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Why is a foreach loop a read only loop? What reasons are there for this?

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I am not sure what you mean by a readonly loop. Are you referring to the fact that you should not modify the iteration variable of the loop? I.e for each item in myitems item.property = something next – Tommy Aug 23 '10 at 21:07
I dont know how to apply the read only concept to a for-loop. Or do you mean why they say it is read-only? – helios Aug 23 '10 at 21:07
If you're talking about the enumeration - yes! You can't change the enumeration that you are looping through. – Andreas Rehm Aug 23 '10 at 21:07
yes @Tommy that's what i meant – George Aug 23 '10 at 21:10
Duplicate of stackoverflow.com/questions/776430/… – Tommy Aug 23 '10 at 21:13
up vote 22 down vote accepted

I'm not sure exactly what you mean by a "readonly loop" but I'm guessing that you want to know why this doesn't compile:

int[] ints = { 1, 2, 3 };
foreach (int x in ints)
    x = 4;

The above code will give the following compile error:

Cannot assign to 'x' because it is a 'foreach iteration variable'

Why is this disallowed? Trying to assigning to it probably wouldn't do what you want - it wouldn't modify the contents of the original collection. This is because the variable x is not a reference to the elements in the list - it is a copy. To avoid people writing buggy code, the compiler disallows this.

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+1. It is similar to saying Foo x = new Foo(); Foo y = x; y = new Foo(); Setting y to new Foo() does nothing to x. Similarly, having foo as your loop variable and saying foo = new Foo(); (if you could**) does nothing to the Foo in the collection. – Anthony Pegram Aug 23 '10 at 21:15
That's (the copy part) not true for reference type then x would hold a reference to the object in the IEnumerable – Rune FS Aug 23 '10 at 21:16
@Rune FS: In the case of reference types it's a copy of the reference. Even in this case it still probably wouldn't do what you wanted if you could assign to it. – Mark Byers Aug 23 '10 at 21:17
@Rune, x would contain the address of the object. Saying x = new Bar() would create a new Bar object and then store its address in x. The object in the collection would not be modified. It's no different than passing a parameter into a function and then modifying the parameter. The variable at the call site is unaffected (unless an out or ref modifier is used in the method signature). – Anthony Pegram Aug 23 '10 at 21:19
@mark I'm with you on not assigning to the 'x' but it makes a lot of differrence when you assign to a property/field of 'x' whether it's a value type or reference type. In the first case the change is lost when the loop ends in the second it last until changes again or the object is collected – Rune FS Aug 23 '10 at 21:36

I would assume it's how the iterator travels through the list.

Say you have a sorted list:


In the middle of

foreach(var s in States)

You do a States.Add("Missouri")

How do you handle that? Do you then jump to Missouri even if you're already past that index.

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Microsoft's contract for iEnumerable says an iEnumerable should not provide any means of updating the collection without causing an exception to be thrown when enumerating the next element. If I had my druthers, an enumerator in your scenario would be free to include or not include Mississippi, but would be required to either enumerate exactly once all elements that existed throughout the enumeration, or throw an exception if it couldn't do that. – supercat Aug 23 '10 at 23:00

If, by this, you mean:

Why shouldn't I modify the collection that's being foreach'd over?

There's no surety that the items that you're getting come out in a given order, and that adding an item, or removing an item won't cause the order of items in the collection to change, or even the Enumerator to become invalid.

Imagine if you ran the following code:

var items = GetListOfTOfSomething(); // Returns 10 items

int i = 0;
foreach(vat item in items)
    if (i == 5)

As soon as you hit the loop where i is 6 (i.e. after the item is removed) anything could happen. The Enumerator might have been invalidated due to you removing an item, everything might have "shuffled up by one" in the underlying collection causing an item to take the place of the removed one, meaning you "skip" one.

If you meant "why can't I change the value that is provided on each iteration" then, if the collection you're working with contains value types, any changes you make won't be preserved as it's a value you're working with, rather than a reference.

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The foreach command uses the IEnumerable interface to loop throught the collection. The interface only defined methods for stepping through a collection and get the current item, there is no methods for updating the collection.

As the interface only defines the minimal methods required to read the collecton in one direction, the interface can be implemented by a wide range of collections.

As you only access a single item at a time, the entire collection doesn't have to exist at the same time. This is for example used by LINQ expressions, where it creates the result on the fly as you read it, instead of first creating the entire result and then let you loop through it.

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Not sure what you mean with read-only but I'm guessing that understanding what the foreach loop is under the hood will help. It's syntactic sugar and could also be written something like this:

IEnumerator enumerator = list.GetEnumerator();
   T element = enumerator.Current;
   //body goes here

If you change the collection (list) it's getting hard to impossible to figure out how to process the iteration. Assigning to element (in the foreach version) could be viewed as either trying to assign to enumerator.Current which is read only or trying to change the value of the local holding a ref to enumerator.Current in which case you might as well introduce a local yourself because it no longer has anything to do with the enumerated list anymore.

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foreach works with everything implementing the IEnumerable interface. In order to avoid synchronization issues, the enumerable shall never be modified while iterating on it.

The problems arise if you add or remove items in another thread while iterating: depending on where you are you might miss an item or apply your code to an extra item. This is detected by the runtime (in some cases or all???) and throws an exception:

System.InvalidOperationException was unhandled
  Message="Collection was modified; enumeration operation may not execute."

foreach tries to get next item on each iteration which can cause trouble if you are modifying it from another thread at the same time.

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