Three valued logic in Delphi

How to best implement a three valued logic in Delphi?

I was thinking of

``````type
TExtBoolean = (ebTrue, ebFalse, ebUnknown);
``````

with

``````function ExtOr(A: TExtBoolean; B: TExtBoolean): TExtBoolean;
begin
if (A = ebTrue) or (B = ebTrue) then
Result := ebTrue
else if (A = ebFalse) and (B = ebFalse) then
Result := ebFalse
else
Result := ebUnknown;
end;
``````

and so on.

But that does not seem to be very elegant. Does a better way exist?

Edit: With elegance I mean easy to use. The more elegant the implementation, the better. CPU-efficiency is not (that) important for me.

-
I see nothing wrong with using enums. And it's easy to extend. (not exactly 3 valued logic) Where I work gender first was: "male,female" then became : "male,female,unknown" then became : "male,female,unknown,not applicable." –  Pieter B Oct 23 '13 at 10:19
@PieterB ...but the two answers allow a more elegant usage. And I think it is more "generic" than male/female. –  yonojoy Oct 23 '13 at 10:36
Thank you very much for both answers, I wasn't aware that operator overloading is available in D2006 (but it is:). Both answers seem to provide the elegant solution I was looking for (+1). I'll tinker around a little bit and than I'll decide, which one to finally accept. –  yonojoy Oct 23 '13 at 10:38
I would put Unknown before True/False - if ever you forget to set the result of a value it will always default to the first value of the enum. The negative side of this is that the ordinal values will deviate from the Boolean enum –  Matt Allwood Oct 23 '13 at 12:15
@MattAllwood Value types are not default initialised when they are local variables or return values –  David Heffernan Oct 23 '13 at 13:23

You could implement an enhanced record with operator overloading. It would look like this:

``````type
TTriBool = record
public
type
TTriBoolEnum = (tbFalse, tbTrue, tbUnknown);
public
Value: TTriBoolEnum;
public
class operator Implicit(const Value: Boolean): TTriBool;
class operator Implicit(const Value: TTriBoolEnum): TTriBool;
class operator Implicit(const Value: TTriBool): TTriBoolEnum;
class operator Equal(const lhs, rhs: TTriBool): Boolean;
class operator LogicalOr(const lhs, rhs: TTriBool): TTriBool;
function ToString: string;
end;

class operator TTriBool.Implicit(const Value: Boolean): TTriBool;
begin
if Value then
Result.Value := tbTrue
else
Result.Value := tbFalse;
end;

class operator TTriBool.Implicit(const Value: TTriBoolEnum): TTriBool;
begin
Result.Value := Value;
end;

class operator TTriBool.Implicit(const Value: TTriBool): TTriBoolEnum;
begin
Result := Value.Value;
end;

class operator TTriBool.Equal(const lhs, rhs: TTriBool): Boolean;
begin
Result := lhs.Value=rhs.Value;
end;

class operator TTriBool.LogicalOr(const lhs, rhs: TTriBool): TTriBool;
begin
if (lhs.Value=tbTrue) or (rhs.Value=tbTrue) then
Result := tbTrue
else if (lhs.Value=tbFalse) and (rhs.Value=tbFalse) then
Result := tbFalse
else
Result := tbUnknown;
end;

function TTriBool.ToString: string;
begin
case Value of
tbFalse:
Result := 'False';
tbTrue:
Result := 'True';
tbUnknown:
Result := 'Unknown';
end;
end;
``````

Some sample usage:

``````var
x: Double;
tb1, tb2: TTriBool;

tb1 := True;
tb2 := x>3.0;
Writeln((tb1 or tb2).ToString);

tb1 := False;
tb2.Value := tbUnknown;
Writeln((tb1 or tb2).ToString);
``````

which outputs:

```True
Unknown
```
-
won't Delphi complain on `case Value of` that not all values were covered in .ToString? at least XE2 tends to complain in this case and after some thought i agreed it was right. –  Arioch 'The Oct 23 '13 at 9:16
@Arioch'The Which value is not handled? What is the warning number that you are referring to? –  David Heffernan Oct 23 '13 at 9:21
`TTriBool.TTriBoolEnum(3)`, `TTriBool.TTriBoolEnum(4)`, ... `TTriBool.TTriBoolEnum(255)` After hitting few uncovered cases after extending old code, i am inclined that the forward-compatibiltiy (or rather explicit forward incompatibility) is a good thing to have. Add there not-initialized variables as well. Yes, that is defensive programming, but TS said he was not very CPU-bound. Also i stated those concerns in the comments in my code. –  Arioch 'The Oct 23 '13 at 9:24
@Arioch'The Which warning number please? –  David Heffernan Oct 23 '13 at 9:27
pastebin.com/vbEArLdj –  Arioch 'The Oct 23 '13 at 9:32

AS. What did you mean by elegancre here ? Elegance of implementation or elegance of use or CPI-effieciency or maintainability ? Elegance is a very vague word...

I think the obvious way to make it easier to use is converting the type to be usable in the fashion like `ExtBoolean1 or (ExtBoolean2 and True)`.

However the features required might be in or short before Delphi 2006 (quite a buggy release per se), so take your `DUnit` and do a lot of tests..

To list the features to be used and their descriptions:

1. Enhanced Records: When should I use enhanced record types in Delphi instead of classes? and http://delphi.about.com/od/adptips2006/qt/newdelphirecord.htm and manual
2. Operation overloading, including implicit typecasts: What operator do I overload when assigning an "Enhanced Record" to a normal "Data Type" variable? and Operator Overloading in Delphi and manual
3. Functions inlining: what is use of inline keyword in delphi and manual

To outline some of those ideas:

``````type
TExtBoolean = record
Value: (ebUnknown, ebTrue, ebFalse);

function IsNull: boolean; inline;
function Defined: boolean; inline;

class operator Implicit ( from: boolean ): TExtBoolean; inline;
class operator Implicit ( from: TExtBoolean ): boolean;
class operator LogicalAnd( Value1, Value2: TExtBoolean ):   TExtBoolean;
class operator LogicalAnd( Value1: TExtBoolean; Value2: boolean):  TExtBoolean; inline;
class operator LogicalAnd( Value1: boolean; Value2: TExtBoolean ):   TExtBoolean;
....
end;

const Unknown: TExtBoolean = (Value: ebUnknown);

...
var v1: TExtBoolean;
v1 := False;
v1 := True;
v1 := Unknown;
...

class operator TExtBoolean.Implicit ( from: boolean ): TExtBoolean;
begin
if from
then Result.Value := ebTrue
else Result.Value := ebFalse
end;

class operator TExtBoolean.Implicit ( from: TExtBoolean ): Boolean;
begin
case from.Value of
ebTrue: Result := True;
ebFalse: Result := False;
else raise EConvertError.Create('....');
end;

function TExtBoolean.Defined: boolean;
begin
Result := (Self.Value = ebTrue) or (Self.Value = ebFalse);
end;

// this implementation detects values other than ebTrue/ebFalse/ebUnkonwn
// that might appear in reality due to non-initialized memory garbage
// since hardware type of Value is byte and may be equal to 3, 4, ...255
function TExtBoolean.IsNull: boolean;
begin
Result := not Self.Defined
end;

class operator TExtBoolean.And( Value1, Value2: TExtBoolean ): TExtBoolean;
begin
if Value1.IsNull or Value2.IsNull
then Result.Value := eb.Undefined
else Result := boolean(Value1) and boolean(Value2);
// Or, sacrificing readability and safety for the sake of speed
// and removing duplicate IsNull checks
//   else Result := (Value1.Value = ebTrue) and (Value2.Value = ebTrue);
end;

class operator TExtBoolean.LogicalAnd( Value1, TExtBoolean; Value2: boolean):  TExtBoolean;
begin
Result := Value2 and Value1;
end;

class operator TExtBoolean.LogicalAnd( Value1: boolean; Value2: TExtBoolean ):   TExtBoolean;
begin
if Value2.IsNull
then Result := Value2
else Result := Value1 and (Value2.Value = ebTrue);
// or if to accept a duplicate redundant check for readability sake
//   and to avert potential later erros (refactoring, you may accidentally remove the check above)
//    else Result := Value1 and boolean (Value2);
end;
``````

etc

PS. The check for being unspecified above is intentionally made pessimistic, tending to err on bad side. It is the defense against non-initialized variables and possible future changes, adding more states than three. While thise might seems to be over-protecting, at least Delphi XE2 is agreeing with mee: see the warning in a similar case:

``````program Project20;  {\$APPTYPE CONSOLE}
uses System.SysUtils;

type enum = (e1, e2, e3);
var e: enum;

function name( e: enum ): char;
begin
case e of
e1: Result := 'A';
e2: Result := 'B';
e3: Result := 'C';
end;
end;

// [DCC Warning] Project20.dpr: W1035 Return value of function 'name' might be undefined

begin
for e := e1 to e3
do Writeln(name(e));