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-- Name table.
-- Copyright (C) 2002, 2003, 2004, 2005 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.Text_IO; use Ada.Text_IO;
with GNAT.Table;
package body Name_Table is
-- A flag that creates verbosity.
Debug_Name_Table: constant Boolean := False;
First_Character_Name_Id : constant Name_Id := 1;
type Hash_Value_Type is mod 2**32;
-- An entry in the name table.
type Identifier is record
Hash: Hash_Value_Type;
Next: Name_Id;
-- FIXME: to be removed (compute from name of next identifier).
Length: Natural;
-- Index in strings_table.
Name: Natural;
-- User infos.
Info: Int32;
end record;
-- Hash table.
-- Number of entry points.
Hash_Table_Size: constant Hash_Value_Type := 1024;
Hash_Table: array (0 .. Hash_Table_Size - 1) of Name_Id;
-- The table to store all the strings.
package Strings_Table is new GNAT.Table
(Table_Index_Type => Natural,
Table_Component_Type => Character,
Table_Low_Bound => Natural'First,
Table_Initial => 4096,
Table_Increment => 100);
-- A NUL character is stored after each word in the strings_table.
-- This is used for compatibility with C.
NUL: constant Character := Character'Val (0);
-- Allocate place in the strings_table, and store the name_buffer into it.
-- Also append a NUL.
function Store return Natural is
Res: Natural;
begin
Res := Strings_Table.Allocate (Name_Length + 1);
Strings_Table.Table (Res .. Res + Name_Length - 1) :=
Strings_Table.Table_Type (Name_Buffer (1 .. Name_Length));
Strings_Table.Table (Res + Name_Length) := NUL;
return Res;
end Store;
package Names_Table is new GNAT.Table
(Table_Index_Type => Name_Id,
Table_Component_Type => Identifier,
Table_Low_Bound => Name_Id'First,
Table_Initial => 1024,
Table_Increment => 100);
-- Initialize this package
-- This must be called once and only once before any use.
procedure Initialize is
Pos: Natural;
Id: Name_Id;
begin
Strings_Table.Init;
Names_Table.Init;
-- Reserve entry 0.
if Names_Table.Allocate /= Null_Identifier then
raise Program_Error;
end if;
Strings_Table.Set_Last (1);
Names_Table.Table (Null_Identifier) := (Length => 0,
Hash => 0,
Name => 1,
Next => Null_Identifier,
Info => 0);
-- Store characters.
for C in Character loop
Pos := Strings_Table.Allocate;
Strings_Table.Table (Pos) := C;
Id := Names_Table.Allocate;
Names_Table.Table (Id) := (Length => 1,
Hash => 0,
Name => Pos,
Next => Null_Identifier,
Info => 0);
end loop;
Hash_Table := (others => Null_Identifier);
end Initialize;
-- Compute the hash value of a string.
function Hash return Hash_Value_Type is
Res: Hash_Value_Type := 0;
begin
for I in 1 .. Name_Length loop
Res := Res * 7 + Character'Pos(Name_Buffer(I));
Res := Res + Res / 2**28;
end loop;
return Res;
end Hash;
-- Get the string associed to an identifier.
function Image (Id: Name_Id) return String is
Name_Entry: Identifier renames Names_Table.Table(Id);
subtype Result_Type is String (1 .. Name_Entry.Length);
begin
if Is_Character (Id) then
return ''' & Strings_Table.Table (Name_Entry.Name) & ''';
else
return Result_Type
(Strings_Table.Table
(Name_Entry.Name .. Name_Entry.Name + Name_Entry.Length - 1));
end if;
end Image;
procedure Image (Id : Name_Id)
is
Name_Entry: Identifier renames Names_Table.Table(Id);
begin
if Is_Character (Id) then
Name_Buffer (1) := Get_Character (Id);
Name_Length := 1;
else
Name_Length := Name_Entry.Length;
Name_Buffer (1 .. Name_Entry.Length) := String
(Strings_Table.Table
(Name_Entry.Name .. Name_Entry.Name + Name_Entry.Length - 1));
end if;
end Image;
-- Get the address of the first character of ID.
-- The string is NUL-terminated (this is done by get_identifier).
function Get_Address (Id: Name_Id) return System.Address is
Name_Entry: Identifier renames Names_Table.Table(Id);
begin
return Strings_Table.Table (Name_Entry.Name)'Address;
end Get_Address;
function Get_Name_Length (Id: Name_Id) return Natural is
begin
return Names_Table.Table(Id).Length;
end Get_Name_Length;
function Is_Character (Id: Name_Id) return Boolean is
begin
return Id >= First_Character_Name_Id and then
Id <= First_Character_Name_Id + Character'Pos (Character'Last);
end Is_Character;
-- Get the character associed to an identifier.
function Get_Character (Id: Name_Id) return Character is
begin
pragma Assert (Is_Character (Id));
return Character'Val (Id - First_Character_Name_Id);
end Get_Character;
-- Get and set the info field associated with each identifier.
-- Used to store interpretations of the name.
function Get_Info (Id: Name_Id) return Int32 is
begin
return Names_Table.Table (Id).Info;
end Get_Info;
procedure Set_Info (Id: Name_Id; Info: Int32) is
begin
Names_Table.Table (Id).Info := Info;
end Set_Info;
function Compare_Name_Buffer_With_Name (Id : Name_Id) return Boolean
is
Ne: Identifier renames Names_Table.Table(Id);
begin
return String (Strings_Table.Table (Ne.Name .. Ne.Name + Ne.Length - 1))
= Name_Buffer (1 .. Name_Length);
end Compare_Name_Buffer_With_Name;
-- Get or create an entry in the name table.
-- The string is taken from NAME_BUFFER and NAME_LENGTH.
function Get_Identifier return Name_Id
is
Hash_Value, Hash_Index: Hash_Value_Type;
Res: Name_Id;
begin
Hash_Value := Hash;
Hash_Index := Hash_Value mod Hash_Table_Size;
if Debug_Name_Table then
Put_Line ("get_identifier " & Name_Buffer (1 .. Name_Length));
end if;
Res := Hash_Table (Hash_Index);
while Res /= Null_Identifier loop
--Put_Line ("compare with " & Get_String (Res));
if Names_Table.Table (Res).Hash = Hash_Value
and then Names_Table.Table (Res).Length = Name_Length
and then Compare_Name_Buffer_With_Name (Res)
then
--Put_Line ("found");
return Res;
end if;
Res := Names_Table.Table (Res).Next;
end loop;
Res := Names_Table.Allocate;
Names_Table.Table (Res) := (Length => Name_Length,
Hash => Hash_Value,
Name => Store,
Next => Hash_Table (Hash_Index),
Info => 0);
Hash_Table (Hash_Index) := Res;
--Put_Line ("created");
return Res;
end Get_Identifier;
function Get_Identifier_No_Create return Name_Id
is
Hash_Value, Hash_Index: Hash_Value_Type;
Res: Name_Id;
begin
Hash_Value := Hash;
Hash_Index := Hash_Value mod Hash_Table_Size;
Res := Hash_Table (Hash_Index);
while Res /= Null_Identifier loop
if Names_Table.Table (Res).Hash = Hash_Value
and then Names_Table.Table (Res).Length = Name_Length
and then Compare_Name_Buffer_With_Name (Res)
then
return Res;
end if;
Res := Names_Table.Table (Res).Next;
end loop;
return Null_Identifier;
end Get_Identifier_No_Create;
-- Get or create an entry in the name table.
function Get_Identifier (Str: String) return Name_Id is
begin
Name_Length := Str'Length;
Name_Buffer (1 .. Name_Length) := Str;
return Get_Identifier;
end Get_Identifier;
function Get_Identifier (Char: Character) return Name_Id is
begin
return First_Character_Name_Id + Character'Pos (Char);
end Get_Identifier;
-- Be sure all info fields have their default value.
procedure Assert_No_Infos is
Err: Boolean := False;
begin
for I in Names_Table.First .. Names_Table.Last loop
if Get_Info (I) /= 0 then
Err := True;
Put_Line ("still infos in" & Name_Id'Image (I) & ", ie: "
& Image (I) & ", info ="
& Int32'Image (Names_Table.Table (I).Info));
end if;
end loop;
if Err then
raise Program_Error;
end if;
end Assert_No_Infos;
-- Return the latest name_id used.
-- kludge, use only for debugging.
function Last_Name_Id return Name_Id is
begin
return Names_Table.Last;
end Last_Name_Id;
-- Used to debug.
-- Disp the strings table, one word per line.
procedure Dump;
pragma Unreferenced (Dump);
procedure Dump
is
First: Natural;
begin
Put_Line ("strings_table:");
First := 0;
for I in 0 .. Strings_Table.Last loop
if Strings_Table.Table(I) = NUL then
Put_Line (Natural'Image (First) & ": "
& String (Strings_Table.Table (First .. I - 1)));
First := I + 1;
end if;
end loop;
end Dump;
function Get_Hash_Entry_Length (H : Hash_Value_Type) return Natural
is
Res : Natural := 0;
N : Name_Id;
begin
N := Hash_Table (H);
while N /= Null_Identifier loop
Res := Res + 1;
N := Names_Table.Table (N).Next;
end loop;
return Res;
end Get_Hash_Entry_Length;
procedure Disp_Stats
is
Min : Natural;
Max : Natural;
N : Natural;
begin
Put_Line ("Name table statistics:");
Put_Line (" number of identifiers: " & Name_Id'Image (Last_Name_Id));
Put_Line (" size of strings: " & Natural'Image (Strings_Table.Last));
Put_Line (" hash distribution (number of entries per length):");
Min := Natural'Last;
Max := Natural'First;
for I in Hash_Table'Range loop
N := Get_Hash_Entry_Length (I);
Min := Natural'Min (Min, N);
Max := Natural'Max (Max, N);
end loop;
declare
type Nat_Array is array (Min .. Max) of Natural;
S : Nat_Array := (others => 0);
begin
for I in Hash_Table'Range loop
N := Get_Hash_Entry_Length (I);
S (N) := S (N) + 1;
end loop;
for I in S'Range loop
if S (I) /= 0 then
Put_Line (" " & Natural'Image (I)
& ":" & Natural'Image (S (I)));
end if;
end loop;
end;
end Disp_Stats;
end Name_Table;
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