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{
This file is part of the Free Pascal run time library.
Copyright (c) 2011 by the Free Pascal development team.
Tiny heap manager for the FPC FreeRTOS target
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.
**********************************************************************}
{$modeswitch result}
Unit heapmgr;
interface
procedure RegisterHeapBlock(AAddress: pointer; ASize: ptruint);
function GetAlignedMem(Size, Alignment: ptruint): pointer;
implementation
const
MinBlock = 16;
type
PHeapBlock = ^THeapBlock;
THeapBlock = record
Size: ptruint;
Next: PHeapBlock;
EndAddr: pointer;
end;
var
Blocks: PHeapBlock = nil;
procedure InternalFreeMem(Addr: Pointer; Size: ptruint); forward;
function FindSize(p: pointer): ptruint; inline;
begin
FindSize := PPtrUInt(p)[-1];
end;
function SysGetMem(Size: ptruint): pointer;
var
p, prev: PHeapBlock;
AllocSize, RestSize: ptruint;
begin
if size+sizeof(PtrUInt)<MinBlock then
AllocSize := MinBlock
else
AllocSize := align(size+sizeof(PtrUInt), sizeof(pointer));
p := Blocks;
prev := nil;
while assigned(p) and (p^.Size < AllocSize) do
begin
prev := p;
p := p^.Next;
end;
if assigned(p) then
begin
result := @pptruint(p)[1];
if (p^.size > AllocSize) and
(p^.Size-AllocSize >= MinBlock) then
RestSize := p^.Size-AllocSize
else
begin
AllocSize := p^.Size;
RestSize := 0;
end;
if prev = nil then
Blocks := p^.Next
else
prev^.next := p^.next;
pptruint(p)^ := size;
InternalFreemem(pointer(ptruint(p)+AllocSize), RestSize);
end
else
begin
if ReturnNilIfGrowHeapFails then
Result := nil
else
RunError(203);
end;
end;
function GetAlignedMem(Size, Alignment: ptruint): pointer;
var
mem: Pointer;
memp: ptruint;
begin
if alignment <= sizeof(pointer) then
result := GetMem(size)
else
begin
mem := GetMem(Size+Alignment-1+MinBlock);
memp := align(ptruint(mem)+MinBlock, Alignment);
InternalFreemem(mem, ptruint(memp)-ptruint(mem));
result := pointer(memp);
end;
end;
procedure InternalFreeMem(Addr: Pointer; Size: ptruint);
var
b, p, prev: PHeapBlock;
concatenated: boolean;
begin
if size<=0 then
exit;
concatenated := true;
while concatenated do
begin
concatenated := false;
b := addr;
b^.Next := Blocks;
b^.Size := Size;
b^.EndAddr := pointer(ptruint(addr)+size);
if Blocks = nil then
Blocks := b
else
begin
p := Blocks;
prev := nil;
while assigned(p) do
begin
if p^.EndAddr = addr then
begin
addr:=p;
size:=p^.size+size;
if prev = nil then
blocks:=p^.next
else
prev^.next:=p^.next;
concatenated:=true;
break;
end
else if p = b^.EndAddr then
begin
size:=p^.size+size;
if prev = nil then
blocks:=p^.next
else
prev^.next:=p^.next;
concatenated:=true;
break;
end;
prev := p;
p := p^.next;
end;
if not concatenated then
begin
p := Blocks;
prev := nil;
while assigned(p) and (p^.Size < size) do
begin
prev := p;
p := p^.Next;
end;
if assigned(prev) then
begin
b^.Next := p;
prev^.Next := b;
end
else
Blocks := b;
end;
end;
end;
end;
function SysFreeMem(Addr: Pointer): ptruint;
var
sz: ptruint;
begin
if addr=nil then
begin
result:=0;
exit;
end;
sz := Align(FindSize(addr)+SizeOf(pointer), sizeof(pointer));
if sz < MinBlock then
sz := MinBlock;
InternalFreeMem(@pptruint(addr)[-1], sz);
result := sz;
end;
function SysFreeMemSize(Addr: Pointer; Size: Ptruint): ptruint;
begin
result := SysFreeMem(addr);
end;
function SysMemSize(p: pointer): ptruint;
begin
result := findsize(p);
end;
function SysAllocMem(size: ptruint): pointer;
begin
result := SysGetMem(size);
if result<>nil then
FillChar(pbyte(result)^,size,0);
end;
function SysReAllocMem(var p: pointer; size: ptruint):pointer;
var
sz: ptruint;
begin
if size=0 then
begin
SysFreeMem(p);
result := nil;
p := nil;
end
else if p=nil then
begin
result := AllocMem(size);
p := result;
end
else
begin
result := AllocMem(size);
if result <> nil then
begin
if p <> nil then
begin
sz := FindSize(p);
if sz > size then
sz := size;
move(pbyte(p)^, pbyte(result)^, sz);
end;
end;
SysFreeMem(p);
p := result;
end;
end;
procedure RegisterHeapBlock(AAddress: pointer; ASize: ptruint);
begin
InternalFreeMem(AAddress, ASize);
end;
{ avoid that programs crash due to a heap status request }
function SysGetFPCHeapStatus : TFPCHeapStatus;
begin
FillChar(Result,SizeOf(Result),0);
end;
{ avoid that programs crash due to a heap status request }
function SysGetHeapStatus : THeapStatus;
begin
FillChar(Result,SizeOf(Result),0);
end;
const
MyMemoryManager: TMemoryManager = (
NeedLock: false; // Obsolete
GetMem: @SysGetMem;
FreeMem: @SysFreeMem;
FreeMemSize: @SysFreeMemSize;
AllocMem: @SysAllocMem;
ReAllocMem: @SysReAllocMem;
MemSize: @SysMemSize;
InitThread: nil;
DoneThread: nil;
RelocateHeap: nil;
GetHeapStatus: @SysGetHeapStatus;
GetFPCHeapStatus: @SysGetFPCHeapStatus;
);
var
initialheap : record end; external name '__fpc_initialheap';
heapsize : PtrInt; external name '__heapsize';
initialization
SetMemoryManager(MyMemoryManager);
RegisterHeapBlock(@initialheap,heapsize);
finalization
//FinalizeHeap;
end.
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