File : bc-containers-sets-unbounded.ads
-- Copyright (C) 1994-1999 Grady Booch and Simon Wright.
-- All Rights Reserved.
--
-- This program is free software; you can redistribute it
-- and/or modify it under the terms of the Ada Community
-- License which comes with this Library.
--
-- 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. See the Ada Community License for more details.
-- You should have received a copy of the Ada Community
-- License with this library, in the file named "Ada Community
-- License" or "ACL". If not, contact the author of this library
-- for a copy.
--
-- $Id: bc-containers-sets-unbounded.ads,v 1.2.2.2 2000/02/12 14:42:35 simon Exp $
with BC.Support.Unbounded;
with BC.Support.Hash_Tables;
with System.Storage_Pools;
generic
with function Hash (V : Item) return Positive is <>;
Buckets : Positive;
type Storage_Manager (<>)
is new System.Storage_Pools.Root_Storage_Pool with private;
Storage : in out Storage_Manager;
package BC.Containers.Sets.Unbounded is
pragma Elaborate_Body;
-- A set denotes a collection of items, drawn from some well-defined
-- universe. A set may not contain duplicate items.
-- The hash function (the generic parameter Hash) determines the
-- allocation of pairs to hash buckets. The value returned must not
-- change during the lifetime of a given Item. The range of hash values
-- need not be constrained to the number of buckets in the set.
-- The hash function must satisfy the condition that, for objects A and
-- B, if A = B, then Hash (A) must equal Hash (B). The hash function
-- should attempt to spread the set of possible items uniformly across
-- the number of buckets. The quality of the hash function has a
-- significant impact upon performance.
type Unbounded_Set is new Set with private;
procedure Clear (S : in out Unbounded_Set);
-- Empty the set of all items.
procedure Add (S : in out Unbounded_Set; I : Item; Added : out Boolean);
-- Add the item to the set. If the item is not already a distinct member
-- of the set, copy the item and add it to the set and set Added to
-- True. If the item already exists, then set Added to False.
procedure Remove (S : in out Unbounded_Set; I : Item);
-- If the item is not a member of the set, raise BC.Not_Found. Otherwise,
-- remove the item from the set.
function Extent (S : Unbounded_Set) return Natural;
-- Return the number of items in the set.
function Is_Empty (S : Unbounded_Set) return Boolean;
-- Return True if and only if there are no items in the set.
function Is_Member (S : Unbounded_Set; I : Item) return Boolean;
-- Return True if and only if the item exists in the set.
function New_Iterator (For_The_Set : Unbounded_Set) return Iterator;
-- Return a reset Iterator bound to the specific Set.
private
package IC is new BC.Support.Unbounded (Item => Item,
Item_Ptr => Item_Ptr,
Storage_Manager => Storage_Manager,
Storage => Storage);
use IC;
package Items is new BC.Support.Hash_Tables.Item_Signature
(Item => Item,
Item_Container => IC.Unb_Node,
Item_Container_Ptr => IC.Unb_Node_Ref);
-- We need a dummy type for the Value component of the hash table.
type Boolean_Ptr is access all Boolean;
package VC is new BC.Support.Unbounded (Item => Boolean,
Item_Ptr => Boolean_Ptr,
Storage_Manager => Storage_Manager,
Storage => Storage);
use VC;
package Values is new BC.Support.Hash_Tables.Value_Signature
(Value => Boolean,
Value_Ptr => Boolean_Ptr,
Value_Container => VC.Unb_Node,
Value_Container_Ptr => VC.Unb_Node_Ref);
package Tables is new BC.Support.Hash_Tables.Tables
(Items => Items,
Values => Values,
Buckets => Buckets);
type Unbounded_Set is new Set with record
Rep : Tables.Table;
end record;
procedure Purge (S : in out Unbounded_Set);
procedure Attach (S : in out Unbounded_Set; I : Item);
procedure Detach (S : in out Unbounded_Set; I : Item);
function Cardinality (S : Unbounded_Set) return Natural;
function Number_Of_Buckets (S : Unbounded_Set) return Natural;
function Length (S : Unbounded_Set; Bucket : Positive) return Natural;
function Exists (S : Unbounded_Set; I : Item) return Boolean;
function Item_At
(S : Unbounded_Set; Bucket, Index : Positive) return Item_Ptr;
type Unbounded_Set_Iterator (U : access Unbounded_Set'Class)
is new Set_Iterator (U) with null record;
end BC.Containers.Sets.Unbounded;