[PATCH 2/2] bitops: rotate: Add riscv implementation using Zbb extension

David Laight david.laight.linux at gmail.com
Sun Jun 29 03:38:40 PDT 2025 

On Sat, 28 Jun 2025 20:08:16 +0800
cp0613 at linux.alibaba.com wrote:

> On Wed, 25 Jun 2025 17:02:34 +0100, david.laight.linux at gmail.com wrote:
> 
> > Is it even a gain in the zbb case?
> > The "rorw" is only ever going to help full word rotates.
> > Here you might as well do ((word << 8 | word) >> shift).
> > 
> > For "rol8" you'd need ((word << 24 | word) 'rol' shift).
> > I still bet the generic code is faster (but see below).
> > 
> > Same for 16bit rotates.
> > 
> > Actually the generic version is (probably) horrid for everything except x86.
> > See https://www.godbolt.org/z/xTxYj57To  
> 
> Thanks for your suggestion, this website is very inspiring. According to the
> results, the generic version is indeed the most friendly to x86. I think this
> is also a reason why other architectures should be optimized. Take the riscv64
> ror32 implementation as an example, compare the number of assembly instructions
> of the following two functions:
> ```
> u32 zbb_opt_ror32(u32 word, unsigned int shift)
> {
> 	asm volatile(
> 		".option push\n"
> 		".option arch,+zbb\n"
> 		"rorw %0, %1, %2\n"
> 		".option pop\n"
> 		: "=r" (word) : "r" (word), "r" (shift) :);
> 
> 	return word;
> }
> 
> u16 generic_ror32(u16 word, unsigned int shift)
> {
> 	return (word >> (shift & 31)) | (word << ((-shift) & 31));
> }
> ```
> Their disassembly is:
> ```
> zbb_opt_ror32:
> <+0>:     addi    sp,sp,-16
> <+2>:     sd      s0,0(sp)
> <+4>:     sd      ra,8(sp)
> <+6>:     addi    s0,sp,16
> <+8>:     .insn   4, 0x60b5553b
> <+12>:    ld      ra,8(sp)
> <+14>:    ld      s0,0(sp)
> <+16>:    sext.w  a0,a0
> <+18>:    addi    sp,sp,16
> <+20>:    ret
> 
> generic_ror32:
> <+0>:     addi    sp,sp,-16
> <+2>:     andi    a1,a1,31
> <+4>:     sd      s0,0(sp)
> <+6>:     sd      ra,8(sp)
> <+8>:     addi    s0,sp,16
> <+10>:    negw    a5,a1
> <+14>:    sllw    a5,a0,a5
> <+18>:    ld      ra,8(sp)
> <+20>:    ld      s0,0(sp)
> <+22>:    srlw    a0,a0,a1
> <+26>:    or      a0,a0,a5
> <+28>:    slli    a0,a0,0x30
> <+30>:    srli    a0,a0,0x30
> <+32>:    addi    sp,sp,16
> <+34>:    ret
> ```
> It can be found that the zbb optimized implementation uses fewer instructions,
> even for 16-bit and 8-bit data.

Far too many register spills to stack.
I think you've forgotten to specify -O2

	David

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