I had the following statement in code:

int a = (int)( (float)(b * 1000) / (float)c + .5f );

where b is an int as well, and c is an unsigned intwith a constant value (of 15 in my test runs)

This statement was inside a while loop where b gets incremented by 1 on each iteration.

This code was working fine till I decided to switch on the optimisation flags (maximise speed) in Visual studio. After which, a would randomly run into an overflow (i.e it had a value of -2147483647). On investigating further this overflow used to happen at different values of b. The values of b where the overflow happened were between 9-12 in the test runs I observed.

What solved the problem was making the a small change as illustrated below:

int a = (int)( (b * 1000.f) / c + .5f );

Any ideas on how did this help? It is working fine but I can't figure out why?

Edit: Adding some more information based on comments:

While logging, I observed that :

(float)(b * 1000) / (float)c + .5f

was being evaluated to a really large value , which when type-casted to int was leading to the overflow. Individually, float(b*1000) and float(c) were being calculated correctly however.

  • what are the types of b and c? Feb 29, 2016 at 9:43
  • @mustafagonul "where b is an int as well, and c is an unsigned int"
    – MikeCAT
    Feb 29, 2016 at 9:44
  • And it is important which optimization flags you are using. The behavior is totally implementation defined. It is obvious, you are making an overflow mistake. But I don't know, when you switch the optimization flags off, it runs in a right way. Feb 29, 2016 at 9:51
  • Is it possible, that a was not really overflowing with optimizations enabled, just that the debugger was unable to report its true value? Did you see any actual verifiable evidence of a being incorrect other than the debugger reported value?
    – Rotem
    Feb 29, 2016 at 9:54
  • I was using the /O2 optimisation flag (Maximise Speed) Feb 29, 2016 at 9:54

2 Answers 2


b * 1000 is most likely overflowing the int type; the behaviour of doing this is undefined.

Drop all those obfuscating casts, and use

b * 1000.0 / c + 0.5

instead. 1000.0 is a double literal and causes the first term to be evaluated in floating point.

You ought to check the size of the expression before converting back to int, especially if c is small. std::numeric_limits is useful for that.

  • 1
    Same question, how do you explain an overflow for values of b between 9-12?
    – Rotem
    Feb 29, 2016 at 9:49
  • c also comes into play here. What is its value?
    – Bathsheba
    Feb 29, 2016 at 9:50
  • It doesn't, because it was cast to float in the original statement.
    – Rotem
    Feb 29, 2016 at 9:51
  • Um, it does when converting the whole thing to an int. There are two possible regions of overflow here.
    – Bathsheba
    Feb 29, 2016 at 9:51
  • Sorry, of course, I misunderstood. OP mentions that c is 15 though.
    – Rotem
    Feb 29, 2016 at 9:52

b * 1000 is int * int, so integer multiplication occurs and there are higher risk of overflow. (overflow in signed integer aritimetic is undefined behavior)

Casting b to float will also solve this.

int a = (int)( (float)b * 1000 / (float)c + .5f );
  • but I was observing an overflow for values as low as 9. 9*1000 is barely overflow worthy. Feb 29, 2016 at 9:46
  • How do you explain an overflow if b is between 9-12? 9000-12000 does not overflow an int.
    – Rotem
    Feb 29, 2016 at 9:47
  • @TheBlueNotebook What do you mean? 9.9 cannot be stored to int.
    – MikeCAT
    Feb 29, 2016 at 9:47
  • That was not a decimal point. It was a full stop. I will rephrase: but I was observing an overflow for values as low as 9 | 9*1000 is barely overflow worthy. Feb 29, 2016 at 9:50

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