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The equation is pretty simple, int = int * int / int; However, the multiplication of the ints could get too big, I'm trying to cast everything up to Int64s before doing it and then cast the result back down to an int. Thus I have:

int = (int)((Int64)int * (Int64)int / (Int64)int);

and it's complaining about all three of the Int64 casts.

Note: the target is x86 as I'm using a 32-bit only library. The machine itself is 64-bit. I could understand it with x64 target.

  • Am I missing something?
  • Does Resharper not understand the problem of intermediate values overflowing?
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1  
What if you only cast one of them? It could be that one cast is sufficient, and each cast makes the other two casts redundant. – Paul Phillips Dec 25 '12 at 4:52
2  
With that many points to your name, it would have been nice if you'd have at least considered using code tags to improve the readability of your question. – aLearner Dec 25 '12 at 4:54
    
Could you add those compiler complains ? – shiplu.mokadd.im Dec 25 '12 at 4:54
    
Is there a reason you don't want to just stay with long for your result? – Maurice Reeves Dec 25 '12 at 4:55
    
@MauriceReeves: The result is certainly within the range of an int. #2/#3 should normally be no greater than 1 and since it's describing a physical reality it's constrained by sanity. – Loren Pechtel Dec 25 '12 at 5:46
up vote 4 down vote accepted
Int16 a = 1000;
Int16 b = 40;

var c = a * b; // c is Int32 because compiler does not want overflow

// The cast makes a3 Int64
// No need to cast a1 because all operations involving Int64
// will be Int64 to ensure no overflows when arithmetic operations are performed
var a3 = a1 * (Int64)a2; 

Same for :

var a3 = (Int64)a1 * a2;

Resharper is a smart as you know, it gives the warning for all the 3 casts in your code because any 1 of them makes same sense.

Edit: One more thing, all the operations on the right are evaluated and output is Int64 after the 1 cast done. The final int cast will work on the finally calculated value and it is explicit cast to int as Int64 cannot be directly cast to int (preventing overflow). There are no intermediate value overflows.

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Your answer describes it the best. I would have realized what was up if it had only flagged #2 and #3 but I guess it's taking a local view and not seeing the fact that doing everything it suggested would be bad. – Loren Pechtel Dec 25 '12 at 5:49
    
Yes, but before you would have realized, resharper realized which is the one of them that you want to cast, so it showed redundant for all of them :) – Dinesh Dec 25 '12 at 6:18

The very first cast produces an Int64. Int64 * int is Int64. Divided by int is Int64.

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casting one of them is enough

int x, y, z, w;
x = y = z = int.MaxValue;

look at the behavior below and you'll understand it all

textBox1.Text = ((Int64)x * y).ToString();

output: 4611686014132420609

textBox2.Text = (x * y).ToString();

output: 1

textBox3.Text = ((int)((Int64)x * (Int64)y / (Int64)z)).ToString();

output: 2147483647

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