/* strlen SSE2 without bsf Copyright (C) 2010, 2011 Free Software Foundation, Inc. Contributed by Intel Corporation. This file is part of the GNU C Library. The GNU C Library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. The GNU C Library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with the GNU C Library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ /* only for strlen case we don't use optimized version for STATIC build just for SHARED */ #if (defined SHARED || defined USE_AS_STRCAT || defined USE_AS_STRNLEN) && !defined NOT_IN_libc # ifndef USE_AS_STRCAT # include # define RETURN ret # ifndef STRLEN # define STRLEN __strlen_sse2_no_bsf # endif atom_text_section ENTRY (STRLEN) # endif xor %eax, %eax # ifdef USE_AS_STRNLEN mov %rsi, %r8 sub $4, %rsi jbe L(len_less4_prolog) # endif cmpb $0, (%rdi) jz L(exit_tail0) cmpb $0, 1(%rdi) jz L(exit_tail1) cmpb $0, 2(%rdi) jz L(exit_tail2) cmpb $0, 3(%rdi) jz L(exit_tail3) # ifdef USE_AS_STRNLEN sub $4, %rsi jbe L(len_less8_prolog) # endif cmpb $0, 4(%rdi) jz L(exit_tail4) cmpb $0, 5(%rdi) jz L(exit_tail5) cmpb $0, 6(%rdi) jz L(exit_tail6) cmpb $0, 7(%rdi) jz L(exit_tail7) # ifdef USE_AS_STRNLEN sub $4, %rsi jbe L(len_less12_prolog) # endif cmpb $0, 8(%rdi) jz L(exit_tail8) cmpb $0, 9(%rdi) jz L(exit_tail9) cmpb $0, 10(%rdi) jz L(exit_tail10) cmpb $0, 11(%rdi) jz L(exit_tail11) # ifdef USE_AS_STRNLEN sub $4, %rsi jbe L(len_less16_prolog) # endif cmpb $0, 12(%rdi) jz L(exit_tail12) cmpb $0, 13(%rdi) jz L(exit_tail13) cmpb $0, 14(%rdi) jz L(exit_tail14) cmpb $0, 15(%rdi) jz L(exit_tail15) pxor %xmm0, %xmm0 lea 16(%rdi), %rcx lea 16(%rdi), %rax and $-16, %rax # ifdef USE_AS_STRNLEN and $15, %rdi add %rdi, %rsi sub $64, %rsi jbe L(len_less64) # endif pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx pxor %xmm1, %xmm1 test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx pxor %xmm2, %xmm2 test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm2 pmovmskb %xmm2, %edx pxor %xmm3, %xmm3 test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm3 pmovmskb %xmm3, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) # ifdef USE_AS_STRNLEN sub $64, %rsi jbe L(len_less64) # endif pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm2 pmovmskb %xmm2, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm3 pmovmskb %xmm3, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) # ifdef USE_AS_STRNLEN sub $64, %rsi jbe L(len_less64) # endif pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm2 pmovmskb %xmm2, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm3 pmovmskb %xmm3, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) # ifdef USE_AS_STRNLEN sub $64, %rsi jbe L(len_less64) # endif pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm2 pmovmskb %xmm2, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) pcmpeqb (%rax), %xmm3 pmovmskb %xmm3, %edx test %edx, %edx lea 16(%rax), %rax jnz L(exit) # ifdef USE_AS_STRNLEN mov %rax, %rdx and $63, %rdx add %rdx, %rsi # endif and $-0x40, %rax .p2align 4 L(aligned_64): # ifdef USE_AS_STRNLEN sub $64, %rsi jbe L(len_less64) # endif pcmpeqb (%rax), %xmm0 pcmpeqb 16(%rax), %xmm1 pcmpeqb 32(%rax), %xmm2 pcmpeqb 48(%rax), %xmm3 pmovmskb %xmm0, %edx pmovmskb %xmm1, %r11d pmovmskb %xmm2, %r10d pmovmskb %xmm3, %r9d or %edx, %r9d or %r11d, %r9d or %r10d, %r9d lea 64(%rax), %rax jz L(aligned_64) test %edx, %edx jnz L(aligned_64_exit_16) test %r11d, %r11d jnz L(aligned_64_exit_32) test %r10d, %r10d jnz L(aligned_64_exit_48) L(aligned_64_exit_64): pmovmskb %xmm3, %edx jmp L(aligned_64_exit) L(aligned_64_exit_48): lea -16(%rax), %rax mov %r10d, %edx jmp L(aligned_64_exit) L(aligned_64_exit_32): lea -32(%rax), %rax mov %r11d, %edx jmp L(aligned_64_exit) L(aligned_64_exit_16): lea -48(%rax), %rax L(aligned_64_exit): L(exit): sub %rcx, %rax test %dl, %dl jz L(exit_high) test $0x01, %dl jnz L(exit_tail0) test $0x02, %dl jnz L(exit_tail1) test $0x04, %dl jnz L(exit_tail2) test $0x08, %dl jnz L(exit_tail3) test $0x10, %dl jnz L(exit_tail4) test $0x20, %dl jnz L(exit_tail5) test $0x40, %dl jnz L(exit_tail6) add $7, %eax L(exit_tail0): RETURN L(exit_high): add $8, %eax test $0x01, %dh jnz L(exit_tail0) test $0x02, %dh jnz L(exit_tail1) test $0x04, %dh jnz L(exit_tail2) test $0x08, %dh jnz L(exit_tail3) test $0x10, %dh jnz L(exit_tail4) test $0x20, %dh jnz L(exit_tail5) test $0x40, %dh jnz L(exit_tail6) add $7, %eax RETURN # ifdef USE_AS_STRNLEN .p2align 4 L(len_less64): pxor %xmm0, %xmm0 add $64, %rsi pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx pxor %xmm1, %xmm1 lea 16(%rax), %rax test %edx, %edx jnz L(strnlen_exit) sub $16, %rsi jbe L(return_start_len) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx lea 16(%rax), %rax test %edx, %edx jnz L(strnlen_exit) sub $16, %rsi jbe L(return_start_len) pcmpeqb (%rax), %xmm0 pmovmskb %xmm0, %edx lea 16(%rax), %rax test %edx, %edx jnz L(strnlen_exit) sub $16, %rsi jbe L(return_start_len) pcmpeqb (%rax), %xmm1 pmovmskb %xmm1, %edx lea 16(%rax), %rax test %edx, %edx jnz L(strnlen_exit) mov %r8, %rax ret .p2align 4 L(strnlen_exit): sub %rcx, %rax test %dl, %dl jz L(strnlen_exit_high) mov %dl, %cl and $15, %cl jz L(strnlen_exit_8) test $0x01, %dl jnz L(exit_tail0) test $0x02, %dl jnz L(strnlen_exit_tail1) test $0x04, %dl jnz L(strnlen_exit_tail2) sub $4, %rsi jb L(return_start_len) lea 3(%eax), %eax ret .p2align 4 L(strnlen_exit_8): test $0x10, %dl jnz L(strnlen_exit_tail4) test $0x20, %dl jnz L(strnlen_exit_tail5) test $0x40, %dl jnz L(strnlen_exit_tail6) sub $8, %rsi jb L(return_start_len) lea 7(%eax), %eax ret .p2align 4 L(strnlen_exit_high): mov %dh, %ch and $15, %ch jz L(strnlen_exit_high_8) test $0x01, %dh jnz L(strnlen_exit_tail8) test $0x02, %dh jnz L(strnlen_exit_tail9) test $0x04, %dh jnz L(strnlen_exit_tail10) sub $12, %rsi jb L(return_start_len) lea 11(%eax), %eax ret .p2align 4 L(strnlen_exit_high_8): test $0x10, %dh jnz L(strnlen_exit_tail12) test $0x20, %dh jnz L(strnlen_exit_tail13) test $0x40, %dh jnz L(strnlen_exit_tail14) sub $16, %rsi jb L(return_start_len) lea 15(%eax), %eax ret .p2align 4 L(strnlen_exit_tail1): sub $2, %rsi jb L(return_start_len) lea 1(%eax), %eax ret .p2align 4 L(strnlen_exit_tail2): sub $3, %rsi jb L(return_start_len) lea 2(%eax), %eax ret .p2align 4 L(strnlen_exit_tail4): sub $5, %rsi jb L(return_start_len) lea 4(%eax), %eax ret .p2align 4 L(strnlen_exit_tail5): sub $6, %rsi jb L(return_start_len) lea 5(%eax), %eax ret .p2align 4 L(strnlen_exit_tail6): sub $7, %rsi jb L(return_start_len) lea 6(%eax), %eax ret .p2align 4 L(strnlen_exit_tail8): sub $9, %rsi jb L(return_start_len) lea 8(%eax), %eax ret .p2align 4 L(strnlen_exit_tail9): sub $10, %rsi jb L(return_start_len) lea 9(%eax), %eax ret .p2align 4 L(strnlen_exit_tail10): sub $11, %rsi jb L(return_start_len) lea 10(%eax), %eax ret .p2align 4 L(strnlen_exit_tail12): sub $13, %rsi jb L(return_start_len) lea 12(%eax), %eax ret .p2align 4 L(strnlen_exit_tail13): sub $14, %rsi jb L(return_start_len) lea 13(%eax), %eax ret .p2align 4 L(strnlen_exit_tail14): sub $15, %rsi jb L(return_start_len) lea 14(%eax), %eax ret .p2align 4 L(return_start_len): mov %r8, %rax ret /* for prolog only */ .p2align 4 L(len_less4_prolog): add $4, %rsi jz L(exit_tail0) cmpb $0, (%rdi) jz L(exit_tail0) cmp $1, %esi je L(exit_tail1) cmpb $0, 1(%rdi) jz L(exit_tail1) cmp $2, %esi je L(exit_tail2) cmpb $0, 2(%rdi) jz L(exit_tail2) cmp $3, %esi je L(exit_tail3) cmpb $0, 3(%rdi) jz L(exit_tail3) mov $4, %eax ret .p2align 4 L(len_less8_prolog): add $4, %rsi cmpb $0, 4(%rdi) jz L(exit_tail4) cmp $1, %esi je L(exit_tail5) cmpb $0, 5(%rdi) jz L(exit_tail5) cmp $2, %esi je L(exit_tail6) cmpb $0, 6(%rdi) jz L(exit_tail6) cmp $3, %esi je L(exit_tail7) cmpb $0, 7(%rdi) jz L(exit_tail7) mov $8, %eax ret .p2align 4 L(len_less12_prolog): add $4, %rsi cmpb $0, 8(%rdi) jz L(exit_tail8) cmp $1, %esi je L(exit_tail9) cmpb $0, 9(%rdi) jz L(exit_tail9) cmp $2, %esi je L(exit_tail10) cmpb $0, 10(%rdi) jz L(exit_tail10) cmp $3, %esi je L(exit_tail11) cmpb $0, 11(%rdi) jz L(exit_tail11) mov $12, %eax ret .p2align 4 L(len_less16_prolog): add $4, %rsi cmpb $0, 12(%rdi) jz L(exit_tail12) cmp $1, %esi je L(exit_tail13) cmpb $0, 13(%rdi) jz L(exit_tail13) cmp $2, %esi je L(exit_tail14) cmpb $0, 14(%rdi) jz L(exit_tail14) cmp $3, %esi je L(exit_tail15) cmpb $0, 15(%rdi) jz L(exit_tail15) mov $16, %eax ret # endif .p2align 4 L(exit_tail1): add $1, %eax RETURN .p2align 4 L(exit_tail2): add $2, %eax RETURN .p2align 4 L(exit_tail3): add $3, %eax RETURN .p2align 4 L(exit_tail4): add $4, %eax RETURN .p2align 4 L(exit_tail5): add $5, %eax RETURN .p2align 4 L(exit_tail6): add $6, %eax RETURN .p2align 4 L(exit_tail7): add $7, %eax RETURN .p2align 4 L(exit_tail8): add $8, %eax RETURN .p2align 4 L(exit_tail9): add $9, %eax RETURN .p2align 4 L(exit_tail10): add $10, %eax RETURN .p2align 4 L(exit_tail11): add $11, %eax RETURN .p2align 4 L(exit_tail12): add $12, %eax RETURN .p2align 4 L(exit_tail13): add $13, %eax RETURN .p2align 4 L(exit_tail14): add $14, %eax RETURN .p2align 4 L(exit_tail15): add $15, %eax # ifndef USE_AS_STRCAT RETURN END (STRLEN) # endif #endif