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------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- S Y S T E M . P O O L _ S I Z E --
-- --
-- B o d y --
-- --
-- --
-- Copyright (C) 1992-2001 Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 2, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License --
-- for more details. You should have received a copy of the GNU General --
-- Public License distributed with GNAT; see file COPYING. If not, write --
-- to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, --
-- MA 02111-1307, USA. --
-- --
-- As a special exception, if other files instantiate generics from this --
-- unit, or you link this unit with other files to produce an executable, --
-- this unit does not by itself cause the resulting executable to be --
-- covered by the GNU General Public License. This exception does not --
-- however invalidate any other reasons why the executable file might be --
-- covered by the GNU Public License. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with System.Storage_Elements;
with System.Address_To_Access_Conversions;
package body System.Pool_Size is
package SSE renames System.Storage_Elements;
use type SSE.Storage_Offset;
package SC is new Address_To_Access_Conversions (SSE.Storage_Count);
SC_Size : constant
:= SSE.Storage_Count'Object_Size / System.Storage_Unit;
package Variable_Size_Management is
-- Embedded pool that manages allocation of variable-size data.
-- This pool is used as soon as the Elmt_sizS of the pool object is 0.
-- Allocation is done on the first chunk long enough for the request.
-- Deallocation just puts the freed chunk at the beginning of the list.
procedure Initialize (Pool : in out Stack_Bounded_Pool);
procedure Allocate
(Pool : in out Stack_Bounded_Pool;
Address : out System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count);
procedure Deallocate
(Pool : in out Stack_Bounded_Pool;
Address : System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count);
end Variable_Size_Management;
package Vsize renames Variable_Size_Management;
--------------
-- Allocate --
--------------
procedure Allocate
(Pool : in out Stack_Bounded_Pool;
Address : out System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count)
is
begin
if Pool.Elmt_Size = 0 then
Vsize.Allocate (Pool, Address, Storage_Size, Alignment);
elsif Pool.First_Free /= 0 then
Address := Pool.The_Pool (Pool.First_Free)'Address;
Pool.First_Free := SC.To_Pointer (Address).all;
elsif
Pool.First_Empty <= (Pool.Pool_Size - Pool.Aligned_Elmt_Size + 1)
then
Address := Pool.The_Pool (Pool.First_Empty)'Address;
Pool.First_Empty := Pool.First_Empty + Pool.Aligned_Elmt_Size;
else
raise Storage_Error;
end if;
end Allocate;
----------------
-- Deallocate --
----------------
procedure Deallocate
(Pool : in out Stack_Bounded_Pool;
Address : System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count)
is
begin
if Pool.Elmt_Size = 0 then
Vsize.Deallocate (Pool, Address, Storage_Size, Alignment);
else
SC.To_Pointer (Address).all := Pool.First_Free;
Pool.First_Free := Address - Pool.The_Pool'Address + 1;
end if;
end Deallocate;
----------------
-- Initialize --
----------------
procedure Initialize (Pool : in out Stack_Bounded_Pool) is
Align : constant SSE.Storage_Count :=
SSE.Storage_Count'Max (SSE.Storage_Count'Alignment, Pool.Alignment);
begin
if Pool.Elmt_Size = 0 then
Vsize.Initialize (Pool);
else
Pool.First_Free := 0;
Pool.First_Empty := 1;
-- Compute the size to allocate given the size of the element and
-- the possible Alignment clause
Pool.Aligned_Elmt_Size :=
SSE.Storage_Count'Max (SC_Size,
((Pool.Elmt_Size + Align - 1) / Align) * Align);
end if;
end Initialize;
------------------
-- Storage_Size --
------------------
function Storage_Size
(Pool : Stack_Bounded_Pool)
return SSE.Storage_Count
is
begin
return Pool.Pool_Size;
end Storage_Size;
------------------------------
-- Variable_Size_Management --
------------------------------
package body Variable_Size_Management is
Minimum_Size : constant := 2 * SC_Size;
procedure Set_Size
(Pool : Stack_Bounded_Pool;
Chunk, Size : SSE.Storage_Count);
-- Update the field 'size' of a chunk of available storage
procedure Set_Next
(Pool : Stack_Bounded_Pool;
Chunk, Next : SSE.Storage_Count);
-- Update the field 'next' of a chunk of available storage
function Size
(Pool : Stack_Bounded_Pool;
Chunk : SSE.Storage_Count)
return SSE.Storage_Count;
-- Fetch the field 'size' of a chunk of available storage
function Next
(Pool : Stack_Bounded_Pool;
Chunk : SSE.Storage_Count)
return SSE.Storage_Count;
-- Fetch the field 'next' of a chunk of available storage
function Chunk_Of
(Pool : Stack_Bounded_Pool;
Addr : System.Address)
return SSE.Storage_Count;
-- Give the chunk number in the pool from its Address
--------------
-- Allocate --
--------------
procedure Allocate
(Pool : in out Stack_Bounded_Pool;
Address : out System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count)
is
Chunk : SSE.Storage_Count;
New_Chunk : SSE.Storage_Count;
Prev_Chunk : SSE.Storage_Count;
Our_Align : constant SSE.Storage_Count :=
SSE.Storage_Count'Max (SSE.Storage_Count'Alignment,
Alignment);
Align_Size : constant SSE.Storage_Count :=
SSE.Storage_Count'Max (
Minimum_Size,
((Storage_Size + Our_Align - 1) / Our_Align) *
Our_Align);
begin
-- Look for the first big enough chunk
Prev_Chunk := Pool.First_Free;
Chunk := Next (Pool, Prev_Chunk);
while Chunk /= 0 and then Size (Pool, Chunk) < Align_Size loop
Prev_Chunk := Chunk;
Chunk := Next (Pool, Chunk);
end loop;
-- Raise storage_error if no big enough chunk available
if Chunk = 0 then
raise Storage_Error;
end if;
-- When the chunk is bigger than what is needed, take appropraite
-- amount and build a new shrinked chunk with the remainder.
if Size (Pool, Chunk) - Align_Size > Minimum_Size then
New_Chunk := Chunk + Align_Size;
Set_Size (Pool, New_Chunk, Size (Pool, Chunk) - Align_Size);
Set_Next (Pool, New_Chunk, Next (Pool, Chunk));
Set_Next (Pool, Prev_Chunk, New_Chunk);
-- If the chunk is the right size, just delete it from the chain
else
Set_Next (Pool, Prev_Chunk, Next (Pool, Chunk));
end if;
Address := Pool.The_Pool (Chunk)'Address;
end Allocate;
--------------
-- Chunk_Of --
--------------
function Chunk_Of
(Pool : Stack_Bounded_Pool;
Addr : System.Address)
return SSE.Storage_Count
is
begin
return 1 + abs (Addr - Pool.The_Pool (1)'Address);
end Chunk_Of;
----------------
-- Deallocate --
----------------
procedure Deallocate
(Pool : in out Stack_Bounded_Pool;
Address : System.Address;
Storage_Size : SSE.Storage_Count;
Alignment : SSE.Storage_Count)
is
Align_Size : constant SSE.Storage_Count :=
((Storage_Size + Alignment - 1) / Alignment) *
Alignment;
Chunk : SSE.Storage_Count := Chunk_Of (Pool, Address);
begin
-- Attach the freed chunk to the chain
Set_Size (Pool, Chunk,
SSE.Storage_Count'Max (Align_Size, Minimum_Size));
Set_Next (Pool, Chunk, Next (Pool, Pool.First_Free));
Set_Next (Pool, Pool.First_Free, Chunk);
end Deallocate;
----------------
-- Initialize --
----------------
procedure Initialize (Pool : in out Stack_Bounded_Pool) is
begin
Pool.First_Free := 1;
if Pool.Pool_Size > Minimum_Size then
Set_Next (Pool, Pool.First_Free, Pool.First_Free + Minimum_Size);
Set_Size (Pool, Pool.First_Free, 0);
Set_Size (Pool, Pool.First_Free + Minimum_Size,
Pool.Pool_Size - Minimum_Size);
Set_Next (Pool, Pool.First_Free + Minimum_Size, 0);
end if;
end Initialize;
----------
-- Next --
----------
function Next
(Pool : Stack_Bounded_Pool;
Chunk : SSE.Storage_Count)
return SSE.Storage_Count
is
begin
return SC.To_Pointer (Pool.The_Pool (Chunk + SC_Size)'Address).all;
end Next;
--------------
-- Set_Next --
--------------
procedure Set_Next
(Pool : Stack_Bounded_Pool;
Chunk, Next : SSE.Storage_Count)
is
begin
SC.To_Pointer (Pool.The_Pool (Chunk + SC_Size)'Address).all := Next;
end Set_Next;
--------------
-- Set_Size --
--------------
procedure Set_Size
(Pool : Stack_Bounded_Pool;
Chunk, Size : SSE.Storage_Count)
is
begin
SC.To_Pointer (Pool.The_Pool (Chunk)'Address).all := Size;
end Set_Size;
----------
-- Size --
----------
function Size
(Pool : Stack_Bounded_Pool;
Chunk : SSE.Storage_Count)
return SSE.Storage_Count
is
begin
return SC.To_Pointer (Pool.The_Pool (Chunk)'Address).all;
end Size;
end Variable_Size_Management;
end System.Pool_Size;
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