{
This file is part of the Free Pascal run time library.
Copyright (c) 2003 by Florian Klaempfl, member of the
Free Pascal development team
Processor dependent part of strings.pp, that can be shared with
sysutils unit.
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
This program 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.
**********************************************************************}
{$define FPC_UNIT_HAS_STRCOPY}
{ Created from glibc: libc/sysdeps/x86_64/strcpy.S Version 1.2 }
function strcopy(dest,source : pchar) : pchar;assembler;
{$ifdef win64}
var
rdi,rsi : int64;
{$endif win64}
asm
{$ifdef win64}
movq %rsi,rsi
movq %rdi,rdi
movq %rdx, %rsi
movq %rcx, %rdi
{$endif win64}
movq %rsi, %rcx { Source register. }
andl $7, %ecx { mask alignment bits }
movq %rdi, %rdx { Duplicate destination pointer. }
jz .LFPC_STRCOPY_5 { aligned => start loop }
neg %ecx { We need to align to 8 bytes. }
addl $8,%ecx
{ Search the first bytes directly. }
.LFPC_STRCOPY_0:
movb (%rsi), %al { Fetch a byte }
testb %al, %al { Is it NUL? }
movb %al, (%rdx) { Store it }
jz .LFPC_STRCOPY_4 { If it was NUL, done! }
incq %rsi
incq %rdx
decl %ecx
jnz .LFPC_STRCOPY_0
.LFPC_STRCOPY_5:
movq $0xfefefefefefefeff,%r8
{ Now the sources is aligned. Unfortunatly we cannot force
to have both source and destination aligned, so ignore the
alignment of the destination. }
.p2align 4
.LFPC_STRCOPY_1:
{ 1st unroll. }
movq (%rsi), %rax { Read double word (8 bytes). }
addq $8, %rsi { Adjust pointer for next word. }
movq %rax, %r9 { Save a copy for NUL finding. }
addq %r8, %r9 { add the magic value to the word. We get
carry bits reported for each byte which
is *not* 0 }
jnc .LFPC_STRCOPY_3 { highest byte is NUL => return pointer }
xorq %rax, %r9 { (word+magic)^word }
orq %r8, %r9 { set all non-carry bits }
incq %r9 { add 1: if one carry bit was *not* set
the addition will not result in 0. }
jnz .LFPC_STRCOPY_3 { found NUL => return pointer }
movq %rax, (%rdx) { Write value to destination. }
addq $8, %rdx { Adjust pointer. }
{ 2nd unroll. }
movq (%rsi), %rax { Read double word (8 bytes). }
addq $8, %rsi { Adjust pointer for next word. }
movq %rax, %r9 { Save a copy for NUL finding. }
addq %r8, %r9 { add the magic value to the word. We get
carry bits reported for each byte which
is *not* 0 }
jnc .LFPC_STRCOPY_3 { highest byte is NUL => return pointer }
xorq %rax, %r9 { (word+magic)^word }
orq %r8, %r9 { set all non-carry bits }
incq %r9 { add 1: if one carry bit was *not* set
the addition will not result in 0. }
jnz .LFPC_STRCOPY_3 { found NUL => return pointer }
movq %rax, (%rdx) { Write value to destination. }
addq $8, %rdx { Adjust pointer. }
{ 3rd unroll. }
movq (%rsi), %rax { Read double word (8 bytes). }
addq $8, %rsi { Adjust pointer for next word. }
movq %rax, %r9 { Save a copy for NUL finding. }
addq %r8, %r9 { add the magic value to the word. We get
carry bits reported for each byte which
is *not* 0 }
jnc .LFPC_STRCOPY_3 { highest byte is NUL => return pointer }
xorq %rax, %r9 { (word+magic)^word }
orq %r8, %r9 { set all non-carry bits }
incq %r9 { add 1: if one carry bit was *not* set
the addition will not result in 0. }
jnz .LFPC_STRCOPY_3 { found NUL => return pointer }
movq %rax, (%rdx) { Write value to destination. }
addq $8, %rdx { Adjust pointer. }
{ 4th unroll. }
movq (%rsi), %rax { Read double word (8 bytes). }
addq $8, %rsi { Adjust pointer for next word. }
movq %rax, %r9 { Save a copy for NUL finding. }
addq %r8, %r9 { add the magic value to the word. We get
carry bits reported for each byte which
is *not* 0 }
jnc .LFPC_STRCOPY_3 { highest byte is NUL => return pointer }
xorq %rax, %r9 { (word+magic)^word }
orq %r8, %r9 { set all non-carry bits }
incq %r9 { add 1: if one carry bit was *not* set
the addition will not result in 0. }
jnz .LFPC_STRCOPY_3 { found NUL => return pointer }
movq %rax, (%rdx) { Write value to destination. }
addq $8, %rdx { Adjust pointer. }
jmp .LFPC_STRCOPY_1 { Next iteration. }
{ Do the last few bytes. %rax contains the value to write.
The loop is unrolled twice. }
.p2align 4
.LFPC_STRCOPY_3:
{ Note that stpcpy needs to return with the value of the NUL
byte. }
movb %al, (%rdx) { 1st byte. }
testb %al, %al { Is it NUL. }
jz .LFPC_STRCOPY_4 { yes, finish. }
incq %rdx { Increment destination. }
movb %ah, (%rdx) { 2nd byte. }
testb %ah, %ah { Is it NUL?. }
jz .LFPC_STRCOPY_4 { yes, finish. }
incq %rdx { Increment destination. }
shrq $16, %rax { Shift... }
jmp .LFPC_STRCOPY_3 { and look at next two bytes in %rax. }
.LFPC_STRCOPY_4:
movq %rdi, %rax { Source is return value. }
{$ifdef win64}
movq rsi,%rsi
movq rdi,%rdi
{$endif win64}
end;
{$define FPC_UNIT_HAS_STRCOMP}
{ Created from glibc: libc/sysdeps/x86_64/strcmp.S Version 1.2 }
function StrComp(Str1, Str2: PChar): SizeInt;assembler;
{$ifdef win64}
var
rdi,rsi : int64;
{$endif win64}
asm
{$ifdef win64}
movq %rsi,rsi
movq %rdi,rdi
movq %rdx, %rsi
movq %rcx, %rdi
{$endif win64}
.LFPC_STRCMP_LOOP:
movb (%rdi), %al
cmpb (%rsi), %al
jne .LFPC_STRCMP_NEG
incq %rdi
incq %rsi
testb %al, %al
jnz .LFPC_STRCMP_LOOP
xorq %rax, %rax
jmp .Lexit
.LFPC_STRCMP_NEG:
movq $1, %rax
movq $-1, %rcx
cmovbq %rcx, %rax
.Lexit:
{$ifdef win64}
movq rsi,%rsi
movq rdi,%rdi
{$endif win64}
end;
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