/*
 * Copyright 2011 Alexandre Julliard
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
 */

#include <stdarg.h>
#include <limits.h>
#include <float.h>
#define _USE_MATH_DEFINES
#include <math.h>

#include "msvcp90.h"
#include "windef.h"
#include "winbase.h"

typedef double LDOUBLE;  /* long double is just a double */

typedef struct { } std_Num_base;
typedef struct { } std_Ctraits;

enum std_float_denorm_style
{
    denorm_indeterminate = -1,
    denorm_absent = 0,
    denorm_present = 1
};

enum std_float_round_style
{
    round_indeterminate = -1,
    round_toward_zero = 0,
    round_to_nearest = 1,
    round_toward_infinity = 2,
    round_toward_neg_infinity = 3
};

/* these are defined as integers but the bit patterns are then interpreted as floats/doubles */
const DWORD     _FDenorm = 1;
const ULONGLONG _Denorm  = 1;
const ULONGLONG _LDenorm = 1;
const DWORD     _FInf    = 0x7f800000;
const ULONGLONG _Inf     = (ULONGLONG)0x7ff00000 << 32;
const ULONGLONG _LInf    = (ULONGLONG)0x7ff00000 << 32;
const DWORD     _FNan    = 0x7fc00000;
const ULONGLONG _Nan     = (ULONGLONG)0x7ff80000 << 32;
const ULONGLONG _LNan    = (ULONGLONG)0x7ff80000 << 32;
const DWORD     _FSnan   = 0x7f800001;
const ULONGLONG _Snan    = ((ULONGLONG)0x7ff00000 << 32) + 1;
const ULONGLONG _LSnan   = ((ULONGLONG)0x7ff00000 << 32) + 1;
const ULONGLONG _LZero   = 0;
const ULONGLONG _Hugeval = (ULONGLONG)0x7ff00000 << 32;

const float   _FEps = FLT_EPSILON;
const double  _Eps  = DBL_EPSILON;
const LDOUBLE _LEps = LDBL_EPSILON;

/* ?digits10@?$numeric_limits@C@std@@2HB -> public: static int const std::numeric_limits<signed char>::digits10 */
const int std_numeric_limits_signed_char_digits10 = 2;

/* ?digits10@?$numeric_limits@D@std@@2HB -> public: static int const std::numeric_limits<char>::digits10 */
const int std_numeric_limits_char_digits10 = 2;

/* ?digits10@?$numeric_limits@E@std@@2HB -> public: static int const std::numeric_limits<unsigned char>::digits10 */
const int std_numeric_limits_unsigned_char_digits10 = 2;

/* ?digits10@?$numeric_limits@F@std@@2HB -> public: static int const std::numeric_limits<short>::digits10 */
const int std_numeric_limits_short_digits10 = 4;

/* ?digits10@?$numeric_limits@G@std@@2HB -> public: static int const std::numeric_limits<unsigned short>::digits10 */
const int std_numeric_limits_unsigned_short_digits10 = 4;

/* ?digits10@?$numeric_limits@H@std@@2HB -> public: static int const std::numeric_limits<int>::digits10 */
const int std_numeric_limits_int_digits10 = 9;

/* ?digits10@?$numeric_limits@I@std@@2HB -> public: static int const std::numeric_limits<unsigned int>::digits10 */
const int std_numeric_limits_unsigned_int_digits10 = 9;

/* ?digits10@?$numeric_limits@J@std@@2HB -> public: static int const std::numeric_limits<long>::digits10 */
const int std_numeric_limits_long_digits10 = 9;

/* ?digits10@?$numeric_limits@K@std@@2HB -> public: static int const std::numeric_limits<unsigned long>::digits10 */
const int std_numeric_limits_unsigned_long_digits10 = 9;

/* ?digits10@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::digits10 */
const int std_numeric_limits_float_digits10 = FLT_DIG;

/* ?digits10@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::digits10 */
const int std_numeric_limits_double_digits10 = DBL_DIG;

/* ?digits10@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::digits10 */
const int std_numeric_limits_long_double_digits10 = LDBL_DIG;

/* ?digits10@?$numeric_limits@_J@std@@2HB -> public: static int const std::numeric_limits<__int64>::digits10 */
const int std_numeric_limits_int64_digits10 = 18;

/* ?digits10@?$numeric_limits@_K@std@@2HB -> public: static int const std::numeric_limits<unsigned __int64>::digits10 */
const int std_numeric_limits_unsigned_int64_digits10 = 18;

/* ?digits10@?$numeric_limits@_N@std@@2HB -> public: static int const std::numeric_limits<bool>::digits10 */
const int std_numeric_limits_bool_digits10 = 0;

/* ?digits10@?$numeric_limits@_W@std@@2HB -> public: static int const std::numeric_limits<wchar_t>::digits10 */
const int std_numeric_limits_wchar_t_digits10 = 4;

/* ?digits10@_Num_base@std@@2HB -> public: static int const std::_Num_base::digits10 */
const int std_Num_base_digits10 = 0;

/* ?digits@?$numeric_limits@C@std@@2HB -> public: static int const std::numeric_limits<signed char>::digits */
const int std_numeric_limits_signed_char_digits = 7;

/* ?digits@?$numeric_limits@D@std@@2HB -> public: static int const std::numeric_limits<char>::digits */
const int std_numeric_limits_char_digits = (CHAR_MIN < 0) ? 7 : 8;

/* ?digits@?$numeric_limits@E@std@@2HB -> public: static int const std::numeric_limits<unsigned char>::digits */
const int std_numeric_limits_unsigned_char_digits = 8;

/* ?digits@?$numeric_limits@F@std@@2HB -> public: static int const std::numeric_limits<short>::digits */
const int std_numeric_limits_short_digits = 15;

/* ?digits@?$numeric_limits@G@std@@2HB -> public: static int const std::numeric_limits<unsigned short>::digits */
const int std_numeric_limits_unsigned_short_digits = 16;

/* ?digits@?$numeric_limits@H@std@@2HB -> public: static int const std::numeric_limits<int>::digits */
const int std_numeric_limits_int_digits = 31;

/* ?digits@?$numeric_limits@I@std@@2HB -> public: static int const std::numeric_limits<unsigned int>::digits */
const int std_numeric_limits_unsigned_int_digits = 32;

/* ?digits@?$numeric_limits@J@std@@2HB -> public: static int const std::numeric_limits<long>::digits */
const int std_numeric_limits_long_digits = 31;

/* ?digits@?$numeric_limits@K@std@@2HB -> public: static int const std::numeric_limits<unsigned long>::digits */
const int std_numeric_limits_unsigned_long_digits = 32;

/* ?digits@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::digits */
const int std_numeric_limits_float_digits = FLT_MANT_DIG;

/* ?digits@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::digits */
const int std_numeric_limits_double_digits = DBL_MANT_DIG;

/* ?digits@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::digits */
const int std_numeric_limits_long_double_digits = LDBL_MANT_DIG;

/* ?digits@?$numeric_limits@_J@std@@2HB -> public: static int const std::numeric_limits<__int64>::digits */
const int std_numeric_limits_int64_digits = 63;

/* ?digits@?$numeric_limits@_K@std@@2HB -> public: static int const std::numeric_limits<unsigned __int64>::digits */
const int std_numeric_limits_unsigned_int64_digits = 64;

/* ?digits@?$numeric_limits@_N@std@@2HB -> public: static int const std::numeric_limits<bool>::digits */
const int std_numeric_limits_bool_digits = 1;

/* ?digits@?$numeric_limits@_W@std@@2HB -> public: static int const std::numeric_limits<wchar_t>::digits */
const int std_numeric_limits_wchar_t_digits = 16;

/* ?digits@_Num_base@std@@2HB -> public: static int const std::_Num_base::digits */
const int std_Num_base_digits = 0;

/* ?has_denorm@_Num_base@std@@2W4float_denorm_style@2@B -> public: static enum std::float_denorm_style const std::_Num_base::has_denorm */
const enum std_float_denorm_style std_Num_base_has_denorm = denorm_absent;

/* ?has_denorm@_Num_float_base@std@@2W4float_denorm_style@2@B -> public: static enum std::float_denorm_style const std::_Num_float_base::has_denorm */
const enum std_float_denorm_style std_Num_float_base_has_denorm = denorm_present;

/* ?has_denorm_loss@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::has_denorm_loss */
const BOOLEAN std_Num_base_has_denorm_loss = FALSE;

/* ?has_denorm_loss@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::has_denorm_loss */
const BOOLEAN std_Num_float_base_has_denorm_loss = TRUE;

/* ?has_infinity@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::has_infinity */
const BOOLEAN std_Num_base_has_infinity = FALSE;

/* ?has_infinity@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::has_infinity */
const BOOLEAN std_Num_float_base_has_infinity = TRUE;

/* ?has_quiet_NaN@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::has_quiet_NaN */
const BOOLEAN std_Num_base_has_quiet_NaN = FALSE;

/* ?has_quiet_NaN@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::has_quiet_NaN */
const BOOLEAN std_Num_float_base_has_quiet_NaN = TRUE;

/* ?has_signaling_NaN@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::has_signaling_NaN */
const BOOLEAN std_Num_base_has_signaling_NaN = FALSE;

/* ?has_signaling_NaN@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::has_signaling_NaN */
const BOOLEAN std_Num_float_base_has_signaling_NaN = TRUE;

/* ?is_bounded@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_bounded */
const BOOLEAN std_Num_base_is_bounded = FALSE;

/* ?is_bounded@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_bounded */
const BOOLEAN std_Num_float_base_is_bounded = TRUE;

/* ?is_bounded@_Num_int_base@std@@2_NB -> public: static bool const std::_Num_int_base::is_bounded */
const BOOLEAN std_Num_int_base_is_bounded = TRUE;

/* ?is_exact@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_exact */
const BOOLEAN std_Num_base_is_exact = FALSE;

/* ?is_exact@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_exact */
const BOOLEAN std_Num_float_base_is_exact = FALSE;

/* ?is_exact@_Num_int_base@std@@2_NB -> public: static bool const std::_Num_int_base::is_exact */
const BOOLEAN std_Num_int_base_is_exact = TRUE;

/* ?is_iec559@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_iec559 */
const BOOLEAN std_Num_base_is_iec559 = FALSE;

/* ?is_iec559@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_iec559 */
const BOOLEAN std_Num_float_base_is_iec559 = TRUE;

/* ?is_integer@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_integer */
const BOOLEAN std_Num_base_is_integer = FALSE;

/* ?is_integer@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_integer */
const BOOLEAN std_Num_float_base_is_integer = FALSE;

/* ?is_integer@_Num_int_base@std@@2_NB -> public: static bool const std::_Num_int_base::is_integer */
const BOOLEAN std_Num_int_base_is_integer = TRUE;

/* ?is_modulo@?$numeric_limits@_N@std@@2_NB -> public: static bool const std::numeric_limits<bool>::is_modulo */
const BOOLEAN std_numeric_limits_bool_is_modulo = FALSE;

/* ?is_modulo@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_modulo */
const BOOLEAN std_Num_base_is_modulo = FALSE;

/* ?is_modulo@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_modulo */
const BOOLEAN std_Num_float_base_is_modulo = FALSE;

/* ?is_modulo@_Num_int_base@std@@2_NB -> public: static bool const std::_Num_int_base::is_modulo */
const BOOLEAN std_Num_int_base_is_modulo = TRUE;

/* ?is_signed@?$numeric_limits@C@std@@2_NB -> public: static bool const std::numeric_limits<signed char>::is_signed */
const BOOLEAN std_numeric_limits_signed_char_is_signed = TRUE;

/* ?is_signed@?$numeric_limits@D@std@@2_NB -> public: static bool const std::numeric_limits<char>::is_signed */
const BOOLEAN std_numeric_limits_char_is_signed = (CHAR_MIN < 0);

/* ?is_signed@?$numeric_limits@E@std@@2_NB -> public: static bool const std::numeric_limits<unsigned char>::is_signed */
const BOOLEAN std_numeric_limits_unsigned_char_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@F@std@@2_NB -> public: static bool const std::numeric_limits<short>::is_signed */
const BOOLEAN std_numeric_limits_short_is_signed = TRUE;

/* ?is_signed@?$numeric_limits@G@std@@2_NB -> public: static bool const std::numeric_limits<unsigned short>::is_signed */
const BOOLEAN std_numeric_limits_unsigned_short_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@H@std@@2_NB -> public: static bool const std::numeric_limits<int>::is_signed */
const BOOLEAN std_numeric_limits_int_is_signed = TRUE;

/* ?is_signed@?$numeric_limits@I@std@@2_NB -> public: static bool const std::numeric_limits<unsigned int>::is_signed */
const BOOLEAN std_numeric_limits_unsigned_int_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@J@std@@2_NB -> public: static bool const std::numeric_limits<long>::is_signed */
const BOOLEAN std_numeric_limits_long_is_signed = TRUE;

/* ?is_signed@?$numeric_limits@K@std@@2_NB -> public: static bool const std::numeric_limits<unsigned long>::is_signed */
const BOOLEAN std_numeric_limits_unsigned_long_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@_J@std@@2_NB -> public: static bool const std::numeric_limits<__int64>::is_signed */
const BOOLEAN std_numeric_limits_int64_is_signed = TRUE;

/* ?is_signed@?$numeric_limits@_K@std@@2_NB -> public: static bool const std::numeric_limits<unsigned __int64>::is_signed */
const BOOLEAN std_numeric_limits_unsigned_int64_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@_N@std@@2_NB -> public: static bool const std::numeric_limits<bool>::is_signed */
const BOOLEAN std_numeric_limits_bool_is_signed = FALSE;

/* ?is_signed@?$numeric_limits@_W@std@@2_NB -> public: static bool const std::numeric_limits<wchar_t>::is_signed */
const BOOLEAN std_numeric_limits_wchar_t_is_signed = FALSE;

/* ?is_signed@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_signed */
const BOOLEAN std_Num_base_is_signed = FALSE;

/* ?is_signed@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_signed */
const BOOLEAN std_Num_float_base_is_signed = TRUE;

/* ?is_specialized@_Num_base@std@@2_NB -> public: static bool const std::_Num_base::is_specialized */
const BOOLEAN std_Num_base_is_specialized = FALSE;

/* ?is_specialized@_Num_float_base@std@@2_NB -> public: static bool const std::_Num_float_base::is_specialized */
const BOOLEAN std_Num_float_base_is_specialized = TRUE;

/* ?is_specialized@_Num_int_base@std@@2_NB -> public: static bool const std::_Num_int_base::is_specialized */
const BOOLEAN std_Num_int_base_is_specialized = TRUE;

/* ?max_exponent10@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::max_exponent10 */
const int std_numeric_limits_float_max_exponent10 = FLT_MAX_10_EXP;

/* ?max_exponent10@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::max_exponent10 */
const int std_numeric_limits_double_max_exponent10 = DBL_MAX_10_EXP;

/* ?max_exponent10@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::max_exponent10 */
const int std_numeric_limits_long_double_max_exponent10 = LDBL_MAX_10_EXP;

/* ?max_exponent10@_Num_base@std@@2HB -> public: static int const std::_Num_base::max_exponent10 */
const int std_Num_base_max_exponent10 = 0;

/* ?max_exponent@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::max_exponent */
const int std_numeric_limits_float_max_exponent = FLT_MAX_EXP;

/* ?max_exponent@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::max_exponent */
const int std_numeric_limits_double_max_exponent = DBL_MAX_EXP;

/* ?max_exponent@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::max_exponent */
const int std_numeric_limits_long_double_max_exponent = LDBL_MAX_EXP;

/* ?max_exponent@_Num_base@std@@2HB -> public: static int const std::_Num_base::max_exponent */
const int std_Num_base_max_exponent = 0;

/* ?min_exponent10@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::min_exponent10 */
const int std_numeric_limits_float_min_exponent10 = FLT_MIN_10_EXP;

/* ?min_exponent10@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::min_exponent10 */
const int std_numeric_limits_double_min_exponent10 = DBL_MIN_10_EXP;

/* ?min_exponent10@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::min_exponent10 */
const int std_numeric_limits_long_double_min_exponent10 = LDBL_MIN_10_EXP;

/* ?min_exponent10@_Num_base@std@@2HB -> public: static int const std::_Num_base::min_exponent10 */
const int std_Num_base_min_exponent10 = 0;

/* ?min_exponent@?$numeric_limits@M@std@@2HB -> public: static int const std::numeric_limits<float>::min_exponent */
const int std_numeric_limits_float_min_exponent = FLT_MIN_EXP;

/* ?min_exponent@?$numeric_limits@N@std@@2HB -> public: static int const std::numeric_limits<double>::min_exponent */
const int std_numeric_limits_double_min_exponent = DBL_MIN_EXP;

/* ?min_exponent@?$numeric_limits@O@std@@2HB -> public: static int const std::numeric_limits<long double>::min_exponent */
const int std_numeric_limits_long_double_min_exponent = LDBL_MIN_EXP;

/* ?min_exponent@_Num_base@std@@2HB -> public: static int const std::_Num_base::min_exponent */
const int std_Num_base_min_exponent = 0;

/* ?radix@_Num_base@std@@2HB -> public: static int const std::_Num_base::radix */
const int std_Num_base_radix = 0;

/* ?radix@_Num_float_base@std@@2HB -> public: static int const std::_Num_float_base::radix */
const int std_Num_float_base_radix = FLT_RADIX;

/* ?radix@_Num_int_base@std@@2HB -> public: static int const std::_Num_int_base::radix */
const int std_Num_int_base_radix = 2;

/* ?round_style@_Num_base@std@@2W4float_round_style@2@B -> public: static enum std::float_round_style const std::_Num_base::round_style */
const enum std_float_round_style std_Num_base_round_style = round_toward_zero;

/* ?round_style@_Num_float_base@std@@2W4float_round_style@2@B -> public: static enum std::float_round_style const std::_Num_float_base::round_style */
const enum std_float_round_style std_Num_float_base_round_style = round_to_nearest;

/* ?tinyness_before@_Num_base@std@@2_NB -> public: static bool const  std::_Num_base::tinyness_before */
const BOOLEAN std_Num_base_tinyness_before = FALSE;

/* ?tinyness_before@_Num_float_base@std@@2_NB -> public: static bool const  std::_Num_float_base::tinyness_before */
const BOOLEAN std_Num_float_base_tinyness_before = TRUE;

/* ?traps@_Num_base@std@@2_NB -> public: static bool const  std::_Num_base::traps */
const BOOLEAN std_Num_base_traps = FALSE;

/* ?traps@_Num_float_base@std@@2_NB -> public: static bool const  std::_Num_float_base::traps */
const BOOLEAN std_Num_float_base_traps = TRUE;

/* ??4?$numeric_limits@C@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<signed char> & __thiscall std::numeric_limits<signed char>::operator=(class std::numeric_limits<signed char> const &) */
/* ??4?$numeric_limits@C@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<signed char> & __ptr64 __cdecl std::numeric_limits<signed char>::operator=(class std::numeric_limits<signed char> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@D@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<char> & __thiscall std::numeric_limits<char>::operator=(class std::numeric_limits<char> const &) */
/* ??4?$numeric_limits@D@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<char> & __ptr64 __cdecl std::numeric_limits<char>::operator=(class std::numeric_limits<char> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@E@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<unsigned char> & __thiscall std::numeric_limits<unsigned char>::operator=(class std::numeric_limits<unsigned char> const &) */
/* ??4?$numeric_limits@E@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<unsigned char> & __ptr64 __cdecl std::numeric_limits<unsigned char>::operator=(class std::numeric_limits<unsigned char> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@F@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<short> & __thiscall std::numeric_limits<short>::operator=(class std::numeric_limits<short> const &) */
/* ??4?$numeric_limits@F@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<short> & __ptr64 __cdecl std::numeric_limits<short>::operator=(class std::numeric_limits<short> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@G@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<unsigned short> & __thiscall std::numeric_limits<unsigned short>::operator=(class std::numeric_limits<unsigned short> const &) */
/* ??4?$numeric_limits@G@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<unsigned short> & __ptr64 __cdecl std::numeric_limits<unsigned short>::operator=(class std::numeric_limits<unsigned short> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@H@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<int> & __thiscall std::numeric_limits<int>::operator=(class std::numeric_limits<int> const &) */
/* ??4?$numeric_limits@H@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<int> & __ptr64 __cdecl std::numeric_limits<int>::operator=(class std::numeric_limits<int> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@I@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<unsigned int> & __thiscall std::numeric_limits<unsigned int>::operator=(class std::numeric_limits<unsigned int> const &) */
/* ??4?$numeric_limits@I@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<unsigned int> & __ptr64 __cdecl std::numeric_limits<unsigned int>::operator=(class std::numeric_limits<unsigned int> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@J@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<long> & __thiscall std::numeric_limits<long>::operator=(class std::numeric_limits<long> const &) */
/* ??4?$numeric_limits@J@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<long> & __ptr64 __cdecl std::numeric_limits<long>::operator=(class std::numeric_limits<long> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@K@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<unsigned long> & __thiscall std::numeric_limits<unsigned long>::operator=(class std::numeric_limits<unsigned long> const &) */
/* ??4?$numeric_limits@K@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<unsigned long> & __ptr64 __cdecl std::numeric_limits<unsigned long>::operator=(class std::numeric_limits<unsigned long> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@M@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<float> & __thiscall std::numeric_limits<float>::operator=(class std::numeric_limits<float> const &) */
/* ??4?$numeric_limits@M@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<float> & __ptr64 __cdecl std::numeric_limits<float>::operator=(class std::numeric_limits<float> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@N@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<double> & __thiscall std::numeric_limits<double>::operator=(class std::numeric_limits<double> const &) */
/* ??4?$numeric_limits@N@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<double> & __ptr64 __cdecl std::numeric_limits<double>::operator=(class std::numeric_limits<double> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@O@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<long double> & __thiscall std::numeric_limits<long double>::operator=(class std::numeric_limits<long double> const &) */
/* ??4?$numeric_limits@O@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<long double> & __ptr64 __cdecl std::numeric_limits<long double>::operator=(class std::numeric_limits<long double> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@_J@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<__int64> & __thiscall std::numeric_limits<__int64>::operator=(class std::numeric_limits<__int64> const &) */
/* ??4?$numeric_limits@_J@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<__int64> & __ptr64 __cdecl std::numeric_limits<__int64>::operator=(class std::numeric_limits<__int64> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@_K@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<unsigned __int64> & __thiscall std::numeric_limits<unsigned __int64>::operator=(class std::numeric_limits<unsigned __int64> const &) */
/* ??4?$numeric_limits@_K@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<unsigned __int64> & __ptr64 __cdecl std::numeric_limits<unsigned __int64>::operator=(class std::numeric_limits<unsigned __int64> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@_N@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<bool> & __thiscall std::numeric_limits<bool>::operator=(class std::numeric_limits<bool> const &) */
/* ??4?$numeric_limits@_N@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<bool> & __ptr64 __cdecl std::numeric_limits<bool>::operator=(class std::numeric_limits<bool> const & __ptr64) __ptr64 */
/* ??4?$numeric_limits@_W@std@@QAEAAV01@ABV01@@Z -> public: class std::numeric_limits<wchar_t> & __thiscall std::numeric_limits<wchar_t>::operator=(class std::numeric_limits<wchar_t> const &) */
/* ??4?$numeric_limits@_W@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::numeric_limits<wchar_t> & __ptr64 __cdecl std::numeric_limits<wchar_t>::operator=(class std::numeric_limits<wchar_t> const & __ptr64) __ptr64 */
/* ??4_Num_base@std@@QAEAAU01@ABU01@@Z -> public: struct std::_Num_base & __thiscall std::_Num_base::operator=(struct std::_Num_base const &) */
/* ??4_Num_base@std@@QEAAAEAU01@AEBU01@@Z -> public: struct std::_Num_base & __ptr64 __cdecl std::_Num_base::operator=(struct std::_Num_base const & __ptr64) __ptr64 */
/* ??4_Num_float_base@std@@QAEAAU01@ABU01@@Z -> public: struct std::_Num_float_base & __thiscall std::_Num_float_base::operator=(struct std::_Num_float_base const &) */
/* ??4_Num_float_base@std@@QEAAAEAU01@AEBU01@@Z -> public: struct std::_Num_float_base & __ptr64 __cdecl std::_Num_float_base::operator=(struct std::_Num_float_base const & __ptr64) __ptr64 */
/* ??4_Num_int_base@std@@QAEAAU01@ABU01@@Z -> public: struct std::_Num_int_base & __thiscall std::_Num_int_base::operator=(struct std::_Num_int_base const &) */
/* ??4_Num_int_base@std@@QEAAAEAU01@AEBU01@@Z -> public: struct std::_Num_int_base & __ptr64 __cdecl std::_Num_int_base::operator=(struct std::_Num_int_base const & __ptr64) __ptr64 */
DEFINE_THISCALL_WRAPPER( std_Num_base_op_assign, 8 )
std_Num_base * __thiscall std_Num_base_op_assign( std_Num_base *this, std_Num_base *right )
{
    return this;
}

/* ?denorm_min@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::denorm_min(void) */
signed char __cdecl std_numeric_limits_signed_char_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::denorm_min(void) */
char __cdecl std_numeric_limits_char_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::denorm_min(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::denorm_min(void) */
short __cdecl std_numeric_limits_short_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::denorm_min(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::denorm_min(void) */
int __cdecl std_numeric_limits_int_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::denorm_min(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::denorm_min(void) */
LONG __cdecl std_numeric_limits_long_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::denorm_min(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::denorm_min(void) */
float __cdecl std_numeric_limits_float_denorm_min(void) { return *(float *)&_FDenorm; }

/* ?denorm_min@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::denorm_min(void) */
double __cdecl std_numeric_limits_double_denorm_min(void) { return *(double *)&_Denorm; }

/* ?denorm_min@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::denorm_min(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_denorm_min(void) { return *(LDOUBLE *)&_LDenorm; }

/* ?denorm_min@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::denorm_min(void) */
__int64 __cdecl std_numeric_limits_int64_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::denorm_min(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_denorm_min(void) { return 0; }

/* ?denorm_min@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::denorm_min(void) */
BOOLEAN __cdecl std_numeric_limits_bool_denorm_min(void) { return FALSE; }

/* ?denorm_min@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::denorm_min(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_denorm_min(void) { return 0; }

/* ?epsilon@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::epsilon(void) */
signed char __cdecl std_numeric_limits_signed_char_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::epsilon(void) */
char __cdecl std_numeric_limits_char_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::epsilon(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::epsilon(void) */
short __cdecl std_numeric_limits_short_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::epsilon(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::epsilon(void) */
int __cdecl std_numeric_limits_int_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::epsilon(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::epsilon(void) */
LONG __cdecl std_numeric_limits_long_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::epsilon(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::epsilon(void) */
float __cdecl std_numeric_limits_float_epsilon(void) { return _FEps; }

/* ?epsilon@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::epsilon(void) */
double __cdecl std_numeric_limits_double_epsilon(void) { return _Eps; }

/* ?epsilon@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::epsilon(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_epsilon(void) { return _LEps; }

/* ?epsilon@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::epsilon(void) */
__int64 __cdecl std_numeric_limits_int64_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::epsilon(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_epsilon(void) { return 0; }

/* ?epsilon@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::epsilon(void) */
BOOLEAN __cdecl std_numeric_limits_bool_epsilon(void) { return FALSE; }

/* ?epsilon@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::epsilon(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_epsilon(void) { return 0; }

/* ?infinity@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::infinity(void) */
signed char __cdecl std_numeric_limits_signed_char_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::infinity(void) */
char __cdecl std_numeric_limits_char_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::infinity(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::infinity(void) */
short __cdecl std_numeric_limits_short_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::infinity(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::infinity(void) */
int __cdecl std_numeric_limits_int_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::infinity(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::infinity(void) */
LONG __cdecl std_numeric_limits_long_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::infinity(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::infinity(void) */
float __cdecl std_numeric_limits_float_infinity(void) { return *(float *)&_FInf; }

/* ?infinity@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::infinity(void) */
double __cdecl std_numeric_limits_double_infinity(void) { return *(double *)&_Inf; }

/* ?infinity@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::infinity(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_infinity(void) { return *(LDOUBLE *)&_LInf; }

/* ?infinity@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::infinity(void) */
__int64 __cdecl std_numeric_limits_int64_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::infinity(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_infinity(void) { return 0; }

/* ?infinity@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::infinity(void) */
BOOLEAN __cdecl std_numeric_limits_bool_infinity(void) { return FALSE; }

/* ?infinity@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::infinity(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_infinity(void) { return 0; }

/* ?max@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::max(void) */
signed char __cdecl std_numeric_limits_signed_char_max(void) { return SCHAR_MAX; }

/* ?max@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::max(void) */
char __cdecl std_numeric_limits_char_max(void) { return CHAR_MAX; }

/* ?max@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::max(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_max(void) { return UCHAR_MAX; }

/* ?max@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::max(void) */
short __cdecl std_numeric_limits_short_max(void) { return SHRT_MAX; }

/* ?max@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::max(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_max(void) { return USHRT_MAX; }

/* ?max@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::max(void) */
int __cdecl std_numeric_limits_int_max(void) { return INT_MAX; }

/* ?max@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::max(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_max(void) { return UINT_MAX; }

/* ?max@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::max(void) */
LONG __cdecl std_numeric_limits_long_max(void) { return LONG_MAX; }

/* ?max@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::max(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_max(void) { return ULONG_MAX; }

/* ?max@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::max(void) */
float __cdecl std_numeric_limits_float_max(void) { return FLT_MAX; }

/* ?max@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::max(void) */
double __cdecl std_numeric_limits_double_max(void) { return DBL_MAX; }

/* ?max@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::max(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_max(void) { return LDBL_MAX; }

/* ?max@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::max(void) */
__int64 __cdecl std_numeric_limits_int64_max(void) { return I64_MAX; }

/* ?max@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::max(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_max(void) { return UI64_MAX; }

/* ?max@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::max(void) */
BOOLEAN __cdecl std_numeric_limits_bool_max(void) { return TRUE; }

/* ?max@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::max(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_max(void) { return USHRT_MAX; }

/* ?min@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::min(void) */
signed char __cdecl std_numeric_limits_signed_char_min(void) { return SCHAR_MIN; }

/* ?min@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::min(void) */
char __cdecl std_numeric_limits_char_min(void) { return CHAR_MIN; }

/* ?min@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::min(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_min(void) { return 0; }

/* ?min@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::min(void) */
short __cdecl std_numeric_limits_short_min(void) { return SHRT_MIN; }

/* ?min@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::min(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_min(void) { return 0; }

/* ?min@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::min(void) */
int __cdecl std_numeric_limits_int_min(void) { return INT_MIN; }

/* ?min@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::min(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_min(void) { return 0; }

/* ?min@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::min(void) */
LONG __cdecl std_numeric_limits_long_min(void) { return LONG_MIN; }

/* ?min@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::min(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_min(void) { return 0; }

/* ?min@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::min(void) */
float __cdecl std_numeric_limits_float_min(void) { return FLT_MIN; }

/* ?min@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::min(void) */
double __cdecl std_numeric_limits_double_min(void) { return DBL_MIN; }

/* ?min@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::min(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_min(void) { return LDBL_MIN; }

/* ?min@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::min(void) */
__int64 __cdecl std_numeric_limits_int64_min(void) { return I64_MIN; }

/* ?min@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::min(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_min(void) { return 0; }

/* ?min@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::min(void) */
BOOLEAN __cdecl std_numeric_limits_bool_min(void) { return FALSE; }

/* ?min@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::min(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_min(void) { return 0; }

/* ?lowest@?$numeric_limits@C@std@@SACXZ */
signed char __cdecl std_numeric_limits_signed_char_lowest(void) { return SCHAR_MIN; }

/* ?lowest@?$numeric_limits@D@std@@SADXZ */
char __cdecl std_numeric_limits_char_lowest(void) { return CHAR_MIN; }

/* ?lowest@?$numeric_limits@E@std@@SAEXZ */
unsigned char __cdecl std_numeric_limits_unsigned_char_lowest(void) { return 0; }

/* ?lowest@?$numeric_limits@F@std@@SAFXZ */
short __cdecl std_numeric_limits_short_lowest(void) { return SHRT_MIN; }

/* ?lowest@?$numeric_limits@G@std@@SAGXZ */
unsigned short __cdecl std_numeric_limits_unsigned_short_lowest(void) { return 0; }

/* ?lowest@?$numeric_limits@H@std@@SAHXZ */
int __cdecl std_numeric_limits_int_lowest(void) { return INT_MIN; }

/* ?lowest@?$numeric_limits@I@std@@SAIXZ */
unsigned int __cdecl std_numeric_limits_unsigned_int_lowest(void) { return 0; }

/* ?lowest@?$numeric_limits@J@std@@SAJXZ */
LONG __cdecl std_numeric_limits_long_lowest(void) { return LONG_MIN; }

/* ?lowest@?$numeric_limits@K@std@@SAKXZ */
ULONG __cdecl std_numeric_limits_unsigned_long_lowest(void) { return 0; }

/* ?lowest@?$numeric_limits@M@std@@SAMXZ */
float __cdecl std_numeric_limits_float_lowest(void) { return -FLT_MAX; }

/* ?lowest@?$numeric_limits@N@std@@SANXZ */
double __cdecl std_numeric_limits_double_lowest(void) { return -DBL_MAX; }

/* ?lowest@?$numeric_limits@O@std@@SAOXZ */
LDOUBLE __cdecl std_numeric_limits_long_double_lowest(void) { return -LDBL_MAX; }

/* ?lowest@?$numeric_limits@_J@std@@SA_JXZ */
__int64 __cdecl std_numeric_limits_int64_lowest(void) { return I64_MIN; }

/* ?lowest@?$numeric_limits@_K@std@@SA_KXZ */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_lowest(void) { return 0; }

/* ?lowest@?$numeric_limits@_N@std@@SA_NXZ */
BOOLEAN __cdecl std_numeric_limits_bool_lowest(void) { return FALSE; }

/* ?lowest@?$numeric_limits@_W@std@@SA_WXZ */
WCHAR __cdecl std_numeric_limits_wchar_t_lowest(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::quiet_NaN(void) */
signed char __cdecl std_numeric_limits_signed_char_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::quiet_NaN(void) */
char __cdecl std_numeric_limits_char_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::quiet_NaN(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::quiet_NaN(void) */
short __cdecl std_numeric_limits_short_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::quiet_NaN(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::quiet_NaN(void) */
int __cdecl std_numeric_limits_int_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::quiet_NaN(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::quiet_NaN(void) */
LONG __cdecl std_numeric_limits_long_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::quiet_NaN(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::quiet_NaN(void) */
float __cdecl std_numeric_limits_float_quiet_NaN(void) { return *(float *)&_FNan; }

/* ?quiet_NaN@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::quiet_NaN(void) */
double __cdecl std_numeric_limits_double_quiet_NaN(void) { return *(double *)&_Nan; }

/* ?quiet_NaN@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::quiet_NaN(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_quiet_NaN(void) { return *(LDOUBLE *)&_LNan; }

/* ?quiet_NaN@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::quiet_NaN(void) */
__int64 __cdecl std_numeric_limits_int64_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::quiet_NaN(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_quiet_NaN(void) { return 0; }

/* ?quiet_NaN@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::quiet_NaN(void) */
BOOLEAN __cdecl std_numeric_limits_bool_quiet_NaN(void) { return FALSE; }

/* ?quiet_NaN@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::quiet_NaN(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_quiet_NaN(void) { return 0; }

/* ?round_error@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::round_error(void) */
signed char __cdecl std_numeric_limits_signed_char_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::round_error(void) */
char __cdecl std_numeric_limits_char_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::round_error(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::round_error(void) */
short __cdecl std_numeric_limits_short_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::round_error(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::round_error(void) */
int __cdecl std_numeric_limits_int_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::round_error(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::round_error(void) */
LONG __cdecl std_numeric_limits_long_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::round_error(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::round_error(void) */
float __cdecl std_numeric_limits_float_round_error(void) { return 0.5; }

/* ?round_error@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::round_error(void) */
double __cdecl std_numeric_limits_double_round_error(void) { return 0.5; }

/* ?round_error@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::round_error(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_round_error(void) { return 0.5; }

/* ?round_error@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::round_error(void) */
__int64 __cdecl std_numeric_limits_int64_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::round_error(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_round_error(void) { return 0; }

/* ?round_error@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::round_error(void) */
BOOLEAN __cdecl std_numeric_limits_bool_round_error(void) { return FALSE; }

/* ?round_error@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::round_error(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_round_error(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@C@std@@SACXZ -> public: static signed char __cdecl std::numeric_limits<signed char>::signaling_NaN(void) */
signed char __cdecl std_numeric_limits_signed_char_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@D@std@@SADXZ -> public: static char __cdecl std::numeric_limits<char>::signaling_NaN(void) */
char __cdecl std_numeric_limits_char_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@E@std@@SAEXZ -> public: static unsigned char __cdecl std::numeric_limits<unsigned char>::signaling_NaN(void) */
unsigned char __cdecl std_numeric_limits_unsigned_char_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@F@std@@SAFXZ -> public: static short __cdecl std::numeric_limits<short>::signaling_NaN(void) */
short __cdecl std_numeric_limits_short_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@G@std@@SAGXZ -> public: static unsigned short __cdecl std::numeric_limits<unsigned short>::signaling_NaN(void) */
unsigned short __cdecl std_numeric_limits_unsigned_short_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@H@std@@SAHXZ -> public: static int __cdecl std::numeric_limits<int>::signaling_NaN(void) */
int __cdecl std_numeric_limits_int_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@I@std@@SAIXZ -> public: static unsigned int __cdecl std::numeric_limits<unsigned int>::signaling_NaN(void) */
unsigned int __cdecl std_numeric_limits_unsigned_int_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@J@std@@SAJXZ -> public: static long __cdecl std::numeric_limits<long>::signaling_NaN(void) */
LONG __cdecl std_numeric_limits_long_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@K@std@@SAKXZ -> public: static unsigned long __cdecl std::numeric_limits<unsigned long>::signaling_NaN(void) */
ULONG __cdecl std_numeric_limits_unsigned_long_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@M@std@@SAMXZ -> public: static float __cdecl std::numeric_limits<float>::signaling_NaN(void) */
float __cdecl std_numeric_limits_float_signaling_NaN(void) { return *(float *)&_FSnan; }

/* ?signaling_NaN@?$numeric_limits@N@std@@SANXZ -> public: static double __cdecl std::numeric_limits<double>::signaling_NaN(void) */
double __cdecl std_numeric_limits_double_signaling_NaN(void) { return *(double *)&_Snan; }

/* ?signaling_NaN@?$numeric_limits@O@std@@SAOXZ -> public: static long double __cdecl std::numeric_limits<long double>::signaling_NaN(void) */
LDOUBLE __cdecl std_numeric_limits_long_double_signaling_NaN(void) { return *(LDOUBLE *)&_LSnan; }

/* ?signaling_NaN@?$numeric_limits@_J@std@@SA_JXZ -> public: static __int64 __cdecl std::numeric_limits<__int64>::signaling_NaN(void) */
__int64 __cdecl std_numeric_limits_int64_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@_K@std@@SA_KXZ -> public: static unsigned __int64 __cdecl std::numeric_limits<unsigned __int64>::signaling_NaN(void) */
unsigned __int64 __cdecl std_numeric_limits_unsigned_int64_signaling_NaN(void) { return 0; }

/* ?signaling_NaN@?$numeric_limits@_N@std@@SA_NXZ -> public: static bool __cdecl std::numeric_limits<bool>::signaling_NaN(void) */
BOOLEAN __cdecl std_numeric_limits_bool_signaling_NaN(void) { return FALSE; }

/* ?signaling_NaN@?$numeric_limits@_W@std@@SA_WXZ -> public: static wchar_t __cdecl std::numeric_limits<wchar_t>::signaling_NaN(void) */
WCHAR __cdecl std_numeric_limits_wchar_t_signaling_NaN(void) { return 0; }

/* ??4?$_Ctraits@M@std@@QAEAAV01@ABV01@@Z -> public: class std::_Ctraits<float> & __thiscall std::_Ctraits<float>::operator=(class std::_Ctraits<float> const &) */
/* ??4?$_Ctraits@M@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::_Ctraits<float> & __ptr64 __cdecl std::_Ctraits<float>::operator=(class std::_Ctraits<float> const & __ptr64) __ptr64 */
/* ??4?$_Ctraits@N@std@@QAEAAV01@ABV01@@Z -> public: class std::_Ctraits<double> & __thiscall std::_Ctraits<double>::operator=(class std::_Ctraits<double> const &) */
/* ??4?$_Ctraits@N@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::_Ctraits<double> & __ptr64 __cdecl std::_Ctraits<double>::operator=(class std::_Ctraits<double> const & __ptr64) __ptr64 */
/* ??4?$_Ctraits@O@std@@QAEAAV01@ABV01@@Z -> public: class std::_Ctraits<long double> & __thiscall std::_Ctraits<long double>::operator=(class std::_Ctraits<long double> const &) */
/* ??4?$_Ctraits@O@std@@QEAAAEAV01@AEBV01@@Z -> public: class std::_Ctraits<long double> & __ptr64 __cdecl std::_Ctraits<long double>::operator=(class std::_Ctraits<long double> const & __ptr64) __ptr64 */
DEFINE_THISCALL_WRAPPER( std_Ctraits_op_assign, 8 )
std_Ctraits * __thiscall std_Ctraits_op_assign( std_Ctraits *this, std_Ctraits *right )
{
    return this;
}

/* ?_Isnan@?$_Ctraits@M@std@@SA_NM@Z -> public: static bool __cdecl std::_Ctraits<float>::_Isnan(float) */
BOOLEAN __cdecl std_Ctraits_float__Isnan( float x ) { return _isnan(x); }

/* ?_Isnan@?$_Ctraits@N@std@@SA_NN@Z -> public: static bool __cdecl std::_Ctraits<double>::_Isnan(double) */
BOOLEAN __cdecl std_Ctraits_double__Isnan( double x ) { return _isnan(x); }

/* ?_Isnan@?$_Ctraits@O@std@@SA_NO@Z -> public: static bool __cdecl std::_Ctraits<long double>::_Isnan(long double) */
BOOLEAN __cdecl std_Ctraits_long_double__Isnan( LDOUBLE x ) { return _isnan(x); }

/* ?atan2@?$_Ctraits@M@std@@SAMMM@Z -> public: static float __cdecl std::_Ctraits<float>::atan2(float,float) */
float __cdecl std_Ctraits_float_atan2( float y, float x ) { return atan2f( y, x ); }

/* ?atan2@?$_Ctraits@N@std@@SANNN@Z -> public: static double __cdecl std::_Ctraits<double>::atan2(double,double) */
double __cdecl std_Ctraits_double_atan2( double y, double x ) { return atan2( y, x ); }

/* ?atan2@?$_Ctraits@O@std@@SAOOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::atan2(long double,long double) */
LDOUBLE __cdecl std_Ctraits_long_double_atan2( LDOUBLE y, LDOUBLE x ) { return atan2( y, x ); }

/* ?cos@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::cos(float) */
float __cdecl std_Ctraits_float_cos( float x ) { return cosf( x ); }

/* ?cos@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::cos(double) */
double __cdecl std_Ctraits_double_cos( double x ) { return cos( x ); }

/* ?cos@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::cos(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_cos( LDOUBLE x ) { return cos( x ); }

/* ?exp@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::exp(float) */
float __cdecl std_Ctraits_float_exp( float x ) { return expf( x ); }

/* ?exp@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::exp(double) */
double __cdecl std_Ctraits_double_exp( double x ) { return exp( x ); }

/* ?exp@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::exp(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_exp( LDOUBLE x ) { return exp( x ); }

/* ?ldexp@?$_Ctraits@M@std@@SAMMH@Z -> public: static float __cdecl std::_Ctraits<float>::ldexp(float,int) */
float __cdecl std_Ctraits_float_ldexp( float x, int y ) { return ldexpf( x, y ); }

/* ?ldexp@?$_Ctraits@N@std@@SANNH@Z -> public: static double __cdecl std::_Ctraits<double>::ldexp(double,int) */
double __cdecl std_Ctraits_double_ldexp( double x, int y ) { return ldexp( x, y ); }

/* ?ldexp@?$_Ctraits@O@std@@SAOOH@Z -> public: static long double __cdecl std::_Ctraits<long double>::ldexp(long double,int) */
LDOUBLE __cdecl std_Ctraits_long_double_ldexp( LDOUBLE x, int y ) { return ldexp( x, y ); }

/* ?log@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::log(float) */
float __cdecl std_Ctraits_float_log( float x ) { return logf( x ); }

/* ?log@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::log(double) */
double __cdecl std_Ctraits_double_log( double x ) { return log( x ); }

/* ?log@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::log(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_log( LDOUBLE x ) { return log( x ); }

/* ?pow@?$_Ctraits@M@std@@SAMMM@Z -> public: static float __cdecl std::_Ctraits<float>::pow(float,float) */
float __cdecl std_Ctraits_float_pow( float x, float y ) { return powf( x, y ); }

/* ?pow@?$_Ctraits@N@std@@SANNN@Z -> public: static double __cdecl std::_Ctraits<double>::pow(double,double) */
double __cdecl std_Ctraits_double_pow( double x, double y ) { return pow( x, y ); }

/* ?pow@?$_Ctraits@O@std@@SAOOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::pow(long double,long double) */
LDOUBLE __cdecl std_Ctraits_long_double_pow( LDOUBLE x, LDOUBLE y ) { return pow( x, y ); }

/* ?sin@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::sin(float) */
float __cdecl std_Ctraits_float_sin( float x ) { return sinf( x ); }

/* ?sin@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::sin(double) */
double __cdecl std_Ctraits_double_sin( double x ) { return sin( x ); }

/* ?sin@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::sin(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_sin( LDOUBLE x ) { return sin( x ); }

/* ?sqrt@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::sqrt(float) */
float __cdecl std_Ctraits_float_sqrt( float x ) { return sqrtf( x ); }

/* ?sqrt@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::sqrt(double) */
double __cdecl std_Ctraits_double_sqrt( double x ) { return sqrt( x ); }

/* ?sqrt@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::sqrt(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_sqrt( LDOUBLE x ) { return sqrt( x ); }

/* ?tan@?$_Ctraits@M@std@@SAMM@Z -> public: static float __cdecl std::_Ctraits<float>::tan(float) */
float __cdecl std_Ctraits_float_tan( float x ) { return tanf( x ); }

/* ?tan@?$_Ctraits@N@std@@SANN@Z -> public: static double __cdecl std::_Ctraits<double>::tan(double) */
double __cdecl std_Ctraits_double_tan( double x ) { return tan( x ); }

/* ?tan@?$_Ctraits@O@std@@SAOO@Z -> public: static long double __cdecl std::_Ctraits<long double>::tan(long double) */
LDOUBLE __cdecl std_Ctraits_long_double_tan( LDOUBLE x ) { return tan( x ); }

/* ??0?$_Complex_base@MU_C_float_complex@@@std@@QAE@ABM0@Z */
/* ??0?$_Complex_base@MU_C_float_complex@@@std@@QEAA@AEBM0@Z */
/* ??0?$complex@M@std@@QAE@ABM0@Z */
/* ??0?$complex@M@std@@QEAA@AEBM0@Z */
DEFINE_THISCALL_WRAPPER(complex_float_ctor, 12)
complex_float* __thiscall complex_float_ctor(complex_float *this, const float *real, const float *imag)
{
    this->real = *real;
    this->imag = *imag;
    return this;
}

/* ??0?$complex@M@std@@QAE@ABU_C_float_complex@@@Z */
/* ??0?$complex@M@std@@QEAA@AEBU_C_float_complex@@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_ctor_float, 8)
complex_float* __thiscall complex_float_ctor_float(complex_float *this, const complex_float *c)
{
    this->real = c->real;
    this->imag = c->imag;
    return this;
}

/* ??0?$complex@M@std@@QAE@ABU_C_double_complex@@@Z */
/* ??0?$complex@M@std@@QEAA@AEBU_C_double_complex@@@Z */
/* ??0?$complex@M@std@@QAE@ABU_C_ldouble_complex@@@Z */
/* ??0?$complex@M@std@@QEAA@AEBU_C_ldouble_complex@@@Z */
/* ??0?$complex@M@std@@QAE@ABV?$complex@N@1@@Z */
/* ??0?$complex@M@std@@QEAA@AEBV?$complex@N@1@@Z */
/* ??0?$complex@M@std@@QAE@ABV?$complex@O@1@@Z */
/* ??0?$complex@M@std@@QEAA@AEBV?$complex@O@1@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_ctor_double, 8)
complex_float* __thiscall complex_float_ctor_double(complex_float *this, const complex_double *c)
{
    this->real = c->real;
    this->imag = c->imag;
    return this;
}

/* ??_F?$complex@M@std@@QAEXXZ */
/* ??_F?$complex@M@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(complex_float_ctor_def, 4)
complex_float* __thiscall complex_float_ctor_def(complex_float *this)
{
    this->real = this->imag = 0;
    return this;
}

/* ??$?8M@std@@YA_NABMABV?$complex@M@0@@Z */
/* ??$?8M@std@@YA_NAEBMAEBV?$complex@M@0@@Z */
MSVCP_bool __cdecl complex_float_equal_fc(const float *l, const complex_float *r)
{
    return *l==r->real && r->imag==0;
}

/* ??$?8M@std@@YA_NABV?$complex@M@0@0@Z */
/* ??$?8M@std@@YA_NAEBV?$complex@M@0@0@Z */
MSVCP_bool __cdecl complex_float_equal(const complex_float *l, const complex_float *r)
{
    return l->real==r->real && l->imag==r->imag;
}

/* ??$?8M@std@@YA_NABV?$complex@M@0@ABM@Z */
/* ??$?8M@std@@YA_NAEBV?$complex@M@0@AEBM@Z */
MSVCP_bool __cdecl complex_float_equal_cf(const complex_float *l, const float *r)
{
    return l->real==*r && l->imag==0;
}

/* ??$?9M@std@@YA_NABMABV?$complex@M@0@@Z */
/* ??$?9M@std@@YA_NAEBMAEBV?$complex@M@0@@Z */
MSVCP_bool __cdecl complex_float_not_equal_fc(const float *l, const complex_float *r)
{
    return !complex_float_equal_fc(l, r);
}

/* ??$?9M@std@@YA_NABV?$complex@M@0@0@Z */
/* ??$?9M@std@@YA_NAEBV?$complex@M@0@0@Z */
MSVCP_bool __cdecl complex_float_not_equal(const complex_float *l, const complex_float *r)
{
    return !complex_float_equal(l, r);
}

/* ??$?9M@std@@YA_NABV?$complex@M@0@ABM@Z */
/* ??$?9M@std@@YA_NAEBV?$complex@M@0@AEBM@Z */
MSVCP_bool __cdecl complex_float_not_equal_cf(const complex_float *l, const float *r)
{
    return !complex_float_equal_cf(l, r);
}

/* ??$?DM@std@@YA?AV?$complex@M@0@ABMABV10@@Z */
/* ??$?DM@std@@YA?AV?$complex@M@0@AEBMAEBV10@@Z */
complex_float* __cdecl complex_float_mult_fc(complex_float *ret, const float *l, const complex_float *r)
{
    ret->real = *l * r->real;
    ret->imag = *l * r->imag;
    return ret;
}

/* ??$?DM@std@@YA?AV?$complex@M@0@ABV10@0@Z */
/* ??$?DM@std@@YA?AV?$complex@M@0@AEBV10@0@Z */
complex_float* __cdecl complex_float_mult(complex_float *ret, const complex_float *l, const complex_float *r)
{
    ret->real = l->real*r->real - l->imag*r->imag;
    ret->imag = l->imag*r->real + l->real*r->imag;
    return ret;
}

/* ??$?DM@std@@YA?AV?$complex@M@0@ABV10@ABM@Z */
/* ??$?DM@std@@YA?AV?$complex@M@0@AEBV10@AEBM@Z */
complex_float* __cdecl complex_float_mult_cf(complex_float *ret, const complex_float *l, const float *r)
{
    ret->real = l->real * *r;
    ret->imag = l->imag * *r;
    return ret;
}

/* ??$?GM@std@@YA?AV?$complex@M@0@ABMABV10@@Z */
/* ??$?GM@std@@YA?AV?$complex@M@0@AEBMAEBV10@@Z */
complex_float* __cdecl complex_float_sub_fc(complex_float *ret, const float *l, const complex_float *r)
{
    ret->real = *l - r->real;
    ret->imag = -r->imag;
    return ret;
}

/* ??$?GM@std@@YA?AV?$complex@M@0@ABV10@0@Z */
/* ??$?GM@std@@YA?AV?$complex@M@0@AEBV10@0@Z */
complex_float* __cdecl complex_float_sub(complex_float *ret, const complex_float *l, const complex_float *r)
{
    ret->real = l->real - r->real;
    ret->imag = l->imag - r->imag;
    return ret;
}

/* ??$?GM@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$?GM@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_neg(complex_float *ret, const complex_float *c)
{
    ret->real = -c->real;
    ret->imag = -c->imag;
    return ret;
}

/* ??$?GM@std@@YA?AV?$complex@M@0@ABV10@ABM@Z */
/* ??$?GM@std@@YA?AV?$complex@M@0@AEBV10@AEBM@Z */
complex_float* __cdecl complex_float_sub_cf(complex_float *ret, const complex_float *l, const float *r)
{
    ret->real = l->real - *r;
    ret->imag = l->imag;
    return ret;
}

/* ??$?HM@std@@YA?AV?$complex@M@0@ABMABV10@@Z */
/* ??$?HM@std@@YA?AV?$complex@M@0@AEBMAEBV10@@Z */
complex_float* __cdecl complex_float_add_fc(complex_float *ret, const float *l, const complex_float *r)
{
    ret->real = *l + r->real;
    ret->imag = r->imag;
    return ret;
}

/* ??$?HM@std@@YA?AV?$complex@M@0@ABV10@0@Z */
/* ??$?HM@std@@YA?AV?$complex@M@0@AEBV10@0@Z */
complex_float* __cdecl complex_float_add(complex_float *ret, const complex_float *l, const complex_float *r)
{
    ret->real = l->real + r->real;
    ret->imag = l->imag + r->imag;
    return ret;
}

/* ??$?HM@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$?HM@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_plus(complex_float *ret, const complex_float *c)
{
    *ret = *c;
    return ret;
}

/* ??$?HM@std@@YA?AV?$complex@M@0@ABV10@ABM@Z */
/* ??$?HM@std@@YA?AV?$complex@M@0@AEBV10@AEBM@Z */
complex_float* __cdecl complex_float_add_cf(complex_float *ret, const complex_float *l, const float *r)
{
    ret->real = l->real + *r;
    ret->imag = l->imag;
    return ret;
}

/* ??$?KM@std@@YA?AV?$complex@M@0@ABV10@0@Z */
/* ??$?KM@std@@YA?AV?$complex@M@0@AEBV10@0@Z */
complex_float* __cdecl complex_float_div(complex_float *ret, const complex_float *l, const complex_float *r)
{
    float tmp, den;
    if((!r->real && !r->imag) || _isnan(l->real) || _isnan(l->imag)
            || _isnan(r->real) || _isnan(r->imag)) {
        ret->real = std_numeric_limits_float_quiet_NaN();
        ret->imag = ret->real;
        return ret;
    }

    if (fabsf(r->real) >= fabsf(r->imag)) {
        tmp = r->imag / r->real;
        den = r->real + r->imag*tmp;
        ret->real = (l->real + l->imag*tmp) / den;
        ret->imag = (l->imag - l->real*tmp) / den;
    } else {
        tmp = r->real / r->imag;
        den = r->real*tmp + r->imag;
        ret->real = (l->real*tmp + l->imag) / den;
        ret->imag = (l->imag*tmp - l->real) / den;
    }
    return ret;
}

/* ??$?KM@std@@YA?AV?$complex@M@0@ABMABV10@@Z */
/* ??$?KM@std@@YA?AV?$complex@M@0@AEBMAEBV10@@Z */
complex_float* __cdecl complex_float_div_fc(complex_float *ret, const float *l, const complex_float *r)
{
    complex_float c = {*l, 0};
    return complex_float_div(ret, &c, r);
}

/* ??$?KM@std@@YA?AV?$complex@M@0@ABV10@ABM@Z */
/* ??$?KM@std@@YA?AV?$complex@M@0@AEBV10@AEBM@Z */
complex_float* __cdecl complex_float_div_cf(complex_float *ret, const complex_float *l, const float *r)
{
    ret->real = l->real / *r;
    ret->imag = l->imag / *r;
    return ret;
}

/* ??4?$_Complex_base@MU_C_float_complex@@@std@@QAEAAV01@ABV01@@Z */
/* ??4?$_Complex_base@MU_C_float_complex@@@std@@QEAAAEAV01@AEBV01@@Z */
/* ??4?$complex@M@std@@QAEAAV01@ABV01@@Z */
/* ??4?$complex@M@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_assign, 8)
complex_float* __thiscall complex_float_assign(complex_float *this, const complex_float *r)
{
    *this = *r;
    return this;
}

/* ??4?$complex@M@std@@QAEAAV01@ABM@Z */
/* ??4?$complex@M@std@@QEAAAEAV01@AEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_assign_float, 8)
complex_float* __thiscall complex_float_assign_float(complex_float *this, const float *r)
{
    this->real = *r;
    this->imag = 0;
    return this;
}

/* ??X?$complex@M@std@@QAEAAV01@ABM@Z */
/* ??X?$complex@M@std@@QEAAAEAV01@AEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_mult_assign_float, 8)
complex_float* __thiscall complex_float_mult_assign_float(complex_float *this, const float *r)
{
    this->real *= *r;
    this->imag *= *r;
    return this;
}

/* ??X?$complex@M@std@@QAEAAV01@ABV01@@Z */
/* ??X?$complex@M@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_mult_assign, 8)
complex_float* __thiscall complex_float_mult_assign(complex_float *this, const complex_float *r)
{
    complex_float tmp;

    tmp.real = this->real*r->real - this->imag*r->imag;
    tmp.imag = this->real*r->imag + this->imag*r->real;
    *this = tmp;
    return this;
}

/* ??Y?$complex@M@std@@QAEAAV01@ABM@Z */
/* ??Y?$complex@M@std@@QEAAAEAV01@AEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_add_assign_float, 8)
complex_float* __thiscall complex_float_add_assign_float(complex_float *this, const float *r)
{
    this->real += *r;
    return this;
}

/* ??Y?$complex@M@std@@QAEAAV01@ABV01@@Z */
/* ??Y?$complex@M@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_add_assign, 8)
complex_float* __thiscall complex_float_add_assign(complex_float *this, const complex_float *r)
{
    this->real += r->real;
    this->imag += r->imag;
    return this;
}

/* ??Z?$complex@M@std@@QAEAAV01@ABM@Z */
/* ??Z?$complex@M@std@@QEAAAEAV01@AEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_sub_assign_float, 8)
complex_float* __thiscall complex_float_sub_assign_float(complex_float *this, const float *r)
{
    this->real -= *r;
    return this;
}

/* ??Z?$complex@M@std@@QAEAAV01@ABV01@@Z */
/* ??Z?$complex@M@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_sub_assign, 8)
complex_float* __thiscall complex_float_sub_assign(complex_float *this, const complex_float *r)
{
    this->real -= r->real;
    this->imag -= r->imag;
    return this;
}

/* ??_0?$complex@M@std@@QAEAAV01@ABM@Z */
/* ??_0?$complex@M@std@@QEAAAEAV01@AEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_div_assign_float, 8)
complex_float* __thiscall complex_float_div_assign_float(complex_float *this, const float *r)
{
    this->real /= *r;
    this->imag /= *r;
    return this;
}

/* ??_0?$complex@M@std@@QAEAAV01@ABV01@@Z */
/* ??_0?$complex@M@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_float_div_assign, 8)
complex_float* __thiscall complex_float_div_assign(complex_float *this, const complex_float *r)
{
    complex_float tmp = *this;
    return complex_float_div(this, &tmp, r);
}

/* ??$arg@M@std@@YAMABV?$complex@M@0@@Z */
/* ??$arg@M@std@@YAMAEBV?$complex@M@0@@Z */
float __cdecl complex_float_arg(const complex_float *c)
{
    return atan2(c->imag, c->real);
}

/* ??$imag@M@std@@YAMABV?$complex@M@0@@Z */
/* ??$imag@M@std@@YAMAEBV?$complex@M@0@@Z */
float __cdecl complex_float_imag(const complex_float *c)
{
    return c->imag;
}

/* ?imag@?$_Complex_base@MU_C_float_complex@@@std@@QAEMABM@Z */
/* ?imag@?$_Complex_base@MU_C_float_complex@@@std@@QEAAMAEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_imag_set, 8)
float __thiscall complex_float_imag_set(complex_float *this, const float *f)
{
    return (this->imag = *f);
}

/* ?imag@?$_Complex_base@MU_C_float_complex@@@std@@QBEMXZ */
/* ?imag@?$_Complex_base@MU_C_float_complex@@@std@@QEBAMXZ */
DEFINE_THISCALL_WRAPPER(complex_float_imag_get, 4)
float __thiscall complex_float_imag_get(const complex_float *this)
{
    return this->imag;
}

/* ??$real@M@std@@YAMABV?$complex@M@0@@Z */
/* ??$real@M@std@@YAMAEBV?$complex@M@0@@Z */
float __cdecl complex_float_real(const complex_float *c)
{
    return c->real;
}

/* ?real@?$_Complex_base@MU_C_float_complex@@@std@@QAEMABM@Z */
/* ?real@?$_Complex_base@MU_C_float_complex@@@std@@QEAAMAEBM@Z */
DEFINE_THISCALL_WRAPPER(complex_float_real_set, 8)
float __thiscall complex_float_real_set(complex_float *this, const float *f)
{
    return (this->real = *f);
}

/* ?real@?$_Complex_base@MU_C_float_complex@@@std@@QBEMXZ */
/* ?real@?$_Complex_base@MU_C_float_complex@@@std@@QEBAMXZ */
DEFINE_THISCALL_WRAPPER(complex_float_real_get, 4)
float __thiscall complex_float_real_get(const complex_float *this)
{
    return this->real;
}

/* ??$_Fabs@M@std@@YAMABV?$complex@M@0@PAH@Z */
/* ??$_Fabs@M@std@@YAMAEBV?$complex@M@0@PEAH@Z */
float __cdecl complex_float__Fabs(const complex_float *c, int *scale)
{
    float ret;

    ret = hypotf(c->real, c->imag);
    if(_isnan(ret) || ret==0) {
        *scale = 0;
    }else if(ret >= 1) {
        *scale = 2;
        ret /= 4;
    }else {
        *scale = -2;
        ret *= 4;
    }

    return ret;
}

/* ??$abs@M@std@@YAMABV?$complex@M@0@@Z */
/* ??$abs@M@std@@YAMAEBV?$complex@M@0@@Z */
float __cdecl complex_float_abs(const complex_float *c)
{
    return hypotf(c->real, c->imag);
}

/* ??$conj@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$conj@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_conj(complex_float *ret, const complex_float *c)
{
    ret->real = c->real;
    ret->imag = -c->imag;
    return ret;
}

/* ??$cos@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$cos@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_cos(complex_float *ret, const complex_float *c)
{
    ret->real = cos(c->real)*cosh(c->imag);
    ret->imag = -sin(c->real)*sinh(c->imag);
    return ret;
}

/* ??$sin@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$sin@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_sin(complex_float *ret, const complex_float *c)
{
    ret->real = sin(c->real)*cosh(c->imag);
    ret->imag = cos(c->real)*sinh(c->imag);
    return ret;
}

/* ??$tan@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$tan@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_tan(complex_float *ret, const complex_float *c)
{
    double denom = cos(2*c->real) + cosh(2*c->imag);
    ret->real = sin(2*c->real) / denom;
    ret->imag = sinh(2*c->imag) / denom;
    return ret;
}

/* ??$cosh@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$cosh@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_cosh(complex_float *ret, const complex_float *c)
{
    ret->real = cosh(c->real)*cos(c->imag);
    ret->imag = sinh(c->real)*sin(c->imag);
    return ret;
}

/* ??$sinh@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$sinh@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_sinh(complex_float *ret, const complex_float *c)
{
    ret->real = sinh(c->real)*cos(c->imag);
    ret->imag = cosh(c->real)*sin(c->imag);
    return ret;
}

/* ??$tanh@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$tanh@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_tanh(complex_float *ret, const complex_float *c)
{
    complex_float tmp;

    ret->real = -c->imag;
    ret->imag = c->real;
    complex_float_tan(&tmp, ret);
    ret->real = tmp.imag;
    ret->imag = -tmp.real;
    return ret;
}

/* ??$exp@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$exp@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_exp(complex_float *ret, const complex_float *c)
{
    ret->real = ret->imag = exp(c->real);
    ret->real *= cos(c->imag);
    ret->imag *= sin(c->imag);
    return ret;
}

/* ??$log@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$log@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_log(complex_float *ret, const complex_float *c)
{
    ret->real = log(complex_float_abs(c));
    ret->imag = complex_float_arg(c);
    return ret;
}

/* ??$log10@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$log10@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_log10(complex_float *ret, const complex_float *c)
{
    complex_float_log(ret, c);
    ret->real *= M_LOG10E;
    ret->imag *= M_LOG10E;
    return ret;
}

/* ??$norm@M@std@@YAMABV?$complex@M@0@@Z */
/* ??$norm@M@std@@YAMAEBV?$complex@M@0@@Z */
float __cdecl complex_float_norm(const complex_float *c)
{
    return c->real*c->real + c->imag*c->imag;
}

/* ??$polar@M@std@@YA?AV?$complex@M@0@ABM0@Z */
/* ??$polar@M@std@@YA?AV?$complex@M@0@AEBM0@Z */
complex_float* __cdecl complex_float_polar_theta(complex_float *ret, const float *mod, const float *theta)
{
    ret->real = *mod * cos(*theta);
    ret->imag = *mod * sin(*theta);
    return ret;
}

/* ??$polar@M@std@@YA?AV?$complex@M@0@ABM@Z */
/* ??$polar@M@std@@YA?AV?$complex@M@0@AEBM@Z */
complex_float* __cdecl complex_float_polar(complex_float *ret, const float *mod)
{
    ret->real = *mod;
    ret->imag = 0;
    return ret;
}

/* ??$pow@M@std@@YA?AV?$complex@M@0@ABV10@0@Z */
/* ??$pow@M@std@@YA?AV?$complex@M@0@AEBV10@0@Z */
complex_float* __cdecl complex_float_pow(complex_float *ret, const complex_float *l, const complex_float *r)
{
    float abs = complex_float_abs(l), arg = complex_float_arg(l);
    float rad = pow(abs, r->real), theta = r->real*arg;

    if(r->imag) {
        rad *= exp(-r->imag * arg);
        theta += r->imag * log(abs);
    }

    ret->real = rad * cos(theta);
    ret->imag = rad * sin(theta);
    return ret;
}

/* ??$pow@M@std@@YA?AV?$complex@M@0@ABMABV10@@Z */
/* ??$pow@M@std@@YA?AV?$complex@M@0@AEBMAEBV10@@Z */
complex_float* __cdecl complex_float_pow_fc(complex_float *ret, const float *l, const complex_float *r)
{
    complex_float c = { *l, 0 };
    return complex_float_pow(ret, &c, r);
}

/* ??$pow@M@std@@YA?AV?$complex@M@0@ABV10@ABM@Z */
/* ??$pow@M@std@@YA?AV?$complex@M@0@AEBV10@AEBM@Z */
complex_float* __cdecl complex_float_pow_cf(complex_float *ret, const complex_float *l, const float *r)
{
    complex_float c = { *r, 0 };
    return complex_float_pow(ret, l, &c);
}

/*  ??$pow@M@std@@YA?AV?$complex@M@0@ABV10@H@Z  */
/*  ??$pow@M@std@@YA?AV?$complex@M@0@AEBV10@H@Z */
complex_float* __cdecl complex_float_pow_ci(complex_float *ret, const complex_float *l, int r)
{
    complex_float c = *l;
    complex_float unit_value = { 1.0, 0 };
    complex_float_assign(ret, &unit_value);

    if(r < 0) {
        r = -r;
        complex_float_div(&c, &unit_value, l);
    }

    for(; r>0; r>>=1) {
        if(r & 1)
            complex_float_mult_assign(ret, &c);
        if(r != 1)
            complex_float_mult_assign(&c, &c);
    }

    return ret;
}

/* ??$sqrt@M@std@@YA?AV?$complex@M@0@ABV10@@Z */
/* ??$sqrt@M@std@@YA?AV?$complex@M@0@AEBV10@@Z */
complex_float* __cdecl complex_float_sqrt(complex_float *ret, const complex_float *l)
{
    complex_float c = { 0.5, 0 };
    return complex_float_pow(ret, l, &c);
}

/* ??0?$_Complex_base@NU_C_double_complex@@@std@@QAE@ABN0@Z */
/* ??0?$_Complex_base@NU_C_double_complex@@@std@@QEAA@AEBN0@Z */
/* ??0?$_Complex_base@OU_C_ldouble_complex@@@std@@QAE@ABO0@Z */
/* ??0?$_Complex_base@OU_C_ldouble_complex@@@std@@QEAA@AEBO0@Z */
/* ??0?$complex@N@std@@QAE@ABN0@Z */
/* ??0?$complex@N@std@@QEAA@AEBN0@Z */
/* ??0?$complex@O@std@@QAE@ABO0@Z */
/* ??0?$complex@O@std@@QEAA@AEBO0@Z */
DEFINE_THISCALL_WRAPPER(complex_double_ctor, 12)
complex_double* __thiscall complex_double_ctor(complex_double *this, const double *real, const double *imag)
{
    this->real = *real;
    this->imag = *imag;
    return this;
}

/* ??0?$complex@N@std@@QAE@ABU_C_double_complex@@@Z */
/* ??0?$complex@N@std@@QEAA@AEBU_C_double_complex@@@Z */
/* ??0?$complex@N@std@@QAE@ABU_C_ldouble_complex@@@Z */
/* ??0?$complex@N@std@@QEAA@AEBU_C_ldouble_complex@@@Z */
/* ??0?$complex@N@std@@QAE@ABV?$complex@O@1@@Z */
/* ??0?$complex@N@std@@QEAA@AEBV?$complex@O@1@@Z */
/* ??0?$complex@O@std@@QAE@ABU_C_ldouble_complex@@@Z */
/* ??0?$complex@O@std@@QEAA@AEBU_C_ldouble_complex@@@Z */
/* ??0?$complex@O@std@@QAE@ABV?$complex@N@1@@Z */
/* ??0?$complex@O@std@@QEAA@AEBV?$complex@N@1@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_ctor_double, 8)
complex_double* __thiscall complex_double_ctor_double(complex_double *this, const complex_double *c)
{
    this->real = c->real;
    this->imag = c->imag;
    return this;
}

/* ??0?$complex@N@std@@QAE@ABV?$complex@M@1@@Z */
/* ??0?$complex@N@std@@QEAA@AEBV?$complex@M@1@@Z */
/* ??0?$complex@O@std@@QAE@ABV?$complex@M@1@@Z */
/* ??0?$complex@O@std@@QEAA@AEBV?$complex@M@1@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_ctor_float, 8)
complex_double* __thiscall complex_double_ctor_float(complex_double *this, const complex_float *c)
{
    this->real = c->real;
    this->imag = c->imag;
    return this;
}

/* ??_F?$complex@N@std@@QAEXXZ */
/* ??_F?$complex@N@std@@QEAAXXZ */
/* ??_F?$complex@O@std@@QAEXXZ */
/* ??_F?$complex@O@std@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(complex_double_ctor_def, 4)
complex_double* __thiscall complex_double_ctor_def(complex_double *this)
{
    this->real = this->imag = 0;
    return this;
}

/* ??$?8N@std@@YA_NABNABV?$complex@N@0@@Z */
/* ??$?8N@std@@YA_NAEBNAEBV?$complex@N@0@@Z */
/* ??$?8O@std@@YA_NABOABV?$complex@O@0@@Z */
/* ??$?8O@std@@YA_NAEBOAEBV?$complex@O@0@@Z */
MSVCP_bool __cdecl complex_double_equal_dc(const double *l, const complex_double *r)
{
    return *l==r->real && r->imag==0;
}

/* ??$?8N@std@@YA_NABV?$complex@N@0@0@Z */
/* ??$?8N@std@@YA_NAEBV?$complex@N@0@0@Z */
/* ??$?8O@std@@YA_NABV?$complex@O@0@0@Z */
/* ??$?8O@std@@YA_NAEBV?$complex@O@0@0@Z */
MSVCP_bool __cdecl complex_double_equal(const complex_double *l, const complex_double *r)
{
    return l->real==r->real && l->imag==r->imag;
}

/* ??$?8N@std@@YA_NABV?$complex@N@0@ABN@Z */
/* ??$?8N@std@@YA_NAEBV?$complex@N@0@AEBN@Z */
/* ??$?8O@std@@YA_NABV?$complex@O@0@ABO@Z */
/* ??$?8O@std@@YA_NAEBV?$complex@O@0@AEBO@Z */
MSVCP_bool __cdecl complex_double_equal_cd(const complex_double *l, double *r)
{
    return l->real==*r && l->imag==0;
}

/* ??$?9N@std@@YA_NABNABV?$complex@N@0@@Z */
/* ??$?9N@std@@YA_NAEBNAEBV?$complex@N@0@@Z */
/* ??$?9O@std@@YA_NABOABV?$complex@O@0@@Z */
/* ??$?9O@std@@YA_NAEBOAEBV?$complex@O@0@@Z */
MSVCP_bool __cdecl complex_double_not_equal_dc(const double *l, const complex_double *r)
{
    return !complex_double_equal_dc(l, r);
}

/* ??$?9N@std@@YA_NABV?$complex@N@0@0@Z */
/* ??$?9N@std@@YA_NAEBV?$complex@N@0@0@Z */
/* ??$?9O@std@@YA_NABV?$complex@O@0@0@Z */
/* ??$?9O@std@@YA_NAEBV?$complex@O@0@0@Z */
MSVCP_bool __cdecl complex_double_not_equal(const complex_double *l, const complex_double *r)
{
    return !complex_double_equal(l, r);
}

/* ??$?9N@std@@YA_NABV?$complex@N@0@ABN@Z */
/* ??$?9N@std@@YA_NAEBV?$complex@N@0@AEBN@Z */
/* ??$?9O@std@@YA_NABV?$complex@O@0@ABO@Z */
/* ??$?9O@std@@YA_NAEBV?$complex@O@0@AEBO@Z */
MSVCP_bool __cdecl complex_double_not_equal_cd(const complex_double *l, double *r)
{
    return !complex_double_equal_cd(l, r);
}

/* ??$?DN@std@@YA?AV?$complex@N@0@ABNABV10@@Z */
/* ??$?DN@std@@YA?AV?$complex@N@0@AEBNAEBV10@@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@ABOABV10@@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@AEBOAEBV10@@Z */
complex_double* __cdecl complex_double_mult_dc(complex_double *ret, const double *l, const complex_double *r)
{
    ret->real = *l * r->real;
    ret->imag = *l * r->imag;
    return ret;
}

/* ??$?DN@std@@YA?AV?$complex@N@0@ABV10@0@Z */
/* ??$?DN@std@@YA?AV?$complex@N@0@AEBV10@0@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@ABV10@0@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@AEBV10@0@Z */
complex_double* __cdecl complex_double_mult(complex_double *ret, const complex_double *l, const complex_double *r)
{
    ret->real = l->real*r->real - l->imag*r->imag;
    ret->imag = l->imag*r->real + l->real*r->imag;
    return ret;
}

/* ??$?DN@std@@YA?AV?$complex@N@0@ABV10@ABN@Z */
/* ??$?DN@std@@YA?AV?$complex@N@0@AEBV10@AEBN@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@ABV10@ABO@Z */
/* ??$?DO@std@@YA?AV?$complex@O@0@AEBV10@AEBO@Z */
complex_double* __cdecl complex_double_mult_cd(complex_double *ret, const complex_double *l, double *r)
{
    ret->real = l->real * *r;
    ret->imag = l->imag * *r;
    return ret;
}

/* ??$?GN@std@@YA?AV?$complex@N@0@ABNABV10@@Z */
/* ??$?GN@std@@YA?AV?$complex@N@0@AEBNAEBV10@@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@ABOABV10@@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@AEBOAEBV10@@Z */
complex_double* __cdecl complex_double_sub_dc(complex_double *ret, const double *l, const complex_double *r)
{
    ret->real = *l - r->real;
    ret->imag = -r->imag;
    return ret;
}

/* ??$?GN@std@@YA?AV?$complex@N@0@ABV10@0@Z */
/* ??$?GN@std@@YA?AV?$complex@N@0@AEBV10@0@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@ABV10@0@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@AEBV10@0@Z */
complex_double* __cdecl complex_double_sub(complex_double *ret, const complex_double *l, const complex_double *r)
{
    ret->real = l->real - r->real;
    ret->imag = l->imag - r->imag;
    return ret;
}

/* ??$?GN@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$?GN@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_neg(complex_double *ret, const complex_double *c)
{
    ret->real = -c->real;
    ret->imag = -c->imag;
    return ret;
}

/* ??$?GN@std@@YA?AV?$complex@N@0@ABV10@ABN@Z */
/* ??$?GN@std@@YA?AV?$complex@N@0@AEBV10@AEBN@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@ABV10@ABO@Z */
/* ??$?GO@std@@YA?AV?$complex@O@0@AEBV10@AEBO@Z */
complex_double* __cdecl complex_double_sub_cd(complex_double *ret, const complex_double *l, double *r)
{
    ret->real = l->real - *r;
    ret->imag = l->imag;
    return ret;
}

/* ??$?HN@std@@YA?AV?$complex@N@0@ABNABV10@@Z */
/* ??$?HN@std@@YA?AV?$complex@N@0@AEBNAEBV10@@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@ABOABV10@@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@AEBOAEBV10@@Z */
complex_double* __cdecl complex_double_add_dc(complex_double *ret, const double *l, const complex_double *r)
{
    ret->real = *l + r->real;
    ret->imag = r->imag;
    return ret;
}

/* ??$?HN@std@@YA?AV?$complex@N@0@ABV10@0@Z */
/* ??$?HN@std@@YA?AV?$complex@N@0@AEBV10@0@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@ABV10@0@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@AEBV10@0@Z */
complex_double* __cdecl complex_double_add(complex_double *ret, const complex_double *l, const complex_double *r)
{
    ret->real = l->real + r->real;
    ret->imag = l->imag + r->imag;
    return ret;
}

/* ??$?HN@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$?HN@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_plus(complex_double *ret, const complex_double *c)
{
    *ret = *c;
    return ret;
}

/* ??$?HN@std@@YA?AV?$complex@N@0@ABV10@ABN@Z */
/* ??$?HN@std@@YA?AV?$complex@N@0@AEBV10@AEBN@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@ABV10@ABO@Z */
/* ??$?HO@std@@YA?AV?$complex@O@0@AEBV10@AEBO@Z */
complex_double* __cdecl complex_double_add_cd(complex_double *ret, const complex_double *l, double *r)
{
    ret->real = l->real + *r;
    ret->imag = l->imag;
    return ret;
}

/* ??$?KN@std@@YA?AV?$complex@N@0@ABV10@0@Z */
/* ??$?KN@std@@YA?AV?$complex@N@0@AEBV10@0@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@ABV10@0@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@AEBV10@0@Z */
complex_double* __cdecl complex_double_div(complex_double *ret, const complex_double *l, const complex_double *r)
{
    double tmp, den;
    if((!r->real && !r->imag) || _isnan(l->real) || _isnan(l->imag)
            || _isnan(r->real) || _isnan(r->imag)) {
        ret->real = std_numeric_limits_double_quiet_NaN();
        ret->imag = ret->real;
        return ret;
    }

    if (fabs(r->real) >= fabs(r->imag)) {
        tmp = r->imag / r->real;
        den = r->real + r->imag*tmp;
        ret->real = (l->real + l->imag*tmp) / den;
        ret->imag = (l->imag - l->real*tmp) / den;
    } else {
        tmp = r->real / r->imag;
        den = r->real*tmp + r->imag;
        ret->real = (l->real*tmp + l->imag) / den;
        ret->imag = (l->imag*tmp - l->real) / den;
    }
    return ret;
}

/* ??$?KN@std@@YA?AV?$complex@N@0@ABNABV10@@Z */
/* ??$?KN@std@@YA?AV?$complex@N@0@AEBNAEBV10@@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@ABOABV10@@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@AEBOAEBV10@@Z */
complex_double* __cdecl complex_double_div_dc(complex_double *ret, const double *l, const complex_double *r)
{
    complex_double c = {*l, 0};
    return complex_double_div(ret, &c, r);
}

/* ??$?KN@std@@YA?AV?$complex@N@0@ABV10@ABN@Z */
/* ??$?KN@std@@YA?AV?$complex@N@0@AEBV10@AEBN@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@ABV10@ABO@Z */
/* ??$?KO@std@@YA?AV?$complex@O@0@AEBV10@AEBO@Z */
complex_double* __cdecl complex_double_div_cd(complex_double *ret, const complex_double *l, double *r)
{
    ret->real = l->real / *r;
    ret->imag = l->imag / *r;
    return ret;
}

/* ??4?$_Complex_base@NU_C_double_complex@@@std@@QAEAAV01@ABV01@@Z */
/* ??4?$_Complex_base@NU_C_double_complex@@@std@@QEAAAEAV01@AEBV01@@Z */
/* ??4?$_Complex_base@OU_C_ldouble_complex@@@std@@QAEAAV01@ABV01@@Z */
/* ??4?$_Complex_base@OU_C_ldouble_complex@@@std@@QEAAAEAV01@AEBV01@@Z */
/* ??4?$complex@N@std@@QAEAAV01@ABV01@@Z */
/* ??4?$complex@N@std@@QEAAAEAV01@AEBV01@@Z */
/* ??4?$complex@O@std@@QAEAAV01@ABV01@@Z */
/* ??4?$complex@O@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_assign, 8)
complex_double* __thiscall complex_double_assign(complex_double *this, const complex_double *r)
{
    *this = *r;
    return this;
}

/* ??4?$complex@N@std@@QAEAAV01@ABN@Z */
/* ??4?$complex@N@std@@QEAAAEAV01@AEBN@Z */
/* ??4?$complex@O@std@@QAEAAV01@ABO@Z */
/* ??4?$complex@O@std@@QEAAAEAV01@AEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_assign_double, 8)
complex_double* __thiscall complex_double_assign_double(complex_double *this, double *r)
{
    this->real = *r;
    this->imag = 0;
    return this;
}

/* ??X?$complex@N@std@@QAEAAV01@ABN@Z */
/* ??X?$complex@N@std@@QEAAAEAV01@AEBN@Z */
/* ??X?$complex@O@std@@QAEAAV01@ABO@Z */
/* ??X?$complex@O@std@@QEAAAEAV01@AEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_mult_assign_double, 8)
complex_double* __thiscall complex_double_mult_assign_double(complex_double *this, const double *r)
{
    this->real *= *r;
    this->imag *= *r;
    return this;
}

/* ??X?$complex@N@std@@QAEAAV01@ABV01@@Z */
/* ??X?$complex@N@std@@QEAAAEAV01@AEBV01@@Z */
/* ??X?$complex@O@std@@QAEAAV01@ABV01@@Z */
/* ??X?$complex@O@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_mult_assign, 8)
complex_double* __thiscall complex_double_mult_assign(complex_double *this, const complex_double *r)
{
    complex_double tmp;

    tmp.real = this->real*r->real - this->imag*r->imag;
    tmp.imag = this->real*r->imag + this->imag*r->real;
    *this = tmp;
    return this;
}

/* ??Y?$complex@N@std@@QAEAAV01@ABN@Z */
/* ??Y?$complex@N@std@@QEAAAEAV01@AEBN@Z */
/* ??Y?$complex@O@std@@QAEAAV01@ABO@Z */
/* ??Y?$complex@O@std@@QEAAAEAV01@AEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_add_assign_double, 8)
complex_double* __thiscall complex_double_add_assign_double(complex_double *this, const double *r)
{
    this->real += *r;
    return this;
}

/* ??Y?$complex@N@std@@QAEAAV01@ABV01@@Z */
/* ??Y?$complex@N@std@@QEAAAEAV01@AEBV01@@Z */
/* ??Y?$complex@O@std@@QAEAAV01@ABV01@@Z */
/* ??Y?$complex@O@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_add_assign, 8)
complex_double* __thiscall complex_double_add_assign(complex_double *this, const complex_double *r)
{
    this->real += r->real;
    this->imag += r->imag;
    return this;
}

/* ??Z?$complex@N@std@@QAEAAV01@ABN@Z */
/* ??Z?$complex@N@std@@QEAAAEAV01@AEBN@Z */
/* ??Z?$complex@O@std@@QAEAAV01@ABO@Z */
/* ??Z?$complex@O@std@@QEAAAEAV01@AEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_sub_assign_double, 8)
complex_double* __thiscall complex_double_sub_assign_double(complex_double *this, const double *r)
{
    this->real -= *r;
    return this;
}

/* ??Z?$complex@N@std@@QAEAAV01@ABV01@@Z */
/* ??Z?$complex@N@std@@QEAAAEAV01@AEBV01@@Z */
/* ??Z?$complex@O@std@@QAEAAV01@ABV01@@Z */
/* ??Z?$complex@O@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_sub_assign, 8)
complex_double* __thiscall complex_double_sub_assign(complex_double *this, const complex_double *r)
{
    this->real -= r->real;
    this->imag -= r->imag;
    return this;
}

/* ??_0?$complex@N@std@@QAEAAV01@ABN@Z */
/* ??_0?$complex@N@std@@QEAAAEAV01@AEBN@Z */
/* ??_0?$complex@O@std@@QAEAAV01@ABO@Z */
/* ??_0?$complex@O@std@@QEAAAEAV01@AEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_div_assign_double, 8)
complex_double* __thiscall complex_double_div_assign_double(complex_double *this, const double *r)
{
    this->real /= *r;
    this->imag /= *r;
    return this;
}

/* ??_0?$complex@N@std@@QAEAAV01@ABV01@@Z */
/* ??_0?$complex@N@std@@QEAAAEAV01@AEBV01@@Z */
/* ??_0?$complex@O@std@@QAEAAV01@ABV01@@Z */
/* ??_0?$complex@O@std@@QEAAAEAV01@AEBV01@@Z */
DEFINE_THISCALL_WRAPPER(complex_double_div_assign, 8)
complex_double* __thiscall complex_double_div_assign(complex_double *this, const complex_double *r)
{
    complex_double tmp = *this;
    return complex_double_div(this, &tmp, r);
}

/* ??$arg@N@std@@YANABV?$complex@N@0@@Z */
/* ??$arg@N@std@@YANAEBV?$complex@N@0@@Z */
/* ??$arg@O@std@@YAOABV?$complex@O@0@@Z */
/* ??$arg@O@std@@YAOAEBV?$complex@O@0@@Z */
double __cdecl complex_double_arg(const complex_double *c)
{
    return atan2(c->imag, c->real);
}

/* ??$imag@N@std@@YANABV?$complex@N@0@@Z */
/* ??$imag@N@std@@YANAEBV?$complex@N@0@@Z */
/* ??$imag@O@std@@YAOABV?$complex@O@0@@Z */
/* ??$imag@O@std@@YAOAEBV?$complex@O@0@@Z */
double __cdecl complex_double_imag(const complex_double *c)
{
    return c->imag;
}

/* ?imag@?$_Complex_base@NU_C_double_complex@@@std@@QAENABN@Z */
/* ?imag@?$_Complex_base@NU_C_double_complex@@@std@@QEAANAEBN@Z */
/* ?imag@?$_Complex_base@OU_C_ldouble_complex@@@std@@QAEOABO@Z */
/* ?imag@?$_Complex_base@OU_C_ldouble_complex@@@std@@QEAAOAEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_imag_set, 8)
double __thiscall complex_double_imag_set(complex_double *this, const double *d)
{
    return (this->imag = *d);
}

/* ?imag@?$_Complex_base@NU_C_double_complex@@@std@@QBENXZ */
/* ?imag@?$_Complex_base@NU_C_double_complex@@@std@@QEBANXZ */
/* ?imag@?$_Complex_base@OU_C_ldouble_complex@@@std@@QBEOXZ */
/* ?imag@?$_Complex_base@OU_C_ldouble_complex@@@std@@QEBAOXZ */
DEFINE_THISCALL_WRAPPER(complex_double_imag_get, 4)
double __thiscall complex_double_imag_get(const complex_double *this)
{
    return this->imag;
}

/* ??$real@N@std@@YANABV?$complex@N@0@@Z */
/* ??$real@N@std@@YANAEBV?$complex@N@0@@Z */
/* ??$real@O@std@@YAOABV?$complex@O@0@@Z */
/* ??$real@O@std@@YAOAEBV?$complex@O@0@@Z */
double __cdecl complex_double_real(const complex_double *c)
{
    return c->real;
}

/* ?real@?$_Complex_base@NU_C_double_complex@@@std@@QAENABN@Z */
/* ?real@?$_Complex_base@NU_C_double_complex@@@std@@QEAANAEBN@Z */
/* ?real@?$_Complex_base@OU_C_ldouble_complex@@@std@@QAEOABO@Z */
/* ?real@?$_Complex_base@OU_C_ldouble_complex@@@std@@QEAAOAEBO@Z */
DEFINE_THISCALL_WRAPPER(complex_double_real_set, 8)
double __thiscall complex_double_real_set(complex_double *this, const double *d)
{
    return (this->real = *d);
}

/* ?real@?$_Complex_base@NU_C_double_complex@@@std@@QBENXZ */
/* ?real@?$_Complex_base@NU_C_double_complex@@@std@@QEBANXZ */
/* ?real@?$_Complex_base@OU_C_ldouble_complex@@@std@@QBEOXZ */
/* ?real@?$_Complex_base@OU_C_ldouble_complex@@@std@@QEBAOXZ */
DEFINE_THISCALL_WRAPPER(complex_double_real_get, 4)
double __thiscall complex_double_real_get(const complex_double *this)
{
    return this->real;
}

/* ??$_Fabs@N@std@@YANABV?$complex@N@0@PAH@Z */
/* ??$_Fabs@N@std@@YANAEBV?$complex@N@0@PEAH@Z */
/* ??$_Fabs@O@std@@YAOABV?$complex@O@0@PAH@Z */
/* ??$_Fabs@O@std@@YAOAEBV?$complex@O@0@PEAH@Z */
double __cdecl complex_double__Fabs(const complex_double *c, int *scale)
{
    double ret;

    ret = hypot(c->real, c->imag);
    if(_isnan(ret) || ret==0) {
        *scale = 0;
    }else if(ret >= 1) {
        *scale = 2;
        ret /= 4;
    }else {
        *scale = -2;
        ret *= 4;
    }

    return ret;
}

/* ??$abs@N@std@@YANABV?$complex@N@0@@Z */
/* ??$abs@N@std@@YANAEBV?$complex@N@0@@Z */
/* ??$abs@O@std@@YAOABV?$complex@O@0@@Z */
/* ??$abs@O@std@@YAOAEBV?$complex@O@0@@Z */
double __cdecl complex_double_abs(const complex_double *c)
{
    return hypot(c->real, c->imag);
}

/* ??$conj@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$conj@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$conj@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$conj@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_conj(complex_double *ret, const complex_double *c)
{
    ret->real = c->real;
    ret->imag = -c->imag;
    return ret;
}

/* ??$cos@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$cos@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$cos@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$cos@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_cos(complex_double *ret, const complex_double *c)
{
    ret->real = cos(c->real)*cosh(c->imag);
    ret->imag = -sin(c->real)*sinh(c->imag);
    return ret;
}

/* ??$sin@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$sin@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$sin@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$sin@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_sin(complex_double *ret, const complex_double *c)
{
    ret->real = sin(c->real)*cosh(c->imag);
    ret->imag = cos(c->real)*sinh(c->imag);
    return ret;
}

/* ??$tan@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$tan@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$tan@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$tan@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_tan(complex_double *ret, const complex_double *c)
{
    double denom = cos(2*c->real) + cosh(2*c->imag);
    ret->real = sin(2*c->real) / denom;
    ret->imag = sinh(2*c->imag) / denom;
    return ret;
}

/* ??$cosh@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$cosh@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$cosh@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$cosh@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_cosh(complex_double *ret, const complex_double *c)
{
    ret->real = cosh(c->real)*cos(c->imag);
    ret->imag = sinh(c->real)*sin(c->imag);
    return ret;
}

/* ??$sinh@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$sinh@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$sinh@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$sinh@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_sinh(complex_double *ret, const complex_double *c)
{
    ret->real = sinh(c->real)*cos(c->imag);
    ret->imag = cosh(c->real)*sin(c->imag);
    return ret;
}

/* ??$tanh@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$tanh@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$tanh@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$tanh@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_tanh(complex_double *ret, const complex_double *c)
{
    complex_double tmp;

    ret->real = -c->imag;
    ret->imag = c->real;
    complex_double_tan(&tmp, ret);
    ret->real = tmp.imag;
    ret->imag = -tmp.real;
    return ret;
}

/* ??$exp@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$exp@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$exp@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$exp@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_exp(complex_double *ret, const complex_double *c)
{
    ret->real = ret->imag = exp(c->real);
    ret->real *= cos(c->imag);
    ret->imag *= sin(c->imag);
    return ret;
}

/* ??$log@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$log@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$log@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$log@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_log(complex_double *ret, const complex_double *c)
{
    ret->real = log(complex_double_abs(c));
    ret->imag = complex_double_arg(c);
    return ret;
}

/* ??$log10@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$log10@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$log10@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$log10@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_log10(complex_double *ret, const complex_double *c)
{
    complex_double_log(ret, c);
    ret->real *= M_LOG10E;
    ret->imag *= M_LOG10E;
    return ret;
}

/* ??$norm@N@std@@YANABV?$complex@N@0@@Z */
/* ??$norm@N@std@@YANAEBV?$complex@N@0@@Z */
/* ??$norm@O@std@@YAOABV?$complex@O@0@@Z */
/* ??$norm@O@std@@YAOAEBV?$complex@O@0@@Z */
double __cdecl complex_double_norm(const complex_double *c)
{
    return c->real*c->real + c->imag*c->imag;
}

/* ??$polar@N@std@@YA?AV?$complex@N@0@ABN0@Z */
/* ??$polar@N@std@@YA?AV?$complex@N@0@AEBN0@Z */
/* ??$polar@O@std@@YA?AV?$complex@O@0@ABO0@Z */
/* ??$polar@O@std@@YA?AV?$complex@O@0@AEBO0@Z */
complex_double* __cdecl complex_double_polar_theta(complex_double *ret, const double *mod, const double *theta)
{
    ret->real = *mod * cos(*theta);
    ret->imag = *mod * sin(*theta);
    return ret;
}

/* ??$polar@N@std@@YA?AV?$complex@N@0@ABN@Z */
/* ??$polar@N@std@@YA?AV?$complex@N@0@AEBN@Z */
/* ??$polar@O@std@@YA?AV?$complex@O@0@ABO@Z */
/* ??$polar@O@std@@YA?AV?$complex@O@0@AEBO@Z */
complex_double* __cdecl complex_double_polar(complex_double *ret, const double *mod)
{
    ret->real = *mod;
    ret->imag = 0;
    return ret;
}

/* ??$pow@N@std@@YA?AV?$complex@N@0@ABV10@0@Z */
/* ??$pow@N@std@@YA?AV?$complex@N@0@AEBV10@0@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@ABV10@0@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@AEBV10@0@Z */
complex_double* __cdecl complex_double_pow(complex_double *ret, const complex_double *l, const complex_double *r)
{
    double abs = complex_double_abs(l), arg = complex_double_arg(l);
    double rad = pow(abs, r->real), theta = r->real*arg;

    if(r->imag) {
        rad *= exp(-r->imag * arg);
        theta += r->imag * log(abs);
    }

    ret->real = rad * cos(theta);
    ret->imag = rad * sin(theta);
    return ret;
}

/* ??$pow@N@std@@YA?AV?$complex@N@0@ABNABV10@@Z */
/* ??$pow@N@std@@YA?AV?$complex@N@0@AEBNAEBV10@@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@ABOABV10@@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@AEBOAEBV10@@Z */
complex_double* __cdecl complex_double_pow_dc(complex_double *ret, const double *l, const complex_double *r)
{
    complex_double c = { *l, 0 };
    return complex_double_pow(ret, &c, r);
}

/* ??$pow@N@std@@YA?AV?$complex@N@0@ABV10@ABN@Z */
/* ??$pow@N@std@@YA?AV?$complex@N@0@AEBV10@AEBN@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@ABV10@ABO@Z */
/* ??$pow@O@std@@YA?AV?$complex@O@0@AEBV10@AEBO@Z */
complex_double* __cdecl complex_double_pow_cd(complex_double *ret, const complex_double *l, const double *r)
{
    complex_double c = { *r, 0 };
    return complex_double_pow(ret, l, &c);
}

/*  ??$pow@N@std@@YA?AV?$complex@N@0@ABV10@H@Z  */
/*  ??$pow@N@std@@YA?AV?$complex@N@0@AEBV10@H@Z */
/*  ??$pow@O@std@@YA?AV?$complex@O@0@ABV10@H@Z  */
/*  ??$pow@O@std@@YA?AV?$complex@O@0@AEBV10@H@Z */
complex_double* __cdecl complex_double_pow_ci(complex_double *ret, const complex_double *l, int r)
{
    complex_double c = *l;
    complex_double unit_value = { 1.0, 0 };
    complex_double_assign(ret, &unit_value);

    if(r < 0) {
        r = -r;
        complex_double_div(&c, &unit_value, l);
    }

    for(; r>0; r>>=1) {
        if(r & 1)
            complex_double_mult_assign(ret, &c);
        if(r != 1)
            complex_double_mult_assign(&c, &c);
    }

    return ret;
}

/* ??$sqrt@N@std@@YA?AV?$complex@N@0@ABV10@@Z */
/* ??$sqrt@N@std@@YA?AV?$complex@N@0@AEBV10@@Z */
/* ??$sqrt@O@std@@YA?AV?$complex@O@0@ABV10@@Z */
/* ??$sqrt@O@std@@YA?AV?$complex@O@0@AEBV10@@Z */
complex_double* __cdecl complex_double_sqrt(complex_double *ret, const complex_double *l)
{
    complex_double c = { 0.5, 0 };
    return complex_double_pow(ret, l, &c);
}

static short dclass(double x)
{
    switch(_fpclass(x)) {
    case _FPCLASS_SNAN:
    case _FPCLASS_QNAN:
        return FP_NAN;
    case _FPCLASS_NINF:
    case _FPCLASS_PINF:
        return FP_INFINITE;
    case _FPCLASS_ND:
    case _FPCLASS_PD:
        return FP_SUBNORMAL;
    case _FPCLASS_NN:
    case _FPCLASS_PN:
    default:
        return FP_NORMAL;
    case _FPCLASS_NZ:
    case _FPCLASS_PZ:
        return FP_ZERO;
    }
}

/* _Dtest */
short __cdecl _Dtest(double *x)
{
    return dclass(*x);
}

/* _FDtest */
short __cdecl _FDtest(float *x)
{
    return dclass(*x);
}

/* _Dscale */
short __cdecl _Dscale(double *x, int exp)
{
    *x *= pow(2, exp);
    return dclass(*x);
}

/* _FDscale */
short __cdecl _FDscale(float *x, int exp)
{
    *x *= pow(2, exp);
    return dclass(*x);
}

/* _Exp */
/* computes y * e^(*x) * 2^scale */
short __cdecl _Exp(double *x, double y, int scale)
{
    double ed;
    int e;

    if(y == 0) {
        *x = 0;
        return FP_ZERO;
    }

    *x /= M_LN2;
    ed = floor(*x);
    *x -= ed;
    e = ed;

    if(ed!=e && ed>0)
        scale = INT_MAX;
    else if(ed!=e && ed<0)
        scale = INT_MIN;
    else if(scale>0 && e>0 && scale+e<=0)
        scale = INT_MAX;
    else if(scale<0 && e<0 && scale+e>=0)
        scale = INT_MIN;
    else
        scale += e;

    *x = y * pow(2.0, *x);
    return _Dscale(x, scale);
}

/* _FExp */
short __cdecl _FExp(float *x, float y, short scale)
{
    double d = *x;
    _Exp(&d, y, scale);
    *x = d;

    return dclass(*x);
}

/* ?_XLgamma@std@@YANN@Z */
double __cdecl std__XLgamma_double(double z)
{
    /* Lanczos coefficients g=5, n=6 */
    static const double lc[] = {
        1.000000000190015,
        76.18009172947146,
        -86.50532032941677,
        24.01409824083091,
        -1.231739572450155,
        0.1208650973866179e-2,
        -0.5395239384953e-5
    };
    static const double log_sqrt_2pi = 0.91893853320467274178;

    double base = z + 4.5, sum = 0;
    int i;

    if (z < 0.5) return log(M_PI / sin(M_PI * z)) - std__XLgamma_double(1 - z);

    z--;
    for(i = ARRAY_SIZE(lc) - 1; i >= 1; i--)
        sum += lc[i] / (z + i);
    sum += lc[0];
    return log_sqrt_2pi + log(sum) - base + log(base) * (z + 0.5);
}

/* ?_XLgamma@tr1@std@@YAMM@Z */
float __cdecl std__XLgamma_float(float z)
{
    return std__XLgamma_double(z);
}