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I'm programming a JIT compiler and I've been surprised to discover that so many of the x86-64 registers are nonvolatile (callee-preserved) in the Win64 calling convention. It seems to me that nonvolatile registers just amount to more work in all functions that could use these registers. This seems especially true in the case of numeric computations where you'd want to use many registers in a leaf function, say some kind of highly optimized matrix multiplication. However, only 6 of the 16 SSE registers are volatile, for example, so you'd have a lot of spilling to do if you need to use more than that.

So yeah, I don't get it. What's the tradeoff here?

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That's not the way it works, you generate your own machine code so you set your own rules. You only need to observe the x64 abi when you call external code. Which requires a custom marshaller anyway. –  Hans Passant May 1 '12 at 4:00
@HansPassant Hum yeah, I didn't think about that. This is my first such project and I want to call into external code, so it's just simpler for me to use Win64 everywhere. But I understand I could do otherwise. –  Trillian May 1 '12 at 13:00
@HansPassant Does that mean that say within the Linux kernel, it can choose to override these rules as long as it sticks to whatever it has chosen to do internally(as they are not cast in stone or enforeced by hardware in any way)? –  Pegasus Dec 25 '13 at 9:16

1 Answer 1

up vote 3 down vote accepted

If registers are caller-saves, then the caller always has to save or reload those registers around a function call. But if registers are callee-saves, then the callee only has to save the registers that it uses, and only when it knows they're going to be used (i.e. maybe not at all in an early-exit scenario). The disadvantage of this convention is that the callee doesn't have knowledge of the caller, so it might be saving registers that are dead anyway, but I guess that's seen as a smaller concern.

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So as soon as a single one of your callees uses no nonvolatile register, you've saved some spilling/loading. I guess that makes sense. Thanks. –  Trillian May 1 '12 at 12:56

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