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Can someone look over my program and tell me if i am doing it correctly?

I am accepting user input in the form of 8 hexadecimal digits. I want to interpret those 8 digits as an IEEE 754 32-bit floating point number and will print out information about that number.

here is my output:

IEEE 754 32-bit floating point

byte order: little-endian


signBit 0, expbits 255, fractbits 0x007FFFFF
normalized:   exp = 128


signBit 0, expbits 128, fractbits 0x00000000
normalized:   exp = 1


signBit 0, expbits 0, fractbits 0x00000000

here is the code..

#include <stdio.h>
#include <stdlib.h>

int main(int argc, char *argv[])

int HexNumber;
int tru_exp =0;
int stored_exp;
int negative;
int exponent;
int mantissa;

printf("IEEE 754 32-bit floating point");

int a = 0x12345678;
unsigned char *c = (unsigned char*)(&a);
if (*c == 0x78)
    printf("\nbyte order: little-endian\n");
    printf("\nbyte order: big-endian\n");


scanf("%x", &HexNumber);


negative = !!(HexNumber & 0x80000000);
exponent = (HexNumber & 0x7f800000) >> 23;
mantissa = (HexNumber & 0x007FFFFF);

printf("\nsignBit %d, ", negative);
printf("expbits %d, ", exponent);
printf("fractbits 0x%08X", mantissa);
//  "%#010x, ", mantissa);

if(exponent == 0)
    if(mantissa != 0)
        printf("\ndenormalized  ");
    printf("\nnormalized:   ");
    tru_exp = exponent - 127;
    printf("exp = %d", tru_exp);

if(exponent == 0 && mantissa == 0 && negative == 1)



if(exponent ==0 && mantissa == 0 && negative == 0)

if(exponent == 255 && mantissa != 0 && negative == 1)



   if(exponent == 255 && mantissa != 0 && negative == 0)



if(exponent == 0xff && mantissa == 0 && negative == 1)

if(exponent == 0xff && mantissa == 0 && negative == 0)

}while(HexNumber != 0);

return 0;

I dont think the de normalized is right?

share|improve this question
Indentation is your friend... – AJ. Jan 30 '10 at 19:55
FYI this site is super-useful: – Adam Rosenfield Mar 9 '11 at 3:07

1 Answer 1

up vote 5 down vote accepted

Generally, you're pretty close. Some comments:

  • 0x7fffffff is a quiet NaN, not a signaling NaN. The signbit does not determine whether or not a NaN is quiet; rather it is the leading bit of the significand (the preferred term for what you call "mantissa") field. 0xffbfffff is a signaling NaN, for example.

Edit: interjay correctly points out that this encoding isn't actually required by IEEE-754; a platform is free to use a different encoding for differentiating quiet and signaling NaNs. However, it is recommended by the standard:

A quiet NaN bit string should be encoded with the first bit of the trailing significand field T being 1. A signaling NaN bit string should be encoded with the first bit of the trailing significand field being 0.

  • Infinities and NaNs usually aren't called "normal numbers" in the IEEE-754 terminology.

  • Your condition for calling a number "denormal" is correct.

  • For normal numbers, it would be nice to add the implicit leading bit when you report the significand. I personally would probably print them out in the C99 hex notation: 0x40000000 has a significand (once you add the implicit bit) of 0x800000 and an exponent of 1, so becomes 0x1.000000p1.

  • I'm sure some aging PDP-11 hacker will give you a hard time about "big endian" and "little endian" not being the only two possibilities.

Edit Ok, example of checking for qNaN on platforms that use IEEE-754's recommended encoding:

if (exponent == 0xff && mantissa & 0x00400000) printf("\nqNaN");
share|improve this answer
+1. Worth a mention that distinguishing qNan/sNan based on the first bit of the significand is correct for Intel and AMD processors, but may be different on other systems since it isn't specified in the standard. – interjay Jan 30 '10 at 20:12
@interjay: Thanks for catching that! – Stephen Canon Jan 30 '10 at 20:19
What is wrong with my SNaN and QNaN? and how can i fix it? – Steller Jan 30 '10 at 21:05
On most (not all) modern hardware, a NaN is quiet if and only if the 0x00400000 bit is set, and signaling if it is clear. You're using the signbit (0x80000000) to do your check, which doesn't do the right thing. (Note that the distinction between quiet and signaling NaNs is not actually pinned down by the standard) – Stephen Canon Jan 30 '10 at 21:23
What is the condition for checking between them then? I dont understand what you meant by: "0x00400000 bit is set" I need some type of condition like: if(exponent == 0 && mantissa == 0 && negative == 1) – Steller Jan 30 '10 at 21:27

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