//===----------------------------------------------------------------------===// // // 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. // //===----------------------------------------------------------------------===// // // basic_string& // append(const basic_string& str, size_type pos, size_type n = npos); // the "= npos" was added for C++14 #include #include #include #include "test_macros.h" #include "min_allocator.h" template void test(S s, S str, typename S::size_type pos, typename S::size_type n, S expected) { if (pos <= str.size()) { s.append(str, pos, n); LIBCPP_ASSERT(s.__invariants()); assert(s == expected); } #ifndef TEST_HAS_NO_EXCEPTIONS else { try { s.append(str, pos, n); assert(false); } catch (std::out_of_range&) { assert(pos > str.size()); } } #endif } template void test_npos(S s, S str, typename S::size_type pos, S expected) { if (pos <= str.size()) { s.append(str, pos); LIBCPP_ASSERT(s.__invariants()); assert(s == expected); } #ifndef TEST_HAS_NO_EXCEPTIONS else { try { s.append(str, pos); assert(false); } catch (std::out_of_range&) { assert(pos > str.size()); } } #endif } int main() { { typedef std::string S; test(S(), S(), 0, 0, S()); test(S(), S(), 1, 0, S()); test(S(), S("12345"), 0, 3, S("123")); test(S(), S("12345"), 1, 4, S("2345")); test(S(), S("12345"), 3, 15, S("45")); test(S(), S("12345"), 5, 15, S("")); test(S(), S("12345"), 6, 15, S("not happening")); test(S(), S("12345678901234567890"), 0, 0, S()); test(S(), S("12345678901234567890"), 1, 1, S("2")); test(S(), S("12345678901234567890"), 2, 3, S("345")); test(S(), S("12345678901234567890"), 12, 13, S("34567890")); test(S(), S("12345678901234567890"), 21, 13, S("not happening")); test(S("12345"), S(), 0, 0, S("12345")); test(S("12345"), S("12345"), 2, 2, S("1234534")); test(S("12345"), S("1234567890"), 0, 100, S("123451234567890")); test(S("12345678901234567890"), S(), 0, 0, S("12345678901234567890")); test(S("12345678901234567890"), S("12345"), 1, 3, S("12345678901234567890234")); test(S("12345678901234567890"), S("12345678901234567890"), 5, 10, S("123456789012345678906789012345")); } #if TEST_STD_VER >= 11 { typedef std::basic_string, min_allocator> S; test(S(), S(), 0, 0, S()); test(S(), S(), 1, 0, S()); test(S(), S("12345"), 0, 3, S("123")); test(S(), S("12345"), 1, 4, S("2345")); test(S(), S("12345"), 3, 15, S("45")); test(S(), S("12345"), 5, 15, S("")); test(S(), S("12345"), 6, 15, S("not happening")); test(S(), S("12345678901234567890"), 0, 0, S()); test(S(), S("12345678901234567890"), 1, 1, S("2")); test(S(), S("12345678901234567890"), 2, 3, S("345")); test(S(), S("12345678901234567890"), 12, 13, S("34567890")); test(S(), S("12345678901234567890"), 21, 13, S("not happening")); test(S("12345"), S(), 0, 0, S("12345")); test(S("12345"), S("12345"), 2, 2, S("1234534")); test(S("12345"), S("1234567890"), 0, 100, S("123451234567890")); test(S("12345678901234567890"), S(), 0, 0, S("12345678901234567890")); test(S("12345678901234567890"), S("12345"), 1, 3, S("12345678901234567890234")); test(S("12345678901234567890"), S("12345678901234567890"), 5, 10, S("123456789012345678906789012345")); } #endif { typedef std::string S; test_npos(S(), S(), 0, S()); test_npos(S(), S(), 1, S()); test_npos(S(), S("12345"), 0, S("12345")); test_npos(S(), S("12345"), 1, S("2345")); test_npos(S(), S("12345"), 3, S("45")); test_npos(S(), S("12345"), 5, S("")); test_npos(S(), S("12345"), 6, S("not happening")); } }