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I can understand this requirement for the old PPC RISC systems and even for x86-64, but for the old tried-and-true x86? In this case, the stack needs to be aligned on 4 byte boundaries only. Yes, some of the MMX/SSE instructions require 16byte alignments, but if that is a requirement of the callee, then it should ensure the alignments are correct. Why burden every caller with this extra requirement? This can actually cause some drops in performance because every call-site must manage this requirement. Am I missing something?

Update: After some more investigation into this and some consultation with some internal colleagues, I have some theories about this:

  1. Consistency between the PPC, x86, and x64 version of the OS
  2. It seems that the GCC codegen now consistently does a sub esp,xxx and then "mov"s the data onto the stack rather than simply doing a "push" instruction. This could actually be faster on some hardware.
  3. While this does complicate the call sites a little, there is very little extra overhead when using the default "cdecl" convention where the caller cleans up the stack.

The issue I have with the last item, is that for calling conventions that rely on the callee cleaning the stack, the above requirements really "uglifies" the codegen. For instance, what some compiler decided to implement a faster register-based calling style for its own internal use (ie any code that isn't intended to be called from other languages or sources)? This stack-alignment thing could negate some of the performance gains achieved by passing some parameters in registers.

Update: So far the only real answers have been consistency, but to me that's a bit too easy of an answer. I have well over 20 years experience with the x86 architecture and if consistency, not performance, or something else concrete, is really the reason then I respectfully suggest that is a bit naive for the developers to require it. They're ignoring nearly three decades of tools and support. Especially if they're expecting tools vendors to quickly and easily adapt their tools for their platform (maybe not... it is Apple...) without having to jump through several seemingly unnecessary hoops.

I'll give this topic another day or so then close it...

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Not API. ABI (Application Binary Interface. – Allen Bauer Mar 7 at 1:18

6 Answers

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From "IntelĀ®64 and IA-32 Architectures Optimization Reference Manual", section 4.4.2:

"For best performance, the Streaming SIMD Extensions and Streaming SIMD Extensions 2 require their memory operands to be aligned to 16-byte boundaries. Unaligned data can cause significant performance penalties compared to aligned data."

From Appendix D:

"It is important to ensure that the stack frame is aligned to a 16-byte boundary upon function entry to keep local __m128 data, parameters, and XMM register spill locations aligned throughout a function invocation."

http://www.intel.com/Assets/PDF/manual/248966.pdf

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I believe it's to keep it inline with the x86-64 ABI.

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That makes sense... to a point. What is the value in this, really? Only tool creators really care about this stuff as most developers simply rely on the tool to "do the right thing." – Allen Bauer Mar 7 at 1:20
Maybe due to the (relatively) short life x86-32 is likely to have on the Mac? – Andrew Grant Mar 7 at 2:17
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In order to maintain consistancy in kernel - this allows the same kernel to be booted on multiple archetectures without modicfication

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That's the only thing that seems to be what folks say, however for higher level languages, this is a detail that is (should be) hidden. Any compiled x86-32 ObjC, C, or C++ application would not care since this is an opaque detail. – Allen Bauer Mar 7 at 21:02
A kernel needs to be compatible with the call-stack of user processes because it will need to use that occasionally for working space to handle certain system-calls or interrupts. – TokenMacGuy May 7 at 2:38
It doesn't seem to hurt the Windows and Linux kernels to not be aligned. What is so special about the MacOS on x86? – Allen Bauer May 7 at 16:04
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I am not sure as I don't have first hand proof, but I believe the reason is SSE. SSE is much faster if your buffers are already aligned on a 16 bytes boundary (movps vs movups), and any x86 has at least sse2 for mac os x. It can be taken care of by the application user, but the cost is pretty significant. If the overall cost for making it mandatory in the ABI is not too significant, it may worth it. SSE is used quite pervasively in mac os X: accelerate framework, etc...

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That is the best reason I can come up with as well... however the requirement is that the stack is aligned before the call. Once the callee is in control, the stack is no longer aligned! (the return address is now the top of the stack). – Allen Bauer May 7 at 16:02
It doesn't matter so much that the stack pointer is not aligned at that point because you want the arguments to be aligned in memory. So with your typical stack frame, you are guaranteed that you are 16-byte aligned at 8(%ebp), which is your arguments begin. – Adam K. Johnson Nov 6 at 2:08
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Hmm, didn't OS X ABI also do funny RISC like things like passing small structs in registers?

So that points to the consistency with other platforms theory.

Come to think of it, the FreeBSD syscall api also aligns 64-bit values. (like e.g. lseek and mmap)

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While I cannot really answer your question of WHY, you may find the manuals at the following site useful:

http://www.agner.org/optimize/

Regarding the ABI, have a look especially at:

http://www.agner.org/optimize/calling_conventions.pdf

Hope that's useful.

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