xref: /freebsd/contrib/arm-optimized-routines/string/aarch64/strchrnul.S (revision 9f23cbd6cae82fd77edfad7173432fa8dccd0a95)
1/*
2 * strchrnul - find a character or nul in a string
3 *
4 * Copyright (c) 2014-2022, Arm Limited.
5 * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception
6 */
7
8/* Assumptions:
9 *
10 * ARMv8-a, AArch64
11 * Neon Available.
12 */
13
14#include "asmdefs.h"
15
16/* Arguments and results.  */
17#define srcin		x0
18#define chrin		w1
19
20#define result		x0
21
22#define src		x2
23#define	tmp1		x3
24#define wtmp2		w4
25#define tmp3		x5
26
27#define vrepchr		v0
28#define vdata1		v1
29#define vdata2		v2
30#define vhas_nul1	v3
31#define vhas_nul2	v4
32#define vhas_chr1	v5
33#define vhas_chr2	v6
34#define vrepmask	v7
35#define vend1		v16
36
37/* Core algorithm.
38
39   For each 32-byte hunk we calculate a 64-bit syndrome value, with
40   two bits per byte (LSB is always in bits 0 and 1, for both big
41   and little-endian systems).  For each tuple, bit 0 is set iff
42   the relevant byte matched the requested character or nul.  Since the
43   bits in the syndrome reflect exactly the order in which things occur
44   in the original string a count_trailing_zeros() operation will
45   identify exactly which byte is causing the termination.  */
46
47/* Locals and temporaries.  */
48
49ENTRY (__strchrnul_aarch64)
50	PTR_ARG (0)
51	/* Magic constant 0x40100401 to allow us to identify which lane
52	   matches the termination condition.  */
53	mov	wtmp2, #0x0401
54	movk	wtmp2, #0x4010, lsl #16
55	dup	vrepchr.16b, chrin
56	bic	src, srcin, #31		/* Work with aligned 32-byte hunks.  */
57	dup	vrepmask.4s, wtmp2
58	ands	tmp1, srcin, #31
59	b.eq	L(loop)
60
61	/* Input string is not 32-byte aligned.  Rather than forcing
62	   the padding bytes to a safe value, we calculate the syndrome
63	   for all the bytes, but then mask off those bits of the
64	   syndrome that are related to the padding.  */
65	ld1	{vdata1.16b, vdata2.16b}, [src], #32
66	neg	tmp1, tmp1
67	cmeq	vhas_chr1.16b, vdata1.16b, vrepchr.16b
68	cmeq	vhas_chr2.16b, vdata2.16b, vrepchr.16b
69	cmhs	vhas_nul1.16b, vhas_chr1.16b, vdata1.16b
70	cmhs	vhas_nul2.16b, vhas_chr2.16b, vdata2.16b
71	and	vhas_chr1.16b, vhas_nul1.16b, vrepmask.16b
72	and	vhas_chr2.16b, vhas_nul2.16b, vrepmask.16b
73	lsl	tmp1, tmp1, #1
74	addp	vend1.16b, vhas_chr1.16b, vhas_chr2.16b	// 256->128
75	mov	tmp3, #~0
76	addp	vend1.16b, vend1.16b, vend1.16b		// 128->64
77	lsr	tmp1, tmp3, tmp1
78
79	mov	tmp3, vend1.d[0]
80	bic	tmp1, tmp3, tmp1	// Mask padding bits.
81	cbnz	tmp1, L(tail)
82
83	.p2align 4
84L(loop):
85	ld1	{vdata1.16b, vdata2.16b}, [src], #32
86	cmeq	vhas_chr1.16b, vdata1.16b, vrepchr.16b
87	cmeq	vhas_chr2.16b, vdata2.16b, vrepchr.16b
88	cmhs	vhas_nul1.16b, vhas_chr1.16b, vdata1.16b
89	cmhs	vhas_nul2.16b, vhas_chr2.16b, vdata2.16b
90	orr	vend1.16b, vhas_nul1.16b, vhas_nul2.16b
91	umaxp	vend1.16b, vend1.16b, vend1.16b
92	mov	tmp1, vend1.d[0]
93	cbz	tmp1, L(loop)
94
95	/* Termination condition found.  Now need to establish exactly why
96	   we terminated.  */
97	and	vhas_chr1.16b, vhas_nul1.16b, vrepmask.16b
98	and	vhas_chr2.16b, vhas_nul2.16b, vrepmask.16b
99	addp	vend1.16b, vhas_chr1.16b, vhas_chr2.16b		// 256->128
100	addp	vend1.16b, vend1.16b, vend1.16b		// 128->64
101
102	mov	tmp1, vend1.d[0]
103L(tail):
104	/* Count the trailing zeros, by bit reversing...  */
105	rbit	tmp1, tmp1
106	/* Re-bias source.  */
107	sub	src, src, #32
108	clz	tmp1, tmp1	/* ... and counting the leading zeros.  */
109	/* tmp1 is twice the offset into the fragment.  */
110	add	result, src, tmp1, lsr #1
111	ret
112
113END (__strchrnul_aarch64)
114
115