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Closure Compiler is a JavaScript optimizing compiler. It parses your JavaScript, analyzes it, removes dead code and rewrites and minimizes what's left. It also checks syntax, variable references, and types, and warns about common JavaScript pitfalls. It is used in many of Google's JavaScript apps, including Gmail, Google Web Search, Google Maps, and Google Docs. This binary checks for style issues such as incorrect or missing JSDoc usage, and missing goog.require() statements. It does not do more advanced checks such as typechecking.

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/*
 * Copyright 2018 The Closure Compiler Authors.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package com.google.javascript.jscomp.modules;

import static com.google.common.base.Preconditions.checkState;
import static com.google.javascript.jscomp.modules.ModuleMapCreator.DOES_NOT_HAVE_EXPORT;

import com.google.common.base.Strings;
import com.google.common.collect.ArrayListMultimap;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.ListMultimap;
import com.google.javascript.jscomp.AbstractCompiler;
import com.google.javascript.jscomp.DiagnosticType;
import com.google.javascript.jscomp.Es6ToEs3Util;
import com.google.javascript.jscomp.JSError;
import com.google.javascript.jscomp.NodeTraversal;
import com.google.javascript.jscomp.NodeTraversal.AbstractPostOrderCallback;
import com.google.javascript.jscomp.NodeTraversal.Callback;
import com.google.javascript.jscomp.NodeUtil;
import com.google.javascript.jscomp.Scope;
import com.google.javascript.jscomp.Var;
import com.google.javascript.jscomp.deps.ModuleLoader;
import com.google.javascript.jscomp.deps.ModuleLoader.ModulePath;
import com.google.javascript.jscomp.modules.ModuleMapCreator.ModuleProcessor;
import com.google.javascript.jscomp.modules.ModuleMetadataMap.ModuleMetadata;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;
import javax.annotation.Nullable;

/**
 * Collects information related to and resolves ES imports and exports. Also performs several ES
 * module related checks.
 *
 * 

This information is stored outside of any {@link Scope} because it should never be * recalculated. Recalculation is prevented for the following reasons: * *

    *
  • Calculation is expensive. *
  • When ES modules are hotswapped, we want the original information, not the "current" * information, because it would show no other ES modules. *
* * * Suggested reading */ public final class EsModuleProcessor implements Callback, ModuleProcessor { /** * Error occurs when there is an ambiguous export, which can happen if there are multiple {@code * export * from} statements. If two modules that were {@code export * from}'d have the same key * as an export that export is now ambiguous. It can be resolved by exporting that key explicitly * locally. * *

So if modules "first" and "second" both export "x" then this is ambiguous: * *

   * export * from 'first';
   * export * from 'second';
   * 
* *

However we can resolve it by explicitly exporting an "x" locally: * *

   * // Note: any one of these is a solution. Using 2 or more together causes a duplicate key error.
   *
   * // specifically export x from first
   * export {x} from 'first';
   * // specifically export x from second
   * export {x} from 'second';
   * // export our own x instead
   * export let x;
   * 
* * Note: This is purposefully a warning. The spec does not treat this as an error. It is only an * error if an import attempts to use an ambiguous name. But just having ambiguous names is not * itself an error. */ public static final DiagnosticType AMBIGUOUS_EXPORT_DEFINITION = DiagnosticType.warning("JSC_AMBIGUOUS_EXPORT_DEFINITION", "The export \"{0}\" is ambiguous."); public static final DiagnosticType CYCLIC_EXPORT_DEFINITION = DiagnosticType.error( "JSC_CYCLIC_EXPORT_DEFINITION", "Cyclic export detected while resolving name \"{0}\"."); // Note: We only check for duplicate exports, not imports. Imports cannot be shadowed (by any // other binding, including other imports) and so we check that in VariableReferenceCheck. public static final DiagnosticType DUPLICATE_EXPORT = DiagnosticType.error("JSC_DUPLICATE_EXPORT", "Duplicate export of \"{0}\"."); public static final DiagnosticType IMPORTED_AMBIGUOUS_EXPORT = DiagnosticType.error( "JSC_IMPORTED_AMBIGUOUS_EXPORT", "The requested name \"{0}\" is ambiguous."); public static final DiagnosticType NAMESPACE_IMPORT_CANNOT_USE_STAR = DiagnosticType.error( "JSC_NAMESPACE_IMPORT_CANNOT_USE_STAR", "Namespace imports ('goog:some.Namespace') cannot use import * as. " + "Did you mean to import {0} from ''{1}'';?"); public static final DiagnosticType CANNOT_PATH_IMPORT_CLOSURE_FILE = DiagnosticType.error( "JSC_CANNOT_PATH_IMPORT_CLOSURE_FILE", "Cannot import Closure files by path. Use either import 'goog:namespace' or" + " goog.require('namespace')"); /** * Marks all exports that are mutated in an inner scope as mutable. * *

Exports mutated at the module scope are not marked as mutable as they are effectively * constant after module evaluation. */ private static final class FindMutableExports extends AbstractPostOrderCallback { final List exports; final ListMultimap exportsByLocalName; FindMutableExports(List exports) { // There may be multiple exports with the same local name because you can export a local // variable with an alias many different times. Example: // // let x; // export {x as y, x as z}; this.exports = exports; exportsByLocalName = ArrayListMultimap.create(); for (Export e : exports) { exportsByLocalName.put(e.localName(), e); } } @Override public void visit(NodeTraversal t, Node n, Node parent) { if (!n.isName()) { return; } Scope scope = t.getScope(); if (!NodeUtil.isLValue(n) || scope.getClosestHoistScope().isModuleScope()) { return; } List exports = exportsByLocalName.get(n.getString()); if (exports.isEmpty()) { return; } Var var = scope.getVar(n.getString()); // A var declared in the module scope with the same name as an export must be the // export. And we know we're setting it in a function scope, so this cannot be the // declaration itself. We must be mutating. if (var == null || !var.getScope().isModuleScope()) { return; } for (Export e : new ArrayList<>(exports)) { int i = this.exports.indexOf(e); Export mutated = e.mutatedCopy(); this.exports.set(i, mutated); exportsByLocalName.remove(e.localName(), e); exportsByLocalName.put(e.localName(), mutated); } } } /** * Collects all imports and exports of a module. Builds a {@link UnresolvedEsModule} by slotting * the exports into one of three categories: * *

    *
  • Local exports - exports whose original definition is in this file. *
  • Indirect exports - exports that come from another file. Either via {@code export {name} * from} or {@code import {name}; export {name};} *
  • Star exports - {@code export * from} exports *
*/ private final class UnresolvedModuleBuilder { private final ModuleLoader.ModulePath path; private final Node root; private final Map importsByLocalName; private final List exports; private final Set exportedNames; UnresolvedModuleBuilder(ModuleLoader.ModulePath path, Node root) { this.path = path; this.root = root; importsByLocalName = new HashMap<>(); exports = new ArrayList<>(); exportedNames = new HashSet<>(); } void add(Import i) { importsByLocalName.put(i.localName(), i); } /** True if the export was successfully added or false if the exported name already exists. */ boolean add(Export e) { if (e.exportName() == null) { exports.add(e); return true; } else { if (exportedNames.contains(e.exportName())) { return false; } exports.add(e); exportedNames.add(e.exportName()); return true; } } UnresolvedModule build() { List localExports = new ArrayList<>(); ImmutableList.Builder indirectExportsBuilder = new ImmutableList.Builder<>(); ImmutableList.Builder starExportsBuilder = new ImmutableList.Builder<>(); for (Export ee : exports) { if (ee.moduleRequest() == null) { if (importsByLocalName.containsKey(ee.localName())) { // import A from ''; // export { A }; // import * as ns from ''; // export { ns }; indirectExportsBuilder.add(ee); } else { // var y; // export { y }; // export var x; localExports.add(ee); } } else if ("*".equals(ee.importName())) { // export * from ''; starExportsBuilder.add(ee); } else { // export { A } from ''; indirectExportsBuilder.add(ee); } } NodeTraversal.traverse(compiler, root, new FindMutableExports(localExports)); return new UnresolvedEsModule( metadata, path, ImmutableMap.copyOf(importsByLocalName), ImmutableList.copyOf(localExports), indirectExportsBuilder.build(), starExportsBuilder.build()); } } /** * A module that has had its exports and imports parsed and categorized but has yet to * transitively resolve them. */ private final class UnresolvedEsModule extends UnresolvedModule { private final ModuleMetadata metadata; private final ModuleLoader.ModulePath path; private final ImmutableMap importsByLocalName; private final ImmutableList localExports; private final ImmutableList indirectExports; private final ImmutableList starExports; private ImmutableSet exportedNames; private final Map resolvedImports; private final Map resolvedExports; private Module resolved; private UnresolvedEsModule( ModuleMetadata metadata, ModuleLoader.ModulePath path, ImmutableMap importsByLocalName, ImmutableList localExports, ImmutableList indirectExports, ImmutableList starExports) { this.metadata = metadata; this.path = path; this.importsByLocalName = importsByLocalName; this.localExports = localExports; this.indirectExports = indirectExports; this.starExports = starExports; exportedNames = null; resolvedImports = new HashMap<>(); resolvedExports = new HashMap<>(); resolved = null; } @Override void reset() { resolved = null; exportedNames = null; resolvedImports.clear(); resolvedExports.clear(); } @Override public Module resolve( ModuleRequestResolver moduleRequestResolver, @Nullable String moduleSpecifier) { if (resolved == null) { // Every import creates a locally bound name. Map boundNames = new LinkedHashMap<>(getAllResolvedImports(moduleRequestResolver)); Map localNameToLocalExport = new HashMap<>(); // Only local exports that are not an anonymous default export create local bindings. for (Export e : localExports) { localNameToLocalExport.put(e.localName(), e); if (!Export.DEFAULT_EXPORT_NAME.equals(e.localName())) { ResolveExportResult b = resolveExport(moduleRequestResolver, e.exportName()); checkState(b.resolved(), "Cannot have invalid missing own export!"); if (!b.isAmbiguous()) { boundNames.put(e.localName(), b.getBinding()); } } } // getAllResolvedExports is required to make a module but also performs cycle checking. resolved = Module.builder() .boundNames(ImmutableMap.copyOf(boundNames)) .namespace(ImmutableMap.copyOf(getAllResolvedExports(moduleRequestResolver))) .metadata(metadata) .path(path) .localNameToLocalExport(ImmutableMap.copyOf(localNameToLocalExport)) .unresolvedModule(this) .build(); } return resolved; } @Override ModuleMetadata metadata() { return metadata; } /** A map from import bound name to binding. */ Map getAllResolvedImports(ModuleRequestResolver moduleRequestResolver) { Map imports = new HashMap<>(); for (String name : importsByLocalName.keySet()) { ResolveExportResult b = resolveImport(moduleRequestResolver, name); if (b.resolved()) { imports.put(name, b.getBinding()); } } return imports; } public ResolveExportResult resolveImport( ModuleRequestResolver moduleRequestResolver, String name, Set resolveSet, Set exportStarSet) { if (resolvedImports.containsKey(name)) { return resolvedImports.get(name); } ResolveExportResult b = resolveImportImpl(moduleRequestResolver, name, resolveSet, exportStarSet); resolvedImports.put(name, b); return b; } public ResolveExportResult resolveImport( ModuleRequestResolver moduleRequestResolver, String name) { return resolveImport(moduleRequestResolver, name, new HashSet<>(), new HashSet<>()); } private ResolveExportResult resolveImportImpl( ModuleRequestResolver moduleRequestResolver, String name, Set resolveSet, Set exportStarSet) { Import i = importsByLocalName.get(name); UnresolvedModule requested = moduleRequestResolver.resolve(i); if (requested == null) { return ResolveExportResult.ERROR; } else { boolean importStar = i.importName().equals("*"); if (importStar || (i.importName().equals(Export.DEFAULT) && (requested.metadata().isGoogProvide() || requested.metadata().isGoogModule()))) { if (!GoogEsImports.isGoogImportSpecifier(i.moduleRequest()) && (requested.metadata().isGoogModule() || requested.metadata().isGoogProvide())) { compiler.report( JSError.make( path.toString(), i.importNode().getLineno(), i.importNode().getCharno(), CANNOT_PATH_IMPORT_CLOSURE_FILE, i.localName(), i.moduleRequest())); return ResolveExportResult.ERROR; } if (importStar && GoogEsImports.isGoogImportSpecifier(i.moduleRequest())) { compiler.report( JSError.make( path.toString(), i.importNode().getLineno(), i.importNode().getCharno(), NAMESPACE_IMPORT_CANNOT_USE_STAR, i.localName(), i.moduleRequest())); return ResolveExportResult.ERROR; } String closureNamespace = GoogEsImports.isGoogImportSpecifier(i.moduleRequest()) ? GoogEsImports.getClosureIdFromGoogImportSpecifier(i.moduleRequest()) : null; return ResolveExportResult.of( Binding.from(requested.metadata(), closureNamespace, i.nameNode())); } else { ResolveExportResult result = requested.resolveExport( moduleRequestResolver, i.moduleRequest(), i.importName(), resolveSet, exportStarSet); if (!result.found() && !result.hadError()) { compiler.report( JSError.make( path.toString(), i.importNode().getLineno(), i.importNode().getCharno(), DOES_NOT_HAVE_EXPORT, i.importName())); return ResolveExportResult.ERROR; } else if (result.isAmbiguous()) { compiler.report( JSError.make( path.toString(), i.importNode().getLineno(), i.importNode().getCharno(), IMPORTED_AMBIGUOUS_EXPORT, i.importName())); return ResolveExportResult.ERROR; } Node forSourceInfo = i.nameNode() == null ? i.importNode() : i.nameNode(); return result.copy(forSourceInfo, Binding.CreatedBy.IMPORT); } } } @Override public ImmutableSet getExportedNames(ModuleRequestResolver moduleRequestResolver) { if (exportedNames == null) { exportedNames = getExportedNames(moduleRequestResolver, new HashSet<>()); } return exportedNames; } @Override public ImmutableSet getExportedNames( ModuleRequestResolver moduleRequestResolver, Set visited) { if (visited.contains(this)) { // import * cycle return ImmutableSet.of(); } visited.add(this); // exports are in Array.prototype.sort() order. Set exportedNames = new TreeSet<>(); for (Export e : localExports) { exportedNames.add(e.exportName()); } for (Export e : indirectExports) { exportedNames.add(e.exportName()); } for (Export e : starExports) { UnresolvedModule requested = moduleRequestResolver.resolve(e); if (requested != null) { if (requested.metadata().isEs6Module()) { for (String n : requested.getExportedNames(moduleRequestResolver, visited)) { // Default exports are not exported with export *. if (!Export.DEFAULT.equals(n) && !exportedNames.contains(n)) { exportedNames.add(n); } } } else { compiler.report( JSError.make( e.exportNode(), Es6ToEs3Util.CANNOT_CONVERT_YET, "Wildcard export for non-ES module")); } } } return ImmutableSet.copyOf(exportedNames); } /** Map of exported name to binding. */ Map getAllResolvedExports(ModuleRequestResolver moduleRequestResolver) { Map exports = new LinkedHashMap<>(); for (String name : getExportedNames(moduleRequestResolver)) { ResolveExportResult b = resolveExport(moduleRequestResolver, name); checkState(b.found(), "Cannot have invalid own export."); if (b.resolved()) { exports.put(name, b.getBinding()); } else if (b.isAmbiguous()) { compiler.report(JSError.make(path.toString(), -1, -1, AMBIGUOUS_EXPORT_DEFINITION, name)); } } return exports; } private ResolveExportResult resolveExport( ModuleRequestResolver moduleRequestResolver, String exportName, Set resolveSet, Set exportStarSet) { if (!getExportedNames(moduleRequestResolver).contains(exportName)) { return ResolveExportResult.NOT_FOUND; } if (!resolveSet.add(ExportTrace.create(this, exportName))) { // Cycle! compiler.report(JSError.make(path.toString(), 0, 0, CYCLIC_EXPORT_DEFINITION, exportName)); return ResolveExportResult.ERROR; } for (Export e : localExports) { if (exportName.equals(e.exportName())) { Node forSourceInfo = e.nameNode() != null ? e.nameNode() : e.exportNode(); return ResolveExportResult.of(Binding.from(e, forSourceInfo)); } } for (Export e : indirectExports) { if (exportName.equals(e.exportName())) { if (importsByLocalName.containsKey(e.localName())) { // import whatever from 'mod'; // export { whatever }; return resolveImport(moduleRequestResolver, e.localName(), resolveSet, exportStarSet) .copy(e.nameNode(), Binding.CreatedBy.EXPORT); } else { UnresolvedModule requested = moduleRequestResolver.resolve(e); if (requested == null) { return ResolveExportResult.ERROR; } else { // export { whatever } from 'mod'; ResolveExportResult result = requested.resolveExport( moduleRequestResolver, e.moduleRequest(), e.importName(), resolveSet, exportStarSet); if (!result.found() && !result.hadError()) { compiler.report( JSError.make( path.toString(), e.exportNode().getLineno(), e.exportNode().getCharno(), DOES_NOT_HAVE_EXPORT, e.importName())); return ResolveExportResult.ERROR; } else if (result.isAmbiguous()) { compiler.report( JSError.make( path.toString(), e.exportNode().getLineno(), e.exportNode().getCharno(), IMPORTED_AMBIGUOUS_EXPORT, e.importName())); } return result.copy(e.nameNode(), Binding.CreatedBy.EXPORT); } } } } checkState(!Export.DEFAULT.equals(exportName), "Default export cannot come from export *."); if (exportStarSet.contains(this)) { // Cycle! compiler.report( JSError.make(path.toString(), -1, -1, CYCLIC_EXPORT_DEFINITION, exportName)); return ResolveExportResult.ERROR; } exportStarSet.add(this); ResolveExportResult starResolution = null; for (Export e : starExports) { UnresolvedModule requested = moduleRequestResolver.resolve(e); if (requested == null) { return ResolveExportResult.ERROR; } else if (requested.getExportedNames(moduleRequestResolver).contains(exportName)) { ResolveExportResult resolution = requested.resolveExport( moduleRequestResolver, e.moduleRequest(), exportName, resolveSet, exportStarSet); if (resolution.hadError()) { // Recursive case; error was reported on base case. return resolution; } else if (resolution.isAmbiguous()) { return resolution; } else { if (starResolution == null) { // First time finding something, not ambiguous. starResolution = resolution.copy(e.exportNode(), Binding.CreatedBy.EXPORT); } else { // Second time finding something, might be ambiguous! // Not ambiguous if it is the same export (same module and export name). if (starResolution != resolution) { return ResolveExportResult.AMBIGUOUS; } } } } } if (starResolution == null) { return ResolveExportResult.ERROR; } return starResolution; } @Override public ResolveExportResult resolveExport( ModuleRequestResolver moduleRequestResolver, @Nullable String moduleSpecifier, String exportName, Set resolveSet, Set exportStarSet) { // Explicit containsKey check here since values can be null! if (resolvedExports.containsKey(exportName)) { return resolvedExports.get(exportName); } ResolveExportResult b = resolveExport(moduleRequestResolver, exportName, resolveSet, exportStarSet); resolvedExports.put(exportName, b); return b; } } EsModuleProcessor(AbstractCompiler compiler) { this.compiler = compiler; } private final AbstractCompiler compiler; private UnresolvedModuleBuilder currentModuleBuilder; private ModuleMetadata metadata; @Override public UnresolvedModule process( ModuleMetadata metadata, ModulePath path, Node script) { this.metadata = metadata; currentModuleBuilder = new UnresolvedModuleBuilder(path, script); NodeTraversal.traverse(compiler, script, this); UnresolvedModule m = currentModuleBuilder.build(); this.metadata = null; currentModuleBuilder = null; return m; } @Override public boolean shouldTraverse(NodeTraversal t, Node n, Node parent) { switch (n.getToken()) { case ROOT: case SCRIPT: case MODULE_BODY: case EXPORT: case IMPORT: return true; default: return false; } } @Override public void visit(NodeTraversal t, Node n, Node parent) { switch (n.getToken()) { case EXPORT: visitExport(t, n); break; case IMPORT: visitImport(t, n); break; default: break; } } private void visitExportAllFrom(NodeTraversal t, Node export) { // export * from ''; currentModuleBuilder.add( Export.builder() .exportName(null) .moduleRequest(export.getSecondChild().getString()) .importName("*") .localName(null) .modulePath(t.getInput().getPath()) .exportNode(export) .moduleMetadata(metadata) .build()); } private void visitExportDefault(NodeTraversal t, Node export) { // export default ; Node child = export.getFirstChild(); String name = Export.DEFAULT_EXPORT_NAME; if (child.isFunction() || child.isClass()) { String maybeName = NodeUtil.getName(child); if (!Strings.isNullOrEmpty(maybeName)) { name = maybeName; } } if (!currentModuleBuilder.add( Export.builder() .exportName(Export.DEFAULT) .moduleRequest(null) .importName(null) .localName(name) .modulePath(t.getInput().getPath()) .exportNode(export) .moduleMetadata(metadata) .build())) { t.report(export, DUPLICATE_EXPORT, Export.DEFAULT); } } private void visitExportFrom(NodeTraversal t, Node export) { // export { Foo, Bar as Rab } from ''; for (Node child = export.getFirstFirstChild(); child != null; child = child.getNext()) { String importName = child.getFirstChild().getString(); String exportedName = child.getLastChild().getString(); if (!currentModuleBuilder.add( Export.builder() .exportName(exportedName) .moduleRequest(export.getSecondChild().getString()) .importName(importName) .localName(null) .modulePath(t.getInput().getPath()) .exportNode(export) .nameNode(child.getFirstChild()) .moduleMetadata(metadata) .build())) { t.report(export, DUPLICATE_EXPORT, exportedName); } } } private void visitExportSpecs(NodeTraversal t, Node export) { // export { Foo, Bar as Rab }; for (Node child = export.getFirstFirstChild(); child != null; child = child.getNext()) { String localName = child.getFirstChild().getString(); String exportedName = child.getLastChild().getString(); if (!currentModuleBuilder.add( Export.builder() .exportName(exportedName) .moduleRequest(null) .importName(null) .localName(localName) .modulePath(t.getInput().getPath()) .exportNode(export) .nameNode(child.getFirstChild()) .moduleMetadata(metadata) .build())) { t.report(export, DUPLICATE_EXPORT, exportedName); } } } private void visitExportNameDeclaration(NodeTraversal t, Node export, Node declaration) { // export var Foo; // export let {a, b:[c,d]} = {}; List lhsNodes = NodeUtil.findLhsNodesInNode(declaration); for (Node lhs : lhsNodes) { checkState(lhs.isName()); String name = lhs.getString(); if (!currentModuleBuilder.add( Export.builder() .exportName(name) .moduleRequest(null) .importName(null) .localName(name) .modulePath(t.getInput().getPath()) .exportNode(export) .nameNode(lhs) .moduleMetadata(metadata) .build())) { t.report(export, DUPLICATE_EXPORT, name); } } } private void visitExportFunctionOrClass(NodeTraversal t, Node export, Node declaration) { // export function foo() {} // export class Foo {} checkState(declaration.isFunction() || declaration.isClass()); Node nameNode = declaration.getFirstChild(); String name = nameNode.getString(); if (!currentModuleBuilder.add( Export.builder() .exportName(name) .moduleRequest(null) .importName(null) .localName(name) .modulePath(t.getInput().getPath()) .exportNode(export) .nameNode(nameNode) .moduleMetadata(metadata) .build())) { t.report(export, DUPLICATE_EXPORT, name); } } private void visitExport(NodeTraversal t, Node export) { if (export.getBooleanProp(Node.EXPORT_ALL_FROM)) { visitExportAllFrom(t, export); } else if (export.getBooleanProp(Node.EXPORT_DEFAULT)) { visitExportDefault(t, export); } else if (export.hasTwoChildren()) { visitExportFrom(t, export); } else if (export.getFirstChild().getToken() == Token.EXPORT_SPECS) { visitExportSpecs(t, export); } else { Node declaration = export.getFirstChild(); if (NodeUtil.isNameDeclaration(declaration)) { visitExportNameDeclaration(t, export, declaration); } else { visitExportFunctionOrClass(t, export, declaration); } } } private void visitImportDefault(NodeTraversal t, Node importNode, String moduleRequest) { // import Default from ''; currentModuleBuilder.add( Import.builder() .moduleRequest(moduleRequest) .importName(Export.DEFAULT) .localName(importNode.getFirstChild().getString()) .modulePath(t.getInput().getPath()) .importNode(importNode) .nameNode(importNode.getFirstChild()) .build()); } private void visitImportSpecs(NodeTraversal t, Node importNode, String moduleRequest) { // import { A, b as B } from ''; for (Node child = importNode.getSecondChild().getFirstChild(); child != null; child = child.getNext()) { String importName = child.getFirstChild().getString(); String localName = child.getLastChild().getString(); currentModuleBuilder.add( Import.builder() .moduleRequest(moduleRequest) .importName(importName) .localName(localName) .modulePath(t.getInput().getPath()) .importNode(importNode) .nameNode(child.getSecondChild()) .build()); } } private void visitImportStar(NodeTraversal t, Node importNode, String moduleRequest) { // import * as ns from ''; currentModuleBuilder.add( Import.builder() .moduleRequest(moduleRequest) .importName("*") .localName(importNode.getSecondChild().getString()) .importNode(importNode) .modulePath(t.getInput().getPath()) .nameNode(importNode.getSecondChild()) .build()); } private void visitImport(NodeTraversal t, Node importNode) { String moduleRequest = importNode.getLastChild().getString(); if (importNode.getFirstChild().isName()) { visitImportDefault(t, importNode, moduleRequest); } if (importNode.getSecondChild().isImportSpecs()) { visitImportSpecs(t, importNode, moduleRequest); } else if (importNode.getSecondChild().isImportStar()) { visitImportStar(t, importNode, moduleRequest); } // no entry for import ''; } }




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