AOR_v20.02/string/aarch64/strchrnul.S - llvm-project/libc - Git at Google

 /*
  * strchrnul - find a character or nul in a string
  *
  * Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
  * See https://llvm.org/LICENSE.txt for license information.
  * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
  */

 /* Assumptions:
  *
  * ARMv8-a, AArch64
  * Neon Available.
  */

 #include "../asmdefs.h"

 /* Arguments and results.  */
 #define srcin		x0
 #define chrin		w1

 #define result		x0

 #define src		x2
 #define	tmp1		x3
 #define wtmp2		w4
 #define tmp3		x5

 #define vrepchr		v0
 #define vdata1		v1
 #define vdata2		v2
 #define vhas_nul1	v3
 #define vhas_nul2	v4
 #define vhas_chr1	v5
 #define vhas_chr2	v6
 #define vrepmask	v7
 #define vend1		v16

 /* Core algorithm.

    For each 32-byte hunk we calculate a 64-bit syndrome value, with
    two bits per byte (LSB is always in bits 0 and 1, for both big
    and little-endian systems).  For each tuple, bit 0 is set iff
    the relevant byte matched the requested character or nul.  Since the
    bits in the syndrome reflect exactly the order in which things occur
    in the original string a count_trailing_zeros() operation will
    identify exactly which byte is causing the termination.  */

 /* Locals and temporaries.  */

 ENTRY (__strchrnul_aarch64)
 	/* Magic constant 0x40100401 to allow us to identify which lane
 	   matches the termination condition.  */
 	mov	wtmp2, #0x0401
 	movk	wtmp2, #0x4010, lsl #16
 	dup	vrepchr.16b, chrin
 	bic	src, srcin, #31		/* Work with aligned 32-byte hunks.  */
 	dup	vrepmask.4s, wtmp2
 	ands	tmp1, srcin, #31
 	b.eq	L(loop)

 	/* Input string is not 32-byte aligned.  Rather than forcing
 	   the padding bytes to a safe value, we calculate the syndrome
 	   for all the bytes, but then mask off those bits of the
 	   syndrome that are related to the padding.  */
 	ld1	{vdata1.16b, vdata2.16b}, [src], #32
 	neg	tmp1, tmp1
 	cmeq	vhas_nul1.16b, vdata1.16b, #0
 	cmeq	vhas_chr1.16b, vdata1.16b, vrepchr.16b
 	cmeq	vhas_nul2.16b, vdata2.16b, #0
 	cmeq	vhas_chr2.16b, vdata2.16b, vrepchr.16b
 	orr	vhas_chr1.16b, vhas_chr1.16b, vhas_nul1.16b
 	orr	vhas_chr2.16b, vhas_chr2.16b, vhas_nul2.16b
 	and	vhas_chr1.16b, vhas_chr1.16b, vrepmask.16b
 	and	vhas_chr2.16b, vhas_chr2.16b, vrepmask.16b
 	lsl	tmp1, tmp1, #1
 	addp	vend1.16b, vhas_chr1.16b, vhas_chr2.16b	// 256->128
 	mov	tmp3, #~0
 	addp	vend1.16b, vend1.16b, vend1.16b		// 128->64
 	lsr	tmp1, tmp3, tmp1

 	mov	tmp3, vend1.d[0]
 	bic	tmp1, tmp3, tmp1	// Mask padding bits.
 	cbnz	tmp1, L(tail)

 L(loop):
 	ld1	{vdata1.16b, vdata2.16b}, [src], #32
 	cmeq	vhas_nul1.16b, vdata1.16b, #0
 	cmeq	vhas_chr1.16b, vdata1.16b, vrepchr.16b
 	cmeq	vhas_nul2.16b, vdata2.16b, #0
 	cmeq	vhas_chr2.16b, vdata2.16b, vrepchr.16b
 	/* Use a fast check for the termination condition.  */
 	orr	vhas_chr1.16b, vhas_nul1.16b, vhas_chr1.16b
 	orr	vhas_chr2.16b, vhas_nul2.16b, vhas_chr2.16b
 	orr	vend1.16b, vhas_chr1.16b, vhas_chr2.16b
 	addp	vend1.2d, vend1.2d, vend1.2d
 	mov	tmp1, vend1.d[0]
 	cbz	tmp1, L(loop)

 	/* Termination condition found.  Now need to establish exactly why
 	   we terminated.  */
 	and	vhas_chr1.16b, vhas_chr1.16b, vrepmask.16b
 	and	vhas_chr2.16b, vhas_chr2.16b, vrepmask.16b
 	addp	vend1.16b, vhas_chr1.16b, vhas_chr2.16b		// 256->128
 	addp	vend1.16b, vend1.16b, vend1.16b		// 128->64

 	mov	tmp1, vend1.d[0]
 L(tail):
 	/* Count the trailing zeros, by bit reversing...  */
 	rbit	tmp1, tmp1
 	/* Re-bias source.  */
 	sub	src, src, #32
 	clz	tmp1, tmp1	/* ... and counting the leading zeros.  */
 	/* tmp1 is twice the offset into the fragment.  */
 	add	result, src, tmp1, lsr #1
 	ret

 END (__strchrnul_aarch64)
	/*
	* strchrnul - find a character or nul in a string
	*
	* Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	* See https://llvm.org/LICENSE.txt for license information.
	* SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	*/

	/* Assumptions:
	*
	* ARMv8-a, AArch64
	* Neon Available.
	*/

	#include "../asmdefs.h"

	/* Arguments and results. */
	#define srcin x0
	#define chrin w1

	#define result x0

	#define src x2
	#define tmp1 x3
	#define wtmp2 w4
	#define tmp3 x5

	#define vrepchr v0
	#define vdata1 v1
	#define vdata2 v2
	#define vhas_nul1 v3
	#define vhas_nul2 v4
	#define vhas_chr1 v5
	#define vhas_chr2 v6
	#define vrepmask v7
	#define vend1 v16

	/* Core algorithm.

	For each 32-byte hunk we calculate a 64-bit syndrome value, with
	two bits per byte (LSB is always in bits 0 and 1, for both big
	and little-endian systems). For each tuple, bit 0 is set iff
	the relevant byte matched the requested character or nul. Since the
	bits in the syndrome reflect exactly the order in which things occur
	in the original string a count_trailing_zeros() operation will
	identify exactly which byte is causing the termination. */

	/* Locals and temporaries. */

	ENTRY (__strchrnul_aarch64)
	/* Magic constant 0x40100401 to allow us to identify which lane
	matches the termination condition. */
	mov wtmp2, #0x0401
	movk wtmp2, #0x4010, lsl #16
	dup vrepchr.16b, chrin
	bic src, srcin, #31 /* Work with aligned 32-byte hunks. */
	dup vrepmask.4s, wtmp2
	ands tmp1, srcin, #31
	b.eq L(loop)

	/* Input string is not 32-byte aligned. Rather than forcing
	the padding bytes to a safe value, we calculate the syndrome
	for all the bytes, but then mask off those bits of the
	syndrome that are related to the padding. */
	ld1 {vdata1.16b, vdata2.16b}, [src], #32
	neg tmp1, tmp1
	cmeq vhas_nul1.16b, vdata1.16b, #0
	cmeq vhas_chr1.16b, vdata1.16b, vrepchr.16b
	cmeq vhas_nul2.16b, vdata2.16b, #0
	cmeq vhas_chr2.16b, vdata2.16b, vrepchr.16b
	orr vhas_chr1.16b, vhas_chr1.16b, vhas_nul1.16b
	orr vhas_chr2.16b, vhas_chr2.16b, vhas_nul2.16b
	and vhas_chr1.16b, vhas_chr1.16b, vrepmask.16b
	and vhas_chr2.16b, vhas_chr2.16b, vrepmask.16b
	lsl tmp1, tmp1, #1
	addp vend1.16b, vhas_chr1.16b, vhas_chr2.16b // 256->128
	mov tmp3, #~0
	addp vend1.16b, vend1.16b, vend1.16b // 128->64
	lsr tmp1, tmp3, tmp1

	mov tmp3, vend1.d[0]
	bic tmp1, tmp3, tmp1 // Mask padding bits.
	cbnz tmp1, L(tail)

	L(loop):
	ld1 {vdata1.16b, vdata2.16b}, [src], #32
	cmeq vhas_nul1.16b, vdata1.16b, #0
	cmeq vhas_chr1.16b, vdata1.16b, vrepchr.16b
	cmeq vhas_nul2.16b, vdata2.16b, #0
	cmeq vhas_chr2.16b, vdata2.16b, vrepchr.16b
	/* Use a fast check for the termination condition. */
	orr vhas_chr1.16b, vhas_nul1.16b, vhas_chr1.16b
	orr vhas_chr2.16b, vhas_nul2.16b, vhas_chr2.16b
	orr vend1.16b, vhas_chr1.16b, vhas_chr2.16b
	addp vend1.2d, vend1.2d, vend1.2d
	mov tmp1, vend1.d[0]
	cbz tmp1, L(loop)

	/* Termination condition found. Now need to establish exactly why
	we terminated. */
	and vhas_chr1.16b, vhas_chr1.16b, vrepmask.16b
	and vhas_chr2.16b, vhas_chr2.16b, vrepmask.16b
	addp vend1.16b, vhas_chr1.16b, vhas_chr2.16b // 256->128
	addp vend1.16b, vend1.16b, vend1.16b // 128->64

	mov tmp1, vend1.d[0]
	L(tail):
	/* Count the trailing zeros, by bit reversing... */
	rbit tmp1, tmp1
	/* Re-bias source. */
	sub src, src, #32
	clz tmp1, tmp1 /* ... and counting the leading zeros. */
	/* tmp1 is twice the offset into the fragment. */
	add result, src, tmp1, lsr #1
	ret

	END (__strchrnul_aarch64)