Possible Duplicate:
How to also prepare for 64-bits when migrating to Delphi 2010 and Unicode

Since I believe that 64bit Delphi compiler will appear soon, I am curious if anybody knows what kind of programs that are now 32bit will compile and work without any changes when using 64bit compiler.

And if there is a general rule what kind of changes should we systematically make in our old programs to be compiled as 64bit?

It is good to be prepared when the 64bit compiler will suddenly be here...

Any suggestion will be much appreciated.

  • 9
    Nominated for re-opening as this question appears to be producing infinitely more useful answers than the marked duplicate.
    – Justin
    Commented Nov 1, 2010 at 4:37
  • 4
    What makes you think that Embarcadero will release a 64-bit Delphi compiler soon?
    – Rowan
    Commented Nov 9, 2010 at 15:06
  • 1
    I belive what they promise: edn.embarcadero.com/article/39934 Does anybody have information that Delphi 64 will not be available in 2011?
    – Petra
    Commented Nov 11, 2010 at 13:26
  • 1
    Added a bounty because it's a great question!
    – AlexV
    Commented Jul 18, 2011 at 19:50

9 Answers 9


First up, a disclaimer: although I work for Embarcadero. I can't speak for my employer. What I'm about to write is based on my own opinion of how a hypothetical 64-bit Delphi should work, but there may or may not be competing opinions and other foreseen or unforeseen incompatibilities and events that cause alternative design decisions to be made.

That said:

  • There are two integer types, NativeInt and NativeUInt, whose size will float between 32-bit and 64-bit depending on platform. They've been around for quite a few releases. No other integer types will change size depending on bitness of the target.

  • Make sure that any place that relies on casting a pointer value to an integer or vice versa is using NativeInt or NativeUInt for the integer type. TComponent.Tag should be NativeInt in later versions of Delphi.

  • I'd suggest don't use NativeInt or NativeUInt for non-pointer-based values. Try to keep your code semantically the same between 32-bit and 64-bit. If you need 32 bits of range, use Integer; if you need 64 bits, use Int64. That way your code should run the same on both bitnesses. Only if you're casting to and from a Pointer value of some kind, such as a reference or a THandle, should you use NativeInt.

  • Use PByte for pointer arithmetic where possible, in preference to NativeInt or NativeUInt. It will suffice for most purposes, and is more typesafe because it can't be (easily) mistaken for a normal integer type, and vice versa.

  • Pointer-like things should follow similar rules to pointers: object references (obviously), but also things like HWND, THandle, etc.

  • Don't rely on internal details of strings and dynamic arrays, like their header data.

  • Our general policy on API changes for 64-bit should be to keep the same API between 32-bit and 64-bit where possible, even if it means that the 64-bit API does not necessarily take advantage of the machine. For example, TList will probably only handle MaxInt div SizeOf(Pointer) elements, in order to keep Count, indexes etc. as Integer. Because the Integer type won't float (i.e. change size depending on bitness), we don't want to have ripple effects on customer code: any indexes that round-tripped through an Integer-typed variable, or for-loop index, would be truncated and potentially cause subtle bugs.

  • Where APIs are extended for 64-bit, they will most likely be done with an extra function / method / property to access the extra data, and this API will also be supported in 32-bit. For example, the Length() standard routine will probably return values of type Integer for arguments of type string or dynamic array; if one wants to deal with very large dynamic arrays, there may be a LongLength() routine as well, whose implementation in 32-bit is the same as Length(). Length() would throw an exception in 64-bit if applied to a dynamic array with more than 2^32 elements.

  • Related to this, there will probably be improved error checking for narrowing operations in the language, especially narrowing 64-bit values to 32-bit locations. This would hit the usability of assigning the return value of Length to locations of type Integer if Length(), returned Int64. On the other hand, specifically for compiler-magic functions like Length(), there may be some advantage of the magic taken, to e.g. switch the return type based on context. But advantage can't be similarly taken in non-magic APIs.

  • Dynamic arrays will probably support 64-bit indexing. Note that Java arrays are limited to 32-bit indexing, even on 64-bit platforms.

  • Strings probably will be limited to 32-bit indexing. We have a hard time coming up with realistic reasons for people wanting 4GB+ strings that really are strings, and not just managed blobs of data, for which dynamic arrays may serve just as well.

  • Perhaps a built-in assembler, but with restrictions, like not being able to freely mix with Delphi code; there are also rules around exceptions and stack frame layout that need to be followed on x64.

  • 18
    Ouch, that no assembler bit will hurt me plenty. I've a lot of SSE code in my vision apps. Yes I know, I'll probably have to alter them by push/popping regs in x86_64, but an update than finding a different solution. Commented Oct 29, 2010 at 14:00
  • 7
    @Marco: +1. No ASM will really hurt a lot of people. Commented Oct 29, 2010 at 14:06
  • 7
    @Marco: +1 for no ASM. That will also be a big drawback for me as well (an old-time assembler programmer :-)).
    – HeartWare
    Commented Oct 29, 2010 at 14:21
  • 5
    There was crippled BASM support for inline subroutines, now about to remove BASM at all. I do appreciate Ribbon support, but i like to write fast code much more. This future sucks. Commented Oct 29, 2010 at 17:26
  • 3
    AFAIK assembler support is removed in Visual C++ 64 bit as well. If assembler code is needed, it has to be compiled externally and then linked. 64 bit requisites for assembler code are strict enough that handwritten assembler may be an issue. The drawback is I guess Embarcadero won't bring TASM back - a separate compiler will be needed.
    – user160694
    Commented Oct 29, 2010 at 20:08

First of all, FreePascal already offers 64-bits support. It's not Delphi, though.
Second of all, I expect about the same problems that existed in the time Delphi 1 was upgraded to Delphi 2. The biggest problem is is mostly address-space related and the problem here is that pointers will be widened from 4 bytes to 8 bytes. In WIN16 they use to be 2 bytes and a trick was needed to get over the 64KB boundary by using segments and offsets for pointers. (With the possibility to use default segments for several tasks.)
It's also likely that certain datatypes will become bigger than they are now. The integer-type will be 8 bytes, most likely. (Used to be just 2 bytes in Windows 2.) Enumerations will likely become bigger too. But most other datatypes are likely to keep their current size, so not too many changes here.
Another issue will be memory requirements. Since pointers will be 8 bytes long, an application that uses a lot of them will also eat up a lot more memory. A list with 10.000 pointers will increase from 40.000 bytes to 80.000 bytes. You might want to use a bit more memory than on a 32-bit system.
Speed will also change a bit. Since the processor now handles 8 bytes at the same time, it can process data much faster. But since pointers and some data types become bigger, receiving or sending these to some device or memory will be a bit slower. In general, your applications will be slightly faster in general, but some parts might actually become slower!
Finally, changes in the Windows API will require you to use the 64-bits API functions. Maybe the Delphi compiler will do something smart to allow code to call 32-bit API functions, but this would slow down performance because the processor now switches between native 64-bits mode and emulated 32-bits mode.

  • 8
    On 64-bit Windows, the model is for int and long to stay 32-bit. Correspondingly, Delphi will follow with Integer and Longint staying 32-bit. Also, in Delphi, enumerations have always had the smallest type capable of representing their range. Commented Oct 29, 2010 at 13:46
  • From Delphi 1 to Delphi 2, the integer type changed from 2 bytes to 4. Since it's the generic integer type, I expect it to increase again, although Embarcadero might keep it 4 bytes. Enumerations will use the smallest size that will fit all values, but you can specify a minimum size for enumeration types by using {$Z1} or {$Z2} or {$Z4} {$MINENUMSIZE 1} or {$MINENUMSIZE 2} or {$MINENUMSIZE 4}. I think they might add a {$Z8} to it too. This is related to (packed) records and their alignment of the record fields. Commented Oct 29, 2010 at 14:15
  • 10
    @Workshop Alex - I'm on the Emabarcadero Delphi compiler team; trust me when I say that Integer will stay 32-bit :) Commented Oct 29, 2010 at 15:57
  • 1
    @Workshop alex: Delphi 1 to Delphi 2 was a long time ago; they have had plenty of time to reflect on the impact that had. Commented Oct 29, 2010 at 19:13
  • IMHO the real reason they need Integer and Cardinal to stay 32 bit long is they never used coherently those types and longint/longword across the VCL. The same issue Microsoft had across Windows APIs where LONG/ULONG and DWORD were used interchangeably. That's why Windows is the only OS to use the LLP model instead of the LP one almost everybody else use. Now it's too late to correct without breaking a lot of code. Anyway if data types get "correct" names is far better for the future.
    – user160694
    Commented Oct 29, 2010 at 20:15

Depending on your code, you can try to compile it using FreePascal, which supports both 32-bit and 64-bit compilation. The compiler will warn you about possibly erroneous places in your code.


Many similar questions were asked when it was announced that Delphi 2009 would only create Unicode applications. In the end it turned out that most existing code ran just fine without changes. Tricky parts were code that assumed that SizeOf(Char) = 1 and 3rd party components that might be doing that.

I would expect the move to 64-bit Delphi to be a similar experience. Everything just works out of be box, except for code that plays tricks with pointers and assumes that SizeOf(Pointer) = 4 or SizeOf(Pointer) = SizeOf(Integer). You can already fix such issues today by calling SizeOf(Pointer) rather than hardcoding 4 and using NativeInt or NativeUInt when you need pointer-sized integers.

You should use SizeOf(Pointer) rather than SizeOf(NativeInt) if you want your code to work with Delphi 2007. Delphi 2007 has an unfortunate bug that causes SizeOf(NativeInt) to return 8 instead of 4 as it should. This was fixed in Delphi 2009.

  • 1
    I did my transformation to Unicode quite fast, but anyway there were
    – Petra
    Commented Nov 6, 2010 at 15:41
  • quite some changes: all IORoutines (reset, readln, rewrite, writeln) for reading from and writing to files do not work anymore for Unicode, in every procedure writing strings appropriate Unicode font should be possible to select. But altogether the transition was done quite smoothly.
    – Petra
    Commented Nov 6, 2010 at 15:44

The vast majority of simple applications should work just fine. As far as I can see, only applications that manually make use of pointers are at a risk. Indeed, if a pointer now is 64-bit, and you use it in calculations together with integers or cardinals (that are still 32-bit by default), you will get into trouble. I also think it is rather common that declarations for API functions that take pointers as arguments are using cardinals instead of the (unsigned) native integer type.

To make code that works well on any platform, one should use NativeUInts (IIRC, don't have a Deplhi compiler right now) instead of cardinals when working with pointers and integers simultaneously.

  • 1
    I think that is rather common to declare API that takes pointers as pointers parameters :) Also NativeUInt is a relatively new type - once it was Cardinal to play its role. There are some issue, think about the Tag property (noone knows yet what it will become), the wParam/lParam types in Windows messages, record sizes may change.
    – user160694
    Commented Oct 29, 2010 at 12:22
  • 2
    @Idsandon: True, but to many people a pointer is just a fancy name of a cardinal, and that "misconception" has been working well for rather long now. So it is a possible issue. So the Tag might become 64-bit? I suppose that will not break any existing code, though... Commented Oct 29, 2010 at 12:28
  • 1
    twitter.com/#!/kylix_rd "As speculated, the Tag property will become a NativeInt."
    – André
    Commented Oct 29, 2010 at 13:16

As long as Embarcadero doesn't release official informations about their 64 bit implementation is not easy to tell. You should check any cast to/from Pointer, Integer and Cardinal assuming they are the native platform size, including object properties and references (i.e. storing an Integer in a TObject property, which is a pointer, or using Tag to store references and not numbers).

You must also ensure no code relies on the "wrap-around" effect when incrementing (or decrementing) a value at its maximum (minimum) size.

Check any code in structures that relies on the data size, and don't use SizeOf() correctly, and at large that SizeOf() is always used when the datasize matters. Check code that writes/read data to files, if sizes can change, especially if data need to be exchanged between 32 and 64 bit code.

Check Win64 changes, if the application calls API and manages Windows messages directly. Handcoded ASM code must be checked for 64 bit compatibility (there are far stricter rule to write 64 bit assembler).

  • 1
    TComponent.Tag should be NativeInt to handle the expected case of people casting TObject references and similar in and out of it. Integer and Cardinal should stay the same 32-bit, as that's the general policy on 64-bit Windows; it should also reduce the semantic changes of switching the bitness of the target. 64-bit built-in assembler probably won't exist; hopefully linking support will exist for nasm or similar. Commented Oct 29, 2010 at 13:53
  • +1 mainly for the mention of ASM compatibility, as I have had those exact issues since the release of Delphi XE2 (x64). Commented Jun 10, 2012 at 2:43

My 2 cents:

  • in the old days every asm writer was to pushed to USE BASM

  • external asm64 would be acceptable and the using the old inlclude xy.obj code, while any way a complete rewrite is required

  • Debugger & CPU64: the question will be is this still there??

  • D64 Float Extended: Is this still maintained as 80 bit float??



Besides the obvious pointer<-> int tasks: (using intptr/nativeint/ptrint etc)

  • Anything that you have as a binary blob (DLLs maybe OCX etc) need to be upgraded. This might include old SDKs for dongles etc.
  • All tools that do something on binary level (debuggers,profilers, phone home tools) might need updates.
  • Nearly all assembler and other very lowlevel tricks (e.g. dependant on VMT layout, debug format (tracebacks) dynamic loading stubs like in Jedi Apilib etc) needs to be updated
  • check all own created headers for changes in packing and mistranslations that matter now pointer<>integer. The packing bit must not be underestimated
  • Interfacing with Office and other external apps might change
  • TComponent.tag is a longint now, and thus might remain longint, meaning that schemes that stuff pointers into component.tag may fail.
  • x87 FPU is deprecated on x64, and in general SSE2 will be used for florating point. so floating point and its exception handling might work slightly differently, and extended might not be 80-bit (but 64-bit or, less likely 128-bit). This also relates to the usual rounding (copro controlwork) changes when interfacing wiht C code that expects a different fpu word.

The packing of records problem is something I noticed when porting existing headers to win64.

  • Unless some unexpected incompatibility happens, TComponent.Tag should almost certainly become NativeInt. Commented Oct 29, 2010 at 13:45
  • Curious: any metrics on (a) how many applications built with FPC were relying on Tag to reference an object, and (b) broke with a 64-bit target? Commented Oct 29, 2010 at 15:59
  • 1
    Questions from users about this pop up from time to time, but are not that common, and its usage usually is very local and easily solved. OTOH most users on the fringe platforms are people with large serverside codebases (typically ex-kylixers), and they are the type that solve their problems themselves, silenty. I however sometimes try to convert code that people offer me at user group meetings, often D3/D4 hobbyist code , and then .tag use is much more common (and every dirty trick in the book is exploited sooner or later) Commented Oct 29, 2010 at 16:20
  • I wouldn't say that the x87 FPU is deprecated, but it is certainly the case that Microsoft have decided to do their best to make it that way (and they really don't seem to like 80-bit FP values), although it is clearly technically possible to use the FPU/80-bit floats on Win64.
    – PhiS
    Commented Oct 29, 2010 at 17:07

As a complete guess, any code that doesn't depend on a specific word size, or can adapt its word size based on what the compiler tells it, will be fine.

  • 1
    What are you calling a "word"? In Delphi, a word is always a 16 bit value. So I guess you spoke about "NativeInt"... because DWord will always stay 32 bit, such as integer will stay 32 bit also...
    – A.Bouchez
    Commented Oct 29, 2010 at 12:20
  • 1
    I'm using the CE definition, not the Delphi definition. Commented Oct 29, 2010 at 12:29

Not the answer you're looking for? Browse other questions tagged or ask your own question.