com.google.javascript.jscomp.modules.EsModuleProcessor Maven / Gradle / Ivy
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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.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 because it is expensive.
*
*
* Suggested reading
*/
public final class EsModuleProcessor implements NodeTraversal.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))
.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 '';
}
}