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A little test program:

#include <iostream>


const float TEST_FLOAT = 1/60;

const float TEST_A = 1;
const float TEST_B = 60;
const float TEST_C = TEST_A / TEST_B;

int main()
{
 std::cout << TEST_FLOAT << std::endl;
 std::cout << TEST_C << std::endl;

 std::cin.ignore();
 return 0;
}

Result :

0
0.0166667

Tested on Visual Studio 2008 & 2010.

  1. I worked on other compilers that, if I remember well, made the first result like the second result. Now my memory could be wrong, but shouldn't TEST_FLOAT have the same value than TEST_C? If not, why?
  2. Is TEST_C value resolved at compile time or at runtime? I always assumed the former but now that I see those results I have some doubts...
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1 Answer 1

up vote 11 down vote accepted

In

1/60

Both of the operands are integers, so integer arithmetic is performed. To perform floating point arithmetic, at least one of the operands needs to have a floating point type. For example, any of the following would perform floating point division:

1.0/60
1.0/60.0
1/60.0

(You might choose to use 1.0f instead, to avoid any precision reduction warnings; 1.0 has type double, while 1.0f has type float)

Shouldn't TEST_FLOAT have the same value than TEST_C?

In the TEST_FLOAT case, integer division is performed and then the result of the integer division is converted to float in the assignment.

In the TEST_C case, the integer literals 1 and 60 are converted to float when they are assigned to TEST_A and TEST_B; then floating-point division is performed on those floats and the result is assigned to TEST_C.

Is TEST_C value resolved at compile time or at runtime?

It depends on the compiler; either method would be standards-conforming.

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Argh! I knew I missed something obvious! Thanks! –  Klaim Jun 6 '10 at 23:30

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