//To make GLib C++ closer to STLport behavior we need this macro: //Only mandatory when building unit tests without STLport, do not change //anything when building with STLport #define _GLIBCXX_FULLY_DYNAMIC_STRING //Has to be first for StackAllocator swap overload to be taken //into account (at least using GCC 4.0.1) #include "stack_allocator.h" #include #include #include #include #if !defined (STLPORT) || !defined (_STLP_USE_NO_IOSTREAMS) # include #endif #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) # include #endif #if !defined (STLPORT) || defined (_STLP_THREADS) # if defined (STLPORT) && defined (_STLP_PTHREADS) || \ defined (__GNUC__) && !defined (__MINGW32__) # define USE_PTHREAD_API # include # endif # if defined (STLPORT) && defined (_STLP_WIN32THREADS) || \ defined (__GNUC__) && defined (__MINGW32__) || \ defined (_MSC_VER) # define USE_WINDOWS_API # include # endif #endif #include "stack_allocator.h" #include "cppunit/cppunit_proxy.h" #if !defined (STLPORT) || defined(_STLP_USE_NAMESPACES) using namespace std; #endif // // TestCase class // class StringTest : public CPPUNIT_NS::TestCase { CPPUNIT_TEST_SUITE(StringTest); CPPUNIT_TEST(constructor); CPPUNIT_TEST(trivial_char_compare); CPPUNIT_TEST(reserve); CPPUNIT_TEST(assign); CPPUNIT_TEST(erase); CPPUNIT_TEST(data); CPPUNIT_TEST(c_str); CPPUNIT_TEST(null_char); CPPUNIT_TEST(insert); CPPUNIT_TEST(replace); CPPUNIT_TEST(resize); CPPUNIT_TEST(short_string); CPPUNIT_TEST(find); CPPUNIT_TEST(bogus_edge_find); CPPUNIT_TEST(rfind); CPPUNIT_TEST(find_last_of); CPPUNIT_TEST(find_last_not_of); CPPUNIT_TEST(copy); #if !defined (USE_PTHREAD_API) && !defined (USE_WINDOWS_API) CPPUNIT_IGNORE; #endif CPPUNIT_TEST(mt); CPPUNIT_STOP_IGNORE; CPPUNIT_TEST(short_string_optim_bug); CPPUNIT_TEST(compare); CPPUNIT_TEST(template_expression); #if defined (STLPORT) && ((defined (_STLP_MSVC) && (_STLP_MSVC < 1300)) || \ (defined(__GNUC__) && defined(_STLP_USE_TEMPLATE_EXPRESSION) && \ ((__GNUC__ < 4) || (__GNUC__ == 4 && __GNUC_MINOR__ < 1)) ) ) # define TE_TMP_TEST_IGNORED CPPUNIT_IGNORE; #endif CPPUNIT_TEST(te_tmp); #if defined (TE_TMP_TEST_IGNORED) CPPUNIT_STOP_IGNORE; #endif CPPUNIT_TEST(oper_tmp); #if defined (STLPORT) && defined (_STLP_NO_WCHAR_T) CPPUNIT_IGNORE; #endif #if defined (__CYGWIN__) && !defined (STLPORT) CPPUNIT_IGNORE; #endif CPPUNIT_TEST(template_wexpression); CPPUNIT_STOP_IGNORE; #if defined (STLPORT) && defined (_STLP_USE_NO_IOSTREAMS) CPPUNIT_IGNORE; #endif CPPUNIT_TEST(io); CPPUNIT_STOP_IGNORE; #if defined (STLPORT) && defined (_STLP_NO_CUSTOM_IO) CPPUNIT_IGNORE; #endif CPPUNIT_TEST(allocator_with_state); CPPUNIT_STOP_IGNORE; CPPUNIT_TEST(capacity); CPPUNIT_TEST(concat24); CPPUNIT_TEST_SUITE_END(); protected: void constructor(); void trivial_char_compare(); void reserve(); void erase(); void data(); void c_str(); void null_char(); void insert(); void replace(); void resize(); void short_string(); void find(); void bogus_edge_find(); void rfind(); void find_last_of(); void find_last_not_of(); void copy(); void assign(); void mt(); void short_string_optim_bug(); void compare(); void template_expression(); void te_tmp(); void oper_tmp(); void template_wexpression(); void io(); void allocator_with_state(); void capacity(); void concat24(); static string func(const string& par) { string tmp( par ); return tmp; } #if defined (USE_PTHREAD_API) || defined (USE_WINDOWS_API) # if defined (USE_PTHREAD_API) static void* f(void*) # else static DWORD __stdcall f(void*) # endif { string s( "qyweyuewunfkHBUKGYUGL,wehbYGUW^(@T@H!BALWD:h^&@#*@(#:JKHWJ:CND" ); for ( int i = 0; i < 2000000; ++i ) { string sx = func( s ); } return 0; } #endif }; CPPUNIT_TEST_SUITE_REGISTRATION(StringTest); // // tests implementation // void StringTest::constructor() { #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { string s((size_t)-1, 'a'); CPPUNIT_FAIL; } catch (length_error const&) { } catch (...) { //Expected exception is length_error: CPPUNIT_FAIL; } #endif } void StringTest::trivial_char_compare() { string s( "message" ); CPPUNIT_CHECK( s == "message" ); CPPUNIT_CHECK( "message" == s ); } void StringTest::reserve() { string s; #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { s.reserve(s.max_size() + 1); CPPUNIT_FAIL; } catch (length_error const&) { } catch (...) { //Expected exception is length_error: CPPUNIT_FAIL; } #endif } void StringTest::mt() { #if defined (USE_PTHREAD_API) || defined (USE_WINDOWS_API) const int nth = 2; # if defined (USE_PTHREAD_API) pthread_t t[nth]; for ( int i = 0; i < nth; ++i ) { pthread_create( &t[i], 0, f, 0 ); } for ( int i = 0; i < nth; ++i ) { pthread_join( t[i], 0 ); } # endif // PTHREAD # if defined (USE_WINDOWS_API) //DWORD start = GetTickCount(); HANDLE t[nth]; int i; // VC6 not support in-loop scope of cycle var for ( i = 0; i < nth; ++i ) { t[i] = CreateThread(NULL, 0, f, 0, 0, NULL); } if (WaitForMultipleObjects(nth, t, TRUE, INFINITE) == WAIT_FAILED) { // On some platforms (evc3/evc4) WaitForMultipleObjects() with fWaitAll == TRUE // is not supported. We then wait with a loop on each thread: for ( i = 0; i < nth; ++i ) { WaitForSingleObject(t[i], INFINITE); } } /* DWORD duration = GetTickCount() - start; ostringstream ostr; ostr << "Duration: " << duration << endl; CPPUNIT_MESSAGE(ostr.str().c_str()); */ # endif #endif } void StringTest::short_string() { string const ref_short_str1("str1"), ref_short_str2("str2"); string short_str1(ref_short_str1), short_str2(ref_short_str2); string const ref_long_str1("str 1"); string const ref_long_str2("str 2"); string long_str1(ref_long_str1), long_str2(ref_long_str2); CPPUNIT_ASSERT(short_str1 == ref_short_str1); CPPUNIT_ASSERT(long_str1 == ref_long_str1); { string str1(short_str1); str1 = long_str1; CPPUNIT_ASSERT(str1 == ref_long_str1); } { string str1(long_str1); str1 = short_str1; CPPUNIT_ASSERT(str1 == ref_short_str1); } { short_str1.swap(short_str2); CPPUNIT_ASSERT((short_str1 == ref_short_str2) && (short_str2 == ref_short_str1)); short_str1.swap(short_str2); } { long_str1.swap(long_str2); CPPUNIT_ASSERT((long_str1 == ref_long_str2) && (long_str2 == ref_long_str1)); long_str1.swap(long_str2); } { short_str1.swap(long_str1); CPPUNIT_ASSERT((short_str1 == ref_long_str1) && (long_str1 == ref_short_str1)); short_str1.swap(long_str1); } { long_str1.swap(short_str1); CPPUNIT_ASSERT((short_str1 == ref_long_str1) && (long_str1 == ref_short_str1)); long_str1.swap(short_str1); } { string a(256, 'a'); string b(256, 'b'); const char* as = a.c_str(); const char* bs = b.c_str(); swap(a, b); CPPUNIT_ASSERT( a.c_str() == bs ); CPPUNIT_ASSERT( b.c_str() == as ); } { //This is to test move constructor vector str_vect; str_vect.push_back(short_str1); str_vect.push_back(long_str1); str_vect.push_back(short_str2); str_vect.push_back(long_str2); CPPUNIT_ASSERT((str_vect[0] == ref_short_str1) && (str_vect[1] == ref_long_str1) && (str_vect[2] == ref_short_str2) && (str_vect[3] == ref_long_str2)); } } void StringTest::erase() { char const* c_str = "Hello, World!"; string str(c_str); CPPUNIT_ASSERT( str == c_str ); str.erase(str.begin() + 1, str.end() - 1); // Erase all but first and last. size_t i; for (i = 0; i < str.size(); ++i) { switch ( i ) { case 0: CPPUNIT_ASSERT( str[i] == 'H' ); break; case 1: CPPUNIT_ASSERT( str[i] == '!' ); break; default: CPPUNIT_FAIL; } } str.insert(1, c_str); str.erase(str.begin()); // Erase first element. str.erase(str.end() - 1); // Erase last element. CPPUNIT_ASSERT( str == c_str ); str.clear(); // Erase all. CPPUNIT_ASSERT( str.empty() ); str = c_str; CPPUNIT_ASSERT( str == c_str ); str.erase(1, str.size() - 1); // Erase all but first and last. for (i = 0; i < str.size(); i++) { switch ( i ) { case 0: CPPUNIT_ASSERT( str[i] == 'H' ); break; case 1: CPPUNIT_ASSERT( str[i] == '!' ); break; default: CPPUNIT_FAIL; } } str.erase(1); CPPUNIT_ASSERT( str == "H" ); } void StringTest::data() { string xx; CPPUNIT_ASSERT( xx.data() != 0 ); // ISO-IEC-14882:1998(E), 21.3.6, paragraph 3 #if 0 /* This test really not required: in ISO-IEC-14882:1998(E) paragraph 3 stated: * '... and can have zero added to it', again: 'CAN', but not 'MUST'. * That's why I am comment this test. But I don't remove it due to I had * unevident problem with misinterpretation of data() return (i.e. data() * and c_str() provide different functionality!) and expect that this is * more-or-less common pitfall. * - ptr */ string low( "2004-01-01" ); // Blocks A and B should follow each other. // Block A: xx = "123456"; xx += low; if ( strcmp( xx.data(), "1234562004-01-01" ) != 0 ) { return -1; } // End of block A // Block B: xx = "1234"; xx += ";"; if ( strcmp( xx.data(), "1234;" ) != 0 ) { return -1; } // End of block B #endif } void StringTest::c_str() { string low( "2004-01-01" ); string xx; string yy; CPPUNIT_ASSERT( *(yy.c_str()) == '\0' ); // ISO-IEC-14882:1998(E), 21.3.6, paragraph 1 // Blocks A and B should follow each other. // Block A: xx = "123456"; xx += low; CPPUNIT_ASSERT( strcmp( xx.c_str(), "1234562004-01-01" ) == 0 ); // End of block A // Block B: xx = "1234"; xx += ";"; CPPUNIT_ASSERT( strcmp( xx.c_str(), "1234;" ) == 0 ); // End of block B } void StringTest::null_char() { // ISO/IEC 14882:1998(E), ISO/IEC 14882:2003(E), 21.3.4 ('... the const version') const string s( "123456" ); CPPUNIT_CHECK( s[s.size()] == '\0' ); #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { //Check is only here to avoid warning about value of expression not used CPPUNIT_CHECK( s.at(s.size()) == '\0' ); CPPUNIT_FAIL; } catch (out_of_range const&) { CPPUNIT_ASSERT( true ); } catch ( ... ) { CPPUNIT_FAIL; } #endif } void StringTest::insert() { string strorg = "This is test string for string calls"; string str; /* * In case of reallocation there is no auto reference problem * so we reserve a big enough string to be sure to test this * particular point. */ str.reserve(100); str = strorg; //test self insertion: str.insert(10, str.c_str() + 5, 15); CPPUNIT_ASSERT( str == "This is teis test string st string for string calls" ); str = strorg; str.insert(15, str.c_str() + 5, 25); CPPUNIT_ASSERT( str == "This is test stis test string for stringring for string calls" ); str = strorg; str.insert(0, str.c_str() + str.size() - 4, 4); CPPUNIT_ASSERT( str == "allsThis is test string for string calls" ); str = strorg; str.insert(0, str.c_str() + str.size() / 2 - 1, str.size() / 2 + 1); CPPUNIT_ASSERT( str == "ng for string callsThis is test string for string calls" ); str = strorg; string::iterator b = str.begin(); string::const_iterator s = str.begin() + str.size() / 2 - 1; string::const_iterator e = str.end(); str.insert( b, s, e ); CPPUNIT_ASSERT( str == "ng for string callsThis is test string for string calls" ); str = strorg; str.insert(str.begin(), str.begin() + str.size() / 2 - 1, str.end()); CPPUNIT_ASSERT( str == "ng for string callsThis is test string for string calls" ); #ifdef _STLP_MEMBER_TEMPLATES vector int_vect; //Just a compile time test: str.insert(str.end(), int_vect.begin(), int_vect.end()); #endif string str0; str0.insert(str0.begin(), 5, '0'); CPPUNIT_ASSERT( str0 == "00000" ); string str1; { string::size_type pos = 0, nb = 2; str1.insert(pos, nb, '1'); } CPPUNIT_ASSERT( str1 == "11" ); str0.insert(0, str1); CPPUNIT_ASSERT( str0 == "1100000" ); string str2("2345"); str0.insert(str0.size(), str2, 1, 2); CPPUNIT_ASSERT( str0 == "110000034" ); str1.insert(str1.begin() + 1, 2, '2'); CPPUNIT_ASSERT( str1 == "1221" ); str1.insert(2, "333333", 3); CPPUNIT_ASSERT( str1 == "1233321" ); str1.insert(4, "4444"); CPPUNIT_ASSERT( str1 == "12334444321" ); str1.insert(str1.begin() + 6, '5'); CPPUNIT_ASSERT( str1 == "123344544321" ); } void StringTest::replace() { /* * This test case is for the non template basic_string::replace method, * this is why we play with the const iterators and reference to guaranty * that the right method is called. */ const string v( "78" ); string s( "123456" ); string const& cs = s; string::iterator i = s.begin() + 1; s.replace(i, i + 3, v.begin(), v.end()); CPPUNIT_ASSERT( s == "17856" ); s = "123456"; i = s.begin() + 1; s.replace(i, i + 1, v.begin(), v.end()); CPPUNIT_ASSERT( s == "1783456" ); s = "123456"; i = s.begin() + 1; string::const_iterator ci = s.begin() + 1; s.replace(i, i + 3, ci + 3, cs.end()); CPPUNIT_ASSERT( s == "15656" ); s = "123456"; i = s.begin() + 1; ci = s.begin() + 1; s.replace(i, i + 3, ci, ci + 2); CPPUNIT_ASSERT( s == "12356" ); s = "123456"; i = s.begin() + 1; ci = s.begin() + 1; s.replace(i, i + 3, ci + 1, cs.end()); CPPUNIT_ASSERT( s == "1345656" ); s = "123456"; i = s.begin(); ci = s.begin() + 1; s.replace(i, i, ci, ci + 1); CPPUNIT_CHECK( s == "2123456" ); s = "123456"; s.replace(s.begin() + 4, s.end(), cs.begin(), cs.end()); CPPUNIT_ASSERT( s == "1234123456" ); /* * This is the test for the template replace method. */ s = "123456"; string::iterator b = s.begin() + 4; string::iterator e = s.end(); string::const_iterator rb = s.begin(); string::const_iterator re = s.end(); s.replace(b, e, rb, re); CPPUNIT_ASSERT( s == "1234123456" ); s = "123456"; s.replace(s.begin() + 4, s.end(), s.begin(), s.end()); CPPUNIT_ASSERT( s == "1234123456" ); string strorg("This is test string for string calls"); string str = strorg; str.replace(5, 15, str.c_str(), 10); CPPUNIT_ASSERT( str == "This This is tefor string calls" ); str = strorg; str.replace(5, 5, str.c_str(), 10); CPPUNIT_ASSERT( str == "This This is test string for string calls" ); #if (defined (STLPORT) && defined(_STLP_MEMBER_TEMPLATES)) || ( !defined (STLPORT) && !defined(__GNUC__) ) deque cdeque; cdeque.push_back('I'); str.replace(str.begin(), str.begin() + 11, cdeque.begin(), cdeque.end()); CPPUNIT_ASSERT( str == "Is test string for string calls" ); #endif } void StringTest::resize() { string s; s.resize(0); CPPUNIT_ASSERT( *s.c_str() == 0 ); s = "1234567"; s.resize(0); CPPUNIT_ASSERT( *s.c_str() == 0 ); s = "1234567"; s.resize(1); CPPUNIT_ASSERT( s.size() == 1 ); CPPUNIT_ASSERT( *s.c_str() == '1' ); CPPUNIT_ASSERT( *(s.c_str() + 1) == 0 ); s = "1234567"; s.resize(10); CPPUNIT_ASSERT( s.size() == 10 ); CPPUNIT_ASSERT( s[6] == '7' ); CPPUNIT_ASSERT( s[7] == 0 ); CPPUNIT_ASSERT( s[8] == 0 ); CPPUNIT_ASSERT( s[9] == 0 ); } void StringTest::find() { string s("one two three one two three"); CPPUNIT_ASSERT( s.find("one") == 0 ); CPPUNIT_ASSERT( s.find('t') == 4 ); CPPUNIT_ASSERT( s.find('t', 5) == 8 ); //We are trying to get a const reference to the npos string static member to //force the compiler to allocate memory for this variable. It is used to reveal //a bug of STLport which was simply declaring npos without instanciating it. #if defined (STLPORT) && defined (_STLP_STATIC_CONST_INIT_BUG) string::size_type const& npos_local = string::npos; #else # define npos_local string::npos #endif CPPUNIT_ASSERT( s.find("four") == npos_local ); CPPUNIT_ASSERT( s.find("one", string::npos) == npos_local ); CPPUNIT_ASSERT( s.find_first_of("abcde") == 2 ); CPPUNIT_ASSERT( s.find_first_not_of("enotw ") == 9 ); string empty; CPPUNIT_ASSERT( s.substr(s.find(empty), empty.size()) == empty ); } void StringTest::bogus_edge_find() { /* ISO/IEC 14882 2003, 21.3.6.1 basic_string::find [lib.string::find] * * size_type find(const basic_string& str, * size_type pos = 0) const; * Effects: Determines the lowest position xpos, if possible, such that * both of the following conditions obtain: * pos <= xpos and xpos + str.size() <= size(); * at(xpos+I) == str.at(I) for all elements I of the string controlled by str. * Returns: xpos if the function can determine such a value for xpos. Otherwise, * returns npos. * Notes: Uses traits::eq(). * * === * So, from formal point of view * string s; string::size_type p = s.find( "", 0, 0 ); * should return 0 in p, i.e. position out-of-bound of string, so * code like following is bad: * string s; * * string::size_type p = s.find( "", 0, 0 ); * * ... * * if ( p != string::npos ) { // normal * char ch = s[p]; // Arghhhhhhhhhh * } * * People near Standard commete has opinion opposite to my. Even if it looks * like bogus behaviour for me, it should be fixed. */ { string s; string::size_type p = s.find( "", 0, 0 ); /* CPPUNIT_CHECK( p == string::npos ); */ CPPUNIT_CHECK( p == 0 ); // bogus result, isn't it? } { string s( "123" ); string::size_type p = s.find( "", 0, 0 ); CPPUNIT_CHECK( p == 0 ); } { string s( "123" ); string::size_type p = s.find( "", 1, 0 ); CPPUNIT_CHECK( p == 1 ); } { string s( "" ); string::size_type p = s.find( "", 1, 0 ); CPPUNIT_CHECK( p == string::npos ); } { string s( "123" ); string::size_type p = s.find( "", 3, 0 ); CPPUNIT_CHECK( p == 3 ); // bogus result, isn't it? } { string s; string::size_type p = s.rfind( "", 0, 0 ); /* CPPUNIT_CHECK( p == string::npos ); */ CPPUNIT_CHECK( p == 0 ); // bogus result, isn't it? } { string s( "123" ); string::size_type p = s.rfind( "", 0, 0 ); CPPUNIT_CHECK( p == 0 ); } { string s( "123" ); string::size_type p = s.rfind( "", 1, 0 ); CPPUNIT_CHECK( p == 1 ); } { string s( "" ); string::size_type p = s.rfind( "", 1, 0 ); CPPUNIT_CHECK( p == 0 ); // bogus result, isn't it? } { string s( "123" ); string::size_type p = s.rfind( "", 3, 0 ); CPPUNIT_CHECK( p == 3 ); // bogus result, isn't it? } } void StringTest::rfind() { // 21.3.6.2 string s("one two three one two three"); CPPUNIT_ASSERT( s.rfind("two") == 18 ); CPPUNIT_ASSERT( s.rfind("two", 0) == string::npos ); CPPUNIT_ASSERT( s.rfind("two", 11) == 4 ); CPPUNIT_ASSERT( s.rfind('w') == 19 ); string test( "aba" ); CPPUNIT_CHECK( test.rfind( "a", 2, 1 ) == 2 ); CPPUNIT_CHECK( test.rfind( "a", 1, 1 ) == 0 ); CPPUNIT_CHECK( test.rfind( "a", 0, 1 ) == 0 ); CPPUNIT_CHECK( test.rfind( 'a', 2 ) == 2 ); CPPUNIT_CHECK( test.rfind( 'a', 1 ) == 0 ); CPPUNIT_CHECK( test.rfind( 'a', 0 ) == 0 ); } void StringTest::find_last_of() { // 21.3.6.4 string s("one two three one two three"); CPPUNIT_ASSERT( s.find_last_of("abcde") == 26 ); string test( "aba" ); CPPUNIT_CHECK( test.find_last_of( "a", 2, 1 ) == 2 ); CPPUNIT_CHECK( test.find_last_of( "a", 1, 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_of( "a", 0, 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_of( 'a', 2 ) == 2 ); CPPUNIT_CHECK( test.find_last_of( 'a', 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_of( 'a', 0 ) == 0 ); } void StringTest::find_last_not_of() { // 21.3.6.6 string s("one two three one two three"); CPPUNIT_ASSERT( s.find_last_not_of("ehortw ") == 15 ); string test( "aba" ); CPPUNIT_CHECK( test.find_last_not_of( "a", 2, 1 ) == 1 ); CPPUNIT_CHECK( test.find_last_not_of( "b", 2, 1 ) == 2 ); CPPUNIT_CHECK( test.find_last_not_of( "a", 1, 1 ) == 1 ); CPPUNIT_CHECK( test.find_last_not_of( "b", 1, 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_not_of( "a", 0, 1 ) == string::npos ); CPPUNIT_CHECK( test.find_last_not_of( "b", 0, 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_not_of( 'a', 2 ) == 1 ); CPPUNIT_CHECK( test.find_last_not_of( 'b', 2 ) == 2 ); CPPUNIT_CHECK( test.find_last_not_of( 'a', 1 ) == 1 ); CPPUNIT_CHECK( test.find_last_not_of( 'b', 1 ) == 0 ); CPPUNIT_CHECK( test.find_last_not_of( 'a', 0 ) == string::npos ); CPPUNIT_CHECK( test.find_last_not_of( 'b', 0 ) == 0 ); } void StringTest::copy() { string s("foo"); char dest[4]; dest[0] = dest[1] = dest[2] = dest[3] = 1; s.copy(dest, 4); int pos = 0; CPPUNIT_ASSERT( dest[pos++] == 'f' ); CPPUNIT_ASSERT( dest[pos++] == 'o' ); CPPUNIT_ASSERT( dest[pos++] == 'o' ); CPPUNIT_ASSERT( dest[pos++] == 1 ); dest[0] = dest[1] = dest[2] = dest[3] = 1; s.copy(dest, 4, 2); pos = 0; CPPUNIT_ASSERT( dest[pos++] == 'o' ); CPPUNIT_ASSERT( dest[pos++] == 1 ); #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { s.copy(dest, 4, 5); CPPUNIT_FAIL; } catch (out_of_range const&) { } catch ( ... ) { CPPUNIT_FAIL; } #endif } void StringTest::assign() { string s; char const* cstr = "test string for assign"; s.assign(cstr, cstr + 22); CPPUNIT_ASSERT( s == "test string for assign" ); string s2("other test string"); s.assign(s2); CPPUNIT_ASSERT( s == s2 ); static string str1; static string str2; // short string optim: str1 = "123456"; // longer than short string: str2 = "1234567890123456789012345678901234567890"; CPPUNIT_ASSERT(str1[5] == '6'); CPPUNIT_ASSERT(str2[29] == '0'); } /* This test is to check if string properly supports the short string * optimization. It has been found out that eMbedded Visual C++ 3.0 and .NET * compilers for the ARM platform fail to pass structs and classes of certain * size per value. This seems to be a known compiler bug. For other processors * (e.g. x86) the error doesn't occur. * (The ARM compiler creates a temporary object from teststr on the stack, to * pass it to the helper function. It uses the copy constructor for this. * After this the temporary object is copied to another place on the stack. * The result is that the _M_finish pointer then points to the wrong buffer * end and the size of the short string is incorrectly calculated.) */ void StringTest::short_string_optim_bug() { string teststr("shortest"); bool short_string_optim_bug_helper(string teststr); CPPUNIT_ASSERT(true == short_string_optim_bug_helper(teststr)); } bool short_string_optim_bug_helper(string teststr) { size_t ss = teststr.size(); return (ss == 8); } void StringTest::compare() { string str1("abcdef"); string str2; str2 = "abcdef"; CPPUNIT_ASSERT( str1.compare(str2) == 0 ); str2 = "abcde"; CPPUNIT_ASSERT( str1.compare(str2) > 0 ); str2 = "abcdefg"; CPPUNIT_ASSERT( str1.compare(str2) < 0 ); CPPUNIT_ASSERT( str1.compare("abcdef") == 0 ); CPPUNIT_ASSERT( str1.compare("abcde") > 0 ); CPPUNIT_ASSERT( str1.compare("abcdefg") < 0 ); str2 = "cde"; CPPUNIT_ASSERT( str1.compare(2, 3, str2) == 0 ); str2 = "cd"; CPPUNIT_ASSERT( str1.compare(2, 3, str2) > 0 ); str2 = "cdef"; CPPUNIT_ASSERT( str1.compare(2, 3, str2) < 0 ); str2 = "abcdef"; CPPUNIT_ASSERT( str1.compare(2, 3, str2, 2, 3) == 0 ); CPPUNIT_ASSERT( str1.compare(2, 3, str2, 2, 2) > 0 ); CPPUNIT_ASSERT( str1.compare(2, 3, str2, 2, 4) < 0 ); CPPUNIT_ASSERT( str1.compare(2, 3, "cdefgh", 3) == 0 ); CPPUNIT_ASSERT( str1.compare(2, 3, "cdefgh", 2) > 0 ); CPPUNIT_ASSERT( str1.compare(2, 3, "cdefgh", 4) < 0 ); } /* class mystring : public string { public: mystring() {} mystring(string const& s) : string(s) {} mystring& operator = (string const& s) { string::operator = (s); return *this; }; }; */ void StringTest::template_expression() { string one("one"), two("two"), three("three"); string space(1, ' '); // check availability of [un]equality operators { // string-string one == two; one != two; // string-literal one == "two"; one != "two"; // literal-string "one" == two; "one" != two; // strsum-string (one + two) == three; (one + two) != three; // string-strsum one == (two + three); one != (two + three); // strsum-literal (one + two) == "three"; (one + two) != "three"; // literal-strsum "one" == (two + three); "one" != (two + three); // strsum-strsum (one + two) == (two + three); (one + two) != (two + three); } { string result(one + ' ' + two + ' ' + three); CPPUNIT_CHECK( result == "one two three" ); } { string result(one + ' ' + two + ' ' + three, 4); CPPUNIT_CHECK( result == "two three" ); } { string result(one + ' ' + two + ' ' + three, 4, 3); CPPUNIT_CHECK( result == "two" ); } //2 members expressions: CPPUNIT_CHECK( (' ' + one) == " one" ); CPPUNIT_CHECK( (one + ' ') == "one " ); CPPUNIT_CHECK( (one + " two") == "one two" ); CPPUNIT_CHECK( ("one " + two) == "one two" ); CPPUNIT_CHECK( (one + space) == "one " ); //3 members expressions: CPPUNIT_CHECK( ((one + space) + "two") == "one two" ); CPPUNIT_CHECK( ("one" + (space + two)) == "one two" ); CPPUNIT_CHECK( ((one + space) + two) == "one two" ); CPPUNIT_CHECK( (one + (space + two)) == "one two" ); CPPUNIT_CHECK( ((one + space) + 't') == "one t" ); CPPUNIT_CHECK( ('o' + (space + two)) == "o two" ); //4 members expressions: CPPUNIT_CHECK( ((one + space) + (two + space)) == "one two " ); //special operators { string result; result = one + space + two; CPPUNIT_CHECK( result == "one two" ); result += space + three; CPPUNIT_CHECK( result == "one two three" ); } //special append method { string result; //Use reserve to avoid reallocation and really test auto-referencing problems: result.reserve(64); result.append(one + space + two); CPPUNIT_CHECK( result == "one two" ); result.append(space + result + space + three); CPPUNIT_CHECK( result == "one two one two three" ); result = "one two"; result.append(space + three, 1, 2); CPPUNIT_ASSERT( result == "one twoth" ); result.append(space + result); CPPUNIT_CHECK( result == "one twoth one twoth" ); } //special assign method { string result; //Use reserve to avoid reallocation and really test auto-referencing problems: result.reserve(64); result.assign(one + space + two + space + three); CPPUNIT_CHECK( result == "one two three" ); result.assign(one + space + two + space + three, 3, 5); CPPUNIT_CHECK( result == " two " ); result.assign(one + result + three); CPPUNIT_CHECK( result == "one two three" ); } { CPPUNIT_CHECK( !(one + ' ' + two).empty() ); char result = (one + ' ' + two)[3]; CPPUNIT_CHECK( result == ' ' ); result = (one + ' ' + two).at(3); CPPUNIT_CHECK( result == ' ' ); #if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { result = (one + ' ' + two).at(10); CPPUNIT_FAIL; } catch (out_of_range const&) { CPPUNIT_ASSERT( result == ' ' ); } catch (...) { CPPUNIT_FAIL; } #endif } /* mystring a("ing"); //gcc failed to compile following expression when template expressions are activated. //MSVC sees no problem. gcc limitation or MSVC is too cool ?? mystring b = "str" + a; */ } #if !defined (TE_TMP_TEST_IGNORED) class superstring { public: superstring() : s("super") {} superstring( const string& str ) : s( str ) {} superstring operator / (const string& str ) { return superstring( s + "/" + str ); } superstring operator / (const char* str ) { return superstring( s + "/" + str ); } private: string s; }; #endif void StringTest::te_tmp() { #if !defined (TE_TMP_TEST_IGNORED) superstring s; string more( "more" ); string less( "less" ); superstring r = s / (more + less); #endif } class mypath { public: mypath( const string& s ) : p( s ) { } const mypath& operator / ( const string& ); const string& str() const { return p; } private: string p; }; const mypath& mypath::operator /( const string& s ) { p += '/'; p += s; return *this; } void StringTest::oper_tmp() { string s1( "path1" ); string s2( ".ext" ); string& rs1 = s1; string& rs2 = s2; CPPUNIT_CHECK( (mypath( string( "/root" ) ) / (rs1 + rs2)).str() == "/root/path1.ext" ); } void StringTest::template_wexpression() { #if !defined (STLPORT) || !defined (_STLP_NO_WCHAR_T) # if !defined (__CYGWIN__) || defined (STLPORT) wstring one(L"one"), two(L"two"), three(L"three"); wstring space(L" "); { wstring result(one + L' ' + two + L' ' + three); CPPUNIT_CHECK( result == L"one two three" ); } { wstring result(one + L' ' + two + L' ' + three, 4); CPPUNIT_CHECK( result == L"two three" ); } { wstring result(one + L' ' + two + L' ' + three, 4, 3); CPPUNIT_CHECK( result == L"two" ); } //2 members expressions: CPPUNIT_CHECK( (L' ' + one) == L" one" ); CPPUNIT_CHECK( (one + L' ') == L"one " ); CPPUNIT_CHECK( (one + L" two") == L"one two" ); CPPUNIT_CHECK( (L"one " + two) == L"one two" ); CPPUNIT_CHECK( (one + space) == L"one " ); //3 members expressions: CPPUNIT_CHECK( ((one + space) + L"two") == L"one two" ); CPPUNIT_CHECK( (L"one" + (space + two)) == L"one two" ); CPPUNIT_CHECK( ((one + space) + two) == L"one two" ); CPPUNIT_CHECK( (one + (space + two)) == L"one two" ); CPPUNIT_CHECK( ((one + space) + L't') == L"one t" ); CPPUNIT_CHECK( (L'o' + (space + two)) == L"o two" ); //4 members expressions: CPPUNIT_CHECK( ((one + space) + (two + space)) == L"one two " ); //special operators { wstring result; result = one + space + two; CPPUNIT_CHECK( result == L"one two" ); result += space + three; CPPUNIT_CHECK( result == L"one two three" ); } //special append method { wstring result; //Use reserve to avoid reallocation and really test auto-referencing problems: result.reserve(64); result.append(one + space + two); CPPUNIT_CHECK( result == L"one two" ); result.append(space + result + space + three); CPPUNIT_CHECK( result == L"one two one two three" ); result = L"one two"; result.append(space + three, 1, 2); CPPUNIT_ASSERT( result == L"one twoth" ); result.append(space + result); CPPUNIT_CHECK( result == L"one twoth one twoth" ); } //special assign method { wstring result; //Use reserve to avoid reallocation and really test auto-referencing problems: result.reserve(64); result.assign(one + space + two + space + three); CPPUNIT_CHECK( result == L"one two three" ); result.assign(one + space + two + space + three, 3, 5); CPPUNIT_CHECK( result == L" two " ); result.assign(one + result + three); CPPUNIT_CHECK( result == L"one two three" ); } { CPPUNIT_CHECK( !(one + L' ' + two).empty() ); wchar_t result = (one + L' ' + two)[3]; CPPUNIT_CHECK( result == L' ' ); result = (one + L' ' + two).at(3); CPPUNIT_CHECK( result == L' ' ); # if !defined (STLPORT) || defined (_STLP_USE_EXCEPTIONS) try { result = (one + L' ' + two).at(10); CPPUNIT_FAIL; } catch (out_of_range const&) { CPPUNIT_ASSERT( result == L' ' ); } catch (...) { CPPUNIT_FAIL; } # endif } # endif #endif } void StringTest::io() { #if !defined (STLPORT) || !defined (_STLP_USE_NO_IOSTREAMS) string str("STLport"); { ostringstream ostr; ostr << str; CPPUNIT_ASSERT( ostr.good() ); CPPUNIT_ASSERT( ostr.str() == str ); } { istringstream istr(str); string istr_content; istr >> istr_content; CPPUNIT_ASSERT( !istr.fail() && istr.eof() ); CPPUNIT_ASSERT( istr_content == str ); } { istringstream istr(str); istr.width(3); string istr_content; istr >> istr_content; CPPUNIT_ASSERT( !istr.fail() && !istr.eof() ); CPPUNIT_ASSERT( istr_content == "STL" ); } #endif } void StringTest::allocator_with_state() { #if !(defined (STLPORT) && defined (_STLP_NO_CUSTOM_IO)) char buf1[1024]; StackAllocator stack1(buf1, buf1 + sizeof(buf1)); char buf2[1024]; StackAllocator stack2(buf2, buf2 + sizeof(buf2)); typedef basic_string, StackAllocator > StackString; { StackString str1("string stack1", stack1); StackString str1Cpy(str1); StackString str2("string stack2", stack2); StackString str2Cpy(str2); str1.swap(str2); CPPUNIT_ASSERT( str1.get_allocator().swaped() ); CPPUNIT_ASSERT( str2.get_allocator().swaped() ); CPPUNIT_ASSERT( str1 == str2Cpy ); CPPUNIT_ASSERT( str2 == str1Cpy ); CPPUNIT_ASSERT( str1.get_allocator() == stack2 ); CPPUNIT_ASSERT( str2.get_allocator() == stack1 ); } CPPUNIT_ASSERT( stack1.ok() ); CPPUNIT_ASSERT( stack2.ok() ); stack1.reset(); stack2.reset(); { StackString str1("longer string from stack1 allocator instance for dynamic allocation", stack1); StackString str1Cpy(str1); StackString str2("longer string from stack2 allocator instance for dynamic allocation", stack2); StackString str2Cpy(str2); str1.swap(str2); CPPUNIT_ASSERT( str1.get_allocator().swaped() ); CPPUNIT_ASSERT( str2.get_allocator().swaped() ); CPPUNIT_ASSERT( str1 == str2Cpy ); CPPUNIT_ASSERT( str2 == str1Cpy ); CPPUNIT_ASSERT( str1.get_allocator() == stack2 ); CPPUNIT_ASSERT( str2.get_allocator() == stack1 ); } CPPUNIT_ASSERT( stack1.ok() ); CPPUNIT_ASSERT( stack2.ok() ); stack1.reset(); stack2.reset(); { StackString str1("string stack1", stack1); StackString str1Cpy(str1); StackString str2("longer string from stack2 allocator instance for dynamic allocation", stack2); StackString str2Cpy(str2); str1.swap(str2); CPPUNIT_ASSERT( str1.get_allocator().swaped() ); CPPUNIT_ASSERT( str2.get_allocator().swaped() ); CPPUNIT_ASSERT( str1 == str2Cpy ); CPPUNIT_ASSERT( str2 == str1Cpy ); CPPUNIT_ASSERT( str1.get_allocator() == stack2 ); CPPUNIT_ASSERT( str2.get_allocator() == stack1 ); } CPPUNIT_ASSERT( stack1.ok() ); CPPUNIT_ASSERT( stack2.ok() ); stack1.reset(); stack2.reset(); { StackString str1("longer string from stack1 allocator instance for dynamic allocation", stack1); StackString str1Cpy(str1); StackString str2("string stack2", stack2); StackString str2Cpy(str2); str1.swap(str2); CPPUNIT_ASSERT( str1.get_allocator().swaped() ); CPPUNIT_ASSERT( str2.get_allocator().swaped() ); CPPUNIT_ASSERT( str1 == str2Cpy ); CPPUNIT_ASSERT( str2 == str1Cpy ); CPPUNIT_ASSERT( str1.get_allocator() == stack2 ); CPPUNIT_ASSERT( str2.get_allocator() == stack1 ); } CPPUNIT_ASSERT( stack1.ok() ); CPPUNIT_ASSERT( stack2.ok() ); stack1.reset(); stack2.reset(); #endif } void StringTest::capacity() { string s; CPPUNIT_CHECK( s.capacity() > 0 ); CPPUNIT_CHECK( s.capacity() < s.max_size() ); CPPUNIT_CHECK( s.capacity() >= s.size() ); #ifndef _STLP_SHORT_STRING_SZ # define _STLP_SHORT_STRING_SZ 16 // see stlport/stl/_string_base.h #endif for ( int i = 0; i < _STLP_SHORT_STRING_SZ + 2; ++i ) { s += ' '; CPPUNIT_CHECK( s.capacity() > 0 ); CPPUNIT_CHECK( s.capacity() < s.max_size() ); CPPUNIT_CHECK( s.capacity() >= s.size() ); } } void StringTest::concat24() { string s = string( "123456789012345678901234" ) + string( "123456789012345678901234" ); CPPUNIT_CHECK( s.length() == 48 ); CPPUNIT_CHECK( s[23] == '4' ); CPPUNIT_CHECK( s[24] == '1' ); CPPUNIT_CHECK( s[47] == '4' ); }