com.google.javascript.jscomp.Es6ToEs3Converter Maven / Gradle / Ivy
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/*
* Copyright 2014 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;
import com.google.common.base.Preconditions;
import com.google.common.collect.Iterables;
import com.google.common.collect.Lists;
import com.google.javascript.jscomp.CompilerOptions.LanguageMode;
import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.JSDocInfo;
import com.google.javascript.rhino.JSDocInfoBuilder;
import com.google.javascript.rhino.JSTypeExpression;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.Token;
import java.util.ArrayList;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Set;
import javax.annotation.Nullable;
/**
* Converts ES6 code to valid ES5 code. This class does most of the transpilation, and
* https://github.com/google/closure-compiler/wiki/ECMAScript6 lists which ES6 features are
* supported. Other classes that start with "Es6" do other parts of the transpilation.
*
* In most cases, the output is valid as ES3 (hence the class name) but in some cases, if
* the output language is set to ES5, we rely on ES5 features such as getters, setters,
* and Object.defineProperties.
*
* @author [email protected] (Tyler Breisacher)
*/
// TODO(tbreisacher): This class does too many things. Break it into smaller passes.
public final class Es6ToEs3Converter implements NodeTraversal.Callback, HotSwapCompilerPass {
private final AbstractCompiler compiler;
static final DiagnosticType CANNOT_CONVERT = DiagnosticType.error(
"JSC_CANNOT_CONVERT",
"This code cannot be converted from ES6. {0}");
// TODO(tbreisacher): Remove this once we have implemented transpilation for all the features
// we intend to support.
static final DiagnosticType CANNOT_CONVERT_YET = DiagnosticType.error(
"JSC_CANNOT_CONVERT_YET",
"ES6 transpilation of ''{0}'' is not yet implemented.");
static final DiagnosticType DYNAMIC_EXTENDS_TYPE = DiagnosticType.error(
"JSC_DYNAMIC_EXTENDS_TYPE",
"The class in an extends clause must be a qualified name.");
static final DiagnosticType CLASS_REASSIGNMENT = DiagnosticType.error(
"CLASS_REASSIGNMENT",
"Class names defined inside a function cannot be reassigned.");
static final DiagnosticType CONFLICTING_GETTER_SETTER_TYPE = DiagnosticType.error(
"CONFLICTING_GETTER_SETTER_TYPE",
"The types of the getter and setter for property ''{0}'' do not match.");
static final DiagnosticType BAD_REST_PARAMETER_ANNOTATION = DiagnosticType.warning(
"BAD_REST_PARAMETER_ANNOTATION",
"Missing \"...\" in type annotation for rest parameter.");
// The name of the index variable for populating the rest parameter array.
private static final String REST_INDEX = "$jscomp$restIndex";
// The name of the placeholder for the rest parameters.
private static final String REST_PARAMS = "$jscomp$restParams";
private static final String FRESH_SPREAD_VAR = "$jscomp$spread$args";
private static final String FRESH_COMP_PROP_VAR = "$jscomp$compprop";
private static final String ITER_BASE = "$jscomp$iter$";
private static final String ITER_RESULT = "$jscomp$key$";
// This function is defined in js/es6/util/inherits.js
static final String INHERITS = "$jscomp.inherits";
public Es6ToEs3Converter(AbstractCompiler compiler) {
this.compiler = compiler;
}
@Override
public void process(Node externs, Node root) {
TranspilationPasses.processTranspile(compiler, externs, this);
TranspilationPasses.processTranspile(compiler, root, this);
}
@Override
public void hotSwapScript(Node scriptRoot, Node originalRoot) {
TranspilationPasses.hotSwapTranspile(compiler, scriptRoot, this);
}
/**
* Some nodes must be visited pre-order in order to rewrite the
* references to {@code this} correctly.
* Everything else is translated post-order in {@link #visit}.
*/
@Override
public boolean shouldTraverse(NodeTraversal t, Node n, Node parent) {
switch (n.getToken()) {
case REST:
visitRestParam(t, n, parent);
break;
case GETTER_DEF:
case SETTER_DEF:
if (compiler.getOptions().getLanguageOut() == LanguageMode.ECMASCRIPT3) {
cannotConvert(n, "ES5 getters/setters (consider using --language_out=ES5)");
return false;
}
break;
case NEW_TARGET:
cannotConvertYet(n, "new.target");
break;
case FUNCTION:
if (n.isAsyncFunction()) {
cannotConvertYet(n, "async function");
}
break;
default:
break;
}
return true;
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
switch (n.getToken()) {
case NAME:
if (!n.isFromExterns() && isGlobalSymbol(t, n)) {
initSymbolBefore(n);
}
break;
case GETPROP:
if (!n.isFromExterns()) {
visitGetprop(t, n);
}
break;
case OBJECTLIT:
visitObject(n);
break;
case MEMBER_FUNCTION_DEF:
if (parent.isObjectLit()) {
visitMemberFunctionDefInObjectLit(n, parent);
}
break;
case FOR_OF:
visitForOf(n, parent);
break;
case STRING_KEY:
visitStringKey(n);
break;
case CLASS:
visitClass(t, n, parent);
break;
case ARRAYLIT:
case NEW:
case CALL:
for (Node child : n.children()) {
if (child.isSpread()) {
visitArrayLitOrCallWithSpread(n, parent);
break;
}
}
break;
case TAGGED_TEMPLATELIT:
Es6TemplateLiterals.visitTaggedTemplateLiteral(t, n);
break;
case TEMPLATELIT:
if (!parent.isTaggedTemplateLit()) {
Es6TemplateLiterals.visitTemplateLiteral(t, n);
}
break;
case EXPONENT:
visitExponentiationExpression(n, parent);
break;
case ASSIGN_EXPONENT:
visitExponentiationAssignmentExpression(n, parent);
break;
default:
break;
}
}
/**
* @return Whether {@code n} is a reference to the global "Symbol" function.
*/
private boolean isGlobalSymbol(NodeTraversal t, Node n) {
if (!n.matchesQualifiedName("Symbol")) {
return false;
}
Var var = t.getScope().getVar("Symbol");
return var == null || var.isGlobal();
}
/**
* Inserts a call to $jscomp.initSymbol() before {@code n}.
*/
private void initSymbolBefore(Node n) {
compiler.ensureLibraryInjected("es6/symbol", false);
Node statement = NodeUtil.getEnclosingStatement(n);
Node initSymbol = IR.exprResult(IR.call(NodeUtil.newQName(compiler, "$jscomp.initSymbol")));
statement.getParent().addChildBefore(initSymbol.useSourceInfoFromForTree(statement), statement);
compiler.reportChangeToEnclosingScope(initSymbol);
}
private void visitExponentiationExpression(Node n, Node parent) {
Node left = n.removeFirstChild();
Node right = n.removeFirstChild();
Node mathDotPowCall =
IR.call(NodeUtil.newQName(compiler, "Math.pow"), left, right)
.useSourceInfoIfMissingFromForTree(n);
parent.replaceChild(n, mathDotPowCall);
compiler.reportChangeToEnclosingScope(mathDotPowCall);
}
private void visitExponentiationAssignmentExpression(Node n, Node parent) {
Node left = n.removeFirstChild();
Node right = n.removeFirstChild();
Node mathDotPowCall = IR.call(NodeUtil.newQName(compiler, "Math.pow"), left.cloneTree(), right);
Node assign = IR.assign(left, mathDotPowCall).useSourceInfoIfMissingFromForTree(n);
parent.replaceChild(n, assign);
compiler.reportChangeToEnclosingScope(assign);
}
// TODO(tbreisacher): Do this for all well-known symbols.
private void visitGetprop(NodeTraversal t, Node n) {
if (!n.matchesQualifiedName("Symbol.iterator")) {
return;
}
if (isGlobalSymbol(t, n.getFirstChild())) {
compiler.ensureLibraryInjected("es6/symbol", false);
Node statement = NodeUtil.getEnclosingStatement(n);
Node init = IR.exprResult(IR.call(NodeUtil.newQName(compiler, "$jscomp.initSymbolIterator")));
statement.getParent().addChildBefore(init.useSourceInfoFromForTree(statement), statement);
compiler.reportChangeToEnclosingScope(init);
}
}
/**
* Converts a member definition in an object literal to an ES3 key/value pair.
* Member definitions in classes are handled in {@link #visitClass}.
*/
private void visitMemberFunctionDefInObjectLit(Node n, Node parent) {
String name = n.getString();
Node stringKey = IR.stringKey(name, n.getFirstChild().detach());
stringKey.setJSDocInfo(n.getJSDocInfo());
parent.replaceChild(n, stringKey);
compiler.reportChangeToEnclosingScope(stringKey);
}
/**
* Converts extended object literal {a} to {a:a}.
*/
// TODO(blickly): Separate this so it can be part of the normalization early transpilation passes.
private void visitStringKey(Node n) {
if (!n.hasChildren()) {
Node name = IR.name(n.getString());
name.useSourceInfoIfMissingFrom(n);
n.addChildToBack(name);
compiler.reportChangeToEnclosingScope(name);
}
}
private void visitForOf(Node node, Node parent) {
Node variable = node.removeFirstChild();
Node iterable = node.removeFirstChild();
Node body = node.removeFirstChild();
JSDocInfo varJSDocInfo = variable.getJSDocInfo();
Node iterName = IR.name(ITER_BASE + compiler.getUniqueNameIdSupplier().get());
iterName.makeNonIndexable();
Node getNext = IR.call(IR.getprop(iterName.cloneTree(), IR.string("next")));
String variableName;
Token declType;
if (variable.isName()) {
declType = Token.NAME;
variableName = variable.getQualifiedName();
} else {
Preconditions.checkState(NodeUtil.isNameDeclaration(variable),
"Expected var, let, or const. Got %s", variable);
declType = variable.getToken();
variableName = variable.getFirstChild().getQualifiedName();
}
Node iterResult = IR.name(ITER_RESULT + variableName);
iterResult.makeNonIndexable();
Node init = IR.var(iterName.cloneTree(), makeIterator(compiler, iterable));
Node initIterResult = iterResult.cloneTree();
initIterResult.addChildToFront(getNext.cloneTree());
init.addChildToBack(initIterResult);
Node cond = IR.not(IR.getprop(iterResult.cloneTree(), IR.string("done")));
Node incr = IR.assign(iterResult.cloneTree(), getNext.cloneTree());
Node declarationOrAssign;
if (declType == Token.NAME) {
declarationOrAssign = IR.assign(
IR.name(variableName).useSourceInfoFrom(variable),
IR.getprop(iterResult.cloneTree(), IR.string("value")));
declarationOrAssign.setJSDocInfo(varJSDocInfo);
declarationOrAssign = IR.exprResult(declarationOrAssign);
} else {
declarationOrAssign = new Node(
declType,
IR.name(variableName).useSourceInfoFrom(variable.getFirstChild()));
declarationOrAssign.getFirstChild().addChildToBack(
IR.getprop(iterResult.cloneTree(), IR.string("value")));
declarationOrAssign.setJSDocInfo(varJSDocInfo);
}
Node newBody = IR.block(declarationOrAssign, body).useSourceInfoFrom(body);
Node newFor = IR.forNode(init, cond, incr, newBody);
newFor.useSourceInfoIfMissingFromForTree(node);
parent.replaceChild(node, newFor);
compiler.reportChangeToEnclosingScope(newFor);
}
private void checkClassReassignment(Node clazz) {
Node name = NodeUtil.getNameNode(clazz);
Node enclosingFunction = NodeUtil.getEnclosingFunction(clazz);
if (enclosingFunction == null) {
return;
}
CheckClassAssignments checkAssigns = new CheckClassAssignments(name);
NodeTraversal.traverseEs6(compiler, enclosingFunction, checkAssigns);
}
/**
* Processes a rest parameter
*/
private void visitRestParam(NodeTraversal t, Node restParam, Node paramList) {
Node functionBody = paramList.getNext();
int restIndex = paramList.getIndexOfChild(restParam);
String paramName = restParam.getFirstChild().getString();
Node nameNode = IR.name(paramName);
nameNode.setVarArgs(true);
nameNode.setJSDocInfo(restParam.getJSDocInfo());
paramList.replaceChild(restParam, nameNode);
// Make sure rest parameters are typechecked
JSTypeExpression type = null;
JSDocInfo info = restParam.getJSDocInfo();
if (info != null) {
type = info.getType();
} else {
JSDocInfo functionInfo = NodeUtil.getBestJSDocInfo(paramList.getParent());
if (functionInfo != null) {
type = functionInfo.getParameterType(paramName);
}
}
if (type != null && type.getRoot().getToken() != Token.ELLIPSIS) {
compiler.report(JSError.make(restParam, BAD_REST_PARAMETER_ANNOTATION));
}
if (!functionBody.hasChildren()) {
// If function has no body, we are done!
t.reportCodeChange();
return;
}
Node newBlock = IR.block().useSourceInfoFrom(functionBody);
Node name = IR.name(paramName);
Node let = IR.let(name, IR.name(REST_PARAMS))
.useSourceInfoIfMissingFromForTree(functionBody);
newBlock.addChildToFront(let);
for (Node child : functionBody.children()) {
newBlock.addChildToBack(child.detach());
}
if (type != null) {
Node arrayType = IR.string("Array");
Node typeNode = type.getRoot();
Node memberType =
typeNode.getToken() == Token.ELLIPSIS
? typeNode.getFirstChild().cloneTree()
: typeNode.cloneTree();
arrayType.addChildToFront(
new Node(Token.BLOCK, memberType).useSourceInfoIfMissingFrom(typeNode));
JSDocInfoBuilder builder = new JSDocInfoBuilder(false);
builder.recordType(
new JSTypeExpression(new Node(Token.BANG, arrayType), restParam.getSourceFileName()));
name.setJSDocInfo(builder.build());
}
Node newArr = IR.var(IR.name(REST_PARAMS), IR.arraylit());
functionBody.addChildToFront(newArr.useSourceInfoIfMissingFromForTree(restParam));
Node init = IR.var(IR.name(REST_INDEX), IR.number(restIndex));
Node cond = IR.lt(IR.name(REST_INDEX), IR.getprop(IR.name("arguments"), IR.string("length")));
Node incr = IR.inc(IR.name(REST_INDEX), false);
Node body = IR.block(IR.exprResult(IR.assign(
IR.getelem(IR.name(REST_PARAMS), IR.sub(IR.name(REST_INDEX), IR.number(restIndex))),
IR.getelem(IR.name("arguments"), IR.name(REST_INDEX)))));
functionBody.addChildAfter(IR.forNode(init, cond, incr, body)
.useSourceInfoIfMissingFromForTree(restParam), newArr);
functionBody.addChildToBack(newBlock);
compiler.reportChangeToEnclosingScope(newBlock);
// For now, we are running transpilation before type-checking, so we'll
// need to make sure changes don't invalidate the JSDoc annotations.
// Therefore we keep the parameter list the same length and only initialize
// the values if they are set to undefined.
}
/**
* Processes array literals or calls containing spreads. Examples:
* [1, 2, ...x, 4, 5] => [].concat([1, 2], $jscomp.arrayFromIterable(x), [4, 5])
*
* f(...arr) => f.apply(null, [].concat($jscomp.arrayFromIterable(arr)))
*
* new F(...args) =>
* new Function.prototype.bind.apply(F, [].concat($jscomp.arrayFromIterable(args)))
*/
private void visitArrayLitOrCallWithSpread(Node node, Node parent) {
Preconditions.checkArgument(node.isCall() || node.isArrayLit() || node.isNew());
List groups = new ArrayList<>();
Node currGroup = null;
Node callee = node.isArrayLit() ? null : node.removeFirstChild();
Node currElement = node.removeFirstChild();
while (currElement != null) {
if (currElement.isSpread()) {
if (currGroup != null) {
groups.add(currGroup);
currGroup = null;
}
groups.add(arrayFromIterable(compiler, currElement.removeFirstChild()));
} else {
if (currGroup == null) {
currGroup = IR.arraylit();
}
currGroup.addChildToBack(currElement);
}
currElement = node.removeFirstChild();
}
if (currGroup != null) {
groups.add(currGroup);
}
Node result = null;
Node firstGroup = node.isNew() ? IR.arraylit(IR.nullNode()) : IR.arraylit();
Node joinedGroups =
IR.call(IR.getprop(firstGroup, IR.string("concat")), groups.toArray(new Node[0]));
if (node.isArrayLit()) {
result = joinedGroups;
} else if (node.isCall()) {
if (NodeUtil.mayHaveSideEffects(callee) && callee.isGetProp()) {
Node statement = node;
while (!NodeUtil.isStatement(statement)) {
statement = statement.getParent();
}
Node freshVar = IR.name(FRESH_SPREAD_VAR + compiler.getUniqueNameIdSupplier().get());
Node n = IR.var(freshVar.cloneTree());
n.useSourceInfoIfMissingFromForTree(statement);
statement.getParent().addChildBefore(n, statement);
callee.addChildToFront(IR.assign(freshVar.cloneTree(), callee.removeFirstChild()));
result = IR.call(
IR.getprop(callee, IR.string("apply")),
freshVar,
joinedGroups);
} else {
Node context = callee.isGetProp() ? callee.getFirstChild().cloneTree() : IR.nullNode();
result = IR.call(IR.getprop(callee, IR.string("apply")), context, joinedGroups);
}
} else {
if (compiler.getOptions().getLanguageOut() == LanguageMode.ECMASCRIPT3) {
// TODO(tbreisacher): Support this in ES3 too by not relying on Function.bind.
cannotConvert(node, "\"...\" passed to a constructor (consider using --language_out=ES5)");
}
Node bindApply = NodeUtil.newQName(compiler,
"Function.prototype.bind.apply");
result = IR.newNode(IR.call(bindApply, callee, joinedGroups));
}
result.useSourceInfoIfMissingFromForTree(node);
parent.replaceChild(node, result);
compiler.reportChangeToEnclosingScope(result);
}
private void visitObject(Node obj) {
for (Node child : obj.children()) {
if (child.isComputedProp()) {
visitObjectWithComputedProperty(obj);
return;
}
}
}
private void visitObjectWithComputedProperty(Node obj) {
Preconditions.checkArgument(obj.isObjectLit());
List props = new ArrayList<>();
Node currElement = obj.getFirstChild();
while (currElement != null) {
if (currElement.getBooleanProp(Node.COMPUTED_PROP_GETTER)
|| currElement.getBooleanProp(Node.COMPUTED_PROP_SETTER)) {
cannotConvertYet(currElement, "computed getter/setter in an object literal");
return;
} else if (currElement.isGetterDef() || currElement.isSetterDef()) {
currElement = currElement.getNext();
} else {
Node nextNode = currElement.getNext();
obj.removeChild(currElement);
props.add(currElement);
currElement = nextNode;
}
}
String objName = FRESH_COMP_PROP_VAR + compiler.getUniqueNameIdSupplier().get();
props = Lists.reverse(props);
Node result = IR.name(objName);
for (Node propdef : props) {
if (propdef.isComputedProp()) {
Node propertyExpression = propdef.removeFirstChild();
Node value = propdef.removeFirstChild();
result = IR.comma(
IR.assign(
IR.getelem(
IR.name(objName),
propertyExpression),
value),
result);
} else {
if (!propdef.hasChildren()) {
Node name = IR.name(propdef.getString()).useSourceInfoIfMissingFrom(propdef);
propdef.addChildToBack(name);
}
Node val = propdef.removeFirstChild();
propdef.setToken(Token.STRING);
Token type = propdef.isQuotedString() ? Token.GETELEM : Token.GETPROP;
Node access = new Node(type, IR.name(objName), propdef);
result = IR.comma(IR.assign(access, val), result);
}
}
Node statement = obj;
while (!NodeUtil.isStatement(statement)) {
statement = statement.getParent();
}
result.useSourceInfoIfMissingFromForTree(obj);
obj.replaceWith(result);
Node var = IR.var(IR.name(objName), obj);
var.useSourceInfoIfMissingFromForTree(statement);
statement.getParent().addChildBefore(var, statement);
compiler.reportChangeToEnclosingScope(var);
}
/**
* Classes are processed in 3 phases:
*
* - The class name is extracted.
*
- Class members are processed and rewritten.
*
- The constructor is built.
*
*/
private void visitClass(final NodeTraversal t, final Node classNode, final Node parent) {
checkClassReassignment(classNode);
// Collect Metadata
ClassDeclarationMetadata metadata = ClassDeclarationMetadata.create(classNode, parent);
if (metadata == null || metadata.fullClassName == null) {
throw new IllegalStateException(
"Can only convert classes that are declarations or the right hand"
+ " side of a simple assignment: " + classNode);
}
if (metadata.hasSuperClass() && !metadata.superClassNameNode.isQualifiedName()) {
compiler.report(JSError.make(metadata.superClassNameNode, DYNAMIC_EXTENDS_TYPE));
return;
}
Preconditions.checkState(NodeUtil.isStatement(metadata.insertionPoint),
"insertion point must be a statement: %s", metadata.insertionPoint);
Node constructor = null;
JSDocInfo ctorJSDocInfo = null;
// Process all members of the class
Node classMembers = classNode.getLastChild();
for (Node member : classMembers.children()) {
if ((member.isComputedProp()
&& (member.getBooleanProp(Node.COMPUTED_PROP_GETTER)
|| member.getBooleanProp(Node.COMPUTED_PROP_SETTER)))
|| (member.isGetterDef() || member.isSetterDef())) {
visitComputedPropInClass(member, metadata);
} else if (member.isMemberFunctionDef() && member.getString().equals("constructor")) {
ctorJSDocInfo = member.getJSDocInfo();
constructor = member.getFirstChild().detach();
if (!metadata.anonymous) {
// Turns class Foo { constructor: function() {} } into function Foo() {},
// i.e. attaches the name to the ctor function.
constructor.replaceChild(
constructor.getFirstChild(), metadata.classNameNode.cloneNode());
}
} else if (member.isEmpty()) {
// Do nothing.
} else {
Preconditions.checkState(member.isMemberFunctionDef() || member.isComputedProp(),
"Unexpected class member:", member);
Preconditions.checkState(!member.getBooleanProp(Node.COMPUTED_PROP_VARIABLE),
"Member variables should have been transpiled earlier:", member);
visitClassMember(member, metadata);
}
}
if (metadata.definePropertiesObjForPrototype.hasChildren()) {
compiler.ensureLibraryInjected("util/global", false);
Node definePropsCall =
IR.exprResult(
IR.call(
NodeUtil.newQName(compiler, "$jscomp.global.Object.defineProperties"),
NodeUtil.newQName(compiler, metadata.fullClassName + ".prototype"),
metadata.definePropertiesObjForPrototype));
definePropsCall.useSourceInfoIfMissingFromForTree(classNode);
metadata.insertNodeAndAdvance(definePropsCall);
visitObject(metadata.definePropertiesObjForPrototype);
}
if (metadata.definePropertiesObjForClass.hasChildren()) {
compiler.ensureLibraryInjected("util/global", false);
Node definePropsCall =
IR.exprResult(
IR.call(
NodeUtil.newQName(compiler, "$jscomp.global.Object.defineProperties"),
NodeUtil.newQName(compiler, metadata.fullClassName),
metadata.definePropertiesObjForClass));
definePropsCall.useSourceInfoIfMissingFromForTree(classNode);
metadata.insertNodeAndAdvance(definePropsCall);
visitObject(metadata.definePropertiesObjForClass);
}
Preconditions.checkNotNull(constructor);
JSDocInfo classJSDoc = NodeUtil.getBestJSDocInfo(classNode);
JSDocInfoBuilder newInfo = JSDocInfoBuilder.maybeCopyFrom(classJSDoc);
newInfo.recordConstructor();
Node enclosingStatement = NodeUtil.getEnclosingStatement(classNode);
if (metadata.hasSuperClass()) {
String superClassString = metadata.superClassNameNode.getQualifiedName();
if (newInfo.isInterfaceRecorded()) {
newInfo.recordExtendedInterface(new JSTypeExpression(new Node(Token.BANG,
IR.string(superClassString)),
metadata.superClassNameNode.getSourceFileName()));
} else {
if (!classNode.isFromExterns()) {
Node inherits = IR.call(
NodeUtil.newQName(compiler, INHERITS),
NodeUtil.newQName(compiler, metadata.fullClassName),
NodeUtil.newQName(compiler, superClassString));
Node inheritsCall = IR.exprResult(inherits);
compiler.ensureLibraryInjected("es6/util/inherits", false);
inheritsCall.useSourceInfoIfMissingFromForTree(classNode);
enclosingStatement.getParent().addChildAfter(inheritsCall, enclosingStatement);
}
newInfo.recordBaseType(new JSTypeExpression(new Node(Token.BANG,
IR.string(superClassString)),
metadata.superClassNameNode.getSourceFileName()));
}
}
addTypeDeclarations(metadata, enclosingStatement);
updateClassJsDoc(ctorJSDocInfo, newInfo);
if (NodeUtil.isStatement(classNode)) {
constructor.getFirstChild().setString("");
Node ctorVar = IR.let(metadata.classNameNode.cloneNode(), constructor);
ctorVar.useSourceInfoIfMissingFromForTree(classNode);
parent.replaceChild(classNode, ctorVar);
} else {
parent.replaceChild(classNode, constructor);
}
if (NodeUtil.isStatement(constructor)) {
constructor.setJSDocInfo(newInfo.build());
} else if (parent.isName()) {
// The constructor function is the RHS of a var statement.
// Add the JSDoc to the VAR node.
Node var = parent.getParent();
var.setJSDocInfo(newInfo.build());
} else if (constructor.getParent().isName()) {
// Is a newly created VAR node.
Node var = constructor.getGrandparent();
var.setJSDocInfo(newInfo.build());
} else if (parent.isAssign()) {
// The constructor function is the RHS of an assignment.
// Add the JSDoc to the ASSIGN node.
parent.setJSDocInfo(newInfo.build());
} else {
throw new IllegalStateException("Unexpected parent node " + parent);
}
constructor.putBooleanProp(Node.IS_ES6_CLASS, true);
t.reportCodeChange();
}
/**
* @param ctorInfo the JSDocInfo from the constructor method of the ES6 class.
* @param newInfo the JSDocInfo that will be added to the constructor function in the ES3 output
*/
private void updateClassJsDoc(@Nullable JSDocInfo ctorInfo, JSDocInfoBuilder newInfo) {
// Classes are @struct by default.
if (!newInfo.isUnrestrictedRecorded() && !newInfo.isDictRecorded()
&& !newInfo.isStructRecorded()) {
newInfo.recordStruct();
}
if (ctorInfo != null) {
if (!ctorInfo.getSuppressions().isEmpty()) {
newInfo.recordSuppressions(ctorInfo.getSuppressions());
}
for (String param : ctorInfo.getParameterNames()) {
newInfo.recordParameter(param, ctorInfo.getParameterType(param));
newInfo.recordParameterDescription(param, ctorInfo.getDescriptionForParameter(param));
}
for (JSTypeExpression thrown : ctorInfo.getThrownTypes()) {
newInfo.recordThrowType(thrown);
newInfo.recordThrowDescription(thrown, ctorInfo.getThrowsDescriptionForType(thrown));
}
JSDocInfo.Visibility visibility = ctorInfo.getVisibility();
if (visibility != null && visibility != JSDocInfo.Visibility.INHERITED) {
newInfo.recordVisibility(visibility);
}
if (ctorInfo.isDeprecated()) {
newInfo.recordDeprecated();
}
if (ctorInfo.getDeprecationReason() != null
&& !newInfo.isDeprecationReasonRecorded()) {
newInfo.recordDeprecationReason(ctorInfo.getDeprecationReason());
}
newInfo.mergePropertyBitfieldFrom(ctorInfo);
for (String templateType : ctorInfo.getTemplateTypeNames()) {
newInfo.recordTemplateTypeName(templateType);
}
}
}
/**
* @param node A getter or setter node.
*/
private JSTypeExpression getTypeFromGetterOrSetter(Node node) {
JSDocInfo info = node.getJSDocInfo();
if (info != null) {
boolean getter = node.isGetterDef() || node.getBooleanProp(Node.COMPUTED_PROP_GETTER);
if (getter && info.getReturnType() != null) {
return info.getReturnType();
} else {
Set paramNames = info.getParameterNames();
if (paramNames.size() == 1) {
return info.getParameterType(Iterables.getOnlyElement(info.getParameterNames()));
}
}
}
return new JSTypeExpression(new Node(Token.QMARK), node.getSourceFileName());
}
/**
* @param member A getter or setter, or a computed property that is a getter/setter.
*/
private void addToDefinePropertiesObject(ClassDeclarationMetadata metadata, Node member) {
Node obj =
member.isStaticMember()
? metadata.definePropertiesObjForClass
: metadata.definePropertiesObjForPrototype;
Node prop =
member.isComputedProp()
? NodeUtil.getFirstComputedPropMatchingKey(obj, member.getFirstChild())
: NodeUtil.getFirstPropMatchingKey(obj, member.getString());
if (prop == null) {
prop =
IR.objectlit(
IR.stringKey("configurable", IR.trueNode()),
IR.stringKey("enumerable", IR.trueNode()));
if (member.isComputedProp()) {
obj.addChildToBack(IR.computedProp(member.getFirstChild().cloneTree(), prop));
} else {
obj.addChildToBack(IR.stringKey(member.getString(), prop));
}
}
Node function = member.getLastChild();
JSDocInfoBuilder info = JSDocInfoBuilder.maybeCopyFrom(
NodeUtil.getBestJSDocInfo(function));
info.recordThisType(new JSTypeExpression(new Node(
Token.BANG, IR.string(metadata.fullClassName)), member.getSourceFileName()));
Node stringKey =
IR.stringKey(
(member.isGetterDef() || member.getBooleanProp(Node.COMPUTED_PROP_GETTER))
? "get"
: "set",
function.detach());
stringKey.setJSDocInfo(info.build());
prop.addChildToBack(stringKey);
prop.useSourceInfoIfMissingFromForTree(member);
}
private void visitComputedPropInClass(Node member, ClassDeclarationMetadata metadata) {
if (member.isComputedProp() && member.isStaticMember()) {
cannotConvertYet(member, "Static computed property");
return;
}
if (member.isComputedProp() && !member.getFirstChild().isQualifiedName()) {
cannotConvert(member.getFirstChild(), "Computed property with non-qualified-name key");
return;
}
JSTypeExpression typeExpr = getTypeFromGetterOrSetter(member).copy();
addToDefinePropertiesObject(metadata, member);
Map membersToDeclare;
String memberName;
if (member.isComputedProp()) {
Preconditions.checkState(!member.isStaticMember());
membersToDeclare = metadata.prototypeComputedPropsToDeclare;
memberName = member.getFirstChild().getQualifiedName();
} else {
membersToDeclare = member.isStaticMember()
? metadata.classMembersToDeclare
: metadata.prototypeMembersToDeclare;
memberName = member.getString();
}
JSDocInfo existingJSDoc = membersToDeclare.get(memberName);
JSTypeExpression existingType = existingJSDoc == null ? null : existingJSDoc.getType();
if (existingType != null && !existingType.equals(typeExpr)) {
compiler.report(JSError.make(member, CONFLICTING_GETTER_SETTER_TYPE, memberName));
} else {
JSDocInfoBuilder jsDoc = new JSDocInfoBuilder(false);
jsDoc.recordType(typeExpr);
if (member.getJSDocInfo() != null && member.getJSDocInfo().isExport()) {
jsDoc.recordExport();
}
if (member.isStaticMember() && !member.isComputedProp()) {
jsDoc.recordNoCollapse();
}
membersToDeclare.put(memberName, jsDoc.build());
}
}
/**
* Handles transpilation of a standard class member function. Getters, setters, and the
* constructor are not handled here.
*/
private void visitClassMember(
Node member, ClassDeclarationMetadata metadata) {
Node qualifiedMemberAccess = getQualifiedMemberAccess(
member,
NodeUtil.newQName(compiler, metadata.fullClassName),
NodeUtil.newQName(compiler, metadata.fullClassName + ".prototype"));
Node method = member.getLastChild().detach();
Node assign = IR.assign(qualifiedMemberAccess, method);
assign.useSourceInfoIfMissingFromForTree(member);
JSDocInfo info = member.getJSDocInfo();
if (member.isStaticMember() && NodeUtil.referencesThis(assign.getLastChild())) {
JSDocInfoBuilder memberDoc = JSDocInfoBuilder.maybeCopyFrom(info);
memberDoc.recordThisType(
new JSTypeExpression(new Node(Token.BANG, new Node(Token.QMARK)),
member.getSourceFileName()));
info = memberDoc.build();
}
if (info != null) {
assign.setJSDocInfo(info);
}
Node newNode = NodeUtil.newExpr(assign);
metadata.insertNodeAndAdvance(newNode);
}
/**
* Add declarations for properties that were defined with a getter and/or setter,
* so that the typechecker knows those properties exist on the class.
* This is a temporary solution. Eventually, the type checker should understand
* Object.defineProperties calls directly.
*/
private void addTypeDeclarations(ClassDeclarationMetadata metadata, Node insertionPoint) {
for (Map.Entry entry : metadata.prototypeMembersToDeclare.entrySet()) {
String declaredMember = entry.getKey();
Node declaration = IR.getprop(
NodeUtil.newQName(compiler, metadata.fullClassName + ".prototype"),
IR.string(declaredMember));
declaration.setJSDocInfo(entry.getValue());
declaration =
IR.exprResult(declaration).useSourceInfoIfMissingFromForTree(metadata.classNameNode);
insertionPoint.getParent().addChildAfter(declaration, insertionPoint);
insertionPoint = declaration;
}
for (Map.Entry entry : metadata.classMembersToDeclare.entrySet()) {
String declaredMember = entry.getKey();
Node declaration = IR.getprop(
NodeUtil.newQName(compiler, metadata.fullClassName),
IR.string(declaredMember));
declaration.setJSDocInfo(entry.getValue());
declaration =
IR.exprResult(declaration).useSourceInfoIfMissingFromForTree(metadata.classNameNode);
insertionPoint.getParent().addChildAfter(declaration, insertionPoint);
insertionPoint = declaration;
}
for (Map.Entry entry : metadata.prototypeComputedPropsToDeclare.entrySet()) {
String declaredMember = entry.getKey();
Node declaration = IR.getelem(
NodeUtil.newQName(compiler, metadata.fullClassName + ".prototype"),
NodeUtil.newQName(compiler, declaredMember));
declaration.setJSDocInfo(entry.getValue());
declaration =
IR.exprResult(declaration).useSourceInfoIfMissingFromForTree(metadata.classNameNode);
insertionPoint.getParent().addChildAfter(declaration, insertionPoint);
insertionPoint = declaration;
}
}
/**
* Constructs a Node that represents an access to the given class member, qualified by either the
* static or the instance access context, depending on whether the member is static.
*
* WARNING: {@code member} may be modified/destroyed by this method, do not use it
* afterwards.
*/
private static Node getQualifiedMemberAccess(Node member,
Node staticAccess, Node instanceAccess) {
Node context = member.isStaticMember() ? staticAccess : instanceAccess;
context = context.cloneTree();
if (member.isComputedProp()) {
return IR.getelem(context, member.removeFirstChild());
} else {
Node methodName = member.getFirstFirstChild();
return IR.getprop(context, IR.string(member.getString()).useSourceInfoFrom(methodName));
}
}
private class CheckClassAssignments extends NodeTraversal.AbstractPostOrderCallback {
private Node className;
public CheckClassAssignments(Node className) {
this.className = className;
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (!n.isAssign() || n.getFirstChild() == className) {
return;
}
if (className.matchesQualifiedName(n.getFirstChild())) {
compiler.report(JSError.make(n, CLASS_REASSIGNMENT));
}
}
}
private void cannotConvert(Node n, String message) {
compiler.report(JSError.make(n, CANNOT_CONVERT, message));
}
/**
* Warns the user that the given ES6 feature cannot be converted to ES3
* because the transpilation is not yet implemented. A call to this method
* is essentially a "TODO(tbreisacher): Implement {@code feature}" comment.
*/
private void cannotConvertYet(Node n, String feature) {
compiler.report(JSError.make(n, CANNOT_CONVERT_YET, feature));
}
/**
* Returns a call to {@code $jscomp.makeIterator} with {@code iterable} as its argument.
*/
static Node makeIterator(AbstractCompiler compiler, Node iterable) {
return callEs6RuntimeFunction(compiler, iterable, "makeIterator");
}
/**
* Returns a call to $jscomp.arrayFromIterable with {@code iterable} as its argument.
*/
private static Node arrayFromIterable(AbstractCompiler compiler, Node iterable) {
return callEs6RuntimeFunction(compiler, iterable, "arrayFromIterable");
}
private static Node callEs6RuntimeFunction(
AbstractCompiler compiler, Node iterable, String function) {
compiler.ensureLibraryInjected("es6/util/" + function.toLowerCase(Locale.US), false);
return IR.call(
NodeUtil.newQName(compiler, "$jscomp." + function),
iterable);
}
/**
* Represents static metadata on a class declaration expression - i.e. the qualified name that a
* class declares (directly or by assignment), whether it's anonymous, and where transpiled code
* should be inserted (i.e. which object will hold the prototype after transpilation).
*/
static class ClassDeclarationMetadata {
/** A statement node. Transpiled methods etc of the class are inserted after this node. */
private Node insertionPoint;
/**
* An object literal node that will be used in a call to Object.defineProperties, to add getters
* and setters to the prototype.
*/
private final Node definePropertiesObjForPrototype;
/**
* An object literal node that will be used in a call to Object.defineProperties, to add getters
* and setters to the class.
*/
private final Node definePropertiesObjForClass;
// Normal declarations to be added to the prototype: Foo.prototype.bar
private final Map prototypeMembersToDeclare;
// Computed property declarations to be added to the prototype: Foo.prototype[bar]
private final Map prototypeComputedPropsToDeclare;
// Normal declarations to be added to the class: Foo.bar
private final Map classMembersToDeclare;
/**
* The fully qualified name of the class, which will be used in the output. May come from the
* class itself or the LHS of an assignment.
*/
final String fullClassName;
/** Whether the constructor function in the output should be anonymous. */
final boolean anonymous;
final Node classNameNode;
final Node superClassNameNode;
private ClassDeclarationMetadata(Node insertionPoint, String fullClassName,
boolean anonymous, Node classNameNode, Node superClassNameNode) {
this.insertionPoint = insertionPoint;
this.definePropertiesObjForClass = IR.objectlit();
this.definePropertiesObjForPrototype = IR.objectlit();
this.prototypeMembersToDeclare = new LinkedHashMap<>();
this.prototypeComputedPropsToDeclare = new LinkedHashMap<>();
this.classMembersToDeclare = new LinkedHashMap<>();
this.fullClassName = fullClassName;
this.anonymous = anonymous;
this.classNameNode = classNameNode;
this.superClassNameNode = superClassNameNode;
}
static ClassDeclarationMetadata create(Node classNode, Node parent) {
Node classNameNode = classNode.getFirstChild();
Node superClassNameNode = classNameNode.getNext();
// If this is a class statement, or a class expression in a simple
// assignment or var statement, convert it. In any other case, the
// code is too dynamic, so return null.
if (NodeUtil.isClassDeclaration(classNode)) {
return new ClassDeclarationMetadata(classNode, classNameNode.getString(), false,
classNameNode, superClassNameNode);
} else if (parent.isAssign() && parent.getParent().isExprResult()) {
// Add members after the EXPR_RESULT node:
// example.C = class {}; example.C.prototype.foo = function() {};
String fullClassName = parent.getFirstChild().getQualifiedName();
if (fullClassName == null) {
return null;
}
return new ClassDeclarationMetadata(parent.getParent(), fullClassName, true, classNameNode,
superClassNameNode);
} else if (parent.isName()) {
// Add members after the 'var' statement.
// var C = class {}; C.prototype.foo = function() {};
return new ClassDeclarationMetadata(parent.getParent(), parent.getString(), true,
classNameNode, superClassNameNode);
} else {
// Cannot handle this class declaration.
return null;
}
}
void insertNodeAndAdvance(Node newNode) {
insertionPoint.getParent().addChildAfter(newNode, insertionPoint);
insertionPoint = newNode;
}
boolean hasSuperClass() {
return !superClassNameNode.isEmpty();
}
}
}