| ------------------------------------------------------------------------------ |
| -- -- |
| -- GNAT LIBRARY COMPONENTS -- |
| -- -- |
| -- ADA.CONTAINERS.RED_BLACK_TREES.GENERIC_OPERATIONS -- |
| -- -- |
| -- S p e c -- |
| -- -- |
| -- Copyright (C) 2004-2009, 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 3, 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. -- |
| -- -- |
| -- As a special exception under Section 7 of GPL version 3, you are granted -- |
| -- additional permissions described in the GCC Runtime Library Exception, -- |
| -- version 3.1, as published by the Free Software Foundation. -- |
| -- -- |
| -- You should have received a copy of the GNU General Public License and -- |
| -- a copy of the GCC Runtime Library Exception along with this program; -- |
| -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- |
| -- <http://www.gnu.org/licenses/>. -- |
| -- -- |
| -- This unit was originally developed by Matthew J Heaney. -- |
| ------------------------------------------------------------------------------ |
| |
| -- Tree_Type is used to implement the ordered containers. This package |
| -- declares the tree operations that do not depend on keys. |
| |
| with Ada.Streams; use Ada.Streams; |
| |
| generic |
| with package Tree_Types is new Generic_Tree_Types (<>); |
| use Tree_Types; |
| |
| with function Parent (Node : Node_Access) return Node_Access is <>; |
| with procedure Set_Parent (Node : Node_Access; Parent : Node_Access) is <>; |
| with function Left (Node : Node_Access) return Node_Access is <>; |
| with procedure Set_Left (Node : Node_Access; Left : Node_Access) is <>; |
| with function Right (Node : Node_Access) return Node_Access is <>; |
| with procedure Set_Right (Node : Node_Access; Right : Node_Access) is <>; |
| with function Color (Node : Node_Access) return Color_Type is <>; |
| with procedure Set_Color (Node : Node_Access; Color : Color_Type) is <>; |
| |
| package Ada.Containers.Red_Black_Trees.Generic_Operations is |
| pragma Pure; |
| |
| function Min (Node : Node_Access) return Node_Access; |
| -- Returns the smallest-valued node of the subtree rooted at Node |
| |
| function Max (Node : Node_Access) return Node_Access; |
| -- Returns the largest-valued node of the subtree rooted at Node |
| |
| -- NOTE: The Check_Invariant operation was used during early |
| -- development of the red-black tree. Now that the tree type |
| -- implementation has matured, we don't really need Check_Invariant |
| -- anymore. |
| |
| -- procedure Check_Invariant (Tree : Tree_Type); |
| |
| function Vet (Tree : Tree_Type; Node : Node_Access) return Boolean; |
| -- Inspects Node to determine (to the extent possible) whether |
| -- the node is valid; used to detect if the node is dangling. |
| |
| function Next (Node : Node_Access) return Node_Access; |
| -- Returns the smallest node greater than Node |
| |
| function Previous (Node : Node_Access) return Node_Access; |
| -- Returns the largest node less than Node |
| |
| generic |
| with function Is_Equal (L, R : Node_Access) return Boolean; |
| function Generic_Equal (Left, Right : Tree_Type) return Boolean; |
| -- Uses Is_Equal to perform a node-by-node comparison of the |
| -- Left and Right trees; processing stops as soon as the first |
| -- non-equal node is found. |
| |
| procedure Delete_Node_Sans_Free |
| (Tree : in out Tree_Type; |
| Node : Node_Access); |
| -- Removes Node from Tree without deallocating the node. If Tree |
| -- is busy then Program_Error is raised. |
| |
| generic |
| with procedure Free (X : in out Node_Access); |
| procedure Generic_Delete_Tree (X : in out Node_Access); |
| -- Deallocates the tree rooted at X, calling Free on each node |
| |
| generic |
| with function Copy_Node (Source : Node_Access) return Node_Access; |
| with procedure Delete_Tree (X : in out Node_Access); |
| function Generic_Copy_Tree (Source_Root : Node_Access) return Node_Access; |
| -- Copies the tree rooted at Source_Root, using Copy_Node to copy each |
| -- node of the source tree. If Copy_Node propagates an exception |
| -- (e.g. Storage_Error), then Delete_Tree is first used to deallocate |
| -- the target tree, and then the exception is propagated. |
| |
| generic |
| with function Copy_Tree (Root : Node_Access) return Node_Access; |
| procedure Generic_Adjust (Tree : in out Tree_Type); |
| -- Used to implement controlled Adjust. On input to Generic_Adjust, Tree |
| -- holds a bitwise (shallow) copy of the source tree (as would be the case |
| -- when controlled Adjust is called). On output, Tree holds its own (deep) |
| -- copy of the source tree, which is constructed by calling Copy_Tree. |
| |
| generic |
| with procedure Delete_Tree (X : in out Node_Access); |
| procedure Generic_Clear (Tree : in out Tree_Type); |
| -- Clears Tree by deallocating all of its nodes. If Tree is busy then |
| -- Program_Error is raised. |
| |
| generic |
| with procedure Clear (Tree : in out Tree_Type); |
| procedure Generic_Move (Target, Source : in out Tree_Type); |
| -- Moves the tree belonging to Source onto Target. If Source is busy then |
| -- Program_Error is raised. Otherwise Target is first cleared (by calling |
| -- Clear, to deallocate its existing tree), then given the Source tree, and |
| -- then finally Source is cleared (by setting its pointers to null). |
| |
| generic |
| with procedure Process (Node : Node_Access) is <>; |
| procedure Generic_Iteration (Tree : Tree_Type); |
| -- Calls Process for each node in Tree, in order from smallest-valued |
| -- node to largest-valued node. |
| |
| generic |
| with procedure Process (Node : Node_Access) is <>; |
| procedure Generic_Reverse_Iteration (Tree : Tree_Type); |
| -- Calls Process for each node in Tree, in order from largest-valued |
| -- node to smallest-valued node. |
| |
| generic |
| with procedure Write_Node |
| (Stream : not null access Root_Stream_Type'Class; |
| Node : Node_Access); |
| procedure Generic_Write |
| (Stream : not null access Root_Stream_Type'Class; |
| Tree : Tree_Type); |
| -- Used to implement stream attribute T'Write. Generic_Write |
| -- first writes the number of nodes into Stream, then calls |
| -- Write_Node for each node in Tree. |
| |
| generic |
| with procedure Clear (Tree : in out Tree_Type); |
| with function Read_Node |
| (Stream : not null access Root_Stream_Type'Class) return Node_Access; |
| procedure Generic_Read |
| (Stream : not null access Root_Stream_Type'Class; |
| Tree : in out Tree_Type); |
| -- Used to implement stream attribute T'Read. Generic_Read |
| -- first clears Tree. It then reads the number of nodes out of |
| -- Stream, and calls Read_Node for each node in Stream. |
| |
| procedure Rebalance_For_Insert |
| (Tree : in out Tree_Type; |
| Node : Node_Access); |
| -- This rebalances Tree to complete the insertion of Node (which |
| -- must already be linked in at its proper insertion position). |
| |
| end Ada.Containers.Red_Black_Trees.Generic_Operations; |