{
This file is part of the Free Pascal run time library.
Copyright (c) 2000-2001 by the Free Pascal development team.
Portions Copyright (c) 2000 by Casey Duncan (casey.duncan@state.co.us)
Processor dependent implementation for the system unit for
PowerPC64
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.
**********************************************************************}
{****************************************************************************
PowerPC specific stuff
****************************************************************************}
procedure fpc_enable_ppc_fpu_exceptions; assembler; nostackframe;
asm
{ clear all "exception happened" flags we care about}
mtfsfi 0,0
mtfsfi 1,0
mtfsfi 2,0
mtfsfi 3,0
{$ifdef fpc_mtfsb0_corrected}
mtfsb0 21
mtfsb0 22
mtfsb0 23
{$endif fpc_mtfsb0_corrected}
{ enable invalid operations and division by zero exceptions. }
{ No overflow/underflow, since those give some spurious }
{ exceptions }
mtfsfi 6,9
end;
procedure fpc_cpuinit;
begin
fpc_enable_ppc_fpu_exceptions;
end;
{****************************************************************************
Move / Fill
****************************************************************************}
{$ifndef FPC_SYSTEM_HAS_MOVE}
{$define FPC_SYSTEM_HAS_MOVE}
procedure Move(const source;var dest;count:SizeInt);[public, alias: 'FPC_MOVE'];
type
bytearray = array [0..high(sizeint)-1] of byte;
var
i:longint;
begin
if count <= 0 then exit;
Dec(count);
if (@dest > @source) then
begin
for i:=count downto 0 do
bytearray(dest)[i]:=bytearray(source)[i];
end
else
begin
for i:=0 to count do
bytearray(dest)[i]:=bytearray(source)[i];
end;
end;
{$endif FPC_SYSTEM_HAS_MOVE}
{$ifndef FPC_SYSTEM_HAS_FILLCHAR}
{$define FPC_SYSTEM_HAS_FILLCHAR}
Procedure FillChar(var x;count:SizeInt;value:byte);
type
longintarray = array [0..high(sizeint) div 4-1] of longint;
bytearray = array [0..high(sizeint)-1] of byte;
var
i,v : longint;
begin
if count <= 0 then exit;
v := 0;
{ aligned? }
if (PtrUInt(@x) mod sizeof(PtrUInt))<>0 then
for i:=0 to count-1 do
bytearray(x)[i]:=value
else begin
v:=(value shl 8) or (value and $FF);
v:=(v shl 16) or (v and $ffff);
for i:=0 to (count div 4)-1 do
longintarray(x)[i]:=v;
for i:=(count div 4)*4 to count-1 do
bytearray(x)[i]:=value;
end;
end;
{$endif FPC_SYSTEM_HAS_FILLCHAR}
{$ifndef FPC_SYSTEM_HAS_FILLDWORD}
{$define FPC_SYSTEM_HAS_FILLDWORD}
procedure filldword(var x;count : SizeInt;value : dword); assembler; nostackframe;
asm
cmpdi cr0,r4,0
mtctr r4
subi r3,r3,4
ble .LFillDWordEnd //if count<=0 Then Exit
.LFillDWordLoop:
stwu r5,4(r3)
bdnz .LFillDWordLoop
.LFillDWordEnd:
end;
{$endif FPC_SYSTEM_HAS_FILLDWORD}
{$ifndef FPC_SYSTEM_HAS_INDEXBYTE}
{$define FPC_SYSTEM_HAS_INDEXBYTE}
function IndexByte(const buf;len:SizeInt;b:byte):int64; assembler; nostackframe;
{ input: r3 = buf, r4 = len, r5 = b }
{ output: r3 = position of b in buf (-1 if not found) }
asm
{ load the begin of the buffer in the data cache }
dcbt 0,r3
cmpldi r4,0
mtctr r4
subi r10,r3,1
mr r0,r3
{ assume not found }
li r3,-1
ble .LIndexByteDone
.LIndexByteLoop:
lbzu r9,1(r10)
cmpld r9,r5
bdnzf cr0*4+eq,.LIndexByteLoop
{ r3 still contains -1 here }
bne .LIndexByteDone
sub r3,r10,r0
.LIndexByteDone:
end;
{$endif FPC_SYSTEM_HAS_INDEXBYTE}
{$ifndef FPC_SYSTEM_HAS_INDEXWORD}
{$define FPC_SYSTEM_HAS_INDEXWORD}
function IndexWord(const buf;len:SizeInt;b:word):int64; assembler; nostackframe;
{ input: r3 = buf, r4 = len, r5 = b }
{ output: r3 = position of b in buf (-1 if not found) }
asm
{ load the begin of the buffer in the data cache }
dcbt 0,r3
cmpldi r4,0
mtctr r4
subi r10,r3,2
mr r0,r3
{ assume not found }
li r3,-1
ble .LIndexWordDone
.LIndexWordLoop:
lhzu r9,2(r10)
cmpld r9,r5
bdnzf cr0*4+eq,.LIndexWordLoop
{ r3 still contains -1 here }
bne .LIndexWordDone
sub r3,r10,r0
sradi r3,r3,1
.LIndexWordDone:
end;
{$endif FPC_SYSTEM_HAS_INDEXWORD}
{$ifndef FPC_SYSTEM_HAS_INDEXDWORD}
{$define FPC_SYSTEM_HAS_INDEXDWORD}
function IndexDWord(const buf;len:SizeInt;b:DWord):int64; assembler; nostackframe;
{ input: r3 = buf, r4 = len, r5 = b }
{ output: r3 = position of b in buf (-1 if not found) }
asm
{ load the begin of the buffer in the data cache }
dcbt 0,r3
cmpldi r4,0
mtctr r4
subi r10,r3,4
mr r0,r3
{ assume not found }
li r3,-1
ble .LIndexDWordDone
.LIndexDWordLoop:
lwzu r9,4(r10)
cmpld r9,r5
bdnzf cr0*4+eq, .LIndexDWordLoop
{ r3 still contains -1 here }
bne .LIndexDWordDone
sub r3,r10,r0
sradi r3,r3,2
.LIndexDWordDone:
end;
{$endif FPC_SYSTEM_HAS_INDEXDWORD}
{$ifndef FPC_SYSTEM_HAS_COMPAREBYTE}
{$define FPC_SYSTEM_HAS_COMPAREBYTE}
function CompareByte(const buf1,buf2;len:SizeInt):int64; assembler; nostackframe;
{ input: r3 = buf1, r4 = buf2, r5 = len }
{ output: r3 = 0 if equal, < 0 if buf1 < str2, > 0 if buf1 > str2 }
{ note: almost direct copy of strlcomp() from strings.inc }
asm
{ load the begin of the first buffer in the data cache }
dcbt 0,r3
{ use r0 instead of r3 for buf1 since r3 contains result }
cmpldi r5,0
mtctr r5
subi r11,r3,1
subi r4,r4,1
li r3,0
ble .LCompByteDone
.LCompByteLoop:
{ load next chars }
lbzu r9,1(r11)
lbzu r10,1(r4)
{ calculate difference }
sub. r3,r9,r10
{ if chars not equal or at the end, we're ready }
bdnzt cr0*4+eq, .LCompByteLoop
.LCompByteDone:
end;
{$endif FPC_SYSTEM_HAS_COMPAREBYTE}
{$ifndef FPC_SYSTEM_HAS_COMPAREWORD}
{$define FPC_SYSTEM_HAS_COMPAREWORD}
function CompareWord(const buf1,buf2;len:SizeInt):int64; assembler; nostackframe;
{ input: r3 = buf1, r4 = buf2, r5 = len }
{ output: r3 = 0 if equal, < 0 if buf1 < str2, > 0 if buf1 > str2 }
{ note: almost direct copy of strlcomp() from strings.inc }
asm
{ load the begin of the first buffer in the data cache }
dcbt 0,r3
{ use r0 instead of r3 for buf1 since r3 contains result }
cmpldi r5,0
mtctr r5
subi r11,r3,2
subi r4,r4,2
li r3,0
ble .LCompWordDone
.LCompWordLoop:
{ load next chars }
lhzu r9,2(r11)
lhzu r10,2(r4)
{ calculate difference }
sub. r3,r9,r10
{ if chars not equal or at the end, we're ready }
bdnzt cr0*4+eq, .LCompWordLoop
.LCompWordDone:
end;
{$endif FPC_SYSTEM_HAS_COMPAREWORD}
{$ifndef FPC_SYSTEM_HAS_COMPAREDWORD}
{$define FPC_SYSTEM_HAS_COMPAREDWORD}
function CompareDWord(const buf1,buf2;len:SizeInt):int64; assembler; nostackframe;
{ input: r3 = buf1, r4 = buf2, r5 = len }
{ output: r3 = 0 if equal, < 0 if buf1 < str2, > 0 if buf1 > str2 }
{ note: almost direct copy of strlcomp() from strings.inc }
asm
{ load the begin of the first buffer in the data cache }
dcbt 0,r3
{ use r0 instead of r3 for buf1 since r3 contains result }
cmpldi r5,0
mtctr r5
subi r11,r3,4
subi r4,r4,4
li r3,0
ble .LCompDWordDone
.LCompDWordLoop:
{ load next chars }
lwzu r9,4(r11)
lwzu r10,4(r4)
{ calculate difference }
sub. r3,r9,r10
{ if chars not equal or at the end, we're ready }
bdnzt cr0*4+eq, .LCompDWordLoop
.LCompDWordDone:
end;
{$endif FPC_SYSTEM_HAS_COMPAREDWORD}
{$ifndef FPC_SYSTEM_HAS_INDEXCHAR0}
{$define FPC_SYSTEM_HAS_INDEXCHAR0}
function IndexChar0(const buf;len:SizeInt;b:Char):int64; assembler; nostackframe;
{ input: r3 = buf, r4 = len, r5 = b }
{ output: r3 = position of found position (-1 if not found) }
asm
{ load the begin of the buffer in the data cache }
dcbt 0,r3
{ length = 0? }
cmpldi r4,0
mtctr r4
subi r9,r3,1
subi r0,r3,1
{ assume not found }
li r3,-1
{ if yes, do nothing }
ble .LIndexChar0Done
.LIndexChar0Loop:
lbzu r10,1(r9)
cmpldi cr1,r10,0
cmpld r10,r5
beq cr1,.LIndexChar0Done
bdnzf cr0*4+eq, .LIndexChar0Loop
bne .LIndexChar0Done
sub r3,r9,r0
.LIndexChar0Done:
end;
{$endif FPC_SYSTEM_HAS_INDEXCHAR0}
{****************************************************************************
String
****************************************************************************}
{$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_ASSIGN}
{$define FPC_SYSTEM_HAS_FPC_SHORTSTR_ASSIGN}
function fpc_shortstr_to_shortstr(len:longint; const sstr: shortstring): shortstring; [public,alias: 'FPC_SHORTSTR_TO_SHORTSTR']; compilerproc;
assembler; nostackframe;
{ input: r3: pointer to result, r4: len, r5: sstr }
asm
{ load length source }
lbz r10,0(r5)
{ load the begin of the dest buffer in the data cache }
dcbtst 0,r3
{ put min(length(sstr),len) in r4 }
subfc r7,r10,r4 { r0 := r4 - r10 }
subfe r4,r4,r4 { if r3 >= r4 then r3' := 0 else r3' := -1 }
and r7,r7,r4 { if r3 >= r4 then r3' := 0 else r3' := r3-r10 }
add r4,r10,r7 { if r3 >= r4 then r3' := r10 else r3' := r3 }
cmpldi r4,0
{ put length in ctr }
mtctr r4
stb r4,0(r3)
beq .LShortStrCopyDone
.LShortStrCopyLoop:
lbzu r0,1(r5)
stbu r0,1(r3)
bdnz .LShortStrCopyLoop
.LShortStrCopyDone:
end;
procedure fpc_shortstr_assign(len:longint;sstr,dstr:pointer);[public,alias:'FPC_SHORTSTR_ASSIGN'];
assembler; nostackframe;
{ input: r3: len, r4: sstr, r5: dstr }
asm
{ load length source }
lbz r10,0(r4)
{ load the begin of the dest buffer in the data cache }
dcbtst 0,r5
{ put min(length(sstr),len) in r3 }
subc r0,r3,r10 { r0 := r3 - r10 }
subfe r3,r3,r3 { if r3 >= r4 then r3' := 0 else r3' := -1 }
and r3,r0,r3 { if r3 >= r4 then r3' := 0 else r3' := r3-r10 }
add r3,r3,r10 { if r3 >= r4 then r3' := r10 else r3' := r3 }
cmpldi r3,0
{ put length in ctr }
mtctr r3
stb r3,0(r5)
beq .LShortStrCopyDone2
.LShortStrCopyLoop2:
lbzu r0,1(r4)
stbu r0,1(r5)
bdnz .LShortStrCopyLoop2
.LShortStrCopyDone2:
end;
{$endif FPC_SYSTEM_HAS_FPC_SHORTSTR_ASSIGN}
{$ifndef STR_CONCAT_PROCS}
(*
{$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_CONCAT}
{$define FPC_SYSTEM_HAS_FPC_SHORTSTR_CONCAT}
function fpc_shortstr_concat(const s1, s2: shortstring): shortstring; compilerproc; [public, alias: 'FPC_SHORTSTR_CONCAT'];
{ expects that (r3) contains a pointer to the result r4 to s1, r5 to s2 }
assembler;
asm
{ load length s1 }
lbz r6, 0(r4)
{ load length s2 }
lbz r10, 0(r5)
{ length 0 for s1? }
cmpldi cr7,r6,0
{ length 255 for s1? }
subfic. r7,r6,255
{ length 0 for s2? }
cmpldi cr1,r10,0
{ calculate min(length(s2),255-length(s1)) }
subc r8,r7,r10 { r8 := r7 - r10 }
cror 4*6+2,4*1+2,4*7+2
subfe r7,r7,r7 { if r7 >= r10 then r7' := 0 else r7' := -1 }
mtctr r6
and r7,r8,r7 { if r7 >= r10 then r7' := 0 else r7' := r7-r10 }
add r7,r7,r10 { if r7 >= r10 then r7' := r10 else r7' := r7 }
mr r9,r3
{ calculate length of final string }
add r8,r7,r6
stb r8,0(r3)
beq cr7, .Lcopys1loopDone
.Lcopys1loop:
lbzu r0,1(r4)
stbu r0,1(r9)
bdnz .Lcopys1loop
.Lcopys1loopDone:
mtctr r7
beq cr6, .LconcatDone
.Lcopys2loop:
lbzu r0,1(r5)
stbu r0,1(r9)
bdnz .Lcopys2loop
.LconcatDone:
end;
{$endif FPC_SYSTEM_HAS_FPC_SHORTSTR_CONCAT}
*)
{$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_APPEND_SHORTSTR}
{$define FPC_SYSTEM_HAS_FPC_SHORTSTR_APPEND_SHORTSTR}
procedure fpc_shortstr_append_shortstr(var s1: shortstring; const s2: shortstring); compilerproc;
{ expects that results (r3) contains a pointer to the current string s1, r4 }
{ high(s1) and (r5) a pointer to the one that has to be concatenated }
assembler; nostackframe;
asm
{ load length s1 }
lbz r6, 0(r3)
{ load length s2 }
lbz r10, 0(r5)
{ length 0? }
cmpld cr1,r6,r4
cmpldi r10,0
{ calculate min(length(s2),high(result)-length(result)) }
sub r9,r4,r6
subc r8,r9,r10 { r8 := r9 - r10 }
cror 4*7+2,4*0+2,4*1+2
subfe r9,r9,r9 { if r9 >= r10 then r9' := 0 else r9' := -1 }
and r9,r8,r9 { if r9 >= r10 then r9' := 0 else r9' := r9-r10 }
add r9,r9,r10 { if r9 >= r10 then r9' := r10 else r9' := r9 }
{ calculate new length }
add r10,r6,r9
{ load value to copy in ctr }
mtctr r9
{ store new length }
stb r10,0(r3)
{ go to last current character of result }
add r3,r6,r3
{ if nothing to do, exit }
beq cr7, .LShortStrAppendDone
{ and concatenate }
.LShortStrAppendLoop:
lbzu r10,1(r5)
stbu r10,1(r3)
bdnz .LShortStrAppendLoop
.LShortStrAppendDone:
end;
{$endif FPC_SYSTEM_HAS_FPC_SHORTSTR_APPEND_SHORTSTR}
{$endif STR_CONCAT_PROCS}
(*
{$define FPC_SYSTEM_HAS_FPC_SHORTSTR_COMPARE}
function fpc_shortstr_compare(const dstr, sstr:shortstring): SizeInt; [public,alias:'FPC_SHORTSTR_COMPARE']; compilerproc;
assembler;
{ TODO: improve, because the main compare loop does an unaligned access everytime.. :(
TODO: needs some additional opcodes not yet known to the compiler :( }
asm
{ load length sstr }
lbz r9,0(r4)
{ load length dstr }
lbz r10,0(r3)
{ save their difference for later and }
{ calculate min(length(sstr),length(dstr)) }
subfc r7,r10,r9 { r0 := r9 - r10 }
subfe r9,r9,r9 { if r9 >= r10 then r9' := 0 else r9' := -1 }
and r7,r7,r9 { if r9 >= r10 then r9' := 0 else r9' := r9-r8 }
add r9,r10,r7 { if r9 >= r10 then r9' := r10 else r9' := r9 }
{ first compare qwords (length/4) }
srdi. r5,r9,3
{ keep length mod 8 for the ends; note that the value in r9 <= 255
so we can use rlwinm safely }
rlwinm r9,r9,0,29,31
{ already check whether length mod 8 = 0 }
cmpldi cr1,r9,0
{ so we can load r3 with 0, in case the strings both have length 0 }
mr r8,r3
li r3, 0
{ length div 8 in ctr for loop }
mtctr r5
{ if length < 7, goto byte comparing }
beq .LShortStrCompare1
{ setup for use of update forms of load/store with qwords }
subi r4,r4,7
subi r8,r8,7
.LShortStrCompare4Loop:
ldu r3,8(r4)
ldu r10,8(r8)
sub. r3,r3,r10
bdnzt cr0+eq,.LShortStrCompare4Loop
{ r3 contains result if we stopped because of "ne" flag }
bne .LShortStrCompareDone
{ setup for use of update forms of load/store with bytes }
addi r4,r4,7
addi r8,r8,7
.LShortStrCompare1:
{ if comparelen mod 4 = 0, skip this and return the difference in }
{ lengths }
beq cr1,.LShortStrCompareLen
mtctr r9
.LShortStrCompare1Loop:
lbzu r3,1(r4)
lbzu r10,1(r8)
sub. r3,r3,r10
bdnzt cr0+eq,.LShortStrCompare1Loop
bne .LShortStrCompareDone
.LShortStrCompareLen:
{ also return result in flags, maybe we can use this in the CG }
mr. r3,r3
.LShortStrCompareDone:
end;
*)
{$ifndef FPC_SYSTEM_HAS_FPC_PCHAR_TO_SHORTSTR}
{$define FPC_SYSTEM_HAS_FPC_PCHAR_TO_SHORTSTR}
function fpc_pchar_to_shortstr(p:pchar):shortstring;[public,alias:'FPC_PCHAR_TO_SHORTSTR']; compilerproc;
assembler; nostackframe;
{$include strpas.inc}
{$endif FPC_SYSTEM_HAS_FPC_PCHAR_TO_SHORTSTR}
(*
{$ifndef FPC_SYSTEM_HAS_FPC_PCHAR_LENGTH}
{$define FPC_SYSTEM_HAS_FPC_PCHAR_LENGTH}
function fpc_pchar_length(p:pchar):longint;assembler;[public,alias:'FPC_PCHAR_LENGTH']; {$ifdef hascompilerproc} compilerproc; {$endif} nostackframe;
{$include strlen.inc}
{$endif FPC_SYSTEM_HAS_FPC_PCHAR_LENGTH}
*)
{$define FPC_SYSTEM_HAS_GET_FRAME}
function get_frame:pointer;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
{ all abi's I know use r1 as stack pointer }
mr r3, r1
end;
{$define FPC_SYSTEM_HAS_GET_CALLER_ADDR}
function get_caller_addr(framebp:pointer):pointer;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
cmpldi r3,0
beq .Lcaller_addr_frame_null
ld r3, 0(r3)
cmpldi r3,0
beq .Lcaller_addr_frame_null
ld r3, 16(r3)
.Lcaller_addr_frame_null:
end;
{$define FPC_SYSTEM_HAS_GET_CALLER_FRAME}
function get_caller_frame(framebp:pointer):pointer;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
cmpldi r3,0
beq .Lcaller_frame_null
ld r3, 0(r3)
.Lcaller_frame_null:
end;
{$define FPC_SYSTEM_HAS_ABS_LONGINT}
function abs(l:longint):longint; assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
srawi r0,r3,31
add r3,r0,r3
xor r3,r3,r0
end;
{****************************************************************************
Math
****************************************************************************}
{$define FPC_SYSTEM_HAS_ODD_LONGINT}
function odd(l:longint):boolean;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
rldicl r3, r3, 0, 63
end;
{$define FPC_SYSTEM_HAS_SQR_LONGINT}
function sqr(l:longint):longint;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
mullw r3,r3,r3
end;
{$define FPC_SYSTEM_HAS_ODD_INT64}
function odd(l:int64):boolean;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
rldicl r3, r3, 0, 63
end;
{$define FPC_SYSTEM_HAS_SQR_INT64}
function sqr(l:int64):int64;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
mulld r3,r3,r3
end;
{$define FPC_SYSTEM_HAS_SPTR}
Function Sptr : Pointer;assembler;{$ifdef SYSTEMINLINE}inline;{$endif} nostackframe;
asm
mr r3,r1
end;
{****************************************************************************
Str()
****************************************************************************}
{ int_str: generic implementation is used for now }
{****************************************************************************
Multithreading
****************************************************************************}
{ do a thread save inc/dec }
{$define FPC_SYSTEM_HAS_DECLOCKED_LONGINT}
function declocked(var l : longint) : boolean;assembler;nostackframe;
{ input: address of l in r3 }
{ output: boolean indicating whether l is zero after decrementing }
asm
.LDecLockedLoop:
lwarx r10,0,r3
subi r10,r10,1
stwcx. r10,0,r3
bne- .LDecLockedLoop
cntlzd r3,r10
srdi r3,r3,6
end;
{$define FPC_SYSTEM_HAS_INCLOCKED_LONGINT}
procedure inclocked(var l : longint);assembler;nostackframe;
asm
.LIncLockedLoop:
lwarx r10,0,r3
addi r10,r10,1
stwcx. r10,0,r3
bne- .LIncLockedLoop
end;
{$define FPC_SYSTEM_HAS_DECLOCKED_INT64}
function declocked(var l : int64) : boolean;assembler;nostackframe;
{ input: address of l in r3 }
{ output: boolean indicating whether l is zero after decrementing }
asm
.LDecLockedLoop:
ldarx r10,0,r3
subi r10,r10,1
stdcx. r10,0,r3
bne- .LDecLockedLoop
cntlzd r3,r10
srdi r3,r3,6
end;
{$define FPC_SYSTEM_HAS_INCLOCKED_INT64}
procedure inclocked(var l : int64);assembler;nostackframe;
asm
.LIncLockedLoop:
ldarx r10,0,r3
addi r10,r10,1
stdcx. r10,0,r3
bne- .LIncLockedLoop
end;
function InterLockedDecrement (var Target: longint) : longint; assembler; nostackframe;
{ input: address of target in r3 }
{ output: target-1 in r3 }
{ side-effect: target := target-1 }
asm
.LInterLockedDecLoop:
lwarx r10,0,r3
subi r10,r10,1
stwcx. r10,0,r3
bne .LInterLockedDecLoop
mr r3,r10
end;
function InterLockedIncrement (var Target: longint) : longint; assembler; nostackframe;
{ input: address of target in r3 }
{ output: target+1 in r3 }
{ side-effect: target := target+1 }
asm
.LInterLockedIncLoop:
lwarx r10,0,r3
addi r10,r10,1
stwcx. r10,0,r3
bne .LInterLockedIncLoop
mr r3,r10
end;
function InterLockedExchange (var Target: longint;Source : longint) : longint; assembler; nostackframe;
{ input: address of target in r3, source in r4 }
{ output: target in r3 }
{ side-effect: target := source }
asm
.LInterLockedXchgLoop:
lwarx r10,0,r3
stwcx. r4,0,r3
bne .LInterLockedXchgLoop
mr r3,r10
end;
function InterLockedExchangeAdd (var Target: longint;Source : longint) : longint; assembler; nostackframe;
{ input: address of target in r3, source in r4 }
{ output: target in r3 }
{ side-effect: target := target+source }
asm
.LInterLockedXchgAddLoop:
lwarx r10,0,r3
add r10,r10,r4
stwcx. r10,0,r3
bne .LInterLockedXchgAddLoop
sub r3,r10,r4
end;
function InterlockedCompareExchange(var Target: longint; NewValue: longint; Comperand: longint): longint; assembler; nostackframe;
{ input: address of target in r3, newvalue in r4, comparand in r5 }
{ output: value stored in target before entry of the function }
{ side-effect: NewValue stored in target if (target = comparand) }
asm
.LInterlockedCompareExchangeLoop:
lwarx r10,0,r3
sub r9,r10,r5
addic r9,r9,-1
subfe r9,r9,r9
and r8,r4,r9
andc r7,r5,r9
or r6,r7,r8
stwcx. r6,0,r3
bne .LInterlockedCompareExchangeLoop
mr r3, r6
end;
function InterLockedDecrement64(var Target: Int64) : Int64; assembler; nostackframe;
{ input: address of target in r3 }
{ output: target-1 in r3 }
{ side-effect: target := target-1 }
asm
.LInterLockedDecLoop:
ldarx r10,0,r3
subi r10,r10,1
stdcx. r10,0,r3
bne .LInterLockedDecLoop
mr r3,r10
end;
function InterLockedIncrement64(var Target: Int64) : Int64; assembler; nostackframe;
{ input: address of target in r3 }
{ output: target+1 in r3 }
{ side-effect: target := target+1 }
asm
.LInterLockedIncLoop:
ldarx r10,0,r3
addi r10,r10,1
stdcx. r10,0,r3
bne .LInterLockedIncLoop
mr r3,r10
end;
function InterLockedExchange64(var Target: Int64; Source : Int64) : Int64; assembler; nostackframe;
{ input: address of target in r3, source in r4 }
{ output: target in r3 }
{ side-effect: target := source }
asm
.LInterLockedXchgLoop:
ldarx r10,0,r3
stdcx. r4,0,r3
bne .LInterLockedXchgLoop
mr r3,r10
end;
function InterLockedExchangeAdd64(var Target: Int64; Source : Int64) : Int64; assembler; nostackframe;
{ input: address of target in r3, source in r4 }
{ output: target in r3 }
{ side-effect: target := target+source }
asm
.LInterLockedXchgAddLoop:
ldarx r10,0,r3
add r10,r10,r4
stdcx. r10,0,r3
bne .LInterLockedXchgAddLoop
sub r3,r10,r4
end;
function InterlockedCompareExchange64(var Target: Int64; NewValue: Int64; Comperand: Int64): Int64; assembler; nostackframe;
{ input: address of target in r3, newvalue in r4, comparand in r5 }
{ output: value stored in target before entry of the function }
{ side-effect: NewValue stored in target if (target = comparand) }
asm
.LInterlockedCompareExchangeLoop:
ldarx r10,0,r3
sub r9,r10,r5
addic r9,r9,-1
subfe r9,r9,r9
and r8,r4,r9
andc r7,r5,r9
or r6,r7,r8
stdcx. r6,0,r3
bne .LInterlockedCompareExchangeLoop
mr r3, r6
end;
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