void main()
{
char buffer[40];
float x=1.2f,y=.2f;
printf("%f",(x/y));
printf( "\n%s\n", gcvt( x/y, 30, buffer ) );
}
The second printf gives result as 6.0000001490116102.I expected the answer to be 6.0000...full zeros.
The second printf gives result as 6.0000001490116102.I expected the answer to be 6.0000...full zeros. 


As with all floating point questions, some numbers can not be represented exactly. Get used to that, it's a fact of life :) With a 32bit floating point value (for example), there are about four billion numbers that can be represented exactly. Unfortunately, in mathematics, even between One thing you may find helpful is to use doubles instead of floats  they have more bits in them so can represent more exact numbers. Beyond that, there are arbitrary precision libraries you can use if you want even more precision. If you change your code to (including a decent
you'll see this in action:
You can see that the doubles are much closer to your desired value, but they're still not exact. IEEE754 doubles have about 16 digits of precision (single precision floats have about 7). 


As paxdiabolo suggest, have a look into floating point computation to learn about what is going on. But also, my
So just don't use it. 

