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326 lines
11 KiB
326 lines
11 KiB
3 years ago
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/**
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* Copyright (c) 2014-present, Facebook, Inc.
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*
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* This source code is licensed under the MIT license found in the
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* LICENSE file in the root directory of this source tree.
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*/
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"use strict";
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var _interopRequireWildcard = require("@babel/runtime/helpers/interopRequireWildcard");
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var _interopRequireDefault = require("@babel/runtime/helpers/interopRequireDefault");
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var _assert = _interopRequireDefault(require("assert"));
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var _hoist = require("./hoist");
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var _emit = require("./emit");
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var _replaceShorthandObjectMethod = _interopRequireDefault(require("./replaceShorthandObjectMethod"));
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var util = _interopRequireWildcard(require("./util"));
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exports.getVisitor = function (_ref) {
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var t = _ref.types;
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return {
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Method: function Method(path, state) {
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var node = path.node;
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if (!shouldRegenerate(node, state)) return;
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var container = t.functionExpression(null, [], t.cloneNode(node.body, false), node.generator, node.async);
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path.get("body").set("body", [t.returnStatement(t.callExpression(container, []))]); // Regardless of whether or not the wrapped function is a an async method
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// or generator the outer function should not be
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node.async = false;
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node.generator = false; // Unwrap the wrapper IIFE's environment so super and this and such still work.
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path.get("body.body.0.argument.callee").unwrapFunctionEnvironment();
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},
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Function: {
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exit: util.wrapWithTypes(t, function (path, state) {
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var node = path.node;
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if (!shouldRegenerate(node, state)) return; // if this is an ObjectMethod, we need to convert it to an ObjectProperty
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path = (0, _replaceShorthandObjectMethod["default"])(path);
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node = path.node;
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var contextId = path.scope.generateUidIdentifier("context");
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var argsId = path.scope.generateUidIdentifier("args");
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path.ensureBlock();
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var bodyBlockPath = path.get("body");
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if (node.async) {
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bodyBlockPath.traverse(awaitVisitor);
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}
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bodyBlockPath.traverse(functionSentVisitor, {
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context: contextId
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});
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var outerBody = [];
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var innerBody = [];
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bodyBlockPath.get("body").forEach(function (childPath) {
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var node = childPath.node;
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if (t.isExpressionStatement(node) && t.isStringLiteral(node.expression)) {
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// Babylon represents directives like "use strict" as elements
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// of a bodyBlockPath.node.directives array, but they could just
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// as easily be represented (by other parsers) as traditional
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// string-literal-valued expression statements, so we need to
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// handle that here. (#248)
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outerBody.push(node);
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} else if (node && node._blockHoist != null) {
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outerBody.push(node);
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} else {
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innerBody.push(node);
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}
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});
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if (outerBody.length > 0) {
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// Only replace the inner body if we actually hoisted any statements
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// to the outer body.
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bodyBlockPath.node.body = innerBody;
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}
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var outerFnExpr = getOuterFnExpr(path); // Note that getOuterFnExpr has the side-effect of ensuring that the
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// function has a name (so node.id will always be an Identifier), even
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// if a temporary name has to be synthesized.
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t.assertIdentifier(node.id);
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var innerFnId = t.identifier(node.id.name + "$"); // Turn all declarations into vars, and replace the original
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// declarations with equivalent assignment expressions.
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var vars = (0, _hoist.hoist)(path);
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var context = {
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usesThis: false,
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usesArguments: false,
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getArgsId: function getArgsId() {
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return t.clone(argsId);
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}
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};
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path.traverse(argumentsThisVisitor, context);
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if (context.usesArguments) {
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vars = vars || t.variableDeclaration("var", []);
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vars.declarations.push(t.variableDeclarator(t.clone(argsId), t.identifier("arguments")));
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}
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var emitter = new _emit.Emitter(contextId);
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emitter.explode(path.get("body"));
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if (vars && vars.declarations.length > 0) {
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outerBody.push(vars);
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}
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var wrapArgs = [emitter.getContextFunction(innerFnId)];
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var tryLocsList = emitter.getTryLocsList();
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if (node.generator) {
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wrapArgs.push(outerFnExpr);
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} else if (context.usesThis || tryLocsList || node.async) {
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// Async functions that are not generators don't care about the
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// outer function because they don't need it to be marked and don't
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// inherit from its .prototype.
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wrapArgs.push(t.nullLiteral());
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}
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if (context.usesThis) {
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wrapArgs.push(t.thisExpression());
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} else if (tryLocsList || node.async) {
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wrapArgs.push(t.nullLiteral());
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}
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if (tryLocsList) {
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wrapArgs.push(tryLocsList);
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} else if (node.async) {
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wrapArgs.push(t.nullLiteral());
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}
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if (node.async) {
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// Rename any locally declared "Promise" variable,
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// to use the global one.
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var currentScope = path.scope;
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do {
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if (currentScope.hasOwnBinding("Promise")) currentScope.rename("Promise");
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} while (currentScope = currentScope.parent);
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wrapArgs.push(t.identifier("Promise"));
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}
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var wrapCall = t.callExpression(util.runtimeProperty(node.async ? "async" : "wrap"), wrapArgs);
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outerBody.push(t.returnStatement(wrapCall));
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node.body = t.blockStatement(outerBody); // We injected a few new variable declarations (for every hoisted var),
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// so we need to add them to the scope.
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path.get("body.body").forEach(function (p) {
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return p.scope.registerDeclaration(p);
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});
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var oldDirectives = bodyBlockPath.node.directives;
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if (oldDirectives) {
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// Babylon represents directives like "use strict" as elements of
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// a bodyBlockPath.node.directives array. (#248)
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node.body.directives = oldDirectives;
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}
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var wasGeneratorFunction = node.generator;
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if (wasGeneratorFunction) {
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node.generator = false;
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}
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if (node.async) {
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node.async = false;
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}
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if (wasGeneratorFunction && t.isExpression(node)) {
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util.replaceWithOrRemove(path, t.callExpression(util.runtimeProperty("mark"), [node]));
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path.addComment("leading", "#__PURE__");
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}
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var insertedLocs = emitter.getInsertedLocs();
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path.traverse({
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NumericLiteral: function NumericLiteral(path) {
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if (!insertedLocs.has(path.node)) {
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return;
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}
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path.replaceWith(t.numericLiteral(path.node.value));
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}
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}); // Generators are processed in 'exit' handlers so that regenerator only has to run on
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// an ES5 AST, but that means traversal will not pick up newly inserted references
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// to things like 'regeneratorRuntime'. To avoid this, we explicitly requeue.
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path.requeue();
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})
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}
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};
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}; // Check if a node should be transformed by regenerator
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function shouldRegenerate(node, state) {
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if (node.generator) {
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if (node.async) {
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// Async generator
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return state.opts.asyncGenerators !== false;
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} else {
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// Plain generator
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return state.opts.generators !== false;
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}
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} else if (node.async) {
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// Async function
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return state.opts.async !== false;
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} else {
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// Not a generator or async function.
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return false;
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}
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} // Given a NodePath for a Function, return an Expression node that can be
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// used to refer reliably to the function object from inside the function.
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// This expression is essentially a replacement for arguments.callee, with
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// the key advantage that it works in strict mode.
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function getOuterFnExpr(funPath) {
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var t = util.getTypes();
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var node = funPath.node;
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t.assertFunction(node);
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if (!node.id) {
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// Default-exported function declarations, and function expressions may not
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// have a name to reference, so we explicitly add one.
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node.id = funPath.scope.parent.generateUidIdentifier("callee");
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}
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if (node.generator && // Non-generator functions don't need to be marked.
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t.isFunctionDeclaration(node)) {
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// Return the identifier returned by runtime.mark(<node.id>).
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return getMarkedFunctionId(funPath);
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}
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return t.clone(node.id);
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}
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var markInfo = new WeakMap();
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function getMarkInfo(node) {
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if (!markInfo.has(node)) {
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markInfo.set(node, {});
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}
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return markInfo.get(node);
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}
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function getMarkedFunctionId(funPath) {
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var t = util.getTypes();
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var node = funPath.node;
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t.assertIdentifier(node.id);
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var blockPath = funPath.findParent(function (path) {
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return path.isProgram() || path.isBlockStatement();
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});
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if (!blockPath) {
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return node.id;
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}
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var block = blockPath.node;
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_assert["default"].ok(Array.isArray(block.body));
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var info = getMarkInfo(block);
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if (!info.decl) {
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info.decl = t.variableDeclaration("var", []);
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blockPath.unshiftContainer("body", info.decl);
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info.declPath = blockPath.get("body.0");
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}
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_assert["default"].strictEqual(info.declPath.node, info.decl); // Get a new unique identifier for our marked variable.
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var markedId = blockPath.scope.generateUidIdentifier("marked");
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var markCallExp = t.callExpression(util.runtimeProperty("mark"), [t.clone(node.id)]);
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var index = info.decl.declarations.push(t.variableDeclarator(markedId, markCallExp)) - 1;
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var markCallExpPath = info.declPath.get("declarations." + index + ".init");
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_assert["default"].strictEqual(markCallExpPath.node, markCallExp);
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markCallExpPath.addComment("leading", "#__PURE__");
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return t.clone(markedId);
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}
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var argumentsThisVisitor = {
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"FunctionExpression|FunctionDeclaration|Method": function FunctionExpressionFunctionDeclarationMethod(path) {
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path.skip();
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},
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Identifier: function Identifier(path, state) {
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if (path.node.name === "arguments" && util.isReference(path)) {
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util.replaceWithOrRemove(path, state.getArgsId());
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state.usesArguments = true;
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}
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},
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ThisExpression: function ThisExpression(path, state) {
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state.usesThis = true;
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}
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};
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var functionSentVisitor = {
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MetaProperty: function MetaProperty(path) {
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var node = path.node;
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if (node.meta.name === "function" && node.property.name === "sent") {
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var t = util.getTypes();
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util.replaceWithOrRemove(path, t.memberExpression(t.clone(this.context), t.identifier("_sent")));
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}
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}
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};
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var awaitVisitor = {
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Function: function Function(path) {
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path.skip(); // Don't descend into nested function scopes.
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},
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AwaitExpression: function AwaitExpression(path) {
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var t = util.getTypes(); // Convert await expressions to yield expressions.
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var argument = path.node.argument; // Transforming `await x` to `yield regeneratorRuntime.awrap(x)`
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// causes the argument to be wrapped in such a way that the runtime
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// can distinguish between awaited and merely yielded values.
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util.replaceWithOrRemove(path, t.yieldExpression(t.callExpression(util.runtimeProperty("awrap"), [argument]), false));
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}
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};
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