#include "__cf_Mohamed_Alaswed_Buck.h"
#include "rtGetInf.h"
#define NumBitsPerChar                 8U
real_T rtGetInf ( void ) { size_t bitsPerReal = sizeof ( real_T ) * (
NumBitsPerChar ) ; real_T inf = 0.0 ; if ( bitsPerReal == 32U ) { inf =
rtGetInfF ( ) ; } else { uint16_T one = 1U ; enum { LittleEndian , BigEndian
} machByteOrder = ( * ( ( uint8_T * ) & one ) == 1U ) ? LittleEndian :
BigEndian ; switch ( machByteOrder ) { case LittleEndian : { union {
LittleEndianIEEEDouble bitVal ; real_T fltVal ; } tmpVal ; tmpVal . bitVal .
words . wordH = 0x7FF00000U ; tmpVal . bitVal . words . wordL = 0x00000000U ;
inf = tmpVal . fltVal ; break ; } case BigEndian : { union {
BigEndianIEEEDouble bitVal ; real_T fltVal ; } tmpVal ; tmpVal . bitVal .
words . wordH = 0x7FF00000U ; tmpVal . bitVal . words . wordL = 0x00000000U ;
inf = tmpVal . fltVal ; break ; } } } return inf ; } real32_T rtGetInfF (
void ) { IEEESingle infF ; infF . wordL . wordLuint = 0x7F800000U ; return
infF . wordL . wordLreal ; } real_T rtGetMinusInf ( void ) { size_t
bitsPerReal = sizeof ( real_T ) * ( NumBitsPerChar ) ; real_T minf = 0.0 ; if
( bitsPerReal == 32U ) { minf = rtGetMinusInfF ( ) ; } else { uint16_T one =
1U ; enum { LittleEndian , BigEndian } machByteOrder = ( * ( ( uint8_T * ) &
one ) == 1U ) ? LittleEndian : BigEndian ; switch ( machByteOrder ) { case
LittleEndian : { union { LittleEndianIEEEDouble bitVal ; real_T fltVal ; }
tmpVal ; tmpVal . bitVal . words . wordH = 0xFFF00000U ; tmpVal . bitVal .
words . wordL = 0x00000000U ; minf = tmpVal . fltVal ; break ; } case
BigEndian : { union { BigEndianIEEEDouble bitVal ; real_T fltVal ; } tmpVal ;
tmpVal . bitVal . words . wordH = 0xFFF00000U ; tmpVal . bitVal . words .
wordL = 0x00000000U ; minf = tmpVal . fltVal ; break ; } } } return minf ; }
real32_T rtGetMinusInfF ( void ) { IEEESingle minfF ; minfF . wordL .
wordLuint = 0xFF800000U ; return minfF . wordL . wordLreal ; }