//===---------------------- catch_class_04.cpp ----------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// /* This test checks that adjustedPtr is correct as there exist offsets in this object for the various subobjects, all of which have a unique id_ to check against. It also checks that virtual bases work properly */ #include <exception> #include <stdlib.h> #include <assert.h> struct B { static int count; int id_; explicit B(int id) : id_(id) {count++;} B(const B& a) : id_(a.id_) {count++;} ~B() {count--;} }; int B::count = 0; struct C1 : virtual B { static int count; int id_; explicit C1(int id) : B(id-2), id_(id) {count++;} C1(const C1& a) : B(a.id_-2), id_(a.id_) {count++;} ~C1() {count--;} }; int C1::count = 0; struct C2 : virtual private B { static int count; int id_; explicit C2(int id) : B(id-2), id_(id) {count++;} C2(const C2& a) : B(a.id_-2), id_(a.id_) {count++;} ~C2() {count--;} }; int C2::count = 0; struct A : C1, C2 { static int count; int id_; explicit A(int id) : C1(id-1), C2(id-2), B(id+3), id_(id) {count++;} A(const A& a) : C1(a.id_-1), C2(a.id_-2), B(a.id_+3), id_(a.id_) {count++;} ~A() {count--;} }; int A::count = 0; void f1() { assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); A a(5); assert(A::count == 1); assert(C1::count == 1); assert(C2::count == 1); assert(B::count == 1); assert(a.id_ == 5); assert(static_cast<C1&>(a).id_ == 4); assert(static_cast<C2&>(a).id_ == 3); assert(static_cast<B&>(a).id_ == 8); throw a; assert(false); } void f2() { try { assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); f1(); assert(false); } catch (const A& a) // can catch A { assert(a.id_ == 5); assert(static_cast<const C1&>(a).id_ == 4); assert(static_cast<const C2&>(a).id_ == 3); assert(static_cast<const B&>(a).id_ == 8); throw; } catch (const C1&) { assert(false); } catch (const C2&) { assert(false); } catch (const B&) { assert(false); } } void f3() { try { assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); f2(); assert(false); } catch (const B& a) // can catch B { assert(static_cast<const B&>(a).id_ == 8); throw; } catch (const C1& c1) { assert(false); } catch (const C2&) { assert(false); } } void f4() { try { assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); f3(); assert(false); } catch (const C2& c2) // can catch C2 { assert(c2.id_ == 3); throw; } catch (const B& a) // can not catch B (ambiguous base) { assert(false); } catch (const C1&) { assert(false); } } void f5() { try { assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); f4(); assert(false); } catch (const C1& c1) // can catch C1 { assert(c1.id_ == 4); assert(static_cast<const B&>(c1).id_ == 8); throw; } catch (const B& a) { assert(false); } catch (const C2&) { assert(false); } } int main() { try { f5(); assert(false); } catch (...) { } assert(A::count == 0); assert(C1::count == 0); assert(C2::count == 0); assert(B::count == 0); }