int sarl_n(int x, char n){
   x <<= 2;
   x >>= n;
   return x;


When I assemble with "gcc -m32 -S sarl_n.c", it emits this code:

movl    4(%esp), %eax
movsbl  8(%esp), %ecx
sall    $2, %eax
sarl    %cl, %eax    #This is the part which I don't understand

Why is gcc using the "mini register" %cl instead of the big one %ecx?

EDIT: I used the O2 option to get shorter assembly code

  • It's for optimization purposes I guess: 8-bit long %cl is better to store small results than a 16-bit %ecx. – kiner_shah Nov 6 '16 at 15:57
  • Try assembling it with the -O2 option to receive a more sensible output. – zx485 Nov 6 '16 at 15:57
  • 7
    Simple: that's the only version of the instruction that exists. See the instruction set reference. In any case, the count is masked so it doesn't matter. – Jester Nov 6 '16 at 16:04
  • 3
    The instruction shifts eax right by the number of places in cl. Since the maximum useful size of the shift is 32 (actually by the C standard I think it can only be 31) for a 32-bit int, the instruction doesn't need a full width register. Only 5 bits are needed, so the engineers at Intel used an 8-bit register. There's probably some legacy considerations, too. cl has been used for shift counts since 8086 days (late 70's). – Gene Nov 6 '16 at 16:39
  • 1
    @Gene: The shift count is masked to the 0..31 range (or 0..63 when operand-size = 64-bit). See the SAR insn set ref manual entry. Anyway, the key point is that %cl is an implicit operand in the machine code: there are no bits that mean "cl", other than the opcode itself. There's no way the compiler could have used any other register, except with BMI2 SARX r32_dest, r/m32_src, r32_count, which it would use if you'd enabled -march=haswell or -mbmi2. – Peter Cordes Nov 6 '16 at 17:13

The reason why the following line(previous version) in question

sarl    %cl, 8(%ebp)    #This is the part which I don't understand

or (current version)

sarl    %cl, %eax       #This is the part which I don't understand

is using the %cl and not %ecx is, that the SAR opcode only supports the %cl register as an input for a variable arithmetic shift(by %cl times).

See here, and I quote:

SAR r/m32, CL     MC   Valid   Valid   Signed divide* r/m32 by 2, CL times.
  • I would understand that if the part of r/m32 were r/m8 ... because r/m32 means registers of 32 bits, right? – Bechma Nov 6 '16 at 16:15
  • 1
    Yes. r/m32 does mean a 32-bit memory-address(like 8(%ebp) in your previous version) or a 32-bit register(like %eax in the current version). CL is Intel syntax for AT&T syntax %cl. AT&T syntax also inverts the source/destination order. So sarl %cl, %eax in AT&T syntax is SAR EAX, CL in Intel syntax. – zx485 Nov 6 '16 at 16:48
  • Now everything is crearer, thank you sir! – Bechma Nov 6 '16 at 17:20

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