512 lines
18 KiB
Ada
512 lines
18 KiB
Ada
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------------------------------------------------------------------------------
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-- --
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-- GNAT LIBRARY COMPONENTS --
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-- --
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-- A D A . C O N T A I N E R S . M U L T I W A Y _ T R E E S --
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-- --
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-- S p e c --
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-- --
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-- Copyright (C) 2004-2015, Free Software Foundation, Inc. --
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-- --
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-- This specification is derived from the Ada Reference Manual for use with --
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-- GNAT. The copyright notice above, and the license provisions that follow --
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-- apply solely to the contents of the part following the private keyword. --
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-- --
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-- GNAT is free software; you can redistribute it and/or modify it under --
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-- terms of the GNU General Public License as published by the Free Soft- --
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-- ware Foundation; either version 3, or (at your option) any later ver- --
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-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
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-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
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-- or FITNESS FOR A PARTICULAR PURPOSE. --
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-- --
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-- As a special exception under Section 7 of GPL version 3, you are granted --
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-- additional permissions described in the GCC Runtime Library Exception, --
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-- version 3.1, as published by the Free Software Foundation. --
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-- --
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-- You should have received a copy of the GNU General Public License and --
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-- a copy of the GCC Runtime Library Exception along with this program; --
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-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
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-- <http://www.gnu.org/licenses/>. --
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-- --
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-- This unit was originally developed by Matthew J Heaney. --
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------------------------------------------------------------------------------
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with Ada.Iterator_Interfaces;
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with Ada.Containers.Helpers;
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private with Ada.Finalization;
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private with Ada.Streams;
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generic
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type Element_Type is private;
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with function "=" (Left, Right : Element_Type) return Boolean is <>;
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package Ada.Containers.Multiway_Trees is
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pragma Annotate (CodePeer, Skip_Analysis);
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pragma Preelaborate;
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pragma Remote_Types;
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type Tree is tagged private
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with Constant_Indexing => Constant_Reference,
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Variable_Indexing => Reference,
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Default_Iterator => Iterate,
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Iterator_Element => Element_Type;
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pragma Preelaborable_Initialization (Tree);
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type Cursor is private;
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pragma Preelaborable_Initialization (Cursor);
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Empty_Tree : constant Tree;
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No_Element : constant Cursor;
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function Has_Element (Position : Cursor) return Boolean;
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package Tree_Iterator_Interfaces is new
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Ada.Iterator_Interfaces (Cursor, Has_Element);
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function Equal_Subtree
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(Left_Position : Cursor;
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Right_Position : Cursor) return Boolean;
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function "=" (Left, Right : Tree) return Boolean;
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function Is_Empty (Container : Tree) return Boolean;
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function Node_Count (Container : Tree) return Count_Type;
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function Subtree_Node_Count (Position : Cursor) return Count_Type;
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function Depth (Position : Cursor) return Count_Type;
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function Is_Root (Position : Cursor) return Boolean;
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function Is_Leaf (Position : Cursor) return Boolean;
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function Root (Container : Tree) return Cursor;
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procedure Clear (Container : in out Tree);
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function Element (Position : Cursor) return Element_Type;
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procedure Replace_Element
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(Container : in out Tree;
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Position : Cursor;
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New_Item : Element_Type);
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procedure Query_Element
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(Position : Cursor;
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Process : not null access procedure (Element : Element_Type));
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procedure Update_Element
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(Container : in out Tree;
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Position : Cursor;
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Process : not null access procedure (Element : in out Element_Type));
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type Constant_Reference_Type
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(Element : not null access constant Element_Type) is private
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with Implicit_Dereference => Element;
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type Reference_Type
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(Element : not null access Element_Type) is private
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with Implicit_Dereference => Element;
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function Constant_Reference
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(Container : aliased Tree;
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Position : Cursor) return Constant_Reference_Type;
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pragma Inline (Constant_Reference);
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function Reference
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(Container : aliased in out Tree;
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Position : Cursor) return Reference_Type;
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pragma Inline (Reference);
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procedure Assign (Target : in out Tree; Source : Tree);
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function Copy (Source : Tree) return Tree;
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procedure Move (Target : in out Tree; Source : in out Tree);
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procedure Delete_Leaf
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(Container : in out Tree;
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Position : in out Cursor);
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procedure Delete_Subtree
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(Container : in out Tree;
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Position : in out Cursor);
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procedure Swap
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(Container : in out Tree;
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I, J : Cursor);
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function Find
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(Container : Tree;
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Item : Element_Type) return Cursor;
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-- This version of the AI:
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-- 10-06-02 AI05-0136-1/07
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-- declares Find_In_Subtree this way:
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--
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-- function Find_In_Subtree
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-- (Container : Tree;
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-- Item : Element_Type;
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-- Position : Cursor) return Cursor;
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--
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-- It seems that the Container parameter is there by mistake, but we need
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-- an official ruling from the ARG. ???
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function Find_In_Subtree
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(Position : Cursor;
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Item : Element_Type) return Cursor;
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-- This version of the AI:
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-- 10-06-02 AI05-0136-1/07
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-- declares Ancestor_Find this way:
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--
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-- function Ancestor_Find
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-- (Container : Tree;
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-- Item : Element_Type;
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-- Position : Cursor) return Cursor;
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--
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-- It seems that the Container parameter is there by mistake, but we need
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-- an official ruling from the ARG. ???
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function Ancestor_Find
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(Position : Cursor;
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Item : Element_Type) return Cursor;
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function Contains
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(Container : Tree;
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Item : Element_Type) return Boolean;
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procedure Iterate
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(Container : Tree;
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Process : not null access procedure (Position : Cursor));
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procedure Iterate_Subtree
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(Position : Cursor;
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Process : not null access procedure (Position : Cursor));
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function Iterate (Container : Tree)
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return Tree_Iterator_Interfaces.Forward_Iterator'Class;
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function Iterate_Subtree (Position : Cursor)
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return Tree_Iterator_Interfaces.Forward_Iterator'Class;
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function Iterate_Children
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(Container : Tree;
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Parent : Cursor)
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return Tree_Iterator_Interfaces.Reversible_Iterator'Class;
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function Child_Count (Parent : Cursor) return Count_Type;
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function Child_Depth (Parent, Child : Cursor) return Count_Type;
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procedure Insert_Child
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(Container : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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New_Item : Element_Type;
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Count : Count_Type := 1);
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procedure Insert_Child
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(Container : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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New_Item : Element_Type;
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Position : out Cursor;
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Count : Count_Type := 1);
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procedure Insert_Child
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(Container : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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Position : out Cursor;
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Count : Count_Type := 1);
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procedure Prepend_Child
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(Container : in out Tree;
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Parent : Cursor;
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New_Item : Element_Type;
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Count : Count_Type := 1);
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procedure Append_Child
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(Container : in out Tree;
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Parent : Cursor;
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New_Item : Element_Type;
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Count : Count_Type := 1);
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procedure Delete_Children
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(Container : in out Tree;
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Parent : Cursor);
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procedure Copy_Subtree
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(Target : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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Source : Cursor);
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procedure Splice_Subtree
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(Target : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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Source : in out Tree;
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Position : in out Cursor);
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procedure Splice_Subtree
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(Container : in out Tree;
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Parent : Cursor;
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Before : Cursor;
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Position : Cursor);
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procedure Splice_Children
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(Target : in out Tree;
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Target_Parent : Cursor;
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Before : Cursor;
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Source : in out Tree;
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Source_Parent : Cursor);
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procedure Splice_Children
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(Container : in out Tree;
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Target_Parent : Cursor;
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Before : Cursor;
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Source_Parent : Cursor);
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function Parent (Position : Cursor) return Cursor;
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function First_Child (Parent : Cursor) return Cursor;
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function First_Child_Element (Parent : Cursor) return Element_Type;
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function Last_Child (Parent : Cursor) return Cursor;
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function Last_Child_Element (Parent : Cursor) return Element_Type;
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function Next_Sibling (Position : Cursor) return Cursor;
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function Previous_Sibling (Position : Cursor) return Cursor;
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procedure Next_Sibling (Position : in out Cursor);
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procedure Previous_Sibling (Position : in out Cursor);
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-- This version of the AI:
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-- 10-06-02 AI05-0136-1/07
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-- declares Iterate_Children this way:
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--
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-- procedure Iterate_Children
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-- (Container : Tree;
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-- Parent : Cursor;
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-- Process : not null access procedure (Position : Cursor));
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--
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-- It seems that the Container parameter is there by mistake, but we need
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-- an official ruling from the ARG. ???
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procedure Iterate_Children
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(Parent : Cursor;
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Process : not null access procedure (Position : Cursor));
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procedure Reverse_Iterate_Children
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(Parent : Cursor;
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Process : not null access procedure (Position : Cursor));
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private
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-- A node of this multiway tree comprises an element and a list of children
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-- (that are themselves trees). The root node is distinguished because it
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-- contains only children: it does not have an element itself.
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-- This design feature puts two design goals in tension with one another:
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-- (1) treat the root node the same as any other node
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-- (2) not declare any objects of type Element_Type unnecessarily
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-- To satisfy (1), we could simply declare the Root node of the tree
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-- using the normal Tree_Node_Type, but that would mean that (2) is not
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-- satisfied. To resolve the tension (in favor of (2)), we declare the
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-- component Root as having a different node type, without an Element
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-- component (thus satisfying goal (2)) but otherwise identical to a normal
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-- node, and then use Unchecked_Conversion to convert an access object
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-- designating the Root node component to the access type designating a
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-- normal, non-root node (thus satisfying goal (1)). We make an explicit
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-- check for Root when there is any attempt to manipulate the Element
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-- component of the node (a check required by the RM anyway).
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-- In order to be explicit about node (and pointer) representation, we
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-- specify that the respective node types have convention C, to ensure
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-- that the layout of the components of the node records is the same,
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-- thus guaranteeing that (unchecked) conversions between access types
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-- designating each kind of node type is a meaningful conversion.
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use Ada.Containers.Helpers;
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package Implementation is new Generic_Implementation;
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use Implementation;
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type Tree_Node_Type;
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type Tree_Node_Access is access all Tree_Node_Type;
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pragma Convention (C, Tree_Node_Access);
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pragma No_Strict_Aliasing (Tree_Node_Access);
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-- The above-mentioned Unchecked_Conversion is a violation of the normal
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-- aliasing rules.
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type Children_Type is record
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First : Tree_Node_Access;
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Last : Tree_Node_Access;
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end record;
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-- See the comment above. This declaration must exactly match the
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-- declaration of Root_Node_Type (except for the Element component).
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type Tree_Node_Type is record
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Parent : Tree_Node_Access;
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Prev : Tree_Node_Access;
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Next : Tree_Node_Access;
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Children : Children_Type;
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Element : aliased Element_Type;
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end record;
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pragma Convention (C, Tree_Node_Type);
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-- See the comment above. This declaration must match the declaration of
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-- Tree_Node_Type (except for the Element component).
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type Root_Node_Type is record
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Parent : Tree_Node_Access;
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Prev : Tree_Node_Access;
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Next : Tree_Node_Access;
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Children : Children_Type;
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end record;
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pragma Convention (C, Root_Node_Type);
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for Root_Node_Type'Alignment use Standard'Maximum_Alignment;
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-- The alignment has to be large enough to allow Root_Node to Tree_Node
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-- access value conversions, and Tree_Node_Type's alignment may be bumped
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-- up by the Element component.
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use Ada.Finalization;
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-- The Count component of type Tree represents the number of nodes that
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-- have been (dynamically) allocated. It does not include the root node
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-- itself. As implementors, we decide to cache this value, so that the
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-- selector function Node_Count can execute in O(1) time, in order to be
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-- consistent with the behavior of the Length selector function for other
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-- standard container library units. This does mean, however, that the
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-- two-container forms for Splice_XXX (that move subtrees across tree
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-- containers) will execute in O(n) time, because we must count the number
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-- of nodes in the subtree(s) that get moved. (We resolve the tension
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-- between Node_Count and Splice_XXX in favor of Node_Count, under the
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-- assumption that Node_Count is the more common operation).
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type Tree is new Controlled with record
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Root : aliased Root_Node_Type;
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TC : aliased Tamper_Counts;
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Count : Count_Type := 0;
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end record;
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overriding procedure Adjust (Container : in out Tree);
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overriding procedure Finalize (Container : in out Tree) renames Clear;
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use Ada.Streams;
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procedure Write
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(Stream : not null access Root_Stream_Type'Class;
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Container : Tree);
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for Tree'Write use Write;
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procedure Read
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(Stream : not null access Root_Stream_Type'Class;
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Container : out Tree);
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for Tree'Read use Read;
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type Tree_Access is access all Tree;
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for Tree_Access'Storage_Size use 0;
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type Cursor is record
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Container : Tree_Access;
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Node : Tree_Node_Access;
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end record;
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procedure Write
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(Stream : not null access Root_Stream_Type'Class;
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Position : Cursor);
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for Cursor'Write use Write;
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procedure Read
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(Stream : not null access Root_Stream_Type'Class;
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Position : out Cursor);
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for Cursor'Read use Read;
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subtype Reference_Control_Type is Implementation.Reference_Control_Type;
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-- It is necessary to rename this here, so that the compiler can find it
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type Constant_Reference_Type
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(Element : not null access constant Element_Type) is
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record
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Control : Reference_Control_Type :=
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raise Program_Error with "uninitialized reference";
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-- The RM says, "The default initialization of an object of
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-- type Constant_Reference_Type or Reference_Type propagates
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-- Program_Error."
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end record;
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procedure Read
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(Stream : not null access Root_Stream_Type'Class;
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Item : out Constant_Reference_Type);
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for Constant_Reference_Type'Read use Read;
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procedure Write
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(Stream : not null access Root_Stream_Type'Class;
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Item : Constant_Reference_Type);
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for Constant_Reference_Type'Write use Write;
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|
|
||
|
type Reference_Type
|
||
|
(Element : not null access Element_Type) is
|
||
|
record
|
||
|
Control : Reference_Control_Type :=
|
||
|
raise Program_Error with "uninitialized reference";
|
||
|
-- The RM says, "The default initialization of an object of
|
||
|
-- type Constant_Reference_Type or Reference_Type propagates
|
||
|
-- Program_Error."
|
||
|
end record;
|
||
|
|
||
|
procedure Read
|
||
|
(Stream : not null access Root_Stream_Type'Class;
|
||
|
Item : out Reference_Type);
|
||
|
|
||
|
for Reference_Type'Read use Read;
|
||
|
|
||
|
procedure Write
|
||
|
(Stream : not null access Root_Stream_Type'Class;
|
||
|
Item : Reference_Type);
|
||
|
|
||
|
for Reference_Type'Write use Write;
|
||
|
|
||
|
-- Three operations are used to optimize in the expansion of "for ... of"
|
||
|
-- loops: the Next(Cursor) procedure in the visible part, and the following
|
||
|
-- Pseudo_Reference and Get_Element_Access functions. See Exp_Ch5 for
|
||
|
-- details.
|
||
|
|
||
|
function Pseudo_Reference
|
||
|
(Container : aliased Tree'Class) return Reference_Control_Type;
|
||
|
pragma Inline (Pseudo_Reference);
|
||
|
-- Creates an object of type Reference_Control_Type pointing to the
|
||
|
-- container, and increments the Lock. Finalization of this object will
|
||
|
-- decrement the Lock.
|
||
|
|
||
|
type Element_Access is access all Element_Type with
|
||
|
Storage_Size => 0;
|
||
|
|
||
|
function Get_Element_Access
|
||
|
(Position : Cursor) return not null Element_Access;
|
||
|
-- Returns a pointer to the element designated by Position.
|
||
|
|
||
|
Empty_Tree : constant Tree := (Controlled with others => <>);
|
||
|
|
||
|
No_Element : constant Cursor := (others => <>);
|
||
|
|
||
|
end Ada.Containers.Multiway_Trees;
|