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I'm curious as to the best way to convert a double to an int. Runtime safety is my primary concern here (it doesn't necessarily have to be the fastest method, but that would be my secondary concern). I've left a few options I can come up with below. Can anyone weigh in on which is best practice? Any better ways to accomplish this that I haven't listed?

        double foo = 1;
        int bar;

        // Option 1
        bool parsed = Int32.TryParse(foo.ToString(), out bar);
        if (parsed)
        {
            //...
        }

        // Option 2
        bar = Convert.ToInt32(foo);

        // Option 3
        if (foo < Int32.MaxValue && foo > Int32.MinValue) { bar = (Int32)foo; }
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4  
What do you mean by "runtime safety"? –  Dave Swersky Aug 23 '10 at 15:43
    
@Dave Swersky - For runtime safety I mean most robust (hard to break) and very few "gotchas" that I have to address because they are handled for me. –  Joel B Aug 23 '10 at 16:34
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8 Answers

up vote 19 down vote accepted

I think your best option would be to do:

checked
{
    try
    {
        int bar = (int)foo;
    }
    catch (OverflowException)
    {
     ...          
    }
}

From Explicit Numeric Conversions Table

"When you convert from a double or float value to an integral type, the value is truncated. If the resulting integral value is outside the range of the destination value, the result depends on the overflow checking context. In a checked context, an OverflowException is thrown, while in an unchecked context, the result is an unspecified value of the destination type."

Note: Option 2 also throws an OverflowExceptionwhen required.

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Didn't know that. It checks NaN's too? –  jdv-Jan de Vaan Aug 23 '10 at 15:54
    
@jdv: Yes, it does check NaNs and Infinities. –  Ani Aug 23 '10 at 15:55
1  
+1 for OverflowException. –  Brian Aug 23 '10 at 15:58
    
I like it...and for code clarity i think explicit casts just look more concise. Thanks @Ani! –  Joel B Aug 23 '10 at 16:28
    
Another possibility which I added to my answer is the usage of BigInteger in .Net4. –  Mikael Svenson Aug 23 '10 at 17:34
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I prefer option 2.

One thing you need to do is check for exceptions though to confirm it worked, the same way you're checking 'parsed' in option 1:

try
{
    bar = Convert.ToInt32(foo); 
}
catch(OverflowException)
{
    // no can do!
{

If you were converting string etc instead of double, you might get a 'FormatException' instead.

Edit

I originally said option 2 wasn't particularly better than option 1, which @0xA3 pointed out was wrong. Option 1 is worse because it converts to a string before being parsed to an integer, which means it's less efficient. You also don't get an OverflowException if the double is outside the integer range (which you may or may not want) - although 'parsed' will be False in this case.

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Option 2 is clearly better than option 1. Option 1 comes with an additional conversion of the double to string which is unnecessary. –  0xA3 Aug 23 '10 at 16:14
    
Yeah, you're right, it is. I was initially thinking about converting from strings for some reason. Down with option 1! –  Grant Crofton Aug 23 '10 at 16:18
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I always use the Convert class, I find it very elegant, handy and you can catch specific exceptions defined in the VS intellisense.

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I realize this is not quite what the OP was asking for, but this info could be handy.

Here is a comparison (from http://www.dotnetspider.com/resources/1812-Difference-among-Int-Parse-Convert-ToInt.aspx)

        string s1 = "1234";
        string s2 = "1234.65";
        string s3 = null;
        string s4 = "12345678901234567890123456789012345678901234567890";

        int result;
        bool success;

        result = Int32.Parse(s1);      // 1234
        result = Int32.Parse(s2);      // FormatException
        result = Int32.Parse(s3);      // ArgumentNullException
        result = Int32.Parse(s4);      // OverflowException

        result = Convert.ToInt32(s1);      // 1234
        result = Convert.ToInt32(s2);      // FormatException
        result = Convert.ToInt32(s3);      // 0
        result = Convert.ToInt32(s4);      // OverflowException

        success = Int32.TryParse(s1, out result);      // 1234
        success = Int32.TryParse(s2, out result);      // 0
        success = Int32.TryParse(s3, out result);      // 0
        success = Int32.TryParse(s4, out result);      // 0
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Note that the OP asks about conversion from double to int, not string to int. –  0xA3 Aug 23 '10 at 16:05
    
yeah, definitely handy. Thanks for the input! –  Joel B Aug 23 '10 at 16:30
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I would use option two. Short, clean and it works.

You could also look into the BigInteger class in .Net4, and you wouldn't have to check for overflow.

double foo = 1;            
BigInteger bigint = new BigInteger(foo);
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s/world/works. Revert it if incorrect. –  Lawrence Johnston Aug 23 '10 at 15:51
    
Thx. Mobile keyboard. –  Mikael Svenson Aug 23 '10 at 15:52
    
BigInteger could also work. –  Mikael Svenson Aug 23 '10 at 17:33
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If you really really need to find out if something went wrong, use a normal cast and check the result.

int ToInt(double foo)
{
    int result = (int)foo;
    if (foo != result)
        throw new ArgumentException()

    return result;
}

This will make sure no invalid conversion is done. If it is OK to round to nearest integer, use Math.Round and check if result is within 0.5. This will make sure no NaN or infinity will get by your method.

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Options (1) and (2) do essentially the same thing. Option (1) gives you an if (parsed) block whereas option (2) throws an error for any double that's not representable as an int.

Option (3) is essentially the same as option (2) except it has an extra MinValue/MaxValue check which the others don't.

In summary: these three pieces of code do different things. Option (3) looks to be the most robust, in that it has an extra range check.

Edit: On second thoughts, use @Ani checked trick - you get the range check for free.

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Option 3a not using exceptions, always returns a value:

    Int32 Convert(Double d)
    {
        if (d <= (double)Int32.MinValue)
            return Int32.MinValue;
        else if (d >= (double)Int32.MaxValue)
            return Int32.MaxValue;
        else 
            return (Int32)d;
    }
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