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https://sourceware.org/git/glibc.git
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ae308947ff
1. Refactor files so that all implementations are in the multiarch directory - Moved the implementation portion of memcmp sse2 from memcmp.S to multiarch/memcmp-sse2.S - The non-multiarch file now only includes one of the implementations in the multiarch directory based on the compiled ISA level (only used for non-multiarch builds. Otherwise we go through the ifunc selector). 2. Add ISA level build guards to different implementations. - I.e memcmp-avx2-movsb.S which is ISA level 3 will only build if compiled ISA level <= 3. Otherwise there is no reason to include it as we will always use one of the ISA level 4 implementations (memcmp-evex-movbe.S). 3. Add new multiarch/rtld-{w}memcmp{eq}.S that just include the non-multiarch {w}memcmp{eq}.S which will in turn select the best implementation based on the compiled ISA level. 4. Refactor the ifunc selector and ifunc implementation list to use the ISA level aware wrapper macros that allow functions below the compiled ISA level (with a guranteed replacement) to be skipped. Tested with and without multiarch on x86_64 for ISA levels: {generic, x86-64-v2, x86-64-v3, x86-64-v4} And m32 with and without multiarch.
581 lines
13 KiB
ArmAsm
581 lines
13 KiB
ArmAsm
/* memcmp with SSE2.
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Copyright (C) 2017-2022 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<https://www.gnu.org/licenses/>. */
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#include <isa-level.h>
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/* MINIMUM_X86_ISA_LEVEL <= 2 because there is no V2 implementation
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so we need this to build for ISA V2 builds. */
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#if ISA_SHOULD_BUILD (2)
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#include <sysdep.h>
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# ifndef MEMCMP
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# define MEMCMP __memcmp_sse2
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# endif
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# ifdef USE_AS_WMEMCMP
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# define PCMPEQ pcmpeqd
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# define CHAR_SIZE 4
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# define SIZE_OFFSET (0)
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# else
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# define PCMPEQ pcmpeqb
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# define CHAR_SIZE 1
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# endif
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# ifdef USE_AS_MEMCMPEQ
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# define SIZE_OFFSET (0)
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# define CHECK_CMP(x, y) subl x, y
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# else
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# ifndef SIZE_OFFSET
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# define SIZE_OFFSET (CHAR_PER_VEC * 2)
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# endif
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# define CHECK_CMP(x, y) cmpl x, y
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# endif
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# define VEC_SIZE 16
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# define CHAR_PER_VEC (VEC_SIZE / CHAR_SIZE)
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# ifndef MEMCMP
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# define MEMCMP memcmp
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# endif
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.text
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ENTRY(MEMCMP)
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# ifdef __ILP32__
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/* Clear the upper 32 bits. */
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movl %edx, %edx
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# endif
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# ifdef USE_AS_WMEMCMP
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/* Use 0xffff to test for mismatches on pmovmskb bitmask. Store
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in ecx for code size. This is preferable to using `incw` as
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it avoids partial register stalls on older hardware (pre
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SnB). */
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movl $0xffff, %ecx
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# endif
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cmpq $CHAR_PER_VEC, %rdx
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ja L(more_1x_vec)
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# ifdef USE_AS_WMEMCMP
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/* saves a byte of code keeping the fall through path n = [2, 4]
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in the initial cache line. */
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decl %edx
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jle L(cmp_0_1)
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movq (%rsi), %xmm0
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movq (%rdi), %xmm1
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PCMPEQ %xmm0, %xmm1
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pmovmskb %xmm1, %eax
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subl %ecx, %eax
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jnz L(ret_nonzero_vec_start_0)
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movq -4(%rsi, %rdx, CHAR_SIZE), %xmm0
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movq -4(%rdi, %rdx, CHAR_SIZE), %xmm1
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PCMPEQ %xmm0, %xmm1
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pmovmskb %xmm1, %eax
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subl %ecx, %eax
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jnz L(ret_nonzero_vec_end_0_adj)
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# else
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cmpl $8, %edx
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ja L(cmp_9_16)
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cmpl $4, %edx
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jb L(cmp_0_3)
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# ifdef USE_AS_MEMCMPEQ
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movl (%rsi), %eax
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subl (%rdi), %eax
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movl -4(%rsi, %rdx), %esi
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subl -4(%rdi, %rdx), %esi
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orl %esi, %eax
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ret
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# else
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/* Combine comparisons for lo and hi 4-byte comparisons. */
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movl -4(%rsi, %rdx), %ecx
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movl -4(%rdi, %rdx), %eax
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shlq $32, %rcx
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shlq $32, %rax
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movl (%rsi), %esi
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movl (%rdi), %edi
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orq %rsi, %rcx
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orq %rdi, %rax
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/* Only compute proper return if not-equal. */
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cmpq %rcx, %rax
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jnz L(ret_nonzero)
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xorl %eax, %eax
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ret
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# endif
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.p2align 4,, 10
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L(cmp_9_16):
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# ifdef USE_AS_MEMCMPEQ
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movq (%rsi), %rax
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subq (%rdi), %rax
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movq -8(%rsi, %rdx), %rcx
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subq -8(%rdi, %rdx), %rcx
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orq %rcx, %rax
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/* Convert 64 bit -> 32 bit boolean (we should have made the ABI
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return long). */
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setnz %cl
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movzbl %cl, %eax
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# else
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movq (%rsi), %rcx
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movq (%rdi), %rax
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/* Only compute proper return if not-equal. */
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cmpq %rcx, %rax
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jnz L(ret_nonzero)
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movq -8(%rsi, %rdx, CHAR_SIZE), %rcx
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movq -8(%rdi, %rdx, CHAR_SIZE), %rax
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/* Only compute proper return if not-equal. */
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cmpq %rcx, %rax
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jnz L(ret_nonzero)
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xorl %eax, %eax
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# endif
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# endif
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ret
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.p2align 4,, 8
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L(cmp_0_1):
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/* Flag set by earlier comparison against 1. */
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jne L(cmp_0_0)
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# ifdef USE_AS_WMEMCMP
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movl (%rdi), %ecx
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xorl %edx, %edx
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cmpl (%rsi), %ecx
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je L(cmp_0_0)
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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movzbl (%rdi), %eax
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movzbl (%rsi), %ecx
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subl %ecx, %eax
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# endif
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ret
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/* Fits in aligning bytes. */
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L(cmp_0_0):
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xorl %eax, %eax
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ret
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# ifdef USE_AS_WMEMCMP
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.p2align 4
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L(ret_nonzero_vec_start_0):
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bsfl %eax, %eax
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movl (%rdi, %rax), %ecx
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xorl %edx, %edx
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cmpl (%rsi, %rax), %ecx
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/* NB: no partial register stall here because xorl zero idiom
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above. */
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setg %dl
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leal -1(%rdx, %rdx), %eax
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ret
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# else
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# ifndef USE_AS_MEMCMPEQ
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.p2align 4,, 14
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L(ret_nonzero):
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/* Need to bswap to get proper return without branch. */
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bswapq %rcx
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bswapq %rax
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subq %rcx, %rax
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sbbl %eax, %eax
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orl $1, %eax
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ret
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# endif
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.p2align 4
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L(cmp_0_3):
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# ifdef USE_AS_MEMCMPEQ
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/* No reason to add to dependency chain on rdx. Saving a the
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bytes here doesn't change number of fetch blocks. */
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cmpl $1, %edx
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jbe L(cmp_0_1)
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# else
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/* We need the code size to prevent taking an extra fetch block.
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*/
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decl %edx
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jle L(cmp_0_1)
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# endif
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movzwl (%rsi), %ecx
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movzwl (%rdi), %eax
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# ifdef USE_AS_MEMCMPEQ
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subl %ecx, %eax
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movzbl -1(%rsi, %rdx), %esi
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movzbl -1(%rdi, %rdx), %edi
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subl %edi, %esi
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orl %esi, %eax
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# else
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bswapl %ecx
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bswapl %eax
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/* Implicit right shift by one. We just need to displace the
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sign bits. */
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shrl %ecx
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shrl %eax
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/* Eat a partial register stall here. Saves code stopping
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L(cmp_0_3) from bleeding into the next fetch block and saves
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an ALU. */
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movb (%rsi, %rdx), %cl
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movzbl (%rdi, %rdx), %edi
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orl %edi, %eax
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subl %ecx, %eax
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# endif
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ret
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# endif
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.p2align 5
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L(more_1x_vec):
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# ifndef USE_AS_WMEMCMP
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/* Use 0xffff to test for mismatches on pmovmskb bitmask. Store
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in ecx for code size. This is preferable to using `incw` as
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it avoids partial register stalls on older hardware (pre
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SnB). */
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movl $0xffff, %ecx
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# endif
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movups (%rsi), %xmm0
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movups (%rdi), %xmm1
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PCMPEQ %xmm0, %xmm1
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pmovmskb %xmm1, %eax
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subl %ecx, %eax
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jnz L(ret_nonzero_vec_start_0)
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# if SIZE_OFFSET == 0
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cmpq $(CHAR_PER_VEC * 2), %rdx
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# else
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/* Offset rdx. Saves just enough code size to keep the
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L(last_2x_vec) case and the non-zero return in a single
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cache line. */
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subq $(CHAR_PER_VEC * 2), %rdx
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# endif
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ja L(more_2x_vec)
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movups (VEC_SIZE * -1 + SIZE_OFFSET)(%rsi, %rdx, CHAR_SIZE), %xmm0
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movups (VEC_SIZE * -1 + SIZE_OFFSET)(%rdi, %rdx, CHAR_SIZE), %xmm1
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PCMPEQ %xmm0, %xmm1
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pmovmskb %xmm1, %eax
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subl %ecx, %eax
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# ifndef USE_AS_MEMCMPEQ
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/* Don't use `incw ax` as machines this code runs on are liable
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to have partial register stall. */
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jnz L(ret_nonzero_vec_end_0)
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# else
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/* Various return targets for memcmpeq. Will always be hot in
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Icache and get short encoding. */
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L(ret_nonzero_vec_start_1):
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L(ret_nonzero_vec_start_0):
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L(ret_nonzero_vec_end_0):
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# endif
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ret
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# ifndef USE_AS_MEMCMPEQ
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# ifdef USE_AS_WMEMCMP
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.p2align 4
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L(ret_nonzero_vec_end_0_adj):
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addl $3, %edx
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# else
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.p2align 4,, 8
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# endif
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L(ret_nonzero_vec_end_0):
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bsfl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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leal (%rax, %rdx, CHAR_SIZE), %eax
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movl (VEC_SIZE * -1 + SIZE_OFFSET)(%rdi, %rax), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * -1 + SIZE_OFFSET)(%rsi, %rax), %ecx
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/* NB: no partial register stall here because xorl zero idiom
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above. */
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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addl %edx, %eax
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movzbl (VEC_SIZE * -1 + SIZE_OFFSET)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * -1 + SIZE_OFFSET)(%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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# ifndef USE_AS_WMEMCMP
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.p2align 4,, 10
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L(ret_nonzero_vec_start_0):
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bsfl %eax, %eax
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movzbl (%rsi, %rax), %ecx
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movzbl (%rdi, %rax), %eax
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subl %ecx, %eax
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ret
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# endif
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# else
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# endif
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.p2align 5
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L(more_2x_vec):
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movups (VEC_SIZE * 1)(%rsi), %xmm0
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movups (VEC_SIZE * 1)(%rdi), %xmm1
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PCMPEQ %xmm0, %xmm1
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pmovmskb %xmm1, %eax
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subl %ecx, %eax
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jnz L(ret_nonzero_vec_start_1)
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cmpq $(CHAR_PER_VEC * 4 - SIZE_OFFSET), %rdx
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jbe L(last_2x_vec)
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cmpq $(CHAR_PER_VEC * 8 - SIZE_OFFSET), %rdx
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ja L(more_8x_vec)
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/* Do comparisons for [65, 96] and [97, 128] 2x VEC at a time.
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This can harm performance if non-zero return in [65, 80] or
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[97, 112] but helps performance otherwise. Generally zero-
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return is hotter. */
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movups (VEC_SIZE * 2)(%rsi), %xmm0
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movups (VEC_SIZE * 2)(%rdi), %xmm1
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PCMPEQ %xmm0, %xmm1
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movups (VEC_SIZE * 3)(%rsi), %xmm2
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movups (VEC_SIZE * 3)(%rdi), %xmm3
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PCMPEQ %xmm2, %xmm3
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pand %xmm1, %xmm3
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pmovmskb %xmm3, %eax
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CHECK_CMP (%ecx, %eax)
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jnz L(ret_nonzero_vec_start_2_3)
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cmpl $(CHAR_PER_VEC * 6 - SIZE_OFFSET), %edx
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jbe L(last_2x_vec)
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movups (VEC_SIZE * 4)(%rsi), %xmm0
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movups (VEC_SIZE * 4)(%rdi), %xmm1
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PCMPEQ %xmm0, %xmm1
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movups (VEC_SIZE * 5)(%rsi), %xmm2
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movups (VEC_SIZE * 5)(%rdi), %xmm3
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PCMPEQ %xmm2, %xmm3
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pand %xmm1, %xmm3
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pmovmskb %xmm3, %eax
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CHECK_CMP (%ecx, %eax)
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# ifdef USE_AS_MEMCMPEQ
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jz L(last_2x_vec)
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ret
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# else
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jnz L(ret_nonzero_vec_start_4_5)
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# endif
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.p2align 4
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L(last_2x_vec):
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movups (VEC_SIZE * -2 + SIZE_OFFSET)(%rsi, %rdx, CHAR_SIZE), %xmm0
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movups (VEC_SIZE * -2 + SIZE_OFFSET)(%rdi, %rdx, CHAR_SIZE), %xmm1
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PCMPEQ %xmm0, %xmm1
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movups (VEC_SIZE * -1 + SIZE_OFFSET)(%rsi, %rdx, CHAR_SIZE), %xmm2
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movups (VEC_SIZE * -1 + SIZE_OFFSET)(%rdi, %rdx, CHAR_SIZE), %xmm3
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PCMPEQ %xmm2, %xmm3
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pand %xmm1, %xmm3
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pmovmskb %xmm3, %eax
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subl %ecx, %eax
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# ifdef USE_AS_MEMCMPEQ
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/* Various return targets for memcmpeq. Will always be hot in
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Icache and get short encoding. */
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L(ret_nonzero_vec_start_2_3):
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L(ret_nonzero_vec_start_4_5):
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ret
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# else
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jnz L(ret_nonzero_vec_end_1)
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ret
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.p2align 4,, 8
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L(ret_nonzero_vec_end_1):
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pmovmskb %xmm1, %ecx
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/* High 16 bits of eax guranteed to be all ones. Rotate them in
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to we can do `or + not` with just `xor`. */
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rorl $16, %eax
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xorl %ecx, %eax
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/* Partial register stall. */
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bsfl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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leal (%rax, %rdx, CHAR_SIZE), %eax
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movl (VEC_SIZE * -2 + SIZE_OFFSET)(%rdi, %rax), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * -2 + SIZE_OFFSET)(%rsi, %rax), %ecx
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/* NB: no partial register stall here because xorl zero idiom
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above. */
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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addl %edx, %eax
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movzbl (VEC_SIZE * -2 + SIZE_OFFSET)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * -2 + SIZE_OFFSET)(%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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.p2align 4
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L(ret_nonzero_vec_start_4_5):
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pmovmskb %xmm1, %edx
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sall $16, %eax
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leal 1(%rax, %rdx), %eax
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bsfl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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movl (VEC_SIZE * 4)(%rdi, %rax), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * 4)(%rsi, %rax), %ecx
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/* NB: no partial register stall here because xorl zero idiom
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above. */
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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movzbl (VEC_SIZE * 4)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * 4)(%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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.p2align 4,, 8
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L(ret_nonzero_vec_start_1):
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bsfl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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movl (VEC_SIZE * 1)(%rdi, %rax), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * 1)(%rsi, %rax), %ecx
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/* NB: no partial register stall here because xorl zero idiom
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above. */
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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movzbl (VEC_SIZE * 1)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * 1)(%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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# endif
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.p2align 4
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L(more_8x_vec):
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subq %rdi, %rsi
|
|
leaq (VEC_SIZE * -6 + SIZE_OFFSET)(%rdi, %rdx, CHAR_SIZE), %rdx
|
|
andq $(VEC_SIZE * -1), %rdi
|
|
addq %rdi, %rsi
|
|
.p2align 4
|
|
L(loop_4x):
|
|
movups (VEC_SIZE * 2)(%rsi), %xmm0
|
|
movups (VEC_SIZE * 3)(%rsi), %xmm1
|
|
|
|
PCMPEQ (VEC_SIZE * 2)(%rdi), %xmm0
|
|
PCMPEQ (VEC_SIZE * 3)(%rdi), %xmm1
|
|
|
|
movups (VEC_SIZE * 4)(%rsi), %xmm2
|
|
movups (VEC_SIZE * 5)(%rsi), %xmm3
|
|
|
|
PCMPEQ (VEC_SIZE * 4)(%rdi), %xmm2
|
|
PCMPEQ (VEC_SIZE * 5)(%rdi), %xmm3
|
|
|
|
pand %xmm0, %xmm1
|
|
pand %xmm2, %xmm3
|
|
pand %xmm1, %xmm3
|
|
|
|
pmovmskb %xmm3, %eax
|
|
subl %ecx, %eax
|
|
jnz L(ret_nonzero_loop)
|
|
|
|
addq $(VEC_SIZE * 4), %rdi
|
|
addq $(VEC_SIZE * 4), %rsi
|
|
cmpq %rdi, %rdx
|
|
ja L(loop_4x)
|
|
/* Get remaining length in edx. */
|
|
subl %edi, %edx
|
|
/* Restore offset so we can reuse L(last_2x_vec). */
|
|
addl $(VEC_SIZE * 6 - SIZE_OFFSET), %edx
|
|
# ifdef USE_AS_WMEMCMP
|
|
shrl $2, %edx
|
|
# endif
|
|
cmpl $(CHAR_PER_VEC * 4 - SIZE_OFFSET), %edx
|
|
jbe L(last_2x_vec)
|
|
|
|
|
|
movups (VEC_SIZE * 2)(%rsi), %xmm0
|
|
movups (VEC_SIZE * 2)(%rdi), %xmm1
|
|
PCMPEQ %xmm0, %xmm1
|
|
movups (VEC_SIZE * 3)(%rsi), %xmm2
|
|
movups (VEC_SIZE * 3)(%rdi), %xmm3
|
|
PCMPEQ %xmm2, %xmm3
|
|
pand %xmm1, %xmm3
|
|
|
|
pmovmskb %xmm3, %eax
|
|
CHECK_CMP (%ecx, %eax)
|
|
jz L(last_2x_vec)
|
|
# ifdef USE_AS_MEMCMPEQ
|
|
L(ret_nonzero_loop):
|
|
ret
|
|
# else
|
|
|
|
.p2align 4
|
|
L(ret_nonzero_vec_start_2_3):
|
|
pmovmskb %xmm1, %edx
|
|
sall $16, %eax
|
|
leal 1(%rax, %rdx), %eax
|
|
|
|
bsfl %eax, %eax
|
|
# ifdef USE_AS_WMEMCMP
|
|
movl (VEC_SIZE * 2)(%rdi, %rax), %ecx
|
|
xorl %edx, %edx
|
|
cmpl (VEC_SIZE * 2)(%rsi, %rax), %ecx
|
|
/* NB: no partial register stall here because xorl zero idiom
|
|
above. */
|
|
setg %dl
|
|
leal -1(%rdx, %rdx), %eax
|
|
# else
|
|
movzbl (VEC_SIZE * 2)(%rsi, %rax), %ecx
|
|
movzbl (VEC_SIZE * 2)(%rdi, %rax), %eax
|
|
subl %ecx, %eax
|
|
# endif
|
|
ret
|
|
|
|
.p2align 4
|
|
L(ret_nonzero_loop):
|
|
pmovmskb %xmm0, %ecx
|
|
pmovmskb %xmm1, %edx
|
|
sall $(VEC_SIZE * 1), %edx
|
|
leal 1(%rcx, %rdx), %edx
|
|
pmovmskb %xmm2, %ecx
|
|
/* High 16 bits of eax guranteed to be all ones. Rotate them in
|
|
to we can do `or + not` with just `xor`. */
|
|
rorl $16, %eax
|
|
xorl %ecx, %eax
|
|
|
|
salq $32, %rax
|
|
orq %rdx, %rax
|
|
|
|
bsfq %rax, %rax
|
|
# ifdef USE_AS_WMEMCMP
|
|
movl (VEC_SIZE * 2)(%rdi, %rax), %ecx
|
|
xorl %edx, %edx
|
|
cmpl (VEC_SIZE * 2)(%rsi, %rax), %ecx
|
|
/* NB: no partial register stall here because xorl zero idiom
|
|
above. */
|
|
setg %dl
|
|
leal -1(%rdx, %rdx), %eax
|
|
# else
|
|
movzbl (VEC_SIZE * 2)(%rsi, %rax), %ecx
|
|
movzbl (VEC_SIZE * 2)(%rdi, %rax), %eax
|
|
subl %ecx, %eax
|
|
# endif
|
|
ret
|
|
# endif
|
|
END(MEMCMP)
|
|
#endif
|