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Is it possible to write a method which takes any ordinal type as a parameter? The same way Inc() or High() do?

I'm using Delphi 2007

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2  
What are you trying to do? Aren't plain overloaded methods a solution? –  Cosmin Prund Apr 4 '11 at 15:41
    
with overloaded methods I'd need to write a new method for every enumeration I wanted to use. –  James Barrass Apr 4 '11 at 15:47
1  
@JamesB, So? Your question ask if it's possible to write a function that take any ordinal. Overloading is a valid way to do it. David's answer is the closest you can get to Inc() or High(). You didn't say anywhere in your question what your function would be doing, or what kind of ordinal it would receive in parameter. And even though enumeration are "technically" ordinal, they would be more properly described as an "array of bits" (Both in concept and implementation). Also, the size of an enumeration is variable, (8 to 256 bits), which makes it a lot harder to write a generic method. –  Ken Bourassa Apr 5 '11 at 7:02
    
@Ken Bourassa, a set of enumeration is an array of bits, an enumeration is just a list of named constants, with ascending values (unless you go out of your way to manually assign values). They're very much enumerations. –  Cosmin Prund Apr 5 '11 at 10:16
    
@Cosmin, My bad... I guess I should stop answering questions @ 3:00 AM. lol. –  Ken Bourassa Apr 5 '11 at 17:17

3 Answers 3

up vote 6 down vote accepted

You'd need to use an untyped parameter:

procedure Foo(const ordinal);

or

procedure Foo(var ordinal);

Of course, you are somewhat limited in what you could do inside such a routine because you have abandoned the type system.

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Is the size of the ordinal guaranteed to be 4 bytes? –  James Barrass Apr 4 '11 at 15:38
    
No it is not... –  David Heffernan Apr 4 '11 at 15:38
3  
Well, now you can pass anything to these procedures, not only ordinals. So this is not how inc etc. works. (Indeed, code insight says that the argument of inc is var X: ordinal. But this behaviour you can't get in a proc/func of your own, I think.) –  Andreas Rejbrand Apr 4 '11 at 15:38
1  
@Warren I agree. Question specifically wanted to bypass type system. –  David Heffernan Apr 4 '11 at 17:51
2  
+1, You can also pass the number of bytes, like procedure Foo(var AOrdinal; Size: Integer); and call it Foo(MyOrdinal, SizeOf(MyOrdinal)). That way your routine can handle ordinals of different sizes. Kind of hack, if you want... but very fast and convenient. –  jachguate Apr 4 '11 at 19:02

Found a possible way, might not be what you expect, but hey, I found a way! Use Variants. The problem with passing typeless parameters to a procedure is that you get a plain pointer, no type information, so you can't do anything useful with it. Bytes are 1 byte, enums of up to 256 elements are 1 byte byte, enums of up to 2^16 elements are 2 bytes, integers are 4 bytes (unless they're 8). But there is one type that allows anything to be passed and cares enough type information to make things work: the Variant. I intentionally wrote the following example in Delphi 7, to make sure I don't accidentally use any Delphi 2010 or Delphi XE goodness.

Edit: Updated the code sample to handle any type that's considered Ordinal by the Variants.VarTypeIsOrdinal. That includes all integer types + Boolean. Apparently Enum is seen as Byte, so it swallows that too.

program Project1;

{$APPTYPE CONSOLE}

uses
  ExceptionLog,
  SysUtils, Variants;

type TSomeEnum = (e0, e1, e2, e3, e4);

procedure DoSomethingWithEnum(V: Variant);
var i: Integer;
    b: Byte;
    lw: LongWord; // Cardinal!
    i64: Integer;
begin
  case VarType(V) of
    varInt64:
      begin
        i64 := V;
        WriteLn(i64);
      end;
    varSmallint, varInteger, varShortInt:
      begin
        i := V;
        WriteLn(i);
      end;
    varByte:
      begin
        b := V;
        WriteLn(b);
      end;
    varWord, varLongWord:
      begin
        lw := V;
        WriteLn(lw);
      end;
    varBoolean:
      begin
        if V then WriteLn('True') else WriteLn('False');
      end;
    else WriteLn('NOT a variant type (type = #' + IntToStr(Ord(VarType(V))));
  end;
end;

var i: Integer;
    b: Byte;
    c: Cardinal;
    enum: TSomeEnum;
    w: Word;
    si: Shortint;

begin
  i := 1;
  b := 2;
  c := 3;
  enum := e4;
  w := 5;
  si := -6;

  DoSomethingWithEnum(i);
  DoSomethingWithEnum(b);
  DoSomethingWithEnum(c);
  DoSomethingWithEnum(enum);
  DoSomethingWithEnum(True);
  DoSomethingWithEnum(w);
  DoSomethingWithEnum(si);

  Readln;
end.
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1  
Runtime Performance of variants leaves a lot to be desired. –  Warren P Apr 4 '11 at 17:41
2  
@Warren, Variants might not be as fast as we'd like them to be, but they're not that slow either. –  Cosmin Prund Apr 4 '11 at 18:25

The reason why doing this is difficult is that Inc(x), Dec(x) and others like Pred(x) and Succ(x) are actually, generated by the compiler, and are, if you like, merely Function style syntax sugar over an inherent compiler operation.

You can, as some people suggest, do some of this with overloading, some of it with clever use of generics, and some of it with variants. But nothing will be as convenient for emulating these functions, or exactly the same functionally.

The compiler implements Inc() for example, for all ordered types, including Enums, Integers, and subranges on those types (a now rather obscure feature of classic "Wirth" Pascal is that all types can have subranges defined on those types).

If you actually told us more about what you were doing, it might be possible to get closer. But the general answer is, No, there isn't even source code for Inc, and Dec, because these are compiler primitives. If there was RTL source code to the function Inc, you could go look at it, and adapt it.

inc(x) could be defined as x := Succ(x), but then, how do you define Succ(x)? As x := Inc(x)? You see. At some point, compiler "magic" takes over.

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