google3/third_party/grte/v5_src/glibc-2.27/sysdeps/s390/multiarch/wcsncat-vx.S - GRTEv5 - Git at Google

 /* Vector optimized 32/64 bit S/390 version of wcsncat.
    Copyright (C) 2015-2018 Free Software Foundation, Inc.
    This file is part of the GNU C Library.

    The GNU C Library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Lesser General Public
    License as published by the Free Software Foundation; either
    version 2.1 of the License, or (at your option) any later version.

    The GNU C Library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Lesser General Public License for more details.

    You should have received a copy of the GNU Lesser General Public
    License along with the GNU C Library; if not, see
    <http://www.gnu.org/licenses/>.  */

 #if defined HAVE_S390_VX_ASM_SUPPORT && IS_IN (libc)

 # include "sysdep.h"
 # include "asm-syntax.h"

 	.text

 /* wchar_t * wcsncat (wchar_t *dest, const wchar_t *src, size_t n)
    Concatenate two strings - at most n characters of src.

    Register usage:
    -r0=saved dest pointer for return
    -r1=tmp
    -r2=dest
    -r3=src
    -r4=n
    -r5=current_len
    -r6=tmp
    -r7=tmp
    -v16=part of src
    -v17=index of zero
    -v18=part of src
    -v31=register save area for r6, r7
 */
 ENTRY(__wcsncat_vx)
 	.machine "z13"
 	.machinemode "zarch_nohighgprs"

 # if !defined __s390x__
 	llgfr	%r4,%r4
 # endif /* !defined __s390x__ */

 	clgfi	%r4,0
 	ber	%r14		/* Nothing to do, if n == 0.  */

 	vlbb	%v16,0(%r2),6	/* Load s until next 4k-byte boundary.  */
 	lcbb	%r1,0(%r2),6	/* Get bytes to 4k-byte boundary or 16.  */

 	/* If either src or dest is not 4byte aligned, use __wcsncat_c.  */
 	tmll	%r2,3		/* Test if s is 4-byte aligned?   */
 	jne	.Lfallback	/* And use common-code variant if not.  */
 	tmll	%r3,3		/* Test if src is 4-byte aligned?   */
 	jne	.Lfallback	/* And use common-code variant if not.  */

 	lgr	%r0,%r2		/* Save destination pointer for return.  */
 	vlvgp	%v31,%r6,%r7	/* Save registers.  */

 	/* WCSLEN
 	   %r1 = loaded bytes (tmp)
 	   %r6 = zero byte index (tmp)
 	   %r2 = dst
 	*/
 	vfenezf	%v16,%v16,%v16	/* Find element not equal with zero search.  */
 	vlgvb	%r5,%v16,7	/* Load zero index or 16 if not found.  */
 	clrjl	%r5,%r1,.Llen_end /* Found zero within loaded bytes, end.  */

 	/* Align s to 16 byte.  */
 	risbgn	%r1,%r2,60,128+63,0 /* %r3 = bits 60-63 of %r2 'and' 15.  */
 	lghi	%r5,16		/* current_len = 16.  */
 	slr	%r5,%r1		/* Compute bytes to 16bytes boundary.  */

 	/* Find zero in 16byte aligned loop.  */
 .Llen_loop:
 	vl	%v16,0(%r5,%r2)	/* Load s.  */
 	vfenezfs %v16,%v16,%v16	/* Find element not equal with zero search.  */
 	je	.Llen_found	/* Jump away if zero was found.  */
 	vl	%v16,16(%r5,%r2)
 	vfenezfs %v16,%v16,%v16
 	je	.Llen_found16
 	vl	%v16,32(%r5,%r2)
 	vfenezfs %v16,%v16,%v16
 	je	.Llen_found32
 	vl	%v16,48(%r5,%r2)
 	vfenezfs %v16,%v16,%v16
 	je	.Llen_found48

 	aghi	%r5,64
 	j	.Llen_loop	/* No zero -> loop.  */

 .Llen_found48:
 	aghi	%r5,16
 .Llen_found32:
 	aghi	%r5,16
 .Llen_found16:
 	aghi	%r5,16
 .Llen_found:
 	vlgvb	%r1,%v16,7	/* Load byte index of zero.  */
 	algr	%r5,%r1

 .Llen_end:
 	/* WCSNCPY
 	   %r1 = zero byte index (tmp)
 	   %r6 = loaded bytes (tmp)
 	   %r3 = curr src pointer
 	   %r2 = curr dst pointer
 	   %r7 = border, tmp
 	*/
 	la	%r2,0(%r5,%r2)	/* strcpy at end of dst-string.  */

 	vlbb	%v16,0(%r3),6	/* Load s until next 4k-byte boundary.  */
 	lcbb	%r6,0(%r3),6	/* Get bytes to 4k-byte boundary or 16.  */
 	llgfr	%r6,%r6		/* Convert 32bit to 64bit.  */

 	lghi	%r5,0		/* current_len = 0.  */

 	/* Check range of maxlen and convert to byte-count.  */
 # ifdef __s390x__
 	tmhh	%r4,49152	/* Test bit 0 or 1 of maxlen.  */
 	lghi	%r1,-4		/* Max byte-count is 18446744073709551612.  */
 # else
 	tmlh	%r4,49152	/* Test bit 0 or 1 of maxlen.  */
 	llilf	%r1,4294967292	/* Max byte-count is 4294967292.  */
 # endif /* !__s390x__ */
 	sllg	%r4,%r4,2	/* Convert character-count to byte-count.  */
 	locgrne	%r4,%r1		/* Use max byte-count, if bit 0/1 was one.  */

 	clgrjle	%r4,%r6,.Lcpy_remaining_v16 /* If n <= loaded-bytes
 					       -> process remaining.  */

 	/* n > loaded-byte-count.  */
 	vfenezf	%v17,%v16,%v16	/* Find element not equal with zero search.  */
 	vlgvb	%r1,%v17,7	/* Load zero index or 16 if not found.  */
 	clrjl	%r1,%r6,.Lcpy_found_v16_store /* Found zero within loaded bytes,
 					         copy and return.  */

 	/* Align s to 16 byte.  */
 	risbgn	%r1,%r3,60,128+63,0 /* %r3 = bits 60-63 of %r2 'and' 15.  */
 	lghi	%r5,15		/* current_len = 15.  */
 	slr	%r5,%r1		/* Compute highest index to 16byte boundary.  *

 	/* Zero not found and maxlen > loaded-byte-count.  */
 	vstl	%v16,%r5,0(%r2)	/* Copy loaded characters - no zero.  */
 	ahi	%r5,1		/* Start loop at next character.  */

 	/*
 	  Now we are 16byte aligned, so we can load a full vreg
 	  without page fault.
 	 */
 	lgr	%r1,%r5		/* If %r5 + 64 < maxlen? -> loop64.  */
 	aghi	%r1,64
 	clgrjl	%r1,%r4,.Lcpy_loop64

 	vl	%v16,0(%r5,%r3)	/* Load s.  */
 	clgijl	%r4,17,.Lcpy_remaining_v16 /* If n <=16,
 					       process remaining bytes.  */
 .Lcpy_lt64:
 	lgr	%r7,%r4
 	slgfi	%r7,16		/* border_len = n - 16.  */

 	clgrjhe	%r5,%r7,.Lcpy_remaining_v16
 	vfenezfs %v17,%v16,%v16	/* Find element not equal with zero search.  */
 	je	.Lcpy_found_v16 /* Jump away if zero was found.  */
 	vl	%v18,16(%r5,%r3) /* Load next part of s.  */
 	vst	%v16,0(%r5,%r2)	/* Save previous part without zero to dst.  */
 	aghi	%r5,16

 	clgrjhe	%r5,%r7,.Lcpy_remaining_v18
 	vfenezfs %v17,%v18,%v18
 	je	.Lcpy_found_v18
 	vl	%v16,16(%r5,%r3)
 	vst	%v18,0(%r5,%r2)
 	aghi	%r5,16

 	clgrjhe	%r5,%r7,.Lcpy_remaining_v16
 	vfenezfs %v17,%v16,%v16
 	je	.Lcpy_found_v16
 	vl	%v18,16(%r5,%r3)
 	vst	%v16,0(%r5,%r2)
 	aghi	%r5,16

 .Lcpy_remaining_v18:
 	vlr	%v16,%v18
 .Lcpy_remaining_v16:
 	/* v16 contains the remaining bytes [1...16].
 	   Store remaining bytes and append string-termination.  */
 	vfenezf	%v17,%v16,%v16	/* Find element not equal with zero search.  */
 	slgrk	%r7,%r4,%r5	/* Remaining bytes = maxlen - current_len.  */
 	aghi	%r7,-1		/* vstl needs highest index.  */
 	vlgvb	%r1,%v17,7	/* Load zero index or 16 if not found.  */
 	la	%r2,0(%r5,%r2)	/* vstl has no index register.  */
 	/* Zero-index within remaining-bytes, store up to zero and end.  */
 	clgrjle	%r1,%r7,.Lcpy_found_v16_store
 	vstl	%v16,%r7,0(%r2)	/* Store remaining bytes.  */
 	lghi	%r1,0
 	st	%r1,1(%r7,%r2)	/* Store string-null-termination beyond n.  */
 .Lcpy_end:
 	/* Restore saved registers.  */
 	vlgvg	%r6,%v31,0
 	vlgvg	%r7,%v31,1
 	lgr	%r2,%r0		/* Load saved dest-ptr.  */
 	br	%r14

 .Lcpy_found_v16_32:
 	aghi	%r5,32
 	j	.Lcpy_found_v16
 .Lcpy_found_v18_48:
 	aghi	%r5,32
 .Lcpy_found_v18_16:
 	aghi	%r5,16
 .Lcpy_found_v18:
 	vlr	%v16,%v18
 .Lcpy_found_v16:
 	/* v16 contains a zero. Store remaining bytes to zero. current_len
 	   has not reached border, thus checking for n is not needed!  */
 	vlgvb	%r1,%v17,7	/* Load byte index of zero.  */
 	la	%r2,0(%r5,%r2)
 .Lcpy_found_v16_store:
 	aghi	%r1,3		/* Also copy remaining bytes of zero.  */
 	vstl	%v16,%r1,0(%r2)	/* Copy characters including zero.  */
 	j	.Lcpy_end

 	/* Find zero in 16byte aligned loop.  */
 .Lcpy_loop2:
 	vl	%v16,16(%r5,%r3)
 	vst	%v18,0(%r5,%r2)
 	aghi	%r5,16

 .Lcpy_loop64:
 	vl	%v16,0(%r5,%r3)
 	vfenezfs %v17,%v16,%v16	/* Find element not equal with zero search.  */
 	je	.Lcpy_found_v16 /* Jump away if zero was found.  */
 	vl	%v18,16(%r5,%r3) /* Load next part of s.  */
 	vst	%v16,0(%r5,%r2)	/* Save previous part without zero to dst.  */
 	vfenezfs %v17,%v18,%v18
 	je	.Lcpy_found_v18_16
 	vl	%v16,32(%r5,%r3)
 	vst	%v18,16(%r5,%r2)
 	vfenezfs %v17,%v16,%v16
 	je	.Lcpy_found_v16_32
 	vl	%v18,48(%r5,%r3)
 	vst	%v16,32(%r5,%r2)
 	vfenezfs %v17,%v18,%v18
 	je	.Lcpy_found_v18_48
 	vst	%v18,48(%r5,%r2)

 	aghi	%r5,64
 	lgr	%r1,%r5		/* If %r5 + 64 < maxlen? -> loop64.  */
 	aghi	%r1,64
 	clgrjl	%r1,%r4,.Lcpy_loop64

 	vl	%v16,0(%r5,%r3)	/* Load s.  */
 	j	.Lcpy_lt64

 .Lfallback:
 	jg	__wcsncat_c
 END(__wcsncat_vx)
 #endif /* HAVE_S390_VX_ASM_SUPPORT && IS_IN (libc) */
	/* Vector optimized 32/64 bit S/390 version of wcsncat.
	Copyright (C) 2015-2018 Free Software Foundation, Inc.
	This file is part of the GNU C Library.

	The GNU C Library is free software; you can redistribute it and/or
	modify it under the terms of the GNU Lesser General Public
	License as published by the Free Software Foundation; either
	version 2.1 of the License, or (at your option) any later version.

	The GNU C Library is distributed in the hope that it will be useful,
	but WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	Lesser General Public License for more details.

	You should have received a copy of the GNU Lesser General Public
	License along with the GNU C Library; if not, see
	<http://www.gnu.org/licenses/>. */

	#if defined HAVE_S390_VX_ASM_SUPPORT && IS_IN (libc)

	# include "sysdep.h"
	# include "asm-syntax.h"

	.text

	/* wchar_t * wcsncat (wchar_t dest, const wchar_t src, size_t n)
	Concatenate two strings - at most n characters of src.

	Register usage:
	-r0=saved dest pointer for return
	-r1=tmp
	-r2=dest
	-r3=src
	-r4=n
	-r5=current_len
	-r6=tmp
	-r7=tmp
	-v16=part of src
	-v17=index of zero
	-v18=part of src
	-v31=register save area for r6, r7
	*/
	ENTRY(__wcsncat_vx)
	.machine "z13"
	.machinemode "zarch_nohighgprs"

	# if !defined __s390x__
	llgfr %r4,%r4
	# endif /* !defined __s390x__ */

	clgfi %r4,0
	ber %r14 /* Nothing to do, if n == 0. */

	vlbb %v16,0(%r2),6 /* Load s until next 4k-byte boundary. */
	lcbb %r1,0(%r2),6 /* Get bytes to 4k-byte boundary or 16. */

	/* If either src or dest is not 4byte aligned, use __wcsncat_c. */
	tmll %r2,3 /* Test if s is 4-byte aligned? */
	jne .Lfallback /* And use common-code variant if not. */
	tmll %r3,3 /* Test if src is 4-byte aligned? */
	jne .Lfallback /* And use common-code variant if not. */

	lgr %r0,%r2 /* Save destination pointer for return. */
	vlvgp %v31,%r6,%r7 /* Save registers. */

	/* WCSLEN
	%r1 = loaded bytes (tmp)
	%r6 = zero byte index (tmp)
	%r2 = dst
	*/
	vfenezf %v16,%v16,%v16 /* Find element not equal with zero search. */
	vlgvb %r5,%v16,7 /* Load zero index or 16 if not found. */
	clrjl %r5,%r1,.Llen_end /* Found zero within loaded bytes, end. */

	/* Align s to 16 byte. */
	risbgn %r1,%r2,60,128+63,0 /* %r3 = bits 60-63 of %r2 'and' 15. */
	lghi %r5,16 /* current_len = 16. */
	slr %r5,%r1 /* Compute bytes to 16bytes boundary. */

	/* Find zero in 16byte aligned loop. */
	.Llen_loop:
	vl %v16,0(%r5,%r2) /* Load s. */
	vfenezfs %v16,%v16,%v16 /* Find element not equal with zero search. */
	je .Llen_found /* Jump away if zero was found. */
	vl %v16,16(%r5,%r2)
	vfenezfs %v16,%v16,%v16
	je .Llen_found16
	vl %v16,32(%r5,%r2)
	vfenezfs %v16,%v16,%v16
	je .Llen_found32
	vl %v16,48(%r5,%r2)
	vfenezfs %v16,%v16,%v16
	je .Llen_found48

	aghi %r5,64
	j .Llen_loop /* No zero -> loop. */

	.Llen_found48:
	aghi %r5,16
	.Llen_found32:
	aghi %r5,16
	.Llen_found16:
	aghi %r5,16
	.Llen_found:
	vlgvb %r1,%v16,7 /* Load byte index of zero. */
	algr %r5,%r1

	.Llen_end:
	/* WCSNCPY
	%r1 = zero byte index (tmp)
	%r6 = loaded bytes (tmp)
	%r3 = curr src pointer
	%r2 = curr dst pointer
	%r7 = border, tmp
	*/
	la %r2,0(%r5,%r2) /* strcpy at end of dst-string. */

	vlbb %v16,0(%r3),6 /* Load s until next 4k-byte boundary. */
	lcbb %r6,0(%r3),6 /* Get bytes to 4k-byte boundary or 16. */
	llgfr %r6,%r6 /* Convert 32bit to 64bit. */

	lghi %r5,0 /* current_len = 0. */

	/* Check range of maxlen and convert to byte-count. */
	# ifdef __s390x__
	tmhh %r4,49152 /* Test bit 0 or 1 of maxlen. */
	lghi %r1,-4 /* Max byte-count is 18446744073709551612. */
	# else
	tmlh %r4,49152 /* Test bit 0 or 1 of maxlen. */
	llilf %r1,4294967292 /* Max byte-count is 4294967292. */
	# endif /* !__s390x__ */
	sllg %r4,%r4,2 /* Convert character-count to byte-count. */
	locgrne %r4,%r1 /* Use max byte-count, if bit 0/1 was one. */

	clgrjle %r4,%r6,.Lcpy_remaining_v16 /* If n <= loaded-bytes
	-> process remaining. */

	/* n > loaded-byte-count. */
	vfenezf %v17,%v16,%v16 /* Find element not equal with zero search. */
	vlgvb %r1,%v17,7 /* Load zero index or 16 if not found. */
	clrjl %r1,%r6,.Lcpy_found_v16_store /* Found zero within loaded bytes,
	copy and return. */

	/* Align s to 16 byte. */
	risbgn %r1,%r3,60,128+63,0 /* %r3 = bits 60-63 of %r2 'and' 15. */
	lghi %r5,15 /* current_len = 15. */
	slr %r5,%r1 /* Compute highest index to 16byte boundary. *

	/* Zero not found and maxlen > loaded-byte-count. */
	vstl %v16,%r5,0(%r2) /* Copy loaded characters - no zero. */
	ahi %r5,1 /* Start loop at next character. */

	/*
	Now we are 16byte aligned, so we can load a full vreg
	without page fault.
	*/
	lgr %r1,%r5 /* If %r5 + 64 < maxlen? -> loop64. */
	aghi %r1,64
	clgrjl %r1,%r4,.Lcpy_loop64

	vl %v16,0(%r5,%r3) /* Load s. */
	clgijl %r4,17,.Lcpy_remaining_v16 /* If n <=16,
	process remaining bytes. */
	.Lcpy_lt64:
	lgr %r7,%r4
	slgfi %r7,16 /* border_len = n - 16. */

	clgrjhe %r5,%r7,.Lcpy_remaining_v16
	vfenezfs %v17,%v16,%v16 /* Find element not equal with zero search. */
	je .Lcpy_found_v16 /* Jump away if zero was found. */
	vl %v18,16(%r5,%r3) /* Load next part of s. */
	vst %v16,0(%r5,%r2) /* Save previous part without zero to dst. */
	aghi %r5,16

	clgrjhe %r5,%r7,.Lcpy_remaining_v18
	vfenezfs %v17,%v18,%v18
	je .Lcpy_found_v18
	vl %v16,16(%r5,%r3)
	vst %v18,0(%r5,%r2)
	aghi %r5,16

	clgrjhe %r5,%r7,.Lcpy_remaining_v16
	vfenezfs %v17,%v16,%v16
	je .Lcpy_found_v16
	vl %v18,16(%r5,%r3)
	vst %v16,0(%r5,%r2)
	aghi %r5,16

	.Lcpy_remaining_v18:
	vlr %v16,%v18
	.Lcpy_remaining_v16:
	/* v16 contains the remaining bytes [1...16].
	Store remaining bytes and append string-termination. */
	vfenezf %v17,%v16,%v16 /* Find element not equal with zero search. */
	slgrk %r7,%r4,%r5 /* Remaining bytes = maxlen - current_len. */
	aghi %r7,-1 /* vstl needs highest index. */
	vlgvb %r1,%v17,7 /* Load zero index or 16 if not found. */
	la %r2,0(%r5,%r2) /* vstl has no index register. */
	/* Zero-index within remaining-bytes, store up to zero and end. */
	clgrjle %r1,%r7,.Lcpy_found_v16_store
	vstl %v16,%r7,0(%r2) /* Store remaining bytes. */
	lghi %r1,0
	st %r1,1(%r7,%r2) /* Store string-null-termination beyond n. */
	.Lcpy_end:
	/* Restore saved registers. */
	vlgvg %r6,%v31,0
	vlgvg %r7,%v31,1
	lgr %r2,%r0 /* Load saved dest-ptr. */
	br %r14

	.Lcpy_found_v16_32:
	aghi %r5,32
	j .Lcpy_found_v16
	.Lcpy_found_v18_48:
	aghi %r5,32
	.Lcpy_found_v18_16:
	aghi %r5,16
	.Lcpy_found_v18:
	vlr %v16,%v18
	.Lcpy_found_v16:
	/* v16 contains a zero. Store remaining bytes to zero. current_len
	has not reached border, thus checking for n is not needed! */
	vlgvb %r1,%v17,7 /* Load byte index of zero. */
	la %r2,0(%r5,%r2)
	.Lcpy_found_v16_store:
	aghi %r1,3 /* Also copy remaining bytes of zero. */
	vstl %v16,%r1,0(%r2) /* Copy characters including zero. */
	j .Lcpy_end

	/* Find zero in 16byte aligned loop. */
	.Lcpy_loop2:
	vl %v16,16(%r5,%r3)
	vst %v18,0(%r5,%r2)
	aghi %r5,16

	.Lcpy_loop64:
	vl %v16,0(%r5,%r3)
	vfenezfs %v17,%v16,%v16 /* Find element not equal with zero search. */
	je .Lcpy_found_v16 /* Jump away if zero was found. */
	vl %v18,16(%r5,%r3) /* Load next part of s. */
	vst %v16,0(%r5,%r2) /* Save previous part without zero to dst. */
	vfenezfs %v17,%v18,%v18
	je .Lcpy_found_v18_16
	vl %v16,32(%r5,%r3)
	vst %v18,16(%r5,%r2)
	vfenezfs %v17,%v16,%v16
	je .Lcpy_found_v16_32
	vl %v18,48(%r5,%r3)
	vst %v16,32(%r5,%r2)
	vfenezfs %v17,%v18,%v18
	je .Lcpy_found_v18_48
	vst %v18,48(%r5,%r2)

	aghi %r5,64
	lgr %r1,%r5 /* If %r5 + 64 < maxlen? -> loop64. */
	aghi %r1,64
	clgrjl %r1,%r4,.Lcpy_loop64

	vl %v16,0(%r5,%r3) /* Load s. */
	j .Lcpy_lt64

	.Lfallback:
	jg __wcsncat_c
	END(__wcsncat_vx)
	#endif /* HAVE_S390_VX_ASM_SUPPORT && IS_IN (libc) */