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CompilationRepresentationFlags.UseNullAsTrueValue can be used to

Permit the use of null as a representation for nullary discriminators in a discriminated union

Option.None is the most prominent example of this.

Why is this useful? How is a null check better than the traditional mechanism for checking union cases (the generated Tag property)?

It leads to perhaps unexpected behavior:

Some(1).ToString() //"Some(1)"
None.ToString()    //NullReferenceException

EDIT

I tested Jack's assertion that comparing to null instead of a static readonly field is faster.

[<CompilationRepresentation(CompilationRepresentationFlags.UseNullAsTrueValue)>]
type T<'T> =
  | Z
  | X of 'T

let t = Z

Using ILSpy, I can see t compiles to null (as expected):

public static Test.T<a> t<a>()
{
    return null;
}

The test:

let mutable i = 0
for _ in 1 .. 10000000 do
  match t with
  | Z -> i <- i + 1
  | _ -> ()

The results:

Real: 00:00:00.036, CPU: 00:00:00.046, GC gen0: 0, gen1: 0, gen2: 0

If the CompilationRepresentation attribute is removed, t becomes a static readonly field:

public static Test.T<a> t<a>()
{
    return Test.T<a>.Z;
}

public static Test.T<T> Z
{
    [CompilationMapping(SourceConstructFlags.UnionCase, 0)]
    get
    {
        return Test.T<T>._unique_Z;
    }
}

internal static readonly Test.T<T> _unique_Z = new Test.T<T>._Z();

And the results are the same:

Real: 00:00:00.036, CPU: 00:00:00.031, GC gen0: 0, gen1: 0, gen2: 0

The pattern match is compiled as t == null in the former case and t is Z in the latter.

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2 Answers 2

up vote 3 down vote accepted

Jack's answer seems good, but to expand a little bit, at the IL level the CLR provides a specific opcode for loading null values (ldnull) and efficient means of testing for them (ldnull followed by beq/bne.un/ceq/cgt.un). When JITted, these should be more efficient than dereferencing a Tag property and branching accordingly. While the per-call savings are probably small, option types are used frequently enough that the cumulative savings may be significant.

Of course, as you note there is a tradeoff: methods inherited from obj may throw null reference exceptions. This is one good reason to use string x/hash x/x=y instead of x.ToString()/x.GetHashCode()/x.Equals(y) when dealing with F# values. Sadly, there is no (possible) equivalent of x.GetType() for values represented by null.

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It seems to use a type test (is) instead of checking Tag, which appears to be as fast as a null check. –  Daniel Aug 14 '12 at 20:52
1  
Type tests aren't as fast as null checks in general (though they may be in some cases). Also, their performance may have been different in the .NET 2.0 days, when F# was originally implemented. –  kvb Aug 14 '12 at 20:56
    
If that's true (I'd love to have proof) then this seems to go the farthest toward explaining it. –  Daniel Aug 14 '12 at 20:58
2  
Daniel, just think of it this way: what underlying CPU instructions need to be emitted (by the JIT compiler) then executed at run-time for null checks and type tests. Null checks can be compiled to a single CPU instruction, a type test is almost always going to be more than that since it'll need to call into the CLR to perform the type test. Even if they did some really advanced optimizations, it's still going to require more than one CPU instruction. –  Jack P. Aug 14 '12 at 21:05

The F# compiler sometimes uses null as a representation for None because it's more efficient than actually creating an instance of FSharpOption<'T> and checking the Tag property.

Think about it -- if you have a normal F# type (like a record) that's not allowed to be null, then any pointer to an instance of that type (the pointer used internally by the CLR) will never be NULL. At the same time, if T is a type which can represent n states, then T option can represent n+1 states. So, using null as a representation for None simply takes advantage of that one extra state value which is available by the fact that F# types aren't allow to be null.

If you want to try turning this behavior off (for normal F# types), you can apply [<AllowNullLiteral(true)>] to them.

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How is this better than representing nullary cases as static readonly fields, like String.Empty? –  Daniel Aug 14 '12 at 19:49
1  
Nullary cases in union types are generally compiled as static readonly fields. Using null to represent None is a specific optimization for the 'T option type, since it's just quite often and the CLR can generate slightly more efficient code this way. –  Jack P. Aug 14 '12 at 19:52
    
[<AllowNullLiteral>] allows you to assign null to some variable typed with some standard (i.e., non-nullable) F# type, like a record. If you apply that attribute to an F# type (record, union, class, etc.) then write some code which uses an 'T option version of that type, you'll see that the compiler uses the static readonly field version of None (FSharpOption.None). –  Jack P. Aug 14 '12 at 19:56
    
That seems to contradict your assertion that it is more efficient than new'ing up instances of FSharpOption<'T>, since that would be unnecessary for a nullary field. –  Daniel Aug 14 '12 at 19:58
    
It's a good answer. It just seems like a nano-optimization. –  Daniel Aug 14 '12 at 20:01

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