# Floating point errors in C++

I need to have some float divisions that must be accurate like double version of them. I can change divided value - it represents a mapping and I can offset it - to correct eventual floating point errors.

To correct the errors, I use fallowing code:

``````do
{
float fValue = float(x) / 1024.f;
double oldFValue = fValue;
double dValue = double(x) / 1024.0;
if(oldFValue != dValue)
{
x += 1;
}
else
{
break;
}
}while(1);
``````

With this code, for

``````x = 11
``````

I have in debugger (Visual Studio 2010):

``````fValue = 0.010742188
oldFValue = 0.010742187500000000
``````

Can you please explain why douable value is different from float value? Is this a debugger problem or a floating point conversion problem? I'm asking this because:

``````if(oldFValue != dValue)
``````

is never true, even it should be. May I compare float value with double value in other way? I need the result of float division to be exact the same as double division.

-
With fixed decimal digit precision, `1/3 * 3` won't be equal to `1` (it'll be .9999999). That's just how limited precision arithmetic works. –  David Schwartz Feb 5 '12 at 11:16

11 / 1024 is exactly representable in both `float` and `double`. So of course `oldFValue == dValue`.

-
But why my debugger is showing different values? fValue = 0.010742188 oldFValue = 0.010742187500000000 –  Felics Feb 5 '12 at 11:57
@Felics Apparently it's rounding float to 8 significant places and displaying double with higher resolution. Enter `(doube)fValue` in the watch window and you wil see the exact value. –  Henrik Feb 5 '12 at 12:25

How much do you know about single precision float?

It's stored as `<sign><exponent><mantis>`. You can write the final number as:

``````(sign ? 1 : -1) * 0.1<mantis> * 2^(expontent - 127)
``````

As you can see number is ALWAYS stored as number `>1` and as a binary fraction. Unfortunately some numbers such as `0.1 dec` are periodic in binary so you won't get exact result with float.

You may try using this: `if(oldFValue != (float)dValue)` and if it won't work you can also try:

``````if(oldFValue*32 != (float)dValue*32)
``````

This will cause:

``````mantis >> 5
expontent += 5
``````

Which may eliminate your error (try 1 (weird, but may work in some cases), 2, 4, 8, 16..., 2^n).

For this reason you should never check equality of floating points using `operator==`. you should calculate the `delta=abs(num1-num2)`, and check if it is smaller then some value you can tolerate its error.