libc/AOR_v20.02/string/arm/memchr.S - llvm-project - Git at Google

 /*
  * memchr - scan memory for a character
  *
  * 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
  */

 /*
    Written by Dave Gilbert <david.gilbert@linaro.org>

    This __memchr_arm routine is optimised on a Cortex-A9 and should work on
    all ARMv7 processors.   It has a fast past for short sizes, and has
    an optimised path for large data sets; the worst case is finding the
    match early in a large data set.

  */

 @ 2011-02-07 david.gilbert@linaro.org
 @    Extracted from local git a5b438d861
 @ 2011-07-14 david.gilbert@linaro.org
 @    Import endianness fix from local git ea786f1b
 @ 2011-12-07 david.gilbert@linaro.org
 @    Removed unneeded cbz from align loop

 	.syntax unified
 	.arch armv7-a

 @ this lets us check a flag in a 00/ff byte easily in either endianness
 #ifdef __ARMEB__
 #define CHARTSTMASK(c) 1<<(31-(c*8))
 #else
 #define CHARTSTMASK(c) 1<<(c*8)
 #endif
 	.text
 	.thumb

 @ ---------------------------------------------------------------------------
 	.thumb_func
 	.align 2
 	.p2align 4,,15
 	.global __memchr_arm
 	.type __memchr_arm,%function
 __memchr_arm:
 	@ r0 = start of memory to scan
 	@ r1 = character to look for
 	@ r2 = length
 	@ returns r0 = pointer to character or NULL if not found
 	and	r1,r1,#0xff	@ Don't think we can trust the caller to actually pass a char

 	cmp	r2,#16		@ If it's short don't bother with anything clever
 	blt	20f

 	tst	r0, #7		@ If it's already aligned skip the next bit
 	beq	10f

 	@ Work up to an aligned point
 5:
 	ldrb	r3, [r0],#1
 	subs	r2, r2, #1
 	cmp	r3, r1
 	beq	50f		@ If it matches exit found
 	tst	r0, #7
 	bne	5b		@ If not aligned yet then do next byte

 10:
 	@ At this point, we are aligned, we know we have at least 8 bytes to work with
 	push	{r4,r5,r6,r7}
 	orr	r1, r1, r1, lsl #8	@ expand the match word across to all bytes
 	orr	r1, r1, r1, lsl #16
 	bic	r4, r2, #7	@ Number of double words to work with
 	mvns	r7, #0		@ all F's
 	movs	r3, #0

 15:
 	ldmia	r0!,{r5,r6}
 	subs	r4, r4, #8
 	eor	r5,r5, r1	@ Get it so that r5,r6 have 00's where the bytes match the target
 	eor	r6,r6, r1
 	uadd8	r5, r5, r7	@ Parallel add 0xff - sets the GE bits for anything that wasn't 0
 	sel	r5, r3, r7	@ bytes are 00 for none-00 bytes, or ff for 00 bytes - NOTE INVERSION
 	uadd8	r6, r6, r7	@ Parallel add 0xff - sets the GE bits for anything that wasn't 0
 	sel	r6, r5, r7	@ chained....bytes are 00 for none-00 bytes, or ff for 00 bytes - NOTE INVERSION
 	cbnz	r6, 60f
 	bne	15b		@ (Flags from the subs above) If not run out of bytes then go around again

 	pop	{r4,r5,r6,r7}
 	and	r1,r1,#0xff	@ Get r1 back to a single character from the expansion above
 	and	r2,r2,#7	@ Leave the count remaining as the number after the double words have been done

 20:
 	cbz	r2, 40f		@ 0 length or hit the end already then not found

 21:  @ Post aligned section, or just a short call
 	ldrb	r3,[r0],#1
 	subs	r2,r2,#1
 	eor	r3,r3,r1	@ r3 = 0 if match - doesn't break flags from sub
 	cbz	r3, 50f
 	bne	21b		@ on r2 flags

 40:
 	movs	r0,#0		@ not found
 	bx	lr

 50:
 	subs	r0,r0,#1	@ found
 	bx	lr

 60:  @ We're here because the fast path found a hit - now we have to track down exactly which word it was
 	@ r0 points to the start of the double word after the one that was tested
 	@ r5 has the 00/ff pattern for the first word, r6 has the chained value
 	cmp	r5, #0
 	itte	eq
 	moveq	r5, r6		@ the end is in the 2nd word
 	subeq	r0,r0,#3	@ Points to 2nd byte of 2nd word
 	subne	r0,r0,#7	@ or 2nd byte of 1st word

 	@ r0 currently points to the 3rd byte of the word containing the hit
 	tst	r5, # CHARTSTMASK(0)	@ 1st character
 	bne	61f
 	adds	r0,r0,#1
 	tst	r5, # CHARTSTMASK(1)	@ 2nd character
 	ittt	eq
 	addeq	r0,r0,#1
 	tsteq	r5, # (3<<15)		@ 2nd & 3rd character
 	@ If not the 3rd must be the last one
 	addeq	r0,r0,#1

 61:
 	pop	{r4,r5,r6,r7}
 	subs	r0,r0,#1
 	bx	lr

 	.size	__memchr_arm, . - __memchr_arm
	/*
	* memchr - scan memory for a character
	*
	* 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
	*/

	/*
	Written by Dave Gilbert <david.gilbert@linaro.org>

	This __memchr_arm routine is optimised on a Cortex-A9 and should work on
	all ARMv7 processors. It has a fast past for short sizes, and has
	an optimised path for large data sets; the worst case is finding the
	match early in a large data set.

	*/

	@ 2011-02-07 david.gilbert@linaro.org
	@ Extracted from local git a5b438d861
	@ 2011-07-14 david.gilbert@linaro.org
	@ Import endianness fix from local git ea786f1b
	@ 2011-12-07 david.gilbert@linaro.org
	@ Removed unneeded cbz from align loop

	.syntax unified
	.arch armv7-a

	@ this lets us check a flag in a 00/ff byte easily in either endianness
	#ifdef __ARMEB__
	#define CHARTSTMASK(c) 1<<(31-(c*8))
	#else
	#define CHARTSTMASK(c) 1<<(c*8)
	#endif
	.text
	.thumb

	@ ---------------------------------------------------------------------------
	.thumb_func
	.align 2
	.p2align 4,,15
	.global __memchr_arm
	.type __memchr_arm,%function
	__memchr_arm:
	@ r0 = start of memory to scan
	@ r1 = character to look for
	@ r2 = length
	@ returns r0 = pointer to character or NULL if not found
	and r1,r1,#0xff @ Don't think we can trust the caller to actually pass a char

	cmp r2,#16 @ If it's short don't bother with anything clever
	blt 20f

	tst r0, #7 @ If it's already aligned skip the next bit
	beq 10f

	@ Work up to an aligned point
	5:
	ldrb r3, [r0],#1
	subs r2, r2, #1
	cmp r3, r1
	beq 50f @ If it matches exit found
	tst r0, #7
	bne 5b @ If not aligned yet then do next byte

	10:
	@ At this point, we are aligned, we know we have at least 8 bytes to work with
	push {r4,r5,r6,r7}
	orr r1, r1, r1, lsl #8 @ expand the match word across to all bytes
	orr r1, r1, r1, lsl #16
	bic r4, r2, #7 @ Number of double words to work with
	mvns r7, #0 @ all F's
	movs r3, #0

	15:
	ldmia r0!,{r5,r6}
	subs r4, r4, #8
	eor r5,r5, r1 @ Get it so that r5,r6 have 00's where the bytes match the target
	eor r6,r6, r1
	uadd8 r5, r5, r7 @ Parallel add 0xff - sets the GE bits for anything that wasn't 0
	sel r5, r3, r7 @ bytes are 00 for none-00 bytes, or ff for 00 bytes - NOTE INVERSION
	uadd8 r6, r6, r7 @ Parallel add 0xff - sets the GE bits for anything that wasn't 0
	sel r6, r5, r7 @ chained....bytes are 00 for none-00 bytes, or ff for 00 bytes - NOTE INVERSION
	cbnz r6, 60f
	bne 15b @ (Flags from the subs above) If not run out of bytes then go around again

	pop {r4,r5,r6,r7}
	and r1,r1,#0xff @ Get r1 back to a single character from the expansion above
	and r2,r2,#7 @ Leave the count remaining as the number after the double words have been done

	20:
	cbz r2, 40f @ 0 length or hit the end already then not found

	21: @ Post aligned section, or just a short call
	ldrb r3,[r0],#1
	subs r2,r2,#1
	eor r3,r3,r1 @ r3 = 0 if match - doesn't break flags from sub
	cbz r3, 50f
	bne 21b @ on r2 flags

	40:
	movs r0,#0 @ not found
	bx lr

	50:
	subs r0,r0,#1 @ found
	bx lr

	60: @ We're here because the fast path found a hit - now we have to track down exactly which word it was
	@ r0 points to the start of the double word after the one that was tested
	@ r5 has the 00/ff pattern for the first word, r6 has the chained value
	cmp r5, #0
	itte eq
	moveq r5, r6 @ the end is in the 2nd word
	subeq r0,r0,#3 @ Points to 2nd byte of 2nd word
	subne r0,r0,#7 @ or 2nd byte of 1st word

	@ r0 currently points to the 3rd byte of the word containing the hit
	tst r5, # CHARTSTMASK(0) @ 1st character
	bne 61f
	adds r0,r0,#1
	tst r5, # CHARTSTMASK(1) @ 2nd character
	ittt eq
	addeq r0,r0,#1
	tsteq r5, # (3<<15) @ 2nd & 3rd character
	@ If not the 3rd must be the last one
	addeq r0,r0,#1

	61:
	pop {r4,r5,r6,r7}
	subs r0,r0,#1
	bx lr

	.size __memchr_arm, . - __memchr_arm