/////////////////////////////////////////////////////////////////////////////// // Name: tests/strings/vsnprintf.cpp // Purpose: wxVsnprintf unit test // Author: Francesco Montorsi // (part of this file was taken from CMP.c of TRIO package // written by Bjorn Reese and Daniel Stenberg) // Created: 2006-04-01 // Copyright: (c) 2006 Francesco Montorsi, Bjorn Reese and Daniel Stenberg /////////////////////////////////////////////////////////////////////////////// // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- #include "testprec.h" #include "wx/crt.h" #if wxUSE_WXVSNPRINTF #ifndef WX_PRECOMP #include "wx/wx.h" #include "wx/wxchar.h" #endif // WX_PRECOMP // NOTE: for more info about the specification of wxVsnprintf() behaviour you can // refer to the following page of the GNU libc manual: // http://www.gnu.org/software/libc/manual/html_node/Formatted-Output.html // ---------------------------------------------------------------------------- // global utilities for testing // ---------------------------------------------------------------------------- #define MAX_TEST_LEN 1024 // temporary buffers static wxChar buf[MAX_TEST_LEN]; int r; // Helper macro verifying both the return value of wxSnprintf() and its output. // // NOTE: the expected string length with this macro must not exceed MAX_TEST_LEN #define CMP(expected, fmt, ...) \ r=wxSnprintf(buf, MAX_TEST_LEN, fmt, ##__VA_ARGS__); \ CHECK( r == (int)wxStrlen(buf) ); \ CHECK( buf == wxString(expected) ) // Another helper which takes the size explicitly instead of using MAX_TEST_LEN // // NOTE: this macro is used also with too-small buffers (see Miscellaneous()) // test function, thus the return value can be either -1 or > size and we // cannot check if r == (int)wxStrlen(buf) #define CMPTOSIZE(buffer, size, failuremsg, expected, fmt, ...) \ r=wxSnprintf(buffer, size, fmt, ##__VA_ARGS__); \ INFO(failuremsg); \ CHECK( buffer == wxString(expected).Left(size - 1) ) // this is the same as wxSnprintf() but it passes the format string to // wxVsnprintf() without using WX_ATTRIBUTE_PRINTF and thus suppresses the gcc // checks (and resulting warnings) for the format string // // use with extreme care and only when you're really sure the warnings must be // suppressed! template static int wxUnsafeSnprintf(T *buf, size_t len, const wxChar *fmt, ...) { va_list args; va_start(args, fmt); int rc = wxVsnprintf(buf, len, fmt, args); va_end(args); return rc; } // ---------------------------------------------------------------------------- // test fixture // ---------------------------------------------------------------------------- // Explicitly set C locale to avoid check failures when running on machines // with a locale where the decimal point is not '.' class VsnprintfTestCase : CLocaleSetter { public: VsnprintfTestCase() : CLocaleSetter() { } protected: template void DoBigToSmallBuffer(T *buffer, int size); // compares the expectedString and the result of wxVsnprintf() char by char // for all its length (not only for first expectedLen chars) and also // checks the return value void DoMisc(int expectedLen, const wxString& expectedString, size_t max, const wxChar *format, ...); wxDECLARE_NO_COPY_CLASS(VsnprintfTestCase); }; TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::C", "[vsnprintf]") { CMP("hi!", "%c%c%c", wxT('h'), wxT('i'), wxT('!')); // NOTE: // the NULL characters _can_ be passed to %c to e.g. create strings // with embedded NULs (because strings are not always supposed to be // NUL-terminated). DoMisc(14, wxT("Hello \0 World!"), 16, wxT("Hello %c World!"), wxT('\0')); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::D", "[vsnprintf]") { CMP("+123456", "%+d", 123456); CMP("-123456", "%d", -123456); CMP(" 123456", "% d", 123456); CMP(" 123456", "%10d", 123456); CMP("0000123456", "%010d", 123456); CMP("-123456 ", "%-10d", -123456); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::X", "[vsnprintf]") { CMP("ABCD", "%X", 0xABCD); CMP("0XABCD", "%#X", 0xABCD); CMP("0xabcd", "%#x", 0xABCD); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::O", "[vsnprintf]") { CMP("1234567", "%o", 01234567); CMP("01234567", "%#o", 01234567); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::P", "[vsnprintf]") { // The exact format used for "%p" is not specified by the standard and so // varies among different platforms, so we need to expect different results // here (remember that while we test our own wxPrintf() code here, it uses // the system sprintf() for actual formatting so the results are still // different under different systems). #if defined(__VISUALC__) || (defined(__MINGW32__) && \ (!defined(__USE_MINGW_ANSI_STDIO) || !__USE_MINGW_ANSI_STDIO)) #if SIZEOF_VOID_P == 4 CMP("00ABCDEF", "%p", (void*)0xABCDEF); CMP("00000000", "%p", (void*)NULL); #elif SIZEOF_VOID_P == 8 CMP("0000ABCDEFABCDEF", "%p", (void*)0xABCDEFABCDEF); CMP("0000000000000000", "%p", (void*)NULL); #endif #elif defined(__MINGW32__) #if SIZEOF_VOID_P == 4 CMP("00abcdef", "%p", (void*)0xABCDEF); CMP("00000000", "%p", (void*)NULL); #elif SIZEOF_VOID_P == 8 CMP("0000abcdefabcdef", "%p", (void*)0xABCDEFABCDEF); CMP("0000000000000000", "%p", (void*)NULL); #endif #elif defined(__GNUG__) // glibc prints pointers as %#x except for NULL pointers which are printed // as '(nil)'. CMP("0xabcdef", "%p", (void*)0xABCDEF); CMP("(nil)", "%p", (void*)NULL); #endif } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::N", "[vsnprintf]") { int nchar; wxSnprintf(buf, MAX_TEST_LEN, wxT("%d %s%n\n"), 3, wxT("bears"), &nchar); CHECK( nchar == 7 ); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::E", "[vsnprintf]") { // NB: Use at least three digits for the exponent to workaround // differences between MSVC, MinGW and GNU libc. // See wxUSING_MANTISSA_SIZE_3 in testprec.h as well. // // Some examples: // printf("%e",2.342E+02); // -> under MSVC7.1 prints: 2.342000e+002 // -> under GNU libc 2.4 prints: 2.342000e+02 CMP("2.342000e+112", "%e",2.342E+112); CMP("-2.3420e-112", "%10.4e",-2.342E-112); CMP("-2.3420e-112", "%11.4e",-2.342E-112); CMP(" -2.3420e-112", "%15.4e",-2.342E-112); CMP("-0.02342", "%G",-2.342E-02); CMP("3.1415E-116", "%G",3.1415e-116); CMP("0003.141500e+103", "%016e", 3141.5e100); CMP(" 3.141500e+103", "%16e", 3141.5e100); CMP("3.141500e+103 ", "%-16e", 3141.5e100); CMP("3.142e+103", "%010.3e", 3141.5e100); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::F", "[vsnprintf]") { CMP("3.300000", "%5f", 3.3); CMP("3.000000", "%5f", 3.0); CMP("0.000100", "%5f", .999999E-4); CMP("0.000990", "%5f", .99E-3); CMP("3333.000000", "%5f", 3333.0); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::G", "[vsnprintf]") { // NOTE: the same about E() testcase applies here... CMP(" 3.3", "%5g", 3.3); CMP(" 3", "%5g", 3.0); CMP("9.99999e-115", "%5g", .999999E-114); CMP("0.00099", "%5g", .99E-3); CMP(" 3333", "%5g", 3333.0); CMP(" 0.01", "%5g", 0.01); CMP(" 3", "%5.g", 3.3); CMP(" 3", "%5.g", 3.0); CMP("1e-114", "%5.g", .999999E-114); CMP("0.0001", "%5.g", 1.0E-4); CMP("0.001", "%5.g", .99E-3); CMP("3e+103", "%5.g", 3333.0E100); CMP(" 0.01", "%5.g", 0.01); CMP(" 3.3", "%5.2g", 3.3); CMP(" 3", "%5.2g", 3.0); CMP("1e-114", "%5.2g", .999999E-114); CMP("0.00099", "%5.2g", .99E-3); CMP("3.3e+103", "%5.2g", 3333.0E100); CMP(" 0.01", "%5.2g", 0.01); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::S", "[vsnprintf]") { CMP(" abc", "%5s", wxT("abc")); CMP(" a", "%5s", wxT("a")); CMP("abcdefghi", "%5s", wxT("abcdefghi")); CMP("abc ", "%-5s", wxT("abc")); CMP("abcdefghi", "%-5s", wxT("abcdefghi")); CMP("abcde", "%.5s", wxT("abcdefghi")); // do the same tests but with Unicode characters: #if wxUSE_UNICODE // Unicode code points from U+03B1 to U+03B9 are the greek letters alpha-iota; // UTF8 encoding of such code points is 0xCEB1 to 0xCEB9 #define ALPHA "\xCE\xB1" // alpha #define ABC "\xCE\xB1\xCE\xB2\xCE\xB3" // alpha+beta+gamma #define ABCDE "\xCE\xB1\xCE\xB2\xCE\xB3\xCE\xB4\xCE\xB5" // alpha+beta+gamma+delta+epsilon #define ABCDEFGHI "\xCE\xB1\xCE\xB2\xCE\xB3\xCE\xB4\xCE\xB5\xCE\xB6\xCE\xB7\xCE\xB8\xCE\xB9" // alpha+beta+gamma+delta+epsilon+zeta+eta+theta+iota // the 'expected' and 'arg' parameters of this macro are supposed to be // UTF-8 strings #define CMP_UTF8(expected, fmt, arg) \ CHECK \ ( \ (int)wxString::FromUTF8(expected).length() == \ wxSnprintf(buf, MAX_TEST_LEN, fmt, wxString::FromUTF8(arg)) \ ); \ CHECK( wxString::FromUTF8(expected) == buf ) CMP_UTF8(" " ABC, "%5s", ABC); CMP_UTF8(" " ALPHA, "%5s", ALPHA); CMP_UTF8(ABCDEFGHI, "%5s", ABCDEFGHI); CMP_UTF8(ABC " ", "%-5s", ABC); CMP_UTF8(ABCDEFGHI, "%-5s", ABCDEFGHI); CMP_UTF8(ABCDE, "%.5s", ABCDEFGHI); #endif // wxUSE_UNICODE // test a string which has a NULL character after "ab"; // obviously it should be handled exactly like just as "ab" CMP(" ab", "%5s", wxT("ab\0cdefghi")); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::Asterisk", "[vsnprintf]") { CMP(" 0.1", "%*.*f", 10, 1, 0.123); CMP(" 0.1230", "%*.*f", 10, 4, 0.123); CMP("0.1", "%*.*f", 3, 1, 0.123); CMP("%0.002", "%%%.*f", 3, 0.0023456789); CMP(" a", "%*c", 8, 'a'); CMP(" four", "%*s", 8, "four"); CMP(" four four", "%*s %*s", 8, "four", 6, "four"); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::Percent", "[vsnprintf]") { // some tests without any argument passed through ... CMP("%", "%%"); CMP("%%%", "%%%%%%"); CMP("% abc", "%%%5s", wxT("abc")); CMP("% abc%", "%%%5s%%", wxT("abc")); // do not test odd number of '%' symbols as different implementations // of snprintf() give different outputs as this situation is not considered // by any standard (in fact, GCC will also warn you about a spurious % if // you write %%% as argument of some *printf function !) // Compare(wxT("%"), wxT("%%%")); } #ifdef wxLongLong_t TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::LongLong", "[vsnprintf]") { CMP("123456789", "%lld", (wxLongLong_t)123456789); CMP("-123456789", "%lld", (wxLongLong_t)-123456789); CMP("123456789", "%llu", (wxULongLong_t)123456789); #ifdef __WINDOWS__ CMP("123456789", "%I64d", (wxLongLong_t)123456789); CMP("123456789abcdef", "%I64x", wxLL(0x123456789abcdef)); #endif } #endif TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::WrongFormatStrings", "[vsnprintf]") { // test how wxVsnprintf() behaves with wrong format string: // a missing positional arg should result in an assert WX_ASSERT_FAILS_WITH_ASSERT( wxSnprintf(buf, MAX_TEST_LEN, wxT("%1$d %3$d"), 1, 2, 3) ); // positional and non-positionals in the same format string: errno = 0; r = wxSnprintf(buf, MAX_TEST_LEN, wxT("%1$d %d %3$d"), 1, 2, 3); CHECK( r == -1 ); CHECK( errno == EINVAL ); } // BigToSmallBuffer() test case helper: template void VsnprintfTestCase::DoBigToSmallBuffer(T *buffer, int size) { // Remember that wx*printf could be mapped either to system // implementation or to wx implementation. // In the first case, when the output buffer is too small, the returned // value can be the number of characters required for the output buffer // (conforming to ISO C99; implemented in e.g. GNU libc >= 2.1), or // just a negative number, usually -1; (this is how e.g. MSVC's // *printf() behaves). Luckily, in all implementations, when the // output buffer is too small, it's nonetheless filled up to its max size. // // Note that in the second case (i.e. when we're using our own implementation), // wxVsnprintf() will return the number of characters written in the standard // output or // -1 if there was an error in the format string // maxSize+1 if the output buffer is too small wxString errStr; errStr << "The size of the buffer was " << size; std::string errMsg(errStr.mb_str()); // test without positionals CMPTOSIZE(buffer, size, errMsg, "123456789012 - test - 123 -4.567", "%i%li - test - %d %.3f", 123, (long int)456789012, 123, -4.567); #if wxUSE_PRINTF_POS_PARAMS // test with positional CMPTOSIZE(buffer, size, errMsg, "-4.567 123 - test - 456789012 123", "%4$.3f %1$i - test - %2$li %3$d", 123, (long int)456789012, 123, -4.567); #endif // test unicode/ansi conversion specifiers // // NB: we use wxUnsafeSnprintf() as %hs and %hc are invalid in printf // format and gcc would warn about this otherwise r = wxUnsafeSnprintf(buffer, size, wxT("unicode string/char: %ls/%lc -- ansi string/char: %hs/%hc"), L"unicode", L'U', "ansi", 'A'); wxString expected = wxString(wxT("unicode string/char: unicode/U -- ansi string/char: ansi/A")).Left(size - 1); CHECK( expected == buffer ); } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::BigToSmallBuffer", "[vsnprintf]") { #if wxUSE_UNICODE wchar_t bufw[1024], bufw2[16], bufw3[4], bufw4; DoBigToSmallBuffer(bufw, 1024); DoBigToSmallBuffer(bufw2, 16); DoBigToSmallBuffer(bufw3, 4); DoBigToSmallBuffer(&bufw4, 1); #endif // wxUSE_UNICODE char bufa[1024], bufa2[16], bufa3[4], bufa4; DoBigToSmallBuffer(bufa, 1024); DoBigToSmallBuffer(bufa2, 16); DoBigToSmallBuffer(bufa3, 4); DoBigToSmallBuffer(&bufa4, 1); } // Miscellaneous() test case helper: void VsnprintfTestCase::DoMisc( int expectedLen, const wxString& expectedString, size_t max, const wxChar *format, ...) { const size_t BUFSIZE = MAX_TEST_LEN - 1; size_t i; static int count = 0; wxASSERT(max <= BUFSIZE); for (i = 0; i < BUFSIZE; i++) buf[i] = '*'; buf[BUFSIZE] = 0; va_list ap; va_start(ap, format); int n = wxVsnprintf(buf, max, format, ap); va_end(ap); // Prepare messages so that it is possible to see from the error which // test was running. wxString errStr, overflowStr; errStr << wxT("No.: ") << ++count << wxT(", expected: ") << expectedLen << wxT(" '") << expectedString << wxT("', result: "); overflowStr << errStr << wxT("buffer overflow"); errStr << n << wxT(" '") << buf << wxT("'"); // turn them into std::strings std::string errMsg(errStr.mb_str()); std::string overflowMsg(overflowStr.mb_str()); INFO(errMsg); if ( size_t(n) < max ) CHECK(expectedLen == n); else CHECK(expectedLen == -1); CHECK(expectedString == buf); for (i = max; i < BUFSIZE; i++) { INFO(overflowMsg); CHECK(buf[i] == '*'); } } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::Miscellaneous", "[vsnprintf]") { // expectedLen, expectedString, max, format, ... DoMisc(5, wxT("-1234"), 8, wxT("%d"), -1234); DoMisc(7, wxT("1234567"), 8, wxT("%d"), 1234567); DoMisc(-1, wxT("1234567"), 8, wxT("%d"), 12345678); DoMisc(-1, wxT("-123456"), 8, wxT("%d"), -1234567890); DoMisc(6, wxT("123456"), 8, wxT("123456")); DoMisc(7, wxT("1234567"), 8, wxT("1234567")); DoMisc(-1, wxT("1234567"), 8, wxT("12345678")); DoMisc(6, wxT("123450"), 8, wxT("12345%d"), 0); DoMisc(7, wxT("1234560"), 8, wxT("123456%d"), 0); DoMisc(-1, wxT("1234567"), 8, wxT("1234567%d"), 0); DoMisc(-1, wxT("1234567"), 8, wxT("12345678%d"), 0); DoMisc(6, wxT("12%45%"), 8, wxT("12%%45%%")); DoMisc(7, wxT("12%45%7"), 8, wxT("12%%45%%7")); DoMisc(-1, wxT("12%45%7"), 8, wxT("12%%45%%78")); DoMisc(5, wxT("%%%%%"), 6, wxT("%%%%%%%%%%")); DoMisc(6, wxT("%%%%12"), 7, wxT("%%%%%%%%%d"), 12); } /* (C) Copyright C E Chew * * Feel free to copy, use and distribute this software provided: * * 1. you do not pretend that you wrote it * 2. you leave this copyright notice intact. */ TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::GlibcMisc1", "[vsnprintf]") { CMP(" ", "%5.s", "xyz"); CMP(" 33", "%5.f", 33.3); #if defined(wxDEFAULT_MANTISSA_SIZE_3) CMP(" 3e+008", "%8.e", 33.3e7); CMP(" 3E+008", "%8.E", 33.3e7); CMP("3e+001", "%.g", 33.3); CMP("3E+001", "%.G", 33.3); #else CMP(" 3e+08", "%8.e", 33.3e7); CMP(" 3E+08", "%8.E", 33.3e7); CMP("3e+01", "%.g", 33.3); CMP("3E+01", "%.G", 33.3); #endif } TEST_CASE_METHOD(VsnprintfTestCase, "Vsnprintf::GlibcMisc2", "[vsnprintf]") { int prec; wxString test_format; prec = 0; CMP("3", "%.*g", prec, 3.3); prec = 0; CMP("3", "%.*G", prec, 3.3); prec = 0; CMP(" 3", "%7.*G", prec, 3.33); prec = 3; CMP(" 041", "%04.*o", prec, 33); prec = 7; CMP(" 0000033", "%09.*u", prec, 33); prec = 3; CMP(" 021", "%04.*x", prec, 33); prec = 3; CMP(" 021", "%04.*X", prec, 33); } #endif // wxUSE_WXVSNPRINTF