# Precision loss of 1 when converting double to float

For the below program I am getting precision loss of 1 which I am unable to understand. Need help.

``````void main()
{
typedef std::numeric_limits< double > dbl;
cout.precision(dbl::digits10);

double x = -53686781.0;
float xFloat = (float) x;

cout << "x :: " << x << "\n";
cout << "xFloat :: " << xFloat << "\n";
}

Outpput:
x :: -53686781
xFloat :: -53686780
``````
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`float`s store less information than `double`s; what you're seeing is just a manifestation of that. Is there anything specific you don't understand? –  Philip Kendall Mar 20 '13 at 11:29
Moreover, floats have about 7 decimal digits of precision, so it's no surprise that the last digit in the string representation of `xfloat` is `0`. –  High Performance Mark Mar 20 '13 at 11:32
@HighPerformanceMark That's some very weird reasoning there. We're dealing with binary numbers, the decimal `0` at the end is pure coincidence as the higher bits that are set for a number which is divisible by 10. If OP had picked `double x = -53686777.0;`, `xFloat` would have been -53686776 (and that doesn't end in 0). –  us2012 Mar 20 '13 at 12:11

For normal floats I believe p=23, which gives 2^23 of digit precision (about 7 digits as already mentioned. Double has p=52, which gives 2^52 of digit precision (about 15 digits).

The wiki page is actually pretty good.

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That's not very precise at all. The binary representation of a `float` has 23 bits for the mantissa, but a leading 1 is implicit, so you actually get a precision of 24 bits, leading to the result that Alexey Frunze has illustrated in his answer. –  us2012 Mar 20 '13 at 12:10