337 lines
7.7 KiB
ArmAsm
337 lines
7.7 KiB
ArmAsm
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/* Optimized memrchr implementation for PowerPC64/POWER8.
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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 <sysdep.h>
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/* int [r3] memrchr (char *s [r3], int byte [r4], int size [r5]) */
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#ifndef MEMRCHR
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# define MEMRCHR __memrchr
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#endif
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.machine power8
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ENTRY_TOCLESS (MEMRCHR)
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CALL_MCOUNT 3
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add r7, r3, r5 /* Calculate the last acceptable address. */
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neg r0, r7
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addi r7, r7, -1
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mr r10, r3
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clrrdi r6, r7, 7
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li r9, 3<<5
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dcbt r9, r6, 8 /* Stream hint, decreasing addresses. */
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/* Replicate BYTE to doubleword. */
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insrdi r4, r4, 8, 48
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insrdi r4, r4, 16, 32
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insrdi r4, r4, 32, 0
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li r6, -8
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li r9, -1
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rlwinm r0, r0, 3, 26, 28 /* Calculate padding. */
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clrrdi r8, r7, 3
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srd r9, r9, r0
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cmpldi r5, 32
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clrrdi r0, r10, 3
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ble L(small_range)
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#ifdef __LITTLE_ENDIAN__
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ldx r12, 0, r8
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#else
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ldbrx r12, 0, r8 /* Load reversed doubleword from memory. */
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#endif
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cmpb r3, r12, r4 /* Check for BYTE in DWORD1. */
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and r3, r3, r9
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cmpldi cr7, r3, 0 /* If r3 == 0, no BYTEs have been found. */
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bne cr7, L(done)
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/* Are we now aligned to a quadword boundary? If so, skip to
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the main loop. Otherwise, go through the alignment code. */
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andi. r12, r8, 15
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beq cr0, L(align_qw)
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/* Handle DWORD2 of pair. */
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#ifdef __LITTLE_ENDIAN__
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ldx r12, r8, r6
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#else
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ldbrx r12, r8, r6
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#endif
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addi r8, r8, -8
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cmpb r3, r12, r4
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cmpldi cr7, r3, 0
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bne cr7, L(done)
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.align 4
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/* At this point, r8 is 16B aligned. */
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L(align_qw):
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sub r5, r8, r0
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vspltisb v0, 0
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/* Precompute vbpermq constant. */
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vspltisb v10, 3
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li r0, 0
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lvsl v11, r0, r0
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vslb v10, v11, v10
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mtvrd v1, r4
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vspltb v1, v1, 7
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cmpldi r5, 64
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ble L(tail64)
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/* Are we 64-byte aligned? If so, jump to the vectorized loop.
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Note: aligning to 64-byte will necessarily slow down performance for
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strings around 64 bytes in length due to the extra comparisons
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required to check alignment for the vectorized loop. This is a
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necessary tradeoff we are willing to take in order to speed up the
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calculation for larger strings. */
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andi. r11, r8, 63
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beq cr0, L(preloop_64B)
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/* In order to begin the 64B loop, it needs to be 64
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bytes aligned. So read until it is 64B aligned. */
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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addi r5, r5, -16
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andi. r11, r8, 63
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beq cr0, L(preloop_64B)
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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addi r5, r5, -16
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andi. r11, r8, 63
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beq cr0, L(preloop_64B)
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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addi r5, r5, -16
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/* At this point it should be 64B aligned.
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Prepare for the 64B loop. */
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L(preloop_64B):
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cmpldi r5, 64 /* Check if r5 < 64. */
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ble L(tail64)
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srdi r9, r5, 6 /* Number of loop iterations. */
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mtctr r9 /* Setup the counter. */
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li r11, 16 /* Load required offsets. */
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li r9, 32
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li r7, 48
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/* Handle r5 > 64. Loop over the bytes in strides of 64B. */
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.align 4
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L(loop):
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addi r8, r8, -64 /* Adjust address for the next iteration. */
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lvx v2, 0, r8 /* Load 4 quadwords. */
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lvx v3, r8, r11
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lvx v4, v8, r9
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lvx v5, v8, r7
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vcmpequb v6, v1, v2
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vcmpequb v7, v1, v3
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vcmpequb v8, v1, v4
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vcmpequb v9, v1, v5
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vor v11, v6, v7
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vor v12, v8, v9
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vor v11, v11, v12 /* Compare and merge into one VR for speed. */
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vcmpequb. v11, v0, v11
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bnl cr6, L(found)
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bdnz L(loop)
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clrldi r5, r5, 58
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/* Handle remainder of 64B loop or r5 > 64. */
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.align 4
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L(tail64):
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cmpldi r5, 0
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beq L(null)
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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cmpldi cr6, r5, 16
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ble cr6, L(null)
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addi r5, r5, -16
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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cmpldi cr6, r5, 16
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ble cr6, L(null)
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addi r5, r5, -16
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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cmpldi cr6, r5, 16
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ble cr6, L(null)
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addi r5, r5, -16
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addi r8, r8, -16
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lvx v4, 0, r8
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vcmpequb v6, v1, v4
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vcmpequb. v11, v0, v6
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bnl cr6, L(found_16B)
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li r3, 0
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blr
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/* Found a match in 64B loop. */
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.align 4
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L(found):
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/* Permute the first bit of each byte into bits 48-63. */
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vbpermq v6, v6, v10
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vbpermq v7, v7, v10
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vbpermq v8, v8, v10
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vbpermq v9, v9, v10
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/* Shift each component into its correct position for merging. */
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#ifdef __LITTLE_ENDIAN__
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vsldoi v7, v7, v7, 2
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vsldoi v8, v8, v8, 4
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vsldoi v9, v9, v9, 6
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#else
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vsldoi v6, v6, v6, 6
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vsldoi v7, v7, v7, 4
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vsldoi v8, v8, v8, 2
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#endif
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/* Merge the results and move to a GPR. */
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vor v11, v6, v7
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vor v4, v9, v8
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vor v4, v11, v4
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mfvrd r5, v4
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#ifdef __LITTLE_ENDIAN__
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cntlzd r6, r5 /* Count leading zeros before the match. */
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#else
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addi r6, r5, -1
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andc r6, r6, r5
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popcntd r6, r6
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#endif
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addi r8, r8, 63
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sub r3, r8, r6 /* Compute final address. */
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cmpld cr7, r3, r10
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bgelr cr7
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li r3, 0
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blr
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/* Found a match in last 16 bytes. */
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.align 4
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L(found_16B):
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cmpld r8, r10 /* Are we on the last QW? */
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bge L(last)
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/* Now discard bytes before starting address. */
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sub r9, r10, r8
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mtvrd v9, r9
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vspltisb v8, 3
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/* Mask unwanted bytes. */
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#ifdef __LITTLE_ENDIAN__
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lvsr v7, 0, r10
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vperm v6, v0, v6, v7
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vsldoi v9, v0, v9, 8
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vsl v9, v9, v8
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vslo v6, v6, v9
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#else
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lvsl v7, 0, r10
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vperm v6, v6, v0, v7
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vsldoi v9, v0, v9, 8
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vsl v9, v9, v8
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vsro v6, v6, v9
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#endif
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L(last):
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/* Permute the first bit of each byte into bits 48-63. */
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vbpermq v6, v6, v10
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/* Shift each component into its correct position for merging. */
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#ifdef __LITTLE_ENDIAN__
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vsldoi v6, v6, v6, 6
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mfvrd r7, v6
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cntlzd r6, r7 /* Count leading zeros before the match. */
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#else
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mfvrd r7, v6
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addi r6, r7, -1
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andc r6, r6, r7
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popcntd r6, r6
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#endif
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addi r8, r8, 15
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sub r3, r8, r6 /* Compute final address. */
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cmpld r6, r5
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bltlr
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li r3, 0
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blr
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/* r3 has the output of the cmpb instruction, that is, it contains
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0xff in the same position as BYTE in the original
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word from the string. Use that to calculate the pointer.
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We need to make sure BYTE is *before* the end of the
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range. */
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L(done):
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cntlzd r9, r3 /* Count leading zeros before the match. */
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cmpld r8, r0 /* Are we on the last word? */
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srdi r6, r9, 3 /* Convert leading zeros to bytes. */
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addi r0, r6, -7
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sub r3, r8, r0
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cmpld cr7, r3, r10
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bnelr
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bgelr cr7
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li r3, 0
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blr
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.align 4
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L(null):
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li r3, 0
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blr
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/* Deals with size <= 32. */
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.align 4
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L(small_range):
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cmpldi r5, 0
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beq L(null)
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#ifdef __LITTLE_ENDIAN__
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ldx r12, 0, r8
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#else
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ldbrx r12, 0, r8 /* Load reversed doubleword from memory. */
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#endif
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cmpb r3, r12, r4 /* Check for BYTE in DWORD1. */
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and r3, r3, r9
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cmpldi cr7, r3, 0
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bne cr7, L(done)
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/* Are we done already? */
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cmpld r8, r0
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addi r8, r8, -8
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beqlr
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.align 5
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L(loop_small):
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#ifdef __LITTLE_ENDIAN__
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ldx r12, 0, r8
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#else
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ldbrx r12, 0, r8
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#endif
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cmpb r3, r12, r4
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cmpld r8, r0
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cmpldi cr7, r3, 0
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bne cr7, L(done)
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addi r8, r8, -8
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bne L(loop_small)
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blr
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END (MEMRCHR)
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weak_alias (__memrchr, memrchr)
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libc_hidden_builtin_def (memrchr)
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