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Imagine this struct :

        struct Person
             public string FirstName { get; set; }
             public string LastName { get; set; }

And following code :

        var list = new List<Person>();
        list.Add(new Person { FirstName = "F1", LastName = "L1" });
        list.Add(new Person { FirstName = "F2", LastName = "L2" });
        list.Add(new Person { FirstName = "F3", LastName = "L3" });

        // Can't modify the expression because it's not a variable
        list[1].FirstName = "F22";

When I want to change Property's value it gives me the following error:

Can't modify the expression because it's not a variable

While, when I tried to change it inside an array such as Person[] it worked without any error.Is there any problem with my code when using with generic collections?

share|improve this question
Why is your person no class? –  Tim Schmelter Feb 18 '13 at 20:56
Having a mutable struct is not a good idea - can't you use a class? –  Jay Feb 18 '13 at 20:57
Try looking at this - it's an explanation on MSDN: msdn.microsoft.com/query/… - It is because value types are copied on assignment... When you retrieve a value type from a property or indexer, you are getting a copy of the object, not a reference to the object itself. –  Jay Feb 18 '13 at 21:00
There is already a good answer to exactly the same question stackoverflow.com/questions/414981/… –  Ilya Ivanov Feb 18 '13 at 21:01
@Ginosaji how do you know it, if General rule of thumb is to never use struct ? –  Ilya Ivanov Feb 18 '13 at 21:03

3 Answers 3

up vote 9 down vote accepted

When you return the struct via the List[] indexer, it returns a copy of the entry. So if you assigned the FirstName there, it would just be thrown away. Hence the compiler error.

Either rewrite your Person to be a reference type class, or do a full reassignment:

Person person = list[1];
person.FirstName = "F22";
list[1] = person;

Generally speaking, mutable structs bring about issues such as these that can cause headaches down the road. Unless you have a really good reason to be using them, you should strongly consider changing your Person type.

Why are mutable structs evil?

share|improve this answer
+1 The read/modify/writeback approach you show about is IMHO the cleanest way to code this, since it makes it very obvious what part of the structure is changed. Code like list[1] = new Person("F22", list[1].LastName); is far less clear, and more likely to be wrong [e.g. if Person has an optional MiddleName parameter, the latter code would accidentally clear it--oops]. –  supercat Feb 18 '13 at 21:43

Obviously a part of the question is still unanswered. What is difference between List<Person> and Person[]. In term of getting element by index the List calls indexer (method) which returns copy of value-type instance, in opposite array by index returns not a copy but managed pointer to element at the index (used special IL instruction ldelema).

Of course mutable value-types are evil as mentioned in other answers. Look at the simple example.

var en = new {Ints = new List<int>{1,2,3}.GetEnumerator()};


share|improve this answer

Redo your struct as such:

    struct Person
         private readonly string firstName;
         private readonly string lastName;
         public Person(string firstName, string lastName)
             this.firstName = firstName;
             this.lastName = lastName;
         public string FirstName { get { return this.firstName; } }
         public string LastName { get { return this.lastName; } }

And following code as :

    var list = new List<Person>();
    list.Add(new Person("F1", "L1"));
    list.Add(new Person("F2", "L2"));
    list.Add(new Person("F3", "L3"));

    // Can modify the expression because it's a new instance
    list[1] = new Person("F22", list[1].LastName);

This is due to the copy semantics of struct. Make it immutable and work within those constraints and the problem goes away.

share|improve this answer
I dislike the "immutable" approach since one has to examine the code of the structure to know what the effect of list[1] = new Person("F22", list[1].LastName); is. If, for example, the Person class included a MiddleName field which would be initialized by an optional MiddleName parameter, the aforementioned statement would (likely accidentally) erase list[1].MiddleName. By contrast, if LastName is an exposed field, knowing that would be sufficient to determine that code in Chris Sinclair's answer wouldn't affect anything else. –  supercat Feb 19 '13 at 15:49

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