/** * Copyright (c) 2014-present, Facebook, Inc. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ import * as util from "./util"; let hasOwn = Object.prototype.hasOwnProperty; // The hoist function takes a FunctionExpression or FunctionDeclaration // and replaces any Declaration nodes in its body with assignments, then // returns a VariableDeclaration containing just the names of the removed // declarations. exports.hoist = function(funPath) { const t = util.getTypes(); t.assertFunction(funPath.node); let vars = {}; function varDeclToExpr({ node: vdec, scope }, includeIdentifiers) { t.assertVariableDeclaration(vdec); // TODO assert.equal(vdec.kind, "var"); let exprs = []; vdec.declarations.forEach(function(dec) { // Note: We duplicate 'dec.id' here to ensure that the variable declaration IDs don't // have the same 'loc' value, since that can make sourcemaps and retainLines behave poorly. vars[dec.id.name] = t.identifier(dec.id.name); // Remove the binding, to avoid "duplicate declaration" errors when it will // be injected again. scope.removeBinding(dec.id.name); if (dec.init) { exprs.push(t.assignmentExpression( "=", dec.id, dec.init )); } else if (includeIdentifiers) { exprs.push(dec.id); } }); if (exprs.length === 0) return null; if (exprs.length === 1) return exprs[0]; return t.sequenceExpression(exprs); } funPath.get("body").traverse({ VariableDeclaration: { exit: function(path) { let expr = varDeclToExpr(path, false); if (expr === null) { path.remove(); } else { // We don't need to traverse this expression any further because // there can't be any new declarations inside an expression. util.replaceWithOrRemove(path, t.expressionStatement(expr)); } // Since the original node has been either removed or replaced, // avoid traversing it any further. path.skip(); } }, ForStatement: function(path) { let init = path.get("init"); if (init.isVariableDeclaration()) { util.replaceWithOrRemove(init, varDeclToExpr(init, false)); } }, ForXStatement: function(path) { let left = path.get("left"); if (left.isVariableDeclaration()) { util.replaceWithOrRemove(left, varDeclToExpr(left, true)); } }, FunctionDeclaration: function(path) { let node = path.node; vars[node.id.name] = node.id; let assignment = t.expressionStatement( t.assignmentExpression( "=", t.clone(node.id), t.functionExpression( path.scope.generateUidIdentifierBasedOnNode(node), node.params, node.body, node.generator, node.expression ) ) ); if (path.parentPath.isBlockStatement()) { // Insert the assignment form before the first statement in the // enclosing block. path.parentPath.unshiftContainer("body", assignment); // Remove the function declaration now that we've inserted the // equivalent assignment form at the beginning of the block. path.remove(); } else { // If the parent node is not a block statement, then we can just // replace the declaration with the equivalent assignment form // without worrying about hoisting it. util.replaceWithOrRemove(path, assignment); } // Remove the binding, to avoid "duplicate declaration" errors when it will // be injected again. path.scope.removeBinding(node.id.name); // Don't hoist variables out of inner functions. path.skip(); }, FunctionExpression: function(path) { // Don't descend into nested function expressions. path.skip(); }, ArrowFunctionExpression: function(path) { // Don't descend into nested function expressions. path.skip(); } }); let paramNames = {}; funPath.get("params").forEach(function(paramPath) { let param = paramPath.node; if (t.isIdentifier(param)) { paramNames[param.name] = param; } else { // Variables declared by destructuring parameter patterns will be // harmlessly re-declared. } }); let declarations = []; Object.keys(vars).forEach(function(name) { if (!hasOwn.call(paramNames, name)) { declarations.push(t.variableDeclarator(vars[name], null)); } }); if (declarations.length === 0) { return null; // Be sure to handle this case! } return t.variableDeclaration("var", declarations); };