Exemple #1
0
int main(int, char**)
{
    const std::basic_ios<char> ios(0);
    assert(ios.tie() == 0);

  return 0;
}
Exemple #2
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void
print_states(
	std::basic_ios<CharT, TraitsT>& stream
) {
	auto const states = stream.rdstate();
	std::printf(
		"stream states: [goodbit: %s, failbit: %s, badbit: %s, eofbit: %s]\n",
		states == std::ios_base::goodbit ? "true" : "false",
		0 != (states & std::ios_base::failbit) ? "true" : "false",
		0 != (states & std::ios_base::badbit)  ? "true" : "false",
		0 != (states & std::ios_base::eofbit)  ? "true" : "false"
	);
}
Exemple #3
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 explicit StreamFlagSaver(std::basic_ios<CharT>& str)
   : str_(&str), flags_(str.flags()), width_(str.width()), fill_(str.fill())
 {
 }
Exemple #4
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void
enable_exceptions(std::basic_ios<charT, traits>& p_stream)
{
    p_stream.exceptions(std::ios_base::badbit | std::ios_base::failbit);
    return;
}
Exemple #5
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inline int
fileno_hack(const std::basic_ios<charT, traits>& stream)
{
    // Some C++ runtime libraries shipped with ancient GCC, Sun Pro,
    // Sun WS/Forte 5/6, Compaq C++ supported non-standard file descriptor
    // access basic_filebuf<>::fd().  Alas, starting from GCC 3.1, the GNU C++
    // runtime removes all non-standard std::filebuf methods and provides an
    // extension template class __gnu_cxx::stdio_filebuf on all systems where
    // that appears to make sense (i.e. at least all Unix systems).  Starting
    // from GCC 3.4, there is an __gnu_cxx::stdio_sync_filebuf, in addition.
    // Sorry, darling, I must get brutal to fetch the darn file descriptor!
    // Please complain to your compiler/libstdc++ vendor...
#if defined(__GLIBCXX__) || defined(__GLIBCPP__)
    // OK, stop reading here, because it's getting obscene.  Cross fingers!
# if defined(__GLIBCXX__)  // >= GCC 3.4.0
    // This applies to cin, cout and cerr when not synced with stdio:
    typedef __gnu_cxx::stdio_filebuf<charT, traits> unix_filebuf_t;
    unix_filebuf_t* fbuf = dynamic_cast<unix_filebuf_t*>(stream.rdbuf());
    if (fbuf != NULL) {
        return fbuf->fd();
    }

    // This applies to filestreams:
    typedef std::basic_filebuf<charT, traits> filebuf_t;
    filebuf_t* bbuf = dynamic_cast<filebuf_t*>(stream.rdbuf());
    if (bbuf != NULL) {
        // This subclass is only there for accessing the FILE*.  Ouuwww, sucks!
        struct my_filebuf : public std::basic_filebuf<charT, traits> {
            int fd() { return this->_M_file.fd(); }
        };
        return static_cast<my_filebuf*>(bbuf)->fd();
    }

    // This applies to cin, cout and cerr when synced with stdio:
    typedef __gnu_cxx::stdio_sync_filebuf<charT, traits> sync_filebuf_t;
    sync_filebuf_t* sbuf = dynamic_cast<sync_filebuf_t*>(stream.rdbuf());
    if (sbuf != NULL) {
#  if (__GLIBCXX__<20040906) // GCC < 3.4.2
        // This subclass is only there for accessing the FILE*.
        // See GCC PR#14600 and PR#16411.
        struct my_filebuf : public sync_filebuf_t {
            my_filebuf();  // Dummy ctor keeps the compiler happy.
            // Note: stdio_sync_filebuf has a FILE* as its first (but private)
            // member variable.  However, it is derived from basic_streambuf<>
            // and the FILE* is the first non-inherited member variable.
            FILE* c_file() {
                return *(FILE**)((char*)this + sizeof(std::basic_streambuf<charT, traits>));
            }
        };
        return ::fileno(static_cast<my_filebuf*>(sbuf)->c_file());
#  else
        return ::fileno(sbuf->file());
#  endif
    }
# else  // GCC < 3.4.0 used __GLIBCPP__
#  if (__GLIBCPP__>=20020514)  // GCC >= 3.1.0
    // This applies to cin, cout and cerr:
    typedef __gnu_cxx::stdio_filebuf<charT, traits> unix_filebuf_t;
    unix_filebuf_t* buf = dynamic_cast<unix_filebuf_t*>(stream.rdbuf());
    if (buf != NULL) {
        return buf->fd();
    }

    // This applies to filestreams:
    typedef std::basic_filebuf<charT, traits> filebuf_t;
    filebuf_t* bbuf = dynamic_cast<filebuf_t*>(stream.rdbuf());
    if (bbuf != NULL) {
        // This subclass is only there for accessing the FILE*.  Ouuwww, sucks!
        struct my_filebuf : public std::basic_filebuf<charT, traits> {
            // Note: _M_file is of type __basic_file<char> which has a
            // FILE* as its first (but private) member variable.
            FILE* c_file() { return *(FILE**)(&this->_M_file); }
        };
        FILE* c_file = static_cast<my_filebuf*>(bbuf)->c_file();
        if (c_file != NULL) {  // Could be NULL for failed ifstreams.
            return ::fileno(c_file);
        }
    }
#  else  // GCC 3.0.x
    typedef std::basic_filebuf<charT, traits> filebuf_t;
    filebuf_t* fbuf = dynamic_cast<filebuf_t*>(stream.rdbuf());
    if (fbuf != NULL) {
        struct my_filebuf : public filebuf_t {
            // Note: basic_filebuf<charT, traits> has a __basic_file<charT>* as
            // its first (but private) member variable.  Since it is derived
            // from basic_streambuf<charT, traits> we can guess its offset.
            // __basic_file<charT> in turn has a FILE* as its first (but
            // private) member variable.  Get it by brute force.  Oh, geez!
            FILE* c_file() {
                std::__basic_file<charT>* ptr_M_file = *(std::__basic_file<charT>**)((char*)this + sizeof(std::basic_streambuf<charT, traits>));
#  if _GLIBCPP_BASIC_FILE_INHERITANCE
                // __basic_file<charT> inherits from __basic_file_base<charT>
                return *(FILE**)((char*)ptr_M_file + sizeof(std::__basic_file_base<charT>));
#  else
                // __basic_file<charT> is base class, but with vptr.
                return *(FILE**)((char*)ptr_M_file + sizeof(void*));
#  endif
            }
        };
        return ::fileno(static_cast<my_filebuf*>(fbuf)->c_file());
    }
#  endif
# endif
#else
#ifdef _LIBCPP_VERSION // llvm libc++
	typedef std::basic_filebuf<charT, traits> filebuf_t;
    filebuf_t* fbuf = stream.rdbuf();
Exemple #6
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		basic_streambuf_override(std::basic_ios<char_type>& Ios, std::basic_streambuf<char_type>& Buf) :
			m_Ios(Ios),
			m_OriginalBuffer(*Ios.rdbuf())
		{
			m_Ios.rdbuf(&Buf);
		}