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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
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*
* 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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*/
/*
* @test
* @bug 8003280 8006694
* @summary Add lambda tests
* Automatic test for checking correctness of structural most specific test routine
* temporarily workaround combo tests are causing time out in several platforms
* @library ../../lib
* @build JavacTestingAbstractThreadedTest
* @run main/othervm/timeout=600 StructuralMostSpecificTest
*/
// use /othervm to avoid jtreg timeout issues (CODETOOLS-7900047)
// see JDK-8006746
import java.net.URI;
import java.util.Arrays;
import javax.tools.Diagnostic;
import javax.tools.JavaFileObject;
import javax.tools.SimpleJavaFileObject;
import com.sun.source.util.JavacTask;
import com.sun.tools.javac.api.ClientCodeWrapper;
import com.sun.tools.javac.util.JCDiagnostic;
public class StructuralMostSpecificTest
extends JavacTestingAbstractThreadedTest
implements Runnable {
enum RetTypeKind {
SHORT("short"),
INT("int"),
OBJECT("Object"),
INTEGER("Integer"),
VOID("void"),
J_L_VOID("Void");
String retTypeStr;
RetTypeKind(String retTypeStr) {
this.retTypeStr = retTypeStr;
}
boolean moreSpecificThan(RetTypeKind rk) {
return moreSpecificThan[this.ordinal()][rk.ordinal()];
}
static boolean[][] moreSpecificThan = {
// SHORT | INT | OBJECT | INTEGER | VOID | J_L_VOID
/* SHORT */ { true , true , true , false , false , false },
/* INT */ { false , true , true , true , false , false },
/* OBJECT */ { false , false , true , false , false , false },
/* INTEGER */ { false , false , true , true , false , false },
/* VOID */ { false , false , false , false , true , true },
/* J_L_VOID */{ false , false , true , false , false , true } };
}
enum ArgTypeKind {
SHORT("short"),
INT("int"),
BOOLEAN("boolean"),
OBJECT("Object"),
INTEGER("Integer"),
DOUBLE("Double");
String argTypeStr;
ArgTypeKind(String typeStr) {
this.argTypeStr = typeStr;
}
}
enum ExceptionKind {
NONE(""),
EXCEPTION("throws Exception"),
SQL_EXCEPTION("throws java.sql.SQLException"),
IO_EXCEPTION("throws java.io.IOException");
String exceptionStr;
ExceptionKind(String exceptionStr) {
this.exceptionStr = exceptionStr;
}
}
enum LambdaReturnKind {
VOID("return;"),
SHORT("return (short)0;"),
INT("return 0;"),
INTEGER("return (Integer)null;"),
NULL("return null;");
String retStr;
LambdaReturnKind(String retStr) {
this.retStr = retStr;
}
boolean compatibleWith(RetTypeKind rk) {
return compatibleWith[rk.ordinal()][ordinal()];
}
static boolean[][] compatibleWith = {
// VOID | SHORT | INT | INTEGER | NULL
/* SHORT */ { false , true , false , false , false },
/* INT */ { false , true , true , true , false },
/* OBJECT */ { false , true , true , true , true },
/* INTEGER */ { false , false , true , true , true },
/* VOID */ { true , false , false , false , false },
/* J_L_VOID */{ false , false , false , false , true } };
boolean needsConversion(RetTypeKind rk) {
return needsConversion[rk.ordinal()][ordinal()];
}
static boolean[][] needsConversion = {
// VOID | SHORT | INT | INTEGER | NULL
/* SHORT */ { false , false , false , false , false },
/* INT */ { false , false , false , true , false },
/* OBJECT */ { false , true , true , false , false },
/* INTEGER */ { false , false , true , false , false },
/* VOID */ { false , false , false , false , false },
/* J_L_VOID */{ true , false , false , false , false } };
}
public static void main(String... args) throws Exception {
for (LambdaReturnKind lrk : LambdaReturnKind.values()) {
for (RetTypeKind rk1 : RetTypeKind.values()) {
for (RetTypeKind rk2 : RetTypeKind.values()) {
for (ExceptionKind ek1 : ExceptionKind.values()) {
for (ExceptionKind ek2 : ExceptionKind.values()) {
for (ArgTypeKind ak11 : ArgTypeKind.values()) {
for (ArgTypeKind ak12 : ArgTypeKind.values()) {
pool.execute(
new StructuralMostSpecificTest(lrk, rk1,
rk2, ek1, ek2, ak11, ak12));
}
}
}
}
}
}
}
checkAfterExec();
}
LambdaReturnKind lrk;
RetTypeKind rt1, rt2;
ArgTypeKind ak1, ak2;
ExceptionKind ek1, ek2;
JavaSource source;
DiagnosticChecker diagChecker;
StructuralMostSpecificTest(LambdaReturnKind lrk, RetTypeKind rt1, RetTypeKind rt2,
ExceptionKind ek1, ExceptionKind ek2, ArgTypeKind ak1, ArgTypeKind ak2) {
this.lrk = lrk;
this.rt1 = rt1;
this.rt2 = rt2;
this.ek1 = ek1;
this.ek2 = ek2;
this.ak1 = ak1;
this.ak2 = ak2;
this.source = new JavaSource();
this.diagChecker = new DiagnosticChecker();
}
class JavaSource extends SimpleJavaFileObject {
String template = "interface SAM1 {\n" +
" #R1 m(#A1 a1) #E1;\n" +
"}\n" +
"interface SAM2 {\n" +
" #R2 m(#A2 a1) #E2;\n" +
"}\n" +
"class Test {\n" +
" void m(SAM1 s) { }\n" +
" void m(SAM2 s) { }\n" +
" { m((#A1 x)->{ #LR }); }\n" +
"}\n";
String source;
public JavaSource() {
super(URI.create("myfo:/Test.java"), JavaFileObject.Kind.SOURCE);
source = template.replaceAll("#LR", lrk.retStr)
.replaceAll("#R1", rt1.retTypeStr)
.replaceAll("#R2", rt2.retTypeStr)
.replaceAll("#A1", ak1.argTypeStr)
.replaceAll("#A2", ak2.argTypeStr)
.replaceAll("#E1", ek1.exceptionStr)
.replaceAll("#E2", ek2.exceptionStr);
}
@Override
public CharSequence getCharContent(boolean ignoreEncodingErrors) {
return source;
}
}
public void run() {
JavacTask ct = (JavacTask)comp.getTask(null, fm.get(), diagChecker,
Arrays.asList("-XDverboseResolution=all,-predef,-internal,-object-init"),
null, Arrays.asList(source));
try {
ct.analyze();
} catch (Throwable ex) {
throw new
AssertionError("Error thron when analyzing the following source:\n" +
source.getCharContent(true));
}
check();
}
void check() {
checkCount.incrementAndGet();
if (ak1 != ak2)
return;
if (!lrk.compatibleWith(rt1) || !lrk.compatibleWith(rt2))
return;
if (lrk.needsConversion(rt1) != lrk.needsConversion(rt2))
return;
boolean m1MoreSpecific = rt1.moreSpecificThan(rt2);
boolean m2MoreSpecific = rt2.moreSpecificThan(rt1);
boolean ambiguous = (m1MoreSpecific == m2MoreSpecific);
if (ambiguous != diagChecker.ambiguityFound) {
throw new Error("invalid diagnostics for source:\n" +
source.getCharContent(true) +
"\nAmbiguity found: " + diagChecker.ambiguityFound +
"\nm1 more specific: " + m1MoreSpecific +
"\nm2 more specific: " + m2MoreSpecific +
"\nexpected ambiguity: " + ambiguous);
}
if (!ambiguous) {
String sigToCheck = m1MoreSpecific ? "m(SAM1)" : "m(SAM2)";
if (!sigToCheck.equals(diagChecker.mostSpecificSig)) {
throw new Error("invalid most specific method selected:\n" +
source.getCharContent(true) +
"\nMost specific found: " + diagChecker.mostSpecificSig +
"\nm1 more specific: " + m1MoreSpecific +
"\nm2 more specific: " + m2MoreSpecific);
}
}
}
static class DiagnosticChecker
implements javax.tools.DiagnosticListener<JavaFileObject> {
boolean ambiguityFound;
String mostSpecificSig;
public void report(Diagnostic<? extends JavaFileObject> diagnostic) {
try {
if (diagnostic.getKind() == Diagnostic.Kind.ERROR &&
diagnostic.getCode().equals("compiler.err.ref.ambiguous")) {
ambiguityFound = true;
} else if (diagnostic.getKind() == Diagnostic.Kind.NOTE &&
diagnostic.getCode()
.equals("compiler.note.verbose.resolve.multi")) {
ClientCodeWrapper.DiagnosticSourceUnwrapper dsu =
(ClientCodeWrapper.DiagnosticSourceUnwrapper)diagnostic;
JCDiagnostic.MultilineDiagnostic mdiag =
(JCDiagnostic.MultilineDiagnostic)dsu.d;
int mostSpecificIndex = (Integer)mdiag.getArgs()[2];
mostSpecificSig =
((JCDiagnostic)mdiag.getSubdiagnostics()
.get(mostSpecificIndex)).getArgs()[1].toString();
}
} catch (RuntimeException t) {
t.printStackTrace();
throw t;
}
}
}
}