/////////////////////////////////////////////////////////////////////////////// // Name: tests/strings/vararg.cpp // Purpose: Test for wx vararg look-alike macros // Author: Vaclav Slavik // Created: 2007-02-20 // Copyright: (c) 2007 REA Elektronik GmbH // Licence: wxWindows licence /////////////////////////////////////////////////////////////////////////////// // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- #include "testprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #ifndef WX_PRECOMP #include "wx/wx.h" #endif // WX_PRECOMP #include "wx/string.h" // ---------------------------------------------------------------------------- // tests themselves // ---------------------------------------------------------------------------- TEST_CASE("StringPrintf", "[wxString][Printf][vararg]") { wxString s, s2; // test passing literals: s.Printf("%s %i", "foo", 42); CHECK( s == "foo 42" ); s.Printf("%s %s %i", wxT("bar"), "=", 11); // test passing c_str(): CHECK( s == "bar = 11" ); s2.Printf("(%s)", s.c_str()); CHECK( s2 == "(bar = 11)" ); s2.Printf(wxT("[%s](%s)"), s.c_str(), "str"); CHECK( s2 == "[bar = 11](str)" ); s2.Printf("%s mailbox", wxString("Opening").c_str()); CHECK( s2 == "Opening mailbox" ); // test passing wxString directly: s2.Printf(wxT("[%s](%s)"), s, "str"); CHECK( s2 == "[bar = 11](str)" ); // test passing wxCharBufferType: s = "FooBar"; s2.Printf(wxT("(%s)"), s.mb_str()); CHECK( s2 == "(FooBar)" ); s2.Printf(wxT("value=%s;"), s.wc_str()); CHECK( s2 == "value=FooBar;" ); // this tests correct passing of wxCStrData constructed from string // literal (and we disable the warnings related to the use of a literal // here because we want to test that this compiles, even with warnings): wxGCC_WARNING_SUPPRESS(write-strings) wxCLANG_WARNING_SUPPRESS(c++11-compat-deprecated-writable-strings) bool cond = true; s2.Printf(wxT("foo %s"), !cond ? s.c_str() : wxT("bar")); wxGCC_WARNING_RESTORE(write-strings) wxCLANG_WARNING_RESTORE(c++11-compat-deprecated-writable-strings) } TEST_CASE("CharPrintf", "[wxString][Printf][vararg]") { wxString foo("foo"); wxString s; // test using wchar_t: s.Printf("char=%c", L'c'); CHECK( s == "char=c" ); // test wxUniCharRef: s.Printf("string[1] is %c", foo[1]); CHECK( s == "string[1] is o" ); // test char char c = 'z'; s.Printf("%c to %c", 'a', c); CHECK( s == "a to z" ); // test char used as integer: #ifdef _MSC_VER #pragma warning(disable:4309) // truncation of constant value #endif wxCLANG_WARNING_SUPPRESS(constant-conversion) c = 240; wxCLANG_WARNING_RESTORE(constant-conversion) #ifdef _MSC_VER #pragma warning(default:4309) #endif #ifndef __CHAR_UNSIGNED__ s.Printf("value is %i (int)", c); CHECK( s == wxString("value is -16 (int)") ); #endif unsigned char u = 240; s.Printf("value is %i (int)", u); CHECK( s == "value is 240 (int)" ); } TEST_CASE("SizetPrintf", "[wxString][Printf][vararg]") { size_t i = 1; ssize_t j = -2; CHECK( wxString::Format("size_t=%zu ssize_t=%zd", i, j) == "size_t=1 ssize_t=-2" ); CHECK( wxString::Format("size_t=0x%zX", static_cast(160)) == "size_t=0xA0" ); } #if wxUSE_STD_STRING TEST_CASE("StdString", "[wxString][Printf][vararg]") { // test passing std::[w]string wxString s; std::string mb("multi-byte"); std::string wc("widechar"); s.Printf("string %s(%i).", mb, 1); CHECK( s == "string multi-byte(1)." ); s.Printf("string %s(%i).", wc, 2); CHECK( s == "string widechar(2)." ); } #endif // wxUSE_STD_STRING #if wxUSE_LONGLONG TEST_CASE("LongLongPrintf", "[wxString][Printf][vararg]") { const char * const llfmt = "%" wxLongLongFmtSpec "d"; CHECK( wxString::Format(llfmt, wxLL(17)) == "17" ); wxLongLong ll = 1234567890; CHECK( wxString::Format(llfmt, ll) == "1234567890" ); } #endif // wxUSE_LONGLONG TEST_CASE("Sscanf", "[wxSscanf][vararg]") { int i = 0; char str[20]; wxString input("42 test"); wxSscanf(input, "%d %s", &i, &str); CHECK( i == 42 ); CHECK( wxString(str) == "test" ); #if !(defined(__MINGW32__) && \ defined(__USE_MINGW_ANSI_STDIO) && __USE_MINGW_ANSI_STDIO == 1) // disable this test on mingw with __USE_MINGW_ANSI_STDIO=1 // to prevent a segmentation fault. See: // https://sourceforge.net/p/mingw-w64/mailman/message/36118530/ wchar_t wstr[20]; i = 0; wxSscanf(input, L"%d %s", &i, &wstr); CHECK( i == 42 ); CHECK( wxString(wstr) == "test" ); #endif } TEST_CASE("RepeatedPrintf", "[wxString][Printf][vararg]") { wxCharBuffer buffer(2); char *p = buffer.data(); *p = 'h'; p++; *p = 'i'; wxString s; s = wxString::Format("buffer %s, len %d", buffer, (int)wxStrlen(buffer)); CHECK( s == "buffer hi, len 2" ); s = wxString::Format("buffer %s, len %d", buffer, (int)wxStrlen(buffer)); CHECK( s == "buffer hi, len 2" ); } TEST_CASE("ArgsValidation", "[wxString][vararg][error]") { int written; void *ptr = &written; short int swritten; // these are valid: wxString::Format("a string(%s,%s), ptr %p, int %i", wxString(), "foo", "char* as pointer", 1); #if __cplusplus >= 201103 || wxCHECK_VISUALC_VERSION(10) // Unfortunately we can't check the result as different standard libraries // implementations format it in different ways, so just check that it // compiles. wxString::Format("null pointer is %p", nullptr); #endif // Microsoft has helpfully disabled support for "%n" in their CRT by // default starting from VC8 and somehow even calling // _set_printf_count_output() doesn't help here, so don't use "%n" at all // with it. #if wxCHECK_VISUALC_VERSION(8) #define wxNO_PRINTF_PERCENT_N #endif // VC8+ // Similarly, many modern Linux distributions ship with g++ that uses // -D_FORTIFY_SOURCE=2 flag by default and this option prevents "%n" from // being used in a string outside of read-only memory, meaning that it // can't be used in wxString to which we (may, depending on build options) // assign it, so also disable testing of "%n" in this case lest we die with // an abort inside vswprintf(). #if defined(_FORTIFY_SOURCE) #if _FORTIFY_SOURCE >= 2 #define wxNO_PRINTF_PERCENT_N #endif #endif #ifndef wxNO_PRINTF_PERCENT_N wxString::Format("foo%i%n", 42, &written); CHECK( written == 5 ); #endif // but these are not: WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("%i", "foo") ); WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("%s", (void*)&written) ); WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("%d", ptr) ); // we don't check wxNO_PRINTF_PERCENT_N here as these expressions should // result in an assert in our code before the CRT functions are even called WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("foo%i%n", &written) ); WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("foo%n", ptr) ); WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("foo%i%n", 42, &swritten) ); // the following test (correctly) fails at compile-time with #if !defined(HAVE_TYPE_TRAITS) && !defined(HAVE_TR1_TYPE_TRAITS) wxObject obj; WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("%s", obj) ); wxObject& ref = obj; WX_ASSERT_FAILS_WITH_ASSERT( wxString::Format("%s", ref) ); #endif // %c should accept integers too wxString::Format("%c", 80); wxString::Format("%c", wxChar(80) + wxChar(1)); // check size_t handling size_t len = sizeof(ptr); #ifdef __WINDOWS__ wxString::Format("%Iu", len); #else wxString::Format("%zu", len); #endif } TEST_CASE("VeryLongArg", "[wxString][Format][vararg]") { const size_t LENGTH = 70000; wxString veryLongString('.', LENGTH); REQUIRE( veryLongString.length() == LENGTH ); const wxString s = wxString::Format("%s", veryLongString); // Check the length first to avoid very long output if this fails. REQUIRE( s.length() == LENGTH ); CHECK( s == veryLongString ); }