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/*
* Copyright 2019 Google Inc. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.turbine.processing;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.turbine.binder.bound.SourceTypeBoundClass;
import com.google.turbine.binder.bound.TurbineAnnotationValue;
import com.google.turbine.binder.bound.TypeBoundClass;
import com.google.turbine.binder.bound.TypeBoundClass.MethodInfo;
import com.google.turbine.binder.bound.TypeBoundClass.TyVarInfo;
import com.google.turbine.binder.sym.ClassSymbol;
import com.google.turbine.binder.sym.FieldSymbol;
import com.google.turbine.binder.sym.MethodSymbol;
import com.google.turbine.binder.sym.ParamSymbol;
import com.google.turbine.binder.sym.Symbol;
import com.google.turbine.binder.sym.TyVarSymbol;
import com.google.turbine.diag.SourceFile;
import com.google.turbine.diag.TurbineError;
import com.google.turbine.diag.TurbineLog;
import com.google.turbine.model.Const;
import com.google.turbine.processing.TurbineElement.TurbineNoTypeElement;
import com.google.turbine.tree.Tree;
import com.google.turbine.type.AnnoInfo;
import java.util.Iterator;
import javax.annotation.processing.Messager;
import javax.lang.model.element.AnnotationMirror;
import javax.lang.model.element.AnnotationValue;
import javax.lang.model.element.Element;
import javax.tools.Diagnostic;
import org.checkerframework.checker.nullness.qual.Nullable;
/** Turbine's implementation of {@link Messager}. */
public class TurbineMessager implements Messager {
private final ModelFactory factory;
private final TurbineLog log;
public TurbineMessager(ModelFactory factory, TurbineLog log) {
this.factory = factory;
this.log = log;
}
@Override
public void printMessage(Diagnostic.Kind kind, CharSequence msg) {
// TODO(cushon): null-check `msg` after fixing affected processors
log.diagnostic(kind, String.valueOf(msg));
}
@Override
public void printMessage(Diagnostic.Kind kind, CharSequence msg, Element e) {
if (e == null || e instanceof TurbineNoTypeElement) {
printMessage(kind, msg);
return;
}
Symbol sym = ((TurbineElement) e).sym();
SourceFile source = getSource(sym);
int position = getPosition(sym);
log.withSource(source).diagnostic(kind, position, TurbineError.ErrorKind.PROC, msg);
}
@Override
public void printMessage(Diagnostic.Kind kind, CharSequence msg, Element e, AnnotationMirror a) {
if (a == null || e == null || e instanceof TurbineNoTypeElement) {
printMessage(kind, msg, e);
return;
}
SourceFile source = getSource(((TurbineElement) e).sym());
int position = ((TurbineAnnotationMirror) a).anno().tree().position();
log.withSource(source).diagnostic(kind, position, TurbineError.ErrorKind.PROC, msg);
}
@Override
public void printMessage(
Diagnostic.Kind kind, CharSequence msg, Element e, AnnotationMirror a, AnnotationValue v) {
if (a == null || e == null || e instanceof TurbineNoTypeElement || v == null) {
printMessage(kind, msg, e, a);
return;
}
SourceFile source = getSource(((TurbineElement) e).sym());
AnnoInfo anno = ((TurbineAnnotationMirror) a).anno();
int position = locateInAnnotation(((TurbineAnnotationValueMirror) v).value(), anno);
if (position == -1) {
position = anno.tree().position();
}
log.withSource(source).diagnostic(kind, position, TurbineError.ErrorKind.PROC, msg);
}
/**
* Returns the {@link SourceFile} that contains the declaration of the given {@link Symbol}, or
* {@code null} if the symbol was not compiled from source.
*/
private @Nullable SourceFile getSource(Symbol sym) {
ClassSymbol encl = ModelFactory.enclosingClass(sym);
TypeBoundClass info = factory.getSymbol(encl);
if (!(info instanceof SourceTypeBoundClass)) {
return null;
}
return ((SourceTypeBoundClass) info).source();
}
/**
* Returns the position of the given {@link Symbol}'s declaration, or {@code null} if it was not
* compiled from source.
*/
private int getPosition(Symbol sym) {
switch (sym.symKind()) {
case CLASS:
return classPosition((ClassSymbol) sym);
case TY_PARAM:
return tyParamPosition((TyVarSymbol) sym);
case METHOD:
return methodPosition((MethodSymbol) sym);
case FIELD:
return fieldPosition((FieldSymbol) sym);
case PARAMETER:
return paramPosition((ParamSymbol) sym);
case RECORD_COMPONENT:
// javac doesn't seem to provide diagnostic positions for record components, so we don't
// either
return -1;
case MODULE:
case PACKAGE:
break;
}
throw new AssertionError(sym.symKind());
}
private int fieldPosition(FieldSymbol sym) {
Tree.VarDecl decl = factory.getFieldInfo(sym).decl();
return decl != null ? decl.position() : -1;
}
private int paramPosition(ParamSymbol sym) {
MethodInfo minfo = factory.getMethodInfo(sym.owner());
if (minfo.decl() == null) {
return -1;
}
int idx = minfo.parameters().indexOf(factory.getParamInfo(sym));
return minfo.decl().params().get(idx).position();
}
private int methodPosition(MethodSymbol sym) {
MethodInfo methodInfo = factory.getMethodInfo(sym);
Tree.MethDecl decl = methodInfo.decl();
if (decl != null) {
return decl.position();
}
// use the enclosing class position for synthetic methods
int position = classPosition(sym.owner());
if (position == -1) {
return -1;
}
// TODO(b/139079081): change diagnostic position of declarations instead of the -= 6 fixup
position -= 6; // adjust to start of `class ` for parity with javac
return position;
}
private int classPosition(ClassSymbol owner) {
TypeBoundClass symbol = factory.getSymbol(owner);
if (!(symbol instanceof SourceTypeBoundClass)) {
return -1;
}
return ((SourceTypeBoundClass) symbol).decl().position();
}
private int tyParamPosition(TyVarSymbol sym) {
TyVarSymbol tyVarSymbol = sym;
Symbol owner = tyVarSymbol.owner();
ImmutableMap<TyVarSymbol, TyVarInfo> tyVars;
ImmutableList<Tree.TyParam> trees;
switch (owner.symKind()) {
case CLASS:
TypeBoundClass cinfo = factory.getSymbol((ClassSymbol) owner);
if (!(cinfo instanceof SourceTypeBoundClass)) {
return -1;
}
tyVars = cinfo.typeParameterTypes();
trees = ((SourceTypeBoundClass) cinfo).decl().typarams();
break;
case METHOD:
MethodInfo minfo = factory.getMethodInfo((MethodSymbol) owner);
if (minfo.decl() == null) {
return -1;
}
tyVars = minfo.tyParams();
trees = minfo.decl().typarams();
break;
default:
throw new AssertionError(owner.symKind());
}
return trees.get(tyVars.keySet().asList().indexOf(tyVarSymbol)).position();
}
/** Returns the position of the given annotation value {@code v} in the given annotation. */
private static int locateInAnnotation(Const v, AnnoInfo anno) {
return locate(v, anno.values().values().asList(), anno.tree().args());
}
/**
* Returns the position of the given annotation value {@code toFind} within the given constant
* {@code v} (which may be a compound value, i.e. a nested annotation or array value), and given
* the corresponding expression tree.
*/
private static int locate(Const toFind, Const v, Tree.Expression t) {
// the element name can be omitted for `value`, e.g. in `@A({1, 2, 3})`
t = t.kind().equals(Tree.Kind.ASSIGN) ? ((Tree.Assign) t).expr() : t;
if (toFind.equals(v)) {
return t.position();
}
switch (v.kind()) {
case ARRAY:
ImmutableList<Tree.Expression> elements =
t.kind().equals(Tree.Kind.ARRAY_INIT)
? ((Tree.ArrayInit) t).exprs()
: ImmutableList.of(t);
return locate(toFind, ((Const.ArrayInitValue) v).elements(), elements);
case ANNOTATION:
return locateInAnnotation(toFind, ((TurbineAnnotationValue) v).info());
default:
return -1;
}
}
/**
* Returns the position of the given annotation value {@code toFind}, given a list of annotation
* values corresponding to the element values of a (possibly nested) annotation or an array value,
* and the corresponding expression trees.
*/
private static int locate(
Const toFind, ImmutableList<Const> vx, ImmutableList<Tree.Expression> tx) {
Iterator<Const> vi = vx.iterator();
Iterator<Tree.Expression> ti = tx.iterator();
while (vi.hasNext()) {
int result = locate(toFind, vi.next(), ti.next());
if (result != -1) {
return result;
}
}
return -1;
}
}
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