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-- Type interning - set of unique objects.
-- Copyright (C) 2019 Tristan Gingold
--
-- GHDL is free software; you can redistribute it and/or modify it under
-- the terms of the GNU General Public License as published by the Free
-- Software Foundation; either version 2, or (at your option) any later
-- version.
--
-- GHDL 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. See the GNU General Public License
-- for more details.
--
-- You should have received a copy of the GNU General Public License
-- along with GHDL; see the file COPYING. If not, write to the Free
-- Software Foundation, 59 Temple Place - Suite 330, Boston, MA
-- 02111-1307, USA.
with Ada.Unchecked_Deallocation;
package body Dyn_Maps is
procedure Deallocate is new Ada.Unchecked_Deallocation
(Hash_Array, Hash_Array_Acc);
procedure Init (Inst : out Instance) is
begin
Inst.Size := Initial_Size;
Inst.Hash_Table := new Hash_Array'(0 .. Initial_Size - 1 => No_Index);
Wrapper_Tables.Init (Inst.Els, 128);
pragma Assert (Wrapper_Tables.Last (Inst.Els) = No_Index);
end Init;
procedure Free (Inst : in out Instance) is
begin
Deallocate (Inst.Hash_Table);
Inst.Size := 0;
Wrapper_Tables.Free (Inst.Els);
end Free;
-- Expand the hash table (double the size).
procedure Expand (Inst : in out Instance)
is
Old_Hash_Table : Hash_Array_Acc;
Idx : Index_Type;
begin
Old_Hash_Table := Inst.Hash_Table;
Inst.Size := Inst.Size * 2;
Inst.Hash_Table := new Hash_Array'(0 .. Inst.Size - 1 => No_Index);
-- Rehash.
for I in Old_Hash_Table'Range loop
Idx := Old_Hash_Table (I);
while Idx /= No_Index loop
-- Note: collisions are put in reverse order.
declare
Ent : Element_Wrapper renames Inst.Els.Table (Idx);
Hash_Index : constant Hash_Value_Type :=
Ent.Hash and (Inst.Size - 1);
Next_Idx : constant Index_Type := Ent.Next;
begin
Ent.Next := Inst.Hash_Table (Hash_Index);
Inst.Hash_Table (Hash_Index) := Idx;
Idx := Next_Idx;
end;
end loop;
end loop;
Deallocate (Old_Hash_Table);
end Expand;
procedure Get_Index
(Inst : in out Instance; Params : Params_Type; Idx : out Index_Type)
is
Hash_Value : Hash_Value_Type;
Hash_Index : Hash_Value_Type;
begin
-- Check if the package was initialized.
pragma Assert (Inst.Hash_Table /= null);
Hash_Value := Hash (Params);
Hash_Index := Hash_Value and (Inst.Size - 1);
Idx := Inst.Hash_Table (Hash_Index);
while Idx /= No_Index loop
declare
E : Element_Wrapper renames Inst.Els.Table (Idx);
begin
if E.Hash = Hash_Value and then Equal (E.Obj, Params) then
return;
end if;
Idx := E.Next;
end;
end loop;
-- Maybe expand the table.
if Hash_Value_Type (Wrapper_Tables.Last (Inst.Els)) > 2 * Inst.Size then
Expand (Inst);
-- Recompute hash index.
Hash_Index := Hash_Value and (Inst.Size - 1);
end if;
declare
Res : Object_Type;
Val : Value_Type;
begin
Res := Build (Params);
Val := Build_Value (Res);
-- Insert.
Wrapper_Tables.Append (Inst.Els,
(Hash => Hash_Value,
Next => Inst.Hash_Table (Hash_Index),
Obj => Res,
Val => Val));
Inst.Hash_Table (Hash_Index) := Wrapper_Tables.Last (Inst.Els);
end;
Idx := Wrapper_Tables.Last (Inst.Els);
end Get_Index;
function Last_Index (Inst : Instance) return Index_Type is
begin
return Wrapper_Tables.Last (Inst.Els);
end Last_Index;
function Get_By_Index (Inst : Instance; Index : Index_Type)
return Object_Type is
begin
pragma Assert (Index <= Wrapper_Tables.Last (Inst.Els));
return Inst.Els.Table (Index).Obj;
end Get_By_Index;
function Get_Value (Inst : Instance; Index : Index_Type)
return Value_Type is
begin
pragma Assert (Index <= Wrapper_Tables.Last (Inst.Els));
return Inst.Els.Table (Index).Val;
end Get_Value;
procedure Set_Value
(Inst : in out Instance; Index : Index_Type; Val : Value_Type) is
begin
pragma Assert (Index <= Wrapper_Tables.Last (Inst.Els));
Inst.Els.Table (Index).Val := Val;
end Set_Value;
end Dyn_Maps;
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