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Is it possible for a class of exposing a type for function returns, without allowing users of that class to create variables of that type? A couple usage scenarios:

  1. A Fluent interface on a large class; a statement like "foo=bar.WithX(5).WithY(9).WithZ(19);" would be inefficient if it had to create three new instances of the class, but could be much more efficient if the WithX could create one instance, and the other statements could simply use it.
  2. A class may wish to support a statement like "foo[19].x = 9;" even when foo itself isn't an array, and does not hold the data in class instances that can be exposed to the public; one way to do that is to have foo[19] return a struct which holds a reference to 'foo' and the value '19', and has a member property 'x' which could call "foo.SetXValue(19, 9);" Such a struct could have a conversion operator to convert itself to the "apparent" type of foo[19].

In both of these scenarios, storing the value returned by a method or property into a variable and then using it more than once would cause strange behavior. It would be desirable if the designer of the class exposing such methods or properties could ensure that callers wouldn't be able to use them more than once. Is there any practical way to accomplish that?

Addendum

In formulating a question, it's difficult sometimes to draw the line between complicated usage cases, and simpler usage cases which aren't quite so important. Here's another usage case, and one closer to the one I'd be most interested in (though I'm also interested in Fluent chaining; being able to have something behave like a C++ reference to a value type would be nice, but probably too much work to bother with).

I have a type which is somewhat like the Windows registry, in that it is a hierarchical collection of items, each of which may have a string value, an integer value, and/or a nested collection of items. I wish to be able to support the following types of usage:

// Store "George" as string in MyCollection!Wow
MyCollection["Wow"].st = "George"
// Store "George" as string in MyCollection!This!That
MyCollection["This"]["That"].i = 9
// Throws exception if ["Wow"] doesn't exist in collection
someInteger = MyCollection["This"]["That"].i
// Throws exception if ["This"]["That"] doesn't exist in collection
someString = MyCollection["Wow"].st
// Uses 9 as default value if it doesn't exist
someInteger = MyCollection["Whatever"].ii(9)
// Uses "George" as default if it doesn't exist
someString = MyCollection["Multi"]["Level"]["Path"].sst("George")

Being able to index things directly is very nice (the actual code is in VB, so it's possible to use the "!" syntax, for better or for worse--that's another story). When evaluating a statement like:

MyCollection["This"]["that"].st = "George"
or

someString = MyCollection["This"]["that"].sst("George")

it's necessary to return some type of object for MyCollection["This"] without knowing whether the object will ultimately be used for reading or writing. In the latter case, if MyCollection["This"] doesn't already exist, it will need to be created. My present code simply creates the node regardless, but then tries to keep track of whether it "really" exists, which ends up being a nuisance. Many of these objects get deep-cloned, so copy-on-write would be highly desirable, but when even reading a data structure can change it, copy-on-write ends up being highly impractical.

A somewhat cleaner solution would be to have the indexer return a data structure which indicates the collection being indexed and the key value, and then have whatever operation will ultimately be done on it (e.g. "st") do all of the necessary indexing. This would improve the abstraction offered by the nested collection, and would also facilitate things like copy-on-write. One caveat is that if someone were to do something like:

MyEvilVariable = MyCollection["This"];
MyEvilVariable["Nasty1"].st = "I'm evil"
MyEvilVariable["Nasty2"].st = "Really evil"

the second usage of MyEvilVariable could break the collection.

As for the Fluent interface, my thought would be to have the WithXXX properties return a new instance of a derived class which shadows (not overrides!) the WithXXX properties with versions that simply modify the current instance. The return object from WithXXX would be known to be of the derived class, and would thus use the shadowed WithXXX methods, but once it was assigned to a variable, it would be regarded as an instance of the base class, so the next WithXXX would create a new instance.

C++ a stronger concept of value types than C# or vb.net, including the very useful concept of references to value types; it ensures that references to value types cannot be persisted outside the scope of the type in question. Unsafe code in C# can use pointers to value types, but they don't have the protections offered by C++ references.

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3 Answers 3

up vote 0 down vote accepted

I don't think there is. If there were then I would never use such an abuse of language.

  1. It could be even more efficient if WithXYZ(int,int,int) existed. Even better is to not worry about such efficiencies until you have measured that they are a significant issue.

  2. Don't try and obfuscate things through "nice" syntax. Just treat things as they are and everyone will be much less confused overall.

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1. Obviously xyz would be a logical combination of things to do as a unit, but X, Y, and Z were simply chosen as arbitrary property names; there are many types of objects which have a wide variety of properties one might want to set. 2. There are many cases where it's necessary to copy an object before changing it if multiple references may exist, but where the object may be mutated if only one reference exists. If there were a means of identifying at least some cases where only one reference could exist, that would seem useful. –  supercat Jan 6 '11 at 4:36
    
@supercat - In most cases the "saving" achieved by mutating instead of copying will have an unnoticeable effect on the run time of the application. Do you actually have profiler results that disagree with this? –  OrangeDog Jan 6 '11 at 9:56
    
Since my development machine is rather different from many of the machines that will be running the code in production, it's difficult to profile (since caching behavior varies so enormously among machines). At present I avoid chaining in many places because I know it won't be performant (deep cloning represents a non-trivial portion of run-time even though I use mutator methods directly in situations where I might otherwise use chaining). –  supercat Jan 6 '11 at 15:55
    
Yours is the best response, though I don't think there's nothing wrong with wanting foo.x[y].z to be a property whose setter ties back to foo, performing something like foo.set_x_z(y,value), but whose getter works "normally", as distinct from having foo.x[y] be a stand-alone object which may be used separately from the expression. That can be a useful abstraction in many situations, but it's somewhat leaky. The inability of .net to define a custom conversion from a structure to an Object creates a weakness in the abstraction which is bigger than that posed by creating new variables. –  supercat Jan 13 '11 at 20:47

Chaining aka Extension methods

This is commonly used in jQuery (to pull a different language and framework that a lot of people have some familiarity with) and I've seen lots of people doing it in C# stuff. If you need to see more C# examples let me know and I can quote you some links.

public MyClass WithX(this MyClass myClass, int x) {
    myClass.X = x;
    return myClass;
}

You're passing in a MyClass (with the this) and you're returning a MyClass (which just happens to be the one you passed in). However the following example does not work:

myClass.WithX(x);

Because you're not updating the underlying object, you're returning it. I doubt you would be doing anything that simple anyways, so I'm just pointing out what you could and couldn't do.


Class Indexer

You can declare an indexer on any class, just be aware that you're likely going to mess with people. You do it like thus:

public string this[int x]{
    return "I don't care what you just gave me " + x;
}

However, to make it more complex like foo[19].x = 9; is going to be a little trickier, even tho you'll just be doing something akin to

public Foo this[int x]{
    return "I don't care what you just gave me " + x;
}

I say trick because I don't see where this isn't an array if you're doing it like this. What does 19 mean in this instance? Are you setting the value of X to 19 then 9? You're going to confuse a lot of people with this syntax.

Note that a class can only have one indexer (that I'm aware of).


Some links:

http://msdn.microsoft.com/en-us/library/2549tw02.aspx - Indexers

http://msdn.microsoft.com/en-us/library/6x16t2tx.aspx - Indexers

http://msdn.microsoft.com/en-us/library/bb383977.aspx - Extension methods

Go crazy with the new knowledge and let me know what I'm missing or not explaining enough to get you started.

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+1 for good info and warning how cryptic class indexing can get. I've done some pretty oddball stuff with indexing. ;) –  IAbstract Jan 6 '11 at 2:09
    
An array of small mutable structs (e.g. Point) can hold information much more efficiently than an array of objects. The usage ArrayOfPoints[19].X = 9; would be the normal way of setting the X coordinate of point 19 to the value nine. To achieve analogous behavior with some other collection, SomeOtherCollectionOfPoints["George"].X = 9; seems more natural than SetXCoordinateOfNamedPoint("George", 9); –  supercat Jan 6 '11 at 9:50
    
But that's still an array yeah? You seemed to imply "not an array" –  jcolebrand Jan 6 '11 at 12:29
    
The data may be stored internally as an array, and outside access may be similar to an array, but that doesn't mean the class is going to expose its internal array directly. Consider, for example, a ResizeableArray class, which holds a reference to an array and should be indexable like a normal array. It would be nice to have such an array behave like a normal array of structs, including being able to set fields thereof, but such a thing ISN'T an array. –  supercat Jan 7 '11 at 0:50
    
@Supercat ~ I really don't know what you're talking about on that last post. An array is a set of objects that can be accessed by specification of the member (indexable). What the actual content of that node of the array looks like depends on the way it is defined. Having an array of structs or an array of ints makes no difference to me. All array's should (to my way of thinking) be resizable. I think you're abstracting away implementation details by calling it such, but otherwise it's still just an array. When you say array, are you thinking like a C# list? –  jcolebrand Jan 7 '11 at 0:54

Can you not define the constructer methods as internal? This should allow you to create objects inside your code but not outside of your code.

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The issue isn't with creating objects outside the code, but rather with allowing outside code to persist a reference to an object. –  supercat Jan 6 '11 at 4:38
    
If the code uses your object, they can persist a reference to it. That would be the nature of programming. –  jcolebrand Jan 7 '11 at 0:55
    
drachenstern: The issue is that the object may not be good for very long. If an object Foo allows code to access Foo.x.y.z, the object returned by Foo.x has to be valid long enough to access Foo.x.y, but might be invalid after that (indeed, it might be invalidated by the access of Foo.x.y). It would be nice to have a means of strongly suggesting that Foo.x shouldn't be persisted, since it's not going to be meaningful anyway. –  supercat Jan 7 '11 at 16:29
    
It's called throw an error and document it in the API. –  jcolebrand Jan 7 '11 at 17:28

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