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9d7ac02696
fpc/rtl/inc/dynarr.inc
tom_at_work 9d7ac02696 * fixed tb0488 on unix platforms (missing cwstring uses) 
* 64bit big-endian fix of dynamic array handling
* added qword support for %x format specifier of format() functions

git-svn-id: trunk@1773 -
2005-11-16 20:50:38 +00:00

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{
This file is part of the Free Pascal run time library.
Copyright (c) 2000 by Florian Klaempfl
member of the Free Pascal development team.
This file implements the helper routines for dyn. Arrays in FPC
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.
**********************************************************************
}
type
{ don't add new fields, the size is used }
{ to calculate memory requirements }
pdynarray = ^tdynarray;
tdynarray = packed record
refcount : ptrint;
high : tdynarrayindex;
end;
function aligntoptr(p : pointer) : pointer;inline;
begin
{$ifdef FPC_REQUIRES_PROPER_ALIGNMENT}
if (ptrint(p) mod sizeof(ptrint))<>0 then
inc(ptrint(p),sizeof(ptrint)-ptrint(p) mod sizeof(ptrint));
{$endif FPC_REQUIRES_PROPER_ALIGNMENT}
result:=p;
end;
procedure fpc_dynarray_rangecheck(p : pointer;i : tdynarrayindex);[Public,Alias:'FPC_DYNARRAY_RANGECHECK']; compilerproc;
begin
if not(assigned(p)) or (i<0) or (i>pdynarray(p-sizeof(tdynarray))^.high) then
HandleErrorFrame(201,get_frame);
end;
function fpc_dynarray_length(p : pointer) : tdynarrayindex;[Public,Alias:'FPC_DYNARRAY_LENGTH']; compilerproc;
begin
if assigned(p) then
fpc_dynarray_length:=pdynarray(p-sizeof(tdynarray))^.high+1
else
fpc_dynarray_length:=0;
end;
function fpc_dynarray_high(p : pointer) : tdynarrayindex;[Public,Alias:'FPC_DYNARRAY_HIGH']; compilerproc;
begin
if assigned(p) then
fpc_dynarray_high:=pdynarray(p-sizeof(tdynarray))^.high
else
fpc_dynarray_high:=-1;
end;
{ releases and finalizes the data of a dyn. array and sets p to nil }
procedure fpc_dynarray_clear_internal(p : pointer;ti : pointer);
var
elesize : sizeint;
eletype : pdynarraytypeinfo;
begin
if p=nil then
exit;
{ skip kind and name }
inc(pointer(ti),ord(pdynarraytypeinfo(ti)^.namelen)+2);
ti:=aligntoptr(ti);
elesize:=psizeint(ti)^;
eletype:=pdynarraytypeinfo(pointer(pdynarraytypeinfo(pointer(ti)+sizeof(sizeint)))^);
{ finalize all data }
int_finalizearray(p+sizeof(tdynarray),eletype,pdynarray(p)^.high+1,
elesize);
{ release the data }
freemem(p);
end;
procedure fpc_dynarray_clear(var p : pointer;ti : pointer); [Public,Alias:'FPC_DYNARRAY_CLEAR']; compilerproc;
var
realp : pdynarray;
begin
if (P=Nil) then
exit;
realp:=pdynarray(p-sizeof(tdynarray));
if declocked(realp^.refcount) then
fpc_dynarray_clear_internal(p-sizeof(tdynarray),ti);
p:=nil;
end;
{ alias for internal use }
Procedure fpc_dynarray_clear (var p : pointer;ti : pointer);[external name 'FPC_DYNARRAY_CLEAR'];
procedure fpc_dynarray_decr_ref(var p : pointer;ti : pointer); [Public,Alias:'FPC_DYNARRAY_DECR_REF']; compilerproc;
var
realp : pdynarray;
begin
if p=nil then
exit;
realp:=pdynarray(p-sizeof(tdynarray));
if realp^.refcount=0 then
HandleErrorFrame(204,get_frame);
{ decr. ref. count }
{ should we remove the array? }
if declocked(realp^.refcount) then
fpc_dynarray_clear_internal(realp,pdynarraytypeinfo(ti));
p := nil;
end;
{ provide local access to dynarr_decr_ref for dynarr_setlength }
procedure fpc_dynarray_decr_ref(var p : pointer;ti : pointer); [external name 'FPC_DYNARRAY_DECR_REF'];
procedure fpc_dynarray_incr_ref(p : pointer);[Public,Alias:'FPC_DYNARRAY_INCR_REF']; compilerproc;
var
realp : pdynarray;
begin
if p=nil then
exit;
realp:=pdynarray(p-sizeof(tdynarray));
if realp^.refcount=0 then
HandleErrorFrame(204,get_frame);
inclocked(realp^.refcount);
end;
{ provide local access to dynarr_decr_ref for dynarr_setlength }
procedure fpc_dynarray_incr_ref(p : pointer); [external name 'FPC_DYNARRAY_INCR_REF'];
{ provide local access to dynarr_setlength }
procedure int_dynarray_setlength(var p : pointer;pti : pointer;
dimcount : dword;dims : pdynarrayindex);[external name 'FPC_DYNARR_SETLENGTH'];
procedure fpc_dynarray_setlength(var p : pointer;pti : pointer;
dimcount : dword;dims : pdynarrayindex);[Public,Alias:'FPC_DYNARR_SETLENGTH']; compilerproc;
var
i : tdynarrayindex;
movelen,
size : sizeint;
{ contains the "fixed" pointers where the refcount }
{ and high are at positive offsets }
realp,newp : pdynarray;
ti : pdynarraytypeinfo;
updatep: boolean;
elesize : sizeint;
eletype : pdynarraytypeinfo;
begin
ti:=pdynarraytypeinfo(pti);
{ skip kind and name }
inc(pointer(ti),ord(pdynarraytypeinfo(ti)^.namelen)+2);
ti:=aligntoptr(ti);
elesize:=psizeint(ti)^;
eletype:=pdynarraytypeinfo(pointer(pdynarraytypeinfo(pointer(ti)+sizeof(sizeint)))^);
{ determine new memory size }
{ dims[dimcount-1] because the dimensions are in reverse order! (JM) }
size:=elesize*dims[dimcount-1]+sizeof(tdynarray);
updatep := false;
{ not assigned yet? }
if not(assigned(p)) then
begin
{ do we have to allocate memory? }
if dims[dimcount-1] = 0 then
exit;
getmem(newp,size);
fillchar(newp^,size,0);
updatep := true;
end
else
begin
realp:=pdynarray(p-sizeof(tdynarray));
newp := realp;
{ if the new dimension is 0, we've to release all data }
if dims[dimcount-1]<=0 then
begin
if dims[dimcount-1]<0 then
HandleErrorFrame(201,get_frame);
if declocked(realp^.refcount) then
fpc_dynarray_clear_internal(realp,pdynarraytypeinfo(pti));
p:=nil;
exit;
end;
if realp^.refcount<>1 then
begin
updatep := true;
{ make an unique copy }
getmem(newp,size);
fillchar(newp^,size,0);
if realp^.high < dims[dimcount-1] then
movelen := realp^.high+1
else
movelen := dims[dimcount-1];
move(p^,(pointer(newp)+sizeof(tdynarray))^,elesize*movelen);
{ increment ref. count of members }
for i:= 0 to movelen-1 do
int_addref(pointer(newp)+sizeof(tdynarray)+elesize*i,eletype);
{ a declock(ref. count) isn't enough here }
{ it could be that the in MT enviroments }
{ in the mean time the refcount was }
{ decremented }
{ it is, because it doesn't really matter }
{ if the array is now removed }
{ fpc_dynarray_decr_ref(p,ti); }
if declocked(realp^.refcount) then
fpc_dynarray_clear_internal(realp,pdynarraytypeinfo(ti));
end
else if dims[dimcount-1]<>realp^.high+1 then
begin
{ range checking is quite difficult ... }
{ if size overflows then it is less than }
{ the values it was calculated from }
if (size<sizeof(tdynarray)) or
((elesize>0) and (size<elesize)) then
HandleErrorFrame(201,get_frame);
{ resize? }
{ here, realp^.refcount has to be one, otherwise the previous }
{ if-statement would have been taken. Or is this also for MT }
{ code? (JM) }
if realp^.refcount=1 then
begin
{ shrink the array? }
if dims[dimcount-1]<realp^.high+1 then
begin
int_finalizearray(pointer(realp)+sizeof(tdynarray)+
elesize*dims[dimcount-1],
eletype,realp^.high-dims[dimcount-1]+1,elesize);
reallocmem(realp,size);
end
else if dims[dimcount-1]>realp^.high+1 then
begin
reallocmem(realp,size);
fillchar((pointer(realp)+sizeof(tdynarray)+elesize*(realp^.high+1))^,
(dims[dimcount-1]-realp^.high-1)*elesize,0);
end;
newp := realp;
updatep := true;
end;
end;
end;
{ handle nested arrays }
if dimcount>1 then
begin
for i:=0 to dims[dimcount-1]-1 do
int_dynarray_setlength(pointer((pointer(newp)+sizeof(tdynarray)+i*elesize)^),
eletype,dimcount-1,dims);
end;
if updatep then
begin
p:=pointer(newp)+sizeof(tdynarray);
newp^.refcount:=1;
newp^.high:=dims[dimcount-1]-1;
end;
end;
{ provide local access to dynarr_copy }
function int_dynarray_copy(psrc : pointer;ti : pointer;
lowidx,count:tdynarrayindex) : pointer;[external name 'FPC_DYNARR_COPY'];
function fpc_dynarray_copy(psrc : pointer;ti : pointer;
lowidx,count:tdynarrayindex) : pointer;[Public,Alias:'FPC_DYNARR_COPY'];compilerproc;
var
realpdest,
realpsrc : pdynarray;
cnt,
i,size : longint;
highidx : tdynarrayindex;
elesize : sizeint;
eletype : pdynarraytypeinfo;
pdest : pointer;
begin
highidx:=lowidx+count-1;
pdest:=nil;
result:=pdest;
if psrc=nil then
exit;
realpsrc:=pdynarray(psrc-sizeof(tdynarray));
{ skip kind and name }
inc(pointer(ti),ord(pdynarraytypeinfo(ti)^.namelen)+2);
ti:=aligntoptr(ti);
elesize:=psizeint(ti)^;
eletype:=pdynarraytypeinfo(pointer(pdynarraytypeinfo(pointer(ti)+sizeof(sizeint)))^);
{ -1, -1 (highidx=lowidx-1-1=-3) is used to copy the whole array like a:=copy(b);, so
update the lowidx and highidx with the values from psrc }
if (lowidx=-1) and (highidx=-3) then
begin
lowidx:=0;
highidx:=realpsrc^.high;
end;
{ get number of elements and check for invalid values }
if (lowidx<0) or (highidx<0) or (lowidx > realpsrc^.high) then
HandleErrorFrame(201,get_frame);
cnt:=highidx-lowidx+1;
if (cnt > realpsrc^.high - lowidx + 1) then
cnt := realpsrc^.high - lowidx + 1;
{ create new array }
size:=elesize*cnt;
getmem(realpdest,size+sizeof(tdynarray));
pdest:=pointer(realpdest)+sizeof(tdynarray);
{ copy data }
move(pointer(psrc+elesize*lowidx)^,pdest^,size);
{ fill new refcount }
realpdest^.refcount:=1;
realpdest^.high:=cnt-1;
{ increment ref. count of members }
for i:= 0 to cnt-1 do
int_addref(pointer(pdest+elesize*i),eletype);
result:=pdest;
end;
procedure DynArraySetLength(var a: Pointer; typeInfo: Pointer; dimCnt: SizeInt; lengthVec: PSizeInt);
var
preallocated : array[0..10] of PSizeInt;
i : SizeInt;
p : PSizeInt;
begin
if dimCnt<=length(preallocated) then
p:=@preallocated
else
getmem(p,sizeof(SizeInt)*dimCnt);
for i:=0 to dimCnt-1 do
p[i]:=lengthVec[dimCnt-1-i];
int_dynarray_setlength(a,typeInfo,dimCnt,p);
if p<>@preallocated then
freemem(p);
end;
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