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I've had a habit of using int to access arrays (especially in for loops); however I recently discovered that I may have been "doing-it-all-wrong" and my x86 system kept hiding the truth from me. It turns out that int is fine when sizeof(size_t) == sizeof(int) but when used on a system where sizeof(size_t) > sizeof(int), it causes an additional mov instruction. size_t and ptrdiff_t seem to be the optimal way on the systems I've tested, requiring no additional mov.

Here is a shortened example

int vector_get(int *v,int i){ return v[i]; }

    > movslq    %esi, %rsi
    > movl  (%rdi,%rsi,4), %eax
    > ret

int vector_get(int *v,size_t i){ return v[i]; }

    > movl  (%rdi,%rsi,4), %eax
    > ret

OK, I've fixed myself (using size_t and ptrdiff_t now), now how do I (hopefully not manually) find these instances in my code so I can fix them?

Recently I've noticed several patches including changes from int to size_t coming across the wire mentioning Clang.

I put together a table of the extra instructions that get inserted on each instance to show the results of "doing-it-all-wrong".



movsbq %sil, %rsi
movswq %si, %rsi
movslq %esi, %rsi

movzbl %sil, %esi  

movzwl %si, %esi  

movl %esi, %esi    

Table of unwanted move operations when
accessing vectors with "wrong" type.

Note: long, long long, unsigned long, unsigned long long, size_t and ptrdiff_t require no additional mov* operation (basically anything >= largest object size, or 8 bytes on the 64 bit reference system )


I think I may have a workable stub for patching gcc, but I don't know my way around its source to complete the stub and add proper -Wflag bits, and as usual the hardest part of programming is naming stuff. -Wunalinged-index?

gcc/c/c-typeck.c _______________________________________________

if (!swapped)
    warn_array_subscript_with_type_char (index);
> if ( sizeof(index) < sizeof(size_t) ) 
>   warning_at (loc, OPT_Wunaligned_index,
>       "array index is smaller than size_t");

/* Apply default promotions *after* noticing character types.  */
index = default_conversion (index);

gcc/c-family/c.opt _____________________________________________

C ObjC C++ ObjC++
-trigraphs  Support ISO C trigraphs
> Wunaligned-index
> C ObjC C++ ObjC++
> Warn about array indices smaller than size_t

C ObjC C++ ObjC++ Var(flag_undef)
Do not predefine system-specific and GCC-specific macros

gcc/c-family/c-opts.c __________________________________________

case OPT_Wtrigraphs:
  cpp_opts->warn_trigraphs = value;
> case OPT_Wunaligned_index:
>   cpp_opts->warn_unaligned_index = value;

case OPT_Wundef:
  cpp_opts->warn_undef = value;
share|improve this question
Are you using int for the index, or what is it that you mean? If the array is larger than MAXINT, int is indeed wrong. Or do you mean that the array elements are larger than sizeof(int)? – Rudy Velthuis Jul 21 '14 at 12:06
In other words, could you give a code example of what you consider wrong access? – Rudy Velthuis Jul 21 '14 at 12:09
The size of the the array doesn't matter at all, just the sytem's capability of having more than MAXINT elements. I'll clarify. – technosaurus Jul 21 '14 at 12:20
Rather than mess around with MAXINT, I think you could just say that sizeof(size_t) > sizeof(int). – ecatmur Jul 21 '14 at 12:44
@ecatmur - succinct, I like it. Fixed. Added a couple examples too. – technosaurus Jul 21 '14 at 13:18

2 Answers 2

clang and gcc have -Wchar-subscripts, but that'll only help detect char subscript types.

You might consider modifying clang or gcc (whichever is easier to build on your infrastructure) to broaden the types detected by the -Wchar-subscripts warning. If this is a one-pass fix effort, this might be the most straightforward way to go about it.

Otherwise you'll need to find a linter that complains about non-size_t/ptrdiff_t subscripting; I'm not aware of any that have that option.

share|improve this answer
It seems like -Wchar-subscripts is only concerned about the signedness, but you may be onto something. If its already looking at the array subscript then it would just need a check if (sizeof(_subscript_)<sizeof(size_t)) #warn .... – technosaurus Jul 21 '14 at 13:16

The movslq instruction sign-extends a long (aka 4-byte quantity) to a quad (aka 8-byte quantity). This is because int is signed, so an offset of i.e. -1 is 0xffffffff as a long. If you were to just zero-extend that (i.e. not have movslq), this would be 0x00000000ffffffff, aka 4294967295, which is probably not what you want. So, the compiler instead sign-extends the index to yield 0xffff..., aka -1.

The reason the other types don't require the additional operation is because, despite some of them being signed, they're still the same size of 8 bytes. And, thanks to two's complement, 0xffff... can be interpreted as either -1 or 18446744073709551615, and the 64-bit sum will still be the same.

Now, normally, if you were to instead use unsigned int, the compiler would normally have to insert a zero-extend instead, just to make sure the upper-half of the register doesn't contain garbage. However, on the x64 platform, this is done implicitly; an instruction such as mov %eax,%esi will move whatever 4-byte quantity is in eax into the lower 4 bytes of rsi and clear the upper 4, effectively zero-extending the quantity. But, given your postings, the compiler seems to insert mov %esi,%esi instruction anyway, "just to be sure".

Note, however, that this "automatic zero-extending" is not the case for 1- and 2-byte quantities - those must be manually zero-extended.

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