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import java.lang.reflect.Method;
import testlib.reflection.qual.ReflectBottom;
import testlib.reflection.qual.Sibling1;
import testlib.reflection.qual.Sibling2;
import testlib.reflection.qual.Top;
public class MethodTest {
@Sibling1 int sibling1;
@Sibling2 int sibling2;
@ReflectBottom SuperClass superClass;
public void real_class() {
try {
Class<?> c = Object.class;
Method m = c.getMethod("equals", Object.class);
Object rec = new Object();
Object param = new Object();
Boolean other = (Boolean) rec.equals(param);
Boolean equals = (Boolean) m.invoke(rec, param);
} catch (Exception ignore) {
}
}
public void pass1() {
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod("getA", new Class[] {});
@Sibling1 Object a = m.invoke(superClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void pass1b() {
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod("getA", (Class[]) null);
@Sibling1 Object a = m.invoke(superClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void pass2() {
String str = "get" + "A";
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, new Class[] {});
@Sibling1 Object a = m.invoke(superClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void pass3() {
String str = "get";
str += "A";
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, new Class[] {});
// TODO: Should not fail -> enhance Value checker
// and remove the expected error
// :: error: (assignment.type.incompatible)
@Sibling1 Object a = m.invoke(superClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void pass4() {
String str = "setA";
@Sibling1 int val1 = sibling1;
@Sibling1 Integer val2 = val1;
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, new Class[] {Integer.class});
m.invoke(superClass, val1);
m.invoke(superClass, val2);
} catch (Exception ignore) {
}
}
public void pass4b() {
String str = "setA";
@Sibling1 int val1 = sibling1;
@Sibling1 Integer val2 = val1;
try {
//
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, int.class);
m.invoke(superClass, val1);
m.invoke(superClass, val2);
} catch (Exception ignore) {
}
}
@ReflectBottom SubClass subClass;
// Test resolution of methods declared in super class
public void pass5() {
try {
Class<?> c = Class.forName("MethodTest$SubClass");
Method m = c.getMethod("getB", new Class[0]);
@Sibling2 Object o = m.invoke(subClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
// Test resolution of static methods
public void pass6() {
try {
Class<?> c = MethodTest.class;
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {Integer.class});
@Sibling1 Object o = m.invoke(null, sibling2);
} catch (Exception ignore) {
}
}
// Test primitives
public void pass7() {
try {
Class<?> c = MethodTest.class;
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {int.class});
@Sibling1 Object o = m.invoke(null, sibling2);
} catch (Exception ignore) {
}
}
public void pass8() {
String str = "setA";
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, new Class[] {Integer.class});
m.invoke(superClass, sibling1);
} catch (Exception ignore) {
}
}
public void pass9() {
String str = "getA";
if (true) {
str = "getB";
}
try {
Class<?> c = Class.forName("MethodTest$SubClass");
Method m = c.getMethod(str, new Class[0]);
@Top Object o = m.invoke(subClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
// Test getClass()
public void pass10() {
SuperClass inst = new SubClass();
try {
Class<?> c = inst.getClass();
Method m = c.getMethod("getA", new Class[0]);
@Sibling1 Object o = m.invoke(inst, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void pass11() {
try {
Class<?> c = this.getClass();
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {Integer.class});
@Sibling1 Object o = m.invoke(null, sibling2);
} catch (Exception ignore) {
}
}
public void pass11b() {
try {
Class<?> c = getClass();
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {Integer.class});
@Sibling1 Object o = m.invoke(null, sibling2);
} catch (Exception ignore) {
}
}
// Test .class on inner class
public void pass12() {
try {
Class<?> c = SuperClass.class;
Method m = c.getMethod("getA", new Class[0]);
@Sibling1 Object o = m.invoke(new SuperClass(), new @ReflectBottom Object @ReflectBottom [0]);
} catch (Exception ignore) {
}
}
boolean flag = false;
// Test lub of return types
public void testLubReturnPass() {
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m;
if (flag) {
m = c.getMethod("getA", new Class[0]);
} else {
m = c.getMethod("getB", new Class[0]);
}
@Top Object o = m.invoke(new SuperClass(), new @ReflectBottom Object @ReflectBottom [0]);
} catch (Exception ignore) {
}
}
public void testLubReturnFail() {
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m;
if (flag) {
m = c.getMethod("getA", new Class[0]);
} else {
m = c.getMethod("getB", new Class[0]);
}
// :: error: (assignment.type.incompatible)
@ReflectBottom Object o = m.invoke(new SuperClass(), new @ReflectBottom Object @ReflectBottom [0]);
} catch (Exception ignore) {
}
}
public void test() {}
public void fail1() {
try {
Class<?> c = MethodTest.class;
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {Integer.class});
// :: error: (argument.type.incompatible)
Object o = m.invoke(null, sibling1);
} catch (Exception ignore) {
}
}
// Test unresolvable methods
public void fail2(String str) {
try {
Class<?> c = Class.forName(str);
Method m = c.getMethod("getA", new Class[] {Integer.class});
// :: error: (assignment.type.incompatible)
@Sibling1 Object o = m.invoke(subClass, (@ReflectBottom Object[]) null);
} catch (Exception ignore) {
}
}
public void fail3() {
String str = "setB";
try {
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, new Class[] {Integer.class});
// :: error: (argument.type.incompatible)
m.invoke(this, sibling1);
} catch (Exception ignore) {
}
}
public void fail4() {
String str = "setA";
try {
Class<?> c = Class.forName("MethodTest$SubClass");
Method m = c.getMethod(str, new Class[] {Integer.class});
// :: error: (argument.type.incompatible)
m.invoke(this, new Object[] {sibling2});
} catch (Exception ignore) {
}
}
public void fail5() {
String str = "setAB";
try {
Class<?> c = Class.forName("MethodTest$SubClass");
Method m = c.getMethod(str, new Class[] {Integer.class, Integer.class});
// :: error: (argument.type.incompatible)
m.invoke(this, new Object[] {sibling1, sibling2});
} catch (Exception ignore) {
}
}
public void fail6() {
String str = "setA";
if (true) {
str = "setB";
}
try {
Class<?> c = Class.forName("MethodTest$SubClass");
Method m = c.getMethod(str, new Class[] {Integer.class});
// :: error: (argument.type.incompatible)
m.invoke(this, new Object[] {sibling1});
} catch (Exception ignore) {
}
}
public void fail7() {
// :: warning: (cast.unsafe.constructor.invocation)
@Sibling2 MethodTest inst = new @Sibling2 MethodTest();
try {
Class<?> c = MethodTest.class;
Method m = c.getMethod("convertSibling2ToSibling1", new Class[] {Integer.class});
@Sibling1 Object o = m.invoke(inst, sibling2);
} catch (Exception ignore) {
}
}
// Test method call that cannot be uniquely resolved
public void fail8() {
try {
Class<?> c = SuperClass.class;
Method m = c.getMethod("setC", new Class[] {Integer.class});
// :: error: (argument.type.incompatible)
Object o = m.invoke(new SuperClass(), new Object[] {sibling2});
} catch (Exception ignore) {
}
}
public void bug() {
String str = "setA";
@Sibling1 int val1 = sibling1;
@Sibling1 Object[] args = new Object[] {val1};
try {
//
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, int.class);
// This error is a bug.
// See DefaultReflectionResolver.resolveMethodCall(...)
// for details.
// :: error: (argument.type.incompatible)
m.invoke(this, args);
} catch (Exception ignore) {
}
}
public void bug2() {
String str = "setAB";
@Sibling1 int val1 = sibling1;
@Sibling2 int val2 = sibling2;
Object[] args = new Object[] {val1, val2};
try {
//
Class<?> c = Class.forName("MethodTest$SuperClass");
Method m = c.getMethod(str, int.class, int.class);
// This error is a bug.
// See DefaultReflectionResolver.resolveMethodCall(...)
// for details.
// :: error: (argument.type.incompatible)
m.invoke(this, args);
} catch (Exception ignore) {
}
}
public static @Sibling1 int convertSibling2ToSibling1(@Sibling2 int a) {
return (@Sibling1 int) 1;
}
// TODO: Does the testing framework somehow support the compilation of
// multiple files at the same time?
private class SubClass extends SuperClass {}
private class SuperClass {
private @Sibling1 int a;
private @Sibling2 int b;
private @Sibling1 Integer c;
public SuperClass() {
this.a = sibling1;
this.b = sibling2;
}
public @Sibling1 int getA() {
return a;
}
public void setA(@Sibling1 int a) {
this.a = a;
}
public @Sibling2 int getB() {
return b;
}
public void setB(@Sibling2 int b) {
this.b = b;
}
public void setAB(@Sibling1 int a, @Sibling2 int b) {
this.a = a;
this.b = b;
}
public void setC(@Sibling1 int c) {
this.c = c;
}
public void setC(@Sibling1 Integer c) {
this.c = c;
}
}
}
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