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Suppose I have an existing assembly, and some of the classes have overloaded methods, with default behavior or values assumed for some of those overloads. I think this is a pretty typical pattern;

Type2 _defaultValueForParam2 = foo;
Type3 _defaultValueForParam3 = bar;

public ReturnType TheMethod(Type1 param1)
   return TheMethod(param1, _defaultValueForParam2);
public ReturnType TheMethod(Type1 param1, Type2 param2)
   return TheMethod(param1, param2, _defaultValueForParam3);
public ReturnType TheMethod(Type1 param1, Type2 param2, Type3 param3)
   // actually implement the method here. 

And I understand that optional params in C# is supposed to let me consolidated that down to a single method. If I produce a method with some params marked optional, will it work with downlevel callers of the assembly?

EDIT: By "work" I mean, a downlevel caller, an app compiled with the C# 2.0 or 3.5 compiler, will be able to invoke the method with one, two or three params, just as if I had used overloads, and the downlevel compiler won't complain.

I do want to refactor and eliminate all the overloads in my library, but I don't want to force the downlevel callers using the refactored library to provide every parameter.

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Your idea about the c# compiler creating overloads in IL behind the scenes sounds intriguing. It would seem to be the ideal solution, since it doesn't require special knowledge on the clients' part. –  Robert Harvey Jun 11 '09 at 21:54
@Robert: It would be ideal only for solving this particular issue, which is probably not a major design focus. This is a C# 4.0 feature intended for C# 4.0 consumers. Having auto-generated overloads causes problems, too. Having just 4 optional parameters would require 16 different overloads (2 to the 4th power), increasing code size, complicating overload resolution, and making intellisense difficult to navigate. It also wouldn't work if any two of those optional parameters was of the same type. If you had void Foo(int a = 0, int b = 0), overloading wouldn't work to differentiate them. –  P Daddy Jun 12 '09 at 5:58

3 Answers 3

up vote 1 down vote accepted

I haven't read the docs on the new language standard, but I would assume that your pre-4.0 callers will have to pass all declared parameters, just as they do now. This is because of the way parameter-passing works.

When you call a method, the arguments are pushed onto the stack. If three 32-bit arguments are passed, then 12 bytes will be pushed onto the stack; if four 32-bit arguments are passed, then 16 bytes will be pushed onto the stack. The number of bytes pushed onto the stack is implicit in the call: the callee assumes that the correct number of arguments was passed.

So if a function takes four 32-bit parameters, it will look on the stack at the 16 bytes preceding the return address of the caller. If the caller has passed only 12 bytes, then the callee will read 4 bytes of whatever was already on the stack before the call was made. It has no way of knowing that all 16 expected bytes was not passed.

This is the way it works now. There's no changing that for existing compilers.

To support optional parameters, one of two things has to happen:

  1. The caller can pass an additional value that explicitly tells the callee how many arguments (or bytes) were pushed onto the stack. The callee can then fill in the default values for any omitted parameters.
  2. The caller can continue passing all declared parameters, substituting default values (which would be read from the callee's metadata) for any optional parameters omitted in the code. The callee then reads all parameter values from the stack, just as it does now.

I suspect that it will be implemented as in (2) above. This is similar to how it's done in C++ (although C++, lacking metadata, requires that the default parameters be specified in the header file), is more efficient that option (1), as it is all done at compile time and doesn't require an additional value to pushed onto the stack, and is the most straightforward implementation. The drawback to option (2) is that, if the default values change, all callers must be recompiled, or else they will continue to pass the old defaults, since they've been compiled in as constants. This is similar to the way public constants work now. Note that option (1) does not suffer this drawback.

Option (1) also does not support named parameter passing, whereby given a function declared like this:

static void Foo(int a, int b = 0, int c = 0){}

it can be called like this:

Foo(1, c: 2);

Option (1) could be modified to allow for this, by making the extra hidden value a bitmap of omitted arguments, where each bit represents one optional parameter. This arbitrarily limits the number of optional parameters a function can accept, although given that this limitation would be at least 32, that may not be such a bad thing. It does make it exceedingly unlikely that this is the actual implementation, however.

Given either implementation, the calling code must understand the mechanics of optional parameters in order to omit any arguments in the call. Additionally, with option (1), an extra hidden parameter must be passed, which older compilers would not even know about, unless it was added as a formal parameter in the metadata.

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So would it be fair to say that Cheeso will be alright if he recompiles his clients in c# 4.0? –  Robert Harvey Jun 11 '09 at 21:30
Of course. By design. –  P Daddy Jun 11 '09 at 21:42
yes, I think that goes without saying. But the clients are not all "mine" and I can't force them to use C# 4.0. So. –  Cheeso Jun 11 '09 at 21:43
I am a little surprised that it would require this degree of understanding of c# compiler internals to make proper use of the language. –  Robert Harvey Jun 11 '09 at 22:54
@Robert: You actually don't need to know detailed internals to use the language, although knowing how things work under the hood helps you make better use of the language. It sometimes is necessary to know the dirty details though, if you need to know why something works the way it does. –  P Daddy Jun 12 '09 at 6:05

In c# 4.0, when an optional parameter is omitted, a default value for that parameter is substituted, to wit:

public void SendMail(string toAddress, string bodyText, bool ccAdministrator = true, bool isBodyHtml = false)
    // Full implementation here   

For your downlevel callers, this means that if they use one of the variants that is missing parameters, c# will substitute the default value you have provided for the missing parameter. This article explains the process in greater detail.

Your existing downlevel calls should all still work, but you will have to recompile your clients in c# 4.0.

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So what you are saying is, I cannot use [optional params] to refactor my assembly, if I Want to support downlevel consumers of the assembly, unless I am happy with the downlevel guys specifying all params for every method invocation. –  Cheeso Jun 11 '09 at 19:40
I clarified my answer. Sorry about the confusion. –  Robert Harvey Jun 11 '09 at 19:46
Isn't that default value substituted by the caller, not the callee? That would mean that the compiler for the calling code would have to understand the default parameters, so pre-4.0 consumers will not work, at least without specifying all the arguments. –  P Daddy Jun 11 '09 at 19:58
The default value is baked into the code when the application is compiled. Perhaps my example is not clear. defaultValue2 and defaultValue3 are constants. –  Robert Harvey Jun 11 '09 at 20:06
I updated my answer with a better example, and a link to an article that explains the process. –  Robert Harvey Jun 11 '09 at 20:11

Well, I think that if you replace all 3 methods by a single method with optional parameters, the code that uses your library will still work, but will need to be recompiled.

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Not true. the downlevel clients will not work. –  Cheeso Jul 8 '09 at 3:21
When I posted that answer, you had not specified that the downlevel clients where compiled with .NET 2.0 or 3.5... so it was true before you edited your post ! Downvoting because my answer became incorrect after your edit seems a bit unfair... –  Thomas Levesque Jul 8 '09 at 10:09
+1, giving your downvote back. –  Robert Harvey Jul 18 '09 at 21:53

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