/*
* © Portions copyright (c) 2006-2007 Nokia Corporation. All rights reserved.
*
* Copyright (c) 1999
* Silicon Graphics Computer Systems, Inc.
*
* Copyright (c) 1999
* Boris Fomitchev
*
* This material is provided "as is", with absolutely no warranty expressed
* or implied. Any use is at your own risk.
*
* Permission to use or copy this software for any purpose is hereby granted
* without fee, provided the above notices are retained on all copies.
* Permission to modify the code and to distribute modified code is granted,
* provided the above notices are retained, and a notice that the code was
* modified is included with the above copyright notice.
*
*/
# include "stlport_prefix.h"
# include <algorithm>
# include <stl/_ios.h>
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
#include "libstdcppwsd.h"
# endif
_STLP_BEGIN_NAMESPACE
char* _STLP_CALL
__write_integer(char* buf, ios_base::fmtflags flags, long x);
//----------------------------------------------------------------------
// ios_base members
// class ios_base::failure, a subclass of exception. It's used solely
// for reporting errors.
_STLP_EXP_DECLSPEC ios_base::failure::failure(const string& s)
: __Named_exception(s)
{}
_STLP_EXP_DECLSPEC ios_base::failure::~failure() _STLP_NOTHROW_INHERENTLY {}
#if !defined (_STLP_STATIC_CONST_INIT_BUG)
// Definitions of ios_base's formatting flags.
const ios_base::fmtflags ios_base::left;
const ios_base::fmtflags ios_base::right;
const ios_base::fmtflags ios_base::internal;
const ios_base::fmtflags ios_base::dec;
const ios_base::fmtflags ios_base::hex;
const ios_base::fmtflags ios_base::oct;
const ios_base::fmtflags ios_base::fixed;
const ios_base::fmtflags ios_base::scientific;
const ios_base::fmtflags ios_base::boolalpha;
const ios_base::fmtflags ios_base::showbase;
const ios_base::fmtflags ios_base::showpoint;
const ios_base::fmtflags ios_base::showpos;
const ios_base::fmtflags ios_base::skipws;
const ios_base::fmtflags ios_base::unitbuf;
const ios_base::fmtflags ios_base::uppercase;
const ios_base::fmtflags ios_base::adjustfield;
const ios_base::fmtflags ios_base::basefield;
const ios_base::fmtflags ios_base::floatfield;
// Definitions of ios_base's state flags.
const ios_base::iostate ios_base::goodbit;
const ios_base::iostate ios_base::badbit;
const ios_base::iostate ios_base::eofbit;
const ios_base::iostate ios_base::failbit;
// Definitions of ios_base's openmode flags.
const ios_base::openmode ios_base::app;
const ios_base::openmode ios_base::ate;
const ios_base::openmode ios_base::binary;
const ios_base::openmode ios_base::in;
const ios_base::openmode ios_base::out;
const ios_base::openmode ios_base::trunc;
// Definitions of ios_base's seekdir flags.
const ios_base::seekdir ios_base::beg;
const ios_base::seekdir ios_base::cur;
const ios_base::seekdir ios_base::end;
# endif /* _STLP_STATIC_CONST_INIT_BUG */
// Internal functions used for managing exponentially-growing arrays of
// POD types.
// array is a pointer to N elements of type PODType. Expands the array,
// if necessary, so that array[index] is meaningful. All new elements are
// initialized to zero. Returns a pointer to the new array, and the new
// size.
template <class PODType>
pair<PODType*, size_t>
_Stl_expand_array(PODType* array, size_t N, int index)
{
if (N < (size_t)(index + 1)) {
size_t new_N = (max)(2 * N, size_t(index + 1));
size_t total_alloc = new_N * sizeof(PODType);
PODType* new_array = (PODType*)0;
// fixed the maximum range problem
if(total_alloc)
new_array = __STATIC_CAST(PODType*,realloc(array, total_alloc));
if (new_array) {
fill(new_array + N, new_array + new_N, PODType());
return pair<PODType*, size_t>(new_array, new_N);
}
else
return pair<PODType*, size_t>(__STATIC_CAST(PODType*,0), 0);
}
else
return pair<PODType*, size_t>(array, N);
}
// array is a pointer to N elements of type PODType. Allocate a new
// array of N elements, copying the values from the old array to the new.
// Return a pointer to the new array. It is assumed that array is non-null
// and N is nonzero.
template <class PODType>
PODType* _Stl_copy_array(const PODType* array, size_t N) {
PODType* result = __STATIC_CAST(PODType*,malloc(N * sizeof(PODType)));
if (result)
copy(array, array + N, result);
return result;
}
_STLP_EXP_DECLSPEC locale ios_base::imbue(const locale& loc) {
locale previous = _M_locale;
_M_locale = loc;
_M_invoke_callbacks(imbue_event);
return previous;
}
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
void ios_base_S_index_init()
{
get_ios_base_S_index() = 0;
}
# else
int ios_base::_S_index = 0;
# endif
_STLP_EXP_DECLSPEC int _STLP_CALL ios_base::xalloc()
{
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
get_ios_xalloc_L()._M_lock.iState = _ENeedsNormalInit;
get_ios_xalloc_L()._M_lock.iPtr = 0;
get_ios_xalloc_L()._M_lock.iReentry = 0;
_STLP_auto_lock sentry(get_ios_xalloc_L());
return get_ios_base_S_index()++;
# else
static _STLP_STATIC_MUTEX L _STLP_MUTEX_INITIALIZER;
_STLP_auto_lock sentry(L);
return _S_index++;
# endif
}
_STLP_EXP_DECLSPEC long& ios_base::iword(int index) {
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
get_ios_iword_dummy() = 0;
# else
static long dummy = 0;
# endif
pair<long*, size_t> tmp = _Stl_expand_array(_M_iwords, _M_num_iwords, index);
if (tmp.first) { // The allocation, if any, succeeded.
_M_iwords = tmp.first;
_M_num_iwords = tmp.second;
return _M_iwords[index];
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
return (get_ios_iword_dummy());
# else
return dummy;
# endif
}
}
_STLP_EXP_DECLSPEC void*& ios_base::pword(int index) {
# if !defined(__LIBSTD_CPP_SYMBIAN32_WSD__) && !defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
static void* dummy = 0;
# endif
pair<void**, size_t> tmp = _Stl_expand_array(_M_pwords, _M_num_pwords, index);
if (tmp.first) { // The allocation, if any, succeeded.
_M_pwords = tmp.first;
_M_num_pwords = tmp.second;
return _M_pwords[index];
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
return (get_ios_pword_dummy());
# else
return dummy;
# endif
}
}
_STLP_EXP_DECLSPEC void ios_base::register_callback(event_callback __fn, int index) {
pair<pair<event_callback, int>*, size_t> tmp
= _Stl_expand_array(_M_callbacks, _M_num_callbacks, (int)_M_callback_index /* fbp: index ??? */ );
if (tmp.first) {
_M_callbacks = tmp.first;
_M_num_callbacks = tmp.second;
_M_callbacks[_M_callback_index++] = make_pair(__fn, index);
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
}
}
// Invokes all currently registered callbacks for a particular event.
// Behaves correctly even if one of the callbacks adds a new callback.
_STLP_EXP_DECLSPEC void ios_base::_M_invoke_callbacks(event E) {
for (size_t i = _M_callback_index; i > 0; --i) {
event_callback f = _M_callbacks[i-1].first;
int n = _M_callbacks[i-1].second;
f(E, *this, n);
}
}
// This function is called if the state, rdstate(), has a bit set
// that is also set in the exception mask exceptions().
_STLP_EXP_DECLSPEC void ios_base::_M_throw_failure() {
const char* arg ;
# if 0
char buffer[256];
char* ptr;
strcpy(buffer, "ios failure: rdstate = 0x");
ptr = __write_integer(buffer+strlen(buffer), ios_base::hex, __STATIC_CAST(unsigned long,_M_iostate));
strcpy(ptr, " mask = 0x");
ptr = __write_integer(buffer+strlen(buffer), ios_base::hex, __STATIC_CAST(unsigned long,_M_exception_mask));
*ptr = 0;
arg = buffer;
# else
arg = "ios failure";
# endif
# ifndef _STLP_USE_EXCEPTIONS
fputs(arg, stderr);
# else
throw failure(arg);
# endif
}
// Copy x's state to *this. This member function is used in the
// implementation of basic_ios::copyfmt. Does not copy _M_exception_mask
// or _M_iostate.
_STLP_EXP_DECLSPEC void ios_base::_M_copy_state(const ios_base& x) {
_M_fmtflags = x._M_fmtflags; // Copy the flags, except for _M_iostate
_M_openmode = x._M_openmode; // and _M_exception_mask.
_M_seekdir = x._M_seekdir;
_M_precision = x._M_precision;
_M_width = x._M_width;
if (_M_locale != x._M_locale) {
_M_locale = x._M_locale;
_M_cached_ctype = x._M_cached_ctype;
_M_cached_numpunct = x._M_cached_numpunct;
}
if (x._M_callbacks) {
pair<event_callback, int>* tmp = _Stl_copy_array(x._M_callbacks, x._M_callback_index);
if (tmp) {
free(_M_callbacks);
_M_callbacks = tmp;
_M_num_callbacks = _M_callback_index = x._M_callback_index;
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
}
}
if (x._M_iwords) {
long* tmp = _Stl_copy_array(x._M_iwords, x._M_num_iwords);
if (tmp) {
free(_M_iwords);
_M_iwords = tmp;
_M_num_iwords = x._M_num_iwords;
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
}
}
if (x._M_pwords) {
void** tmp = _Stl_copy_array(x._M_pwords, x._M_num_pwords);
if (tmp) {
free(_M_pwords);
_M_pwords = tmp;
_M_num_pwords = x._M_num_pwords;
}
else {
_M_setstate_nothrow(badbit);
_M_check_exception_mask();
}
}
}
// ios's (protected) default constructor. The standard says that all
// fields have indeterminate values; we initialize them to zero for
// simplicity. The only thing that really matters is that the arrays
// are all initially null pointers, and the array element counts are all
// initially zero.
_STLP_EXP_DECLSPEC ios_base::ios_base()
: _M_fmtflags(0), _M_iostate(0), _M_openmode(0), _M_seekdir(0),
_M_exception_mask(0),
_M_precision(0), _M_width(0),
_M_locale(),
_M_callbacks(0), _M_num_callbacks(0), _M_callback_index(0),
_M_iwords(0), _M_num_iwords(0),
_M_pwords(0),
_M_num_pwords(0) , _M_cached_ctype(0), _M_cached_numpunct(0)
{ }
// ios's destructor.
_STLP_EXP_DECLSPEC ios_base::~ios_base() {
_M_invoke_callbacks(erase_event);
free(_M_callbacks);
free(_M_iwords);
free(_M_pwords);
}
#ifndef __SYMBIAN32__
template <class _CharT, class _Traits>
_STLP_EXP_DECLSPEC locale basic_ios<_CharT, _Traits>::imbue(const locale& __loc)
{
locale __tmp = ios_base::imbue(__loc);
if (_M_streambuf)
_M_streambuf->pubimbue(__loc);
// no throwing here
#if defined(__LIBSTD_CPP_SYMBIAN32_WSD__) || defined(_STLP_LIBSTD_CPP_NO_STATIC_VAR_)
this->_M_cached_ctype = __loc._M_get_facet(ctype<char_type>::GetFacetLocaleId()) ;
this->_M_cached_numpunct = __loc._M_get_facet(numpunct<char_type>::GetFacetLocaleId()) ;
#else
this->_M_cached_ctype = __loc._M_get_facet(ctype<char_type>::id) ;
this->_M_cached_numpunct = __loc._M_get_facet(numpunct<char_type>::id) ;
#endif //__LIBSTD_CPP_SYMBIAN32_WSD__
this->_M_cached_grouping = ((numpunct<char_type>*)_M_cached_numpunct)->grouping() ;
return __tmp;
}
#endif //#ifndef __SYMBIAN32__
//----------------------------------------------------------------------
// Force instantiation of basic_ios
// For DLL exports, they are already instantiated.
# if !defined(_STLP_NO_FORCE_INSTANTIATE)
template class _STLP_CLASS_DECLSPEC basic_ios<char, char_traits<char> >;
# ifndef _STLP_NO_WCHAR_T
template class _STLP_CLASS_DECLSPEC basic_ios<wchar_t, char_traits<wchar_t> >;
# endif /* _STLP_NO_WCHAR_T */
# endif
_STLP_END_NAMESPACE
// Local Variables:
// mode:C++
// End: