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I am trying to "redefine" the UInt64 type for the Delphi 3 compiler. The reason for that is that I do not use system.pas nor sysinit.pas. So I only have native var types like Integer, Cardinal etc. How could I reproduce the UInt64?

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    Why don't you use system.pas? – Rob Dec 14 '13 at 9:57
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    All good 32 bit compilers have support for 64 bit integers. D7 was lacking. What operations do you need to support. That is the key info that is missing. – David Heffernan Dec 14 '13 at 10:08
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    @DavidHeffernan I'm trying to port the latest BTMemoryModule.pas to make it work without UInt64. It uses UInt64 so it supports x64 but I only need it for x86. – Benjamin Weiss Dec 14 '13 at 10:10
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    That's nice. What operations do you need. Question is meaningless without that info. – David Heffernan Dec 14 '13 at 10:13
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    You do need to enumerate all the operations that you need. You can use a real 32 bit compiler to lift code. For instance modern delphi or GCC or MSVC will all produce the 32 bit code to work with 64 bit operands. – David Heffernan Dec 14 '13 at 10:25
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Delphi 7 doesn't have an unsigned 64-bit integer type. You can tell from its Windows.pas, where ULARGE_INTEGER is defined as a variant record holding either two unsigned 32-bit integers, or one signed 64-bit integer, which makes little sense, until you realise that that's simply the least bad alternative if you really need something that's binary compatible with unsigned 64-bit integer types from another system.

An unsigned 64-bit integer type requires compiler support, which your compiler lacks, so you cannot create it, sorry. Newer Delphi versions do have compiler support for it, so you might consider upgrading.

Delphi 3 is even worse, it doesn't have any 64-bit integer type, not even a signed one. Int64 was added in Delphi 4, and that might be sufficient to avoid the need for a working 64-bit unsigned integer type, but if you're stuck on Delphi 3, not even that will work.

As a side note, seemingly contrary to this answer, Delphi 7 does have a UInt64 type. However, this is highly misleading. It's a signed 64-bit integer type in this version, just like Int64.

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    If a pointer points to a 64-bit value, you cannot convert it to a pointer that points to a 32-bit value without changing what it points to. But depending on your goals, you might be able to treat it as a pointer to Int64 and use only operations that don't care whether you treat it as signed or unsigned. – user743382 Dec 14 '13 at 10:14
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    The conversion from Int64 to UInt32 produces the exact same value that the conversion from UInt64 to UInt32 would (assuming suitable compiler options -- no exceptions for out-of-range values), and the former should work even in Delphi 7. – user743382 Dec 14 '13 at 10:26
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    I know UInt64 isn't, but Int64 should be. I'll check when I can. – user743382 Dec 14 '13 at 10:36
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    @BenjaminWeiss "Version 10.0" isn't Delphi 7, it's Delphi 3. My Delphi 7 compiler says "Version 15.0". – user743382 Dec 14 '13 at 10:44
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    @BenjaminWeiss Take a look at the Makefile in the Rtl directory, it contains the undocumented compiler option (-y) needed to compile System.pas with more recent compiler versions. (As a side note: it seems that Delphi 7 does actually define a UInt64 built-in type... but it's not an unsigned 64-bit integer type.) – user743382 Dec 14 '13 at 10:56
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As I have explained in the comments, what really matters here is which operations you wish to support. The data type is simple enough. You represent it as two adjacent 32 bit integers. But the complexity lies in implementing the operations on that data type.

On a 32 bit machine, you cannot operate directly on 64 bit integers, so you need to build 64 bit operations using the functionality of the 32 bit CPU.

Here is an example of how to implement incrementing of an unsigned 64 bit integer by a signed 32 bit integer.

type
  UInt64 = record
    Lo: Cardinal;
    Hi: Cardinal;
  end;

procedure Increment(var op1: UInt64; op2: Integer);
// IN: eax = pointer to op1; edx = op2
asm
  mov ecx,eax
  mov eax,edx
  cdq
  add eax,[ecx]
  adc edx,[ecx+4]
  mov [ecx],eax
  mov [ecx+4],edx
end;

The tricky part of this function is the cdq instruction. That sign extends the signed double word in eax to a signed quad word in edx:eax.

Implementing other operations is broadly similar. Obviously addition is the simplest. Multiplication gets a little more difficult.

In the comments you state:

I am trying to port the latest BTMemoryModule.pas to make it work without UInt64. It uses UInt64 so it supports x64 but I only need it for x86.

Since you only need x86 support, because your compiler is 32 bit, then I don't think you actually need UInt64 operations. You replace those variables with Cardinal.

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  • +1 Thank you for your answer. I will try to replace it with Cardinal as soon as I get to it. – Benjamin Weiss Dec 14 '13 at 21:03
  • Btw. I have used your suggestion and it worked with Cardinal! :) – Benjamin Weiss Dec 16 '13 at 20:49
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    @BenjaminWeiss You could just as well have used an older version of BTMemoryModule, before it was ported to x64. I still cannot quite work out what hvd is trying to say in his answer. – David Heffernan Dec 16 '13 at 20:51

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