What RRUZ says is quite correct.
To add a little bit more explanation, in 64 bit Delphi, dynamic array indices can be 64 bits wide. This is clearly needed, for example, when working with a large TBytes memory block. And so the
high function must return a value of a type wide enough to hold all possible indices. So,
high when applied to a dynamic array, returns a value of type
Once you start compiling 64 bit code the
in operator is unsuited to the problem you are trying to solve. Whilst you could use the cast that RRUZ suggests, it may be clearer to write the code like this
if (I=low(L)) or (I=high(L)) then
in operator makes for quite readable code, it is my opinion that a cast to
Integer is not acceptable here. That will simply set a trap for you to fall into when you first have an array with more than
high(Integer) elements. When that happens the code with the cast will stop working.
But in fact the problems run far deeper than this. The
in version of the code fails long before you reach
high(Integer) elements. It turns out that your code, whilst it compiles, does not really work. For example, consider this program:
a: array of Integer;
Writeln(BoolToStr(Length(a) in [0, Length(a)], True));
You would expect this program to output
True but in fact it outputs
False. If instead you were to write
Writeln(BoolToStr(Length(a) in [0, 257], True));
then the compiler reports:
[DCC Error] WeirdSets.dpr(9): E1012 Constant expression violates subrange bounds
The fundamental issue here is that sets are limited to 256 elements so as soon as you have an array with length greater than that, your code stops working.
Sadly, Delphi's support for sets is simply inadequate and is in urgent need of attention.
I also wonder whether you actually meant to write
if I in [0..High(L)] then
If so then I would recommend that you use the
InRange function from
if InRange(I, 0, High(L)) then
or even better
if InRange(I, low(L), High(L)) then