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I have a 64 bit register which holds a memory address. If I perform an arithmetic operation on the lower half of the register and then try to dereference it, I get a segmentation fault. Here is an example:

movsx rax, BYTE PTR [rdi]  # ok
add edi, 1 # the address is correct but....
movsx rax, BYTE PTR [rdi] # segmentation fault here

If I change edi to rdi in line 2 it works, so I am just wondering why I can't use the lower half of rdi in this case. I would also appreciate it if anyone has any links/references with information about the proper use of the lower parts of registers.

Thanks a lot for your help.

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2 Answers 2

up vote 5 down vote accepted

When you do operations on a edi or any other 32-bit bottom-half register, it automatically zeros the top half of the whole register.

Therefore the upper 32-bits of rdi will be zero after the add edi, 1.

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As for why the behavior is like this (rather than leaving the upper-half untouched), my guess is that it breaks a lot of false-dependencies and drastically helps with register renaming. –  Mysticial Apr 21 '12 at 5:55
I see -- now it makes sense. The reason why I couldn't figure it out was because I was using printf to show the address and used the format specifier "%X" instead of "%lX" -- so it looked to me like the address was 32 instead of 64 bits. Well well -- thanks a lot for the help. –  ds1848 Apr 21 '12 at 18:33
Use %p to print pointers. –  Michael Burr Apr 21 '12 at 19:20

From the "AMD64 Architecture Programmer’s Manual Volume 1: Application Programming"

3.1.2 64-bit Mode Registers:

In general, byte and word operands are stored in the low 8 or 16 bits of GPRs without modifying their high 56 or 48 bits, respectively. Doubleword operands, however, are normally stored in the low 32 bits of GPRs and zero-extended to 64 bits.

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Thanks a lot for the link. For whatever reason the link from the AMD site does not work for me, but I was able to get it here. Thanks again. –  ds1848 Apr 21 '12 at 18:38

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