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Often I want to check if a provided value matches one in a list (e.g. when validating):

if (!acceptedValues.Any(v => v == someValue))
{
    // exception logic
}

Recently, I've noticed ReSharper asking me to simplify these queries to:

if (acceptedValues.All(v => v != someValue))
{
    // exception logic
}

Obviously, this is logically identical, perhaps slightly more readable (if you've done a lot of mathematics), my question is: does this result in a performance hit?

It feels like it should (i.e. .Any() sounds like it short-circuits, whereas .All() sounds like it does not), but I have nothing to substantiate this. Does anyone have deeper knowledge as to whether the queries will resolve the same, or whether ReSharper is leading me astray?

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2  
Have you tried disassembling the Linq code to see what it's doing? –  RQDQ Jan 27 '12 at 0:33
5  
In this case I would actually go with if(!acceptedValues.Contains(someValue)), but of course this was not the question :) –  csgero Apr 12 '12 at 16:13
1  
@csgero I agree. The above was a simplification (perhaps over-simplification) of the real logic. –  Mark Oct 3 '12 at 7:17
    
I think "if there is not any value equal to x" is clearer than "if all values are different than x". I wish JetBrains would split the "Simplify LINQ expression" inspection into different types of inspections so I could disable this specific one. –  Kevin Coulombe Nov 9 '13 at 19:03
    
"It feels like it should (i.e. .Any() sounds like it short-circuits, whereas .All() sounds like it does not)" -- Not to anyone with sound intuitions. The are logical equivalence you note implies that they are equally short-circuitable. A moment's thought reveals that All can quit as soon as a non-qualifying case is encountered. –  Jim Balter May 16 at 20:07

4 Answers 4

up vote 119 down vote accepted

Implementation of All according to ILSpy (as in I actually went and looked, rather than the "well, that method works a bit like ..." I might do if we were discussing the theory rather than the impact).

public static bool All<TSource>(this IEnumerable<TSource> source, Func<TSource, bool> predicate)
{
    if (source == null)
    {
        throw Error.ArgumentNull("source");
    }
    if (predicate == null)
    {
        throw Error.ArgumentNull("predicate");
    }
    foreach (TSource current in source)
    {
        if (!predicate(current))
        {
            return false;
        }
    }
    return true;
}

Implementation of Any according to ILSpy:

public static bool Any<TSource>(this IEnumerable<TSource> source, Func<TSource, bool> predicate)
{
    if (source == null)
    {
        throw Error.ArgumentNull("source");
    }
    if (predicate == null)
    {
        throw Error.ArgumentNull("predicate");
    }
    foreach (TSource current in source)
    {
        if (predicate(current))
        {
            return true;
        }
    }
    return false;
}

Of course, there could be some subtle difference in the IL produced. But no, no there isn't. The IL is pretty much the same but for the obvious inversion of returning true on predicate match versus returning false on predicate mismatch.

This is linq-for-objects only of course. It's possible that some other linq provider treats one much better than the other, but then if that was the case, it's pretty much random which one got the more optimal implementation.

It would seem that the rule comes down solely to someone feeling that if(determineSomethingTrue) is simpler and more readable than if(!determineSomethingFalse). And in fairness, I think they've a bit of a point in that I often find if(!someTest) confusing* when there's an alternative test of equal verbosity and complexity that would return true for the condition we want to act upon. Yet really, I personally find nothing to favour one over the other of the two alternatives you give, and would perhaps lean very slightly toward the former if the predicate were more complicated.

*Not confusing as in I don't understand, but confusing as in I worry that there's some subtle reason for the decision that I don't understand, and it takes a few mental skips to realise that "no, they just decided to do it that way, wait what was I looking at this bit of code for again?..."

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18  
Downvoter care to comment? –  Jon Hanna Jan 28 '12 at 9:08
4  
I'm not sure what is done behind the lines, but for me is much more readable is: if (not any) than if (all not equal). –  VikciaR Aug 7 '12 at 6:15
7  
There is a BIG difference when your enumeration has no values. 'Any' would always return FALSE, and 'All' always return TRUE. So saying than one is the logical equivalent of the other is not entirely true! –  Arnaud Mar 24 '13 at 22:41
8  
@Arnaud Any will return false and hence !Any will return true, so they're identical. –  Jon Hanna May 30 '13 at 10:31
3  
@MacsDickinson that's not a difference at all, because you're not comparing opposite predicates. The equivalent to !test.Any(x => x.Key == 3 && x.Value == 1) that uses All is test.All(x => !(x.Key == 3 && x.Value == 1)) (which is indeed equivalent to test.All(x => x.Key != 3 || x.Value != 1)). –  Jon Hanna Sep 18 '13 at 14:05

You might find these extension methods make your code more readable:

public static bool None<TSource>(this IEnumerable<TSource> source)
{
    return !source.Any();
}

public static bool None<TSource>(this IEnumerable<TSource> source, 
                                 Func<TSource, bool> predicate)
{
    return !source.Any(predicate);
}

Now instead of your original

if (!acceptedValues.Any(v => v == someValue))
{
    // exception logic
}

you could say

if (acceptedValues.None(v => v == someValue))
{
    // exception logic
}
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3  
Thanks - I was already thinking of implementing these in our commons library, but I haven't decided if it is a good idea yet. I agree that they make the code more readable, but I am concerned that they don't add sufficient value. –  Mark Jan 28 '12 at 7:17

Both would have identical performance because both stop enumeration after the outcome can be determined - Any() on the first item the passed predicate evaluates to true and All() on the first item the predicate evaluates to false.

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All short circuits on the first non-match, so it's not a problem.

One area of subtlety is that

 bool allEven = Enumerable.Empty<int>().All(i => i % 2 == 0); 

Is true. All of the items in the sequence are even.

For more on this method, consult the documentation for Enumerable.All.

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5  
Yes, but bool allEven = !Enumerable.Empty<int>().Any(i => i % 2 != 0) is true too. –  Jon Hanna Jan 27 '12 at 0:40
1  
@Jon semantically none != all. So semantically you either have none or all but in the case of .All() none is just a subset of all the collections that return true for all and that discrepancy can result in bugs if you are unaware of it. +1 for that Anthony –  Rune FS Jan 27 '12 at 9:33
    
@RuneFS I don't follow. Semantically and logically "none where it is untrue that..." is indeed the same as "all where it is true that". E.g. "where none of the accepted projects from our company?" will always have the same answer as "where all of the accepted projects from other companies?"... –  Jon Hanna Jan 27 '12 at 9:59
    
... Now, it's true that you can have bugs from assuming "all the items are..." means there is at least one item that is at least one item that fulfils the test, since the "all the items..." is always true for the empty set, I don't dispute that at all. I added though that the same problem can happen with assuming "none of the items..." means at least one items doesn't fulfill the test, since "none of the items..." is also always true for the empty set. It's not that I disagree with Anthony's point, its that I think it also holds for the other of the two constructs under discussion. –  Jon Hanna Jan 27 '12 at 10:01
    
@Jon you are talking logic and I am talking linguistics. The human brain can't process a negative (before it process the positive at which point it can then negate it) so in that sense there's quite a difference between the two. That doesn't make the logic you propose incorrect –  Rune FS Jan 27 '12 at 10:09

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