpressionProperty = or( def("Property"), def("ObjectMethod"), def("ObjectProperty"), def("SpreadProperty"), def("SpreadElement") ); // Split Property -> ObjectProperty and ObjectMethod def("ObjectExpression") .bases("Expression") .build("properties") .field("properties", [ObjectExpressionProperty]); // ObjectMethod hoist .value properties to own properties def("ObjectMethod") .bases("Node", "Function") .build("kind", "key", "params", "body", "computed") .field("kind", or("method", "get", "set")) .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("params", [def("Pattern")]) .field("body", def("BlockStatement")) .field("computed", Boolean, defaults["false"]) .field("generator", Boolean, defaults["false"]) .field("async", Boolean, defaults["false"]) .field("accessibility", // TypeScript or(def("Literal"), null), defaults["null"]) .field("decorators", or([def("Decorator")], null), defaults["null"]); def("ObjectProperty") .bases("Node") .build("key", "value") .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("value", or(def("Expression"), def("Pattern"))) .field("accessibility", // TypeScript or(def("Literal"), null), defaults["null"]) .field("computed", Boolean, defaults["false"]); var ClassBodyElement = or( def("MethodDefinition"), def("VariableDeclarator"), def("ClassPropertyDefinition"), def("ClassProperty"), def("ClassMethod") ); // MethodDefinition -> ClassMethod def("ClassBody") .bases("Declaration") .build("body") .field("body", [ClassBodyElement]); def("ClassMethod") .bases("Declaration", "Function") .build("kind", "key", "params", "body", "computed", "static") .field("kind", or("get", "set", "method", "constructor")) .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("params", [def("Pattern")]) .field("body", def("BlockStatement")) .field("computed", Boolean, defaults["false"]) .field("static", Boolean, defaults["false"]) .field("generator", Boolean, defaults["false"]) .field("async", Boolean, defaults["false"]) .field("decorators", or([def("Decorator")], null), defaults["null"]); var ObjectPatternProperty = or( def("Property"), def("PropertyPattern"), def("SpreadPropertyPattern"), def("SpreadProperty"), // Used by Esprima def("ObjectProperty"), // Babel 6 def("RestProperty") // Babel 6 ); // Split into RestProperty and SpreadProperty def("ObjectPattern") .bases("Pattern") .build("properties") .field("properties", [ObjectPatternProperty]) .field("decorators", or([def("Decorator")], null), defaults["null"]); def("SpreadProperty") .bases("Node") .build("argument") .field("argument", def("Expression")); def("RestProperty") .bases("Node") .build("argument") .field("argument", def("Expression")); def("ForAwaitStatement") .bases("Statement") .build("left", "right", "body") .field("left", or( def("VariableDeclaration"), def("Expression"))) .field("right", def("Expression")) .field("body", def("Statement")); // The callee node of a dynamic import(...) expression. def("Import") .bases("Expression") .build(); }; ast-types-0.11.7/def/babel.js000066400000000000000000000001521337630174200156760ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./babel-core")); fork.use(require("./flow")); }; ast-types-0.11.7/def/core.js000066400000000000000000000300171337630174200155640ustar00rootroot00000000000000module.exports = function (fork) { var types = fork.use(require("../lib/types")); var Type = types.Type; var def = Type.def; var or = Type.or; var shared = fork.use(require("../lib/shared")); var defaults = shared.defaults; var geq = shared.geq; // Abstract supertype of all syntactic entities that are allowed to have a // .loc field. def("Printable") .field("loc", or( def("SourceLocation"), null ), defaults["null"], true); def("Node") .bases("Printable") .field("type", String) .field("comments", or( [def("Comment")], null ), defaults["null"], true); def("SourceLocation") .build("start", "end", "source") .field("start", def("Position")) .field("end", def("Position")) .field("source", or(String, null), defaults["null"]); def("Position") .build("line", "column") .field("line", geq(1)) .field("column", geq(0)); def("File") .bases("Node") .build("program", "name") .field("program", def("Program")) .field("name", or(String, null), defaults["null"]); def("Program") .bases("Node") .build("body") .field("body", [def("Statement")]); def("Function") .bases("Node") .field("id", or(def("Identifier"), null), defaults["null"]) .field("params", [def("Pattern")]) .field("body", def("BlockStatement")); def("Statement").bases("Node"); // The empty .build() here means that an EmptyStatement can be constructed // (i.e. it's not abstract) but that it needs no arguments. def("EmptyStatement").bases("Statement").build(); def("BlockStatement") .bases("Statement") .build("body") .field("body", [def("Statement")]); // TODO Figure out how to silently coerce Expressions to // ExpressionStatements where a Statement was expected. def("ExpressionStatement") .bases("Statement") .build("expression") .field("expression", def("Expression")); def("IfStatement") .bases("Statement") .build("test", "consequent", "alternate") .field("test", def("Expression")) .field("consequent", def("Statement")) .field("alternate", or(def("Statement"), null), defaults["null"]); def("LabeledStatement") .bases("Statement") .build("label", "body") .field("label", def("Identifier")) .field("body", def("Statement")); def("BreakStatement") .bases("Statement") .build("label") .field("label", or(def("Identifier"), null), defaults["null"]); def("ContinueStatement") .bases("Statement") .build("label") .field("label", or(def("Identifier"), null), defaults["null"]); def("WithStatement") .bases("Statement") .build("object", "body") .field("object", def("Expression")) .field("body", def("Statement")); def("SwitchStatement") .bases("Statement") .build("discriminant", "cases", "lexical") .field("discriminant", def("Expression")) .field("cases", [def("SwitchCase")]) .field("lexical", Boolean, defaults["false"]); def("ReturnStatement") .bases("Statement") .build("argument") .field("argument", or(def("Expression"), null)); def("ThrowStatement") .bases("Statement") .build("argument") .field("argument", def("Expression")); def("TryStatement") .bases("Statement") .build("block", "handler", "finalizer") .field("block", def("BlockStatement")) .field("handler", or(def("CatchClause"), null), function () { return this.handlers && this.handlers[0] || null; }) .field("handlers", [def("CatchClause")], function () { return this.handler ? [this.handler] : []; }, true) // Indicates this field is hidden from eachField iteration. .field("guardedHandlers", [def("CatchClause")], defaults.emptyArray) .field("finalizer", or(def("BlockStatement"), null), defaults["null"]); def("CatchClause") .bases("Node") .build("param", "guard", "body") // https://github.com/tc39/proposal-optional-catch-binding .field("param", or(def("Pattern"), null), defaults["null"]) .field("guard", or(def("Expression"), null), defaults["null"]) .field("body", def("BlockStatement")); def("WhileStatement") .bases("Statement") .build("test", "body") .field("test", def("Expression")) .field("body", def("Statement")); def("DoWhileStatement") .bases("Statement") .build("body", "test") .field("body", def("Statement")) .field("test", def("Expression")); def("ForStatement") .bases("Statement") .build("init", "test", "update", "body") .field("init", or( def("VariableDeclaration"), def("Expression"), null)) .field("test", or(def("Expression"), null)) .field("update", or(def("Expression"), null)) .field("body", def("Statement")); def("ForInStatement") .bases("Statement") .build("left", "right", "body") .field("left", or( def("VariableDeclaration"), def("Expression"))) .field("right", def("Expression")) .field("body", def("Statement")); def("DebuggerStatement").bases("Statement").build(); def("Declaration").bases("Statement"); def("FunctionDeclaration") .bases("Function", "Declaration") .build("id", "params", "body") .field("id", def("Identifier")); def("FunctionExpression") .bases("Function", "Expression") .build("id", "params", "body"); def("VariableDeclaration") .bases("Declaration") .build("kind", "declarations") .field("kind", or("var", "let", "const")) .field("declarations", [def("VariableDeclarator")]); def("VariableDeclarator") .bases("Node") .build("id", "init") .field("id", def("Pattern")) .field("init", or(def("Expression"), null)); // TODO Are all Expressions really Patterns? def("Expression").bases("Node", "Pattern"); def("ThisExpression").bases("Expression").build(); def("ArrayExpression") .bases("Expression") .build("elements") .field("elements", [or(def("Expression"), null)]); def("ObjectExpression") .bases("Expression") .build("properties") .field("properties", [def("Property")]); // TODO Not in the Mozilla Parser API, but used by Esprima. def("Property") .bases("Node") // Want to be able to visit Property Nodes. .build("kind", "key", "value") .field("kind", or("init", "get", "set")) .field("key", or(def("Literal"), def("Identifier"))) .field("value", def("Expression")); def("SequenceExpression") .bases("Expression") .build("expressions") .field("expressions", [def("Expression")]); var UnaryOperator = or( "-", "+", "!", "~", "typeof", "void", "delete"); def("UnaryExpression") .bases("Expression") .build("operator", "argument", "prefix") .field("operator", UnaryOperator) .field("argument", def("Expression")) // Esprima doesn't bother with this field, presumably because it's // always true for unary operators. .field("prefix", Boolean, defaults["true"]); var BinaryOperator = or( "==", "!=", "===", "!==", "<", "<=", ">", ">=", "<<", ">>", ">>>", "+", "-", "*", "/", "%", "**", "&", // TODO Missing from the Parser API. "|", "^", "in", "instanceof", ".."); def("BinaryExpression") .bases("Expression") .build("operator", "left", "right") .field("operator", BinaryOperator) .field("left", def("Expression")) .field("right", def("Expression")); var AssignmentOperator = or( "=", "+=", "-=", "*=", "/=", "%=", "<<=", ">>=", ">>>=", "|=", "^=", "&="); def("AssignmentExpression") .bases("Expression") .build("operator", "left", "right") .field("operator", AssignmentOperator) .field("left", def("Pattern")) .field("right", def("Expression")); var UpdateOperator = or("++", "--"); def("UpdateExpression") .bases("Expression") .build("operator", "argument", "prefix") .field("operator", UpdateOperator) .field("argument", def("Expression")) .field("prefix", Boolean); var LogicalOperator = or("||", "&&"); def("LogicalExpression") .bases("Expression") .build("operator", "left", "right") .field("operator", LogicalOperator) .field("left", def("Expression")) .field("right", def("Expression")); def("ConditionalExpression") .bases("Expression") .build("test", "consequent", "alternate") .field("test", def("Expression")) .field("consequent", def("Expression")) .field("alternate", def("Expression")); def("NewExpression") .bases("Expression") .build("callee", "arguments") .field("callee", def("Expression")) // The Mozilla Parser API gives this type as [or(def("Expression"), // null)], but null values don't really make sense at the call site. // TODO Report this nonsense. .field("arguments", [def("Expression")]); def("CallExpression") .bases("Expression") .build("callee", "arguments") .field("callee", def("Expression")) // See comment for NewExpression above. .field("arguments", [def("Expression")]); def("MemberExpression") .bases("Expression") .build("object", "property", "computed") .field("object", def("Expression")) .field("property", or(def("Identifier"), def("Expression"))) .field("computed", Boolean, function () { var type = this.property.type; if (type === 'Literal' || type === 'MemberExpression' || type === 'BinaryExpression') { return true; } return false; }); def("Pattern").bases("Node"); def("SwitchCase") .bases("Node") .build("test", "consequent") .field("test", or(def("Expression"), null)) .field("consequent", [def("Statement")]); def("Identifier") // But aren't Expressions and Patterns already Nodes? TODO Report this. .bases("Node", "Expression", "Pattern") .build("name") .field("name", String) .field("optional", Boolean, defaults["false"]); def("Literal") // But aren't Expressions already Nodes? TODO Report this. .bases("Node", "Expression") .build("value") .field("value", or(String, Boolean, null, Number, RegExp)) .field("regex", or({ pattern: String, flags: String }, null), function () { if (this.value instanceof RegExp) { var flags = ""; if (this.value.ignoreCase) flags += "i"; if (this.value.multiline) flags += "m"; if (this.value.global) flags += "g"; return { pattern: this.value.source, flags: flags }; } return null; }); // Abstract (non-buildable) comment supertype. Not a Node. def("Comment") .bases("Printable") .field("value", String) // A .leading comment comes before the node, whereas a .trailing // comment comes after it. These two fields should not both be true, // but they might both be false when the comment falls inside a node // and the node has no children for the comment to lead or trail, // e.g. { /*dangling*/ }. .field("leading", Boolean, defaults["true"]) .field("trailing", Boolean, defaults["false"]); }; ast-types-0.11.7/def/e4x.js000066400000000000000000000043621337630174200153400ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./core")); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; // Note that none of these types are buildable because the Mozilla Parser // API doesn't specify any builder functions, and nobody uses E4X anymore. def("XMLDefaultDeclaration") .bases("Declaration") .field("namespace", def("Expression")); def("XMLAnyName").bases("Expression"); def("XMLQualifiedIdentifier") .bases("Expression") .field("left", or(def("Identifier"), def("XMLAnyName"))) .field("right", or(def("Identifier"), def("Expression"))) .field("computed", Boolean); def("XMLFunctionQualifiedIdentifier") .bases("Expression") .field("right", or(def("Identifier"), def("Expression"))) .field("computed", Boolean); def("XMLAttributeSelector") .bases("Expression") .field("attribute", def("Expression")); def("XMLFilterExpression") .bases("Expression") .field("left", def("Expression")) .field("right", def("Expression")); def("XMLElement") .bases("XML", "Expression") .field("contents", [def("XML")]); def("XMLList") .bases("XML", "Expression") .field("contents", [def("XML")]); def("XML").bases("Node"); def("XMLEscape") .bases("XML") .field("expression", def("Expression")); def("XMLText") .bases("XML") .field("text", String); def("XMLStartTag") .bases("XML") .field("contents", [def("XML")]); def("XMLEndTag") .bases("XML") .field("contents", [def("XML")]); def("XMLPointTag") .bases("XML") .field("contents", [def("XML")]); def("XMLName") .bases("XML") .field("contents", or(String, [def("XML")])); def("XMLAttribute") .bases("XML") .field("value", String); def("XMLCdata") .bases("XML") .field("contents", String); def("XMLComment") .bases("XML") .field("contents", String); def("XMLProcessingInstruction") .bases("XML") .field("target", String) .field("contents", or(String, null)); };ast-types-0.11.7/def/es-proposals.js000066400000000000000000000017271337630174200172710ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require('./core')); var types = fork.use(require("../lib/types")); var Type = types.Type; var def = types.Type.def; var or = Type.or; var shared = fork.use(require("../lib/shared")); var defaults = shared.defaults; // https://github.com/tc39/proposal-optional-chaining // `a?.b` as per https://github.com/estree/estree/issues/146 def("OptionalMemberExpression") .bases("MemberExpression") .build("object", "property", "computed", "optional") .field("optional", Boolean, defaults["true"]) // a?.b() def("OptionalCallExpression") .bases("CallExpression") .build("callee", "arguments", "optional") .field("optional", Boolean, defaults["true"]) // https://github.com/tc39/proposal-nullish-coalescing // `a ?? b` as per https://github.com/babel/babylon/pull/761/files var LogicalOperator = or("||", "&&", "??"); def("LogicalExpression") .field("operator", LogicalOperator) }; ast-types-0.11.7/def/es6.js000066400000000000000000000212111337630174200153250ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./core")); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var defaults = fork.use(require("../lib/shared")).defaults; def("Function") .field("generator", Boolean, defaults["false"]) .field("expression", Boolean, defaults["false"]) .field("defaults", [or(def("Expression"), null)], defaults.emptyArray) // TODO This could be represented as a RestElement in .params. .field("rest", or(def("Identifier"), null), defaults["null"]); // The ESTree way of representing a ...rest parameter. def("RestElement") .bases("Pattern") .build("argument") .field("argument", def("Pattern")) .field("typeAnnotation", // for Babylon. Flow parser puts it on the identifier or(def("TypeAnnotation"), def("TSTypeAnnotation"), null), defaults["null"]); def("SpreadElementPattern") .bases("Pattern") .build("argument") .field("argument", def("Pattern")); def("FunctionDeclaration") .build("id", "params", "body", "generator", "expression"); def("FunctionExpression") .build("id", "params", "body", "generator", "expression"); // The Parser API calls this ArrowExpression, but Esprima and all other // actual parsers use ArrowFunctionExpression. def("ArrowFunctionExpression") .bases("Function", "Expression") .build("params", "body", "expression") // The forced null value here is compatible with the overridden // definition of the "id" field in the Function interface. .field("id", null, defaults["null"]) // Arrow function bodies are allowed to be expressions. .field("body", or(def("BlockStatement"), def("Expression"))) // The current spec forbids arrow generators, so I have taken the // liberty of enforcing that. TODO Report this. .field("generator", false, defaults["false"]); def("ForOfStatement") .bases("Statement") .build("left", "right", "body") .field("left", or( def("VariableDeclaration"), def("Pattern"))) .field("right", def("Expression")) .field("body", def("Statement")); def("YieldExpression") .bases("Expression") .build("argument", "delegate") .field("argument", or(def("Expression"), null)) .field("delegate", Boolean, defaults["false"]); def("GeneratorExpression") .bases("Expression") .build("body", "blocks", "filter") .field("body", def("Expression")) .field("blocks", [def("ComprehensionBlock")]) .field("filter", or(def("Expression"), null)); def("ComprehensionExpression") .bases("Expression") .build("body", "blocks", "filter") .field("body", def("Expression")) .field("blocks", [def("ComprehensionBlock")]) .field("filter", or(def("Expression"), null)); def("ComprehensionBlock") .bases("Node") .build("left", "right", "each") .field("left", def("Pattern")) .field("right", def("Expression")) .field("each", Boolean); def("Property") .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("value", or(def("Expression"), def("Pattern"))) .field("method", Boolean, defaults["false"]) .field("shorthand", Boolean, defaults["false"]) .field("computed", Boolean, defaults["false"]); def("ObjectProperty") .field("shorthand", Boolean, defaults["false"]); def("PropertyPattern") .bases("Pattern") .build("key", "pattern") .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("pattern", def("Pattern")) .field("computed", Boolean, defaults["false"]); def("ObjectPattern") .bases("Pattern") .build("properties") .field("properties", [or(def("PropertyPattern"), def("Property"))]); def("ArrayPattern") .bases("Pattern") .build("elements") .field("elements", [or(def("Pattern"), null)]); def("MethodDefinition") .bases("Declaration") .build("kind", "key", "value", "static") .field("kind", or("constructor", "method", "get", "set")) .field("key", def("Expression")) .field("value", def("Function")) .field("computed", Boolean, defaults["false"]) .field("static", Boolean, defaults["false"]); def("SpreadElement") .bases("Node") .build("argument") .field("argument", def("Expression")); def("ArrayExpression") .field("elements", [or( def("Expression"), def("SpreadElement"), def("RestElement"), null )]); def("NewExpression") .field("arguments", [or(def("Expression"), def("SpreadElement"))]); def("CallExpression") .field("arguments", [or(def("Expression"), def("SpreadElement"))]); // Note: this node type is *not* an AssignmentExpression with a Pattern on // the left-hand side! The existing AssignmentExpression type already // supports destructuring assignments. AssignmentPattern nodes may appear // wherever a Pattern is allowed, and the right-hand side represents a // default value to be destructured against the left-hand side, if no // value is otherwise provided. For example: default parameter values. def("AssignmentPattern") .bases("Pattern") .build("left", "right") .field("left", def("Pattern")) .field("right", def("Expression")); var ClassBodyElement = or( def("MethodDefinition"), def("VariableDeclarator"), def("ClassPropertyDefinition"), def("ClassProperty") ); def("ClassProperty") .bases("Declaration") .build("key") .field("key", or(def("Literal"), def("Identifier"), def("Expression"))) .field("computed", Boolean, defaults["false"]); def("ClassPropertyDefinition") // static property .bases("Declaration") .build("definition") // Yes, Virginia, circular definitions are permitted. .field("definition", ClassBodyElement); def("ClassBody") .bases("Declaration") .build("body") .field("body", [ClassBodyElement]); def("ClassDeclaration") .bases("Declaration") .build("id", "body", "superClass") .field("id", or(def("Identifier"), null)) .field("body", def("ClassBody")) .field("superClass", or(def("Expression"), null), defaults["null"]); def("ClassExpression") .bases("Expression") .build("id", "body", "superClass") .field("id", or(def("Identifier"), null), defaults["null"]) .field("body", def("ClassBody")) .field("superClass", or(def("Expression"), null), defaults["null"]); // Specifier and ModuleSpecifier are abstract non-standard types // introduced for definitional convenience. def("Specifier").bases("Node"); // This supertype is shared/abused by both def/babel.js and // def/esprima.js. In the future, it will be possible to load only one set // of definitions appropriate for a given parser, but until then we must // rely on default functions to reconcile the conflicting AST formats. def("ModuleSpecifier") .bases("Specifier") // This local field is used by Babel/Acorn. It should not technically // be optional in the Babel/Acorn AST format, but it must be optional // in the Esprima AST format. .field("local", or(def("Identifier"), null), defaults["null"]) // The id and name fields are used by Esprima. The id field should not // technically be optional in the Esprima AST format, but it must be // optional in the Babel/Acorn AST format. .field("id", or(def("Identifier"), null), defaults["null"]) .field("name", or(def("Identifier"), null), defaults["null"]); // Like ModuleSpecifier, except type:"ImportSpecifier" and buildable. // import {} from ...; def("ImportSpecifier") .bases("ModuleSpecifier") .build("id", "name"); // import <* as id> from ...; def("ImportNamespaceSpecifier") .bases("ModuleSpecifier") .build("id"); // import from ...; def("ImportDefaultSpecifier") .bases("ModuleSpecifier") .build("id"); def("ImportDeclaration") .bases("Declaration") .build("specifiers", "source", "importKind") .field("specifiers", [or( def("ImportSpecifier"), def("ImportNamespaceSpecifier"), def("ImportDefaultSpecifier") )], defaults.emptyArray) .field("source", def("Literal")) .field("importKind", or( "value", "type" ), function() { return "value"; }); def("TaggedTemplateExpression") .bases("Expression") .build("tag", "quasi") .field("tag", def("Expression")) .field("quasi", def("TemplateLiteral")); def("TemplateLiteral") .bases("Expression") .build("quasis", "expressions") .field("quasis", [def("TemplateElement")]) .field("expressions", [def("Expression")]); def("TemplateElement") .bases("Node") .build("value", "tail") .field("value", {"cooked": String, "raw": String}) .field("tail", Boolean); }; ast-types-0.11.7/def/es7.js000066400000000000000000000020211337630174200153240ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require('./es6')); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var builtin = types.builtInTypes; var defaults = fork.use(require("../lib/shared")).defaults; def("Function") .field("async", Boolean, defaults["false"]); def("SpreadProperty") .bases("Node") .build("argument") .field("argument", def("Expression")); def("ObjectExpression") .field("properties", [or( def("Property"), def("SpreadProperty"), def("SpreadElement") )]); def("SpreadPropertyPattern") .bases("Pattern") .build("argument") .field("argument", def("Pattern")); def("ObjectPattern") .field("properties", [or( def("Property"), def("PropertyPattern"), def("SpreadPropertyPattern") )]); def("AwaitExpression") .bases("Expression") .build("argument", "all") .field("argument", or(def("Expression"), null)) .field("all", Boolean, defaults["false"]); }; ast-types-0.11.7/def/esprima.js000066400000000000000000000033611337630174200162760ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./es7")); var types = fork.use(require("../lib/types")); var defaults = fork.use(require("../lib/shared")).defaults; var def = types.Type.def; var or = types.Type.or; def("VariableDeclaration") .field("declarations", [or( def("VariableDeclarator"), def("Identifier") // Esprima deviation. )]); def("Property") .field("value", or( def("Expression"), def("Pattern") // Esprima deviation. )); def("ArrayPattern") .field("elements", [or( def("Pattern"), def("SpreadElement"), null )]); def("ObjectPattern") .field("properties", [or( def("Property"), def("PropertyPattern"), def("SpreadPropertyPattern"), def("SpreadProperty") // Used by Esprima. )]); // Like ModuleSpecifier, except type:"ExportSpecifier" and buildable. // export {} [from ...]; def("ExportSpecifier") .bases("ModuleSpecifier") .build("id", "name"); // export <*> from ...; def("ExportBatchSpecifier") .bases("Specifier") .build(); def("ExportDeclaration") .bases("Declaration") .build("default", "declaration", "specifiers", "source") .field("default", Boolean) .field("declaration", or( def("Declaration"), def("Expression"), // Implies default. null )) .field("specifiers", [or( def("ExportSpecifier"), def("ExportBatchSpecifier") )], defaults.emptyArray) .field("source", or( def("Literal"), null ), defaults["null"]); def("Block") .bases("Comment") .build("value", /*optional:*/ "leading", "trailing"); def("Line") .bases("Comment") .build("value", /*optional:*/ "leading", "trailing"); }; ast-types-0.11.7/def/flow.js000066400000000000000000000221441337630174200156050ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./es7")); fork.use(require("./type-annotations")); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var defaults = fork.use(require("../lib/shared")).defaults; // Base types def("Flow").bases("Node"); def("FlowType").bases("Flow"); // Type annotations def("AnyTypeAnnotation") .bases("FlowType") .build(); def("EmptyTypeAnnotation") .bases("FlowType") .build(); def("MixedTypeAnnotation") .bases("FlowType") .build(); def("VoidTypeAnnotation") .bases("FlowType") .build(); def("NumberTypeAnnotation") .bases("FlowType") .build(); def("NumberLiteralTypeAnnotation") .bases("FlowType") .build("value", "raw") .field("value", Number) .field("raw", String); // Babylon 6 differs in AST from Flow // same as NumberLiteralTypeAnnotation def("NumericLiteralTypeAnnotation") .bases("FlowType") .build("value", "raw") .field("value", Number) .field("raw", String); def("StringTypeAnnotation") .bases("FlowType") .build(); def("StringLiteralTypeAnnotation") .bases("FlowType") .build("value", "raw") .field("value", String) .field("raw", String); def("BooleanTypeAnnotation") .bases("FlowType") .build(); def("BooleanLiteralTypeAnnotation") .bases("FlowType") .build("value", "raw") .field("value", Boolean) .field("raw", String); def("TypeAnnotation") .bases("Node") .build("typeAnnotation") .field("typeAnnotation", def("FlowType")); def("NullableTypeAnnotation") .bases("FlowType") .build("typeAnnotation") .field("typeAnnotation", def("FlowType")); def("NullLiteralTypeAnnotation") .bases("FlowType") .build(); def("NullTypeAnnotation") .bases("FlowType") .build(); def("ThisTypeAnnotation") .bases("FlowType") .build(); def("ExistsTypeAnnotation") .bases("FlowType") .build(); def("ExistentialTypeParam") .bases("FlowType") .build(); def("FunctionTypeAnnotation") .bases("FlowType") .build("params", "returnType", "rest", "typeParameters") .field("params", [def("FunctionTypeParam")]) .field("returnType", def("FlowType")) .field("rest", or(def("FunctionTypeParam"), null)) .field("typeParameters", or(def("TypeParameterDeclaration"), null)); def("FunctionTypeParam") .bases("Node") .build("name", "typeAnnotation", "optional") .field("name", def("Identifier")) .field("typeAnnotation", def("FlowType")) .field("optional", Boolean); def("ArrayTypeAnnotation") .bases("FlowType") .build("elementType") .field("elementType", def("FlowType")); def("ObjectTypeAnnotation") .bases("FlowType") .build("properties", "indexers", "callProperties") .field("properties", [ or(def("ObjectTypeProperty"), def("ObjectTypeSpreadProperty")) ]) .field("indexers", [def("ObjectTypeIndexer")], defaults.emptyArray) .field("callProperties", [def("ObjectTypeCallProperty")], defaults.emptyArray) .field("exact", Boolean, defaults["false"]); def("Variance") .bases("Node") .build("kind") .field("kind", or("plus", "minus")); var LegacyVariance = or( def("Variance"), "plus", "minus", null ); def("ObjectTypeProperty") .bases("Node") .build("key", "value", "optional") .field("key", or(def("Literal"), def("Identifier"))) .field("value", def("FlowType")) .field("optional", Boolean) .field("variance", LegacyVariance, defaults["null"]); def("ObjectTypeIndexer") .bases("Node") .build("id", "key", "value") .field("id", def("Identifier")) .field("key", def("FlowType")) .field("value", def("FlowType")) .field("variance", LegacyVariance, defaults["null"]); def("ObjectTypeCallProperty") .bases("Node") .build("value") .field("value", def("FunctionTypeAnnotation")) .field("static", Boolean, defaults["false"]); def("QualifiedTypeIdentifier") .bases("Node") .build("qualification", "id") .field("qualification", or(def("Identifier"), def("QualifiedTypeIdentifier"))) .field("id", def("Identifier")); def("GenericTypeAnnotation") .bases("FlowType") .build("id", "typeParameters") .field("id", or(def("Identifier"), def("QualifiedTypeIdentifier"))) .field("typeParameters", or(def("TypeParameterInstantiation"), null)); def("MemberTypeAnnotation") .bases("FlowType") .build("object", "property") .field("object", def("Identifier")) .field("property", or(def("MemberTypeAnnotation"), def("GenericTypeAnnotation"))); def("UnionTypeAnnotation") .bases("FlowType") .build("types") .field("types", [def("FlowType")]); def("IntersectionTypeAnnotation") .bases("FlowType") .build("types") .field("types", [def("FlowType")]); def("TypeofTypeAnnotation") .bases("FlowType") .build("argument") .field("argument", def("FlowType")); def("ObjectTypeSpreadProperty") .bases("Node") .build("argument") .field("argument", def("FlowType")); def("TypeParameterDeclaration") .bases("Node") .build("params") .field("params", [def("TypeParameter")]); def("TypeParameterInstantiation") .bases("Node") .build("params") .field("params", [def("FlowType")]); def("TypeParameter") .bases("FlowType") .build("name", "variance", "bound") .field("name", String) .field("variance", LegacyVariance, defaults["null"]) .field("bound", or(def("TypeAnnotation"), null), defaults["null"]); def("ClassProperty") .field("variance", LegacyVariance, defaults["null"]); def("ClassImplements") .bases("Node") .build("id") .field("id", def("Identifier")) .field("superClass", or(def("Expression"), null), defaults["null"]) .field("typeParameters", or(def("TypeParameterInstantiation"), null), defaults["null"]); def("InterfaceDeclaration") .bases("Declaration") .build("id", "body", "extends") .field("id", def("Identifier")) .field("typeParameters", or(def("TypeParameterDeclaration"), null), defaults["null"]) .field("body", def("ObjectTypeAnnotation")) .field("extends", [def("InterfaceExtends")]); def("DeclareInterface") .bases("InterfaceDeclaration") .build("id", "body", "extends"); def("InterfaceExtends") .bases("Node") .build("id") .field("id", def("Identifier")) .field("typeParameters", or(def("TypeParameterInstantiation"), null)); def("TypeAlias") .bases("Declaration") .build("id", "typeParameters", "right") .field("id", def("Identifier")) .field("typeParameters", or(def("TypeParameterDeclaration"), null)) .field("right", def("FlowType")); def("OpaqueType") .bases("Declaration") .build("id", "typeParameters", "impltype", "supertype") .field("id", def("Identifier")) .field("typeParameters", or(def("TypeParameterDeclaration"), null)) .field("implType", def("FlowType")) .field("superType", def("FlowType")); def("DeclareTypeAlias") .bases("TypeAlias") .build("id", "typeParameters", "right"); def("DeclareOpaqueType") .bases("TypeAlias") .build("id", "typeParameters", "supertype"); def("TypeCastExpression") .bases("Expression") .build("expression", "typeAnnotation") .field("expression", def("Expression")) .field("typeAnnotation", def("TypeAnnotation")); def("TupleTypeAnnotation") .bases("FlowType") .build("types") .field("types", [def("FlowType")]); def("DeclareVariable") .bases("Statement") .build("id") .field("id", def("Identifier")); def("DeclareFunction") .bases("Statement") .build("id") .field("id", def("Identifier")); def("DeclareClass") .bases("InterfaceDeclaration") .build("id"); def("DeclareModule") .bases("Statement") .build("id", "body") .field("id", or(def("Identifier"), def("Literal"))) .field("body", def("BlockStatement")); def("DeclareModuleExports") .bases("Statement") .build("typeAnnotation") .field("typeAnnotation", def("TypeAnnotation")); def("DeclareExportDeclaration") .bases("Declaration") .build("default", "declaration", "specifiers", "source") .field("default", Boolean) .field("declaration", or( def("DeclareVariable"), def("DeclareFunction"), def("DeclareClass"), def("FlowType"), // Implies default. null )) .field("specifiers", [or( def("ExportSpecifier"), def("ExportBatchSpecifier") )], defaults.emptyArray) .field("source", or( def("Literal"), null ), defaults["null"]); def("DeclareExportAllDeclaration") .bases("Declaration") .build("source") .field("source", or( def("Literal"), null ), defaults["null"]); def("FlowPredicate").bases("Flow"); def("InferredPredicate") .bases("FlowPredicate") .build(); def("DeclaredPredicate") .bases("FlowPredicate") .build("value") .field("value", def("Expression")); }; ast-types-0.11.7/def/jsx.js000066400000000000000000000101151337630174200154350ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./es7")); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var defaults = fork.use(require("../lib/shared")).defaults; def("JSXAttribute") .bases("Node") .build("name", "value") .field("name", or(def("JSXIdentifier"), def("JSXNamespacedName"))) .field("value", or( def("Literal"), // attr="value" def("JSXExpressionContainer"), // attr={value} null // attr= or just attr ), defaults["null"]); def("JSXIdentifier") .bases("Identifier") .build("name") .field("name", String); def("JSXNamespacedName") .bases("Node") .build("namespace", "name") .field("namespace", def("JSXIdentifier")) .field("name", def("JSXIdentifier")); def("JSXMemberExpression") .bases("MemberExpression") .build("object", "property") .field("object", or(def("JSXIdentifier"), def("JSXMemberExpression"))) .field("property", def("JSXIdentifier")) .field("computed", Boolean, defaults.false); var JSXElementName = or( def("JSXIdentifier"), def("JSXNamespacedName"), def("JSXMemberExpression") ); def("JSXSpreadAttribute") .bases("Node") .build("argument") .field("argument", def("Expression")); var JSXAttributes = [or( def("JSXAttribute"), def("JSXSpreadAttribute") )]; def("JSXExpressionContainer") .bases("Expression") .build("expression") .field("expression", def("Expression")); def("JSXElement") .bases("Expression") .build("openingElement", "closingElement", "children") .field("openingElement", def("JSXOpeningElement")) .field("closingElement", or(def("JSXClosingElement"), null), defaults["null"]) .field("children", [or( def("JSXElement"), def("JSXExpressionContainer"), def("JSXFragment"), def("JSXText"), def("Literal") // TODO Esprima should return JSXText instead. )], defaults.emptyArray) .field("name", JSXElementName, function () { // Little-known fact: the `this` object inside a default function // is none other than the partially-built object itself, and any // fields initialized directly from builder function arguments // (like openingElement, closingElement, and children) are // guaranteed to be available. return this.openingElement.name; }, true) // hidden from traversal .field("selfClosing", Boolean, function () { return this.openingElement.selfClosing; }, true) // hidden from traversal .field("attributes", JSXAttributes, function () { return this.openingElement.attributes; }, true); // hidden from traversal def("JSXOpeningElement") .bases("Node") // TODO Does this make sense? Can't really be an JSXElement. .build("name", "attributes", "selfClosing") .field("name", JSXElementName) .field("attributes", JSXAttributes, defaults.emptyArray) .field("selfClosing", Boolean, defaults["false"]); def("JSXClosingElement") .bases("Node") // TODO Same concern. .build("name") .field("name", JSXElementName); def("JSXFragment") .bases("Expression") .build("openingElement", "closingElement", "children") .field("openingElement", def("JSXOpeningFragment")) .field("closingElement", def("JSXClosingFragment")) .field("children", [or( def("JSXElement"), def("JSXExpressionContainer"), def("JSXFragment"), def("JSXText"), def("Literal") // TODO Esprima should return JSXText instead. )], defaults.emptyArray) def("JSXOpeningFragment") .bases("Node") // TODO Same concern. .build(); def("JSXClosingFragment") .bases("Node") // TODO Same concern. .build(); def("JSXText") .bases("Literal") .build("value") .field("value", String); def("JSXEmptyExpression").bases("Expression").build(); // This PR has caused many people issues, but supporting it seems like a // good idea anyway: https://github.com/babel/babel/pull/4988 def("JSXSpreadChild") .bases("Expression") .build("expression") .field("expression", def("Expression")); }; ast-types-0.11.7/def/mozilla.js000066400000000000000000000025471337630174200163120ustar00rootroot00000000000000module.exports = function (fork) { fork.use(require("./core")); var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var shared = fork.use(require("../lib/shared")); var geq = shared.geq; var defaults = shared.defaults; def("Function") // SpiderMonkey allows expression closures: function(x) x+1 .field("body", or(def("BlockStatement"), def("Expression"))); def("ForInStatement") .build("left", "right", "body", "each") .field("each", Boolean, defaults["false"]); def("LetStatement") .bases("Statement") .build("head", "body") // TODO Deviating from the spec by reusing VariableDeclarator here. .field("head", [def("VariableDeclarator")]) .field("body", def("Statement")); def("LetExpression") .bases("Expression") .build("head", "body") // TODO Deviating from the spec by reusing VariableDeclarator here. .field("head", [def("VariableDeclarator")]) .field("body", def("Expression")); def("GraphExpression") .bases("Expression") .build("index", "expression") .field("index", geq(0)) .field("expression", def("Literal")); def("GraphIndexExpression") .bases("Expression") .build("index") .field("index", geq(0)); };ast-types-0.11.7/def/type-annotations.js000066400000000000000000000033451337630174200201540ustar00rootroot00000000000000/** * Type annotation defs shared between Flow and TypeScript. * These defs could not be defined in ./flow.js or ./typescript.js directly * because they use the same name. */ module.exports = function (fork) { var types = fork.use(require("../lib/types")); var def = types.Type.def; var or = types.Type.or; var defaults = fork.use(require("../lib/shared")).defaults; var TypeAnnotation = or( def("TypeAnnotation"), def("TSTypeAnnotation"), null ); var TypeParamDecl = or( def("TypeParameterDeclaration"), def("TSTypeParameterDeclaration"), null ); def("Identifier") .field("typeAnnotation", TypeAnnotation, defaults["null"]); def("ObjectPattern") .field("typeAnnotation", TypeAnnotation, defaults["null"]); def("Function") .field("returnType", TypeAnnotation, defaults["null"]) .field("typeParameters", TypeParamDecl, defaults["null"]); def("ClassProperty") .build("key", "value", "typeAnnotation", "static") .field("value", or(def("Expression"), null)) .field("static", Boolean, defaults["false"]) .field("typeAnnotation", TypeAnnotation, defaults["null"]); ["ClassDeclaration", "ClassExpression", ].forEach(typeName => { def(typeName) .field("typeParameters", TypeParamDecl, defaults["null"]) .field("superTypeParameters", or(def("TypeParameterInstantiation"), def("TSTypeParameterInstantiation"), null), defaults["null"]); }); ["ClassDeclaration", "ClassExpression", ].forEach(typeName => { def(typeName) .field("implements", or([def("ClassImplements")], [def("TSExpressionWithTypeArguments")]), defaults.emptyArray); }); }; ast-types-0.11.7/def/typescript.js000066400000000000000000000317461337630174200170540ustar00rootroot00000000000000module.exports = function (fork) { // Since TypeScript is parsed by Babylon, include the core Babylon types // but omit the Flow-related types. fork.use(require("./babel-core")); fork.use(require("./type-annotations")); var types = fork.use(require("../lib/types")); var n = types.namedTypes; var def = types.Type.def; var or = types.Type.or; var defaults = fork.use(require("../lib/shared")).defaults; var StringLiteral = new types.Type(function (value, deep) { if (n.StringLiteral && n.StringLiteral.check(value, deep)) { return true } if (n.Literal && n.Literal.check(value, deep) && typeof value.value === "string") { return true; } return false; }, "StringLiteral"); def("TSType") .bases("Node"); var IdOrQualifiedName = or( def("Identifier"), def("TSQualifiedName") ); def("TSTypeReference") .bases("TSType") .build("typeName", "typeParameters") .field("typeName", IdOrQualifiedName) .field("typeParameters", or(def("TSTypeParameterInstantiation"), null), defaults["null"]); // An abstract (non-buildable) base type that provide a commonly-needed // optional .typeParameters field. def("TSHasOptionalTypeParameters") .field("typeParameters", or(def("TSTypeParameterDeclaration"), null), defaults["null"]); // An abstract (non-buildable) base type that provide a commonly-needed // optional .typeAnnotation field. def("TSHasOptionalTypeAnnotation") .field("typeAnnotation", or(def("TSTypeAnnotation"), null), defaults["null"]); def("TSQualifiedName") .bases("Node") .build("left", "right") .field("left", IdOrQualifiedName) .field("right", IdOrQualifiedName); def("TSAsExpression") .bases("Expression") .build("expression") .field("expression", def("Expression")) .field("typeAnnotation", def("TSType")) .field("extra", or({ parenthesized: Boolean }, null), defaults["null"]); def("TSNonNullExpression") .bases("Expression") .build("expression") .field("expression", def("Expression")); [ // Define all the simple keyword types. "TSAnyKeyword", "TSBooleanKeyword", "TSNeverKeyword", "TSNullKeyword", "TSNumberKeyword", "TSObjectKeyword", "TSStringKeyword", "TSSymbolKeyword", "TSUndefinedKeyword", "TSUnknownKeyword", "TSVoidKeyword", "TSThisType", ].forEach(keywordType => { def(keywordType) .bases("TSType") .build(); }); def("TSArrayType") .bases("TSType") .build("elementType") .field("elementType", def("TSType")) def("TSLiteralType") .bases("TSType") .build("literal") .field("literal", or(def("NumericLiteral"), def("StringLiteral"), def("BooleanLiteral"))); ["TSUnionType", "TSIntersectionType", ].forEach(typeName => { def(typeName) .bases("TSType") .build("types") .field("types", [def("TSType")]); }); def("TSConditionalType") .bases("TSType") .build("checkType", "extendsType", "trueType", "falseType") .field("checkType", def("TSType")) .field("extendsType", def("TSType")) .field("trueType", def("TSType")) .field("falseType", def("TSType")); def("TSInferType") .bases("TSType") .build("typeParameter") .field("typeParameter", def("TSTypeParameter")); def("TSParenthesizedType") .bases("TSType") .build("typeAnnotation") .field("typeAnnotation", def("TSType")); var ParametersType = [or( def("Identifier"), def("RestElement") )]; ["TSFunctionType", "TSConstructorType", ].forEach(typeName => { def(typeName) .bases("TSType", "TSHasOptionalTypeParameters", "TSHasOptionalTypeAnnotation") .build("parameters") .field("parameters", ParametersType); }); def("TSDeclareFunction") .bases("Declaration", "TSHasOptionalTypeParameters") .build("id", "params", "returnType") .field("declare", Boolean, defaults["false"]) .field("async", Boolean, defaults["false"]) .field("generator", Boolean, defaults["false"]) .field("id", or(def("Identifier"), null), defaults["null"]) .field("params", [def("Pattern")]) // tSFunctionTypeAnnotationCommon .field("returnType", or(def("TSTypeAnnotation"), def("Noop"), // Still used? null), defaults["null"]); def("TSDeclareMethod") .bases("Declaration", "TSHasOptionalTypeParameters") .build("key", "params", "returnType") .field("async", Boolean, defaults["false"]) .field("generator", Boolean, defaults["false"]) .field("params", [def("Pattern")]) // classMethodOrPropertyCommon .field("abstract", Boolean, defaults["false"]) .field("accessibility", or("public", "private", "protected", void 0), defaults["undefined"]) .field("static", Boolean, defaults["false"]) .field("computed", Boolean, defaults["false"]) .field("optional", Boolean, defaults["false"]) .field("key", or( def("Identifier"), def("StringLiteral"), def("NumericLiteral"), // Only allowed if .computed is true. def("Expression") )) // classMethodOrDeclareMethodCommon .field("kind", or("get", "set", "method", "constructor"), function getDefault() { return "method"; }) .field("access", // Not "accessibility"? or("public", "private", "protected", void 0), defaults["undefined"]) .field("decorators", or([def("Decorator")], null), defaults["null"]) // tSFunctionTypeAnnotationCommon .field("returnType", or(def("TSTypeAnnotation"), def("Noop"), // Still used? null), defaults["null"]); def("TSMappedType") .bases("TSType") .build("typeParameter", "typeAnnotation") .field("readonly", or(Boolean, "+", "-"), defaults["false"]) .field("typeParameter", def("TSTypeParameter")) .field("optional", or(Boolean, "+", "-"), defaults["false"]) .field("typeAnnotation", or(def("TSType"), null), defaults["null"]); def("TSTupleType") .bases("TSType") .build("elementTypes") .field("elementTypes", [def("TSType")]); def("TSRestType") .bases("TSType") .build("typeAnnotation") .field("typeAnnotation", def("TSType")); def("TSOptionalType") .bases("TSType") .build("typeAnnotation") .field("typeAnnotation", def("TSType")); def("TSIndexedAccessType") .bases("TSType") .build("objectType", "indexType") .field("objectType", def("TSType")) .field("indexType", def("TSType")) def("TSTypeOperator") .bases("TSType") .build("operator") .field("operator", String) .field("typeAnnotation", def("TSType")); def("TSTypeAnnotation") .bases("Node") .build("typeAnnotation") .field("typeAnnotation", or(def("TSType"), def("TSTypeAnnotation"))); def("TSIndexSignature") .bases("Declaration", "TSHasOptionalTypeAnnotation") .build("parameters") .field("parameters", [def("Identifier")]) // Length === 1 .field("readonly", Boolean, defaults["false"]); def("TSPropertySignature") .bases("Declaration", "TSHasOptionalTypeAnnotation") .build("key") .field("key", def("Expression")) .field("computed", Boolean, defaults["false"]) .field("readonly", Boolean, defaults["false"]) .field("optional", Boolean, defaults["false"]) .field("initializer", or(def("Expression"), null), defaults["null"]); def("TSMethodSignature") .bases("Declaration", "TSHasOptionalTypeParameters", "TSHasOptionalTypeAnnotation") .build("key") .field("key", def("Expression")) .field("computed", Boolean, defaults["false"]) .field("optional", Boolean, defaults["false"]) .field("parameters", ParametersType); def("TSTypePredicate") .bases("TSTypeAnnotation") .build("parameterName", "typeAnnotation") .field("parameterName", or(def("Identifier"), def("TSThisType"))) .field("typeAnnotation", def("TSTypeAnnotation")); ["TSCallSignatureDeclaration", "TSConstructSignatureDeclaration", ].forEach(typeName => { def(typeName) .bases("Declaration", "TSHasOptionalTypeParameters", "TSHasOptionalTypeAnnotation") .build("parameters") .field("parameters", ParametersType); }); def("TSEnumMember") .bases("Node") .build("id", "initializer") .field("id", or(def("Identifier"), StringLiteral)) .field("initializer", or(def("Expression"), null), defaults["null"]); def("TSTypeQuery") .bases("TSType") .build("exprName") .field("exprName", IdOrQualifiedName); // Inferred from Babylon's tsParseTypeMember method. var TSTypeMember = or( def("TSCallSignatureDeclaration"), def("TSConstructSignatureDeclaration"), def("TSIndexSignature"), def("TSMethodSignature"), def("TSPropertySignature") ); def("TSTypeLiteral") .bases("TSType") .build("members") .field("members", [TSTypeMember]); def("TSTypeParameter") .bases("Identifier") .build("name", "constraint", "default") .field("name", String) .field("constraint", or(def("TSType"), null), defaults["null"]) .field("default", or(def("TSType"), null), defaults["null"]); def("TSTypeAssertion") .bases("Expression") .build("typeAnnotation", "expression") .field("typeAnnotation", def("TSType")) .field("expression", def("Expression")) .field("extra", or({ parenthesized: Boolean }, null), defaults["null"]); def("TSTypeParameterDeclaration") .bases("Declaration") .build("params") .field("params", [def("TSTypeParameter")]); def("TSTypeParameterInstantiation") .bases("Node") .build("params") .field("params", [def("TSType")]); def("TSEnumDeclaration") .bases("Declaration") .build("id", "members") .field("id", def("Identifier")) .field("const", Boolean, defaults["false"]) .field("declare", Boolean, defaults["false"]) .field("members", [def("TSEnumMember")]) .field("initializer", or(def("Expression"), null), defaults["null"]); def("TSTypeAliasDeclaration") .bases("Declaration", "TSHasOptionalTypeParameters") .build("id") .field("id", def("Identifier")) .field("declare", Boolean, defaults["false"]) .field("typeAnnotation", def("TSType")); def("TSModuleBlock") .bases("Node") .build("body") .field("body", [def("Statement")]); def("TSModuleDeclaration") .bases("Declaration") .build("id", "body") .field("id", or(StringLiteral, IdOrQualifiedName)) .field("declare", Boolean, defaults["false"]) .field("global", Boolean, defaults["false"]) .field("body", or(def("TSModuleBlock"), def("TSModuleDeclaration"), null), defaults["null"]); def("TSImportEqualsDeclaration") .bases("Declaration") .build("id", "moduleReference") .field("id", def("Identifier")) .field("isExport", Boolean, defaults["false"]) .field("moduleReference", or(IdOrQualifiedName, def("TSExternalModuleReference"))); def("TSExternalModuleReference") .bases("Declaration") .build("expression") .field("expression", StringLiteral); def("TSExportAssignment") .bases("Statement") .build("expression") .field("expression", def("Expression")); def("TSNamespaceExportDeclaration") .bases("Declaration") .build("id") .field("id", def("Identifier")); def("TSInterfaceBody") .bases("Node") .build("body") .field("body", [TSTypeMember]); def("TSExpressionWithTypeArguments") .bases("TSType") .build("expression", "typeParameters") .field("expression", IdOrQualifiedName) .field("typeParameters", or(def("TSTypeParameterInstantiation"), null), defaults["null"]); def("TSInterfaceDeclaration") .bases("Declaration", "TSHasOptionalTypeParameters") .build("id", "body") .field("id", IdOrQualifiedName) .field("declare", Boolean, defaults["false"]) .field("extends", or([def("TSExpressionWithTypeArguments")], null), defaults["null"]) .field("body", def("TSInterfaceBody")); def("TSParameterProperty") .bases("Pattern") .build("parameter") .field("accessibility", or("public", "private", "protected", void 0), defaults["undefined"]) .field("readonly", Boolean, defaults["false"]) .field("parameter", or(def("Identifier"), def("AssignmentPattern"))); // Defined already in es6 and babel-core. def("ClassBody") .field("body", [or( def("MethodDefinition"), def("VariableDeclarator"), def("ClassPropertyDefinition"), def("ClassProperty"), def("ClassMethod"), // Just need to add these types: def("TSDeclareMethod"), TSTypeMember )]); }; ast-types-0.11.7/fork.js000066400000000000000000000022761337630174200150450ustar00rootroot00000000000000module.exports = function (defs) { var used = []; var usedResult = []; var fork = {}; function use(plugin) { var idx = used.indexOf(plugin); if (idx === -1) { idx = used.length; used.push(plugin); usedResult[idx] = plugin(fork); } return usedResult[idx]; } fork.use = use; var types = use(require('./lib/types')); defs.forEach(use); types.finalize(); var exports = { Type: types.Type, builtInTypes: types.builtInTypes, namedTypes: types.namedTypes, builders: types.builders, defineMethod: types.defineMethod, getFieldNames: types.getFieldNames, getFieldValue: types.getFieldValue, eachField: types.eachField, someField: types.someField, getSupertypeNames: types.getSupertypeNames, astNodesAreEquivalent: use(require("./lib/equiv")), finalize: types.finalize, Path: use(require('./lib/path')), NodePath: use(require("./lib/node-path")), PathVisitor: use(require("./lib/path-visitor")), use: use }; exports.visit = exports.PathVisitor.visit; return exports; };ast-types-0.11.7/lib/000077500000000000000000000000001337630174200143055ustar00rootroot00000000000000ast-types-0.11.7/lib/equiv.js000066400000000000000000000116441337630174200160020ustar00rootroot00000000000000module.exports = function (fork) { var types = fork.use(require('../lib/types')); var getFieldNames = types.getFieldNames; var getFieldValue = types.getFieldValue; var isArray = types.builtInTypes.array; var isObject = types.builtInTypes.object; var isDate = types.builtInTypes.Date; var isRegExp = types.builtInTypes.RegExp; var hasOwn = Object.prototype.hasOwnProperty; function astNodesAreEquivalent(a, b, problemPath) { if (isArray.check(problemPath)) { problemPath.length = 0; } else { problemPath = null; } return areEquivalent(a, b, problemPath); } astNodesAreEquivalent.assert = function (a, b) { var problemPath = []; if (!astNodesAreEquivalent(a, b, problemPath)) { if (problemPath.length === 0) { if (a !== b) { throw new Error("Nodes must be equal"); } } else { throw new Error( "Nodes differ in the following path: " + problemPath.map(subscriptForProperty).join("") ); } } }; function subscriptForProperty(property) { if (/[_$a-z][_$a-z0-9]*/i.test(property)) { return "." + property; } return "[" + JSON.stringify(property) + "]"; } function areEquivalent(a, b, problemPath) { if (a === b) { return true; } if (isArray.check(a)) { return arraysAreEquivalent(a, b, problemPath); } if (isObject.check(a)) { return objectsAreEquivalent(a, b, problemPath); } if (isDate.check(a)) { return isDate.check(b) && (+a === +b); } if (isRegExp.check(a)) { return isRegExp.check(b) && ( a.source === b.source && a.global === b.global && a.multiline === b.multiline && a.ignoreCase === b.ignoreCase ); } return a == b; } function arraysAreEquivalent(a, b, problemPath) { isArray.assert(a); var aLength = a.length; if (!isArray.check(b) || b.length !== aLength) { if (problemPath) { problemPath.push("length"); } return false; } for (var i = 0; i < aLength; ++i) { if (problemPath) { problemPath.push(i); } if (i in a !== i in b) { return false; } if (!areEquivalent(a[i], b[i], problemPath)) { return false; } if (problemPath) { var problemPathTail = problemPath.pop(); if (problemPathTail !== i) { throw new Error("" + problemPathTail); } } } return true; } function objectsAreEquivalent(a, b, problemPath) { isObject.assert(a); if (!isObject.check(b)) { return false; } // Fast path for a common property of AST nodes. if (a.type !== b.type) { if (problemPath) { problemPath.push("type"); } return false; } var aNames = getFieldNames(a); var aNameCount = aNames.length; var bNames = getFieldNames(b); var bNameCount = bNames.length; if (aNameCount === bNameCount) { for (var i = 0; i < aNameCount; ++i) { var name = aNames[i]; var aChild = getFieldValue(a, name); var bChild = getFieldValue(b, name); if (problemPath) { problemPath.push(name); } if (!areEquivalent(aChild, bChild, problemPath)) { return false; } if (problemPath) { var problemPathTail = problemPath.pop(); if (problemPathTail !== name) { throw new Error("" + problemPathTail); } } } return true; } if (!problemPath) { return false; } // Since aNameCount !== bNameCount, we need to find some name that's // missing in aNames but present in bNames, or vice-versa. var seenNames = Object.create(null); for (i = 0; i < aNameCount; ++i) { seenNames[aNames[i]] = true; } for (i = 0; i < bNameCount; ++i) { name = bNames[i]; if (!hasOwn.call(seenNames, name)) { problemPath.push(name); return false; } delete seenNames[name]; } for (name in seenNames) { problemPath.push(name); break; } return false; } return astNodesAreEquivalent; }; ast-types-0.11.7/lib/node-path.js000066400000000000000000000352761337630174200165370ustar00rootroot00000000000000module.exports = function (fork) { var types = fork.use(require("./types")); var n = types.namedTypes; var b = types.builders; var isNumber = types.builtInTypes.number; var isArray = types.builtInTypes.array; var Path = fork.use(require("./path")); var Scope = fork.use(require("./scope")); function NodePath(value, parentPath, name) { if (!(this instanceof NodePath)) { throw new Error("NodePath constructor cannot be invoked without 'new'"); } Path.call(this, value, parentPath, name); } var NPp = NodePath.prototype = Object.create(Path.prototype, { constructor: { value: NodePath, enumerable: false, writable: true, configurable: true } }); Object.defineProperties(NPp, { node: { get: function () { Object.defineProperty(this, "node", { configurable: true, // Enable deletion. value: this._computeNode() }); return this.node; } }, parent: { get: function () { Object.defineProperty(this, "parent", { configurable: true, // Enable deletion. value: this._computeParent() }); return this.parent; } }, scope: { get: function () { Object.defineProperty(this, "scope", { configurable: true, // Enable deletion. value: this._computeScope() }); return this.scope; } } }); NPp.replace = function () { delete this.node; delete this.parent; delete this.scope; return Path.prototype.replace.apply(this, arguments); }; NPp.prune = function () { var remainingNodePath = this.parent; this.replace(); return cleanUpNodesAfterPrune(remainingNodePath); }; // The value of the first ancestor Path whose value is a Node. NPp._computeNode = function () { var value = this.value; if (n.Node.check(value)) { return value; } var pp = this.parentPath; return pp && pp.node || null; }; // The first ancestor Path whose value is a Node distinct from this.node. NPp._computeParent = function () { var value = this.value; var pp = this.parentPath; if (!n.Node.check(value)) { while (pp && !n.Node.check(pp.value)) { pp = pp.parentPath; } if (pp) { pp = pp.parentPath; } } while (pp && !n.Node.check(pp.value)) { pp = pp.parentPath; } return pp || null; }; // The closest enclosing scope that governs this node. NPp._computeScope = function () { var value = this.value; var pp = this.parentPath; var scope = pp && pp.scope; if (n.Node.check(value) && Scope.isEstablishedBy(value)) { scope = new Scope(this, scope); } return scope || null; }; NPp.getValueProperty = function (name) { return types.getFieldValue(this.value, name); }; /** * Determine whether this.node needs to be wrapped in parentheses in order * for a parser to reproduce the same local AST structure. * * For instance, in the expression `(1 + 2) * 3`, the BinaryExpression * whose operator is "+" needs parentheses, because `1 + 2 * 3` would * parse differently. * * If assumeExpressionContext === true, we don't worry about edge cases * like an anonymous FunctionExpression appearing lexically first in its * enclosing statement and thus needing parentheses to avoid being parsed * as a FunctionDeclaration with a missing name. */ NPp.needsParens = function (assumeExpressionContext) { var pp = this.parentPath; if (!pp) { return false; } var node = this.value; // Only expressions need parentheses. if (!n.Expression.check(node)) { return false; } // Identifiers never need parentheses. if (node.type === "Identifier") { return false; } while (!n.Node.check(pp.value)) { pp = pp.parentPath; if (!pp) { return false; } } var parent = pp.value; switch (node.type) { case "UnaryExpression": case "SpreadElement": case "SpreadProperty": return parent.type === "MemberExpression" && this.name === "object" && parent.object === node; case "BinaryExpression": case "LogicalExpression": switch (parent.type) { case "CallExpression": return this.name === "callee" && parent.callee === node; case "UnaryExpression": case "SpreadElement": case "SpreadProperty": return true; case "MemberExpression": return this.name === "object" && parent.object === node; case "BinaryExpression": case "LogicalExpression": var po = parent.operator; var pp = PRECEDENCE[po]; var no = node.operator; var np = PRECEDENCE[no]; if (pp > np) { return true; } if (pp === np && this.name === "right") { if (parent.right !== node) { throw new Error("Nodes must be equal"); } return true; } default: return false; } case "SequenceExpression": switch (parent.type) { case "ForStatement": // Although parentheses wouldn't hurt around sequence // expressions in the head of for loops, traditional style // dictates that e.g. i++, j++ should not be wrapped with // parentheses. return false; case "ExpressionStatement": return this.name !== "expression"; default: // Otherwise err on the side of overparenthesization, adding // explicit exceptions above if this proves overzealous. return true; } case "YieldExpression": switch (parent.type) { case "BinaryExpression": case "LogicalExpression": case "UnaryExpression": case "SpreadElement": case "SpreadProperty": case "CallExpression": case "MemberExpression": case "NewExpression": case "ConditionalExpression": case "YieldExpression": return true; default: return false; } case "Literal": return parent.type === "MemberExpression" && isNumber.check(node.value) && this.name === "object" && parent.object === node; case "AssignmentExpression": case "ConditionalExpression": switch (parent.type) { case "UnaryExpression": case "SpreadElement": case "SpreadProperty": case "BinaryExpression": case "LogicalExpression": return true; case "CallExpression": return this.name === "callee" && parent.callee === node; case "ConditionalExpression": return this.name === "test" && parent.test === node; case "MemberExpression": return this.name === "object" && parent.object === node; default: return false; } default: if (parent.type === "NewExpression" && this.name === "callee" && parent.callee === node) { return containsCallExpression(node); } } if (assumeExpressionContext !== true && !this.canBeFirstInStatement() && this.firstInStatement()) return true; return false; }; function isBinary(node) { return n.BinaryExpression.check(node) || n.LogicalExpression.check(node); } function isUnaryLike(node) { return n.UnaryExpression.check(node) // I considered making SpreadElement and SpreadProperty subtypes // of UnaryExpression, but they're not really Expression nodes. || (n.SpreadElement && n.SpreadElement.check(node)) || (n.SpreadProperty && n.SpreadProperty.check(node)); } var PRECEDENCE = {}; [["||"], ["&&"], ["|"], ["^"], ["&"], ["==", "===", "!=", "!=="], ["<", ">", "<=", ">=", "in", "instanceof"], [">>", "<<", ">>>"], ["+", "-"], ["*", "/", "%"] ].forEach(function (tier, i) { tier.forEach(function (op) { PRECEDENCE[op] = i; }); }); function containsCallExpression(node) { if (n.CallExpression.check(node)) { return true; } if (isArray.check(node)) { return node.some(containsCallExpression); } if (n.Node.check(node)) { return types.someField(node, function (name, child) { return containsCallExpression(child); }); } return false; } NPp.canBeFirstInStatement = function () { var node = this.node; return !n.FunctionExpression.check(node) && !n.ObjectExpression.check(node); }; NPp.firstInStatement = function () { return firstInStatement(this); }; function firstInStatement(path) { for (var node, parent; path.parent; path = path.parent) { node = path.node; parent = path.parent.node; if (n.BlockStatement.check(parent) && path.parent.name === "body" && path.name === 0) { if (parent.body[0] !== node) { throw new Error("Nodes must be equal"); } return true; } if (n.ExpressionStatement.check(parent) && path.name === "expression") { if (parent.expression !== node) { throw new Error("Nodes must be equal"); } return true; } if (n.SequenceExpression.check(parent) && path.parent.name === "expressions" && path.name === 0) { if (parent.expressions[0] !== node) { throw new Error("Nodes must be equal"); } continue; } if (n.CallExpression.check(parent) && path.name === "callee") { if (parent.callee !== node) { throw new Error("Nodes must be equal"); } continue; } if (n.MemberExpression.check(parent) && path.name === "object") { if (parent.object !== node) { throw new Error("Nodes must be equal"); } continue; } if (n.ConditionalExpression.check(parent) && path.name === "test") { if (parent.test !== node) { throw new Error("Nodes must be equal"); } continue; } if (isBinary(parent) && path.name === "left") { if (parent.left !== node) { throw new Error("Nodes must be equal"); } continue; } if (n.UnaryExpression.check(parent) && !parent.prefix && path.name === "argument") { if (parent.argument !== node) { throw new Error("Nodes must be equal"); } continue; } return false; } return true; } /** * Pruning certain nodes will result in empty or incomplete nodes, here we clean those nodes up. */ function cleanUpNodesAfterPrune(remainingNodePath) { if (n.VariableDeclaration.check(remainingNodePath.node)) { var declarations = remainingNodePath.get('declarations').value; if (!declarations || declarations.length === 0) { return remainingNodePath.prune(); } } else if (n.ExpressionStatement.check(remainingNodePath.node)) { if (!remainingNodePath.get('expression').value) { return remainingNodePath.prune(); } } else if (n.IfStatement.check(remainingNodePath.node)) { cleanUpIfStatementAfterPrune(remainingNodePath); } return remainingNodePath; } function cleanUpIfStatementAfterPrune(ifStatement) { var testExpression = ifStatement.get('test').value; var alternate = ifStatement.get('alternate').value; var consequent = ifStatement.get('consequent').value; if (!consequent && !alternate) { var testExpressionStatement = b.expressionStatement(testExpression); ifStatement.replace(testExpressionStatement); } else if (!consequent && alternate) { var negatedTestExpression = b.unaryExpression('!', testExpression, true); if (n.UnaryExpression.check(testExpression) && testExpression.operator === '!') { negatedTestExpression = testExpression.argument; } ifStatement.get("test").replace(negatedTestExpression); ifStatement.get("consequent").replace(alternate); ifStatement.get("alternate").replace(); } } return NodePath; }; ast-types-0.11.7/lib/path-visitor.js000066400000000000000000000320071337630174200172760ustar00rootroot00000000000000var hasOwn = Object.prototype.hasOwnProperty; module.exports = function (fork) { var types = fork.use(require("./types")); var NodePath = fork.use(require("./node-path")); var Printable = types.namedTypes.Printable; var isArray = types.builtInTypes.array; var isObject = types.builtInTypes.object; var isFunction = types.builtInTypes.function; var undefined; function PathVisitor() { if (!(this instanceof PathVisitor)) { throw new Error( "PathVisitor constructor cannot be invoked without 'new'" ); } // Permanent state. this._reusableContextStack = []; this._methodNameTable = computeMethodNameTable(this); this._shouldVisitComments = hasOwn.call(this._methodNameTable, "Block") || hasOwn.call(this._methodNameTable, "Line"); this.Context = makeContextConstructor(this); // State reset every time PathVisitor.prototype.visit is called. this._visiting = false; this._changeReported = false; } function computeMethodNameTable(visitor) { var typeNames = Object.create(null); for (var methodName in visitor) { if (/^visit[A-Z]/.test(methodName)) { typeNames[methodName.slice("visit".length)] = true; } } var supertypeTable = types.computeSupertypeLookupTable(typeNames); var methodNameTable = Object.create(null); var typeNames = Object.keys(supertypeTable); var typeNameCount = typeNames.length; for (var i = 0; i < typeNameCount; ++i) { var typeName = typeNames[i]; methodName = "visit" + supertypeTable[typeName]; if (isFunction.check(visitor[methodName])) { methodNameTable[typeName] = methodName; } } return methodNameTable; } PathVisitor.fromMethodsObject = function fromMethodsObject(methods) { if (methods instanceof PathVisitor) { return methods; } if (!isObject.check(methods)) { // An empty visitor? return new PathVisitor; } function Visitor() { if (!(this instanceof Visitor)) { throw new Error( "Visitor constructor cannot be invoked without 'new'" ); } PathVisitor.call(this); } var Vp = Visitor.prototype = Object.create(PVp); Vp.constructor = Visitor; extend(Vp, methods); extend(Visitor, PathVisitor); isFunction.assert(Visitor.fromMethodsObject); isFunction.assert(Visitor.visit); return new Visitor; }; function extend(target, source) { for (var property in source) { if (hasOwn.call(source, property)) { target[property] = source[property]; } } return target; } PathVisitor.visit = function visit(node, methods) { return PathVisitor.fromMethodsObject(methods).visit(node); }; var PVp = PathVisitor.prototype; PVp.visit = function () { if (this._visiting) { throw new Error( "Recursively calling visitor.visit(path) resets visitor state. " + "Try this.visit(path) or this.traverse(path) instead." ); } // Private state that needs to be reset before every traversal. this._visiting = true; this._changeReported = false; this._abortRequested = false; var argc = arguments.length; var args = new Array(argc) for (var i = 0; i < argc; ++i) { args[i] = arguments[i]; } if (!(args[0] instanceof NodePath)) { args[0] = new NodePath({root: args[0]}).get("root"); } // Called with the same arguments as .visit. this.reset.apply(this, args); try { var root = this.visitWithoutReset(args[0]); var didNotThrow = true; } finally { this._visiting = false; if (!didNotThrow && this._abortRequested) { // If this.visitWithoutReset threw an exception and // this._abortRequested was set to true, return the root of // the AST instead of letting the exception propagate, so that // client code does not have to provide a try-catch block to // intercept the AbortRequest exception. Other kinds of // exceptions will propagate without being intercepted and // rethrown by a catch block, so their stacks will accurately // reflect the original throwing context. return args[0].value; } } return root; }; PVp.AbortRequest = function AbortRequest() {}; PVp.abort = function () { var visitor = this; visitor._abortRequested = true; var request = new visitor.AbortRequest(); // If you decide to catch this exception and stop it from propagating, // make sure to call its cancel method to avoid silencing other // exceptions that might be thrown later in the traversal. request.cancel = function () { visitor._abortRequested = false; }; throw request; }; PVp.reset = function (path/*, additional arguments */) { // Empty stub; may be reassigned or overridden by subclasses. }; PVp.visitWithoutReset = function (path) { if (this instanceof this.Context) { // Since this.Context.prototype === this, there's a chance we // might accidentally call context.visitWithoutReset. If that // happens, re-invoke the method against context.visitor. return this.visitor.visitWithoutReset(path); } if (!(path instanceof NodePath)) { throw new Error(""); } var value = path.value; var methodName = value && typeof value === "object" && typeof value.type === "string" && this._methodNameTable[value.type]; if (methodName) { var context = this.acquireContext(path); try { return context.invokeVisitorMethod(methodName); } finally { this.releaseContext(context); } } else { // If there was no visitor method to call, visit the children of // this node generically. return visitChildren(path, this); } }; function visitChildren(path, visitor) { if (!(path instanceof NodePath)) { throw new Error(""); } if (!(visitor instanceof PathVisitor)) { throw new Error(""); } var value = path.value; if (isArray.check(value)) { path.each(visitor.visitWithoutReset, visitor); } else if (!isObject.check(value)) { // No children to visit. } else { var childNames = types.getFieldNames(value); // The .comments field of the Node type is hidden, so we only // visit it if the visitor defines visitBlock or visitLine, and // value.comments is defined. if (visitor._shouldVisitComments && value.comments && childNames.indexOf("comments") < 0) { childNames.push("comments"); } var childCount = childNames.length; var childPaths = []; for (var i = 0; i < childCount; ++i) { var childName = childNames[i]; if (!hasOwn.call(value, childName)) { value[childName] = types.getFieldValue(value, childName); } childPaths.push(path.get(childName)); } for (var i = 0; i < childCount; ++i) { visitor.visitWithoutReset(childPaths[i]); } } return path.value; } PVp.acquireContext = function (path) { if (this._reusableContextStack.length === 0) { return new this.Context(path); } return this._reusableContextStack.pop().reset(path); }; PVp.releaseContext = function (context) { if (!(context instanceof this.Context)) { throw new Error(""); } this._reusableContextStack.push(context); context.currentPath = null; }; PVp.reportChanged = function () { this._changeReported = true; }; PVp.wasChangeReported = function () { return this._changeReported; }; function makeContextConstructor(visitor) { function Context(path) { if (!(this instanceof Context)) { throw new Error(""); } if (!(this instanceof PathVisitor)) { throw new Error(""); } if (!(path instanceof NodePath)) { throw new Error(""); } Object.defineProperty(this, "visitor", { value: visitor, writable: false, enumerable: true, configurable: false }); this.currentPath = path; this.needToCallTraverse = true; Object.seal(this); } if (!(visitor instanceof PathVisitor)) { throw new Error(""); } // Note that the visitor object is the prototype of Context.prototype, // so all visitor methods are inherited by context objects. var Cp = Context.prototype = Object.create(visitor); Cp.constructor = Context; extend(Cp, sharedContextProtoMethods); return Context; } // Every PathVisitor has a different this.Context constructor and // this.Context.prototype object, but those prototypes can all use the // same reset, invokeVisitorMethod, and traverse function objects. var sharedContextProtoMethods = Object.create(null); sharedContextProtoMethods.reset = function reset(path) { if (!(this instanceof this.Context)) { throw new Error(""); } if (!(path instanceof NodePath)) { throw new Error(""); } this.currentPath = path; this.needToCallTraverse = true; return this; }; sharedContextProtoMethods.invokeVisitorMethod = function invokeVisitorMethod(methodName) { if (!(this instanceof this.Context)) { throw new Error(""); } if (!(this.currentPath instanceof NodePath)) { throw new Error(""); } var result = this.visitor[methodName].call(this, this.currentPath); if (result === false) { // Visitor methods return false to indicate that they have handled // their own traversal needs, and we should not complain if // this.needToCallTraverse is still true. this.needToCallTraverse = false; } else if (result !== undefined) { // Any other non-undefined value returned from the visitor method // is interpreted as a replacement value. this.currentPath = this.currentPath.replace(result)[0]; if (this.needToCallTraverse) { // If this.traverse still hasn't been called, visit the // children of the replacement node. this.traverse(this.currentPath); } } if (this.needToCallTraverse !== false) { throw new Error( "Must either call this.traverse or return false in " + methodName ); } var path = this.currentPath; return path && path.value; }; sharedContextProtoMethods.traverse = function traverse(path, newVisitor) { if (!(this instanceof this.Context)) { throw new Error(""); } if (!(path instanceof NodePath)) { throw new Error(""); } if (!(this.currentPath instanceof NodePath)) { throw new Error(""); } this.needToCallTraverse = false; return visitChildren(path, PathVisitor.fromMethodsObject( newVisitor || this.visitor )); }; sharedContextProtoMethods.visit = function visit(path, newVisitor) { if (!(this instanceof this.Context)) { throw new Error(""); } if (!(path instanceof NodePath)) { throw new Error(""); } if (!(this.currentPath instanceof NodePath)) { throw new Error(""); } this.needToCallTraverse = false; return PathVisitor.fromMethodsObject( newVisitor || this.visitor ).visitWithoutReset(path); }; sharedContextProtoMethods.reportChanged = function reportChanged() { this.visitor.reportChanged(); }; sharedContextProtoMethods.abort = function abort() { this.needToCallTraverse = false; this.visitor.abort(); }; return PathVisitor; }; ast-types-0.11.7/lib/path.js000066400000000000000000000253231337630174200156040ustar00rootroot00000000000000var Ap = Array.prototype; var slice = Ap.slice; var map = Ap.map; var Op = Object.prototype; var hasOwn = Op.hasOwnProperty; module.exports = function (fork) { var types = fork.use(require("./types")); var isArray = types.builtInTypes.array; var isNumber = types.builtInTypes.number; function Path(value, parentPath, name) { if (!(this instanceof Path)) { throw new Error("Path constructor cannot be invoked without 'new'"); } if (parentPath) { if (!(parentPath instanceof Path)) { throw new Error(""); } } else { parentPath = null; name = null; } // The value encapsulated by this Path, generally equal to // parentPath.value[name] if we have a parentPath. this.value = value; // The immediate parent Path of this Path. this.parentPath = parentPath; // The name of the property of parentPath.value through which this // Path's value was reached. this.name = name; // Calling path.get("child") multiple times always returns the same // child Path object, for both performance and consistency reasons. this.__childCache = null; } var Pp = Path.prototype; function getChildCache(path) { // Lazily create the child cache. This also cheapens cache // invalidation, since you can just reset path.__childCache to null. return path.__childCache || (path.__childCache = Object.create(null)); } function getChildPath(path, name) { var cache = getChildCache(path); var actualChildValue = path.getValueProperty(name); var childPath = cache[name]; if (!hasOwn.call(cache, name) || // Ensure consistency between cache and reality. childPath.value !== actualChildValue) { childPath = cache[name] = new path.constructor( actualChildValue, path, name ); } return childPath; } // This method is designed to be overridden by subclasses that need to // handle missing properties, etc. Pp.getValueProperty = function getValueProperty(name) { return this.value[name]; }; Pp.get = function get(name) { var path = this; var names = arguments; var count = names.length; for (var i = 0; i < count; ++i) { path = getChildPath(path, names[i]); } return path; }; Pp.each = function each(callback, context) { var childPaths = []; var len = this.value.length; var i = 0; // Collect all the original child paths before invoking the callback. for (var i = 0; i < len; ++i) { if (hasOwn.call(this.value, i)) { childPaths[i] = this.get(i); } } // Invoke the callback on just the original child paths, regardless of // any modifications made to the array by the callback. I chose these // semantics over cleverly invoking the callback on new elements because // this way is much easier to reason about. context = context || this; for (i = 0; i < len; ++i) { if (hasOwn.call(childPaths, i)) { callback.call(context, childPaths[i]); } } }; Pp.map = function map(callback, context) { var result = []; this.each(function (childPath) { result.push(callback.call(this, childPath)); }, context); return result; }; Pp.filter = function filter(callback, context) { var result = []; this.each(function (childPath) { if (callback.call(this, childPath)) { result.push(childPath); } }, context); return result; }; function emptyMoves() {} function getMoves(path, offset, start, end) { isArray.assert(path.value); if (offset === 0) { return emptyMoves; } var length = path.value.length; if (length < 1) { return emptyMoves; } var argc = arguments.length; if (argc === 2) { start = 0; end = length; } else if (argc === 3) { start = Math.max(start, 0); end = length; } else { start = Math.max(start, 0); end = Math.min(end, length); } isNumber.assert(start); isNumber.assert(end); var moves = Object.create(null); var cache = getChildCache(path); for (var i = start; i < end; ++i) { if (hasOwn.call(path.value, i)) { var childPath = path.get(i); if (childPath.name !== i) { throw new Error(""); } var newIndex = i + offset; childPath.name = newIndex; moves[newIndex] = childPath; delete cache[i]; } } delete cache.length; return function () { for (var newIndex in moves) { var childPath = moves[newIndex]; if (childPath.name !== +newIndex) { throw new Error(""); } cache[newIndex] = childPath; path.value[newIndex] = childPath.value; } }; } Pp.shift = function shift() { var move = getMoves(this, -1); var result = this.value.shift(); move(); return result; }; Pp.unshift = function unshift(node) { var move = getMoves(this, arguments.length); var result = this.value.unshift.apply(this.value, arguments); move(); return result; }; Pp.push = function push(node) { isArray.assert(this.value); delete getChildCache(this).length return this.value.push.apply(this.value, arguments); }; Pp.pop = function pop() { isArray.assert(this.value); var cache = getChildCache(this); delete cache[this.value.length - 1]; delete cache.length; return this.value.pop(); }; Pp.insertAt = function insertAt(index, node) { var argc = arguments.length; var move = getMoves(this, argc - 1, index); if (move === emptyMoves) { return this; } index = Math.max(index, 0); for (var i = 1; i < argc; ++i) { this.value[index + i - 1] = arguments[i]; } move(); return this; }; Pp.insertBefore = function insertBefore(node) { var pp = this.parentPath; var argc = arguments.length; var insertAtArgs = [this.name]; for (var i = 0; i < argc; ++i) { insertAtArgs.push(arguments[i]); } return pp.insertAt.apply(pp, insertAtArgs); }; Pp.insertAfter = function insertAfter(node) { var pp = this.parentPath; var argc = arguments.length; var insertAtArgs = [this.name + 1]; for (var i = 0; i < argc; ++i) { insertAtArgs.push(arguments[i]); } return pp.insertAt.apply(pp, insertAtArgs); }; function repairRelationshipWithParent(path) { if (!(path instanceof Path)) { throw new Error(""); } var pp = path.parentPath; if (!pp) { // Orphan paths have no relationship to repair. return path; } var parentValue = pp.value; var parentCache = getChildCache(pp); // Make sure parentCache[path.name] is populated. if (parentValue[path.name] === path.value) { parentCache[path.name] = path; } else if (isArray.check(parentValue)) { // Something caused path.name to become out of date, so attempt to // recover by searching for path.value in parentValue. var i = parentValue.indexOf(path.value); if (i >= 0) { parentCache[path.name = i] = path; } } else { // If path.value disagrees with parentValue[path.name], and // path.name is not an array index, let path.value become the new // parentValue[path.name] and update parentCache accordingly. parentValue[path.name] = path.value; parentCache[path.name] = path; } if (parentValue[path.name] !== path.value) { throw new Error(""); } if (path.parentPath.get(path.name) !== path) { throw new Error(""); } return path; } Pp.replace = function replace(replacement) { var results = []; var parentValue = this.parentPath.value; var parentCache = getChildCache(this.parentPath); var count = arguments.length; repairRelationshipWithParent(this); if (isArray.check(parentValue)) { var originalLength = parentValue.length; var move = getMoves(this.parentPath, count - 1, this.name + 1); var spliceArgs = [this.name, 1]; for (var i = 0; i < count; ++i) { spliceArgs.push(arguments[i]); } var splicedOut = parentValue.splice.apply(parentValue, spliceArgs); if (splicedOut[0] !== this.value) { throw new Error(""); } if (parentValue.length !== (originalLength - 1 + count)) { throw new Error(""); } move(); if (count === 0) { delete this.value; delete parentCache[this.name]; this.__childCache = null; } else { if (parentValue[this.name] !== replacement) { throw new Error(""); } if (this.value !== replacement) { this.value = replacement; this.__childCache = null; } for (i = 0; i < count; ++i) { results.push(this.parentPath.get(this.name + i)); } if (results[0] !== this) { throw new Error(""); } } } else if (count === 1) { if (this.value !== replacement) { this.__childCache = null; } this.value = parentValue[this.name] = replacement; results.push(this); } else if (count === 0) { delete parentValue[this.name]; delete this.value; this.__childCache = null; // Leave this path cached as parentCache[this.name], even though // it no longer has a value defined. } else { throw new Error("Could not replace path"); } return results; }; return Path; }; ast-types-0.11.7/lib/scope.js000066400000000000000000000267041337630174200157650ustar00rootroot00000000000000var hasOwn = Object.prototype.hasOwnProperty; module.exports = function (fork) { var types = fork.use(require("./types")); var Type = types.Type; var namedTypes = types.namedTypes; var Node = namedTypes.Node; var Expression = namedTypes.Expression; var isArray = types.builtInTypes.array; var b = types.builders; function Scope(path, parentScope) { if (!(this instanceof Scope)) { throw new Error("Scope constructor cannot be invoked without 'new'"); } if (!(path instanceof fork.use(require("./node-path")))) { throw new Error(""); } ScopeType.assert(path.value); var depth; if (parentScope) { if (!(parentScope instanceof Scope)) { throw new Error(""); } depth = parentScope.depth + 1; } else { parentScope = null; depth = 0; } Object.defineProperties(this, { path: { value: path }, node: { value: path.value }, isGlobal: { value: !parentScope, enumerable: true }, depth: { value: depth }, parent: { value: parentScope }, bindings: { value: {} }, types: { value: {} }, }); } var scopeTypes = [ // Program nodes introduce global scopes. namedTypes.Program, // Function is the supertype of FunctionExpression, // FunctionDeclaration, ArrowExpression, etc. namedTypes.Function, // In case you didn't know, the caught parameter shadows any variable // of the same name in an outer scope. namedTypes.CatchClause ]; var ScopeType = Type.or.apply(Type, scopeTypes); Scope.isEstablishedBy = function(node) { return ScopeType.check(node); }; var Sp = Scope.prototype; // Will be overridden after an instance lazily calls scanScope. Sp.didScan = false; Sp.declares = function(name) { this.scan(); return hasOwn.call(this.bindings, name); }; Sp.declaresType = function(name) { this.scan(); return hasOwn.call(this.types, name); }; Sp.declareTemporary = function(prefix) { if (prefix) { if (!/^[a-z$_]/i.test(prefix)) { throw new Error(""); } } else { prefix = "t$"; } // Include this.depth in the name to make sure the name does not // collide with any variables in nested/enclosing scopes. prefix += this.depth.toString(36) + "$"; this.scan(); var index = 0; while (this.declares(prefix + index)) { ++index; } var name = prefix + index; return this.bindings[name] = types.builders.identifier(name); }; Sp.injectTemporary = function(identifier, init) { identifier || (identifier = this.declareTemporary()); var bodyPath = this.path.get("body"); if (namedTypes.BlockStatement.check(bodyPath.value)) { bodyPath = bodyPath.get("body"); } bodyPath.unshift( b.variableDeclaration( "var", [b.variableDeclarator(identifier, init || null)] ) ); return identifier; }; Sp.scan = function(force) { if (force || !this.didScan) { for (var name in this.bindings) { // Empty out this.bindings, just in cases. delete this.bindings[name]; } scanScope(this.path, this.bindings, this.types); this.didScan = true; } }; Sp.getBindings = function () { this.scan(); return this.bindings; }; Sp.getTypes = function () { this.scan(); return this.types; }; function scanScope(path, bindings, scopeTypes) { var node = path.value; ScopeType.assert(node); if (namedTypes.CatchClause.check(node)) { // A catch clause establishes a new scope but the only variable // bound in that scope is the catch parameter. Any other // declarations create bindings in the outer scope. addPattern(path.get("param"), bindings); } else { recursiveScanScope(path, bindings, scopeTypes); } } function recursiveScanScope(path, bindings, scopeTypes) { var node = path.value; if (path.parent && namedTypes.FunctionExpression.check(path.parent.node) && path.parent.node.id) { addPattern(path.parent.get("id"), bindings); } if (!node) { // None of the remaining cases matter if node is falsy. } else if (isArray.check(node)) { path.each(function(childPath) { recursiveScanChild(childPath, bindings, scopeTypes); }); } else if (namedTypes.Function.check(node)) { path.get("params").each(function(paramPath) { addPattern(paramPath, bindings); }); recursiveScanChild(path.get("body"), bindings, scopeTypes); } else if (namedTypes.TypeAlias && namedTypes.TypeAlias.check(node)) { addTypePattern(path.get("id"), scopeTypes); } else if (namedTypes.VariableDeclarator.check(node)) { addPattern(path.get("id"), bindings); recursiveScanChild(path.get("init"), bindings, scopeTypes); } else if (node.type === "ImportSpecifier" || node.type === "ImportNamespaceSpecifier" || node.type === "ImportDefaultSpecifier") { addPattern( // Esprima used to use the .name field to refer to the local // binding identifier for ImportSpecifier nodes, but .id for // ImportNamespaceSpecifier and ImportDefaultSpecifier nodes. // ESTree/Acorn/ESpree use .local for all three node types. path.get(node.local ? "local" : node.name ? "name" : "id"), bindings ); } else if (Node.check(node) && !Expression.check(node)) { types.eachField(node, function(name, child) { var childPath = path.get(name); if (!pathHasValue(childPath, child)) { throw new Error(""); } recursiveScanChild(childPath, bindings, scopeTypes); }); } } function pathHasValue(path, value) { if (path.value === value) { return true; } // Empty arrays are probably produced by defaults.emptyArray, in which // case is makes sense to regard them as equivalent, if not ===. if (Array.isArray(path.value) && path.value.length === 0 && Array.isArray(value) && value.length === 0) { return true; } return false; } function recursiveScanChild(path, bindings, scopeTypes) { var node = path.value; if (!node || Expression.check(node)) { // Ignore falsy values and Expressions. } else if (namedTypes.FunctionDeclaration.check(node) && node.id !== null) { addPattern(path.get("id"), bindings); } else if (namedTypes.ClassDeclaration && namedTypes.ClassDeclaration.check(node)) { addPattern(path.get("id"), bindings); } else if (ScopeType.check(node)) { if (namedTypes.CatchClause.check(node)) { var catchParamName = node.param.name; var hadBinding = hasOwn.call(bindings, catchParamName); // Any declarations that occur inside the catch body that do // not have the same name as the catch parameter should count // as bindings in the outer scope. recursiveScanScope(path.get("body"), bindings, scopeTypes); // If a new binding matching the catch parameter name was // created while scanning the catch body, ignore it because it // actually refers to the catch parameter and not the outer // scope that we're currently scanning. if (!hadBinding) { delete bindings[catchParamName]; } } } else { recursiveScanScope(path, bindings, scopeTypes); } } function addPattern(patternPath, bindings) { var pattern = patternPath.value; namedTypes.Pattern.assert(pattern); if (namedTypes.Identifier.check(pattern)) { if (hasOwn.call(bindings, pattern.name)) { bindings[pattern.name].push(patternPath); } else { bindings[pattern.name] = [patternPath]; } } else if (namedTypes.AssignmentPattern && namedTypes.AssignmentPattern.check(pattern)) { addPattern(patternPath.get('left'), bindings); } else if (namedTypes.ObjectPattern && namedTypes.ObjectPattern.check(pattern)) { patternPath.get('properties').each(function(propertyPath) { var property = propertyPath.value; if (namedTypes.Pattern.check(property)) { addPattern(propertyPath, bindings); } else if (namedTypes.Property.check(property)) { addPattern(propertyPath.get('value'), bindings); } else if (namedTypes.SpreadProperty && namedTypes.SpreadProperty.check(property)) { addPattern(propertyPath.get('argument'), bindings); } }); } else if (namedTypes.ArrayPattern && namedTypes.ArrayPattern.check(pattern)) { patternPath.get('elements').each(function(elementPath) { var element = elementPath.value; if (namedTypes.Pattern.check(element)) { addPattern(elementPath, bindings); } else if (namedTypes.SpreadElement && namedTypes.SpreadElement.check(element)) { addPattern(elementPath.get("argument"), bindings); } }); } else if (namedTypes.PropertyPattern && namedTypes.PropertyPattern.check(pattern)) { addPattern(patternPath.get('pattern'), bindings); } else if ((namedTypes.SpreadElementPattern && namedTypes.SpreadElementPattern.check(pattern)) || (namedTypes.SpreadPropertyPattern && namedTypes.SpreadPropertyPattern.check(pattern))) { addPattern(patternPath.get('argument'), bindings); } } function addTypePattern(patternPath, types) { var pattern = patternPath.value; namedTypes.Pattern.assert(pattern); if (namedTypes.Identifier.check(pattern)) { if (hasOwn.call(types, pattern.name)) { types[pattern.name].push(patternPath); } else { types[pattern.name] = [patternPath]; } } } Sp.lookup = function(name) { for (var scope = this; scope; scope = scope.parent) if (scope.declares(name)) break; return scope; }; Sp.lookupType = function(name) { for (var scope = this; scope; scope = scope.parent) if (scope.declaresType(name)) break; return scope; }; Sp.getGlobalScope = function() { var scope = this; while (!scope.isGlobal) scope = scope.parent; return scope; }; return Scope; }; ast-types-0.11.7/lib/shared.js000066400000000000000000000027031337630174200161130ustar00rootroot00000000000000module.exports = function (fork) { var exports = {}; var types = fork.use(require("../lib/types")); var Type = types.Type; var builtin = types.builtInTypes; var isNumber = builtin.number; // An example of constructing a new type with arbitrary constraints from // an existing type. exports.geq = function (than) { return new Type(function (value) { return isNumber.check(value) && value >= than; }, isNumber + " >= " + than); }; // Default value-returning functions that may optionally be passed as a // third argument to Def.prototype.field. exports.defaults = { // Functions were used because (among other reasons) that's the most // elegant way to allow for the emptyArray one always to give a new // array instance. "null": function () { return null }, "emptyArray": function () { return [] }, "false": function () { return false }, "true": function () { return true }, "undefined": function () {} }; var naiveIsPrimitive = Type.or( builtin.string, builtin.number, builtin.boolean, builtin.null, builtin.undefined ); exports.isPrimitive = new Type(function (value) { if (value === null) return true; var type = typeof value; return !(type === "object" || type === "function"); }, naiveIsPrimitive.toString()); return exports; };ast-types-0.11.7/lib/types.js000066400000000000000000000726001337630174200160140ustar00rootroot00000000000000var Ap = Array.prototype; var slice = Ap.slice; var map = Ap.map; var each = Ap.forEach; var Op = Object.prototype; var objToStr = Op.toString; var funObjStr = objToStr.call(function(){}); var strObjStr = objToStr.call(""); var hasOwn = Op.hasOwnProperty; module.exports = function () { var exports = {}; // A type is an object with a .check method that takes a value and returns // true or false according to whether the value matches the type. function Type(check, name) { var self = this; if (!(self instanceof Type)) { throw new Error("Type constructor cannot be invoked without 'new'"); } // Unfortunately we can't elegantly reuse isFunction and isString, // here, because this code is executed while defining those types. if (objToStr.call(check) !== funObjStr) { throw new Error(check + " is not a function"); } // The `name` parameter can be either a function or a string. var nameObjStr = objToStr.call(name); if (!(nameObjStr === funObjStr || nameObjStr === strObjStr)) { throw new Error(name + " is neither a function nor a string"); } Object.defineProperties(self, { name: {value: name}, check: { value: function (value, deep) { var result = check.call(self, value, deep); if (!result && deep && objToStr.call(deep) === funObjStr) deep(self, value); return result; } } }); } var Tp = Type.prototype; // Throughout this file we use Object.defineProperty to prevent // redefinition of exported properties. exports.Type = Type; // Like .check, except that failure triggers an AssertionError. Tp.assert = function (value, deep) { if (!this.check(value, deep)) { var str = shallowStringify(value); throw new Error(str + " does not match type " + this); } return true; }; function shallowStringify(value) { if (isObject.check(value)) return "{" + Object.keys(value).map(function (key) { return key + ": " + value[key]; }).join(", ") + "}"; if (isArray.check(value)) return "[" + value.map(shallowStringify).join(", ") + "]"; return JSON.stringify(value); } Tp.toString = function () { var name = this.name; if (isString.check(name)) return name; if (isFunction.check(name)) return name.call(this) + ""; return name + " type"; }; var builtInCtorFns = []; var builtInCtorTypes = []; var builtInTypes = {}; exports.builtInTypes = builtInTypes; function defBuiltInType(example, name) { var objStr = objToStr.call(example); var type = new Type(function (value) { return objToStr.call(value) === objStr; }, name); builtInTypes[name] = type; if (example && typeof example.constructor === "function") { builtInCtorFns.push(example.constructor); builtInCtorTypes.push(type); } return type; } // These types check the underlying [[Class]] attribute of the given // value, rather than using the problematic typeof operator. Note however // that no subtyping is considered; so, for instance, isObject.check // returns false for [], /./, new Date, and null. var isString = defBuiltInType("truthy", "string"); var isFunction = defBuiltInType(function () {}, "function"); var isArray = defBuiltInType([], "array"); var isObject = defBuiltInType({}, "object"); var isRegExp = defBuiltInType(/./, "RegExp"); var isDate = defBuiltInType(new Date, "Date"); var isNumber = defBuiltInType(3, "number"); var isBoolean = defBuiltInType(true, "boolean"); var isNull = defBuiltInType(null, "null"); var isUndefined = defBuiltInType(void 0, "undefined"); // There are a number of idiomatic ways of expressing types, so this // function serves to coerce them all to actual Type objects. Note that // providing the name argument is not necessary in most cases. function toType(from, name) { // The toType function should of course be idempotent. if (from instanceof Type) return from; // The Def type is used as a helper for constructing compound // interface types for AST nodes. if (from instanceof Def) return from.type; // Support [ElemType] syntax. if (isArray.check(from)) return Type.fromArray(from); // Support { someField: FieldType, ... } syntax. if (isObject.check(from)) return Type.fromObject(from); if (isFunction.check(from)) { var bicfIndex = builtInCtorFns.indexOf(from); if (bicfIndex >= 0) { return builtInCtorTypes[bicfIndex]; } // If isFunction.check(from), and from is not a built-in // constructor, assume from is a binary predicate function we can // use to define the type. return new Type(from, name); } // As a last resort, toType returns a type that matches any value that // is === from. This is primarily useful for literal values like // toType(null), but it has the additional advantage of allowing // toType to be a total function. return new Type(function (value) { return value === from; }, isUndefined.check(name) ? function () { return from + ""; } : name); } // Returns a type that matches the given value iff any of type1, type2, // etc. match the value. Type.or = function (/* type1, type2, ... */) { var types = []; var len = arguments.length; for (var i = 0; i < len; ++i) types.push(toType(arguments[i])); return new Type(function (value, deep) { for (var i = 0; i < len; ++i) if (types[i].check(value, deep)) return true; return false; }, function () { return types.join(" | "); }); }; Type.fromArray = function (arr) { if (!isArray.check(arr)) { throw new Error(""); } if (arr.length !== 1) { throw new Error("only one element type is permitted for typed arrays"); } return toType(arr[0]).arrayOf(); }; Tp.arrayOf = function () { var elemType = this; return new Type(function (value, deep) { return isArray.check(value) && value.every(function (elem) { return elemType.check(elem, deep); }); }, function () { return "[" + elemType + "]"; }); }; Type.fromObject = function (obj) { var fields = Object.keys(obj).map(function (name) { return new Field(name, obj[name]); }); return new Type(function (value, deep) { return isObject.check(value) && fields.every(function (field) { return field.type.check(value[field.name], deep); }); }, function () { return "{ " + fields.join(", ") + " }"; }); }; function Field(name, type, defaultFn, hidden) { var self = this; if (!(self instanceof Field)) { throw new Error("Field constructor cannot be invoked without 'new'"); } isString.assert(name); type = toType(type); var properties = { name: {value: name}, type: {value: type}, hidden: {value: !!hidden} }; if (isFunction.check(defaultFn)) { properties.defaultFn = {value: defaultFn}; } Object.defineProperties(self, properties); } var Fp = Field.prototype; Fp.toString = function () { return JSON.stringify(this.name) + ": " + this.type; }; Fp.getValue = function (obj) { var value = obj[this.name]; if (!isUndefined.check(value)) return value; if (this.defaultFn) value = this.defaultFn.call(obj); return value; }; // Define a type whose name is registered in a namespace (the defCache) so // that future definitions will return the same type given the same name. // In particular, this system allows for circular and forward definitions. // The Def object d returned from Type.def may be used to configure the // type d.type by calling methods such as d.bases, d.build, and d.field. Type.def = function (typeName) { isString.assert(typeName); return hasOwn.call(defCache, typeName) ? defCache[typeName] : defCache[typeName] = new Def(typeName); }; // In order to return the same Def instance every time Type.def is called // with a particular name, those instances need to be stored in a cache. var defCache = Object.create(null); function Def(typeName) { var self = this; if (!(self instanceof Def)) { throw new Error("Def constructor cannot be invoked without 'new'"); } Object.defineProperties(self, { typeName: {value: typeName}, baseNames: {value: []}, ownFields: {value: Object.create(null)}, // These two are populated during finalization. allSupertypes: {value: Object.create(null)}, // Includes own typeName. supertypeList: {value: []}, // Linear inheritance hierarchy. allFields: {value: Object.create(null)}, // Includes inherited fields. fieldNames: {value: []}, // Non-hidden keys of allFields. type: { value: new Type(function (value, deep) { return self.check(value, deep); }, typeName) } }); } Def.fromValue = function (value) { if (value && typeof value === "object") { var type = value.type; if (typeof type === "string" && hasOwn.call(defCache, type)) { var d = defCache[type]; if (d.finalized) { return d; } } } return null; }; var Dp = Def.prototype; Dp.isSupertypeOf = function (that) { if (that instanceof Def) { if (this.finalized !== true || that.finalized !== true) { throw new Error(""); } return hasOwn.call(that.allSupertypes, this.typeName); } else { throw new Error(that + " is not a Def"); } }; // Note that the list returned by this function is a copy of the internal // supertypeList, *without* the typeName itself as the first element. exports.getSupertypeNames = function (typeName) { if (!hasOwn.call(defCache, typeName)) { throw new Error(""); } var d = defCache[typeName]; if (d.finalized !== true) { throw new Error(""); } return d.supertypeList.slice(1); }; // Returns an object mapping from every known type in the defCache to the // most specific supertype whose name is an own property of the candidates // object. exports.computeSupertypeLookupTable = function (candidates) { var table = {}; var typeNames = Object.keys(defCache); var typeNameCount = typeNames.length; for (var i = 0; i < typeNameCount; ++i) { var typeName = typeNames[i]; var d = defCache[typeName]; if (d.finalized !== true) { throw new Error("" + typeName); } for (var j = 0; j < d.supertypeList.length; ++j) { var superTypeName = d.supertypeList[j]; if (hasOwn.call(candidates, superTypeName)) { table[typeName] = superTypeName; break; } } } return table; }; Dp.checkAllFields = function (value, deep) { var allFields = this.allFields; if (this.finalized !== true) { throw new Error("" + this.typeName); } function checkFieldByName(name) { var field = allFields[name]; var type = field.type; var child = field.getValue(value); return type.check(child, deep); } return isObject.check(value) && Object.keys(allFields).every(checkFieldByName); }; Dp.check = function (value, deep) { if (this.finalized !== true) { throw new Error( "prematurely checking unfinalized type " + this.typeName ); } // A Def type can only match an object value. if (!isObject.check(value)) return false; var vDef = Def.fromValue(value); if (!vDef) { // If we couldn't infer the Def associated with the given value, // and we expected it to be a SourceLocation or a Position, it was // probably just missing a "type" field (because Esprima does not // assign a type property to such nodes). Be optimistic and let // this.checkAllFields make the final decision. if (this.typeName === "SourceLocation" || this.typeName === "Position") { return this.checkAllFields(value, deep); } // Calling this.checkAllFields for any other type of node is both // bad for performance and way too forgiving. return false; } // If checking deeply and vDef === this, then we only need to call // checkAllFields once. Calling checkAllFields is too strict when deep // is false, because then we only care about this.isSupertypeOf(vDef). if (deep && vDef === this) return this.checkAllFields(value, deep); // In most cases we rely exclusively on isSupertypeOf to make O(1) // subtyping determinations. This suffices in most situations outside // of unit tests, since interface conformance is checked whenever new // instances are created using builder functions. if (!this.isSupertypeOf(vDef)) return false; // The exception is when deep is true; then, we recursively check all // fields. if (!deep) return true; // Use the more specific Def (vDef) to perform the deep check, but // shallow-check fields defined by the less specific Def (this). return vDef.checkAllFields(value, deep) && this.checkAllFields(value, false); }; Dp.bases = function () { var args = slice.call(arguments); var bases = this.baseNames; if (this.finalized) { if (args.length !== bases.length) { throw new Error(""); } for (var i = 0; i < args.length; i++) { if (args[i] !== bases[i]) { throw new Error(""); } } return this; } args.forEach(function (baseName) { isString.assert(baseName); // This indexOf lookup may be O(n), but the typical number of base // names is very small, and indexOf is a native Array method. if (bases.indexOf(baseName) < 0) bases.push(baseName); }); return this; // For chaining. }; // False by default until .build(...) is called on an instance. Object.defineProperty(Dp, "buildable", {value: false}); var builders = {}; exports.builders = builders; // This object is used as prototype for any node created by a builder. var nodePrototype = {}; // Call this function to define a new method to be shared by all AST // nodes. The replaced method (if any) is returned for easy wrapping. exports.defineMethod = function (name, func) { var old = nodePrototype[name]; // Pass undefined as func to delete nodePrototype[name]. if (isUndefined.check(func)) { delete nodePrototype[name]; } else { isFunction.assert(func); Object.defineProperty(nodePrototype, name, { enumerable: true, // For discoverability. configurable: true, // For delete proto[name]. value: func }); } return old; }; var isArrayOfString = isString.arrayOf(); // Calling the .build method of a Def simultaneously marks the type as // buildable (by defining builders[getBuilderName(typeName)]) and // specifies the order of arguments that should be passed to the builder // function to create an instance of the type. Dp.build = function (/* param1, param2, ... */) { var self = this; var newBuildParams = slice.call(arguments); isArrayOfString.assert(newBuildParams); // Calling Def.prototype.build multiple times has the effect of merely // redefining this property. Object.defineProperty(self, "buildParams", { value: newBuildParams, writable: false, enumerable: false, configurable: true }); if (self.buildable) { // If this Def is already buildable, update self.buildParams and // continue using the old builder function. return self; } // Every buildable type will have its "type" field filled in // automatically. This includes types that are not subtypes of Node, // like SourceLocation, but that seems harmless (TODO?). self.field("type", String, function () { return self.typeName }); // Override Dp.buildable for this Def instance. Object.defineProperty(self, "buildable", {value: true}); function addParam(built, param, arg, isArgAvailable) { if (hasOwn.call(built, param)) return; var all = self.allFields; if (!hasOwn.call(all, param)) { throw new Error("" + param); } var field = all[param]; var type = field.type; var value; if (isArgAvailable) { value = arg; } else if (field.defaultFn) { // Expose the partially-built object to the default // function as its `this` object. value = field.defaultFn.call(built); } else { var message = "no value or default function given for field " + JSON.stringify(param) + " of " + self.typeName + "(" + self.buildParams.map(function (name) { return all[name]; }).join(", ") + ")"; throw new Error(message); } if (!type.check(value)) { throw new Error( shallowStringify(value) + " does not match field " + field + " of type " + self.typeName ); } built[param] = value; } // Calling the builder function will construct an instance of the Def, // with positional arguments mapped to the fields original passed to .build. // If not enough arguments are provided, the default value for the remaining fields // will be used. function builder() { var args = arguments; var argc = args.length; if (!self.finalized) { throw new Error( "attempting to instantiate unfinalized type " + self.typeName ); } var built = Object.create(nodePrototype); self.buildParams.forEach(function (param, i) { if (i < argc) { addParam(built, param, args[i], true) } else { addParam(built, param, null, false); } }); Object.keys(self.allFields).forEach(function (param) { // Use the default value. addParam(built, param, null, false); }); // Make sure that the "type" field was filled automatically. if (built.type !== self.typeName) { throw new Error(""); } return built; } // Calling .from on the builder function will construct an instance of the Def, // using field values from the passed object. For fields missing from the passed object, // their default value will be used. builder.from = function (obj) { if (!self.finalized) { throw new Error( "attempting to instantiate unfinalized type " + self.typeName ); } var built = Object.create(nodePrototype); Object.keys(self.allFields).forEach(function (param) { if (hasOwn.call(obj, param)) { addParam(built, param, obj[param], true); } else { addParam(built, param, null, false); } }); // Make sure that the "type" field was filled automatically. if (built.type !== self.typeName) { throw new Error(""); } return built; } Object.defineProperty(builders, getBuilderName(self.typeName), { enumerable: true, value: builder }); return self; // For chaining. }; function getBuilderName(typeName) { return typeName.replace(/^[A-Z]+/, function (upperCasePrefix) { var len = upperCasePrefix.length; switch (len) { case 0: return ""; // If there's only one initial capital letter, just lower-case it. case 1: return upperCasePrefix.toLowerCase(); default: // If there's more than one initial capital letter, lower-case // all but the last one, so that XMLDefaultDeclaration (for // example) becomes xmlDefaultDeclaration. return upperCasePrefix.slice( 0, len - 1).toLowerCase() + upperCasePrefix.charAt(len - 1); } }); } exports.getBuilderName = getBuilderName; function getStatementBuilderName(typeName) { typeName = getBuilderName(typeName); return typeName.replace(/(Expression)?$/, "Statement"); } exports.getStatementBuilderName = getStatementBuilderName; // The reason fields are specified using .field(...) instead of an object // literal syntax is somewhat subtle: the object literal syntax would // support only one key and one value, but with .field(...) we can pass // any number of arguments to specify the field. Dp.field = function (name, type, defaultFn, hidden) { if (this.finalized) { console.error("Ignoring attempt to redefine field " + JSON.stringify(name) + " of finalized type " + JSON.stringify(this.typeName)); return this; } this.ownFields[name] = new Field(name, type, defaultFn, hidden); return this; // For chaining. }; var namedTypes = {}; exports.namedTypes = namedTypes; // Like Object.keys, but aware of what fields each AST type should have. function getFieldNames(object) { var d = Def.fromValue(object); if (d) { return d.fieldNames.slice(0); } if ("type" in object) { throw new Error( "did not recognize object of type " + JSON.stringify(object.type) ); } return Object.keys(object); } exports.getFieldNames = getFieldNames; // Get the value of an object property, taking object.type and default // functions into account. function getFieldValue(object, fieldName) { var d = Def.fromValue(object); if (d) { var field = d.allFields[fieldName]; if (field) { return field.getValue(object); } } return object && object[fieldName]; } exports.getFieldValue = getFieldValue; // Iterate over all defined fields of an object, including those missing // or undefined, passing each field name and effective value (as returned // by getFieldValue) to the callback. If the object has no corresponding // Def, the callback will never be called. exports.eachField = function (object, callback, context) { getFieldNames(object).forEach(function (name) { callback.call(this, name, getFieldValue(object, name)); }, context); }; // Similar to eachField, except that iteration stops as soon as the // callback returns a truthy value. Like Array.prototype.some, the final // result is either true or false to indicates whether the callback // returned true for any element or not. exports.someField = function (object, callback, context) { return getFieldNames(object).some(function (name) { return callback.call(this, name, getFieldValue(object, name)); }, context); }; // This property will be overridden as true by individual Def instances // when they are finalized. Object.defineProperty(Dp, "finalized", {value: false}); Dp.finalize = function () { var self = this; // It's not an error to finalize a type more than once, but only the // first call to .finalize does anything. if (!self.finalized) { var allFields = self.allFields; var allSupertypes = self.allSupertypes; self.baseNames.forEach(function (name) { var def = defCache[name]; if (def instanceof Def) { def.finalize(); extend(allFields, def.allFields); extend(allSupertypes, def.allSupertypes); } else { var message = "unknown supertype name " + JSON.stringify(name) + " for subtype " + JSON.stringify(self.typeName); throw new Error(message); } }); // TODO Warn if fields are overridden with incompatible types. extend(allFields, self.ownFields); allSupertypes[self.typeName] = self; self.fieldNames.length = 0; for (var fieldName in allFields) { if (hasOwn.call(allFields, fieldName) && !allFields[fieldName].hidden) { self.fieldNames.push(fieldName); } } // Types are exported only once they have been finalized. Object.defineProperty(namedTypes, self.typeName, { enumerable: true, value: self.type }); Object.defineProperty(self, "finalized", {value: true}); // A linearization of the inheritance hierarchy. populateSupertypeList(self.typeName, self.supertypeList); if (self.buildable && self.supertypeList.lastIndexOf("Expression") >= 0) { wrapExpressionBuilderWithStatement(self.typeName); } } }; // Adds an additional builder for Expression subtypes // that wraps the built Expression in an ExpressionStatements. function wrapExpressionBuilderWithStatement(typeName) { var wrapperName = getStatementBuilderName(typeName); // skip if the builder already exists if (builders[wrapperName]) return; // the builder function to wrap with builders.ExpressionStatement var wrapped = builders[getBuilderName(typeName)]; // skip if there is nothing to wrap if (!wrapped) return; builders[wrapperName] = function () { return builders.expressionStatement(wrapped.apply(builders, arguments)); }; } function populateSupertypeList(typeName, list) { list.length = 0; list.push(typeName); var lastSeen = Object.create(null); for (var pos = 0; pos < list.length; ++pos) { typeName = list[pos]; var d = defCache[typeName]; if (d.finalized !== true) { throw new Error(""); } // If we saw typeName earlier in the breadth-first traversal, // delete the last-seen occurrence. if (hasOwn.call(lastSeen, typeName)) { delete list[lastSeen[typeName]]; } // Record the new index of the last-seen occurrence of typeName. lastSeen[typeName] = pos; // Enqueue the base names of this type. list.push.apply(list, d.baseNames); } // Compaction loop to remove array holes. for (var to = 0, from = to, len = list.length; from < len; ++from) { if (hasOwn.call(list, from)) { list[to++] = list[from]; } } list.length = to; } function extend(into, from) { Object.keys(from).forEach(function (name) { into[name] = from[name]; }); return into; }; exports.finalize = function () { Object.keys(defCache).forEach(function (name) { 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"main.js", "scripts": { "test": "test/run.sh" }, "dependencies": {}, "devDependencies": { "babel-types": "^6.26.0", "babylon": "^7.0.0-beta.40", "espree": "^4.0.0", "esprima": "~4.0.0", "esprima-fb": "~14001.1.0-dev-harmony-fb", "flow-parser": "^0.83.0", "glob": "^7.1.2", "mocha": "^5.0.0", "reify": "^0.18.0" }, "engines": { "node": ">=4" } } ast-types-0.11.7/test/000077500000000000000000000000001337630174200145165ustar00rootroot00000000000000ast-types-0.11.7/test/data/000077500000000000000000000000001337630174200154275ustar00rootroot00000000000000ast-types-0.11.7/test/data/backbone.js000066400000000000000000001643761337630174200175520ustar00rootroot00000000000000// Backbone.js 1.0.0 // (c) 2010-2013 Jeremy Ashkenas, DocumentCloud Inc. // (c) 2011-2013 Jeremy Ashkenas, DocumentCloud and Investigative Reporters & Editors // Backbone may be freely distributed under the MIT license. // For all details and documentation: // http://backbonejs.org (function(){ // Initial Setup // ------------- // Save a reference to the global object (`window` in the browser, `exports` // on the server). var root = this; // Save the previous value of the `Backbone` variable, so that it can be // restored later on, if `noConflict` is used. var previousBackbone = root.Backbone; // Create local references to array methods we'll want to use later. var array = []; var push = array.push; var slice = array.slice; var splice = array.splice; // The top-level namespace. All public Backbone classes and modules will // be attached to this. Exported for both the browser and the server. var Backbone; if (typeof exports !== 'undefined') { Backbone = exports; } else { Backbone = root.Backbone = {}; } // Current version of the library. Keep in sync with `package.json`. Backbone.VERSION = '1.0.0'; // Require Underscore, if we're on the server, and it's not already present. var _ = root._; if (!_ && (typeof require !== 'undefined')) _ = require('underscore'); // For Backbone's purposes, jQuery, Zepto, Ender, or My Library (kidding) owns // the `$` variable. Backbone.$ = root.jQuery || root.Zepto || root.ender || root.$; // Runs Backbone.js in *noConflict* mode, returning the `Backbone` variable // to its previous owner. Returns a reference to this Backbone object. Backbone.noConflict = function() { root.Backbone = previousBackbone; return this; }; // Turn on `emulateHTTP` to support legacy HTTP servers. Setting this option // will fake `"PUT"` and `"DELETE"` requests via the `_method` parameter and // set a `X-Http-Method-Override` header. Backbone.emulateHTTP = false; // Turn on `emulateJSON` to support legacy servers that can't deal with direct // `application/json` requests ... will encode the body as // `application/x-www-form-urlencoded` instead and will send the model in a // form param named `model`. Backbone.emulateJSON = false; // Backbone.Events // --------------- // A module that can be mixed in to *any object* in order to provide it with // custom events. You may bind with `on` or remove with `off` callback // functions to an event; `trigger`-ing an event fires all callbacks in // succession. // // var object = {}; // _.extend(object, Backbone.Events); // object.on('expand', function(){ alert('expanded'); }); // object.trigger('expand'); // var Events = Backbone.Events = { // Bind an event to a `callback` function. Passing `"all"` will bind // the callback to all events fired. on: function(name, callback, context) { if (!eventsApi(this, 'on', name, [callback, context]) || !callback) return this; this._events || (this._events = {}); var events = this._events[name] || (this._events[name] = []); events.push({callback: callback, context: context, ctx: context || this}); return this; }, // Bind an event to only be triggered a single time. After the first time // the callback is invoked, it will be removed. once: function(name, callback, context) { if (!eventsApi(this, 'once', name, [callback, context]) || !callback) return this; var self = this; var once = _.once(function() { self.off(name, once); callback.apply(this, arguments); }); once._callback = callback; return this.on(name, once, context); }, // Remove one or many callbacks. If `context` is null, removes all // callbacks with that function. If `callback` is null, removes all // callbacks for the event. If `name` is null, removes all bound // callbacks for all events. off: function(name, callback, context) { var retain, ev, events, names, i, l, j, k; if (!this._events || !eventsApi(this, 'off', name, [callback, context])) return this; if (!name && !callback && !context) { this._events = {}; return this; } names = name ? [name] : _.keys(this._events); for (i = 0, l = names.length; i < l; i++) { name = names[i]; if (events = this._events[name]) { this._events[name] = retain = []; if (callback || context) { for (j = 0, k = events.length; j < k; j++) { ev = events[j]; if ((callback && callback !== ev.callback && callback !== ev.callback._callback) || (context && context !== ev.context)) { retain.push(ev); } } } if (!retain.length) delete this._events[name]; } } return this; }, // Trigger one or many events, firing all bound callbacks. Callbacks are // passed the same arguments as `trigger` is, apart from the event name // (unless you're listening on `"all"`, which will cause your callback to // receive the true name of the event as the first argument). trigger: function(name) { if (!this._events) return this; var args = slice.call(arguments, 1); if (!eventsApi(this, 'trigger', name, args)) return this; var events = this._events[name]; var allEvents = this._events.all; if (events) triggerEvents(events, args); if (allEvents) triggerEvents(allEvents, arguments); return this; }, // Tell this object to stop listening to either specific events ... or // to every object it's currently listening to. stopListening: function(obj, name, callback) { var listeners = this._listeners; if (!listeners) return this; var deleteListener = !name && !callback; if (typeof name === 'object') callback = this; if (obj) (listeners = {})[obj._listenerId] = obj; for (var id in listeners) { listeners[id].off(name, callback, this); if (deleteListener) delete this._listeners[id]; } return this; } }; // Regular expression used to split event strings. var eventSplitter = /\s+/; // Implement fancy features of the Events API such as multiple event // names `"change blur"` and jQuery-style event maps `{change: action}` // in terms of the existing API. var eventsApi = function(obj, action, name, rest) { if (!name) return true; // Handle event maps. if (typeof name === 'object') { for (var key in name) { obj[action].apply(obj, [key, name[key]].concat(rest)); } return false; } // Handle space separated event names. if (eventSplitter.test(name)) { var names = name.split(eventSplitter); for (var i = 0, l = names.length; i < l; i++) { obj[action].apply(obj, [names[i]].concat(rest)); } return false; } return true; }; // A difficult-to-believe, but optimized internal dispatch function for // triggering events. Tries to keep the usual cases speedy (most internal // Backbone events have 3 arguments). var triggerEvents = function(events, args) { var ev, i = -1, l = events.length, a1 = args[0], a2 = args[1], a3 = args[2]; switch (args.length) { case 0: while (++i < l) (ev = events[i]).callback.call(ev.ctx); return; case 1: while (++i < l) (ev = events[i]).callback.call(ev.ctx, a1); return; case 2: while (++i < l) (ev = events[i]).callback.call(ev.ctx, a1, a2); return; case 3: while (++i < l) (ev = events[i]).callback.call(ev.ctx, a1, a2, a3); return; default: while (++i < l) (ev = events[i]).callback.apply(ev.ctx, args); } }; var listenMethods = {listenTo: 'on', listenToOnce: 'once'}; // Inversion-of-control versions of `on` and `once`. Tell *this* object to // listen to an event in another object ... keeping track of what it's // listening to. _.each(listenMethods, function(implementation, method) { Events[method] = function(obj, name, callback) { var listeners = this._listeners || (this._listeners = {}); var id = obj._listenerId || (obj._listenerId = _.uniqueId('l')); listeners[id] = obj; if (typeof name === 'object') callback = this; obj[implementation](name, callback, this); return this; }; }); // Aliases for backwards compatibility. Events.bind = Events.on; Events.unbind = Events.off; // Allow the `Backbone` object to serve as a global event bus, for folks who // want global "pubsub" in a convenient place. _.extend(Backbone, Events); // Backbone.Model // -------------- // Backbone **Models** are the basic data object in the framework -- // frequently representing a row in a table in a database on your server. // A discrete chunk of data and a bunch of useful, related methods for // performing computations and transformations on that data. // Create a new model with the specified attributes. A client id (`cid`) // is automatically generated and assigned for you. var Model = Backbone.Model = function(attributes, options) { var defaults; var attrs = attributes || {}; options || (options = {}); this.cid = _.uniqueId('c'); this.attributes = {}; if (options.collection) this.collection = options.collection; if (options.parse) attrs = this.parse(attrs, options) || {}; options._attrs = attrs; if (defaults = _.result(this, 'defaults')) { attrs = _.defaults({}, attrs, defaults); } this.set(attrs, options); this.changed = {}; this.initialize.apply(this, arguments); }; // Attach all inheritable methods to the Model prototype. _.extend(Model.prototype, Events, { // A hash of attributes whose current and previous value differ. changed: null, // The value returned during the last failed validation. validationError: null, // The default name for the JSON `id` attribute is `"id"`. MongoDB and // CouchDB users may want to set this to `"_id"`. idAttribute: 'id', // Initialize is an empty function by default. Override it with your own // initialization logic. initialize: function(){}, // Return a copy of the model's `attributes` object. toJSON: function(options) { return _.clone(this.attributes); }, // Proxy `Backbone.sync` by default -- but override this if you need // custom syncing semantics for *this* particular model. sync: function() { return Backbone.sync.apply(this, arguments); }, // Get the value of an attribute. get: function(attr) { return this.attributes[attr]; }, // Get the HTML-escaped value of an attribute. escape: function(attr) { return _.escape(this.get(attr)); }, // Returns `true` if the attribute contains a value that is not null // or undefined. has: function(attr) { return this.get(attr) != null; }, // Set a hash of model attributes on the object, firing `"change"`. This is // the core primitive operation of a model, updating the data and notifying // anyone who needs to know about the change in state. The heart of the beast. set: function(key, val, options) { var attr, attrs, unset, changes, silent, changing, prev, current; if (key == null) return this; // Handle both `"key", value` and `{key: value}` -style arguments. if (typeof key === 'object') { attrs = key; options = val; } else { (attrs = {})[key] = val; } options || (options = {}); // Run validation. if (!this._validate(attrs, options)) return false; // Extract attributes and options. unset = options.unset; silent = options.silent; changes = []; changing = this._changing; this._changing = true; if (!changing) { this._previousAttributes = _.clone(this.attributes); this.changed = {}; } current = this.attributes, prev = this._previousAttributes; // Check for changes of `id`. if (this.idAttribute in attrs) this.id = attrs[this.idAttribute]; // For each `set` attribute, update or delete the current value. for (attr in attrs) { val = attrs[attr]; if (!_.isEqual(current[attr], val)) changes.push(attr); if (!_.isEqual(prev[attr], val)) { this.changed[attr] = val; } else { delete this.changed[attr]; } unset ? delete current[attr] : current[attr] = val; } // Trigger all relevant attribute changes. if (!silent) { if (changes.length) this._pending = true; for (var i = 0, l = changes.length; i < l; i++) { this.trigger('change:' + changes[i], this, current[changes[i]], options); } } // You might be wondering why there's a `while` loop here. Changes can // be recursively nested within `"change"` events. if (changing) return this; if (!silent) { while (this._pending) { this._pending = false; this.trigger('change', this, options); } } this._pending = false; this._changing = false; return this; }, // Remove an attribute from the model, firing `"change"`. `unset` is a noop // if the attribute doesn't exist. unset: function(attr, options) { return this.set(attr, void 0, _.extend({}, options, {unset: true})); }, // Clear all attributes on the model, firing `"change"`. clear: function(options) { var attrs = {}; for (var key in this.attributes) attrs[key] = void 0; return this.set(attrs, _.extend({}, options, {unset: true})); }, // Determine if the model has changed since the last `"change"` event. // If you specify an attribute name, determine if that attribute has changed. hasChanged: function(attr) { if (attr == null) return !_.isEmpty(this.changed); return _.has(this.changed, attr); }, // Return an object containing all the attributes that have changed, or // false if there are no changed attributes. Useful for determining what // parts of a view need to be updated and/or what attributes need to be // persisted to the server. Unset attributes will be set to undefined. // You can also pass an attributes object to diff against the model, // determining if there *would be* a change. changedAttributes: function(diff) { if (!diff) return this.hasChanged() ? _.clone(this.changed) : false; var val, changed = false; var old = this._changing ? this._previousAttributes : this.attributes; for (var attr in diff) { if (_.isEqual(old[attr], (val = diff[attr]))) continue; (changed || (changed = {}))[attr] = val; } return changed; }, // Get the previous value of an attribute, recorded at the time the last // `"change"` event was fired. previous: function(attr) { if (attr == null || !this._previousAttributes) return null; return this._previousAttributes[attr]; }, // Get all of the attributes of the model at the time of the previous // `"change"` event. previousAttributes: function() { return _.clone(this._previousAttributes); }, // Fetch the model from the server. If the server's representation of the // model differs from its current attributes, they will be overridden, // triggering a `"change"` event. fetch: function(options) { options = options ? _.clone(options) : {}; if (options.parse === void 0) options.parse = true; var model = this; var success = options.success; options.success = function(resp) { if (!model.set(model.parse(resp, options), options)) return false; if (success) success(model, resp, options); model.trigger('sync', model, resp, options); }; wrapError(this, options); return this.sync('read', this, options); }, // Set a hash of model attributes, and sync the model to the server. // If the server returns an attributes hash that differs, the model's // state will be `set` again. save: function(key, val, options) { var attrs, method, xhr, attributes = this.attributes; // Handle both `"key", value` and `{key: value}` -style arguments. if (key == null || typeof key === 'object') { attrs = key; options = val; } else { (attrs = {})[key] = val; } options = _.extend({validate: true}, options); // If we're not waiting and attributes exist, save acts as // `set(attr).save(null, opts)` with validation. Otherwise, check if // the model will be valid when the attributes, if any, are set. if (attrs && !options.wait) { if (!this.set(attrs, options)) return false; } else { if (!this._validate(attrs, options)) return false; } // Set temporary attributes if `{wait: true}`. if (attrs && options.wait) { this.attributes = _.extend({}, attributes, attrs); } // After a successful server-side save, the client is (optionally) // updated with the server-side state. if (options.parse === void 0) options.parse = true; var model = this; var success = options.success; options.success = function(resp) { // Ensure attributes are restored during synchronous saves. model.attributes = attributes; var serverAttrs = model.parse(resp, options); if (options.wait) serverAttrs = _.extend(attrs || {}, serverAttrs); if (_.isObject(serverAttrs) && !model.set(serverAttrs, options)) { return false; } if (success) success(model, resp, options); model.trigger('sync', model, resp, options); }; wrapError(this, options); method = this.isNew() ? 'create' : (options.patch ? 'patch' : 'update'); if (method === 'patch') options.attrs = attrs; xhr = this.sync(method, this, options); // Restore attributes. if (attrs && options.wait) this.attributes = attributes; return xhr; }, // Destroy this model on the server if it was already persisted. // Optimistically removes the model from its collection, if it has one. // If `wait: true` is passed, waits for the server to respond before removal. destroy: function(options) { options = options ? _.clone(options) : {}; var model = this; var success = options.success; var destroy = function() { model.trigger('destroy', model, model.collection, options); }; options.success = function(resp) { if (options.wait || model.isNew()) destroy(); if (success) success(model, resp, options); if (!model.isNew()) model.trigger('sync', model, resp, options); }; if (this.isNew()) { options.success(); return false; } wrapError(this, options); var xhr = this.sync('delete', this, options); if (!options.wait) destroy(); return xhr; }, // Default URL for the model's representation on the server -- if you're // using Backbone's restful methods, override this to change the endpoint // that will be called. url: function() { var base = _.result(this, 'urlRoot') || _.result(this.collection, 'url') || urlError(); if (this.isNew()) return base; return base + (base.charAt(base.length - 1) === '/' ? '' : '/') + encodeURIComponent(this.id); }, // **parse** converts a response into the hash of attributes to be `set` on // the model. The default implementation is just to pass the response along. parse: function(resp, options) { return resp; }, // Create a new model with identical attributes to this one. clone: function() { return new this.constructor(this.attributes); }, // A model is new if it has never been saved to the server, and lacks an id. isNew: function() { return this.id == null; }, // Check if the model is currently in a valid state. isValid: function(options) { return this._validate({}, _.extend(options || {}, { validate: true })); }, // Run validation against the next complete set of model attributes, // returning `true` if all is well. Otherwise, fire an `"invalid"` event. _validate: function(attrs, options) { if (!options.validate || !this.validate) return true; attrs = _.extend({}, this.attributes, attrs); var error = this.validationError = this.validate(attrs, options) || null; if (!error) return true; this.trigger('invalid', this, error, _.extend(options || {}, {validationError: error})); return false; } }); // Underscore methods that we want to implement on the Model. var modelMethods = ['keys', 'values', 'pairs', 'invert', 'pick', 'omit']; // Mix in each Underscore method as a proxy to `Model#attributes`. _.each(modelMethods, function(method) { Model.prototype[method] = function() { var args = slice.call(arguments); args.unshift(this.attributes); return _[method].apply(_, args); }; }); // Backbone.Collection // ------------------- // If models tend to represent a single row of data, a Backbone Collection is // more analagous to a table full of data ... or a small slice or page of that // table, or a collection of rows that belong together for a particular reason // -- all of the messages in this particular folder, all of the documents // belonging to this particular author, and so on. Collections maintain // indexes of their models, both in order, and for lookup by `id`. // Create a new **Collection**, perhaps to contain a specific type of `model`. // If a `comparator` is specified, the Collection will maintain // its models in sort order, as they're added and removed. var Collection = Backbone.Collection = function(models, options) { options || (options = {}); if (options.model) this.model = options.model; if (options.comparator !== void 0) this.comparator = options.comparator; this._reset(); this.initialize.apply(this, arguments); if (models) this.reset(models, _.extend({silent: true}, options)); }; // Default options for `Collection#set`. var setOptions = {add: true, remove: true, merge: true}; var addOptions = {add: true, merge: false, remove: false}; // Define the Collection's inheritable methods. _.extend(Collection.prototype, Events, { // The default model for a collection is just a **Backbone.Model**. // This should be overridden in most cases. model: Model, // Initialize is an empty function by default. Override it with your own // initialization logic. initialize: function(){}, // The JSON representation of a Collection is an array of the // models' attributes. toJSON: function(options) { return this.map(function(model){ return model.toJSON(options); }); }, // Proxy `Backbone.sync` by default. sync: function() { return Backbone.sync.apply(this, arguments); }, // Add a model, or list of models to the set. add: function(models, options) { return this.set(models, _.defaults(options || {}, addOptions)); }, // Remove a model, or a list of models from the set. remove: function(models, options) { models = _.isArray(models) ? models.slice() : [models]; options || (options = {}); var i, l, index, model; for (i = 0, l = models.length; i < l; i++) { model = this.get(models[i]); if (!model) continue; delete this._byId[model.id]; delete this._byId[model.cid]; index = this.indexOf(model); this.models.splice(index, 1); this.length--; if (!options.silent) { options.index = index; model.trigger('remove', model, this, options); } this._removeReference(model); } return this; }, // Update a collection by `set`-ing a new list of models, adding new ones, // removing models that are no longer present, and merging models that // already exist in the collection, as necessary. Similar to **Model#set**, // the core operation for updating the data contained by the collection. set: function(models, options) { options = _.defaults(options || {}, setOptions); if (options.parse) models = this.parse(models, options); if (!_.isArray(models)) models = models ? [models] : []; var i, l, model, attrs, existing, sort; var at = options.at; var sortable = this.comparator && (at == null) && options.sort !== false; var sortAttr = _.isString(this.comparator) ? this.comparator : null; var toAdd = [], toRemove = [], modelMap = {}; var add = options.add, merge = options.merge, remove = options.remove; var order = !sortable && add && remove ? [] : false; // Turn bare objects into model references, and prevent invalid models // from being added. for (i = 0, l = models.length; i < l; i++) { if (!(model = this._prepareModel(attrs = models[i], options))) continue; // If a duplicate is found, prevent it from being added and // optionally merge it into the existing model. if (existing = this.get(model)) { if (remove) modelMap[existing.cid] = true; if (merge) { attrs = attrs === model ? model.attributes : options._attrs; existing.set(attrs, options); if (sortable && !sort && existing.hasChanged(sortAttr)) sort = true; } // This is a new model, push it to the `toAdd` list. } else if (add) { toAdd.push(model); // Listen to added models' events, and index models for lookup by // `id` and by `cid`. model.on('all', this._onModelEvent, this); this._byId[model.cid] = model; if (model.id != null) this._byId[model.id] = model; } if (order) order.push(existing || model); } // Remove nonexistent models if appropriate. if (remove) { for (i = 0, l = this.length; i < l; ++i) { if (!modelMap[(model = this.models[i]).cid]) toRemove.push(model); } if (toRemove.length) this.remove(toRemove, options); } // See if sorting is needed, update `length` and splice in new models. if (toAdd.length || (order && order.length)) { if (sortable) sort = true; this.length += toAdd.length; if (at != null) { splice.apply(this.models, [at, 0].concat(toAdd)); } else { if (order) this.models.length = 0; push.apply(this.models, order || toAdd); } } // Silently sort the collection if appropriate. if (sort) this.sort({silent: true}); if (options.silent) return this; // Trigger `add` events. for (i = 0, l = toAdd.length; i < l; i++) { (model = toAdd[i]).trigger('add', model, this, options); } // Trigger `sort` if the collection was sorted. if (sort || (order && order.length)) this.trigger('sort', this, options); return this; }, // When you have more items than you want to add or remove individually, // you can reset the entire set with a new list of models, without firing // any granular `add` or `remove` events. Fires `reset` when finished. // Useful for bulk operations and optimizations. reset: function(models, options) { options || (options = {}); for (var i = 0, l = this.models.length; i < l; i++) { this._removeReference(this.models[i]); } options.previousModels = this.models; this._reset(); this.add(models, _.extend({silent: true}, options)); if (!options.silent) this.trigger('reset', this, options); return this; }, // Add a model to the end of the collection. push: function(model, options) { model = this._prepareModel(model, options); this.add(model, _.extend({at: this.length}, options)); return model; }, // Remove a model from the end of the collection. pop: function(options) { var model = this.at(this.length - 1); this.remove(model, options); return model; }, // Add a model to the beginning of the collection. unshift: function(model, options) { model = this._prepareModel(model, options); this.add(model, _.extend({at: 0}, options)); return model; }, // Remove a model from the beginning of the collection. shift: function(options) { var model = this.at(0); this.remove(model, options); return model; }, // Slice out a sub-array of models from the collection. slice: function() { return slice.apply(this.models, arguments); }, // Get a model from the set by id. get: function(obj) { if (obj == null) return void 0; return this._byId[obj.id != null ? obj.id : obj.cid || obj]; }, // Get the model at the given index. at: function(index) { return this.models[index]; }, // Return models with matching attributes. Useful for simple cases of // `filter`. where: function(attrs, first) { if (_.isEmpty(attrs)) return first ? void 0 : []; return this[first ? 'find' : 'filter'](function(model) { for (var key in attrs) { if (attrs[key] !== model.get(key)) return false; } return true; }); }, // Return the first model with matching attributes. Useful for simple cases // of `find`. findWhere: function(attrs) { return this.where(attrs, true); }, // Force the collection to re-sort itself. You don't need to call this under // normal circumstances, as the set will maintain sort order as each item // is added. sort: function(options) { if (!this.comparator) throw new Error('Cannot sort a set without a comparator'); options || (options = {}); // Run sort based on type of `comparator`. if (_.isString(this.comparator) || this.comparator.length === 1) { this.models = this.sortBy(this.comparator, this); } else { this.models.sort(_.bind(this.comparator, this)); } if (!options.silent) this.trigger('sort', this, options); return this; }, // Figure out the smallest index at which a model should be inserted so as // to maintain order. sortedIndex: function(model, value, context) { value || (value = this.comparator); var iterator = _.isFunction(value) ? value : function(model) { return model.get(value); }; return _.sortedIndex(this.models, model, iterator, context); }, // Pluck an attribute from each model in the collection. pluck: function(attr) { return _.invoke(this.models, 'get', attr); }, // Fetch the default set of models for this collection, resetting the // collection when they arrive. If `reset: true` is passed, the response // data will be passed through the `reset` method instead of `set`. fetch: function(options) { options = options ? _.clone(options) : {}; if (options.parse === void 0) options.parse = true; var success = options.success; var collection = this; options.success = function(resp) { var method = options.reset ? 'reset' : 'set'; collection[method](resp, options); if (success) success(collection, resp, options); collection.trigger('sync', collection, resp, options); }; wrapError(this, options); return this.sync('read', this, options); }, // Create a new instance of a model in this collection. Add the model to the // collection immediately, unless `wait: true` is passed, in which case we // wait for the server to agree. create: function(model, options) { options = options ? _.clone(options) : {}; if (!(model = this._prepareModel(model, options))) return false; if (!options.wait) this.add(model, options); var collection = this; var success = options.success; options.success = function(resp) { if (options.wait) collection.add(model, options); if (success) success(model, resp, options); }; model.save(null, options); return model; }, // **parse** converts a response into a list of models to be added to the // collection. The default implementation is just to pass it through. parse: function(resp, options) { return resp; }, // Create a new collection with an identical list of models as this one. clone: function() { return new this.constructor(this.models); }, // Private method to reset all internal state. Called when the collection // is first initialized or reset. _reset: function() { this.length = 0; this.models = []; this._byId = {}; }, // Prepare a hash of attributes (or other model) to be added to this // collection. _prepareModel: function(attrs, options) { if (attrs instanceof Model) { if (!attrs.collection) attrs.collection = this; return attrs; } options || (options = {}); options.collection = this; var model = new this.model(attrs, options); if (!model._validate(attrs, options)) { this.trigger('invalid', this, attrs, options); return false; } return model; }, // Internal method to sever a model's ties to a collection. _removeReference: function(model) { if (this === model.collection) delete model.collection; model.off('all', this._onModelEvent, this); }, // Internal method called every time a model in the set fires an event. // Sets need to update their indexes when models change ids. All other // events simply proxy through. "add" and "remove" events that originate // in other collections are ignored. _onModelEvent: function(event, model, collection, options) { if ((event === 'add' || event === 'remove') && collection !== this) return; if (event === 'destroy') this.remove(model, options); if (model && event === 'change:' + model.idAttribute) { delete this._byId[model.previous(model.idAttribute)]; if (model.id != null) this._byId[model.id] = model; } this.trigger.apply(this, arguments); } }); // Underscore methods that we want to implement on the Collection. // 90% of the core usefulness of Backbone Collections is actually implemented // right here: var methods = ['forEach', 'each', 'map', 'collect', 'reduce', 'foldl', 'inject', 'reduceRight', 'foldr', 'find', 'detect', 'filter', 'select', 'reject', 'every', 'all', 'some', 'any', 'include', 'contains', 'invoke', 'max', 'min', 'toArray', 'size', 'first', 'head', 'take', 'initial', 'rest', 'tail', 'drop', 'last', 'without', 'indexOf', 'shuffle', 'lastIndexOf', 'isEmpty', 'chain']; // Mix in each Underscore method as a proxy to `Collection#models`. _.each(methods, function(method) { Collection.prototype[method] = function() { var args = slice.call(arguments); args.unshift(this.models); return _[method].apply(_, args); }; }); // Underscore methods that take a property name as an argument. var attributeMethods = ['groupBy', 'countBy', 'sortBy']; // Use attributes instead of properties. _.each(attributeMethods, function(method) { Collection.prototype[method] = function(value, context) { var iterator = _.isFunction(value) ? value : function(model) { return model.get(value); }; return _[method](this.models, iterator, context); }; }); // Backbone.View // ------------- // Backbone Views are almost more convention than they are actual code. A View // is simply a JavaScript object that represents a logical chunk of UI in the // DOM. This might be a single item, an entire list, a sidebar or panel, or // even the surrounding frame which wraps your whole app. Defining a chunk of // UI as a **View** allows you to define your DOM events declaratively, without // having to worry about render order ... and makes it easy for the view to // react to specific changes in the state of your models. // Options with special meaning *(e.g. model, collection, id, className)* are // attached directly to the view. See `viewOptions` for an exhaustive // list. // Creating a Backbone.View creates its initial element outside of the DOM, // if an existing element is not provided... var View = Backbone.View = function(options) { this.cid = _.uniqueId('view'); options || (options = {}); _.extend(this, _.pick(options, viewOptions)); this._ensureElement(); this.initialize.apply(this, arguments); this.delegateEvents(); }; // Cached regex to split keys for `delegate`. var delegateEventSplitter = /^(\S+)\s*(.*)$/; // List of view options to be merged as properties. var viewOptions = ['model', 'collection', 'el', 'id', 'attributes', 'className', 'tagName', 'events']; // Set up all inheritable **Backbone.View** properties and methods. _.extend(View.prototype, Events, { // The default `tagName` of a View's element is `"div"`. tagName: 'div', // jQuery delegate for element lookup, scoped to DOM elements within the // current view. This should be prefered to global lookups where possible. $: function(selector) { return this.$el.find(selector); }, // Initialize is an empty function by default. Override it with your own // initialization logic. initialize: function(){}, // **render** is the core function that your view should override, in order // to populate its element (`this.el`), with the appropriate HTML. The // convention is for **render** to always return `this`. render: function() { return this; }, // Remove this view by taking the element out of the DOM, and removing any // applicable Backbone.Events listeners. remove: function() { this.$el.remove(); this.stopListening(); return this; }, // Change the view's element (`this.el` property), including event // re-delegation. setElement: function(element, delegate) { if (this.$el) this.undelegateEvents(); this.$el = element instanceof Backbone.$ ? element : Backbone.$(element); this.el = this.$el[0]; if (delegate !== false) this.delegateEvents(); return this; }, // Set callbacks, where `this.events` is a hash of // // *{"event selector": "callback"}* // // { // 'mousedown .title': 'edit', // 'click .button': 'save' // 'click .open': function(e) { ... } // } // // pairs. Callbacks will be bound to the view, with `this` set properly. // Uses event delegation for efficiency. // Omitting the selector binds the event to `this.el`. // This only works for delegate-able events: not `focus`, `blur`, and // not `change`, `submit`, and `reset` in Internet Explorer. delegateEvents: function(events) { if (!(events || (events = _.result(this, 'events')))) return this; this.undelegateEvents(); for (var key in events) { var method = events[key]; if (!_.isFunction(method)) method = this[events[key]]; if (!method) continue; var match = key.match(delegateEventSplitter); var eventName = match[1], selector = match[2]; method = _.bind(method, this); eventName += '.delegateEvents' + this.cid; if (selector === '') { this.$el.on(eventName, method); } else { this.$el.on(eventName, selector, method); } } return this; }, // Clears all callbacks previously bound to the view with `delegateEvents`. // You usually don't need to use this, but may wish to if you have multiple // Backbone views attached to the same DOM element. undelegateEvents: function() { this.$el.off('.delegateEvents' + this.cid); return this; }, // Ensure that the View has a DOM element to render into. // If `this.el` is a string, pass it through `$()`, take the first // matching element, and re-assign it to `el`. Otherwise, create // an element from the `id`, `className` and `tagName` properties. _ensureElement: function() { if (!this.el) { var attrs = _.extend({}, _.result(this, 'attributes')); if (this.id) attrs.id = _.result(this, 'id'); if (this.className) attrs['class'] = _.result(this, 'className'); var $el = Backbone.$('<' + _.result(this, 'tagName') + '>').attr(attrs); this.setElement($el, false); } else { this.setElement(_.result(this, 'el'), false); } } }); // Backbone.sync // ------------- // Override this function to change the manner in which Backbone persists // models to the server. You will be passed the type of request, and the // model in question. By default, makes a RESTful Ajax request // to the model's `url()`. Some possible customizations could be: // // * Use `setTimeout` to batch rapid-fire updates into a single request. // * Send up the models as XML instead of JSON. // * Persist models via WebSockets instead of Ajax. // // Turn on `Backbone.emulateHTTP` in order to send `PUT` and `DELETE` requests // as `POST`, with a `_method` parameter containing the true HTTP method, // as well as all requests with the body as `application/x-www-form-urlencoded` // instead of `application/json` with the model in a param named `model`. // Useful when interfacing with server-side languages like **PHP** that make // it difficult to read the body of `PUT` requests. Backbone.sync = function(method, model, options) { var type = methodMap[method]; // Default options, unless specified. _.defaults(options || (options = {}), { emulateHTTP: Backbone.emulateHTTP, emulateJSON: Backbone.emulateJSON }); // Default JSON-request options. var params = {type: type, dataType: 'json'}; // Ensure that we have a URL. if (!options.url) { params.url = _.result(model, 'url') || urlError(); } // Ensure that we have the appropriate request data. if (options.data == null && model && (method === 'create' || method === 'update' || method === 'patch')) { params.contentType = 'application/json'; params.data = JSON.stringify(options.attrs || model.toJSON(options)); } // For older servers, emulate JSON by encoding the request into an HTML-form. if (options.emulateJSON) { params.contentType = 'application/x-www-form-urlencoded'; params.data = params.data ? {model: params.data} : {}; } // For older servers, emulate HTTP by mimicking the HTTP method with `_method` // And an `X-HTTP-Method-Override` header. if (options.emulateHTTP && (type === 'PUT' || type === 'DELETE' || type === 'PATCH')) { params.type = 'POST'; if (options.emulateJSON) params.data._method = type; var beforeSend = options.beforeSend; options.beforeSend = function(xhr) { xhr.setRequestHeader('X-HTTP-Method-Override', type); if (beforeSend) return beforeSend.apply(this, arguments); }; } // Don't process data on a non-GET request. if (params.type !== 'GET' && !options.emulateJSON) { params.processData = false; } // If we're sending a `PATCH` request, and we're in an old Internet Explorer // that still has ActiveX enabled by default, override jQuery to use that // for XHR instead. Remove this line when jQuery supports `PATCH` on IE8. if (params.type === 'PATCH' && window.ActiveXObject && !(window.external && window.external.msActiveXFilteringEnabled)) { params.xhr = function() { return new ActiveXObject("Microsoft.XMLHTTP"); }; } // Make the request, allowing the user to override any Ajax options. var xhr = options.xhr = Backbone.ajax(_.extend(params, options)); model.trigger('request', model, xhr, options); return xhr; }; // Map from CRUD to HTTP for our default `Backbone.sync` implementation. var methodMap = { 'create': 'POST', 'update': 'PUT', 'patch': 'PATCH', 'delete': 'DELETE', 'read': 'GET' }; // Set the default implementation of `Backbone.ajax` to proxy through to `$`. // Override this if you'd like to use a different library. Backbone.ajax = function() { return Backbone.$.ajax.apply(Backbone.$, arguments); }; // Backbone.Router // --------------- // Routers map faux-URLs to actions, and fire events when routes are // matched. Creating a new one sets its `routes` hash, if not set statically. var Router = Backbone.Router = function(options) { options || (options = {}); if (options.routes) this.routes = options.routes; this._bindRoutes(); this.initialize.apply(this, arguments); }; // Cached regular expressions for matching named param parts and splatted // parts of route strings. var optionalParam = /\((.*?)\)/g; var namedParam = /(\(\?)?:\w+/g; var splatParam = /\*\w+/g; var escapeRegExp = /[\-{}\[\]+?.,\\\^$|#\s]/g; // Set up all inheritable **Backbone.Router** properties and methods. _.extend(Router.prototype, Events, { // Initialize is an empty function by default. Override it with your own // initialization logic. initialize: function(){}, // Manually bind a single named route to a callback. For example: // // this.route('search/:query/p:num', 'search', function(query, num) { // ... // }); // route: function(route, name, callback) { if (!_.isRegExp(route)) route = this._routeToRegExp(route); if (_.isFunction(name)) { callback = name; name = ''; } if (!callback) callback = this[name]; var router = this; Backbone.history.route(route, function(fragment) { var args = router._extractParameters(route, fragment); callback && callback.apply(router, args); router.trigger.apply(router, ['route:' + name].concat(args)); router.trigger('route', name, args); Backbone.history.trigger('route', router, name, args); }); return this; }, // Simple proxy to `Backbone.history` to save a fragment into the history. navigate: function(fragment, options) { Backbone.history.navigate(fragment, options); return this; }, // Bind all defined routes to `Backbone.history`. We have to reverse the // order of the routes here to support behavior where the most general // routes can be defined at the bottom of the route map. _bindRoutes: function() { if (!this.routes) return; this.routes = _.result(this, 'routes'); var route, routes = _.keys(this.routes); while ((route = routes.pop()) != null) { this.route(route, this.routes[route]); } }, // Convert a route string into a regular expression, suitable for matching // against the current location hash. _routeToRegExp: function(route) { route = route.replace(escapeRegExp, '\\$&') .replace(optionalParam, '(?:$1)?') .replace(namedParam, function(match, optional){ return optional ? match : '([^\/]+)'; }) .replace(splatParam, '(.*?)'); return new RegExp('^' + route + '$'); }, // Given a route, and a URL fragment that it matches, return the array of // extracted decoded parameters. Empty or unmatched parameters will be // treated as `null` to normalize cross-browser behavior. _extractParameters: function(route, fragment) { var params = route.exec(fragment).slice(1); return _.map(params, function(param) { return param ? decodeURIComponent(param) : null; }); } }); // Backbone.History // ---------------- // Handles cross-browser history management, based on either // [pushState](http://diveintohtml5.info/history.html) and real URLs, or // [onhashchange](https://developer.mozilla.org/en-US/docs/DOM/window.onhashchange) // and URL fragments. If the browser supports neither (old IE, natch), // falls back to polling. var History = Backbone.History = function() { this.handlers = []; _.bindAll(this, 'checkUrl'); // Ensure that `History` can be used outside of the browser. if (typeof window !== 'undefined') { this.location = window.location; this.history = window.history; } }; // Cached regex for stripping a leading hash/slash and trailing space. var routeStripper = /^[#\/]|\s+$/g; // Cached regex for stripping leading and trailing slashes. var rootStripper = /^\/+|\/+$/g; // Cached regex for detecting MSIE. var isExplorer = /msie [\w.]+/; // Cached regex for removing a trailing slash. var trailingSlash = /\/$/; // Has the history handling already been started? History.started = false; // Set up all inheritable **Backbone.History** properties and methods. _.extend(History.prototype, Events, { // The default interval to poll for hash changes, if necessary, is // twenty times a second. interval: 50, // Gets the true hash value. Cannot use location.hash directly due to bug // in Firefox where location.hash will always be decoded. getHash: function(window) { var match = (window || this).location.href.match(/#(.*)$/); return match ? match[1] : ''; }, // Get the cross-browser normalized URL fragment, either from the URL, // the hash, or the override. getFragment: function(fragment, forcePushState) { if (fragment == null) { if (this._hasPushState || !this._wantsHashChange || forcePushState) { fragment = this.location.pathname; var root = this.root.replace(trailingSlash, ''); if (!fragment.indexOf(root)) fragment = fragment.substr(root.length); } else { fragment = this.getHash(); } } return fragment.replace(routeStripper, ''); }, // Start the hash change handling, returning `true` if the current URL matches // an existing route, and `false` otherwise. start: function(options) { if (History.started) throw new Error("Backbone.history has already been started"); History.started = true; // Figure out the initial configuration. Do we need an iframe? // Is pushState desired ... is it available? this.options = _.extend({}, {root: '/'}, this.options, options); this.root = this.options.root; this._wantsHashChange = this.options.hashChange !== false; this._wantsPushState = !!this.options.pushState; this._hasPushState = !!(this.options.pushState && this.history && this.history.pushState); var fragment = this.getFragment(); var docMode = document.documentMode; var oldIE = (isExplorer.exec(navigator.userAgent.toLowerCase()) && (!docMode || docMode <= 7)); // Normalize root to always include a leading and trailing slash. this.root = ('/' + this.root + '/').replace(rootStripper, '/'); if (oldIE && this._wantsHashChange) { this.iframe = Backbone.$('