com.google.javascript.jscomp.Es6ConvertSuperConstructorCalls Maven / Gradle / Ivy
/*
* 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 static com.google.common.base.Preconditions.checkArgument;
import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.base.Preconditions.checkState;
import com.google.common.collect.Iterables;
import com.google.javascript.jscomp.GlobalNamespace.Name;
import com.google.javascript.jscomp.GlobalNamespace.Ref;
import com.google.javascript.rhino.IR;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.jstype.JSType;
import java.util.ArrayDeque;
import java.util.ArrayList;
import java.util.Deque;
import java.util.List;
/** Converts {@code super()} calls. */
public final class Es6ConvertSuperConstructorCalls implements NodeTraversal.Callback {
private static final String TMP_ERROR = "$jscomp$tmp$error";
private static final String SUPER_THIS = "$jscomp$super$this";
/** Stores superCalls for a constructor. */
private static final class ConstructorData {
final Node constructor;
final List superCalls;
ConstructorData(Node constructor) {
this.constructor = constructor;
superCalls = new ArrayList<>();
}
}
private final AbstractCompiler compiler;
private final Deque constructorDataStack;
private final AstFactory astFactory;
private GlobalNamespace globalNamespace;
public Es6ConvertSuperConstructorCalls(AbstractCompiler compiler) {
this.compiler = compiler;
this.astFactory = compiler.createAstFactory();
this.constructorDataStack = new ArrayDeque<>();
}
@Override
public boolean shouldTraverse(NodeTraversal t, Node n, Node parent) {
if (n.isFunction()) {
// TODO(bradfordcsmith): Avoid creating data for non-constructor functions.
constructorDataStack.push(new ConstructorData(n));
} else if (n.isSuper()) {
// super(args) or super.prop
checkState(n.isFirstChildOf(parent), parent);
if (parent.isGetProp()) {
// TODO(bradfordcsmith): `super.prop` should have been removed before this code executes,
// but instead is being left untranspiled when there's no `extends` clause, so
// we have to report that problem here.
t.report(n, Es6ToEs3Util.CANNOT_CONVERT_YET, "super access with no extends clause");
return false;
}
// must be super(args)
checkState(parent.isCall(), parent);
ConstructorData constructorData = checkNotNull(constructorDataStack.peek());
constructorData.superCalls.add(parent);
}
return true;
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
ConstructorData constructorData = constructorDataStack.peek();
if (constructorData != null && n == constructorData.constructor) {
constructorDataStack.pop();
visitSuper(t, constructorData);
}
}
private void visitSuper(NodeTraversal t, ConstructorData constructorData) {
// NOTE: When this pass runs:
// - ES6 classes have already been rewritten as ES5 functions.
// - All subclasses have $jscomp.inherits() calls connecting them to their parent class.
// - All instances of `super` that are not super constructor calls have been rewritten.
Node constructor = constructorData.constructor;
List superCalls = constructorData.superCalls;
if (superCalls.isEmpty()) {
return; // nothing to do
}
if (constructor.isFromExterns()) {
// This class is defined in an externs file, so it's only a stub, not the actual
// implementation that should be instantiated.
// A call to super() shouldn't actually exist for a stub and is problematic to transpile,
// so just drop it.
for (Node superCall : superCalls) {
Node enclosingStatement = NodeUtil.getEnclosingStatement(superCall);
Node enclosingScope = enclosingStatement.getParent();
enclosingStatement.detach();
compiler.reportChangeToEnclosingScope(enclosingScope);
}
} else {
// Find the `foo.SuperClass` part of `$jscomp.inherits(foo.SubClass, foo.SuperClass)`
Node superClassNameNode = getSuperClassQNameNode(constructor);
String superClassQName = superClassNameNode.getQualifiedName();
JSType thisType = getTypeOfThisForConstructor(constructorData.constructor);
if (isNativeObjectClass(t, superClassQName)) {
// There's no need to call Object as a super constructor, so just replace the call with
// `this`, which is its correct return value.
// TODO(bradfordcsmith): Although unlikely, super() could have argument expressions with
// side-effects.
for (Node superCall : superCalls) {
Node thisNode = astFactory.createThis(thisType).useSourceInfoFrom(superCall);
superCall.replaceWith(thisNode);
compiler.reportChangeToEnclosingScope(thisNode);
}
} else if (isKnownNativeClass(t, superClassQName)) {
// Although we're transpiling down to ES5, it's quite possible that the code will end up
// running in an environment where native classes are ES6 classes.
// To correctly extend them with the ES5 classes we're generating here, we must use
// `$jscomp.construct`, which is our wrapper around `Reflect.construct`.
convertSuperCallsToJsCompConstructCalls(
t, constructor, superCalls, superClassNameNode, thisType);
} else if (isNativeErrorClass(t, superClassQName)) {
// TODO(bradfordcsmith): It might be better to use $jscomp.construct() for these instead
// of our custom-made, Error-specific workaround.
for (Node superCall : superCalls) {
Node newSuperCall = createNewSuperCall(superClassNameNode, superCall, thisType);
replaceNativeErrorSuperCall(superCall, newSuperCall);
}
} else if (isKnownToReturnOnlyUndefined(superClassQName)) {
// super() will not change the value of `this`.
for (Node superCall : superCalls) {
Node newSuperCall = createNewSuperCall(superClassNameNode, superCall, thisType);
Node superCallParent = superCall.getParent();
if (superCallParent.hasOneChild() && NodeUtil.isStatement(superCallParent)) {
// super() is a statement unto itself
superCallParent.replaceChild(superCall, newSuperCall);
} else {
// super() is part of an expression, so it must return `this`.
superCallParent.replaceChild(
superCall,
astFactory
.createComma(newSuperCall, astFactory.createThis(thisType))
.useSourceInfoIfMissingFromForTree(superCall));
}
compiler.reportChangeToEnclosingScope(superCallParent);
}
} else {
// Either the superclass constructor returns a value, or we cannot find its definition in
// the sources, so we don't know if it does.
//
// 1. We must use the value it returns, if defined, as the 'this' value in the constructor
// we're currently transpiling, and we must also return it from this constructor.
// 2. It may be an ES6 class defined outside of the sources we can see.
//
// The code below works as long as the class we're extending is an ES5 class, but will
// break if we're extending an ES6 class (#2), because it calls the superclass constructor
// without using `new` or `Reflect.construct()`
// TODO(b/36789413): We should use $jscomp.construct() here to avoid breakage when extending
// an ES6 class.
Node constructorBody = checkNotNull(constructor.getChildAtIndex(2));
Node firstStatement = constructorBody.getFirstChild();
Node firstSuperCall = superCalls.get(0);
if (constructorBody.hasOneChild()
&& firstStatement.isExprResult()
&& firstStatement.hasOneChild()
&& firstStatement.getFirstChild() == firstSuperCall) {
checkState(superCalls.size() == 1, constructor);
// Super call is the entire constructor, so just replace it with.
// `return || this;`
Node newReturn =
astFactory.createOr(
createNewSuperCall(
superClassNameNode, superCalls.get(0), superCalls.get(0).getJSType()),
astFactory.createThis(thisType));
constructorBody.replaceChild(
firstStatement,
IR.returnNode(newReturn).useSourceInfoIfMissingFromForTree(firstStatement));
} else {
final JSType typeOfThis = getTypeOfThisForConstructor(constructor);
// `this` -> `$jscomp$super$this` throughout the constructor body,
// except for super() calls.
updateThisToSuperThis(typeOfThis, constructorBody, superCalls);
// Start constructor with `var $jscomp$super$this;`
constructorBody.addChildToFront(
IR.var(astFactory.createName(SUPER_THIS, typeOfThis))
.useSourceInfoFromForTree(constructorBody));
// End constructor with `return $jscomp$super$this;`
constructorBody.addChildToBack(
IR.returnNode(astFactory.createName(SUPER_THIS, typeOfThis))
.useSourceInfoFromForTree(constructorBody));
// Replace each super() call with `($jscomp$super$this = || this)`
for (Node superCall : superCalls) {
Node newSuperCall = createNewSuperCall(superClassNameNode, superCall, typeOfThis);
superCall.replaceWith(
astFactory
.createAssign(
astFactory.createName(SUPER_THIS, typeOfThis),
astFactory.createOr(newSuperCall, astFactory.createThis(typeOfThis)))
.useSourceInfoIfMissingFromForTree(superCall));
}
}
compiler.reportChangeToEnclosingScope(constructorBody);
}
}
}
/**
* Change calls to `super` to use `$jscomp.construct` instead.
*
*
* // note that conversion of the ES6 class to ES5 happens before this pass.
* // we're just cleaning up the super() calls now
* var Foo = function(arg1, arg2) {
* super(arg1);
* this.prop = arg2;
* }
* // becomes
* var Foo = function(arg1, arg2) {
* // tmp var and return are necessary, because $jscomp.construct() always creates a new
* // object to be used as `this`
* var $jscomp$super$this;
* $jscomp$super$this = $jscomp.construct(SuperClassName, [arg1], this.constructor);
* $jscomp$super$this.prop = arg2
* return $jscomp$super$this;
* }
*
*/
private void convertSuperCallsToJsCompConstructCalls(
NodeTraversal t,
Node constructor,
List superCalls,
Node superClassNameNode,
JSType thisType) {
Node constructorBody = checkNotNull(constructor.getChildAtIndex(2));
Node firstStatement = constructorBody.getFirstChild();
// A constructor body with no call to `super()` is a syntax error for a class that has an
// extends clause. An error should have been reported and we should never reach this point
// for an empty constructor body.
checkNotNull(firstStatement, "Empty constructor body");
Node firstSuperCall = superCalls.get(0);
if (constructorBody.hasOneChild()
&& firstStatement.isExprResult()
&& firstStatement.hasOneChild()
&& firstStatement.getFirstChild() == firstSuperCall) {
checkState(superCalls.size() == 1, constructor);
// Super call is the entire constructor, so just replace it with.
// `return $jscomp.construct(SuperClassName, [args], this.constructor);`
firstStatement.replaceWith(
astFactory.createReturn(
createJSCompConstructorCall(
t.getScope(), superClassNameNode, firstSuperCall, thisType)));
} else {
final JSType typeOfThis = getTypeOfThisForConstructor(constructor);
// `this` -> `$jscomp$super$this` throughout the constructor body,
// except for super() calls.
updateThisToSuperThis(typeOfThis, constructorBody, superCalls);
// Start constructor with `var $jscomp$super$this;`
constructorBody.addChildToFront(
astFactory.createSingleVarNameDeclaration(SUPER_THIS).srcrefTree(constructorBody));
// End constructor with `return $jscomp$super$this;`
constructorBody.addChildToBack(
astFactory
.createReturn(astFactory.createName(SUPER_THIS, typeOfThis))
.srcrefTree(constructorBody));
// Replace each super() call with `($jscomp$super$this = $jscomp.construct(...))`
for (Node superCall : superCalls) {
superCall.replaceWith(
astFactory
.createAssign(
astFactory.createName(SUPER_THIS, typeOfThis).srcref(superCall),
createJSCompConstructorCall(
t.getScope(), superClassNameNode, superCall, thisType))
.srcref(superCall));
}
}
compiler.reportChangeToEnclosingScope(constructorBody);
}
private boolean isKnownToReturnOnlyUndefined(String functionQName) {
if (globalNamespace == null) {
return false;
}
Name globalName = globalNamespace.getSlot(functionQName);
if (globalName == null) {
return false;
}
Ref declarationRef = globalName.getDeclaration();
if (declarationRef == null) {
for (Ref ref : globalName.getRefs()) {
if (ref.isSet()) {
declarationRef = ref;
}
}
}
if (declarationRef == null) {
return false;
}
Node declaredVarOrProp = declarationRef.getNode();
if (declaredVarOrProp.isFromExterns()) {
return false;
}
Node declaration = declaredVarOrProp.getParent();
Node declaredValue = null;
if (declaration.isFunction()) {
declaredValue = declaration;
} else if (NodeUtil.isNameDeclaration(declaration) && declaredVarOrProp.isName()) {
if (declaredVarOrProp.hasChildren()) {
declaredValue = checkNotNull(declaredVarOrProp.getFirstChild());
} else {
return false; // Declaration without an assigned value.
}
} else if (declaration.isAssign() && declaration.getFirstChild() == declaredVarOrProp) {
declaredValue = checkNotNull(declaration.getSecondChild());
} else if (declaration.isObjectLit() && declaredVarOrProp.hasOneChild()){
declaredValue = checkNotNull(declaredVarOrProp.getFirstChild());
} else {
throw new IllegalStateException(
"Unexpected declaration format:\n" + declaration.toStringTree());
}
if (declaredValue.isFunction()) {
Node functionBody = checkNotNull(declaredValue.getChildAtIndex(2));
return !(new UndefinedReturnValueCheck().mayReturnDefinedValue(functionBody));
} else if (declaredValue.isQualifiedName()) {
return isKnownToReturnOnlyUndefined(declaredValue.getQualifiedName());
} else {
// TODO(bradfordcsmith): What cases are these? Can we do better?
return false;
}
}
private class UndefinedReturnValueCheck {
private boolean foundNonEmptyReturn;
boolean mayReturnDefinedValue(Node functionBody) {
foundNonEmptyReturn = false;
NodeTraversal.Callback checkForDefinedReturnValue =
new NodeTraversal.AbstractShallowCallback() {
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (!foundNonEmptyReturn) {
if (n.isReturn()
&& n.hasChildren()
&& !n.getFirstChild().matchesName("undefined")) {
foundNonEmptyReturn = true;
}
}
}
};
NodeTraversal.traverse(compiler, functionBody, checkForDefinedReturnValue);
return foundNonEmptyReturn;
}
}
/**
* Returns a transpiled version of the super constructor call.
*
* The children of the passed in `superCall` are all removed from it by this method, but the
* existing call itself is not replaced in the AST yet. The returned node is not yet attached to
* the AST.
*/
private Node createNewSuperCall(Node superClassQNameNode, Node superCall, JSType thisType) {
checkArgument(superClassQNameNode.isQualifiedName(), superClassQNameNode);
checkArgument(superCall.isCall(), superCall);
Node callee = superCall.removeFirstChild();
checkState(callee.isSuper(), callee);
List args = new ArrayList<>();
boolean hasSpreadArg = false;
while (superCall.hasChildren()) {
final Node arg = superCall.removeFirstChild();
hasSpreadArg = hasSpreadArg || arg.isSpread();
args.add(arg);
}
// Node to which args should be appended
if (hasSpreadArg) {
// We want to convert
//
// super(x, ...params, y)
// to
// Foo.apply(this, [x, ...params, y])
//
// because, after transpilation of spread this becomes
//
// Foo.apply(this, [x, $jscomp.arrayFromIterable(params), y])
//
// If we used `call`, we'd get this nonsense instead
//
// Foo.call.apply(Foo, [this, x, $jscomp.arrayFromIterable(params), y])
Node superClassDotApply =
astFactory
.createGetProp(superClassQNameNode.cloneTree(), "apply")
.useSourceInfoFromForTree(callee);
// Create `SuperClass.call(this)`
Node newSuperCall = astFactory.createCall(superClassDotApply).useSourceInfoFrom(superCall);
newSuperCall.addChildToBack(astFactory.createThis(thisType).useSourceInfoFrom(callee));
newSuperCall.putBooleanProp(Node.FREE_CALL, false); // callee is now a getprop
// It's very common to just have `super(...arguments)`, because we generate constructors
// containing that for extending classes that don't have an explicit constructor.
// For that case it's more efficient to just convert `super(...arguments)` to
// `SuperClass.apply(this, arguments)` here rather than relying on later optimizations to
// convert `[...arguments]` to `arguments`.
if (isSingleSpreadOfArguments(args)) {
newSuperCall.addChildToBack(Iterables.getOnlyElement(args).getOnlyChild().detach());
} else {
newSuperCall.addChildToBack(astFactory.createArraylit(args).useSourceInfoFrom(superCall));
}
return newSuperCall;
} else {
// We want to convert
//
// super(arg1, arg2)
// to
// Foo.call(this, arg1, arg2)
//
// Using `call` is shorter than using `apply`.
Node superClassDotCall =
astFactory
.createGetProp(superClassQNameNode.cloneTree(), "call")
.useSourceInfoFromForTree(callee);
Node newSuperCall = astFactory.createCall(superClassDotCall).useSourceInfoFrom(superCall);
newSuperCall.addChildToBack(astFactory.createThis(thisType).useSourceInfoFrom(callee));
newSuperCall.putBooleanProp(Node.FREE_CALL, false); // callee is now a getprop
for (Node arg : args) {
newSuperCall.addChildToBack(arg);
}
return newSuperCall;
}
}
/**
* Returns a transpiled version of the super constructor call using `$jscomp.constructor`.
*
* The children of the passed in `superCall` are all removed from it by this method, but the
* existing call itself is not replaced in the AST yet. The returned node is not yet attached to
* the AST.
*/
private Node createJSCompConstructorCall(
Scope scope, Node superClassQNameNode, Node superCall, JSType thisType) {
checkArgument(superClassQNameNode.isQualifiedName(), superClassQNameNode);
checkArgument(superCall.isCall(), superCall);
final Node callee = checkNotNull(superCall.removeFirstChild(), superCall);
checkState(callee.isSuper(), callee);
// `$jscomp.construct`
final Node jscompDotConstruct =
astFactory.createQName(scope, "$jscomp", "construct").srcrefTree(callee);
final Node superClassQName = superClassQNameNode.cloneTree();
// extract the arguments from the super() call and create the arguments list to pass to
// $jscomp.construct()
final List superCallArgList = new ArrayList<>();
while (superCall.hasChildren()) {
superCallArgList.add(superCall.removeFirstChild());
}
// It's very common to just have `super(...arguments)`, because we generate constructors
// containing that for extending classes that don't have an explicit constructor.
// For that case it's more efficient to just convert `super(...arguments)` to
// `$jscomp.construct(SuperClass, arguments, this.constructor)` here rather than relying on
// later optimizations to
// convert `[...arguments]` to `arguments`.
final Node superArgs =
isSingleSpreadOfArguments(superCallArgList)
// pull out `arguments` from `...arguments`
? Iterables.getOnlyElement(superCallArgList).getOnlyChild().detach()
: astFactory.createArraylit(superCallArgList).srcref(superCall);
// `this.constructor`
final Node thisDotConstructor =
astFactory
.createGetProp(astFactory.createThis(thisType), "constructor")
.srcrefTree(superCall);
// `super(arg1, arg2)`
// becomes
// `$jscomp.construct(SuperClassName, [arg1, arg2], this.constructor)`
return astFactory
.createCall(jscompDotConstruct, superClassQName, superArgs, thisDotConstructor)
.srcref(superCall);
}
private static boolean isSingleSpreadOfArguments(List nodeList) {
return nodeList.size() == 1 && isSpreadOfArguments(Iterables.getOnlyElement(nodeList));
}
private static boolean isSpreadOfArguments(Node node) {
return node.isSpread() && node.getOnlyChild().matchesName("arguments");
}
private void replaceNativeErrorSuperCall(Node superCall, Node newSuperCall) {
// The native error class constructors always return a new object instead of initializing
// `this`, so a workaround is needed.
Node superStatement = NodeUtil.getEnclosingStatement(superCall);
Node body = superStatement.getParent();
checkState(body.isBlock(), body);
JSType thisType = newSuperCall.getJSType();
// var $jscomp$tmp$error;
Node getError =
IR.var(astFactory.createName(TMP_ERROR, thisType))
.useSourceInfoIfMissingFromForTree(superCall);
body.addChildBefore(getError, superStatement);
// Create an expression to initialize `this` from temporary Error object at the point
// where super.apply() was called.
// $jscomp$tmp$error = Error.call(this, ...),
Node getTmpError =
astFactory.createAssign(astFactory.createName(TMP_ERROR, thisType), newSuperCall);
// this.message = $jscomp$tmp$error.message,
Node copyMessage =
astFactory.createAssign(
astFactory.createGetProp(astFactory.createThis(thisType), "message"),
astFactory.createGetProp(astFactory.createName(TMP_ERROR, thisType), "message"));
// Old versions of IE Don't set stack until the object is thrown, and won't set it then
// if it already exists on the object.
// ('stack' in $jscomp$tmp$error) && (this.stack = $jscomp$tmp$error.stack)
Node setStack =
astFactory.createAnd(
astFactory.createIn(
astFactory.createString("stack"), astFactory.createName(TMP_ERROR, thisType)),
astFactory.createAssign(
astFactory.createGetProp(astFactory.createThis(thisType), "stack"),
astFactory.createGetProp(astFactory.createName(TMP_ERROR, thisType), "stack")));
Node superErrorExpr =
astFactory
.createCommas(getTmpError, copyMessage, setStack, astFactory.createThis(thisType))
.useSourceInfoIfMissingFromForTree(superCall);
superCall.replaceWith(superErrorExpr);
compiler.reportChangeToEnclosingScope(superErrorExpr);
}
private boolean isNativeObjectClass(NodeTraversal t, String className) {
return className.equals("Object") && !isDefinedInSources(t, className);
}
private boolean isNativeErrorClass(NodeTraversal t, String superClassName) {
switch (superClassName) {
// All Error classes listed in the ECMAScript spec as of 2016
case "Error":
case "EvalError":
case "RangeError":
case "ReferenceError":
case "SyntaxError":
case "TypeError":
case "URIError":
return !isDefinedInSources(t, superClassName);
default:
return false;
}
}
/**
* Is `className` the name of a known native JS class for which we haven't seen a definition in
* the source code we're compiling. (Note that our own polyfill definitions don't count as a
* definition being present in the source code.)
*/
private boolean isKnownNativeClass(NodeTraversal t, String className) {
// This list originally taken from the list of built-in objects at
// https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference
// as of 2016-10-22.
// - Intl.* classes were left out, because it doesn't seem worth the extra effort
// of handling the qualified name.
// - Deprecated and experimental classes were left out.
switch (className) {
case "Array":
case "ArrayBuffer":
case "Boolean":
case "DataView":
case "Date":
case "Float32Array":
case "Function":
case "Generator":
case "GeneratorFunction":
case "Int16Array":
case "Int32Array":
case "Int8Array":
case "InternalError":
case "Map":
case "Number":
case "Object":
case "Promise":
case "Proxy":
case "RegExp":
case "Set":
case "String":
case "Symbol":
case "TypedArray":
case "Uint16Array":
case "Uint32Array":
case "Uint8Array":
case "Uint8ClampedArray":
case "WeakMap":
case "WeakSet":
return !isDefinedInSources(t, className);
default:
return false;
}
}
/**
* Is a variable with the given name defined in the source code being compiled?
*
* Please note that the call to {@code t.getScope()} is expensive, so we should avoid
* calling this method when possible.
* @param t
* @param varName
*/
private boolean isDefinedInSources(NodeTraversal t, String varName) {
Var objectVar = t.getScope().getVar(varName);
return objectVar != null && !objectVar.isExtern();
}
private void updateThisToSuperThis(
final JSType typeOfThis, Node constructorBody, final List superCalls) {
NodeTraversal.Callback replaceThisWithSuperThis =
new NodeTraversal.Callback() {
@Override
public boolean shouldTraverse(NodeTraversal nodeTraversal, Node n, Node parent) {
if (superCalls.contains(n)) {
return false; // Leave `this` intact on super calls.
} else if (n.isFunction() && !n.isArrowFunction()) {
// Don't replace `this` in non-arrow function definitions.
return false;
} else {
return true;
}
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (n.isThis()) {
Node superThis =
astFactory.createName(SUPER_THIS, n.getJSType()).useSourceInfoFrom(n);
parent.replaceChild(n, superThis);
} else if (n.isReturn() && !n.hasChildren()) {
// An empty return needs to be changed to return $jscomp$super$this
n.addChildToFront(astFactory.createName(SUPER_THIS, typeOfThis).useSourceInfoFrom(n));
}
}
};
NodeTraversal.traverse(compiler, constructorBody, replaceThisWithSuperThis);
}
private JSType getTypeOfThisForConstructor(Node constructor) {
checkArgument(constructor.isFunction(), constructor);
// If typechecking has run, all function nodes should have a JSType. Nodes that were in a CAST
// will also have the TYPE_BEFORE_CAST property, which is null for other nodes.
final JSType constructorTypeBeforeCast = constructor.getJSTypeBeforeCast();
final JSType constructorType =
constructorTypeBeforeCast != null ? constructorTypeBeforeCast : constructor.getJSType();
if (constructorType == null) {
return null; // Type checking passes must not have run.
}
checkState(constructorType.isFunctionType());
return constructorType.toMaybeFunctionType().getTypeOfThis();
}
private Node getSuperClassQNameNode(Node constructor) {
String className = NodeUtil.getNameNode(constructor).getQualifiedName();
Node constructorStatement = checkNotNull(NodeUtil.getEnclosingStatement(constructor));
Node superClassNameNode = null;
for (Node statement = constructorStatement.getNext();
statement != null;
statement = statement.getNext()) {
superClassNameNode = getSuperClassNameNodeIfIsInheritsStatement(statement, className);
if (superClassNameNode != null) {
break;
}
}
return checkNotNull(superClassNameNode, "$jscomp.inherits() call not found.");
}
private Node getSuperClassNameNodeIfIsInheritsStatement(Node statement, String className) {
// $jscomp.inherits(ChildClass, SuperClass);
if (!statement.isExprResult()) {
return null;
}
Node callNode = statement.getFirstChild();
if (!callNode.isCall()) {
return null;
}
Node jscompDotInherits = callNode.getFirstChild();
if (!jscompDotInherits.matchesQualifiedName("$jscomp.inherits")) {
return null;
}
Node classNameNode = checkNotNull(jscompDotInherits.getNext());
if (classNameNode.matchesQualifiedName(className)) {
return checkNotNull(classNameNode.getNext());
} else {
return null;
}
}
void setGlobalNamespace(GlobalNamespace globalNamespace) {
this.globalNamespace = globalNamespace;
}
}