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I was recently attempting to answer a question that a user posted about why the decimal struct does not declare its Min/Max values as const like every other numeric primitive; rather, the Microsoft documentation states that it is static readonly.

In researching that, I dug through the Microsoft source code, and came up with an interesting discovery; the source (.NET 4.5) makes it look like a const which is in opposition to what the documentation clearly states (source and relevant struct constructor pasted below).

public const Decimal MinValue = new Decimal(-1, -1, -1, true, (byte) 0);
public const Decimal MaxValue = new Decimal(-1, -1, -1, false, (byte) 0);

public Decimal(int lo, int mid, int hi, bool isNegative, byte scale)
{
  if ((int) scale > 28)
    throw new ArgumentOutOfRangeException("scale", Environment.GetResourceString("ArgumentOutOfRange_DecimalScale"));
  this.lo = lo;
  this.mid = mid;
  this.hi = hi;
  this.flags = (int) scale << 16;
  if (!isNegative)
    return;
  this.flags |= int.MinValue;
}

The thread here continues to unravel, because I can't see how this would compile legally under the rules of C# - because while it still is technically a constant, the compiler thinks it isn't and will give you an error The expression being assigned to ... must be constant. Hence what I believe is the reason that the docs call it a static readonly.

Now, this begs a question: is this file from the Microsoft source server actually the source for decimal, or has it been doctored? Am I missing something?

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2  
I'm not certain of the details but know that the core .Net libraries are compiled in a non-standard way. One example of this is that circular references are allowed across assemblies (assembly 1 references a type in assembly 2 which in turn references a type in assembly 1). This would lead me to believe the compiler used for the core libraries isn't the stock one released to the public. That said, I can't find the article discussing the topic –  Basic Feb 1 at 19:39

1 Answer 1

up vote 19 down vote accepted

There are a few aspects of mscorlib and the like which wouldn't compile as-written, without some interesting hacks. In particular, there are some cyclic dependencies. This is another case, but I think it's reasonable to consider MaxValue and MinValue as being const as far as the C# compiler is concerned.

In particular, it's valid to use them within other const calculations:

const decimal Sum = decimal.MaxValue + decimal.MinValue;

The fields have the DecimalConstantAttribute applied to them, which is effectively a hack to get around an impedance mismatch between C# and the CLR: you can't have a constant field of type decimal in the CLR in the same way that you can have a constant field of type int or string, with an IL declaration using static literal ....

(This is also why you can't use decimal values in attribute constructors - there, the "const-ness" requirement is true IL-level constness.)

Instead, any const decimal declaration in C# code is compiled to a static initonly field with DecimalConstantAttribute applied to it specifying the appropriate data. The C# compiler uses that information to treat such a field as a constant expression elsewhere.

Basically, decimal in the CLR isn't a "known primitive" type in the way that int, float etc are. There are no decimal-specific IL instructions.

Now, in terms of the specific C# code you're referring to, I suspect there are two possibilities:

  • No, this isn't the exact source code used.
  • The C# compiler used to compile mscorlib and other core aspects of the framework may have special flags applied to allow such code, converting it directly to DecimalConstantAttribute

To a large extent you can ignore this - it won't affect you. It's a shame that MSDN documents the fields as being static readonly rather than const though, as that gives the mistaken impression that one can't use them in const expressions :(

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This certainly seems to be along the lines of what I was thinking, but you clearly know a lot more about the "guts" of .NET. I've heard that decimal is less primitive, but what makes it so? Is it due to implementation? –  theMayer Feb 1 at 20:14
2  
@rmayer06: It's not a primitive in terms of the CLR - for example, typeof(decimal).IsPrimitive returns false. The CLR doesn't have any special knowledge of decimal as far as I'm aware. –  Jon Skeet Feb 1 at 20:20
    
Interesting, thanks for your insights. –  theMayer Feb 1 at 20:22
    
"It's a shame that MSDN documents the fields as being static readonly ": Well much of the documentation is based upon the actual declarations as can be seen by Reflector or other decompilers. Just like String not being seen as sealed sometimes in the Object Browser, I think this is just another quirk. –  Mark Hurd Feb 2 at 11:46

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