17

As far as I know, int.TryParse(string, out int) exists since Framework 2.0. So does int?.

Is there a reason to use an out parameter instead of returning an int? with HasValue set to true of false depending on the ability to convert ?

  • 3
    That would be a question for the .NET Framework development team. Most shops end up writing an extension method string called something along the lines of ToNullableInt implementing the behavior you desire themselves. I wouldn't be surprised if a future version of C# supports this natively. – Rob Epstein Aug 27 '14 at 11:23
  • Maybe because other languages do not have such a simple syntax for Nullables. E.g. in C++/CLI you have to write Nullable<int> result = int::TryParse(...). – Stephan Aug 27 '14 at 11:28
  • What reason do you have for treating any random string as null? Most potential uses I have seen of a conversion from string to int? are to convert an empty string to null, to convert a non-empty string to a valid int, and to reject random garbage like @($^V@Q(%^%(@B^N(. This would already not be a good fit for int.TryParse, regardless of its return type. Can you give a reasonable scenario in which TryParse returning T? is actually desirable? – user743382 Aug 27 '14 at 11:29
  • 3
    I don't know why this wasn't done in the past, but C# 6 will have an alternative solution with Declaration Expressions allowing you to do int.TryParse(string, out int myInt) without defining myInt beforehand. – Avner Shahar-Kashtan Aug 27 '14 at 11:31
  • 2
    I seem to remember a blog post by Eric Lippert that mentioned that if they were building the .TryParse() methods today, they'd return Nullable<T>, but it didn't exist at the time (or was at least not as good as it is now). I'll see if I can dig it up. – anaximander Aug 27 '14 at 11:41
21

I cannot tell about the actual reasons, but I see three possible reasons:

1) Nullable types were introduced in .NET 2.0, while the first TryParse methods were already around since .NET 1.1. Thus, when nullable types were introduced, it was too late for such an API change; and new classes wouldn't implement TryParse differently because the pattern had already been set.

2) Not all types can be used with the Nullable structure, only value types can. However, there are methods following the Try* pattern that have to return reference types. For example, a dictionary may totally legitimately contain null as an item, hence its TryGetValue method needs an additional way to express that a key was not found.

3) The way the Try*-methods are written, it is possible to write code like this:

int myValue;
if (int.TryParse("42", out myValue)) {
    // do something with myValue
}
    // do something else
}

Now, imagine if TryParse only returned an int?. You can either dispose of the myValue variable and lose the result:

if (int.TryParse("42").HasValue) {
    // do something with ... what? You didn't store the conversion result!
}
    // do something else
}

Or you can add a nullable variable:

int? myValue = int.TryParse("42");
if (myValue.HasValue) {
    // do something with myValue.Value
}
    // do something else
}

This isn't an advantage over the current version any more, and instead it requires writing myValue.Value at some later instances, where otherwise a simple value would have sufficed. Note that in many cases, you only need the information about whether the operation was successful for the if statement.

  • 1) I didn't know TryParse methods existed in Framework 1.0. 2) I didn't thought of that. 3) The number of lines isn't a problem. It's just that I find the out keyword a bit... unnatural to use in C#. – krimog Aug 27 '14 at 11:57
  • @krimog: Sorry, I corrected 1.0 to 1.1, as I couldn't find a 1.0 example now (but the conclusion of the statement is till the same, obviously). – O. R. Mapper Aug 27 '14 at 11:58
  • 2
    @krimog Why would using a language keyword be "unnatural" ? – asawyer Aug 27 '14 at 15:22
  • @asawyer : Well, I don't really like methods changing my references. Of course it is a language keywork (otherwise we couldn't do that and we wouldn't talk about it). But even if sometimes it can really help, still, I usually prefer returning the new value. Just my opinion though. – krimog Aug 27 '14 at 18:40
  • @krimog I prefer immutable methods as well, but out has it's place. Even goto has it's use now and then. – asawyer Aug 27 '14 at 18:51
21

The simple reason is because when int.TryParse was added to the language, Nullable<T> didn't exist.

In this blog post by Eric Lippert, there's a line towards the bottom that reads:

The solution is to write your own extension method version of TryParse the way it would have been written had there been nullable value types available in the first place

which makes it clear that nullable types were not available to be used in the original implementation of TryParse. Eric Lippert was on the team that wrote the C# compiler, so I'd say that's a pretty authoritative source.

  • 1
    Thanks for taking the time to find this ;) – krimog Aug 27 '14 at 12:10
  • 4
    Again Stackoverflow's Erik Lippert fanbase strikes again, just need to mention Eric Lippert and instant upvotes. :D – Rand Random Aug 27 '14 at 12:42
  • 2
    Who else can answer questions even when he's not answering questions? – Magus Aug 27 '14 at 14:50
5

Here's a quote from Julie Lerman's blog (Back from 2004):

I have played with nullable in the March preview bits, but not yet in the May and disappointed with the current (but slated for serious improvement by the bcl team!!!) performance when I compared the using nullable<t> over current options. So for example with value types:

comparing myNullableInt.HasValue to (in VB) is myInt < 0

or with reference types

comparing myNullableThing.HasValue to “if not myThing=null

the nullable type is currently much much slower. I have been promised by a few on the BCL team that the plan is to make the nullable MUCH more performant.

I have also been given the hint that in the future, the following will be possible:

Nullable<T> Parse(string value); 
Nullable<Int32> i = Int32.Parse( some String );

And will be more performant than TryParse. So that, too will be interesting.

I assume that as always, the benefit outweighs the cost.

Anyway, in the upcoming C# vNext, you can do:

DateTime.TryParse(s, out var parsedDateTime);

Turning TryParse into a one liner.

  • 2
    You can even now use a one-liner if you don't need a nullable: DateTime dt = DateTime.TryParse(s, out dt) ? dt : DateTime.MinValue; – Tim Schmelter Aug 27 '14 at 12:31
  • @TimSchmelter You're right, but a rather lengthy one liner :) – Yuval Itzchakov Aug 27 '14 at 15:28
4

One other possible reason:

Generics for .NET and C# in their current form almost didn't happen: it was a very close call, and the feature almost didn't make the cut for Whidbey (Visual Studio 2005). Features such as running CLR code on the database were given higher priority.

...

Ultimately, an erasure model of generics would have been adopted, as for Java, since the CLR team would never have pursued a in-the-VM generics design without external help.

source: http://blogs.msdn.com/b/dsyme/archive/2011/03/15/net-c-generics-history-some-photos-from-feb-1999.aspx

My point being: the majority of changes in the BCL (or at least those not directly related to generics) probably needed to work both with and without generics, in case that feature was cut in the final RTM.

Of course, this also makes sense from a calling client perspective: all the consuming languages (ok, there weren't as many back then) would ideally have been able to use them - and out parameters weren't as cutting-edge as generics.

3

As to reasons we can only guess, but some possible reasons are:

Assignment overhead: a boxed value incurs some (small) performance overhead over a built in type.

No real gains:

int res;
if int.TryParse("one", out res) {
  //something
}

isn't much worse than

int? res = int.TryParse("one");
if (res.HasValue){
  int realres = res.Value
  //something
}
  • 5
    This isn't "boxed"; at least, not in the usual meaning of boxing in .NET; an int? requires 8 bytes on the stack; an int and a bool: require 8 bytes on the stack... but: a bool and a ref int could actually take 12 bytes on the stack (in x64) ;p Meaning: the out version actually takes more assignment, plus of course a few extra de-reference operations that aren't necessary in the other. My point: both have costs. – Marc Gravell Aug 27 '14 at 11:36
  • @MarcGravell : Doesn't out box the value ? – krimog Aug 27 '14 at 12:06
  • 1
    @krimog no, it does not; it simply passes the address of the field/local - which can be an address on the stack. It explicitly does not create a box. – Marc Gravell Aug 27 '14 at 13:22

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