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What are the different techniques for a floating point to integer type conversion in C++?

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7 Answers 7

Normal way is to:

float f = 3.4;
int n = static_cast<int>(f);
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What you are looking for is 'type casting'. typecasting (putting the type you know you want in brackets) tells the compiler you know what you are doing and are cool with it. The old way that is inherited from C is as follows.

float var_a = 9.99;
int   var_b = (int)var_a;

If you had only tried to write

int var_b = var_a;

You would have got a warning that you can't implicitly (automatically) convert a float to an int, as you lose the decimal.

This is referred to as the old way as C++ offers a superior alternative, 'static cast'; this provides a much safer way of converting from one type to another. The equivalent method would be (and the way you should do it)

float var_x = 9.99;
int   var_y = static_cast<int>(var_x);

This method may look a bit more long winded, but it provides much better handling for situations such as accidentally requesting a 'static cast' on a type that cannot be converted. For more information on the why you should be using static cast, see this question.

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I don't get the down vote? care to give a reason? –  thecoshman Mar 30 '10 at 10:34
I didn't downvote, but it may be due to you using C style casts in C++ code. It's frowned upon as it's bad style –  Glen Mar 30 '10 at 10:40
I am? really? sorry, that was the way I though I was meant to do them –  thecoshman Mar 30 '10 at 10:57
"Proper" way is static cast. Pragmatic way is this. I'm going for pragmatic. =) –  cib May 6 '13 at 14:19
wow, talk about digging up the paste. I think we can all agree that accepting the technically, TECHNICALLY, C casts are still valid C++ and should be covered... boy have I learnt a lot since I first wrote this answer :P –  thecoshman May 7 '13 at 8:11

Size of some float types may exceed the size of int. This example shows a safe conversion of any float type to int using the int safeFloatToInt(const FloatType &num); function:

#include <iostream>
#include <limits>
using namespace std;

template <class FloatType>
int safeFloatToInt(const FloatType &num) {
   //check if float fits into integer
   if ( numeric_limits<int>::digits < numeric_limits<FloatType>::digits) {
      // check if float is smaller than max int
      if( (num < static_cast<FloatType>( numeric_limits<int>::max())) &&
          (num > static_cast<FloatType>( numeric_limits<int>::min())) ) {
         return static_cast<int>(num); //safe to cast
      } else {
        cerr << "Unsafe conversion of value:" << num << endl;
        //NaN is not defined for int return the largest int value
        return numeric_limits<int>::max();
   } else {
      //It is safe to cast
      return static_cast<int>(num);
int main(){
   double a=2251799813685240.0;
   float b=43.0;
   double c=23333.0;
   //unsafe cast
   cout << safeFloatToInt(a) << endl;
   cout << safeFloatToInt(b) << endl;
   cout << safeFloatToInt(c) << endl;
   return 0;


Unsafe conversion of value:2.2518e+15
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Check out the boost NumericConversion library. It will allow to explicitly control how you want to deal with issues like overflow handling and truncation.

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I believe you can do this using a cast:

float f_val = 3.6f;
int i_val = (int) f_val;
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the easiest technique is to just assign float to int, for example:

int i;
float f;
f = 34.0098;
i = f;

this will truncate everything behind floating point or you can round your float number before.

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One thing I want to add. Sometimes, there can be precision loss. You may want to add some epsilon value first before converting. Not sure why that works... but it work.

int someint = (somedouble+epsilon);
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