# IEEE floating point representation

I have created following program to find the bit pattern of floating point no. but i got different then i calculated:

``````#include<stdio.h>

int main(void){
float f = 1.234;
char *ch;
ch = (char *)(&f);
printf("\n%d\n", *ch);
ch++;
printf("\n%d\n", *ch);
ch++;
printf("\n%d\n", *ch);
ch++;
printf("\n%d\n", *ch);

//  printf("%d %d %d %d", *ch, *(ch+1), *(ch+2), *(ch+3));
printf("\n%f %e", f, f);
return 0;
}
``````

It gives me output:

``````-74

-13

-99

63

1.234000 1.234000e+00
``````

What does it mean because i was expecting bit pattern as:

`00111111 10111011 11100111 0110110`

where i am wrong please correct me

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Why were you expecting that bit pattern? – David Heffernan May 19 '11 at 14:42

I'm not sure where you got that bit pattern from.

For IEEE-754, `1.234` is equivalent to an underlying representation of `0x3F9DF3B6` (see e.g. http://babbage.cs.qc.edu/IEEE-754/Decimal.html). So we have:

``````0x3F = 00111111 =  63
0x9D = 10011101 = -99 (as a signed char)
0xF3 = 11110011 = -13
0xB6 = 10110110 = -74
``````

Depending on your system endianness, you might find that these bytes come up in the other order.

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There is no binary `printf` format built into standard C. You'll need to write your own if that's the output format you want. You could get closer by using `%x` to see hexadecimal output; maybe that will get you what you need?

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OP also needs to use `unsigned char` rather than `char`. – R.. May 19 '11 at 14:57

The bit pattern that you expect is wrong, it should be:

``````{"00111111", "10011101", "11110011", "10110110"} = {63, -99, -13, -74}
``````

which produces exactly the numbers you got.

The sign, exponent and significant are: 0, 127, 1962934

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