8206986: Compiler support for Switch Expressions (Preview)
8207405: Compiler Tree API support for Switch Expressions (Preview)
Summary: Support for switch expression, switch with rules and multiple constants for cases.
Reviewed-by: jjg, mcimadamore, vromero
/*
* Copyright (c) 1999, 2018, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
package com.sun.tools.javac.tree;
import java.io.IOException;
import java.io.StringWriter;
import java.util.*;
import javax.lang.model.element.Modifier;
import javax.lang.model.type.TypeKind;
import javax.tools.JavaFileObject;
import com.sun.source.tree.*;
import com.sun.tools.javac.code.*;
import com.sun.tools.javac.code.Directive.RequiresDirective;
import com.sun.tools.javac.code.Scope.*;
import com.sun.tools.javac.code.Symbol.*;
import com.sun.tools.javac.util.*;
import com.sun.tools.javac.util.DefinedBy.Api;
import com.sun.tools.javac.util.JCDiagnostic.DiagnosticPosition;
import com.sun.tools.javac.util.List;
import static com.sun.tools.javac.tree.JCTree.Tag.*;
import javax.tools.JavaFileManager.Location;
import com.sun.source.tree.CaseTree.CaseKind;
import com.sun.source.tree.ModuleTree.ModuleKind;
import com.sun.tools.javac.code.Directive.ExportsDirective;
import com.sun.tools.javac.code.Directive.OpensDirective;
import com.sun.tools.javac.code.Type.ModuleType;
import com.sun.tools.javac.tree.JCTree.JCPolyExpression.PolyKind;
/**
* Root class for abstract syntax tree nodes. It provides definitions
* for specific tree nodes as subclasses nested inside.
*
* <p>Each subclass is highly standardized. It generally contains
* only tree fields for the syntactic subcomponents of the node. Some
* classes that represent identifier uses or definitions also define a
* Symbol field that denotes the represented identifier. Classes for
* non-local jumps also carry the jump target as a field. The root
* class Tree itself defines fields for the tree's type and position.
* No other fields are kept in a tree node; instead parameters are
* passed to methods accessing the node.
*
* <p>Except for the methods defined by com.sun.source, the only
* method defined in subclasses is `visit' which applies a given
* visitor to the tree. The actual tree processing is done by visitor
* classes in other packages. The abstract class Visitor, as well as
* an Factory interface for trees, are defined as inner classes in
* Tree.
*
* <p>To avoid ambiguities with the Tree API in com.sun.source all sub
* classes should, by convention, start with JC (javac).
*
* <p><b>This is NOT part of any supported API.
* If you write code that depends on this, you do so at your own risk.
* This code and its internal interfaces are subject to change or
* deletion without notice.</b>
*
* @see TreeMaker
* @see TreeInfo
* @see TreeTranslator
* @see Pretty
*/
public abstract class JCTree implements Tree, Cloneable, DiagnosticPosition {
/* Tree tag values, identifying kinds of trees */
public enum Tag {
/** For methods that return an invalid tag if a given condition is not met
*/
NO_TAG,
/** Toplevel nodes, of type TopLevel, representing entire source files.
*/
TOPLEVEL,
/** Package level definitions.
*/
PACKAGEDEF,
/** Import clauses, of type Import.
*/
IMPORT,
/** Class definitions, of type ClassDef.
*/
CLASSDEF,
/** Method definitions, of type MethodDef.
*/
METHODDEF,
/** Variable definitions, of type VarDef.
*/
VARDEF,
/** The no-op statement ";", of type Skip
*/
SKIP,
/** Blocks, of type Block.
*/
BLOCK,
/** Do-while loops, of type DoLoop.
*/
DOLOOP,
/** While-loops, of type WhileLoop.
*/
WHILELOOP,
/** For-loops, of type ForLoop.
*/
FORLOOP,
/** Foreach-loops, of type ForeachLoop.
*/
FOREACHLOOP,
/** Labelled statements, of type Labelled.
*/
LABELLED,
/** Switch statements, of type Switch.
*/
SWITCH,
/** Case parts in switch statements/expressions, of type Case.
*/
CASE,
/** Switch expression statements, of type Switch.
*/
SWITCH_EXPRESSION,
/** Synchronized statements, of type Synchonized.
*/
SYNCHRONIZED,
/** Try statements, of type Try.
*/
TRY,
/** Catch clauses in try statements, of type Catch.
*/
CATCH,
/** Conditional expressions, of type Conditional.
*/
CONDEXPR,
/** Conditional statements, of type If.
*/
IF,
/** Expression statements, of type Exec.
*/
EXEC,
/** Break statements, of type Break.
*/
BREAK,
/** Continue statements, of type Continue.
*/
CONTINUE,
/** Return statements, of type Return.
*/
RETURN,
/** Throw statements, of type Throw.
*/
THROW,
/** Assert statements, of type Assert.
*/
ASSERT,
/** Method invocation expressions, of type Apply.
*/
APPLY,
/** Class instance creation expressions, of type NewClass.
*/
NEWCLASS,
/** Array creation expressions, of type NewArray.
*/
NEWARRAY,
/** Lambda expression, of type Lambda.
*/
LAMBDA,
/** Parenthesized subexpressions, of type Parens.
*/
PARENS,
/** Assignment expressions, of type Assign.
*/
ASSIGN,
/** Type cast expressions, of type TypeCast.
*/
TYPECAST,
/** Type test expressions, of type TypeTest.
*/
TYPETEST,
/** Indexed array expressions, of type Indexed.
*/
INDEXED,
/** Selections, of type Select.
*/
SELECT,
/** Member references, of type Reference.
*/
REFERENCE,
/** Simple identifiers, of type Ident.
*/
IDENT,
/** Literals, of type Literal.
*/
LITERAL,
/** Basic type identifiers, of type TypeIdent.
*/
TYPEIDENT,
/** Array types, of type TypeArray.
*/
TYPEARRAY,
/** Parameterized types, of type TypeApply.
*/
TYPEAPPLY,
/** Union types, of type TypeUnion.
*/
TYPEUNION,
/** Intersection types, of type TypeIntersection.
*/
TYPEINTERSECTION,
/** Formal type parameters, of type TypeParameter.
*/
TYPEPARAMETER,
/** Type argument.
*/
WILDCARD,
/** Bound kind: extends, super, exact, or unbound
*/
TYPEBOUNDKIND,
/** metadata: Annotation.
*/
ANNOTATION,
/** metadata: Type annotation.
*/
TYPE_ANNOTATION,
/** metadata: Modifiers
*/
MODIFIERS,
/** An annotated type tree.
*/
ANNOTATED_TYPE,
/** Error trees, of type Erroneous.
*/
ERRONEOUS,
/** Unary operators, of type Unary.
*/
POS, // +
NEG, // -
NOT, // !
COMPL, // ~
PREINC, // ++ _
PREDEC, // -- _
POSTINC, // _ ++
POSTDEC, // _ --
/** unary operator for null reference checks, only used internally.
*/
NULLCHK,
/** Binary operators, of type Binary.
*/
OR, // ||
AND, // &&
BITOR, // |
BITXOR, // ^
BITAND, // &
EQ, // ==
NE, // !=
LT, // <
GT, // >
LE, // <=
GE, // >=
SL, // <<
SR, // >>
USR, // >>>
PLUS, // +
MINUS, // -
MUL, // *
DIV, // /
MOD, // %
/** Assignment operators, of type Assignop.
*/
BITOR_ASG(BITOR), // |=
BITXOR_ASG(BITXOR), // ^=
BITAND_ASG(BITAND), // &=
SL_ASG(SL), // <<=
SR_ASG(SR), // >>=
USR_ASG(USR), // >>>=
PLUS_ASG(PLUS), // +=
MINUS_ASG(MINUS), // -=
MUL_ASG(MUL), // *=
DIV_ASG(DIV), // /=
MOD_ASG(MOD), // %=
MODULEDEF,
EXPORTS,
OPENS,
PROVIDES,
REQUIRES,
USES,
/** A synthetic let expression, of type LetExpr.
*/
LETEXPR; // ala scheme
private final Tag noAssignTag;
private static final int numberOfOperators = MOD.ordinal() - POS.ordinal() + 1;
private Tag(Tag noAssignTag) {
this.noAssignTag = noAssignTag;
}
private Tag() {
this(null);
}
public static int getNumberOfOperators() {
return numberOfOperators;
}
public Tag noAssignOp() {
if (noAssignTag != null)
return noAssignTag;
throw new AssertionError("noAssignOp() method is not available for non assignment tags");
}
public boolean isPostUnaryOp() {
return (this == POSTINC || this == POSTDEC);
}
public boolean isIncOrDecUnaryOp() {
return (this == PREINC || this == PREDEC || this == POSTINC || this == POSTDEC);
}
public boolean isAssignop() {
return noAssignTag != null;
}
public int operatorIndex() {
return (this.ordinal() - POS.ordinal());
}
}
/* The (encoded) position in the source file. @see util.Position.
*/
public int pos;
/* The type of this node.
*/
public Type type;
/* The tag of this node -- one of the constants declared above.
*/
public abstract Tag getTag();
/* Returns true if the tag of this node is equals to tag.
*/
public boolean hasTag(Tag tag) {
return tag == getTag();
}
/** Convert a tree to a pretty-printed string. */
@Override
public String toString() {
StringWriter s = new StringWriter();
try {
new Pretty(s, false).printExpr(this);
}
catch (IOException e) {
// should never happen, because StringWriter is defined
// never to throw any IOExceptions
throw new AssertionError(e);
}
return s.toString();
}
/** Set position field and return this tree.
*/
public JCTree setPos(int pos) {
this.pos = pos;
return this;
}
/** Set type field and return this tree.
*/
public JCTree setType(Type type) {
this.type = type;
return this;
}
/** Visit this tree with a given visitor.
*/
public abstract void accept(Visitor v);
@DefinedBy(Api.COMPILER_TREE)
public abstract <R,D> R accept(TreeVisitor<R,D> v, D d);
/** Return a shallow copy of this tree.
*/
@Override
public Object clone() {
try {
return super.clone();
} catch(CloneNotSupportedException e) {
throw new RuntimeException(e);
}
}
/** Get a default position for this tree node.
*/
public DiagnosticPosition pos() {
return this;
}
// for default DiagnosticPosition
public JCTree getTree() {
return this;
}
// for default DiagnosticPosition
public int getStartPosition() {
return TreeInfo.getStartPos(this);
}
// for default DiagnosticPosition
public int getPreferredPosition() {
return pos;
}
// for default DiagnosticPosition
public int getEndPosition(EndPosTable endPosTable) {
return TreeInfo.getEndPos(this, endPosTable);
}
/**
* Everything in one source file is kept in a {@linkplain JCCompilationUnit} structure.
*/
public static class JCCompilationUnit extends JCTree implements CompilationUnitTree {
/** All definitions in this file (ClassDef, Import, and Skip) */
public List<JCTree> defs;
/** The source file name. */
public JavaFileObject sourcefile;
/** The module to which this compilation unit belongs. */
public ModuleSymbol modle;
/** The location in which this compilation unit was found. */
public Location locn;
/** The package to which this compilation unit belongs. */
public PackageSymbol packge;
/** A scope containing top level classes. */
public WriteableScope toplevelScope;
/** A scope for all named imports. */
public NamedImportScope namedImportScope;
/** A scope for all import-on-demands. */
public StarImportScope starImportScope;
/** Line starting positions, defined only if option -g is set. */
public Position.LineMap lineMap = null;
/** A table that stores all documentation comments indexed by the tree
* nodes they refer to. defined only if option -s is set. */
public DocCommentTable docComments = null;
/* An object encapsulating ending positions of source ranges indexed by
* the tree nodes they belong to. Defined only if option -Xjcov is set. */
public EndPosTable endPositions = null;
protected JCCompilationUnit(List<JCTree> defs) {
this.defs = defs;
}
@Override
public void accept(Visitor v) { v.visitTopLevel(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.COMPILATION_UNIT; }
public JCModuleDecl getModuleDecl() {
for (JCTree tree : defs) {
if (tree.hasTag(MODULEDEF)) {
return (JCModuleDecl) tree;
}
}
return null;
}
@DefinedBy(Api.COMPILER_TREE)
public JCPackageDecl getPackage() {
// PackageDecl must be the first entry if it exists
if (!defs.isEmpty() && defs.head.hasTag(PACKAGEDEF))
return (JCPackageDecl)defs.head;
return null;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getPackageAnnotations() {
JCPackageDecl pd = getPackage();
return pd != null ? pd.getAnnotations() : List.nil();
}
@DefinedBy(Api.COMPILER_TREE)
public ExpressionTree getPackageName() {
JCPackageDecl pd = getPackage();
return pd != null ? pd.getPackageName() : null;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCImport> getImports() {
ListBuffer<JCImport> imports = new ListBuffer<>();
for (JCTree tree : defs) {
if (tree.hasTag(IMPORT))
imports.append((JCImport)tree);
else if (!tree.hasTag(PACKAGEDEF) && !tree.hasTag(SKIP))
break;
}
return imports.toList();
}
@DefinedBy(Api.COMPILER_TREE)
public JavaFileObject getSourceFile() {
return sourcefile;
}
@DefinedBy(Api.COMPILER_TREE)
public Position.LineMap getLineMap() {
return lineMap;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCTree> getTypeDecls() {
List<JCTree> typeDefs;
for (typeDefs = defs; !typeDefs.isEmpty(); typeDefs = typeDefs.tail)
if (!typeDefs.head.hasTag(PACKAGEDEF) && !typeDefs.head.hasTag(IMPORT))
break;
return typeDefs;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitCompilationUnit(this, d);
}
@Override
public Tag getTag() {
return TOPLEVEL;
}
}
/**
* Package definition.
*/
public static class JCPackageDecl extends JCTree implements PackageTree {
public List<JCAnnotation> annotations;
/** The tree representing the package clause. */
public JCExpression pid;
public PackageSymbol packge;
public JCPackageDecl(List<JCAnnotation> annotations, JCExpression pid) {
this.annotations = annotations;
this.pid = pid;
}
@Override
public void accept(Visitor v) { v.visitPackageDef(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.PACKAGE;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getAnnotations() {
return annotations;
}
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getPackageName() {
return pid;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitPackage(this, d);
}
@Override
public Tag getTag() {
return PACKAGEDEF;
}
}
/**
* An import clause.
*/
public static class JCImport extends JCTree implements ImportTree {
public boolean staticImport;
/** The imported class(es). */
public JCTree qualid;
public com.sun.tools.javac.code.Scope importScope;
protected JCImport(JCTree qualid, boolean importStatic) {
this.qualid = qualid;
this.staticImport = importStatic;
}
@Override
public void accept(Visitor v) { v.visitImport(this); }
@DefinedBy(Api.COMPILER_TREE)
public boolean isStatic() { return staticImport; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getQualifiedIdentifier() { return qualid; }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.IMPORT; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitImport(this, d);
}
@Override
public Tag getTag() {
return IMPORT;
}
}
public static abstract class JCStatement extends JCTree implements StatementTree {
@Override
public JCStatement setType(Type type) {
super.setType(type);
return this;
}
@Override
public JCStatement setPos(int pos) {
super.setPos(pos);
return this;
}
}
public static abstract class JCExpression extends JCTree implements ExpressionTree {
@Override
public JCExpression setType(Type type) {
super.setType(type);
return this;
}
@Override
public JCExpression setPos(int pos) {
super.setPos(pos);
return this;
}
public boolean isPoly() { return false; }
public boolean isStandalone() { return true; }
}
/**
* Common supertype for all poly expression trees (lambda, method references,
* conditionals, method and constructor calls)
*/
public static abstract class JCPolyExpression extends JCExpression {
/**
* A poly expression can only be truly 'poly' in certain contexts
*/
public enum PolyKind {
/** poly expression to be treated as a standalone expression */
STANDALONE,
/** true poly expression */
POLY
}
/** is this poly expression a 'true' poly expression? */
public PolyKind polyKind;
@Override public boolean isPoly() { return polyKind == PolyKind.POLY; }
@Override public boolean isStandalone() { return polyKind == PolyKind.STANDALONE; }
}
/**
* Common supertype for all functional expression trees (lambda and method references)
*/
public static abstract class JCFunctionalExpression extends JCPolyExpression {
public JCFunctionalExpression() {
//a functional expression is always a 'true' poly
polyKind = PolyKind.POLY;
}
/** list of target types inferred for this functional expression. */
public Type target;
public Type getDescriptorType(Types types) {
return target != null ? types.findDescriptorType(target) : types.createErrorType(null);
}
}
/**
* A class definition.
*/
public static class JCClassDecl extends JCStatement implements ClassTree {
/** the modifiers */
public JCModifiers mods;
/** the name of the class */
public Name name;
/** formal class parameters */
public List<JCTypeParameter> typarams;
/** the classes this class extends */
public JCExpression extending;
/** the interfaces implemented by this class */
public List<JCExpression> implementing;
/** all variables and methods defined in this class */
public List<JCTree> defs;
/** the symbol */
public ClassSymbol sym;
protected JCClassDecl(JCModifiers mods,
Name name,
List<JCTypeParameter> typarams,
JCExpression extending,
List<JCExpression> implementing,
List<JCTree> defs,
ClassSymbol sym)
{
this.mods = mods;
this.name = name;
this.typarams = typarams;
this.extending = extending;
this.implementing = implementing;
this.defs = defs;
this.sym = sym;
}
@Override
public void accept(Visitor v) { v.visitClassDef(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
if ((mods.flags & Flags.ANNOTATION) != 0)
return Kind.ANNOTATION_TYPE;
else if ((mods.flags & Flags.INTERFACE) != 0)
return Kind.INTERFACE;
else if ((mods.flags & Flags.ENUM) != 0)
return Kind.ENUM;
else
return Kind.CLASS;
}
@DefinedBy(Api.COMPILER_TREE)
public JCModifiers getModifiers() { return mods; }
@DefinedBy(Api.COMPILER_TREE)
public Name getSimpleName() { return name; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCTypeParameter> getTypeParameters() {
return typarams;
}
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExtendsClause() { return extending; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getImplementsClause() {
return implementing;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCTree> getMembers() {
return defs;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitClass(this, d);
}
@Override
public Tag getTag() {
return CLASSDEF;
}
}
/**
* A method definition.
*/
public static class JCMethodDecl extends JCTree implements MethodTree {
/** method modifiers */
public JCModifiers mods;
/** method name */
public Name name;
/** type of method return value */
public JCExpression restype;
/** type parameters */
public List<JCTypeParameter> typarams;
/** receiver parameter */
public JCVariableDecl recvparam;
/** value parameters */
public List<JCVariableDecl> params;
/** exceptions thrown by this method */
public List<JCExpression> thrown;
/** statements in the method */
public JCBlock body;
/** default value, for annotation types */
public JCExpression defaultValue;
/** method symbol */
public MethodSymbol sym;
protected JCMethodDecl(JCModifiers mods,
Name name,
JCExpression restype,
List<JCTypeParameter> typarams,
JCVariableDecl recvparam,
List<JCVariableDecl> params,
List<JCExpression> thrown,
JCBlock body,
JCExpression defaultValue,
MethodSymbol sym)
{
this.mods = mods;
this.name = name;
this.restype = restype;
this.typarams = typarams;
this.params = params;
this.recvparam = recvparam;
// TODO: do something special if the given type is null?
// receiver != null ? receiver : List.<JCTypeAnnotation>nil());
this.thrown = thrown;
this.body = body;
this.defaultValue = defaultValue;
this.sym = sym;
}
@Override
public void accept(Visitor v) { v.visitMethodDef(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.METHOD; }
@DefinedBy(Api.COMPILER_TREE)
public JCModifiers getModifiers() { return mods; }
@DefinedBy(Api.COMPILER_TREE)
public Name getName() { return name; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getReturnType() { return restype; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCTypeParameter> getTypeParameters() {
return typarams;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCVariableDecl> getParameters() {
return params;
}
@DefinedBy(Api.COMPILER_TREE)
public JCVariableDecl getReceiverParameter() { return recvparam; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getThrows() {
return thrown;
}
@DefinedBy(Api.COMPILER_TREE)
public JCBlock getBody() { return body; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getDefaultValue() { // for annotation types
return defaultValue;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitMethod(this, d);
}
@Override
public Tag getTag() {
return METHODDEF;
}
}
/**
* A variable definition.
*/
public static class JCVariableDecl extends JCStatement implements VariableTree {
/** variable modifiers */
public JCModifiers mods;
/** variable name */
public Name name;
/** variable name expression */
public JCExpression nameexpr;
/** type of the variable */
public JCExpression vartype;
/** variable's initial value */
public JCExpression init;
/** symbol */
public VarSymbol sym;
/** explicit start pos */
public int startPos = Position.NOPOS;
protected JCVariableDecl(JCModifiers mods,
Name name,
JCExpression vartype,
JCExpression init,
VarSymbol sym) {
this.mods = mods;
this.name = name;
this.vartype = vartype;
this.init = init;
this.sym = sym;
}
protected JCVariableDecl(JCModifiers mods,
JCExpression nameexpr,
JCExpression vartype) {
this(mods, null, vartype, null, null);
this.nameexpr = nameexpr;
if (nameexpr.hasTag(Tag.IDENT)) {
this.name = ((JCIdent)nameexpr).name;
} else {
// Only other option is qualified name x.y.this;
this.name = ((JCFieldAccess)nameexpr).name;
}
}
public boolean isImplicitlyTyped() {
return vartype == null;
}
@Override
public void accept(Visitor v) { v.visitVarDef(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.VARIABLE; }
@DefinedBy(Api.COMPILER_TREE)
public JCModifiers getModifiers() { return mods; }
@DefinedBy(Api.COMPILER_TREE)
public Name getName() { return name; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getNameExpression() { return nameexpr; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getType() { return vartype; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getInitializer() {
return init;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitVariable(this, d);
}
@Override
public Tag getTag() {
return VARDEF;
}
}
/**
* A no-op statement ";".
*/
public static class JCSkip extends JCStatement implements EmptyStatementTree {
protected JCSkip() {
}
@Override
public void accept(Visitor v) { v.visitSkip(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.EMPTY_STATEMENT; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitEmptyStatement(this, d);
}
@Override
public Tag getTag() {
return SKIP;
}
}
/**
* A statement block.
*/
public static class JCBlock extends JCStatement implements BlockTree {
/** flags */
public long flags;
/** statements */
public List<JCStatement> stats;
/** Position of closing brace, optional. */
public int endpos = Position.NOPOS;
protected JCBlock(long flags, List<JCStatement> stats) {
this.stats = stats;
this.flags = flags;
}
@Override
public void accept(Visitor v) { v.visitBlock(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.BLOCK; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCStatement> getStatements() {
return stats;
}
@DefinedBy(Api.COMPILER_TREE)
public boolean isStatic() { return (flags & Flags.STATIC) != 0; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitBlock(this, d);
}
@Override
public Tag getTag() {
return BLOCK;
}
}
/**
* A do loop
*/
public static class JCDoWhileLoop extends JCStatement implements DoWhileLoopTree {
public JCStatement body;
public JCExpression cond;
protected JCDoWhileLoop(JCStatement body, JCExpression cond) {
this.body = body;
this.cond = cond;
}
@Override
public void accept(Visitor v) { v.visitDoLoop(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.DO_WHILE_LOOP; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getStatement() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitDoWhileLoop(this, d);
}
@Override
public Tag getTag() {
return DOLOOP;
}
}
/**
* A while loop
*/
public static class JCWhileLoop extends JCStatement implements WhileLoopTree {
public JCExpression cond;
public JCStatement body;
protected JCWhileLoop(JCExpression cond, JCStatement body) {
this.cond = cond;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitWhileLoop(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.WHILE_LOOP; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getStatement() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitWhileLoop(this, d);
}
@Override
public Tag getTag() {
return WHILELOOP;
}
}
/**
* A for loop.
*/
public static class JCForLoop extends JCStatement implements ForLoopTree {
public List<JCStatement> init;
public JCExpression cond;
public List<JCExpressionStatement> step;
public JCStatement body;
protected JCForLoop(List<JCStatement> init,
JCExpression cond,
List<JCExpressionStatement> update,
JCStatement body)
{
this.init = init;
this.cond = cond;
this.step = update;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitForLoop(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.FOR_LOOP; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getStatement() { return body; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCStatement> getInitializer() {
return init;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpressionStatement> getUpdate() {
return step;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitForLoop(this, d);
}
@Override
public Tag getTag() {
return FORLOOP;
}
}
/**
* The enhanced for loop.
*/
public static class JCEnhancedForLoop extends JCStatement implements EnhancedForLoopTree {
public JCVariableDecl var;
public JCExpression expr;
public JCStatement body;
protected JCEnhancedForLoop(JCVariableDecl var, JCExpression expr, JCStatement body) {
this.var = var;
this.expr = expr;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitForeachLoop(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ENHANCED_FOR_LOOP; }
@DefinedBy(Api.COMPILER_TREE)
public JCVariableDecl getVariable() { return var; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getStatement() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitEnhancedForLoop(this, d);
}
@Override
public Tag getTag() {
return FOREACHLOOP;
}
}
/**
* A labelled expression or statement.
*/
public static class JCLabeledStatement extends JCStatement implements LabeledStatementTree {
public Name label;
public JCStatement body;
protected JCLabeledStatement(Name label, JCStatement body) {
this.label = label;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitLabelled(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.LABELED_STATEMENT; }
@DefinedBy(Api.COMPILER_TREE)
public Name getLabel() { return label; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getStatement() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitLabeledStatement(this, d);
}
@Override
public Tag getTag() {
return LABELLED;
}
}
/**
* A "switch ( ) { }" construction.
*/
public static class JCSwitch extends JCStatement implements SwitchTree {
public JCExpression selector;
public List<JCCase> cases;
protected JCSwitch(JCExpression selector, List<JCCase> cases) {
this.selector = selector;
this.cases = cases;
}
@Override
public void accept(Visitor v) { v.visitSwitch(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.SWITCH; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return selector; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCCase> getCases() { return cases; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitSwitch(this, d);
}
@Override
public Tag getTag() {
return SWITCH;
}
}
/**
* A "case :" of a switch.
*/
public static class JCCase extends JCStatement implements CaseTree {
//as CaseKind is deprecated for removal (as it is part of a preview feature),
//using indirection through these fields to avoid unnecessary @SuppressWarnings:
@SuppressWarnings("removal")
public static final CaseKind STATEMENT = CaseKind.STATEMENT;
@SuppressWarnings("removal")
public static final CaseKind RULE = CaseKind.RULE;
@SuppressWarnings("removal")
public final CaseKind caseKind;
public List<JCExpression> pats;
public List<JCStatement> stats;
public JCTree body;
public boolean completesNormally;
protected JCCase(@SuppressWarnings("removal") CaseKind caseKind, List<JCExpression> pats,
List<JCStatement> stats, JCTree body) {
Assert.checkNonNull(pats);
Assert.check(pats.isEmpty() || pats.head != null);
this.caseKind = caseKind;
this.pats = pats;
this.stats = stats;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitCase(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.CASE; }
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return pats.head; }
@Override @DefinedBy(Api.COMPILER_TREE)
@SuppressWarnings("removal")
public List<JCExpression> getExpressions() { return pats; }
@Override @DefinedBy(Api.COMPILER_TREE)
@SuppressWarnings("removal")
public List<JCStatement> getStatements() {
return caseKind == CaseKind.STATEMENT ? stats : null;
}
@Override @DefinedBy(Api.COMPILER_TREE)
@SuppressWarnings("removal")
public JCTree getBody() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
@SuppressWarnings("removal")
public CaseKind getCaseKind() {
return caseKind;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitCase(this, d);
}
@Override
public Tag getTag() {
return CASE;
}
}
/**
* A "switch ( ) { }" construction.
*/
@SuppressWarnings("removal")
public static class JCSwitchExpression extends JCPolyExpression implements SwitchExpressionTree {
public JCExpression selector;
public List<JCCase> cases;
protected JCSwitchExpression(JCExpression selector, List<JCCase> cases) {
this.selector = selector;
this.cases = cases;
}
@Override
public void accept(Visitor v) { v.visitSwitchExpression(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.SWITCH_EXPRESSION; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return selector; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCCase> getCases() { return cases; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitSwitchExpression(this, d);
}
@Override
public Tag getTag() {
return SWITCH_EXPRESSION;
}
}
/**
* A synchronized block.
*/
public static class JCSynchronized extends JCStatement implements SynchronizedTree {
public JCExpression lock;
public JCBlock body;
protected JCSynchronized(JCExpression lock, JCBlock body) {
this.lock = lock;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitSynchronized(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.SYNCHRONIZED; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return lock; }
@DefinedBy(Api.COMPILER_TREE)
public JCBlock getBlock() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitSynchronized(this, d);
}
@Override
public Tag getTag() {
return SYNCHRONIZED;
}
}
/**
* A "try { } catch ( ) { } finally { }" block.
*/
public static class JCTry extends JCStatement implements TryTree {
public JCBlock body;
public List<JCCatch> catchers;
public JCBlock finalizer;
public List<JCTree> resources;
public boolean finallyCanCompleteNormally;
protected JCTry(List<JCTree> resources,
JCBlock body,
List<JCCatch> catchers,
JCBlock finalizer) {
this.body = body;
this.catchers = catchers;
this.finalizer = finalizer;
this.resources = resources;
}
@Override
public void accept(Visitor v) { v.visitTry(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.TRY; }
@DefinedBy(Api.COMPILER_TREE)
public JCBlock getBlock() { return body; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCCatch> getCatches() {
return catchers;
}
@DefinedBy(Api.COMPILER_TREE)
public JCBlock getFinallyBlock() { return finalizer; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitTry(this, d);
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCTree> getResources() {
return resources;
}
@Override
public Tag getTag() {
return TRY;
}
}
/**
* A catch block.
*/
public static class JCCatch extends JCTree implements CatchTree {
public JCVariableDecl param;
public JCBlock body;
protected JCCatch(JCVariableDecl param, JCBlock body) {
this.param = param;
this.body = body;
}
@Override
public void accept(Visitor v) { v.visitCatch(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.CATCH; }
@DefinedBy(Api.COMPILER_TREE)
public JCVariableDecl getParameter() { return param; }
@DefinedBy(Api.COMPILER_TREE)
public JCBlock getBlock() { return body; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitCatch(this, d);
}
@Override
public Tag getTag() {
return CATCH;
}
}
/**
* A ( ) ? ( ) : ( ) conditional expression
*/
public static class JCConditional extends JCPolyExpression implements ConditionalExpressionTree {
public JCExpression cond;
public JCExpression truepart;
public JCExpression falsepart;
protected JCConditional(JCExpression cond,
JCExpression truepart,
JCExpression falsepart)
{
this.cond = cond;
this.truepart = truepart;
this.falsepart = falsepart;
}
@Override
public void accept(Visitor v) { v.visitConditional(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.CONDITIONAL_EXPRESSION; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getTrueExpression() { return truepart; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getFalseExpression() { return falsepart; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitConditionalExpression(this, d);
}
@Override
public Tag getTag() {
return CONDEXPR;
}
}
/**
* An "if ( ) { } else { }" block
*/
public static class JCIf extends JCStatement implements IfTree {
public JCExpression cond;
public JCStatement thenpart;
public JCStatement elsepart;
protected JCIf(JCExpression cond,
JCStatement thenpart,
JCStatement elsepart)
{
this.cond = cond;
this.thenpart = thenpart;
this.elsepart = elsepart;
}
@Override
public void accept(Visitor v) { v.visitIf(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.IF; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getThenStatement() { return thenpart; }
@DefinedBy(Api.COMPILER_TREE)
public JCStatement getElseStatement() { return elsepart; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitIf(this, d);
}
@Override
public Tag getTag() {
return IF;
}
}
/**
* an expression statement
*/
public static class JCExpressionStatement extends JCStatement implements ExpressionStatementTree {
/** expression structure */
public JCExpression expr;
protected JCExpressionStatement(JCExpression expr)
{
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitExec(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.EXPRESSION_STATEMENT; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitExpressionStatement(this, d);
}
@Override
public Tag getTag() {
return EXEC;
}
/** Convert a expression-statement tree to a pretty-printed string. */
@Override
public String toString() {
StringWriter s = new StringWriter();
try {
new Pretty(s, false).printStat(this);
}
catch (IOException e) {
// should never happen, because StringWriter is defined
// never to throw any IOExceptions
throw new AssertionError(e);
}
return s.toString();
}
}
/**
* A break from a loop or switch.
*/
public static class JCBreak extends JCStatement implements BreakTree {
public JCExpression value;
public JCTree target;
protected JCBreak(JCExpression value, JCTree target) {
this.value = value;
this.target = target;
}
@Override
public void accept(Visitor v) { v.visitBreak(this); }
public boolean isValueBreak() {
return target != null && target.hasTag(SWITCH_EXPRESSION);
}
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.BREAK; }
@DefinedBy(Api.COMPILER_TREE)
public Name getLabel() {
return value != null && value.getKind() == Kind.IDENTIFIER ? ((JCIdent) value).getName() : null;
}
@DefinedBy(Api.COMPILER_TREE)
@SuppressWarnings("removal")
public JCExpression getValue() { return value; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitBreak(this, d);
}
@Override
public Tag getTag() {
return BREAK;
}
}
/**
* A continue of a loop.
*/
public static class JCContinue extends JCStatement implements ContinueTree {
public Name label;
public JCTree target;
protected JCContinue(Name label, JCTree target) {
this.label = label;
this.target = target;
}
@Override
public void accept(Visitor v) { v.visitContinue(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.CONTINUE; }
@DefinedBy(Api.COMPILER_TREE)
public Name getLabel() { return label; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitContinue(this, d);
}
@Override
public Tag getTag() {
return CONTINUE;
}
}
/**
* A return statement.
*/
public static class JCReturn extends JCStatement implements ReturnTree {
public JCExpression expr;
protected JCReturn(JCExpression expr) {
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitReturn(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.RETURN; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitReturn(this, d);
}
@Override
public Tag getTag() {
return RETURN;
}
}
/**
* A throw statement.
*/
public static class JCThrow extends JCStatement implements ThrowTree {
public JCExpression expr;
protected JCThrow(JCExpression expr) {
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitThrow(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.THROW; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitThrow(this, d);
}
@Override
public Tag getTag() {
return THROW;
}
}
/**
* An assert statement.
*/
public static class JCAssert extends JCStatement implements AssertTree {
public JCExpression cond;
public JCExpression detail;
protected JCAssert(JCExpression cond, JCExpression detail) {
this.cond = cond;
this.detail = detail;
}
@Override
public void accept(Visitor v) { v.visitAssert(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ASSERT; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getCondition() { return cond; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getDetail() { return detail; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitAssert(this, d);
}
@Override
public Tag getTag() {
return ASSERT;
}
}
/**
* A method invocation
*/
public static class JCMethodInvocation extends JCPolyExpression implements MethodInvocationTree {
public List<JCExpression> typeargs;
public JCExpression meth;
public List<JCExpression> args;
public Type varargsElement;
protected JCMethodInvocation(List<JCExpression> typeargs,
JCExpression meth,
List<JCExpression> args)
{
this.typeargs = (typeargs == null) ? List.nil()
: typeargs;
this.meth = meth;
this.args = args;
}
@Override
public void accept(Visitor v) { v.visitApply(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.METHOD_INVOCATION; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getTypeArguments() {
return typeargs;
}
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getMethodSelect() { return meth; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getArguments() {
return args;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitMethodInvocation(this, d);
}
@Override
public JCMethodInvocation setType(Type type) {
super.setType(type);
return this;
}
@Override
public Tag getTag() {
return(APPLY);
}
}
/**
* A new(...) operation.
*/
public static class JCNewClass extends JCPolyExpression implements NewClassTree {
public JCExpression encl;
public List<JCExpression> typeargs;
public JCExpression clazz;
public List<JCExpression> args;
public JCClassDecl def;
public Symbol constructor;
public Type varargsElement;
public Type constructorType;
protected JCNewClass(JCExpression encl,
List<JCExpression> typeargs,
JCExpression clazz,
List<JCExpression> args,
JCClassDecl def)
{
this.encl = encl;
this.typeargs = (typeargs == null) ? List.nil()
: typeargs;
this.clazz = clazz;
this.args = args;
this.def = def;
}
@Override
public void accept(Visitor v) { v.visitNewClass(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.NEW_CLASS; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getEnclosingExpression() { // expr.new C< ... > ( ... )
return encl;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getTypeArguments() {
return typeargs;
}
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getIdentifier() { return clazz; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getArguments() {
return args;
}
@DefinedBy(Api.COMPILER_TREE)
public JCClassDecl getClassBody() { return def; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitNewClass(this, d);
}
@Override
public Tag getTag() {
return NEWCLASS;
}
}
/**
* A new[...] operation.
*/
public static class JCNewArray extends JCExpression implements NewArrayTree {
public JCExpression elemtype;
public List<JCExpression> dims;
// type annotations on inner-most component
public List<JCAnnotation> annotations;
// type annotations on dimensions
public List<List<JCAnnotation>> dimAnnotations;
public List<JCExpression> elems;
protected JCNewArray(JCExpression elemtype,
List<JCExpression> dims,
List<JCExpression> elems)
{
this.elemtype = elemtype;
this.dims = dims;
this.annotations = List.nil();
this.dimAnnotations = List.nil();
this.elems = elems;
}
@Override
public void accept(Visitor v) { v.visitNewArray(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.NEW_ARRAY; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getType() { return elemtype; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getDimensions() {
return dims;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getInitializers() {
return elems;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitNewArray(this, d);
}
@Override
public Tag getTag() {
return NEWARRAY;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getAnnotations() {
return annotations;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<List<JCAnnotation>> getDimAnnotations() {
return dimAnnotations;
}
}
/**
* A lambda expression.
*/
public static class JCLambda extends JCFunctionalExpression implements LambdaExpressionTree {
public enum ParameterKind {
IMPLICIT,
EXPLICIT
}
public List<JCVariableDecl> params;
public JCTree body;
public boolean canCompleteNormally = true;
public ParameterKind paramKind;
public JCLambda(List<JCVariableDecl> params,
JCTree body) {
this.params = params;
this.body = body;
if (params.isEmpty() ||
params.head.vartype != null) {
paramKind = ParameterKind.EXPLICIT;
} else {
paramKind = ParameterKind.IMPLICIT;
}
}
@Override
public Tag getTag() {
return LAMBDA;
}
@Override
public void accept(Visitor v) {
v.visitLambda(this);
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitLambdaExpression(this, d);
}
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.LAMBDA_EXPRESSION;
}
@DefinedBy(Api.COMPILER_TREE)
public JCTree getBody() {
return body;
}
@DefinedBy(Api.COMPILER_TREE)
public java.util.List<? extends VariableTree> getParameters() {
return params;
}
@Override
public JCLambda setType(Type type) {
super.setType(type);
return this;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public BodyKind getBodyKind() {
return body.hasTag(BLOCK) ?
BodyKind.STATEMENT :
BodyKind.EXPRESSION;
}
}
/**
* A parenthesized subexpression ( ... )
*/
public static class JCParens extends JCExpression implements ParenthesizedTree {
public JCExpression expr;
protected JCParens(JCExpression expr) {
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitParens(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.PARENTHESIZED; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitParenthesized(this, d);
}
@Override
public Tag getTag() {
return PARENS;
}
}
/**
* A assignment with "=".
*/
public static class JCAssign extends JCExpression implements AssignmentTree {
public JCExpression lhs;
public JCExpression rhs;
protected JCAssign(JCExpression lhs, JCExpression rhs) {
this.lhs = lhs;
this.rhs = rhs;
}
@Override
public void accept(Visitor v) { v.visitAssign(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ASSIGNMENT; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getVariable() { return lhs; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return rhs; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitAssignment(this, d);
}
@Override
public Tag getTag() {
return ASSIGN;
}
}
public static abstract class JCOperatorExpression extends JCExpression {
public enum OperandPos {
LEFT,
RIGHT
}
protected Tag opcode;
public OperatorSymbol operator;
public OperatorSymbol getOperator() {
return operator;
}
@Override
public Tag getTag() {
return opcode;
}
public abstract JCExpression getOperand(OperandPos pos);
}
/**
* An assignment with "+=", "|=" ...
*/
public static class JCAssignOp extends JCOperatorExpression implements CompoundAssignmentTree {
public JCExpression lhs;
public JCExpression rhs;
protected JCAssignOp(Tag opcode, JCTree lhs, JCTree rhs, OperatorSymbol operator) {
this.opcode = opcode;
this.lhs = (JCExpression)lhs;
this.rhs = (JCExpression)rhs;
this.operator = operator;
}
@Override
public void accept(Visitor v) { v.visitAssignop(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return TreeInfo.tagToKind(getTag()); }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getVariable() { return lhs; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return rhs; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitCompoundAssignment(this, d);
}
@Override
public JCExpression getOperand(OperandPos pos) {
return pos == OperandPos.LEFT ? lhs : rhs;
}
}
/**
* A unary operation.
*/
public static class JCUnary extends JCOperatorExpression implements UnaryTree {
public JCExpression arg;
protected JCUnary(Tag opcode, JCExpression arg) {
this.opcode = opcode;
this.arg = arg;
}
@Override
public void accept(Visitor v) { v.visitUnary(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return TreeInfo.tagToKind(getTag()); }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return arg; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitUnary(this, d);
}
public void setTag(Tag tag) {
opcode = tag;
}
@Override
public JCExpression getOperand(OperandPos pos) {
return arg;
}
}
/**
* A binary operation.
*/
public static class JCBinary extends JCOperatorExpression implements BinaryTree {
public JCExpression lhs;
public JCExpression rhs;
protected JCBinary(Tag opcode,
JCExpression lhs,
JCExpression rhs,
OperatorSymbol operator) {
this.opcode = opcode;
this.lhs = lhs;
this.rhs = rhs;
this.operator = operator;
}
@Override
public void accept(Visitor v) { v.visitBinary(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return TreeInfo.tagToKind(getTag()); }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getLeftOperand() { return lhs; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getRightOperand() { return rhs; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitBinary(this, d);
}
@Override
public JCExpression getOperand(OperandPos pos) {
return pos == OperandPos.LEFT ? lhs : rhs;
}
}
/**
* A type cast.
*/
public static class JCTypeCast extends JCExpression implements TypeCastTree {
public JCTree clazz;
public JCExpression expr;
protected JCTypeCast(JCTree clazz, JCExpression expr) {
this.clazz = clazz;
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitTypeCast(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.TYPE_CAST; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getType() { return clazz; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitTypeCast(this, d);
}
@Override
public Tag getTag() {
return TYPECAST;
}
}
/**
* A type test.
*/
public static class JCInstanceOf extends JCExpression implements InstanceOfTree {
public JCExpression expr;
public JCTree clazz;
protected JCInstanceOf(JCExpression expr, JCTree clazz) {
this.expr = expr;
this.clazz = clazz;
}
@Override
public void accept(Visitor v) { v.visitTypeTest(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.INSTANCE_OF; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getType() { return clazz; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitInstanceOf(this, d);
}
@Override
public Tag getTag() {
return TYPETEST;
}
}
/**
* An array selection
*/
public static class JCArrayAccess extends JCExpression implements ArrayAccessTree {
public JCExpression indexed;
public JCExpression index;
protected JCArrayAccess(JCExpression indexed, JCExpression index) {
this.indexed = indexed;
this.index = index;
}
@Override
public void accept(Visitor v) { v.visitIndexed(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ARRAY_ACCESS; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return indexed; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getIndex() { return index; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitArrayAccess(this, d);
}
@Override
public Tag getTag() {
return INDEXED;
}
}
/**
* Selects through packages and classes
*/
public static class JCFieldAccess extends JCExpression implements MemberSelectTree {
/** selected Tree hierarchy */
public JCExpression selected;
/** name of field to select thru */
public Name name;
/** symbol of the selected class */
public Symbol sym;
protected JCFieldAccess(JCExpression selected, Name name, Symbol sym) {
this.selected = selected;
this.name = name;
this.sym = sym;
}
@Override
public void accept(Visitor v) { v.visitSelect(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.MEMBER_SELECT; }
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getExpression() { return selected; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitMemberSelect(this, d);
}
@DefinedBy(Api.COMPILER_TREE)
public Name getIdentifier() { return name; }
@Override
public Tag getTag() {
return SELECT;
}
}
/**
* Selects a member expression.
*/
public static class JCMemberReference extends JCFunctionalExpression implements MemberReferenceTree {
public ReferenceMode mode;
public ReferenceKind kind;
public Name name;
public JCExpression expr;
public List<JCExpression> typeargs;
public Symbol sym;
public Type varargsElement;
public PolyKind refPolyKind;
public boolean ownerAccessible;
private OverloadKind overloadKind;
public Type referentType;
public enum OverloadKind {
OVERLOADED,
UNOVERLOADED
}
/**
* Javac-dependent classification for member references, based
* on relevant properties w.r.t. code-generation
*/
public enum ReferenceKind {
/** super # instMethod */
SUPER(ReferenceMode.INVOKE, false),
/** Type # instMethod */
UNBOUND(ReferenceMode.INVOKE, true),
/** Type # staticMethod */
STATIC(ReferenceMode.INVOKE, false),
/** Expr # instMethod */
BOUND(ReferenceMode.INVOKE, false),
/** Inner # new */
IMPLICIT_INNER(ReferenceMode.NEW, false),
/** Toplevel # new */
TOPLEVEL(ReferenceMode.NEW, false),
/** ArrayType # new */
ARRAY_CTOR(ReferenceMode.NEW, false);
final ReferenceMode mode;
final boolean unbound;
private ReferenceKind(ReferenceMode mode, boolean unbound) {
this.mode = mode;
this.unbound = unbound;
}
public boolean isUnbound() {
return unbound;
}
}
public JCMemberReference(ReferenceMode mode, Name name, JCExpression expr, List<JCExpression> typeargs) {
this.mode = mode;
this.name = name;
this.expr = expr;
this.typeargs = typeargs;
}
@Override
public void accept(Visitor v) { v.visitReference(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.MEMBER_REFERENCE; }
@Override @DefinedBy(Api.COMPILER_TREE)
public ReferenceMode getMode() { return mode; }
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getQualifierExpression() { return expr; }
@Override @DefinedBy(Api.COMPILER_TREE)
public Name getName() { return name; }
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getTypeArguments() { return typeargs; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitMemberReference(this, d);
}
@Override
public Tag getTag() {
return REFERENCE;
}
public boolean hasKind(ReferenceKind kind) {
return this.kind == kind;
}
/**
* @return the overloadKind
*/
public OverloadKind getOverloadKind() {
return overloadKind;
}
/**
* @param overloadKind the overloadKind to set
*/
public void setOverloadKind(OverloadKind overloadKind) {
this.overloadKind = overloadKind;
}
}
/**
* An identifier
*/
public static class JCIdent extends JCExpression implements IdentifierTree {
/** the name */
public Name name;
/** the symbol */
public Symbol sym;
protected JCIdent(Name name, Symbol sym) {
this.name = name;
this.sym = sym;
}
@Override
public void accept(Visitor v) { v.visitIdent(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.IDENTIFIER; }
@DefinedBy(Api.COMPILER_TREE)
public Name getName() { return name; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitIdentifier(this, d);
}
@Override
public Tag getTag() {
return IDENT;
}
}
/**
* A constant value given literally.
*/
public static class JCLiteral extends JCExpression implements LiteralTree {
public TypeTag typetag;
/** value representation */
public Object value;
protected JCLiteral(TypeTag typetag, Object value) {
this.typetag = typetag;
this.value = value;
}
@Override
public void accept(Visitor v) { v.visitLiteral(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return typetag.getKindLiteral();
}
@DefinedBy(Api.COMPILER_TREE)
public Object getValue() {
switch (typetag) {
case BOOLEAN:
int bi = (Integer) value;
return (bi != 0);
case CHAR:
int ci = (Integer) value;
char c = (char) ci;
if (c != ci)
throw new AssertionError("bad value for char literal");
return c;
default:
return value;
}
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitLiteral(this, d);
}
@Override
public JCLiteral setType(Type type) {
super.setType(type);
return this;
}
@Override
public Tag getTag() {
return LITERAL;
}
}
/**
* Identifies a basic type.
* @see TypeTag
*/
public static class JCPrimitiveTypeTree extends JCExpression implements PrimitiveTypeTree {
/** the basic type id */
public TypeTag typetag;
protected JCPrimitiveTypeTree(TypeTag typetag) {
this.typetag = typetag;
}
@Override
public void accept(Visitor v) { v.visitTypeIdent(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.PRIMITIVE_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public TypeKind getPrimitiveTypeKind() {
return typetag.getPrimitiveTypeKind();
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitPrimitiveType(this, d);
}
@Override
public Tag getTag() {
return TYPEIDENT;
}
}
/**
* An array type, A[]
*/
public static class JCArrayTypeTree extends JCExpression implements ArrayTypeTree {
public JCExpression elemtype;
protected JCArrayTypeTree(JCExpression elemtype) {
this.elemtype = elemtype;
}
@Override
public void accept(Visitor v) { v.visitTypeArray(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ARRAY_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getType() { return elemtype; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitArrayType(this, d);
}
@Override
public Tag getTag() {
return TYPEARRAY;
}
}
/**
* A parameterized type, {@literal T<...>}
*/
public static class JCTypeApply extends JCExpression implements ParameterizedTypeTree {
public JCExpression clazz;
public List<JCExpression> arguments;
protected JCTypeApply(JCExpression clazz, List<JCExpression> arguments) {
this.clazz = clazz;
this.arguments = arguments;
}
@Override
public void accept(Visitor v) { v.visitTypeApply(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.PARAMETERIZED_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getType() { return clazz; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getTypeArguments() {
return arguments;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitParameterizedType(this, d);
}
@Override
public Tag getTag() {
return TYPEAPPLY;
}
}
/**
* A union type, T1 | T2 | ... Tn (used in multicatch statements)
*/
public static class JCTypeUnion extends JCExpression implements UnionTypeTree {
public List<JCExpression> alternatives;
protected JCTypeUnion(List<JCExpression> components) {
this.alternatives = components;
}
@Override
public void accept(Visitor v) { v.visitTypeUnion(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.UNION_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getTypeAlternatives() {
return alternatives;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitUnionType(this, d);
}
@Override
public Tag getTag() {
return TYPEUNION;
}
}
/**
* An intersection type, {@code T1 & T2 & ... Tn} (used in cast expressions)
*/
public static class JCTypeIntersection extends JCExpression implements IntersectionTypeTree {
public List<JCExpression> bounds;
protected JCTypeIntersection(List<JCExpression> bounds) {
this.bounds = bounds;
}
@Override
public void accept(Visitor v) { v.visitTypeIntersection(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.INTERSECTION_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getBounds() {
return bounds;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitIntersectionType(this, d);
}
@Override
public Tag getTag() {
return TYPEINTERSECTION;
}
}
/**
* A formal class parameter.
*/
public static class JCTypeParameter extends JCTree implements TypeParameterTree {
/** name */
public Name name;
/** bounds */
public List<JCExpression> bounds;
/** type annotations on type parameter */
public List<JCAnnotation> annotations;
protected JCTypeParameter(Name name, List<JCExpression> bounds, List<JCAnnotation> annotations) {
this.name = name;
this.bounds = bounds;
this.annotations = annotations;
}
@Override
public void accept(Visitor v) { v.visitTypeParameter(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.TYPE_PARAMETER; }
@DefinedBy(Api.COMPILER_TREE)
public Name getName() { return name; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getBounds() {
return bounds;
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getAnnotations() {
return annotations;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitTypeParameter(this, d);
}
@Override
public Tag getTag() {
return TYPEPARAMETER;
}
}
public static class JCWildcard extends JCExpression implements WildcardTree {
public TypeBoundKind kind;
public JCTree inner;
protected JCWildcard(TypeBoundKind kind, JCTree inner) {
this.kind = Assert.checkNonNull(kind);
this.inner = inner;
}
@Override
public void accept(Visitor v) { v.visitWildcard(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
switch (kind.kind) {
case UNBOUND:
return Kind.UNBOUNDED_WILDCARD;
case EXTENDS:
return Kind.EXTENDS_WILDCARD;
case SUPER:
return Kind.SUPER_WILDCARD;
default:
throw new AssertionError("Unknown wildcard bound " + kind);
}
}
@DefinedBy(Api.COMPILER_TREE)
public JCTree getBound() { return inner; }
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitWildcard(this, d);
}
@Override
public Tag getTag() {
return Tag.WILDCARD;
}
}
public static class TypeBoundKind extends JCTree {
public BoundKind kind;
protected TypeBoundKind(BoundKind kind) {
this.kind = kind;
}
@Override
public void accept(Visitor v) { v.visitTypeBoundKind(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
throw new AssertionError("TypeBoundKind is not part of a public API");
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
throw new AssertionError("TypeBoundKind is not part of a public API");
}
@Override
public Tag getTag() {
return TYPEBOUNDKIND;
}
}
public static class JCAnnotation extends JCExpression implements AnnotationTree {
// Either Tag.ANNOTATION or Tag.TYPE_ANNOTATION
private Tag tag;
public JCTree annotationType;
public List<JCExpression> args;
public Attribute.Compound attribute;
protected JCAnnotation(Tag tag, JCTree annotationType, List<JCExpression> args) {
this.tag = tag;
this.annotationType = annotationType;
this.args = args;
}
@Override
public void accept(Visitor v) { v.visitAnnotation(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return TreeInfo.tagToKind(getTag()); }
@DefinedBy(Api.COMPILER_TREE)
public JCTree getAnnotationType() { return annotationType; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getArguments() {
return args;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitAnnotation(this, d);
}
@Override
public Tag getTag() {
return tag;
}
}
public static class JCModifiers extends JCTree implements com.sun.source.tree.ModifiersTree {
public long flags;
public List<JCAnnotation> annotations;
protected JCModifiers(long flags, List<JCAnnotation> annotations) {
this.flags = flags;
this.annotations = annotations;
}
@Override
public void accept(Visitor v) { v.visitModifiers(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.MODIFIERS; }
@DefinedBy(Api.COMPILER_TREE)
public Set<Modifier> getFlags() {
return Flags.asModifierSet(flags);
}
@DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getAnnotations() {
return annotations;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitModifiers(this, d);
}
@Override
public Tag getTag() {
return MODIFIERS;
}
}
public static class JCAnnotatedType extends JCExpression implements com.sun.source.tree.AnnotatedTypeTree {
// type annotations
public List<JCAnnotation> annotations;
public JCExpression underlyingType;
protected JCAnnotatedType(List<JCAnnotation> annotations, JCExpression underlyingType) {
Assert.check(annotations != null && annotations.nonEmpty());
this.annotations = annotations;
this.underlyingType = underlyingType;
}
@Override
public void accept(Visitor v) { v.visitAnnotatedType(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ANNOTATED_TYPE; }
@DefinedBy(Api.COMPILER_TREE)
public List<JCAnnotation> getAnnotations() {
return annotations;
}
@DefinedBy(Api.COMPILER_TREE)
public JCExpression getUnderlyingType() {
return underlyingType;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitAnnotatedType(this, d);
}
@Override
public Tag getTag() {
return ANNOTATED_TYPE;
}
}
public static abstract class JCDirective extends JCTree
implements DirectiveTree {
}
public static class JCModuleDecl extends JCTree implements ModuleTree {
public JCModifiers mods;
public ModuleType type;
private final ModuleKind kind;
public JCExpression qualId;
public List<JCDirective> directives;
public ModuleSymbol sym;
protected JCModuleDecl(JCModifiers mods, ModuleKind kind,
JCExpression qualId, List<JCDirective> directives) {
this.mods = mods;
this.kind = kind;
this.qualId = qualId;
this.directives = directives;
}
@Override
public void accept(Visitor v) { v.visitModuleDef(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.MODULE;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<? extends AnnotationTree> getAnnotations() {
return mods.annotations;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public ModuleKind getModuleType() {
return kind;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getName() {
return qualId;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCDirective> getDirectives() {
return directives;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitModule(this, d);
}
@Override
public Tag getTag() {
return MODULEDEF;
}
}
public static class JCExports extends JCDirective
implements ExportsTree {
public JCExpression qualid;
public List<JCExpression> moduleNames;
public ExportsDirective directive;
protected JCExports(JCExpression qualId, List<JCExpression> moduleNames) {
this.qualid = qualId;
this.moduleNames = moduleNames;
}
@Override
public void accept(Visitor v) { v.visitExports(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.EXPORTS;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getPackageName() {
return qualid;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getModuleNames() {
return moduleNames;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitExports(this, d);
}
@Override
public Tag getTag() {
return Tag.EXPORTS;
}
}
public static class JCOpens extends JCDirective
implements OpensTree {
public JCExpression qualid;
public List<JCExpression> moduleNames;
public OpensDirective directive;
protected JCOpens(JCExpression qualId, List<JCExpression> moduleNames) {
this.qualid = qualId;
this.moduleNames = moduleNames;
}
@Override
public void accept(Visitor v) { v.visitOpens(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.OPENS;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getPackageName() {
return qualid;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getModuleNames() {
return moduleNames;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitOpens(this, d);
}
@Override
public Tag getTag() {
return Tag.OPENS;
}
}
public static class JCProvides extends JCDirective
implements ProvidesTree {
public JCExpression serviceName;
public List<JCExpression> implNames;
protected JCProvides(JCExpression serviceName, List<JCExpression> implNames) {
this.serviceName = serviceName;
this.implNames = implNames;
}
@Override
public void accept(Visitor v) { v.visitProvides(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.PROVIDES;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitProvides(this, d);
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getServiceName() {
return serviceName;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public List<JCExpression> getImplementationNames() {
return implNames;
}
@Override
public Tag getTag() {
return PROVIDES;
}
}
public static class JCRequires extends JCDirective
implements RequiresTree {
public boolean isTransitive;
public boolean isStaticPhase;
public JCExpression moduleName;
public RequiresDirective directive;
protected JCRequires(boolean isTransitive, boolean isStaticPhase, JCExpression moduleName) {
this.isTransitive = isTransitive;
this.isStaticPhase = isStaticPhase;
this.moduleName = moduleName;
}
@Override
public void accept(Visitor v) { v.visitRequires(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.REQUIRES;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitRequires(this, d);
}
@Override @DefinedBy(Api.COMPILER_TREE)
public boolean isTransitive() {
return isTransitive;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public boolean isStatic() {
return isStaticPhase;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getModuleName() {
return moduleName;
}
@Override
public Tag getTag() {
return REQUIRES;
}
}
public static class JCUses extends JCDirective
implements UsesTree {
public JCExpression qualid;
protected JCUses(JCExpression qualId) {
this.qualid = qualId;
}
@Override
public void accept(Visitor v) { v.visitUses(this); }
@Override @DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
return Kind.USES;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public JCExpression getServiceName() {
return qualid;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R, D> R accept(TreeVisitor<R, D> v, D d) {
return v.visitUses(this, d);
}
@Override
public Tag getTag() {
return USES;
}
}
public static class JCErroneous extends JCExpression
implements ErroneousTree {
public List<? extends JCTree> errs;
protected JCErroneous(List<? extends JCTree> errs) {
this.errs = errs;
}
@Override
public void accept(Visitor v) { v.visitErroneous(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() { return Kind.ERRONEOUS; }
@DefinedBy(Api.COMPILER_TREE)
public List<? extends JCTree> getErrorTrees() {
return errs;
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
return v.visitErroneous(this, d);
}
@Override
public Tag getTag() {
return ERRONEOUS;
}
}
/** (let int x = 3; in x+2) */
public static class LetExpr extends JCExpression {
public List<JCStatement> defs;
public JCExpression expr;
protected LetExpr(List<JCStatement> defs, JCExpression expr) {
this.defs = defs;
this.expr = expr;
}
@Override
public void accept(Visitor v) { v.visitLetExpr(this); }
@DefinedBy(Api.COMPILER_TREE)
public Kind getKind() {
throw new AssertionError("LetExpr is not part of a public API");
}
@Override @DefinedBy(Api.COMPILER_TREE)
public <R,D> R accept(TreeVisitor<R,D> v, D d) {
throw new AssertionError("LetExpr is not part of a public API");
}
@Override
public Tag getTag() {
return LETEXPR;
}
}
/** An interface for tree factories
*/
public interface Factory {
JCCompilationUnit TopLevel(List<JCTree> defs);
JCPackageDecl PackageDecl(List<JCAnnotation> annotations,
JCExpression pid);
JCImport Import(JCTree qualid, boolean staticImport);
JCClassDecl ClassDef(JCModifiers mods,
Name name,
List<JCTypeParameter> typarams,
JCExpression extending,
List<JCExpression> implementing,
List<JCTree> defs);
JCMethodDecl MethodDef(JCModifiers mods,
Name name,
JCExpression restype,
List<JCTypeParameter> typarams,
JCVariableDecl recvparam,
List<JCVariableDecl> params,
List<JCExpression> thrown,
JCBlock body,
JCExpression defaultValue);
JCVariableDecl VarDef(JCModifiers mods,
Name name,
JCExpression vartype,
JCExpression init);
JCSkip Skip();
JCBlock Block(long flags, List<JCStatement> stats);
JCDoWhileLoop DoLoop(JCStatement body, JCExpression cond);
JCWhileLoop WhileLoop(JCExpression cond, JCStatement body);
JCForLoop ForLoop(List<JCStatement> init,
JCExpression cond,
List<JCExpressionStatement> step,
JCStatement body);
JCEnhancedForLoop ForeachLoop(JCVariableDecl var, JCExpression expr, JCStatement body);
JCLabeledStatement Labelled(Name label, JCStatement body);
JCSwitch Switch(JCExpression selector, List<JCCase> cases);
JCSwitchExpression SwitchExpression(JCExpression selector, List<JCCase> cases);
JCCase Case(@SuppressWarnings("removal") CaseKind caseKind, List<JCExpression> pat,
List<JCStatement> stats, JCTree body);
JCSynchronized Synchronized(JCExpression lock, JCBlock body);
JCTry Try(JCBlock body, List<JCCatch> catchers, JCBlock finalizer);
JCTry Try(List<JCTree> resources,
JCBlock body,
List<JCCatch> catchers,
JCBlock finalizer);
JCCatch Catch(JCVariableDecl param, JCBlock body);
JCConditional Conditional(JCExpression cond,
JCExpression thenpart,
JCExpression elsepart);
JCIf If(JCExpression cond, JCStatement thenpart, JCStatement elsepart);
JCExpressionStatement Exec(JCExpression expr);
JCBreak Break(JCExpression value);
JCContinue Continue(Name label);
JCReturn Return(JCExpression expr);
JCThrow Throw(JCExpression expr);
JCAssert Assert(JCExpression cond, JCExpression detail);
JCMethodInvocation Apply(List<JCExpression> typeargs,
JCExpression fn,
List<JCExpression> args);
JCNewClass NewClass(JCExpression encl,
List<JCExpression> typeargs,
JCExpression clazz,
List<JCExpression> args,
JCClassDecl def);
JCNewArray NewArray(JCExpression elemtype,
List<JCExpression> dims,
List<JCExpression> elems);
JCParens Parens(JCExpression expr);
JCAssign Assign(JCExpression lhs, JCExpression rhs);
JCAssignOp Assignop(Tag opcode, JCTree lhs, JCTree rhs);
JCUnary Unary(Tag opcode, JCExpression arg);
JCBinary Binary(Tag opcode, JCExpression lhs, JCExpression rhs);
JCTypeCast TypeCast(JCTree expr, JCExpression type);
JCInstanceOf TypeTest(JCExpression expr, JCTree clazz);
JCArrayAccess Indexed(JCExpression indexed, JCExpression index);
JCFieldAccess Select(JCExpression selected, Name selector);
JCIdent Ident(Name idname);
JCLiteral Literal(TypeTag tag, Object value);
JCPrimitiveTypeTree TypeIdent(TypeTag typetag);
JCArrayTypeTree TypeArray(JCExpression elemtype);
JCTypeApply TypeApply(JCExpression clazz, List<JCExpression> arguments);
JCTypeParameter TypeParameter(Name name, List<JCExpression> bounds);
JCWildcard Wildcard(TypeBoundKind kind, JCTree type);
TypeBoundKind TypeBoundKind(BoundKind kind);
JCAnnotation Annotation(JCTree annotationType, List<JCExpression> args);
JCModifiers Modifiers(long flags, List<JCAnnotation> annotations);
JCErroneous Erroneous(List<? extends JCTree> errs);
JCModuleDecl ModuleDef(JCModifiers mods, ModuleKind kind, JCExpression qualId, List<JCDirective> directives);
JCExports Exports(JCExpression qualId, List<JCExpression> moduleNames);
JCOpens Opens(JCExpression qualId, List<JCExpression> moduleNames);
JCProvides Provides(JCExpression serviceName, List<JCExpression> implNames);
JCRequires Requires(boolean isTransitive, boolean isStaticPhase, JCExpression qualId);
JCUses Uses(JCExpression qualId);
LetExpr LetExpr(List<JCStatement> defs, JCExpression expr);
}
/** A generic visitor class for trees.
*/
public static abstract class Visitor {
public void visitTopLevel(JCCompilationUnit that) { visitTree(that); }
public void visitPackageDef(JCPackageDecl that) { visitTree(that); }
public void visitImport(JCImport that) { visitTree(that); }
public void visitClassDef(JCClassDecl that) { visitTree(that); }
public void visitMethodDef(JCMethodDecl that) { visitTree(that); }
public void visitVarDef(JCVariableDecl that) { visitTree(that); }
public void visitSkip(JCSkip that) { visitTree(that); }
public void visitBlock(JCBlock that) { visitTree(that); }
public void visitDoLoop(JCDoWhileLoop that) { visitTree(that); }
public void visitWhileLoop(JCWhileLoop that) { visitTree(that); }
public void visitForLoop(JCForLoop that) { visitTree(that); }
public void visitForeachLoop(JCEnhancedForLoop that) { visitTree(that); }
public void visitLabelled(JCLabeledStatement that) { visitTree(that); }
public void visitSwitch(JCSwitch that) { visitTree(that); }
public void visitCase(JCCase that) { visitTree(that); }
public void visitSwitchExpression(JCSwitchExpression that) { visitTree(that); }
public void visitSynchronized(JCSynchronized that) { visitTree(that); }
public void visitTry(JCTry that) { visitTree(that); }
public void visitCatch(JCCatch that) { visitTree(that); }
public void visitConditional(JCConditional that) { visitTree(that); }
public void visitIf(JCIf that) { visitTree(that); }
public void visitExec(JCExpressionStatement that) { visitTree(that); }
public void visitBreak(JCBreak that) { visitTree(that); }
public void visitContinue(JCContinue that) { visitTree(that); }
public void visitReturn(JCReturn that) { visitTree(that); }
public void visitThrow(JCThrow that) { visitTree(that); }
public void visitAssert(JCAssert that) { visitTree(that); }
public void visitApply(JCMethodInvocation that) { visitTree(that); }
public void visitNewClass(JCNewClass that) { visitTree(that); }
public void visitNewArray(JCNewArray that) { visitTree(that); }
public void visitLambda(JCLambda that) { visitTree(that); }
public void visitParens(JCParens that) { visitTree(that); }
public void visitAssign(JCAssign that) { visitTree(that); }
public void visitAssignop(JCAssignOp that) { visitTree(that); }
public void visitUnary(JCUnary that) { visitTree(that); }
public void visitBinary(JCBinary that) { visitTree(that); }
public void visitTypeCast(JCTypeCast that) { visitTree(that); }
public void visitTypeTest(JCInstanceOf that) { visitTree(that); }
public void visitIndexed(JCArrayAccess that) { visitTree(that); }
public void visitSelect(JCFieldAccess that) { visitTree(that); }
public void visitReference(JCMemberReference that) { visitTree(that); }
public void visitIdent(JCIdent that) { visitTree(that); }
public void visitLiteral(JCLiteral that) { visitTree(that); }
public void visitTypeIdent(JCPrimitiveTypeTree that) { visitTree(that); }
public void visitTypeArray(JCArrayTypeTree that) { visitTree(that); }
public void visitTypeApply(JCTypeApply that) { visitTree(that); }
public void visitTypeUnion(JCTypeUnion that) { visitTree(that); }
public void visitTypeIntersection(JCTypeIntersection that) { visitTree(that); }
public void visitTypeParameter(JCTypeParameter that) { visitTree(that); }
public void visitWildcard(JCWildcard that) { visitTree(that); }
public void visitTypeBoundKind(TypeBoundKind that) { visitTree(that); }
public void visitAnnotation(JCAnnotation that) { visitTree(that); }
public void visitModifiers(JCModifiers that) { visitTree(that); }
public void visitAnnotatedType(JCAnnotatedType that) { visitTree(that); }
public void visitErroneous(JCErroneous that) { visitTree(that); }
public void visitModuleDef(JCModuleDecl that) { visitTree(that); }
public void visitExports(JCExports that) { visitTree(that); }
public void visitOpens(JCOpens that) { visitTree(that); }
public void visitProvides(JCProvides that) { visitTree(that); }
public void visitRequires(JCRequires that) { visitTree(that); }
public void visitUses(JCUses that) { visitTree(that); }
public void visitLetExpr(LetExpr that) { visitTree(that); }
public void visitTree(JCTree that) { Assert.error(); }
}
}