// (C) Copyright Jeremy Siek 1999. Permission to copy, use, modify, // sell and distribute this software is granted provided this // copyright notice appears in all copies. This software is provided // "as is" without express or implied warranty, and with no claim as // to its suitability for any purpose. // Revision History // 08 Mar 2001 Jeremy Siek // Moved test of indirect iterator into its own file. It to // to be in iterator_adaptor_test.cpp. #include #include #include #include #include #include #include #include #include struct my_iterator_tag : public std::random_access_iterator_tag { }; using boost::dummyT; typedef std::deque storage; typedef std::deque pointer_deque; typedef std::set iterator_set; void more_indirect_iterator_tests() { // For some reason all heck breaks loose in the compiler under these conditions. #if !defined(BOOST_MSVC) || !defined(__STL_DEBUG) storage store(1000); std::generate(store.begin(), store.end(), rand); pointer_deque ptr_deque; iterator_set iter_set; for (storage::iterator p = store.begin(); p != store.end(); ++p) { ptr_deque.push_back(&*p); iter_set.insert(p); } typedef boost::indirect_iterator_pair_generator< pointer_deque::iterator #ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION , int #endif > IndirectDeque; IndirectDeque::iterator db(ptr_deque.begin()); IndirectDeque::iterator de(ptr_deque.end()); assert(static_cast(de - db) == store.size()); assert(db + store.size() == de); IndirectDeque::const_iterator dci(db); assert(db == dci); assert(dci == db); assert(dci != de); assert(dci < de); assert(dci <= de); assert(de >= dci); assert(de > dci); dci = de; assert(dci == de); boost::random_access_iterator_test(db + 1, store.size() - 1, boost::next(store.begin())); *db = 999; assert(store.front() == 999); // Borland C++ is getting very confused about the typedef's here typedef boost::indirect_iterator_generator< iterator_set::iterator #ifdef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION , int #endif >::type indirect_set_iterator; typedef boost::indirect_iterator_generator< iterator_set::iterator, const int >::type const_indirect_set_iterator; indirect_set_iterator sb(iter_set.begin()); indirect_set_iterator se(iter_set.end()); const_indirect_set_iterator sci(iter_set.begin()); assert(sci == sb); assert(sci != se); sci = se; assert(sci == se); *boost::prior(se) = 888; assert(store.back() == 888); assert(std::equal(sb, se, store.begin())); boost::bidirectional_iterator_test(boost::next(sb), store[1], store[2]); assert(std::equal(db, de, store.begin())); #endif } int main() { dummyT array[] = { dummyT(0), dummyT(1), dummyT(2), dummyT(3), dummyT(4), dummyT(5) }; const int N = sizeof(array)/sizeof(dummyT); // Test indirect_iterator_generator { dummyT* ptr[N]; for (int k = 0; k < N; ++k) ptr[k] = array + k; typedef boost::indirect_iterator_generator::type indirect_iterator; typedef boost::indirect_iterator_generator::type const_indirect_iterator; indirect_iterator i(ptr); boost::random_access_iterator_test(i, N, array); #ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION boost::random_access_iterator_test(boost::make_indirect_iterator(ptr), N, array); #endif // check operator-> assert((*i).m_x == i->foo()); const_indirect_iterator j(ptr); boost::random_access_iterator_test(j, N, array); dummyT*const* const_ptr = ptr; #ifndef BOOST_NO_TEMPLATE_PARTIAL_SPECIALIZATION boost::random_access_iterator_test(boost::make_indirect_iterator(const_ptr), N, array); #endif boost::const_nonconst_iterator_test(i, ++j); more_indirect_iterator_tests(); } std::cout << "test successful " << std::endl; return 0; }