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Goal: have a single assembler source file which will assemble both to x86 (i386) and to x86_64 (amd64)?

Is this possible, for instance with YASM?

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up vote 1 down vote accepted

If you use conditional assemblying, you can. But don't expect to write all the code once for x86 and have it work the same on x64 or the other way around. Use %if and %ifdef.

You could also create some macros that would expand to different things. For example, some RAXPTR would expand to EAX or RAX depending on what platform you're compiling and you can use this RAXPTR where EAX/RAX is used as a pointer. Likewise you could create some macros PARAM1/2/etc that would expand to the routine params, to things like ECX/RCX and EDX/RDX for the first two parameters in the fastcall convention and [EBP+some constant]/[RBP+some constant] for the rest. Using macros in this manner can help you write mostly portable x86/x64 assembly code, but still, you can't do this without things like %if and %ifdef.

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no way at all? I thought x64 was a superset? –  Prof. Falken Nov 23 '11 at 23:44
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@AmigableClarkKant: It mostly is a superset. But only mostly because some things that are available in non-64-bit modes aren't available in 64-bit mode any more. But most importantly, your registers that you use to hold addresses of the various variables, they have to be different in 32-bit and 64-bit: E-something vs. R-something. And different calling conventions/ABIs are also getting in the way. Using macros can help here, see the updated answer. –  Alexey Frunze Nov 23 '11 at 23:51
    
Don't forget the ABI part! –  Macmade Nov 23 '11 at 23:52
    
@Macmade: Noted/implied. –  Alexey Frunze Nov 23 '11 at 23:53
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@AmigableClarkKant: yep. Or outside, if you like that better. It's the same as with C/C++'s #if/#ifdef. –  Alexey Frunze Nov 24 '11 at 8:32
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Assembly language is by definition not portable between different CPU architectures.

Depending on the assembler you use, you can do a few things that will ease the porting part, as Alex said, like dealing with different register or instruction names with macros and conditional assembly (don't think this will make your code more readable, nor more maintainable than having two distinct files).

But on different architectures, you can't expect the same code to run fine. Especially with 32 and 64 bits architectures.

Even if you succeed in having a common code, it will certainly lack optimizations available in the different architectures.

And last, but not least, you will also have ABI issues. Calling conventions are different, even between x86 (usually CDECL - all arguments passed on the stack), and x86_64 (System V - first arguments passed on registers, then on stack).

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This spells out the difficulties ahead, and +1 for that. But given I have macros for calling conventions (don't know how feasible this is) and for registers, do you think it's possible? –  Prof. Falken Nov 24 '11 at 8:21
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@AmigableClarkKant: it may very well be possible. But when writing this "portable" code you'll have to constantly think of both modes/platforms and their differences and hide them behind macros. That's why it's not quite like writing one piece of code for x86 and then just reusing it as-is on x64 or the other way around. –  Alexey Frunze Nov 24 '11 at 8:35
    
I will maybe not do it then, but very interesting, thanks! –  Prof. Falken Nov 24 '11 at 9:13
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