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TL;DR: the F# compiler interprets int in this context as the int operator rather than as the type alias, as initially determined by Eugene Fotin and expanded upon by Gene Belitski. The best workaround is to eliminate the ambiguity by using System.Int32.MaxValue or defining a unique type alias as described below.

Consider the following record type:

type Foo = {
    Bar : string

Let's say I want Bar to have a minimum length of three characters, so I use the StringLength attribute. Since the maximumLength parameter is required, I set it to int.MaxValue:

type Foo = {
    [<StringLength(int.MaxValue, MinimumLength=3)>]
    Bar : string

This gives me the following error:

This is not a valid constant expression or custom attribute value.

However, if I use System.Int32 directly, everything is peachy:

type Foo = {
    [<StringLength(System.Int32.MaxValue, MinimumLength=3)>]
    Bar : string

It also compiles fine if I alias int:

type Foo = {
    [<StringLength(num.MaxValue, MinimumLength=3)>]
    Bar : string
and num = int

It also compiles if I fully qualify the type:

type Foo = {
    [<StringLength(, MinimumLength=3)>]
    Bar : string

I checked in the F# source and int is defined exactly as you would expect:

type int32 = System.Int32
// Then, a few lines later…
type int = int32

What's going on? I assumed that F# primitive types were interchangeable with other types in most contexts, but it looks like something is missing from my mental model.

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2 Answers 2

up vote 10 down vote accepted

That's how F# type inference works in different contexts with different syntactic entities coincidentally having the same name, which in case of int may be any of:

  • function int:'T->int of full name
  • type int = int32 of full name
  • type int<'Measure> = int of full name<_>

One way to demo this workings would be the following scenario: if we just enter


in FSI we'll get something like

val it : (int -> int) = <fun:it@3>

in other words, it's a function that cannot have MaxValue property associated with it:

> int.MaxValue;;


... error FS0039: The field, constructor or member 'MaxValue' is not defined

The same would apply to int32, which, when being used in a context of expression is inferred by FSI as just another function with signature (int -> int32).

Now when it comes to

type num = int

in this context int is inferred to be a type name abbreviation for System.Int32, so num is a type abbreviation as well, but now name ambiguity does not have place, so num.MaxValue is inferred exactly what we expect it to be, giving in FSI

> num.MaxValue;;
val it : int = 2147483647

Finally, when you use you explicitly refer to the type entity, there is no place for ambiguity, so it works as expected.

Back to your use case with attribute parameter - in this context int is treated by type inference as part of expression to deliver argument value, i.e. as function, unless you explicitly or indirectly set another interpretation.

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Looks like compiler treating int in an attribute's parameter as a conversion function int.

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You're right, that's what's going on. I wonder why that is? Something in the F# grammar, I guess? –  Jordan Gray Nov 28 '13 at 18:09

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