5

Delphi function BoolToStr converts boolean value to a string.

The result is either true or false, or 'numeric', '-1' and '0' respectively. Why -1 and not 1?

  • Declared in the windows unit is type Bool = System.LongBool, and Ord(Bool(TRUE)) is -1. – LU RD Feb 12 at 10:14
  • Just for fun: Boolean(42) evaluates to true. Boolean(42) and true evaluates to true, but Boolean(42) = true evaluates to false. Perhaps there is some logic behind that, but it would more be like fuzzy logic. – LU RD Feb 12 at 18:27
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    @LURD - Same thing as I commented to Golez's answer. "=" is not a boolean operator so the compiler have to compare binary. – Sertac Akyuz Feb 12 at 21:30
7

The source of these particular values is surely down to the 0 and -1 being the values used by the COM boolean type.

Certainly in older versions of the Delphi RTL this function was used when converting variants from one type to another, so I'd be reasonable confident that COM variant support was the reason behind this decision.

You can see the remnants of that original code today in VariantChangeSimpleIntoSimple found in System.VarUtils. When asked to convert varBoolean to varOleStr it does:

VarOleStrFromStr(Dest, BoolToStr(LSource.VBoolean))

Further reading:

  • I guess that answers why Delphi does it so, any knowledge why the 'Visual Basic folks' ended up with that design? – Doege Feb 12 at 9:33
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    I'd also bet on COM compatibility. Note that the definition can be adapted using true/falseboolstrs. – Marco van de Voort Feb 12 at 9:35
  • @Doege: my recollection about the early days of COM is a bit vague, but it would not surprise me if COM got this and some others things from early VB, and not the other way around. But anyway, VB and COM were always tightly coupled, especially in the days when VB was not .NET yet. – Rudy Velthuis Feb 12 at 10:30
8

A possible explanation is that a boolean is typically not stored in a single bit, but in an integer. If you do a bitwise not of an integer 0 (binary 0000 0000 ...), it will be binary 1111 1111 ....), which means -1 for two complements signed integers.

So if you say, false := 0; true := not false;, it makes sense that true is -1.

In the various BASIC dialect, true is also -1 for the same reason.

  • The same convention is used in many languages and on many devices including microcontrollers, and for the same reason. If you use unsigned rather than signed convention the value would depend on the number of bytes used to store the value, but with the signed convention it is always -1 – Dsm Feb 12 at 9:37
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    Ord(Boolean(True)) is 1 and a boolean is the size of a byte. – LU RD Feb 12 at 9:39
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    @Rudy Not often, always – David Heffernan Feb 12 at 10:50
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    @David: that is very often, indeed. <g> – Rudy Velthuis Feb 12 at 13:30
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    Lazarus had fun with this with the early glib/gtk2 headers. Their boolean type is like pascal's, but then 32-bit. Using longbool makes true -1, but gtk2 internally checks against true=1, so the passed booleans were never true. So now FPC has boolean16,boolean32,boolean64 (and the old boolean is boolean8) – Marco van de Voort Feb 13 at 12:37

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