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The first definition below produces the warning in the title when compiled with f# 3.0 and the warning level set to 5. The second definition compiles cleanly. I wondered if someone could please explain just what the compiler worries I might accidentally mutate, or how would splitting the expression with a let clause help avoid that. Many thanks.

let ticks_with_warning () : int64 =

let ticks_clean () : int64 =
   let t = System.DateTime.Now
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That warning is purely informational, feel free to ignore it. –  ildjarn Dec 6 '12 at 22:00
@ildjarn But what does it mean? Is F# being inefficient because of a false positive? –  Robert Jeppesen Dec 6 '12 at 22:49
@Robert : I'm not sure what it means, but given that int64 is a value type, it must be copied. I.e., the warning seems redundant to me if anything. –  ildjarn Dec 6 '12 at 22:54
@ildjarn I interpret the warning as 'Now' is being copied, basically that 'ticks_with_warning' is being expanded by the compiler to 'ticks_clean'? –  Robert Jeppesen Dec 6 '12 at 23:01
@Robert : Ah, yes, that seems sensible, but the code/behavior in Tomas' answer concerns me greatly. –  ildjarn Dec 7 '12 at 4:31

1 Answer 1

up vote 5 down vote accepted

I cannot really explain why the compiler emits this warning in your particular case - I agree with @ildjarn that you can safely ignore it, because the compiler is probably just being overly cautious.

However, I can give you an example where the warning might actually give you a useful hint that something might not go as you would expect. If we had a mutable struct like this:

type Test =
  val mutable ticks : int64
  member x.Inc() = x.ticks <- x.ticks + 1L
  new (init) = { ticks = init }

Now, the Inc method mutates the struct (and you can also access the mutable field ticks). We can try writing a function that creates a Test value and mutates it:

let foo () =
  let t = Test(1L)
  t.Inc()  // Warning: The value has been copied to ensure the original is not mutated

We did not mark the local value t as mutable, so the compiler tries to make sure the value is not mutated when we call Inc. It does not know whether Inc mutates the value or not, so the only safe thing is to create a copy - and thus foo returns the value Test(1L).

If we mark t as mutable, then the compiler does not have to worry about mutating it as a result of a call and so it does not give the warning (and the function returns Test(2L)):

let foo () =
  let mutable t = Test(1L)

I'm not really sure what is causing the warning in your example though. Perhaps the compiler thinks (as a result of some intermediate representation) that Ticks operation could mutate the left-hand-side value (System.DateTime.Now and t respectively) and it wants to prevent that.

The odd thing is that if you write your own DateTime struct in F#, you get a warning in both cases unless you mark the variable t as mutable (which is what I'd expect), but the behaviour with standard DateTime is different. So perhaps the compiler knows something about the standard type that I'm missing...

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"and thus foo returns the value Test(1L)." I find this behavior incredibly surprising – that is a major change in semantics from what one would expect the code to do, so why is this a level 5 warning when the default is level 3? One could sit and debug for hours trying to solve something like this... –  ildjarn Dec 7 '12 at 0:13
@ildjarn - I suspect the justification is this: In f# 2.0 there is warning so the default in F#3.0 can't have a warning either or it would break code if people use warnaserror. Interestingly C# has the same behaviour - see blogs.msdn.com/b/ericlippert/archive/2008/05/14/… –  John Palmer Dec 7 '12 at 2:40
@JohnPalmer : The C# code in that blog is altogether different – it takes a copy of a value type and then mutates the copy, and the output is completely unsurprising to anyone used to value semantics (as is the default in many languages e.g. C++). This code, on the other hand, just calls a method on a value type, and it's as though it never happened; this output I find entirely surprising, bordering nonsensical in the absence of compiler diagnostics. –  ildjarn Dec 7 '12 at 4:05
However, the copy is created very implicitly in the C# example. I think everyone agrees that in .NET (both C# and F#), value types should never be mutable. –  wmeyer Dec 7 '12 at 15:41
@ildjarn - So you'd like to get a warning on every call to any method on a value type? That's just going to be noise for the vast majority of calls (since the vast majority of value types are actually immutable, though this fact isn't exposed in the metadata). The lesson, as always, is that mutable value types are evil. –  kvb Dec 7 '12 at 15:43

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