7115050: Add parser support for lambda expressions
Summary: Add support for parsing lambda expressions to JavacParser
Reviewed-by: jjg
/*
* Copyright (c) 2011, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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* published by the Free Software Foundation.
*
* 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.
*
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* questions.
*/
/*
* @test
* @bug 7115050
* @summary Add parser support for lambda expressions
*/
import com.sun.source.util.JavacTask;
import java.net.URI;
import java.util.Arrays;
import javax.tools.Diagnostic;
import javax.tools.JavaCompiler;
import javax.tools.JavaFileObject;
import javax.tools.SimpleJavaFileObject;
import javax.tools.StandardJavaFileManager;
import javax.tools.ToolProvider;
public class LambdaParserTest {
static int checkCount = 0;
enum LambdaKind {
NILARY_EXPR("()->x"),
NILARY_STMT("()->{ return x; }"),
ONEARY_SHORT_EXPR("x->x"),
ONEARY_SHORT_STMT("x->{ return x; }"),
ONEARY_EXPR("(#M1 #T1 x)->x"),
ONEARY_STMT("(#M1 #T1 x)->{ return x; }"),
TWOARY_EXPR("(#M1 #T1 x, #M2 #T2 y)->x"),
TWOARY_STMT("(#M1 #T1 x, #M2 #T2 y)->{ return x; }");
String lambdaTemplate;
LambdaKind(String lambdaTemplate) {
this.lambdaTemplate = lambdaTemplate;
}
String getLambdaString(LambdaParameterKind pk1, LambdaParameterKind pk2,
ModifierKind mk1, ModifierKind mk2) {
return lambdaTemplate.replaceAll("#M1", mk1.modifier)
.replaceAll("#M2", mk2.modifier)
.replaceAll("#T1", pk1.parameterType)
.replaceAll("#T2", pk2.parameterType);
}
int arity() {
switch (this) {
case NILARY_EXPR:
case NILARY_STMT: return 0;
case ONEARY_SHORT_EXPR:
case ONEARY_SHORT_STMT:
case ONEARY_EXPR:
case ONEARY_STMT: return 1;
case TWOARY_EXPR:
case TWOARY_STMT: return 2;
default: throw new AssertionError("Invalid lambda kind " + this);
}
}
boolean isShort() {
return this == ONEARY_SHORT_EXPR ||
this == ONEARY_SHORT_STMT;
}
}
enum LambdaParameterKind {
IMPLICIT(""),
EXPLIICT_SIMPLE("A"),
EXPLICIT_VARARGS("A..."),
EXPLICIT_GENERIC1("A<X>"),
EXPLICIT_GENERIC3("A<? extends X, ? super Y>");
String parameterType;
LambdaParameterKind(String parameterType) {
this.parameterType = parameterType;
}
boolean explicit() {
return this != IMPLICIT;
}
}
enum ModifierKind {
NONE(""),
FINAL("final"),
PUBLIC("public");
String modifier;
ModifierKind(String modifier) {
this.modifier = modifier;
}
boolean compatibleWith(LambdaParameterKind pk) {
switch (this) {
case PUBLIC: return false;
case FINAL: return pk != LambdaParameterKind.IMPLICIT;
case NONE: return true;
default: throw new AssertionError("Invalid modifier kind " + this);
}
}
}
enum ExprKind {
NONE("#L#S"),
SINGLE_PAREN1("(#L#S)"),
SINGLE_PAREN2("(#L)#S"),
DOUBLE_PAREN1("((#L#S))"),
DOUBLE_PAREN2("((#L)#S)"),
DOUBLE_PAREN3("((#L))#S");
String expressionTemplate;
ExprKind(String expressionTemplate) {
this.expressionTemplate = expressionTemplate;
}
String expressionString(LambdaParameterKind pk1, LambdaParameterKind pk2,
ModifierKind mk1, ModifierKind mk2, LambdaKind lk, SubExprKind sk) {
return expressionTemplate.replaceAll("#L", lk.getLambdaString(pk1, pk2, mk1, mk2))
.replaceAll("#S", sk.subExpression);
}
}
enum SubExprKind {
NONE(""),
SELECT_FIELD(".f"),
SELECT_METHOD(".f()"),
SELECT_NEW(".new Foo()"),
POSTINC("++"),
POSTDEC("--");
String subExpression;
SubExprKind(String subExpression) {
this.subExpression = subExpression;
}
}
public static void main(String... args) throws Exception {
//create default shared JavaCompiler - reused across multiple compilations
JavaCompiler comp = ToolProvider.getSystemJavaCompiler();
StandardJavaFileManager fm = comp.getStandardFileManager(null, null, null);
for (LambdaKind lk : LambdaKind.values()) {
for (LambdaParameterKind pk1 : LambdaParameterKind.values()) {
if (lk.arity() < 1 && pk1 != LambdaParameterKind.IMPLICIT) continue;
for (LambdaParameterKind pk2 : LambdaParameterKind.values()) {
if (lk.arity() < 2 && pk2 != LambdaParameterKind.IMPLICIT) continue;
for (ModifierKind mk1 : ModifierKind.values()) {
if (mk1 != ModifierKind.NONE && lk.isShort()) continue;
if (lk.arity() < 1 && mk1 != ModifierKind.NONE) continue;
for (ModifierKind mk2 : ModifierKind.values()) {
if (lk.arity() < 2 && mk2 != ModifierKind.NONE) continue;
for (SubExprKind sk : SubExprKind.values()) {
for (ExprKind ek : ExprKind.values()) {
new LambdaParserTest(pk1, pk2, mk1, mk2, lk, sk, ek)
.run(comp, fm);
}
}
}
}
}
}
}
System.out.println("Total check executed: " + checkCount);
}
LambdaParameterKind pk1;
LambdaParameterKind pk2;
ModifierKind mk1;
ModifierKind mk2;
LambdaKind lk;
SubExprKind sk;
ExprKind ek;
JavaSource source;
DiagnosticChecker diagChecker;
LambdaParserTest(LambdaParameterKind pk1, LambdaParameterKind pk2, ModifierKind mk1,
ModifierKind mk2, LambdaKind lk, SubExprKind sk, ExprKind ek) {
this.pk1 = pk1;
this.pk2 = pk2;
this.mk1 = mk1;
this.mk2 = mk2;
this.lk = lk;
this.sk = sk;
this.ek = ek;
this.source = new JavaSource();
this.diagChecker = new DiagnosticChecker();
}
class JavaSource extends SimpleJavaFileObject {
String template = "class Test {\n" +
" SAM s = #E;\n" +
"}";
String source;
public JavaSource() {
super(URI.create("myfo:/Test.java"), JavaFileObject.Kind.SOURCE);
source = template.replaceAll("#E", ek.expressionString(pk1, pk2, mk1, mk2, lk, sk));
}
@Override
public CharSequence getCharContent(boolean ignoreEncodingErrors) {
return source;
}
}
void run(JavaCompiler tool, StandardJavaFileManager fm) throws Exception {
JavacTask ct = (JavacTask)tool.getTask(null, fm, diagChecker,
Arrays.asList("-XDallowLambda"), null, Arrays.asList(source));
try {
ct.parse();
} catch (Throwable ex) {
throw new AssertionError("Error thron when parsing the following source:\n" + source.getCharContent(true));
}
check();
}
void check() {
checkCount++;
boolean errorExpected = (lk.arity() > 0 && !mk1.compatibleWith(pk1)) ||
(lk.arity() > 1 && !mk2.compatibleWith(pk2));
if (lk.arity() == 2 &&
(pk1.explicit() != pk2.explicit() ||
pk1 == LambdaParameterKind.EXPLICIT_VARARGS)) {
errorExpected = true;
}
if (errorExpected != diagChecker.errorFound) {
throw new Error("invalid diagnostics for source:\n" +
source.getCharContent(true) +
"\nFound error: " + diagChecker.errorFound +
"\nExpected error: " + errorExpected);
}
}
static class DiagnosticChecker implements javax.tools.DiagnosticListener<JavaFileObject> {
boolean errorFound;
public void report(Diagnostic<? extends JavaFileObject> diagnostic) {
if (diagnostic.getKind() == Diagnostic.Kind.ERROR) {
errorFound = true;
}
}
}
}