/** Add an @this annotation to all functions in the objLit. */
private void addTypesToFunctions(Node objLit, String thisType) {
Preconditions.checkState(objLit.isObjectLit());
for (Node keyNode : objLit.children()) {
Node value = keyNode.getLastChild();
if (value != null && value.isFunction()) {
JSDocInfoBuilder fnDoc = JSDocInfoBuilder.maybeCopyFrom(keyNode.getJSDocInfo());
fnDoc.recordThisType(
new JSTypeExpression(new Node(Token.BANG, IR.string(thisType)), VIRTUAL_FILE));
keyNode.setJSDocInfo(fnDoc.build());
}
}
// Add @this and @return to default property values.
for (MemberDefinition property : extractProperties(objLit)) {
if (!property.value.isObjectLit()) {
continue;
}
if (hasShorthandAssignment(property.value)) {
compiler.report(JSError.make(property.value, POLYMER_SHORTHAND_NOT_SUPPORTED));
return;
}
Node defaultValue = NodeUtil.getFirstPropMatchingKey(property.value, "value");
if (defaultValue == null || !defaultValue.isFunction()) {
continue;
}
Node defaultValueKey = defaultValue.getParent();
JSDocInfoBuilder fnDoc = JSDocInfoBuilder.maybeCopyFrom(defaultValueKey.getJSDocInfo());
fnDoc.recordThisType(
new JSTypeExpression(new Node(Token.BANG, IR.string(thisType)), VIRTUAL_FILE));
fnDoc.recordReturnType(getTypeFromProperty(property));
defaultValueKey.setJSDocInfo(fnDoc.build());
}
}
/**
* Adds an interface for the given ClassDefinition to externs. This allows generated setter
* functions for read-only properties to avoid renaming altogether.
*
* @see https://www.polymer-project.org/0.8/docs/devguide/properties.html#read-only
*/
private void addInterfaceExterns(
final ClassDefinition cls, List<MemberDefinition> readOnlyProps) {
Node block = IR.block();
String interfaceName = getInterfaceName(cls);
Node fnNode = IR.function(IR.name(""), IR.paramList(), IR.block());
Node varNode = IR.var(NodeUtil.newQName(compiler, interfaceName), fnNode);
JSDocInfoBuilder info = new JSDocInfoBuilder(true);
info.recordInterface();
varNode.setJSDocInfo(info.build());
block.addChildToBack(varNode);
appendPropertiesToBlock(cls, block, interfaceName + ".prototype.");
for (MemberDefinition prop : readOnlyProps) {
// Add all _set* functions to avoid renaming.
String propName = prop.name.getString();
String setterName = "_set" + propName.substring(0, 1).toUpperCase() + propName.substring(1);
Node setterExprNode =
IR.exprResult(NodeUtil.newQName(compiler, interfaceName + ".prototype." + setterName));
JSDocInfoBuilder setterInfo = new JSDocInfoBuilder(true);
JSTypeExpression propType = getTypeFromProperty(prop);
setterInfo.recordParameter(propName, propType);
setterExprNode.getFirstChild().setJSDocInfo(setterInfo.build());
block.addChildToBack(setterExprNode);
}
Node parent = polymerElementExterns.getParent();
Node stmts = block.removeChildren();
parent.addChildrenToBack(stmts);
compiler.reportCodeChange();
}
/**
* Duplicates the PolymerElement externs with a different element base class if needed. For
* example, if the base class is HTMLInputElement, then a class PolymerInputElement will be added.
* If the element does not extend a native HTML element, this method is a no-op.
*/
private void appendPolymerElementExterns(final ClassDefinition cls) {
if (!nativeExternsAdded.add(cls.nativeBaseElement)) {
return;
}
Node block = IR.block();
Node baseExterns = polymerElementExterns.cloneTree();
String polymerElementType = getPolymerElementType(cls);
baseExterns.getFirstChild().setString(polymerElementType);
String elementType = tagNameMap.get(cls.nativeBaseElement);
JSTypeExpression elementBaseType =
new JSTypeExpression(new Node(Token.BANG, IR.string(elementType)), VIRTUAL_FILE);
JSDocInfoBuilder baseDocs = JSDocInfoBuilder.copyFrom(baseExterns.getJSDocInfo());
baseDocs.changeBaseType(elementBaseType);
baseExterns.setJSDocInfo(baseDocs.build());
block.addChildToBack(baseExterns);
for (Node baseProp : polymerElementProps) {
Node newProp = baseProp.cloneTree();
Node newPropRootName =
NodeUtil.getRootOfQualifiedName(newProp.getFirstChild().getFirstChild());
newPropRootName.setString(polymerElementType);
block.addChildToBack(newProp);
}
Node parent = polymerElementExterns.getParent();
Node stmts = block.removeChildren();
parent.addChildrenAfter(stmts, polymerElementExterns);
compiler.reportCodeChange();
}
private void addToDefinePropertiesObject(ClassDeclarationMetadata metadata, Node member) {
Node obj =
member.isStaticMember()
? metadata.definePropertiesObjForClass
: metadata.definePropertiesObjForPrototype;
Node prop = NodeUtil.getFirstPropMatchingKey(obj, member.getString());
if (prop == null) {
prop =
IR.objectlit(
IR.stringKey("configurable", IR.trueNode()),
IR.stringKey("enumerable", IR.trueNode()));
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() ? "get" : "set", function.detachFromParent());
stringKey.setJSDocInfo(info.build());
prop.addChildToBack(stringKey);
prop.useSourceInfoIfMissingFromForTree(member);
}
private void addExtern() {
Node name = IR.name(PROTECTOR_FN);
name.putBooleanProp(Node.IS_CONSTANT_NAME, true);
Node var = IR.var(name);
// Add "@noalias" so we can strip the method when AliasExternals is enabled.
JSDocInfoBuilder builder = new JSDocInfoBuilder(false);
builder.recordNoAlias();
var.setJSDocInfo(builder.build(var));
CompilerInput input = compiler.getSynthesizedExternsInput();
input.getAstRoot(compiler).addChildrenToBack(var);
compiler.reportCodeChange();
}
private void addBehaviorSuppressions(Node behaviorValue) {
for (Node keyNode : behaviorValue.children()) {
if (keyNode.getFirstChild().isFunction()) {
keyNode.removeProp(Node.JSDOC_INFO_PROP);
JSDocInfoBuilder suppressDoc = new JSDocInfoBuilder(true);
suppressDoc.addSuppression("checkTypes");
suppressDoc.addSuppression("globalThis");
keyNode.setJSDocInfo(suppressDoc.build());
}
}
suppressDefaultValues(behaviorValue);
}
private void varify() {
if (!blockScopedDeclarations.isEmpty()) {
for (Node n : blockScopedDeclarations) {
if (n.isConst()) {
JSDocInfoBuilder builder = JSDocInfoBuilder.maybeCopyFrom(n.getJSDocInfo());
builder.recordConstancy();
JSDocInfo info = builder.build();
n.setJSDocInfo(info);
}
n.setType(Token.VAR);
}
compiler.reportCodeChange();
}
}
private void suppressDefaultValues(Node behaviorValue) {
for (MemberDefinition property : extractProperties(behaviorValue)) {
if (!property.value.isObjectLit()) {
continue;
}
Node defaultValue = NodeUtil.getFirstPropMatchingKey(property.value, "value");
if (defaultValue == null || !defaultValue.isFunction()) {
continue;
}
Node defaultValueKey = defaultValue.getParent();
JSDocInfoBuilder suppressDoc =
JSDocInfoBuilder.maybeCopyFrom(defaultValueKey.getJSDocInfo());
suppressDoc.addSuppression("checkTypes");
suppressDoc.addSuppression("globalThis");
defaultValueKey.setJSDocInfo(suppressDoc.build());
}
}
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (isBehavior(n)) {
if (!n.isVar() && !n.isAssign()) {
compiler.report(JSError.make(n, POLYMER_UNQUALIFIED_BEHAVIOR));
return;
}
// Add @nocollapse.
JSDocInfoBuilder newDocs = JSDocInfoBuilder.maybeCopyFrom(n.getJSDocInfo());
newDocs.recordNoCollapse();
n.setJSDocInfo(newDocs.build());
Node behaviorValue = n.getChildAtIndex(1);
if (n.isVar()) {
behaviorValue = n.getFirstChild().getFirstChild();
}
suppressBehavior(behaviorValue);
}
}
/**
* Updates the first initialization (a.k.a "declaration") of a global name that occurs at an
* ASSIGN node. See comment for {@link #updateObjLitOrFunctionDeclaration}.
*
* @param n An object representing a global name (e.g. "a", "a.b.c")
* @param alias The flattened name for {@code n} (e.g. "a", "a$b$c")
*/
private void updateObjLitOrFunctionDeclarationAtAssignNode(
Name n, String alias, boolean canCollapseChildNames) {
// NOTE: It's important that we don't add additional nodes
// (e.g. a var node before the exprstmt) because the exprstmt might be
// the child of an if statement that's not inside a block).
Ref ref = n.getDeclaration();
Node rvalue = ref.node.getNext();
Node varNode = new Node(Token.VAR);
Node varParent = ref.node.getAncestor(3);
Node grandparent = ref.node.getAncestor(2);
boolean isObjLit = rvalue.isObjectLit();
boolean insertedVarNode = false;
if (isObjLit && n.canEliminate()) {
// Eliminate the object literal altogether.
varParent.replaceChild(grandparent, varNode);
ref.node = null;
insertedVarNode = true;
} else if (!n.isSimpleName()) {
// Create a VAR node to declare the name.
if (rvalue.isFunction()) {
checkForHosedThisReferences(rvalue, n.docInfo, n);
}
ref.node.getParent().removeChild(rvalue);
Node nameNode = NodeUtil.newName(compiler, alias, ref.node.getAncestor(2), n.getFullName());
JSDocInfo info = NodeUtil.getBestJSDocInfo(ref.node.getParent());
if (ref.node.getLastChild().getBooleanProp(Node.IS_CONSTANT_NAME)
|| (info != null && info.isConstant())) {
nameNode.putBooleanProp(Node.IS_CONSTANT_NAME, true);
}
if (info != null) {
varNode.setJSDocInfo(info);
}
varNode.addChildToBack(nameNode);
nameNode.addChildToFront(rvalue);
varParent.replaceChild(grandparent, varNode);
// Update the node ancestry stored in the reference.
ref.node = nameNode;
insertedVarNode = true;
}
if (canCollapseChildNames) {
if (isObjLit) {
declareVarsForObjLitValues(
n, alias, rvalue, varNode, varParent.getChildBefore(varNode), varParent);
}
addStubsForUndeclaredProperties(n, alias, varParent, varNode);
}
if (insertedVarNode) {
if (!varNode.hasChildren()) {
varParent.removeChild(varNode);
}
compiler.reportCodeChange();
}
}
private void rewritePolymerClass(Node exprRoot, final ClassDefinition cls, NodeTraversal t) {
// Add {@code @lends} to the object literal.
Node call = exprRoot.getFirstChild();
if (call.isAssign()) {
call = call.getChildAtIndex(1);
} else if (call.isName()) {
call = call.getFirstChild();
}
Node objLit = cls.descriptor;
if (hasShorthandAssignment(objLit)) {
compiler.report(JSError.make(objLit, POLYMER_SHORTHAND_NOT_SUPPORTED));
return;
}
JSDocInfoBuilder objLitDoc = new JSDocInfoBuilder(true);
objLitDoc.recordLends(cls.target.getQualifiedName() + ".prototype");
objLit.setJSDocInfo(objLitDoc.build());
this.addTypesToFunctions(objLit, cls.target.getQualifiedName());
this.switchDollarSignPropsToBrackets(objLit);
this.quoteListenerAndHostAttributeKeys(objLit);
// For simplicity add everything into a block, before adding it to the AST.
Node block = IR.block();
if (cls.nativeBaseElement != null) {
this.appendPolymerElementExterns(cls);
}
JSDocInfoBuilder constructorDoc = this.getConstructorDoc(cls);
// Remove the original constructor JS docs from the objlit.
Node ctorKey = cls.constructor.value.getParent();
if (ctorKey != null) {
ctorKey.removeProp(Node.JSDOC_INFO_PROP);
}
if (cls.target.isGetProp()) {
// foo.bar = Polymer({...});
Node assign = IR.assign(cls.target.cloneTree(), cls.constructor.value.cloneTree());
assign.setJSDocInfo(constructorDoc.build());
Node exprResult = IR.exprResult(assign);
block.addChildToBack(exprResult);
} else {
// var foo = Polymer({...}); OR Polymer({...});
Node var = IR.var(cls.target.cloneTree(), cls.constructor.value.cloneTree());
var.setJSDocInfo(constructorDoc.build());
block.addChildToBack(var);
}
appendPropertiesToBlock(cls, block, cls.target.getQualifiedName() + ".prototype.");
appendBehaviorMembersToBlock(cls, block);
List<MemberDefinition> readOnlyProps = parseReadOnlyProperties(cls, block);
addInterfaceExterns(cls, readOnlyProps);
removePropertyDocs(objLit);
block.useSourceInfoIfMissingFromForTree(exprRoot);
Node stmts = block.removeChildren();
Node parent = exprRoot.getParent();
// If the call to Polymer() is not in the global scope and the assignment target is not
// namespaced (which likely means it's exported to the global scope), put the type declaration
// into the global scope at the start of the current script.
//
// This avoids unknown type warnings which are a result of the compiler's poor understanding of
// types declared inside IIFEs or any non-global scope. We should revisit this decision after
// moving to the new type inference system which should be able to infer these types better.
if (!t.getScope().isGlobal() && !cls.target.isGetProp()) {
Node scriptNode = NodeUtil.getEnclosingScript(exprRoot);
scriptNode.addChildrenToFront(stmts);
} else {
Node beforeRoot = parent.getChildBefore(exprRoot);
if (beforeRoot == null) {
parent.addChildrenToFront(stmts);
} else {
parent.addChildrenAfter(stmts, beforeRoot);
}
}
if (exprRoot.isVar()) {
Node assignExpr = varToAssign(exprRoot);
parent.replaceChild(exprRoot, assignExpr);
}
compiler.reportCodeChange();
}
/**
* Classes are processed in 3 phases:
*
* <ol>
* <li>The class name is extracted.
* <li>Class members are processed and rewritten.
* <li>The constructor is built.
* </ol>
*/
private void visitClass(Node classNode, Node parent) {
checkClassReassignment(classNode);
// Collect Metadata
ClassDeclarationMetadata metadata = ClassDeclarationMetadata.create(classNode, parent);
if (metadata == null || metadata.fullClassName == null) {
cannotConvert(
parent,
"Can only convert classes that are declarations or the right hand"
+ " side of a simple assignment.");
return;
}
if (metadata.hasSuperClass() && !metadata.superClassNameNode.isQualifiedName()) {
compiler.report(JSError.make(metadata.superClassNameNode, DYNAMIC_EXTENDS_TYPE));
return;
}
boolean useUnique = NodeUtil.isStatement(classNode) && !NodeUtil.isInFunction(classNode);
String uniqueFullClassName =
useUnique ? getUniqueClassName(metadata.fullClassName) : metadata.fullClassName;
Node classNameAccess = NodeUtil.newQName(compiler, uniqueFullClassName);
Node prototypeAccess = NodeUtil.newPropertyAccess(compiler, classNameAccess, "prototype");
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();
Map<String, JSDocInfo> prototypeMembersToDeclare = new LinkedHashMap<>();
Map<String, JSDocInfo> classMembersToDeclare = new LinkedHashMap<>();
for (Node member : classMembers.children()) {
if (member.isEmpty()) {
continue;
}
Preconditions.checkState(
member.isMemberFunctionDef()
|| member.isGetterDef()
|| member.isSetterDef()
|| (member.isComputedProp() && !member.getBooleanProp(Node.COMPUTED_PROP_VARIABLE)),
"Member variables should have been transpiled earlier: ",
member);
if (member.isGetterDef() || member.isSetterDef()) {
JSTypeExpression typeExpr = getTypeFromGetterOrSetter(member).clone();
addToDefinePropertiesObject(metadata, member);
Map<String, JSDocInfo> membersToDeclare =
member.isStaticMember() ? classMembersToDeclare : prototypeMembersToDeclare;
JSDocInfo existingJSDoc = membersToDeclare.get(member.getString());
JSTypeExpression existingType = existingJSDoc == null ? null : existingJSDoc.getType();
if (existingType != null && !existingType.equals(typeExpr)) {
compiler.report(JSError.make(member, CONFLICTING_GETTER_SETTER_TYPE, member.getString()));
} else {
JSDocInfoBuilder jsDoc = new JSDocInfoBuilder(false);
jsDoc.recordType(typeExpr);
if (member.getJSDocInfo() != null && member.getJSDocInfo().isExport()) {
jsDoc.recordExport();
}
if (member.isStaticMember()) {
jsDoc.recordNoCollapse();
}
membersToDeclare.put(member.getString(), jsDoc.build());
}
} else if (member.isMemberFunctionDef() && member.getString().equals("constructor")) {
ctorJSDocInfo = member.getJSDocInfo();
constructor = member.getFirstChild().detachFromParent();
if (!metadata.anonymous) {
// Turns class Foo { constructor: function() {} } into function Foo() {},
// i.e. attaches the name the ctor function.
constructor.replaceChild(constructor.getFirstChild(), metadata.classNameNode.cloneNode());
}
} else {
Node qualifiedMemberAccess =
getQualifiedMemberAccess(compiler, member, classNameAccess, prototypeAccess);
Node method = member.getLastChild().detachFromParent();
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.
for (Map.Entry<String, JSDocInfo> entry : prototypeMembersToDeclare.entrySet()) {
String declaredMember = entry.getKey();
Node declaration = IR.getprop(prototypeAccess.cloneTree(), IR.string(declaredMember));
declaration.setJSDocInfo(entry.getValue());
metadata.insertNodeAndAdvance(
IR.exprResult(declaration).useSourceInfoIfMissingFromForTree(classNode));
}
for (Map.Entry<String, JSDocInfo> entry : classMembersToDeclare.entrySet()) {
String declaredMember = entry.getKey();
Node declaration = IR.getprop(classNameAccess.cloneTree(), IR.string(declaredMember));
declaration.setJSDocInfo(entry.getValue());
metadata.insertNodeAndAdvance(
IR.exprResult(declaration).useSourceInfoIfMissingFromForTree(classNode));
}
if (metadata.definePropertiesObjForPrototype.hasChildren()) {
Node definePropsCall =
IR.exprResult(
IR.call(
NodeUtil.newQName(compiler, "Object.defineProperties"),
prototypeAccess.cloneTree(),
metadata.definePropertiesObjForPrototype));
definePropsCall.useSourceInfoIfMissingFromForTree(classNode);
metadata.insertNodeAndAdvance(definePropsCall);
}
if (metadata.definePropertiesObjForClass.hasChildren()) {
Node definePropsCall =
IR.exprResult(
IR.call(
NodeUtil.newQName(compiler, "Object.defineProperties"),
classNameAccess.cloneTree(),
metadata.definePropertiesObjForClass));
definePropsCall.useSourceInfoIfMissingFromForTree(classNode);
metadata.insertNodeAndAdvance(definePropsCall);
}
Preconditions.checkNotNull(constructor);
JSDocInfo classJSDoc = NodeUtil.getBestJSDocInfo(classNode);
JSDocInfoBuilder newInfo = JSDocInfoBuilder.maybeCopyFrom(classJSDoc);
newInfo.recordConstructor();
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 {
Node inherits =
IR.call(
NodeUtil.newQName(compiler, INHERITS),
NodeUtil.newQName(compiler, metadata.fullClassName),
NodeUtil.newQName(compiler, superClassString));
Node inheritsCall = IR.exprResult(inherits);
compiler.needsEs6Runtime = true;
inheritsCall.useSourceInfoIfMissingFromForTree(classNode);
Node enclosingStatement = NodeUtil.getEnclosingStatement(classNode);
enclosingStatement.getParent().addChildAfter(inheritsCall, enclosingStatement);
newInfo.recordBaseType(
new JSTypeExpression(
new Node(Token.BANG, IR.string(superClassString)),
metadata.superClassNameNode.getSourceFileName()));
}
}
// Classes are @struct by default.
if (!newInfo.isUnrestrictedRecorded()
&& !newInfo.isDictRecorded()
&& !newInfo.isStructRecorded()) {
newInfo.recordStruct();
}
if (ctorJSDocInfo != null) {
newInfo.recordSuppressions(ctorJSDocInfo.getSuppressions());
for (String param : ctorJSDocInfo.getParameterNames()) {
newInfo.recordParameter(param, ctorJSDocInfo.getParameterType(param));
}
newInfo.mergePropertyBitfieldFrom(ctorJSDocInfo);
}
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.getParent().getParent();
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);
}
compiler.reportCodeChange();
}
/** Processes a rest parameter */
private void visitRestParam(Node restParam, Node paramList) {
Node functionBody = paramList.getLastSibling();
restParam.setType(Token.NAME);
restParam.setVarArgs(true);
// Make sure rest parameters are typechecked
JSTypeExpression type = null;
JSDocInfo info = restParam.getJSDocInfo();
String paramName = restParam.getString();
if (info != null) {
type = info.getType();
} else {
JSDocInfo functionInfo = paramList.getParent().getJSDocInfo();
if (functionInfo != null) {
type = functionInfo.getParameterType(paramName);
}
}
if (type != null && type.getRoot().getType() != Token.ELLIPSIS) {
compiler.report(JSError.make(restParam, BAD_REST_PARAMETER_ANNOTATION));
}
if (!functionBody.hasChildren()) {
// If function has no body, we are done!
compiler.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.detachFromParent());
}
if (type != null) {
Node arrayType = IR.string("Array");
Node typeNode = type.getRoot();
Node memberType =
typeNode.getType() == Token.ELLIPSIS
? typeNode.getFirstChild().cloneNode()
: typeNode.cloneNode();
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());
}
int restIndex = paramList.getIndexOfChild(restParam);
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.reportCodeChange();
// 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.
}
/**
* In the AST that Rhino gives us, it needs to make a distinction between JsDoc on the object
* literal node and JsDoc on the object literal value. For example,
*
* <pre>
* var x = {
* / JSDOC /
* a: 'b',
* c: / JSDOC / 'd'
* };
* </pre>
*
* But in few narrow cases (in particular, function literals), it's a lot easier for us if the
* doc is attached to the value.
*/
private static void normalizeObjectLiteralKeyAnnotations(Node objlit, Node key, Node value) {
Preconditions.checkState(objlit.isObjectLit());
if (key.getJSDocInfo() != null && value.isFunction()) {
value.setJSDocInfo(key.getJSDocInfo());
}
}
private void visitClass(Node classNode, Node parent) {
Node className = classNode.getFirstChild();
Node superClassName = className.getNext();
Node classMembers = classNode.getLastChild();
// This is a statement node. We insert methods of the
// transpiled class after this node.
Node insertionPoint;
// 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.
String fullClassName = null;
// Whether the constructor function in the output should be anonymous.
boolean anonymous;
// 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 just call cannotConvert.
if (NodeUtil.isStatement(classNode)) {
fullClassName = className.getString();
anonymous = false;
insertionPoint = classNode;
} else if (parent.isAssign() && parent.getParent().isExprResult()) {
// Add members after the EXPR_RESULT node:
// example.C = class {}; example.C.prototype.foo = function() {};
fullClassName = parent.getFirstChild().getQualifiedName();
if (fullClassName == null) {
cannotConvert(parent);
return;
}
anonymous = true;
insertionPoint = parent.getParent();
} else if (parent.isName()) {
// Add members after the 'var' statement.
// var C = class {}; C.prototype.foo = function() {};
fullClassName = parent.getString();
anonymous = true;
insertionPoint = parent.getParent();
} else {
cannotConvert(parent);
return;
}
Verify.verify(NodeUtil.isStatement(insertionPoint));
className.detachFromParent();
Node constructor = null;
JSDocInfo ctorJSDocInfo = null;
for (Node member : classMembers.children()) {
if (member.getString().equals("constructor")) {
ctorJSDocInfo = member.getJSDocInfo();
constructor = member.getFirstChild().detachFromParent();
if (!anonymous) {
constructor.replaceChild(constructor.getFirstChild(), className);
}
} else {
String qualifiedMemberName;
if (member.isStaticMember()) {
if (NodeUtil.referencesThis(member.getFirstChild())) {
compiler.report(JSError.make(member, STATIC_METHOD_REFERENCES_THIS));
}
qualifiedMemberName = Joiner.on(".").join(fullClassName, member.getString());
} else {
qualifiedMemberName = Joiner.on(".").join(fullClassName, "prototype", member.getString());
}
Node assign =
IR.assign(
NodeUtil.newQualifiedNameNode(
compiler.getCodingConvention(),
qualifiedMemberName,
/* basis node */ member,
/* original name */ member.getString()),
member.getFirstChild().detachFromParent());
assign.srcref(member);
JSDocInfo info = member.getJSDocInfo();
if (info != null) {
info.setAssociatedNode(assign);
assign.setJSDocInfo(info);
}
Node newNode = NodeUtil.newExpr(assign);
insertionPoint.getParent().addChildAfter(newNode, insertionPoint);
insertionPoint = newNode;
}
}
if (constructor == null) {
Node name = anonymous ? IR.name("").srcref(className) : className;
constructor =
IR.function(name, IR.paramList().srcref(classNode), IR.block().srcref(classNode));
}
JSDocInfo classJSDoc = classNode.getJSDocInfo();
JSDocInfoBuilder newInfo =
(classJSDoc != null) ? JSDocInfoBuilder.copyFrom(classJSDoc) : new JSDocInfoBuilder(true);
newInfo.recordConstructor();
if (!superClassName.isEmpty()) {
if (!superClassName.isQualifiedName()) {
compiler.report(JSError.make(superClassName, DYNAMIC_EXTENDS_TYPE));
return;
}
Node superClassString = IR.string(superClassName.getQualifiedName());
if (newInfo.isInterfaceRecorded()) {
newInfo.recordExtendedInterface(
new JSTypeExpression(
new Node(Token.BANG, superClassString), superClassName.getSourceFileName()));
} else {
// TODO(mattloring) Remove dependency on Closure Library.
Node inherits =
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), "goog.inherits");
Node inheritsCall =
IR.exprResult(IR.call(inherits, className.cloneTree(), superClassName.cloneTree()));
inheritsCall.useSourceInfoIfMissingFromForTree(classNode);
parent.addChildAfter(inheritsCall, classNode);
newInfo.recordBaseType(
new JSTypeExpression(
new Node(Token.BANG, superClassString), superClassName.getSourceFileName()));
}
}
// Classes are @struct by default.
if (!newInfo.isUnrestrictedRecorded()
&& !newInfo.isDictRecorded()
&& !newInfo.isStructRecorded()) {
newInfo.recordStruct();
}
if (ctorJSDocInfo != null) {
newInfo.recordSuppressions(ctorJSDocInfo.getSuppressions());
for (String param : ctorJSDocInfo.getParameterNames()) {
newInfo.recordParameter(param, ctorJSDocInfo.getParameterType(param));
}
}
parent.replaceChild(classNode, constructor);
if (NodeUtil.isStatement(constructor)) {
constructor.setJSDocInfo(newInfo.build(constructor));
} 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(var));
} else if (parent.isAssign()) {
// The constructor function is the RHS of an assignment.
// Add the JSDoc to the ASSIGN node.
parent.setJSDocInfo(newInfo.build(parent));
} else {
throw new IllegalStateException("Unexpected parent node " + parent);
}
compiler.reportCodeChange();
}
private void rewriteGoogDefineClass(Node exprRoot, final ClassDefinition cls) {
// For simplicity add everything into a block, before adding it to the AST.
Node block = IR.block();
// remove the original jsdoc info if it was attached to the value.
cls.constructor.value.setJSDocInfo(null);
if (exprRoot.isVar()) {
// example: var ctr = function(){}
Node var = IR.var(cls.name.cloneTree(), cls.constructor.value).srcref(exprRoot);
JSDocInfo mergedClassInfo = mergeJsDocFor(cls, var);
var.setJSDocInfo(mergedClassInfo);
block.addChildToBack(var);
} else {
// example: ns.ctr = function(){}
Node assign =
IR.assign(cls.name.cloneTree(), cls.constructor.value)
.srcref(exprRoot)
.setJSDocInfo(cls.constructor.info);
JSDocInfo mergedClassInfo = mergeJsDocFor(cls, assign);
assign.setJSDocInfo(mergedClassInfo);
Node expr = IR.exprResult(assign).srcref(exprRoot);
block.addChildToBack(expr);
}
if (cls.superClass != null) {
// example: goog.inherits(ctr, superClass)
block.addChildToBack(
fixupSrcref(
IR.exprResult(
IR.call(
NodeUtil.newQName(compiler, "goog.inherits").srcrefTree(cls.superClass),
cls.name.cloneTree(),
cls.superClass.cloneTree())
.srcref(cls.superClass))));
}
for (MemberDefinition def : cls.staticProps) {
// remove the original jsdoc info if it was attached to the value.
def.value.setJSDocInfo(null);
// example: ctr.prop = value
block.addChildToBack(
fixupSrcref(
IR.exprResult(
fixupSrcref(
IR.assign(
IR.getprop(
cls.name.cloneTree(),
IR.string(def.name.getString()).srcref(def.name))
.srcref(def.name),
def.value))
.setJSDocInfo(def.info))));
// Handle inner class definitions.
maybeRewriteClassDefinition(block.getLastChild());
}
for (MemberDefinition def : cls.props) {
// remove the original jsdoc info if it was attached to the value.
def.value.setJSDocInfo(null);
// example: ctr.prototype.prop = value
block.addChildToBack(
fixupSrcref(
IR.exprResult(
fixupSrcref(
IR.assign(
IR.getprop(
fixupSrcref(
IR.getprop(
cls.name.cloneTree(),
IR.string("prototype").srcref(def.name))),
IR.string(def.name.getString()).srcref(def.name))
.srcref(def.name),
def.value))
.setJSDocInfo(def.info))));
// Handle inner class definitions.
maybeRewriteClassDefinition(block.getLastChild());
}
if (cls.classModifier != null) {
// Inside the modifier function, replace references to the argument
// with the class name.
// function(cls) { cls.Foo = bar; }
// becomes
// function(cls) { theClassName.Foo = bar; }
// The cls parameter is unused, but leave it there so that it
// matches the JsDoc.
// TODO(tbreisacher): Add a warning if the param is shadowed or reassigned.
Node argList = cls.classModifier.getFirstChild().getNext();
Node arg = argList.getFirstChild();
final String argName = arg.getString();
NodeTraversal.traverse(
compiler,
cls.classModifier.getLastChild(),
new AbstractPostOrderCallback() {
@Override
public void visit(NodeTraversal t, Node n, Node parent) {
if (n.isName() && n.getString().equals(argName)) {
parent.replaceChild(n, cls.name.cloneTree());
}
}
});
block.addChildToBack(
IR.exprResult(
fixupFreeCall(
IR.call(cls.classModifier, cls.name.cloneTree()).srcref(cls.classModifier)))
.srcref(cls.classModifier));
}
Node parent = exprRoot.getParent();
Node stmts = block.removeChildren();
parent.addChildrenAfter(stmts, exprRoot);
parent.removeChild(exprRoot);
compiler.reportCodeChange();
}
/**
* Classes are processed in 3 phases: 1) The class name is extracted. 2) Class members are
* processed and rewritten. 3) The constructor is built.
*/
private void visitClass(Node classNode, Node parent) {
checkClassReassignment(classNode);
// Collect Metadata
Node className = classNode.getFirstChild();
Node superClassName = className.getNext();
Node classMembers = classNode.getLastChild();
// This is a statement node. We insert methods of the
// transpiled class after this node.
Node insertionPoint;
if (!superClassName.isEmpty() && !superClassName.isQualifiedName()) {
compiler.report(JSError.make(superClassName, DYNAMIC_EXTENDS_TYPE));
return;
}
// 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.
String fullClassName = null;
// Whether the constructor function in the output should be anonymous.
boolean anonymous;
// 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 just call cannotConvert.
if (NodeUtil.isStatement(classNode)) {
fullClassName = className.getString();
anonymous = false;
insertionPoint = classNode;
} else if (parent.isAssign() && parent.getParent().isExprResult()) {
// Add members after the EXPR_RESULT node:
// example.C = class {}; example.C.prototype.foo = function() {};
fullClassName = parent.getFirstChild().getQualifiedName();
if (fullClassName == null) {
cannotConvert(
parent,
"Can only convert classes that are declarations or the right hand"
+ " side of a simple assignment.");
return;
}
anonymous = true;
insertionPoint = parent.getParent();
} else if (parent.isName()) {
// Add members after the 'var' statement.
// var C = class {}; C.prototype.foo = function() {};
fullClassName = parent.getString();
anonymous = true;
insertionPoint = parent.getParent();
} else {
cannotConvert(
parent,
"Can only convert classes that are declarations or the right hand"
+ " side of a simple assignment.");
return;
}
if (!className.isEmpty() && !className.getString().equals(fullClassName)) {
// cannot bind two class names in the case of: var Foo = class Bar {};
cannotConvertYet(classNode, "named class in an assignment");
return;
}
boolean useUnique = NodeUtil.isStatement(classNode) && !isInFunction(classNode);
String uniqueFullClassName = useUnique ? getUniqueClassName(fullClassName) : fullClassName;
String superClassString = superClassName.getQualifiedName();
Verify.verify(NodeUtil.isStatement(insertionPoint));
Node constructor = null;
JSDocInfo ctorJSDocInfo = null;
// Process all members of the class
for (Node member : classMembers.children()) {
if (member.isEmpty()) {
continue;
}
if (member.isMemberDef() && member.getString().equals("constructor")) {
ctorJSDocInfo = member.getJSDocInfo();
constructor = member.getFirstChild().detachFromParent();
if (!anonymous) {
constructor.replaceChild(constructor.getFirstChild(), className.cloneNode());
}
} else {
Node qualifiedMemberName;
Node method;
if (member.isMemberDef()) {
if (member.isStaticMember()) {
qualifiedMemberName =
NodeUtil.newQualifiedNameNode(
compiler.getCodingConvention(),
Joiner.on(".").join(uniqueFullClassName, member.getString()));
} else {
qualifiedMemberName =
NodeUtil.newQualifiedNameNode(
compiler.getCodingConvention(),
Joiner.on(".").join(uniqueFullClassName, "prototype", member.getString()));
}
method = member.getFirstChild().detachFromParent();
} else if (member.isComputedProp()) {
if (member.isStaticMember()) {
qualifiedMemberName =
IR.getelem(
NodeUtil.newQualifiedNameNode(
compiler.getCodingConvention(), uniqueFullClassName),
member.removeFirstChild());
} else {
qualifiedMemberName =
IR.getelem(
NodeUtil.newQualifiedNameNode(
compiler.getCodingConvention(),
Joiner.on('.').join(uniqueFullClassName, "prototype")),
member.removeFirstChild());
}
method = member.getLastChild().detachFromParent();
} else {
throw new IllegalStateException("Unexpected class member: " + member);
}
Node assign = IR.assign(qualifiedMemberName, method);
assign.useSourceInfoIfMissingFromForTree(member);
JSDocInfo info = member.getJSDocInfo();
if (member.isStaticMember() && NodeUtil.referencesThis(assign.getLastChild())) {
JSDocInfoBuilder memberDoc;
if (info == null) {
memberDoc = new JSDocInfoBuilder(true);
} else {
memberDoc = JSDocInfoBuilder.copyFrom(info);
}
memberDoc.recordThisType(
new JSTypeExpression(
new Node(Token.BANG, new Node(Token.QMARK)), member.getSourceFileName()));
info = memberDoc.build(assign);
}
if (info != null) {
info.setAssociatedNode(assign);
assign.setJSDocInfo(info);
}
Node newNode = NodeUtil.newExpr(assign);
insertionPoint.getParent().addChildAfter(newNode, insertionPoint);
insertionPoint = newNode;
}
}
// Rewrite constructor
if (constructor == null) {
Node body = IR.block();
if (!superClassName.isEmpty()) {
Node superCall = baseCall(classNode, "constructor", null);
body.addChildToBack(IR.exprResult(superCall));
}
Node name = anonymous ? IR.name("").srcref(className) : className.detachFromParent();
constructor =
IR.function(name, IR.paramList(), body).useSourceInfoIfMissingFromForTree(classNode);
}
JSDocInfo classJSDoc = classNode.getJSDocInfo();
JSDocInfoBuilder newInfo =
(classJSDoc != null) ? JSDocInfoBuilder.copyFrom(classJSDoc) : new JSDocInfoBuilder(true);
newInfo.recordConstructor();
if (!superClassName.isEmpty()) {
if (newInfo.isInterfaceRecorded()) {
newInfo.recordExtendedInterface(
new JSTypeExpression(
new Node(Token.BANG, IR.string(superClassString)),
superClassName.getSourceFileName()));
} else {
Node inherits =
IR.call(
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), INHERITS),
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), fullClassName),
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), superClassString));
Node inheritsCall = IR.exprResult(inherits);
inheritsCall.useSourceInfoIfMissingFromForTree(classNode);
Node enclosingStatement = NodeUtil.getEnclosingStatement(classNode);
enclosingStatement.getParent().addChildAfter(inheritsCall, enclosingStatement);
newInfo.recordBaseType(
new JSTypeExpression(
new Node(Token.BANG, IR.string(superClassString)),
superClassName.getSourceFileName()));
Node copyProps =
IR.call(
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), COPY_PROP),
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), fullClassName),
NodeUtil.newQualifiedNameNode(compiler.getCodingConvention(), superClassString));
copyProps.useSourceInfoIfMissingFromForTree(classNode);
enclosingStatement
.getParent()
.addChildAfter(IR.exprResult(copyProps).srcref(classNode), enclosingStatement);
}
}
// Classes are @struct by default.
if (!newInfo.isUnrestrictedRecorded()
&& !newInfo.isDictRecorded()
&& !newInfo.isStructRecorded()) {
newInfo.recordStruct();
}
if (ctorJSDocInfo != null) {
newInfo.recordSuppressions(ctorJSDocInfo.getSuppressions());
for (String param : ctorJSDocInfo.getParameterNames()) {
newInfo.recordParameter(param, ctorJSDocInfo.getParameterType(param));
}
}
insertionPoint = constructor;
if (NodeUtil.isStatement(classNode)) {
constructor.getFirstChild().setString("");
Node ctorVar = IR.var(IR.name(fullClassName), constructor);
ctorVar.useSourceInfoIfMissingFromForTree(classNode);
parent.replaceChild(classNode, ctorVar);
} else {
parent.replaceChild(classNode, constructor);
}
if (NodeUtil.isStatement(constructor)) {
insertionPoint.setJSDocInfo(newInfo.build(insertionPoint));
} 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(var));
} else if (constructor.getParent().isName()) {
// Is a newly created VAR node.
Node var = constructor.getParent().getParent();
var.setJSDocInfo(newInfo.build(var));
} else if (parent.isAssign()) {
// The constructor function is the RHS of an assignment.
// Add the JSDoc to the ASSIGN node.
parent.setJSDocInfo(newInfo.build(parent));
} else {
throw new IllegalStateException("Unexpected parent node " + parent);
}
compiler.reportCodeChange();
}