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So I have an IEnumerable < string > which can contain values that can be parsed as int, as well as values that cannot be.

As you know, Int32.Parse throws an exception if a string cannot be changed to an int, while Int32.TryParse can be used to check and see if the conversion was possible without dealing with the exception.

So I want to use a LINQ query to one-liner parse those strings which can be parsed as int, without throwing an exception along the way. I have a solution, but would like advice from the community about whether this is the best approach.

Here's what I have:

int asInt = 0;

var ints = from str in strings
           where Int32.TryParse(str, out asInt)
           select Int32.Parse(str);

So as you can see, I'm using 'asInt' as a scratch space for the call to TryParse, just to determine if TryParse would succeed (return bool). Then, in the projection, I'm actually performing the parse. That feels ugly.

Is this the best way to filter the parseable values in one-line using LINQ?

share|improve this question
1  
You can use asInt directly as the select value. – Jaroslav Jandek Feb 10 '11 at 19:48
    
Right; looks like Joe's answer captures that. I actually changed it to my accepted answer since it's more concise than some of the others. – Ben Lakey Feb 10 '11 at 20:22
up vote 44 down vote accepted

It's hard to do that in query syntax, but it's not too bad in lambda syntax:

var ints = strings.Select(str => {
                             int value;
                             bool success = int.TryParse(str, out value);
                             return new { value, success };
                         })
                  .Where(pair => pair.success)
                  .Select(pair => pair.value);

Alternatively, you may find it worth writing a method which returns an int?:

public static int? NullableTryParseInt32(string text)
{
    int value;
    return int.TryParse(text, out value) ? (int?) value : null;
}

Then you can just use:

var ints = from str in strings
           let nullable = NullableTryParseInt32(str)
           where nullable != null
           select nullable.Value;
share|improve this answer
    
Seems like pretty much the same idea though, as the query syntax. Good to see in this form though. – Ben Lakey Feb 10 '11 at 19:33
1  
@byte: The difference is that your version has side-effects in touching another variable... so you couldn't run it in parallel, for example. – Jon Skeet Feb 10 '11 at 19:37
2  
I wish the framework had an int? int.TryParse(string) method for such cases – vc 74 Feb 10 '11 at 19:47
    
AH yes, for concurrency I can see how this would be problematic. I'd probably use your lambda syntax in that case. – Ben Lakey Feb 12 '11 at 20:52
    
@JonSkeet - how to do this when dealing with entities from Entity framework? To avoid the Not a store method exception. – dot netter Dec 22 '15 at 20:58

It's still two codelines, but you can shorten up your original a little:

int asInt = 0;
var ints = from str in strings
           where Int32.TryParse(str, out asInt)
           select asInt;

Since the TryParse already runs at the time of the select, the asInt variable is populated, so you can use that as your return value - you don't need to parse it again.

share|improve this answer

If you don't mind your coworkers jumping you in the parking lot there is a way to do this in one true line of linq (no semicolons) ....

strings.Select<string, Func<int,int?>>(s => (n) => int.TryParse(s, out n) ? (int?)n : (int?)null ).Where(λ => λ(0) != null).Select(λ => λ(0).Value);

It isn't practical, but doing this in one statement was far too interesting a challenge to pass up.

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I'd probably have this little utility method somewhere (I actually do in my current codebase :-))

public static class SafeConvert
{
    public static int? ToInt32(string value) 
    {
        int n;
        if (!Int32.TryParse(value, out n))
            return null;
        return n;
    }
}

Then you use this much cleaner LINQ statement:

from str in strings
let number = SafeConvert.ToInt32(str)
where number != null
select number.Value;
share|improve this answer

I'd this is LINQ-to-objects:

static int? ParseInt32(string s) {
    int i;
    if(int.TryParse(s,out i)) return i;
    return null;
}

Then in the query:

let i = ParseInt32(str)
where i != null
select i.Value;
share|improve this answer

If you're looking for a one-line Linq expression and fine with allocating a new object on every loop, I'd use the more powerful SelectMany to do this with one Linq call

var ints = strings.SelectMany(str => {
    int value;
    if (int.TryParse(str, out value))
        return new int[] { value };
    return new int[] { };
});
share|improve this answer

If you want to define an extension method to do this, I'd create a general solution that is simple to use, instead of requiring you to write a new null-on-failure wrapper for each Try function, and requires you to filter out null values.

public delegate bool TryFunc<in TSource, TResult>(TSource arg, out TResult result);

public static IEnumerable<TResult> SelectTry<TSource, TResult>(this IEnumerable<TSource> source, TryFunc<TSource, TResult> selector)
{
    foreach(var s in source) {
        TResult r;
        if (selector(s, out r))
            yield return r;
    }
}

Usage:

var ints = strings.SelectTry<string, int>(int.TryParse);

It's a little awkward that C# can't infer SelectTry's generic type arguments.

(TryFunc's TResult can't be covariant (i.e. out TResult) like Func. As Eric Lippert explains out parameters are actually just ref parameters with fancy write-before-read rules.)

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I personally wouldn't have a problem with it if it works as expected and it's intent is still understandable (which I think it is).

Just throwing it out there for the sake of it, but an alternative solution could be to use a regex:

var isInteger = new Regex(@"^\d+$", RegexOptions.Compiled);
var numbers = strings.Select(t => isInteger.Match(t))
                     .Where(m => m.Success)
                     .Select(m => Int32.Parse(m.Value));

One issue I foresee is that really long strings of digits that won't fit into an int will throw exceptions... Though that is potentially a desirable situation as it's probably an exceptional situation.

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