Consider following code:

#include <iostream>

using namespace std;

int aaa(int a) {
    cout << a * 0.3 << endl;
    return a * 0.3;

int main()
    cout << aaa(35000);

It prints out:


Why output differs?

I have a workaround to use "return a * 3 / 10;" but I don't like it.


Found that doing "return float(a * 0.3);" gives expected value;

  • cout << a * 0.3 use type double as the result. but in second output you pass the result from int type filter. – Emadpres Jun 29 '13 at 13:08
up vote 8 down vote accepted

The result of 0.3*35000 is a floating point number, just slightly less than 10500. When printed it is rounded to 10500, but when coerced into an int the fractional digits are discarded, resulting in 10499.

  • Is it not compiler specific? gcc prints 10500 in both cases – banarun Jul 3 '13 at 7:50
  • 1
    It is. In fact 10500 can be represented exactly as a floating point number, and if the multiplication is made with 64 bits the result should be 10500 always. The thing is, some systems use 80-bit precision for intermediate values. This makes 0.3 slightly less than 3/10, and when the result of the multiplication is rounded it is wrong in the last bit. – Joni Jul 3 '13 at 8:43

int * double expression yields double, that's what the first thing prints. Then you convert to int chopping the remaining part (even if it's almost there, sitting at 10500-DBL_EPSILON), and pass that back. The second prints that value.

float-int conversions should be made with care, better not at all.

a * 0.3 has type double. The call inside aaa calls

ostream& operator<< (double val);

whereas the one outside calls

ostream& operator<< (int val);

You'd get a warning (if you turn them on - I suggest you do) that the implicit cast from double to int isn't recommended.

  • Tell me more about -I i can't find it in my Code::Blocks compiler settings. At least how to Google it. – user2534633 Jun 29 '13 at 13:24
  • @user2534633 I as in myself... I suggest you turn them on :) – Luchian Grigore Jun 29 '13 at 13:33

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