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4ad473e97a
No bug. This commit optimizes memcmp-evex.S. The optimizations include adding a new vec compare path for small sizes, reorganizing the entry control flow, removing some unnecissary ALU instructions from the main loop, and most importantly replacing the heavy use of vpcmp + kand logic with vpxor + vptern. test-memcmp and test-wmemcmp are both passing. Signed-off-by: Noah Goldstein <goldstein.w.n@gmail.com> Reviewed-by: H.J. Lu <hjl.tools@gmail.com>
547 lines
14 KiB
ArmAsm
547 lines
14 KiB
ArmAsm
/* memcmp/wmemcmp optimized with 256-bit EVEX instructions.
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Copyright (C) 2021 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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#if IS_IN (libc)
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/* memcmp/wmemcmp is implemented as:
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1. Use ymm vector compares when possible. The only case where
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vector compares is not possible for when size < CHAR_PER_VEC
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and loading from either s1 or s2 would cause a page cross.
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2. For size from 2 to 7 bytes on page cross, load as big endian
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with movbe and bswap to avoid branches.
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3. Use xmm vector compare when size >= 4 bytes for memcmp or
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size >= 8 bytes for wmemcmp.
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4. Optimistically compare up to first 4 * CHAR_PER_VEC one at a
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to check for early mismatches. Only do this if its guranteed the
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work is not wasted.
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5. If size is 8 * VEC_SIZE or less, unroll the loop.
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6. Compare 4 * VEC_SIZE at a time with the aligned first memory
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area.
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7. Use 2 vector compares when size is 2 * CHAR_PER_VEC or less.
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8. Use 4 vector compares when size is 4 * CHAR_PER_VEC or less.
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9. Use 8 vector compares when size is 8 * CHAR_PER_VEC or less. */
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# include <sysdep.h>
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# ifndef MEMCMP
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# define MEMCMP __memcmp_evex_movbe
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# endif
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# define VMOVU vmovdqu64
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# ifdef USE_AS_WMEMCMP
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# define CHAR_SIZE 4
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# define VPCMP vpcmpd
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# else
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# define CHAR_SIZE 1
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# define VPCMP vpcmpub
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# endif
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# define VEC_SIZE 32
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# define PAGE_SIZE 4096
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# define CHAR_PER_VEC (VEC_SIZE / CHAR_SIZE)
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# define XMM0 xmm16
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# define XMM1 xmm17
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# define XMM2 xmm18
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# define YMM0 ymm16
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# define XMM1 xmm17
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# define XMM2 xmm18
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# define YMM1 ymm17
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# define YMM2 ymm18
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# define YMM3 ymm19
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# define YMM4 ymm20
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# define YMM5 ymm21
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# define YMM6 ymm22
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/* Warning!
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wmemcmp has to use SIGNED comparison for elements.
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memcmp has to use UNSIGNED comparison for elemnts.
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*/
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.section .text.evex,"ax",@progbits
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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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cmp $CHAR_PER_VEC, %RDX_LP
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jb L(less_vec)
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/* From VEC to 2 * VEC. No branch when size == VEC_SIZE. */
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VMOVU (%rsi), %YMM1
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/* Use compare not equals to directly check for mismatch. */
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VPCMP $4, (%rdi), %YMM1, %k1
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kmovd %k1, %eax
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/* NB: eax must be destination register if going to
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L(return_vec_[0,2]). For L(return_vec_3 destination register
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must be ecx. */
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testl %eax, %eax
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jnz L(return_vec_0)
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cmpq $(CHAR_PER_VEC * 2), %rdx
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jbe L(last_1x_vec)
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/* Check second VEC no matter what. */
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VMOVU VEC_SIZE(%rsi), %YMM2
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VPCMP $4, VEC_SIZE(%rdi), %YMM2, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(return_vec_1)
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/* Less than 4 * VEC. */
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cmpq $(CHAR_PER_VEC * 4), %rdx
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jbe L(last_2x_vec)
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/* Check third and fourth VEC no matter what. */
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VMOVU (VEC_SIZE * 2)(%rsi), %YMM3
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VPCMP $4, (VEC_SIZE * 2)(%rdi), %YMM3, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(return_vec_2)
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VMOVU (VEC_SIZE * 3)(%rsi), %YMM4
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VPCMP $4, (VEC_SIZE * 3)(%rdi), %YMM4, %k1
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kmovd %k1, %ecx
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testl %ecx, %ecx
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jnz L(return_vec_3)
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/* Zero YMM0. 4x VEC reduction is done with vpxor + vtern so
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compare with zero to get a mask is needed. */
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vpxorq %XMM0, %XMM0, %XMM0
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/* Go to 4x VEC loop. */
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cmpq $(CHAR_PER_VEC * 8), %rdx
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ja L(more_8x_vec)
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/* Handle remainder of size = 4 * VEC + 1 to 8 * VEC without any
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branches. */
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/* Load first two VEC from s2 before adjusting addresses. */
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VMOVU -(VEC_SIZE * 4)(%rsi, %rdx, CHAR_SIZE), %YMM1
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VMOVU -(VEC_SIZE * 3)(%rsi, %rdx, CHAR_SIZE), %YMM2
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leaq -(4 * VEC_SIZE)(%rdi, %rdx, CHAR_SIZE), %rdi
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leaq -(4 * VEC_SIZE)(%rsi, %rdx, CHAR_SIZE), %rsi
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/* Wait to load from s1 until addressed adjust due to
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unlamination of microfusion with complex address mode. */
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/* vpxor will be all 0s if s1 and s2 are equal. Otherwise it
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will have some 1s. */
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vpxorq (%rdi), %YMM1, %YMM1
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vpxorq (VEC_SIZE)(%rdi), %YMM2, %YMM2
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VMOVU (VEC_SIZE * 2)(%rsi), %YMM3
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vpxorq (VEC_SIZE * 2)(%rdi), %YMM3, %YMM3
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/* Or together YMM1, YMM2, and YMM3 into YMM3. */
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vpternlogd $0xfe, %YMM1, %YMM2, %YMM3
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VMOVU (VEC_SIZE * 3)(%rsi), %YMM4
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/* Ternary logic to xor (VEC_SIZE * 3)(%rdi) with YMM4 while
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oring with YMM3. Result is stored in YMM4. */
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vpternlogd $0xde, (VEC_SIZE * 3)(%rdi), %YMM3, %YMM4
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/* Compare YMM4 with 0. If any 1s s1 and s2 don't match. */
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VPCMP $4, %YMM4, %YMM0, %k1
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kmovd %k1, %ecx
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testl %ecx, %ecx
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jnz L(return_vec_0_1_2_3)
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/* NB: eax must be zero to reach here. */
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ret
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/* NB: aligning 32 here allows for the rest of the jump targets
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to be tuned for 32 byte alignment. Most important this ensures
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the L(more_8x_vec) loop is 32 byte aligned. */
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.p2align 5
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L(less_vec):
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/* Check if one or less CHAR. This is necessary for size = 0 but
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is also faster for size = CHAR_SIZE. */
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cmpl $1, %edx
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jbe L(one_or_less)
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/* Check if loading one VEC from either s1 or s2 could cause a
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page cross. This can have false positives but is by far the
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fastest method. */
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movl %edi, %eax
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orl %esi, %eax
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andl $(PAGE_SIZE - 1), %eax
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cmpl $(PAGE_SIZE - VEC_SIZE), %eax
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jg L(page_cross_less_vec)
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/* No page cross possible. */
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VMOVU (%rsi), %YMM2
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VPCMP $4, (%rdi), %YMM2, %k1
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kmovd %k1, %eax
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/* Create mask in ecx for potentially in bound matches. */
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bzhil %edx, %eax, %eax
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jnz L(return_vec_0)
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ret
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.p2align 4
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L(return_vec_0):
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tzcntl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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movl (%rdi, %rax, CHAR_SIZE), %ecx
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xorl %edx, %edx
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cmpl (%rsi, %rax, CHAR_SIZE), %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 (%rsi, %rax), %ecx
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movzbl (%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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/* NB: No p2align necessary. Alignment % 16 is naturally 1
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which is good enough for a target not in a loop. */
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L(return_vec_1):
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tzcntl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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movl VEC_SIZE(%rdi, %rax, CHAR_SIZE), %ecx
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xorl %edx, %edx
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cmpl VEC_SIZE(%rsi, %rax, CHAR_SIZE), %ecx
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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(%rsi, %rax), %ecx
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movzbl VEC_SIZE(%rdi, %rax), %eax
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subl %ecx, %eax
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# endif
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ret
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/* NB: No p2align necessary. Alignment % 16 is naturally 2
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which is good enough for a target not in a loop. */
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L(return_vec_2):
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tzcntl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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movl (VEC_SIZE * 2)(%rdi, %rax, CHAR_SIZE), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * 2)(%rsi, %rax, CHAR_SIZE), %ecx
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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 * 2)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * 2)(%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(8x_return_vec_0_1_2_3):
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/* Returning from L(more_8x_vec) requires restoring rsi. */
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addq %rdi, %rsi
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L(return_vec_0_1_2_3):
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VPCMP $4, %YMM1, %YMM0, %k0
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kmovd %k0, %eax
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testl %eax, %eax
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jnz L(return_vec_0)
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VPCMP $4, %YMM2, %YMM0, %k0
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kmovd %k0, %eax
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testl %eax, %eax
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jnz L(return_vec_1)
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VPCMP $4, %YMM3, %YMM0, %k0
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kmovd %k0, %eax
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testl %eax, %eax
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jnz L(return_vec_2)
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L(return_vec_3):
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tzcntl %ecx, %ecx
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# ifdef USE_AS_WMEMCMP
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movl (VEC_SIZE * 3)(%rdi, %rcx, CHAR_SIZE), %eax
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xorl %edx, %edx
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cmpl (VEC_SIZE * 3)(%rsi, %rcx, CHAR_SIZE), %eax
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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 * 3)(%rdi, %rcx), %eax
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movzbl (VEC_SIZE * 3)(%rsi, %rcx), %ecx
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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(more_8x_vec):
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/* Set end of s1 in rdx. */
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leaq -(VEC_SIZE * 4)(%rdi, %rdx, CHAR_SIZE), %rdx
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/* rsi stores s2 - s1. This allows loop to only update one
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pointer. */
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subq %rdi, %rsi
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/* Align s1 pointer. */
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andq $-VEC_SIZE, %rdi
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/* Adjust because first 4x vec where check already. */
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subq $-(VEC_SIZE * 4), %rdi
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.p2align 4
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L(loop_4x_vec):
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VMOVU (%rsi, %rdi), %YMM1
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vpxorq (%rdi), %YMM1, %YMM1
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VMOVU VEC_SIZE(%rsi, %rdi), %YMM2
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vpxorq VEC_SIZE(%rdi), %YMM2, %YMM2
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VMOVU (VEC_SIZE * 2)(%rsi, %rdi), %YMM3
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vpxorq (VEC_SIZE * 2)(%rdi), %YMM3, %YMM3
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vpternlogd $0xfe, %YMM1, %YMM2, %YMM3
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VMOVU (VEC_SIZE * 3)(%rsi, %rdi), %YMM4
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vpternlogd $0xde, (VEC_SIZE * 3)(%rdi), %YMM3, %YMM4
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VPCMP $4, %YMM4, %YMM0, %k1
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kmovd %k1, %ecx
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testl %ecx, %ecx
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jnz L(8x_return_vec_0_1_2_3)
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subq $-(VEC_SIZE * 4), %rdi
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cmpq %rdx, %rdi
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jb L(loop_4x_vec)
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subq %rdx, %rdi
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/* rdi has 4 * VEC_SIZE - remaining length. */
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cmpl $(VEC_SIZE * 3), %edi
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jae L(8x_last_1x_vec)
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/* Load regardless of branch. */
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VMOVU (VEC_SIZE * 2)(%rsi, %rdx), %YMM3
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cmpl $(VEC_SIZE * 2), %edi
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jae L(8x_last_2x_vec)
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VMOVU (%rsi, %rdx), %YMM1
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vpxorq (%rdx), %YMM1, %YMM1
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VMOVU VEC_SIZE(%rsi, %rdx), %YMM2
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vpxorq VEC_SIZE(%rdx), %YMM2, %YMM2
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vpxorq (VEC_SIZE * 2)(%rdx), %YMM3, %YMM3
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vpternlogd $0xfe, %YMM1, %YMM2, %YMM3
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VMOVU (VEC_SIZE * 3)(%rsi, %rdx), %YMM4
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vpternlogd $0xde, (VEC_SIZE * 3)(%rdx), %YMM3, %YMM4
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VPCMP $4, %YMM4, %YMM0, %k1
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kmovd %k1, %ecx
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/* Restore s1 pointer to rdi. */
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movq %rdx, %rdi
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testl %ecx, %ecx
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jnz L(8x_return_vec_0_1_2_3)
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/* NB: eax must be zero to reach here. */
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ret
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/* Only entry is from L(more_8x_vec). */
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.p2align 4
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L(8x_last_2x_vec):
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VPCMP $4, (VEC_SIZE * 2)(%rdx), %YMM3, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(8x_return_vec_2)
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/* Naturally aligned to 16 bytes. */
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L(8x_last_1x_vec):
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VMOVU (VEC_SIZE * 3)(%rsi, %rdx), %YMM1
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VPCMP $4, (VEC_SIZE * 3)(%rdx), %YMM1, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(8x_return_vec_3)
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ret
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.p2align 4
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L(last_2x_vec):
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/* Check second to last VEC. */
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VMOVU -(VEC_SIZE * 2)(%rsi, %rdx, CHAR_SIZE), %YMM1
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VPCMP $4, -(VEC_SIZE * 2)(%rdi, %rdx, CHAR_SIZE), %YMM1, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(return_vec_1_end)
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/* Check last VEC. */
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.p2align 4
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L(last_1x_vec):
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VMOVU -(VEC_SIZE * 1)(%rsi, %rdx, CHAR_SIZE), %YMM1
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VPCMP $4, -(VEC_SIZE * 1)(%rdi, %rdx, CHAR_SIZE), %YMM1, %k1
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kmovd %k1, %eax
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testl %eax, %eax
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jnz L(return_vec_0_end)
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ret
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.p2align 4
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L(8x_return_vec_2):
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subq $VEC_SIZE, %rdx
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L(8x_return_vec_3):
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tzcntl %eax, %eax
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# ifdef USE_AS_WMEMCMP
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leaq (%rdx, %rax, CHAR_SIZE), %rax
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movl (VEC_SIZE * 3)(%rax), %ecx
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xorl %edx, %edx
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cmpl (VEC_SIZE * 3)(%rsi, %rax), %ecx
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setg %dl
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leal -1(%rdx, %rdx), %eax
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# else
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addq %rdx, %rax
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movzbl (VEC_SIZE * 3)(%rsi, %rax), %ecx
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movzbl (VEC_SIZE * 3)(%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(return_vec_0_end):
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tzcntl %eax, %eax
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addl %edx, %eax
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# ifdef USE_AS_WMEMCMP
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movl -VEC_SIZE(%rdi, %rax, CHAR_SIZE), %ecx
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xorl %edx, %edx
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cmpl -VEC_SIZE(%rsi, %rax, CHAR_SIZE), %ecx
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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(%rsi, %rax), %ecx
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movzbl -VEC_SIZE(%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(return_vec_1_end):
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tzcntl %eax, %eax
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addl %edx, %eax
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# ifdef USE_AS_WMEMCMP
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movl -(VEC_SIZE * 2)(%rdi, %rax, CHAR_SIZE), %ecx
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xorl %edx, %edx
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cmpl -(VEC_SIZE * 2)(%rsi, %rax, CHAR_SIZE), %ecx
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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 * 2)(%rsi, %rax), %ecx
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movzbl -(VEC_SIZE * 2)(%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(page_cross_less_vec):
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/* if USE_AS_WMEMCMP it can only be 0, 4, 8, 12, 16, 20, 24, 28
|
|
bytes. */
|
|
cmpl $(16 / CHAR_SIZE), %edx
|
|
jae L(between_16_31)
|
|
# ifndef USE_AS_WMEMCMP
|
|
cmpl $8, %edx
|
|
jae L(between_8_15)
|
|
cmpl $4, %edx
|
|
jae L(between_4_7)
|
|
L(between_2_3):
|
|
/* Load as big endian to avoid branches. */
|
|
movzwl (%rdi), %eax
|
|
movzwl (%rsi), %ecx
|
|
shll $8, %eax
|
|
shll $8, %ecx
|
|
bswap %eax
|
|
bswap %ecx
|
|
movzbl -1(%rdi, %rdx), %edi
|
|
movzbl -1(%rsi, %rdx), %esi
|
|
orl %edi, %eax
|
|
orl %esi, %ecx
|
|
/* Subtraction is okay because the upper 8 bits are zero. */
|
|
subl %ecx, %eax
|
|
ret
|
|
.p2align 4
|
|
L(one_or_less):
|
|
jb L(zero)
|
|
movzbl (%rsi), %ecx
|
|
movzbl (%rdi), %eax
|
|
subl %ecx, %eax
|
|
ret
|
|
|
|
.p2align 4
|
|
L(between_8_15):
|
|
# endif
|
|
/* If USE_AS_WMEMCMP fall through into 8-15 byte case. */
|
|
vmovq (%rdi), %XMM1
|
|
vmovq (%rsi), %XMM2
|
|
VPCMP $4, %XMM1, %XMM2, %k1
|
|
kmovd %k1, %eax
|
|
testl %eax, %eax
|
|
jnz L(return_vec_0)
|
|
/* Use overlapping loads to avoid branches. */
|
|
leaq -8(%rdi, %rdx, CHAR_SIZE), %rdi
|
|
leaq -8(%rsi, %rdx, CHAR_SIZE), %rsi
|
|
vmovq (%rdi), %XMM1
|
|
vmovq (%rsi), %XMM2
|
|
VPCMP $4, %XMM1, %XMM2, %k1
|
|
kmovd %k1, %eax
|
|
testl %eax, %eax
|
|
jnz L(return_vec_0)
|
|
ret
|
|
|
|
.p2align 4
|
|
L(zero):
|
|
xorl %eax, %eax
|
|
ret
|
|
|
|
.p2align 4
|
|
L(between_16_31):
|
|
/* From 16 to 31 bytes. No branch when size == 16. */
|
|
VMOVU (%rsi), %XMM2
|
|
VPCMP $4, (%rdi), %XMM2, %k1
|
|
kmovd %k1, %eax
|
|
testl %eax, %eax
|
|
jnz L(return_vec_0)
|
|
|
|
/* Use overlapping loads to avoid branches. */
|
|
|
|
VMOVU -16(%rsi, %rdx, CHAR_SIZE), %XMM2
|
|
leaq -16(%rdi, %rdx, CHAR_SIZE), %rdi
|
|
leaq -16(%rsi, %rdx, CHAR_SIZE), %rsi
|
|
VPCMP $4, (%rdi), %XMM2, %k1
|
|
kmovd %k1, %eax
|
|
testl %eax, %eax
|
|
jnz L(return_vec_0)
|
|
ret
|
|
|
|
# ifdef USE_AS_WMEMCMP
|
|
.p2align 4
|
|
L(one_or_less):
|
|
jb L(zero)
|
|
movl (%rdi), %ecx
|
|
xorl %edx, %edx
|
|
cmpl (%rsi), %ecx
|
|
je L(zero)
|
|
setg %dl
|
|
leal -1(%rdx, %rdx), %eax
|
|
ret
|
|
# else
|
|
|
|
.p2align 4
|
|
L(between_4_7):
|
|
/* Load as big endian with overlapping movbe to avoid branches.
|
|
*/
|
|
movbe (%rdi), %eax
|
|
movbe (%rsi), %ecx
|
|
shlq $32, %rax
|
|
shlq $32, %rcx
|
|
movbe -4(%rdi, %rdx), %edi
|
|
movbe -4(%rsi, %rdx), %esi
|
|
orq %rdi, %rax
|
|
orq %rsi, %rcx
|
|
subq %rcx, %rax
|
|
jz L(zero_4_7)
|
|
sbbl %eax, %eax
|
|
orl $1, %eax
|
|
L(zero_4_7):
|
|
ret
|
|
# endif
|
|
|
|
END (MEMCMP)
|
|
#endif
|