publicstaticvoid main(String args[]) { // Basic tests that have the interfaces D<n> with default method and/or // D<n>M interfaces that mask the default method ordered by <n>.
expectMiranda(newSuper());
expectDefault(new Default_D1());
expectDefault(new Default_D2());
expectDefault(new Default_D3());
expectMiranda(new Miranda_D1M());
expectMiranda(new Miranda_D2M());
expectMiranda(new Miranda_D3M());
expectConflict(new Conflict_D1_D2());
expectDefault(new Default_D1_D2M());
expectDefault(new Default_D1M_D2());
expectMiranda(new Miranda_D1M_D2M());
expectConflict(new Conflict_D1_D2_D3());
expectConflict(new Conflict_D1_D2_D3M());
expectConflict(new Conflict_D1_D2M_D3());
expectDefault(new Default_D1_D2M_D3M());
expectConflict(new Conflict_D1M_D2_D3());
expectDefault(new Default_D1M_D2_D3M());
expectDefault(new Default_D1M_D2M_D3());
expectMiranda(new Miranda_D1M_D2M_D3M());
// Cases where one interface masks the method in more than one superinterface.
expectMiranda(new Miranda_D1D2M());
expectDefault(new Default_D1D2D());
expectMiranda(new Miranda_AD1D2M());
expectDefault(new Default_AD1D2D());
// Cases where the interface D2 is early in the interface table but masked by D2M later.
expectDefault(new Default_D2_D1_D2M());
expectMiranda(new Miranda_D2_D1M_D2M());
// Cases that involve a superclass with miranda method in the vtable. // Note: The above cases also include a miranda method in the superclass vtable // anyway because we want to test `invoke-virtual Super.testMethod()` as well // as the `invoke-interface Abstract.testMethod()`. However, miranda methods in // superclass vtable mean that all default methods in superclass interfaces, // if any, have been masked by abstract method, so processing them is a no-op.
expectDefault(new Default_D1M_x_D2());
expectMiranda(new Miranda_D1M_x_D2M());
expectConflict(new Conflict_D1M_x_D2_D3());
expectDefault(new Default_D1M_x_D2_D3M());
expectDefault(new Default_D1M_x_D2M_D3());
expectMiranda(new Miranda_D1M_x_D2M_D3M());
// Cases that involve a superclass with default method in the vtable.
expectConflict(new Conflict_D1_x_D2());
expectDefault(new Default_D1_x_D2M());
expectDefault(new Default_D1_x_D1MD());
expectMiranda(new Miranda_D1_x_D1M());
expectConflict(new Conflict_D1_x_D2_D3());
expectConflict(new Conflict_D1_x_D2_D3M());
expectConflict(new Conflict_D1_x_D2M_D3());
expectDefault(new Default_D1_x_D2M_D3M());
expectConflict(new Conflict_D1_x_D1MD_D2());
expectDefault(new Default_D1_x_D1MD_D2M());
expectDefault(new Default_D1_x_D1M_D2());
expectMiranda(new Miranda_D1_x_D1M_D2M());
staticpublicvoid regressionTestB215510819() { // The failure to fill IMT correctly would have resulted in calling the wrong method, // or triggering a check when interpreting in debug mode. Abstract abstractTarget = new B215510819Test();
String result = abstractTarget.testMethod();
System.out.println("B215510819 test result: " + result);
}
}
class Default_D1 extendsSuperimplementsAbstract, D1 {} class Default_D2 extendsSuperimplementsAbstract, D2 {} class Default_D3 extendsSuperimplementsAbstract, D3 {} class Miranda_D1M extendsSuperimplementsAbstract, D1M {} class Miranda_D2M extendsSuperimplementsAbstract, D2M {} class Miranda_D3M extendsSuperimplementsAbstract, D3M {} class Conflict_D1_D2 extendsSuperimplementsAbstract, D1, D2 {} class Default_D1_D2M extendsSuperimplementsAbstract, D1, D2M {} class Default_D1M_D2 extendsSuperimplementsAbstract, D1M, D2 {} class Miranda_D1M_D2M extendsSuperimplementsAbstract, D1M, D2M {} class Conflict_D1_D2_D3 extendsSuperimplementsAbstract, D1, D2, D3 {} class Conflict_D1_D2_D3M extendsSuperimplementsAbstract, D1, D2, D3M {} class Conflict_D1_D2M_D3 extendsSuperimplementsAbstract, D1, D2M, D3 {} class Default_D1_D2M_D3M extendsSuperimplementsAbstract, D1, D2M, D3M {} class Conflict_D1M_D2_D3 extendsSuperimplementsAbstract, D1M, D2, D3 {} class Default_D1M_D2_D3M extendsSuperimplementsAbstract, D1M, D2, D3M {} class Default_D1M_D2M_D3 extendsSuperimplementsAbstract, D1M, D2M, D3 {} class Miranda_D1M_D2M_D3M extendsSuperimplementsAbstract, D1M, D2M, D3M {}
class Miranda_D1D2M extendsSuperimplements D1D2M {} class Default_D1D2D extendsSuperimplements D1D2D {} class Miranda_AD1D2M extendsSuperimplements AD1D2M {} class Default_AD1D2D extendsSuperimplements AD1D2D {}
class Default_D2_D1_D2M extendsSuperimplementsAbstract, D1, D2M {} class Miranda_D2_D1M_D2M extendsSuperimplementsAbstract, D1M, D2M {}
class Default_D1M_x_D2 extends Miranda_D1M implements D2 {} class Miranda_D1M_x_D2M extends Miranda_D1M implements D2M {} class Conflict_D1M_x_D2_D3 extends Miranda_D1M implements D2, D3 {} class Default_D1M_x_D2_D3M extends Miranda_D1M implements D2, D3M {} class Default_D1M_x_D2M_D3 extends Miranda_D1M implements D2M, D3 {} class Miranda_D1M_x_D2M_D3M extends Miranda_D1M implements D2M, D3M {}
class Conflict_D1_x_D2 extends Default_D1 implements D2 {} class Default_D1_x_D2M extends Default_D1 implements D2M {} class Default_D1_x_D1MD extends Default_D1 implements D1MD {} class Miranda_D1_x_D1M extends Default_D1 implements D1M {} class Conflict_D1_x_D2_D3 extends Default_D1 implements D2, D3 {} class Conflict_D1_x_D2_D3M extends Default_D1 implements D2, D3M {} class Conflict_D1_x_D2M_D3 extends Default_D1 implements D2M, D3 {} class Default_D1_x_D2M_D3M extends Default_D1 implements D2M, D3M {} class Conflict_D1_x_D1MD_D2 extends Default_D1 implements D1MD, D2 {} class Default_D1_x_D1MD_D2M extends Default_D1 implements D1MD, D2M {} class Default_D1_x_D1M_D2 extends Default_D1 implements D1M, D2 {} class Miranda_D1_x_D1M_D2M extends Default_D1 implements D1M, D2M {}
class Default_D1_D2_x_D2M extends Conflict_D1_D2 implements D2M {} class Default_D1_D2_x_D1M extends Conflict_D1_D2 implements D1M {} class Miranda_D1_D2_x_D1M_D2M extends Conflict_D1_D2 implements D1M, D2M {} class Default_D1_D2_x_D1MD_D2M extends Conflict_D1_D2 implements D1MD, D2M {} class Conflict_D1_D2_x_D1M_D3 extends Conflict_D1_D2 implements D1M, D3 {} class Default_D1_D2_x_D1M_D3M extends Conflict_D1_D2 implements D1M, D3M {} class Conflict_D1_D2_x_D2M_D3 extends Conflict_D1_D2 implements D2M, D3 {} class Default_D1_D2_x_D2M_D3M extends Conflict_D1_D2 implements D2M, D3M {} class Conflict_D1_D2_x_D1MD_D3 extends Conflict_D1_D2 implements D1MD, D3 {} class Conflict_D1_D2_x_D1MD_D3M extends Conflict_D1_D2 implements D1MD, D3M {} class Default_D1_D2_D3M_x_D1MD_D2M extends Conflict_D1_D2_D3M implements D1MD, D2M {} class Miranda_D1_D2_D3M_x_D1M_D2M extends Conflict_D1_D2_D3M implements D1M, D2M {} class Miranda_D1_D2_x_D1D2M extends Conflict_D1_D2 implements D1D2M {} class Default_D1_D2_x_D1D2D extends Conflict_D1_D2 implements D1D2D {} class Miranda_D1_D2_x_AD1D2M extends Conflict_D1_D2 implements AD1D2M {} class Default_D1_D2_x_AD1D2D extends Conflict_D1_D2 implements AD1D2D {} class Default_D1_D2_D3_x_D1D2M extends Conflict_D1_D2_D3 implements D1D2M {} class Conflict_D1_D2_D3_x_D1D2D extends Conflict_D1_D2_D3 implements D1D2D {} class Default_D1_D2_D3_x_AD1D2M extends Conflict_D1_D2_D3 implements AD1D2M {} class Conflict_D1_D2_D3_x_AD1D2D extends Conflict_D1_D2_D3 implements AD1D2D {} class Miranda_D1_D2_D3M_x_D1D2M extends Conflict_D1_D2_D3M implements D1D2M {} class Default_D1_D2_D3M_x_D1D2D extends Conflict_D1_D2_D3M implements D1D2D {} class Miranda_D1_D2_D3M_x_AD1D2M extends Conflict_D1_D2_D3M implements AD1D2M {} class Default_D1_D2_D3M_x_AD1D2D extends Conflict_D1_D2_D3M implements AD1D2D {}
interface B215510819Iface { // The IMT size is currently 43 and we want to cover all 43 indexes with non-copied // implementations. The IMT index for abstract methods is calculated with a hash that // includes the method name, so 43 consecutive characters in the method name would be best. // (The fact that the name hash is multiplied by 16 is OK because the size of the IMT is a // prime number and thus GCD(16, 43) = 1.) However, we do not have a contiguous range of 43 // valid characters, so we need to rely on the `hash % 43` to mask out the difference when // we use `0`..`5` between `Z` and `a`. ('Z' + 1 - 43 = '0' and '5' + 1 + 43 = 'a'.)
String method_A();
String method_B();
String method_C();
String method_D();
String method_E();
String method_F();
String method_G();
String method_H();
String method_I();
String method_J();
String method_K();
String method_L();
String method_M();
String method_N();
String method_O();
String method_P();
String method_Q();
String method_R();
String method_S();
String method_T();
String method_U();
String method_V();
String method_W();
String method_X();
String method_Y();
String method_Z();
String method_0();
String method_1();
String method_2();
String method_3();
String method_4();
String method_5();
String method_a();
String method_b();
String method_c();
String method_d();
String method_e();
String method_f();
String method_g();
String method_h();
String method_i();
String method_j();
String method_k();
} // Note: Marked as abstract to avoid IMT table in this class. abstractclass B215510819Base extends Default_D1 implements B215510819Iface { public String method_A() { return"B215510819 - wrong method_A!"; } public String method_B() { return"B215510819 - wrong method_B!"; } public String method_C() { return"B215510819 - wrong method_C!"; } public String method_D() { return"B215510819 - wrong method_D!"; } public String method_E() { return"B215510819 - wrong method_E!"; } public String method_F() { return"B215510819 - wrong method_F!"; } public String method_G() { return"B215510819 - wrong method_G!"; } public String method_H() { return"B215510819 - wrong method_H!"; } public String method_I() { return"B215510819 - wrong method_I!"; } public String method_J() { return"B215510819 - wrong method_J!"; } public String method_K() { return"B215510819 - wrong method_K!"; } public String method_L() { return"B215510819 - wrong method_L!"; } public String method_M() { return"B215510819 - wrong method_M!"; } public String method_N() { return"B215510819 - wrong method_N!"; } public String method_O() { return"B215510819 - wrong method_O!"; } public String method_P() { return"B215510819 - wrong method_P!"; } public String method_Q() { return"B215510819 - wrong method_Q!"; } public String method_R() { return"B215510819 - wrong method_R!"; } public String method_S() { return"B215510819 - wrong method_S!"; } public String method_T() { return"B215510819 - wrong method_T!"; } public String method_U() { return"B215510819 - wrong method_U!"; } public String method_V() { return"B215510819 - wrong method_V!"; } public String method_W() { return"B215510819 - wrong method_W!"; } public String method_X() { return"B215510819 - wrong method_X!"; } public String method_Y() { return"B215510819 - wrong method_Y!"; } public String method_Z() { return"B215510819 - wrong method_Z!"; } public String method_0() { return"B215510819 - wrong method_0!"; } public String method_1() { return"B215510819 - wrong method_1!"; } public String method_2() { return"B215510819 - wrong method_2!"; } public String method_3() { return"B215510819 - wrong method_3!"; } public String method_4() { return"B215510819 - wrong method_4!"; } public String method_5() { return"B215510819 - wrong method_5!"; } public String method_a() { return"B215510819 - wrong method_a!"; } public String method_b() { return"B215510819 - wrong method_b!"; } public String method_c() { return"B215510819 - wrong method_c!"; } public String method_d() { return"B215510819 - wrong method_d!"; } public String method_e() { return"B215510819 - wrong method_e!"; } public String method_f() { return"B215510819 - wrong method_f!"; } public String method_g() { return"B215510819 - wrong method_g!"; } public String method_h() { return"B215510819 - wrong method_h!"; } public String method_i() { return"B215510819 - wrong method_i!"; } public String method_j() { return"B215510819 - wrong method_j!"; } public String method_k() { return"B215510819 - wrong method_k!"; }
} // Regression test for bug 215510819 where we failed to properly fill the IMT table // when there were no new methods or interfaces and the superclass did not have an IMT // table, so we filled the IMT from the superclass IfTable and erroneously ignored // copied implementation methods in the process. Thus calls that should go to copied // methods via an IMT conflict resolution trampoline would just end up in unrelated // concrete method when called from compiled code or from interpreter in release mode. // In debug mode, interpreter would fail a debug check. class B215510819Test extends B215510819Base {} // No new interfaces or virtuals.
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