# Why does Enumerable.All return true for an empty sequence?

``````var strs = new Collection<string>();
bool b = strs.All(str => str == "ABC");
``````

The code creates an empty collection of string, then tries to determine if all the elements in the collection are "ABC". If you run it, `b` will be true.

But the collection does not even have any elements in it, let alone any elements that equal to "ABC".

Is this a bug, or is there a reasonable explanation?

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Sounds reasonable to me. Use the `Any()` method in connection with it to return false. –  Yuriy Faktorovich Oct 25 '11 at 5:04
This is an interesting question of mathematical logic. You might like to think about the related questions 'what is the sum of an empty sequence of integers?' (which seems obvious) and 'what is the product of an enpty sequence of integers?' (less so). –  AakashM Oct 25 '11 at 9:55
possible duplicate of Why does IQueryable.All() return true on an empty collection? –  Alex Angas Feb 27 '12 at 5:26

It's certainly not a bug. It's behaving exactly as documented:

true if every element of the source sequence passes the test in the specified predicate, or if the sequence is empty; otherwise, false.

Now you can argue about whether or not it should work that way (it seems fine to me; every element of the sequence conforms to the predicate) but the very first thing to check before you ask whether something is a bug, is the documentation. (It's the first thing to check as soon as a method behaves in a way other than what you expected.)

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Without this property, `!Any(Predicate)` would not be the same as `All(!Predicate)`, which would be very unintuitive. –  Ani Oct 25 '11 at 16:59
Per another poster I found that this situation is called vacuous truth –  Paul Tyng Jan 9 '12 at 16:25
Actually, the top SO link in a search is the first thing I check when a function doesn't behave as I expect. Invariably someone with a huge reputation like Jon Skeet not only finds the pertinent snippet of documentation but also explains why my expectations were wrong to begin with. We're spoiled by SO... –  ThisGuy Mar 2 '14 at 5:14
I'm not saying it's a bug, but it is odd. I've got no money in any of my bank accounts, so BankAccounts.All(x=>x.TotalFunds > 1000000) is true??? I'm going home! –  Stimul8d Jan 13 at 15:31
@JonSkeet Damn it,...back to work! :-) –  Stimul8d Jan 13 at 18:39

All requires the predicate to be true for all elements of the sequence. This is explicitly stated in the documentation. It's also the only thing that makes sense if you think of All as being like a logical and between the predicate's results for each element. The "true" you're getting out for the empty sequence is the identity element of the and operation. Likewise, the false you get from Any for the empty sequence is the identity for logical or.

If you think of "all" as being "there are no elements in the sequence that are not", this might make more sense.

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"there are no elements in the sequence that are not", this is a good one –  CuiPengFei Oct 25 '11 at 5:12
This an intuitive interpretation to make in predicate logic. `for all X, P(X)` and `exists X, ~P(X)` are logically equivalent. –  Brian Oct 25 '11 at 18:32

It is `true`, as nothing (no condition) makes it `false`.

The docs probably explain it. (Jon Skeet also mentioned something a few years back)

Same goes for `Any` (the opposite of `All`) returning `false` for empty sets.

Edit:

You can imagine `All` to be implemented semantically the same as:

``````foreach (var e in elems)
{
if (!cond(e))
return false;
}
return true; // no escape from loop
``````
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The method cycles through all elements until it finds one that does not satisfy the condition, or finds none that fail. If none fail, true is returned.

So, if there are no elements, true is returned (since there were none that failed)

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Keeping the implementation aside. Does it really matter if it is true? See if you have some code which iterates over the enumerable and executes some code. if All() is true then that code is still not going to run since the enumerable doesn't have any elements in it.

``````var hungryDogs = Enumerable.Empty<Dog>();
bool allAreHungry = hungryDogs.All(d=>d.Hungry);
if (allAreHungry)
foreach (Dog dog in hungryDogs)
dog.Feed(biscuits); <--- this line will not run anyway.
``````
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All return a boolean. Your code wont even compile.... –  leppie Oct 25 '11 at 5:23
Interesting point. –  Andrew Barber Oct 25 '11 at 5:23
@leppie fixed it; thanks –  Hasan Khan Oct 25 '11 at 5:26
Yes, it will actually matter sometimes. For example if you would like to feed the .First() dog. –  Kenneth_hj Jan 13 '14 at 13:41

That's funny, because when I have a case

``````!list.Any(x=>x.Deleted==0)
``````

The ReSharper suggests that I change it to

``````list.All(x=>x.Deleted!=0)
``````

That will be a bug for my program :)

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Not, it'll work as expected. Those 2 lines will produce the same output, since `Any()` returns false when a collection is empty. It makes sense - none of items fulfill the predicate. –  Tarec Aug 19 at 10:55

Most answers here seem to go along the lines of "because that's how is defined". But there is also a logical reason why is defined this way.

When defining a function, you want your function to be as general as possible, such that it can be applied to the largest possible number of cases. Say, for instance, that I want to define the `Sum` function, which returns the sum of all the numbers in a list. What should it return when the list is empty? If you'd return an arbitrary number `x`, you'd define the function as the:

1. Function that returns the sum of all numbers in the given list, or `x` if the list is empty.

But if `x` is zero, you can also define it as the

1. Function that returns `x` plus the given numbers.

Note that definition 2 implies definition 1, but 1 does not imply 2 when `x` is not zero, which by itself is enough reason to pick 2 over 1. But also note 2 is more elegant and, in its own right, more general than 1. Is like placing a spotlight farther away so that it lightens a larger area. A lot larger actually. I'm not a mathematician myself but I'm sure they'll find a ton of connections between definition 2 and other mathematical concepts, but not so many related to definition 1 when `x` is not zero.

In general, you can, and most likely want to return the identity element (the one that leaves the other operand unchanged) whenever you have a function that applies a binary operator over a set of elements and the set is empty. This is the same reason a `Product` function will return 1 when the list is empty (note that you could just replace "`x` plus" with "one times" in definition 2). And is the same reason `All` (which can be thought of as the repeated application of the logical AND operator) will return `true` when the list is empty (`p && true` is equivalent to `p`), and the same reason `Any` (the OR operator) will return `false`.

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