/*************************************************************************** * * 23.list.assign.cpp - test exercising [lib.list.assign] * * $Id: 23.list.assign.cpp 580483 2007-09-28 20:55:52Z sebor $ * *************************************************************************** * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing * permissions and limitations under the License. * **************************************************************************/ #include // for list #include // for size_t #include <23.list.h> // for ListMembers #include // for InputIter #include // for rw_test() #include // for UserAlloc #include // for bad_alloc, replacement operator new /**************************************************************************/ // for convenience and brevity #define Assign(sig) ListIds::assign_ ## sig static const char* const exceptions[] = { "unknown exception", "bad_alloc", "exception" }; /**************************************************************************/ // used to exercise: // assign (InputIterator, InputIterator) static const ContainerTestCase range_test_cases [] = { #undef TEST #define TEST(lst, arg, off, size, res, bthrow) { \ __LINE__, -1, -1, off, size, -1, \ lst, sizeof lst - 1, \ arg, sizeof arg - 1, res, sizeof res - 1, bthrow \ } // +------------------------------------------ controlled sequence // | +------------------------- sequence to be inserted // | | +------------ assign() pos argument // | | | +--------- assign() n argument // | | | | +------ expected result sequence // | | | | | +--- exception info // | | | | | | 0 - no exception // | | | | | | 1 - out_of_range // | | | | | | 2 - length_error // | | | | | | -1 - exc. safety // | | | | | | // | | | | | +--------------------+ // | | | | +------+ | // | | | +------+ | | // | | +---+ | | | // | | | | | | // | | | | | | // V V V V V V TEST ("ab", "c", 0, 1, "c", 0), TEST ("", "", 0, 0, "", 0), TEST ("", "abc", 1, 1, "b", 0), TEST ("", "", 0, 1, "", 0), TEST ("", "", 0, 0, "", 0), TEST ("abc", "", 0, 0, "", 0), TEST ("", "a", 0, 1, "a", 0), TEST ("", "@2", 1, 1, "", 0), TEST ("", "@2", 0, 2, "@2", 0), TEST ("", "@2", 1, 5, "", 0), TEST ("cde", "ab", 0, 2, "ab", 0), TEST ("cde", "ab", 0, 1, "a", 0), TEST ("cde", "ab", 1, 5, "b", 0), TEST ("ab", "ce", 0, 3, "ce", 0), TEST ("ab", "ce", 1, 2, "e", 0), TEST ("ab", "ce", 0, 2, "c", 0), TEST ("e", "ab@2c", 0, 9, "ab@2c", 0), TEST ("e", "ab@2c", 0, 3, "ab", 0), TEST ("ab@2c", "e", 0, 3, "e", 0), TEST ("ab@2c", "@2e", 0, 2, "@2", 0), TEST ("ab@2c", "e", 2, 1, "", 0), TEST ("ab@2c", "e", 2, 9, "", 0), TEST ("abc@2", "e", 0, 2, "e", 0), TEST ("x@4096", "", 0, 0, "", 0), TEST ("", "x@4096", 9, 2, "xx", 0), TEST ("", "x@4096", 9, 0, "", 0), TEST ("abc", "x@4096", 2, 1, "x", 0), TEST ("x@4096", "x@4096", 2, 3, "xxx", 0), TEST ("", "x@4096", 0, 4096, "x@4096", 0), TEST ("", "x@4096", 100, 2000, "x@2000", 0), TEST ("", "x@207", 0, 207, "x@207", 0), TEST ("x@128", "x@334", 10, 207, "x@207", 0), TEST ("x@540", "x@207", 50, 128, "x@128", 0), TEST ("", "x@1412", 128, 873, "x@873", 0), TEST ("x@128", "x@1412", 0, 1412, "x@1412", 0), TEST ("x@3695", "x@1412", 207, 540, "x@540", 0), TEST ("x@872", "x@874", 1, 873, "x@873", 0), TEST ("x@873", "x@3695", 10, 2284, "x@2284", 0), TEST ("", "", 2, 0, "", 1), TEST ("", "a", 2, 0, "", 1), TEST ("", "x@4096", 4106, 0, "", 1), TEST ("last", "test", 0, 4, "test", 0) }; /**************************************************************************/ // used to exercise: // assign (size_type, const value_type&) static const ContainerTestCase size_cref_test_cases [] = { #undef TEST #define TEST(lst, size, val, res, bthrow) { \ __LINE__, -1, size, -1, -1, val, \ lst, sizeof lst - 1, \ 0, 0, res, sizeof res - 1, bthrow \ } // +----------------------------------------- controlled sequence // | +------------------------ assign() count argument // | | +-------------------- character to be assigned // | | | +---------------- expected result sequence // | | | | +-------- exception info // | | | | | 0 - no exception // | | | | | 1 - out_of_range // | | | | | 2 - length_error // | | | | | -1 - exc. safety // | | | | | // | | | | +--------+ // V V V V V TEST ("ab", 1, 'c', "c", 0), TEST ("", 0, ' ', "", 0), TEST ("", 1, 'b', "b", 0), TEST ("", 3, 'b', "bbb", 0), TEST ("", 0, ' ', "", 0), TEST ("", 2, '\0', "@2", 0), TEST ("", 1, 'a', "a", 0), TEST ("", 1, '\0', "", 0), TEST ("", 2, '\0', "@2", 0), TEST ("", 0, '\0', "", 0), TEST ("cde", 3, 'a', "aaa", 0), TEST ("ab", 2, '\0', "@2", 0), TEST ("ab", 1, '\0', "", 0), TEST ("ab@2c", 2, '\0', "@2", 0), TEST ("ab@2c", 1, '\0', "", 0), TEST ("ab@2c", 3, '\0', "@3", 0), TEST ("abc@2", 2, 'a', "aa", 0), TEST ("", 4096, 'x', "x@4096", 0), TEST ("x@4096", 0, 'x', "", 0), TEST ("x@127", 128, 'x', "x@128", 0), TEST ("x@200", 207, 'x', "x@207", 0), TEST ("x@334", 128, 'x', "x@128", 0), TEST ("", 540, 'x', "x@540", 0), TEST ("xx", 873, 'x', "x@873", 0), TEST ("x@873", 1412, 'x', "x@1412", 0), TEST ("x@3695", 207, 'x', "x@207", 0), TEST ("x@540", 3695, 'x', "x@3695", 0), TEST ("last", 4, 't', "tttt", 0) }; /**************************************************************************/ template inline void _rw_advance (InputIterator& it, Distance dist) { while (0 < dist) { --dist; ++it; } } // invokes specializations of the member function template // on the required iterator categories template struct AssignRange: ContRangeBase { typedef typename List::iterator ListIter; typedef typename List::value_type ListVal; AssignRange () { } virtual List& operator() (List &lst, const ContainerTestCaseData& tdata) const { const ListVal* const beg = tdata.arg_ + tdata.off2_; const ListVal* const end = beg + tdata.ext2_; const Iterator first (beg, beg, end); const Iterator last (end, beg, end); lst.assign (first, last); return lst; } }; /**************************************************************************/ // invokes possible overloads of the member function template // on common RandomAccessIterator types template struct AssignRangeOverload: ContRangeBase { typedef typename List::iterator ListIter; typedef typename List::value_type ListVal; AssignRangeOverload () { } virtual List& operator() (List &lst, const ContainerTestCaseData& tdata) const { const bool reverse_iter = ListIds::ReverseIterator == tdata.func_.iter_id_ || ListIds::ConstReverseIterator == tdata.func_.iter_id_; const std::size_t off = tdata.arglen_ - tdata.off2_ - tdata.ext2_; List str_arg (tdata.arg_, tdata.arg_ + tdata.arglen_); Iterator first (this->begin (str_arg, (Iterator*)0)); _rw_advance (first, reverse_iter ? off : tdata.off2_); Iterator last (first); _rw_advance (last, tdata.ext2_); lst.assign (first, last); return lst; } }; /**************************************************************************/ // invokes specializations of the member function template // on the required iterator categories template struct AssignRangePtrOverload: ContRangeBase { typedef typename List::value_type ListVal; AssignRangePtrOverload () { } virtual List& operator() (List& lst, const ContainerTestCaseData& tdata) const { const ListVal* const beg = tdata.arg_ + tdata.off2_; const ListVal* const end = beg + tdata.ext2_; const Iterator first = _RWSTD_CONST_CAST (Iterator, beg); const Iterator last = _RWSTD_CONST_CAST (Iterator, end); lst.assign (first, last); return lst; } }; /**************************************************************************/ template void test_assign (T*, Allocator*, const ContRangeBase< std::list > &rng, const ContainerTestCaseData &tdata) { typedef std::list List; typedef typename List::iterator ListIter; typedef typename List::const_iterator ListCIter; typedef ListState ListState; const ContainerFunc &func = tdata.func_; const ContainerTestCase &tcase = tdata.tcase_; // construct the list object to be modified List lst (tdata.str_, tdata.str_ + tdata.strlen_); std::size_t size = tcase.size >= 0 ? tcase.size : 0; rwt_free_store* const pst = rwt_get_free_store (0); SharedAlloc* const pal = SharedAlloc::instance (); // iterate for`throw_after' starting at the next call to operator new, // forcing each call to throw an exception, until the function finally // succeeds (i.e, no exception is thrown) std::size_t throw_count; for (throw_count = 0; ; ++throw_count) { // (name of) expected and caught exception const char* expected = 0; const char* caught = 0; #ifndef _RWSTD_NO_EXCEPTIONS if (0 == tcase.bthrow) { // by default exercise the exception safety of the function // by iteratively inducing an exception at each call to operator // new or Allocator::allocate() until the call succeeds expected = exceptions [1]; // bad_alloc *pst->throw_at_calls_ [0] = pst->new_calls_ [0] + throw_count + 1; pal->throw_at_calls_ [pal->m_allocate] = pal->throw_at_calls_ [pal->m_allocate] + throw_count + 1; } else { // exceptions disabled for this test case } #else // if defined (_RWSTD_NO_EXCEPTIONS) if (tcase.bthrow) return; #endif // _RWSTD_NO_EXCEPTIONS // start checking for memory leaks rw_check_leaks (lst.get_allocator ()); try { switch (func.which_) { case Assign (size_cref): { const T val = T::from_char (char (tcase.val)); lst.assign (size, val); break; } case Assign (range): rng (lst, tdata); break; default: RW_ASSERT (!"test logic error: unknown assign overload"); } // for convenience static const int cwidth = sizeof (T); const std::size_t got_size = lst.size (); char* const got = new char [got_size + 1]; std::size_t index = 0; for (ListCIter it = lst.begin (), end = lst.end (); it != end; ++it) { got [index++] = char (it->data_.val_); } got [got_size] = '\0'; // verify that list length are equal to the expected rw_assert (tdata.reslen_ == got_size, 0, tcase.line, "line %d. %{$FUNCALL}: expected \"%{X=*}\" with length " "%zu, got %{/*.*Gs} with length %zu", __LINE__, cwidth, int (tdata.reslen_), tdata.res_, tdata.reslen_, 1, int (got_size), got, got_size); if (tdata.reslen_ == got_size) { // if the result length matches the expected length // (and only then), also verify that the modified // list matches the expected result const std::size_t match = rw_match (tcase.res, got, got_size); rw_assert (match == tdata.reslen_, 0, tcase.line, "line %d. %{$FUNCALL}: expected \"%{X=*}\", " "got %{/*.*Gs}, difference at off %zu", __LINE__, cwidth, int (tdata.reslen_), tdata.res_, 1, int (got_size), got, match); } delete [] got; } #ifndef _RWSTD_NO_EXCEPTIONS catch (const std::bad_alloc &ex) { caught = exceptions [1]; rw_assert (0 == tcase.bthrow, 0, tcase.line, "line %d. %{$FUNCALL} %{?}expected %s,%{:}" "unexpectedly%{;} caught std::%s(%#s)", __LINE__, 0 != expected, expected, caught, ex.what ()); } catch (const std::exception &ex) { caught = exceptions [2]; rw_assert (0, 0, tcase.line, "line %d. %{$FUNCALL} %{?}expected %s,%{:}" "unexpectedly%{;} caught std::%s(%#s)", __LINE__, 0 != expected, expected, caught, ex.what ()); } catch (...) { caught = exceptions [0]; rw_assert (0, 0, tcase.line, "line %d. %{$FUNCALL} %{?}expected %s,%{:}" "unexpectedly%{;} caught %s", __LINE__, 0 != expected, expected, caught); } #endif // _RWSTD_NO_EXCEPTIONS // FIXME: verify the number of blocks the function call // is expected to allocate and detect any memory leaks rw_check_leaks (lst.get_allocator (), tcase.line, std::size_t (-1), std::size_t (-1)); if (caught) { if (0 == tcase.bthrow && caught == exceptions [1]) { // allow this call to operator new to succeed and try // to make the next one to fail during the next call // to the same function again continue; } } else if (0 < tcase.bthrow) { rw_assert (caught == expected, 0, tcase.line, "line %d. %{$FUNCALL} %{?}expected %s, caught %s" "%{:}unexpectedly caught %s%{;}", __LINE__, 0 != expected, expected, caught, caught); } break; } // disable bad_alloc exceptions *pst->throw_at_calls_ [0] = 0; pal->throw_at_calls_ [pal->m_allocate] = 0; } /**************************************************************************/ template void test_assign (T*, Allocator*, const ContainerTestCaseData &tdata) { typedef std::list List; if (tdata.func_.which_ == Assign (range)) { switch (tdata.func_.iter_id_) { // exercise possible overloads of the member function template // on common RandomAccessIterator types #undef TEST #define TEST(Iterator) do { \ typedef typename List::Iterator Iter; \ static const \ AssignRangePtrOverload rng; \ test_assign ((T*)0, (Allocator*)0, rng, tdata); \ } while (0) case ListIds::Pointer: TEST (pointer); break; case ListIds::ConstPointer: TEST (const_pointer); break; #undef TEST #define TEST(Iterator) do { \ typedef typename List::Iterator Iter; \ static const \ AssignRangeOverload rng; \ test_assign ((T*)0, (Allocator*)0, rng, tdata); \ } while (0) case ListIds::Iterator: TEST (iterator); break; case ListIds::ConstIterator: TEST (const_iterator); break; case ListIds::ReverseIterator: TEST (reverse_iterator); break; case ListIds::ConstReverseIterator: TEST (const_reverse_iterator); break; // exercise specializations of the member function template // on the required iterator categories #undef TEST #define TEST(Iterator) do { \ typedef Iterator Iter; \ static const \ AssignRange rng; \ test_assign ((T*)0, (Allocator*)0, rng, tdata); \ } while (0) case ListIds::Input: TEST (InputIter); break; case ListIds::Forward: TEST (ConstFwdIter); break; case ListIds::Bidir: TEST (ConstBidirIter); break; case ListIds::Random: TEST (ConstRandomAccessIter); break; default: rw_error (0, 0, __LINE__, "bad iterator id"); } } else { // exercise ordinary overloads of the member function static const ContRangeBase rng; test_assign ((T*)0, (Allocator*)0, rng, tdata); } } /**************************************************************************/ DEFINE_CONTAINER_TEST_FUNCTIONS (test_assign); int main (int argc, char** argv) { static const ContainerTest tests [] = { #undef TEST #define TEST(sig) { \ Assign (sig), sig ## _test_cases, \ sizeof sig ## _test_cases / sizeof *sig ## _test_cases \ } TEST (size_cref), TEST (range) }; const std::size_t test_count = sizeof tests / sizeof *tests; const int status = rw_run_cont_test (argc, argv, __FILE__, "lib.list.assign", ContainerIds::List, test_assign_func_array, tests, test_count); return status; }