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# include <iostream>
using namespace std;

int main()
    double a;
    cin >> a;
    int b = (int) a*100;
    cout << b << endl;

If you input 2.53, it gives b=252

I know it's a precision thing, but how do you fix it without using comparison?

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If a is guaranteed to be positive, use:

int b = (int) (a*100+0.5);

If not use:

int b = (int) floor(a*100+0.5);

Float to int cast truncates (rounds towards zero).

If you want to keep truncating, but only want to avoid precision issues, use a small epsilon (1e-4) instead of 0.5 int the code above.

share|improve this answer
seems to be the only way doing it. I used to program in java so this issue looks perfectly weird to me. – user990808 Oct 12 '11 at 6:19
@user990808: That issue is exactly the same in Java, if you want just test it. Conversions from floating point to integer types discard the non-integer part, no matter how close to the next integer the value actually is. – David Rodríguez - dribeas Oct 12 '11 at 8:01

You want to round instead of truncating. The floor function is handy for this:

int b = (int)floor(a*100+0.5);
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