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package lombok.javac;
import java.io.IOException;
import java.io.OutputStream;
import java.io.PrintWriter;
import java.lang.reflect.Field;
import java.util.ArrayDeque;
import java.util.LinkedList;
import java.util.Map;
import java.util.Queue;
import javax.lang.model.type.TypeKind;
import javax.tools.DiagnosticListener;
import com.sun.tools.javac.code.BoundKind;
import com.sun.tools.javac.code.Symbol.TypeSymbol;
import com.sun.tools.javac.code.Symtab;
import com.sun.tools.javac.code.Type;
import com.sun.tools.javac.code.Type.ArrayType;
import com.sun.tools.javac.code.Type.CapturedType;
import com.sun.tools.javac.code.Type.ClassType;
import com.sun.tools.javac.code.Type.WildcardType;
import com.sun.tools.javac.code.TypeTags;
import com.sun.tools.javac.code.Types;
import com.sun.tools.javac.comp.Attr;
import com.sun.tools.javac.comp.AttrContext;
import com.sun.tools.javac.comp.Enter;
import com.sun.tools.javac.comp.Env;
import com.sun.tools.javac.comp.MemberEnter;
import com.sun.tools.javac.tree.JCTree;
import com.sun.tools.javac.tree.JCTree.JCBlock;
import com.sun.tools.javac.tree.JCTree.JCClassDecl;
import com.sun.tools.javac.tree.JCTree.JCCompilationUnit;
import com.sun.tools.javac.tree.JCTree.JCExpression;
import com.sun.tools.javac.tree.JCTree.JCMethodDecl;
import com.sun.tools.javac.tree.JCTree.JCVariableDecl;
import com.sun.tools.javac.tree.TreeMaker;
import com.sun.tools.javac.util.Context;
import com.sun.tools.javac.util.List;
import com.sun.tools.javac.util.ListBuffer;
import com.sun.tools.javac.util.Log;
public class JavacResolution {
private final Attr attr;
private final LogDisabler logDisabler;
public JavacResolution(Context context) {
attr = Attr.instance(context);
logDisabler = new LogDisabler(context);
}
/**
* During resolution, the resolver will emit resolution errors, but without appropriate file names and line numbers. If these resolution errors stick around
* then they will be generated AGAIN, this time with proper names and line numbers, at the end. Therefore, we want to suppress the logger.
*/
private static final class LogDisabler {
private final Log log;
private static final Field errWriterField, warnWriterField, noticeWriterField, dumpOnErrorField, promptOnErrorField, diagnosticListenerField;
private static final Field deferDiagnosticsField, deferredDiagnosticsField;
private PrintWriter errWriter, warnWriter, noticeWriter;
private Boolean dumpOnError, promptOnError;
private DiagnosticListener<?> contextDiagnosticListener, logDiagnosticListener;
private final Context context;
// If this is true, the fields changed. Better to print weird error messages than to fail outright.
private static final boolean dontBother;
private static final ThreadLocal<Queue<?>> queueCache = new ThreadLocal<Queue<?>>();
static {
boolean z;
Field a = null, b = null, c = null, d = null, e = null, f = null, g = null, h = null;
try {
a = Log.class.getDeclaredField("errWriter");
b = Log.class.getDeclaredField("warnWriter");
c = Log.class.getDeclaredField("noticeWriter");
d = Log.class.getDeclaredField("dumpOnError");
e = Log.class.getDeclaredField("promptOnError");
f = Log.class.getDeclaredField("diagListener");
z = false;
a.setAccessible(true);
b.setAccessible(true);
c.setAccessible(true);
d.setAccessible(true);
e.setAccessible(true);
f.setAccessible(true);
} catch (Exception x) {
z = true;
}
try {
g = Log.class.getDeclaredField("deferDiagnostics");
h = Log.class.getDeclaredField("deferredDiagnostics");
g.setAccessible(true);
h.setAccessible(true);
} catch (Exception x) {
}
errWriterField = a;
warnWriterField = b;
noticeWriterField = c;
dumpOnErrorField = d;
promptOnErrorField = e;
diagnosticListenerField = f;
deferDiagnosticsField = g;
deferredDiagnosticsField = h;
dontBother = z;
}
LogDisabler(Context context) {
this.log = Log.instance(context);
this.context = context;
}
boolean disableLoggers() {
contextDiagnosticListener = context.get(DiagnosticListener.class);
context.put(DiagnosticListener.class, (DiagnosticListener<?>) null);
if (dontBother) return false;
boolean dontBotherInstance = false;
PrintWriter dummyWriter = new PrintWriter(new OutputStream() {
@Override public void write(int b) throws IOException {
// Do nothing on purpose
}
});
if (deferDiagnosticsField != null) try {
if (Boolean.TRUE.equals(deferDiagnosticsField.get(log))) {
queueCache.set((Queue<?>) deferredDiagnosticsField.get(log));
Queue<?> empty = new LinkedList<Object>();
deferredDiagnosticsField.set(log, empty);
}
} catch (Exception e) {}
if (!dontBotherInstance) try {
errWriter = (PrintWriter) errWriterField.get(log);
errWriterField.set(log, dummyWriter);
} catch (Exception e) {
dontBotherInstance = true;
}
if (!dontBotherInstance) try {
warnWriter = (PrintWriter) warnWriterField.get(log);
warnWriterField.set(log, dummyWriter);
} catch (Exception e) {
dontBotherInstance = true;
}
if (!dontBotherInstance) try {
noticeWriter = (PrintWriter) noticeWriterField.get(log);
noticeWriterField.set(log, dummyWriter);
} catch (Exception e) {
dontBotherInstance = true;
}
if (!dontBotherInstance) try {
dumpOnError = (Boolean) dumpOnErrorField.get(log);
dumpOnErrorField.set(log, false);
} catch (Exception e) {
dontBotherInstance = true;
}
if (!dontBotherInstance) try {
promptOnError = (Boolean) promptOnErrorField.get(log);
promptOnErrorField.set(log, false);
} catch (Exception e) {
dontBotherInstance = true;
}
if (!dontBotherInstance) try {
logDiagnosticListener = (DiagnosticListener<?>) diagnosticListenerField.get(log);
diagnosticListenerField.set(log, null);
} catch (Exception e) {
dontBotherInstance = true;
}
if (dontBotherInstance) enableLoggers();
return !dontBotherInstance;
}
void enableLoggers() {
if (contextDiagnosticListener != null) {
context.put(DiagnosticListener.class, contextDiagnosticListener);
contextDiagnosticListener = null;
}
if (errWriter != null) try {
errWriterField.set(log, errWriter);
errWriter = null;
} catch (Exception e) {}
if (warnWriter != null) try {
warnWriterField.set(log, warnWriter);
warnWriter = null;
} catch (Exception e) {}
if (noticeWriter != null) try {
noticeWriterField.set(log, noticeWriter);
noticeWriter = null;
} catch (Exception e) {}
if (dumpOnError != null) try {
dumpOnErrorField.set(log, dumpOnError);
dumpOnError = null;
} catch (Exception e) {}
if (promptOnError != null) try {
promptOnErrorField.set(log, promptOnError);
promptOnError = null;
} catch (Exception e) {}
if (logDiagnosticListener != null) try {
diagnosticListenerField.set(log, logDiagnosticListener);
logDiagnosticListener = null;
} catch (Exception e) {}
if (deferDiagnosticsField != null && queueCache.get() != null) try {
deferredDiagnosticsField.set(log, queueCache.get());
queueCache.set(null);
} catch (Exception e) {}
}
}
/*
* We need to dig down to the level of the method or field declaration or (static) initializer block, then attribute that entire method/field/block using
* the appropriate environment. So, we start from the top and walk down the node tree until we hit that method/field/block and stop there, recording both
* the environment object (`env`) and the exact tree node (`copyAt`) at which to begin the attr process.
*/
private static final class EnvFinder extends JCTree.Visitor {
private Env<AttrContext> env = null;
private Enter enter;
private MemberEnter memberEnter;
private JCTree copyAt = null;
EnvFinder(Context context) {
this.enter = Enter.instance(context);
this.memberEnter = MemberEnter.instance(context);
}
Env<AttrContext> get() {
return env;
}
JCTree copyAt() {
return copyAt;
}
@Override public void visitTopLevel(JCCompilationUnit tree) {
if (copyAt != null) return;
env = enter.getTopLevelEnv(tree);
}
@Override public void visitClassDef(JCClassDecl tree) {
if (copyAt != null) return;
// The commented out stuff requires reflection tricks to avoid leaving lint unset which causes NPEs during attrib. So, we use the other one, much less code.
// env = enter.classEnv((JCClassDecl) tree, env);
// try {
// Field f = env.info.getClass().getDeclaredField("lint");
// f.setAccessible(true);
// Constructor<?> c = Lint.class.getDeclaredConstructor(Lint.class);
// c.setAccessible(true);
// f.set(env.info, c.newInstance(lint));
// } catch (Exception e) {
// throw Lombok.sneakyThrow(e);
// }
env = enter.getClassEnv(tree.sym);
}
@Override public void visitMethodDef(JCMethodDecl tree) {
if (copyAt != null) return;
env = memberEnter.getMethodEnv(tree, env);
copyAt = tree;
}
public void visitVarDef(JCVariableDecl tree) {
if (copyAt != null) return;
env = memberEnter.getInitEnv(tree, env);
copyAt = tree;
}
@Override public void visitBlock(JCBlock tree) {
if (copyAt != null) return;
copyAt = tree;
}
@Override public void visitTree(JCTree that) {
}
}
public Map<JCTree, JCTree> resolveMethodMember(JavacNode node) {
ArrayDeque<JCTree> stack = new ArrayDeque<JCTree>();
{
JavacNode n = node;
while (n != null) {
stack.push(n.get());
n = n.up();
}
}
logDisabler.disableLoggers();
try {
EnvFinder finder = new EnvFinder(node.getContext());
while (!stack.isEmpty()) stack.pop().accept(finder);
TreeMirrorMaker mirrorMaker = new TreeMirrorMaker(node.getTreeMaker());
JCTree copy = mirrorMaker.copy(finder.copyAt());
attrib(copy, finder.get());
return mirrorMaker.getOriginalToCopyMap();
} finally {
logDisabler.enableLoggers();
}
}
public void resolveClassMember(JavacNode node) {
ArrayDeque<JCTree> stack = new ArrayDeque<JCTree>();
{
JavacNode n = node;
while (n != null) {
stack.push(n.get());
n = n.up();
}
}
logDisabler.disableLoggers();
try {
EnvFinder finder = new EnvFinder(node.getContext());
while (!stack.isEmpty()) stack.pop().accept(finder);
attrib(node.get(), finder.get());
} finally {
logDisabler.enableLoggers();
}
}
private void attrib(JCTree tree, Env<AttrContext> env) {
if (tree instanceof JCBlock) attr.attribStat(tree, env);
else if (tree instanceof JCMethodDecl) attr.attribStat(((JCMethodDecl)tree).body, env);
else if (tree instanceof JCVariableDecl) attr.attribStat(tree, env);
else throw new IllegalStateException("Called with something that isn't a block, method decl, or variable decl");
}
public static class TypeNotConvertibleException extends Exception {
public TypeNotConvertibleException(String msg) {
super(msg);
}
}
public static Type ifTypeIsIterableToComponent(Type type, JavacAST ast) {
Types types = Types.instance(ast.getContext());
Symtab syms = Symtab.instance(ast.getContext());
Type boundType = types.upperBound(type);
Type elemTypeIfArray = types.elemtype(boundType);
if (elemTypeIfArray != null) return elemTypeIfArray;
Type base = types.asSuper(boundType, syms.iterableType.tsym);
if (base == null) return syms.objectType;
List<Type> iterableParams = base.allparams();
return iterableParams.isEmpty() ? syms.objectType : types.upperBound(iterableParams.head);
}
public static JCExpression typeToJCTree(Type type, TreeMaker maker, JavacAST ast, boolean allowVoid) throws TypeNotConvertibleException {
return typeToJCTree(type, maker, ast, false, allowVoid);
}
public static JCExpression createJavaLangObject(TreeMaker maker, JavacAST ast) {
JCExpression out = maker.Ident(ast.toName("java"));
out = maker.Select(out, ast.toName("lang"));
out = maker.Select(out, ast.toName("Object"));
return out;
}
private static JCExpression typeToJCTree(Type type, TreeMaker maker, JavacAST ast, boolean allowCompound, boolean allowVoid) throws TypeNotConvertibleException {
int dims = 0;
Type type0 = type;
while (type0 instanceof ArrayType) {
dims++;
type0 = ((ArrayType)type0).elemtype;
}
JCExpression result = typeToJCTree0(type0, maker, ast, allowCompound, allowVoid);
while (dims > 0) {
result = maker.TypeArray(result);
dims--;
}
return result;
}
private static JCExpression typeToJCTree0(Type type, TreeMaker maker, JavacAST ast, boolean allowCompound, boolean allowVoid) throws TypeNotConvertibleException {
// NB: There's such a thing as maker.Type(type), but this doesn't work very well; it screws up anonymous classes, captures, and adds an extra prefix dot for some reason too.
// -- so we write our own take on that here.
if (type.tag == Javac.getCtcInt(TypeTags.class, "BOT")) return createJavaLangObject(maker, ast);
if (type.tag == Javac.getCtcInt(TypeTags.class, "VOID")) return allowVoid ? primitiveToJCTree(type.getKind(), maker) : createJavaLangObject(maker, ast);
if (type.isPrimitive()) return primitiveToJCTree(type.getKind(), maker);
if (type.isErroneous()) throw new TypeNotConvertibleException("Type cannot be resolved");
TypeSymbol symbol = type.asElement();
List<Type> generics = type.getTypeArguments();
JCExpression replacement = null;
if (symbol == null) throw new TypeNotConvertibleException("Null or compound type");
if (symbol.name.length() == 0) {
// Anonymous inner class
if (type instanceof ClassType) {
List<Type> ifaces = ((ClassType)type).interfaces_field;
Type supertype = ((ClassType)type).supertype_field;
if (ifaces != null && ifaces.length() == 1) {
return typeToJCTree(ifaces.get(0), maker, ast, allowCompound, allowVoid);
}
if (supertype != null) return typeToJCTree(supertype, maker, ast, allowCompound, allowVoid);
}
throw new TypeNotConvertibleException("Anonymous inner class");
}
if (type instanceof CapturedType || type instanceof WildcardType) {
Type lower, upper;
if (type instanceof WildcardType) {
upper = ((WildcardType)type).getExtendsBound();
lower = ((WildcardType)type).getSuperBound();
} else {
lower = type.getLowerBound();
upper = type.getUpperBound();
}
if (allowCompound) {
if (lower == null || lower.tag == Javac.getCtcInt(TypeTags.class, "BOT")) {
if (upper == null || upper.toString().equals("java.lang.Object")) {
return maker.Wildcard(maker.TypeBoundKind(BoundKind.UNBOUND), null);
}
return maker.Wildcard(maker.TypeBoundKind(BoundKind.EXTENDS), typeToJCTree(upper, maker, ast, false, false));
} else {
return maker.Wildcard(maker.TypeBoundKind(BoundKind.SUPER), typeToJCTree(lower, maker, ast, false, false));
}
}
if (upper != null) {
return typeToJCTree(upper, maker, ast, allowCompound, allowVoid);
}
return createJavaLangObject(maker, ast);
}
String qName = symbol.getQualifiedName().toString();
if (qName.isEmpty()) throw new TypeNotConvertibleException("unknown type");
if (qName.startsWith("<")) throw new TypeNotConvertibleException(qName);
String[] baseNames = symbol.getQualifiedName().toString().split("\\.");
replacement = maker.Ident(ast.toName(baseNames[0]));
for (int i = 1; i < baseNames.length; i++) {
replacement = maker.Select(replacement, ast.toName(baseNames[i]));
}
if (generics != null && !generics.isEmpty()) {
ListBuffer<JCExpression> args = ListBuffer.lb();
for (Type t : generics) args.append(typeToJCTree(t, maker, ast, true, false));
replacement = maker.TypeApply(replacement, args.toList());
}
return replacement;
}
private static JCExpression primitiveToJCTree(TypeKind kind, TreeMaker maker) throws TypeNotConvertibleException {
switch (kind) {
case BYTE:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "BYTE"));
case CHAR:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "CHAR"));
case SHORT:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "SHORT"));
case INT:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "INT"));
case LONG:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "LONG"));
case FLOAT:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "FLOAT"));
case DOUBLE:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "DOUBLE"));
case BOOLEAN:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "BOOLEAN"));
case VOID:
return maker.TypeIdent(Javac.getCtcInt(TypeTags.class, "VOID"));
case NULL:
case NONE:
case OTHER:
default:
throw new TypeNotConvertibleException("Nulltype");
}
}
}
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