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 ------------------------------------------------------------------------------
 --                                                                          --
 --                         GNAT LIBRARY COMPONENTS                          --
 --                                                                          --
 --                 ADA.CONTAINERS.FORMAL_DOUBLY_LINKED_LISTS                --
 --                                                                          --
 --                                 S p e c                                  --
 --                                                                          --
 --          Copyright (C) 2004-2013, Free Software Foundation, Inc.         --
 --                                                                          --
 -- This specification is derived from the Ada Reference Manual for use with --
 -- GNAT. The copyright notice above, and the license provisions that follow --
 -- apply solely to the  contents of the part following the private keyword. --
 --                                                                          --
 -- 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 spec is derived from Ada.Containers.Bounded_Doubly_Linked_Lists in the
 --  Ada 2012 RM. The modifications are meant to facilitate formal proofs by
 --  making it easier to express properties, and by making the specification of
 --  this unit compatible with SPARK 2014. Note that the API of this unit may be
 --  subject to incompatible changes as SPARK 2014 evolves.

 --  The modifications are:

 --    A parameter for the container is added to every function reading the
 --    contents of a container: Next, Previous, Query_Element, Has_Element,
 --    Iterate, Reverse_Iterate, Element. This change is motivated by the need
 --    to have cursors which are valid on different containers (typically a
 --    container C and its previous version C'Old) for expressing properties,
 --    which is not possible if cursors encapsulate an access to the underlying
 --    container.

 --    There are three new functions:

 --      function Strict_Equal (Left, Right : List) return Boolean;
 --      function First_To_Previous  (Container : List; Current : Cursor)
 --         return List;
 --      function Current_To_Last (Container : List; Current : Cursor)
 --         return List;

 --    See subprogram specifications that follow for details

 generic
    type Element_Type is private;

    with function "=" (Left, Right : Element_Type)
                       return Boolean is <>;

 package Ada.Containers.Formal_Doubly_Linked_Lists is
    pragma Annotate (GNATprove, External_Axiomatization);
    pragma Pure;

    type List (Capacity : Count_Type) is private with
      Iterable => (First       => First,
                   Next        => Next,
                   Has_Element => Has_Element,
                   Element     => Element);
    pragma Preelaborable_Initialization (List);

    type Cursor is private;
    pragma Preelaborable_Initialization (Cursor);

    Empty_List : constant List;

    No_Element : constant Cursor;

    function "=" (Left, Right : List) return Boolean with
      Global => null;

    function Length (Container : List) return Count_Type with
      Global => null;

    function Is_Empty (Container : List) return Boolean with
      Global => null;

    procedure Clear (Container : in out List) with
      Global => null;

    procedure Assign (Target : in out List; Source : List) with
      Global => null,
      Pre    => Target.Capacity >= Length (Source);

    function Copy (Source : List; Capacity : Count_Type := 0) return List with
      Global => null,
      Pre    => Capacity = 0 or else Capacity >= Source.Capacity;

    function Element
      (Container : List;
       Position : Cursor) return Element_Type
    with
      Global => null,
      Pre    => Has_Element (Container, Position);

    procedure Replace_Element
      (Container : in out List;
       Position  : Cursor;
       New_Item  : Element_Type)
    with
      Global => null,
      Pre    => Has_Element (Container, Position);

    procedure Move (Target : in out List; Source : in out List) with
      Global => null,
      Pre    => Target.Capacity >= Length (Source);

    procedure Insert
      (Container : in out List;
       Before    : Cursor;
       New_Item  : Element_Type;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Length (Container) + Count <= Container.Capacity
                  and then (Has_Element (Container, Before)
                             or else Before = No_Element);

    procedure Insert
      (Container : in out List;
       Before    : Cursor;
       New_Item  : Element_Type;
       Position  : out Cursor;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Length (Container) + Count <= Container.Capacity
                  and then (Has_Element (Container, Before)
                             or else Before = No_Element);

    procedure Insert
      (Container : in out List;
       Before    : Cursor;
       Position  : out Cursor;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Length (Container) + Count <= Container.Capacity
                  and then (Has_Element (Container, Before)
                             or else Before = No_Element);

    procedure Prepend
      (Container : in out List;
       New_Item  : Element_Type;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Length (Container) + Count <= Container.Capacity;

    procedure Append
      (Container : in out List;
       New_Item  : Element_Type;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Length (Container) + Count <= Container.Capacity;

    procedure Delete
      (Container : in out List;
       Position  : in out Cursor;
       Count     : Count_Type := 1)
    with
      Global => null,
      Pre    => Has_Element (Container, Position);

    procedure Delete_First
      (Container : in out List;
       Count     : Count_Type := 1)
    with
      Global => null;

    procedure Delete_Last
      (Container : in out List;
       Count     : Count_Type := 1)
    with
      Global => null;

    procedure Reverse_Elements (Container : in out List) with
      Global => null;

    procedure Swap
      (Container : in out List;
       I, J      : Cursor)
    with
      Global => null,
      Pre    => Has_Element (Container, I) and then Has_Element (Container, J);

    procedure Swap_Links
      (Container : in out List;
       I, J      : Cursor)
    with
      Global => null,
      Pre    => Has_Element (Container, I) and then Has_Element (Container, J);

    procedure Splice
      (Target : in out List;
       Before : Cursor;
       Source : in out List)
    with
      Global => null,
      Pre    => Length (Source) + Length (Target) <= Target.Capacity
                  and then (Has_Element (Target, Before)
                             or else Before = No_Element);

    procedure Splice
      (Target   : in out List;
       Before   : Cursor;
       Source   : in out List;
       Position : in out Cursor)
    with
      Global => null,
      Pre    => Length (Source) + Length (Target) <= Target.Capacity
                  and then (Has_Element (Target, Before)
                             or else Before = No_Element)
                  and then Has_Element (Source, Position);

    procedure Splice
      (Container : in out List;
       Before    : Cursor;
       Position  : Cursor)
    with
      Global => null,
      Pre    => 2 * Length (Container) <= Container.Capacity
                  and then (Has_Element (Container, Before)
                             or else Before = No_Element)
                  and then Has_Element (Container, Position);

    function First (Container : List) return Cursor with
      Global => null;

    function First_Element (Container : List) return Element_Type with
      Global => null,
      Pre    => not Is_Empty (Container);

    function Last (Container : List) return Cursor with
      Global => null;

    function Last_Element (Container : List) return Element_Type with
      Global => null,
      Pre    => not Is_Empty (Container);

    function Next (Container : List; Position : Cursor) return Cursor with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    procedure Next (Container : List; Position : in out Cursor) with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    function Previous (Container : List; Position : Cursor) return Cursor with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    procedure Previous (Container : List; Position : in out Cursor) with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    function Find
      (Container : List;
       Item      : Element_Type;
       Position  : Cursor := No_Element) return Cursor
    with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    function Reverse_Find
      (Container : List;
       Item      : Element_Type;
       Position  : Cursor := No_Element) return Cursor
    with
      Global => null,
      Pre    => Has_Element (Container, Position) or else Position = No_Element;

    function Contains
      (Container : List;
       Item      : Element_Type) return Boolean
    with
      Global => null;

    function Has_Element (Container : List; Position : Cursor) return Boolean
    with
      Global => null;

    generic
       with function "<" (Left, Right : Element_Type) return Boolean is <>;
    package Generic_Sorting is

       function Is_Sorted (Container : List) return Boolean with
         Global => null;

       procedure Sort (Container : in out List) with
         Global => null;

       procedure Merge (Target, Source : in out List) with
         Global => null;

    end Generic_Sorting;

    function Strict_Equal (Left, Right : List) return Boolean with
      Global => null;
    --  Strict_Equal returns True if the containers are physically equal, i.e.
    --  they are structurally equal (function "=" returns True) and that they
    --  have the same set of cursors.

    function First_To_Previous (Container : List; Current : Cursor) return List
    with
      Global => null,
      Pre    => Has_Element (Container, Current) or else Current = No_Element;
    function Current_To_Last (Container : List; Current : Cursor) return List
    with
      Global => null,
      Pre    => Has_Element (Container, Current) or else Current = No_Element;
    --  First_To_Previous returns a container containing all elements preceding
    --  Current (excluded) in Container. Current_To_Last returns a container
    --  containing all elements following Current (included) in Container.
    --  These two new functions can be used to express invariant properties in
    --  loops which iterate over containers. First_To_Previous returns the part
    --  of the container already scanned and Current_To_Last the part not
    --  scanned yet.

 private

    type Node_Type is record
       Prev    : Count_Type'Base := -1;
       Next    : Count_Type;
       Element : Element_Type;
    end record;

    function "=" (L, R : Node_Type) return Boolean is abstract;

    type Node_Array is array (Count_Type range <>) of Node_Type;
    function "=" (L, R : Node_Array) return Boolean is abstract;

    type List (Capacity : Count_Type) is tagged record
       Nodes  : Node_Array (1 .. Capacity) := (others => <>);
       Free   : Count_Type'Base := -1;
       Length : Count_Type := 0;
       First  : Count_Type := 0;
       Last   : Count_Type := 0;
    end record;

    type Cursor is record
       Node : Count_Type := 0;
    end record;

    Empty_List : constant List := (0, others => <>);

    No_Element : constant Cursor := (Node => 0);

 end Ada.Containers.Formal_Doubly_Linked_Lists;
	------------------------------------------------------------------------------
	-- --
	-- GNAT LIBRARY COMPONENTS --
	-- --
	-- ADA.CONTAINERS.FORMAL_DOUBLY_LINKED_LISTS --
	-- --
	-- S p e c --
	-- --
	-- Copyright (C) 2004-2013, Free Software Foundation, Inc. --
	-- --
	-- This specification is derived from the Ada Reference Manual for use with --
	-- GNAT. The copyright notice above, and the license provisions that follow --
	-- apply solely to the contents of the part following the private keyword. --
	-- --
	-- 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 spec is derived from Ada.Containers.Bounded_Doubly_Linked_Lists in the
	-- Ada 2012 RM. The modifications are meant to facilitate formal proofs by
	-- making it easier to express properties, and by making the specification of
	-- this unit compatible with SPARK 2014. Note that the API of this unit may be
	-- subject to incompatible changes as SPARK 2014 evolves.

	-- The modifications are:

	-- A parameter for the container is added to every function reading the
	-- contents of a container: Next, Previous, Query_Element, Has_Element,
	-- Iterate, Reverse_Iterate, Element. This change is motivated by the need
	-- to have cursors which are valid on different containers (typically a
	-- container C and its previous version C'Old) for expressing properties,
	-- which is not possible if cursors encapsulate an access to the underlying
	-- container.

	-- There are three new functions:

	-- function Strict_Equal (Left, Right : List) return Boolean;
	-- function First_To_Previous (Container : List; Current : Cursor)
	-- return List;
	-- function Current_To_Last (Container : List; Current : Cursor)
	-- return List;

	-- See subprogram specifications that follow for details

	generic
	type Element_Type is private;

	with function "=" (Left, Right : Element_Type)
	return Boolean is <>;

	package Ada.Containers.Formal_Doubly_Linked_Lists is
	pragma Annotate (GNATprove, External_Axiomatization);
	pragma Pure;

	type List (Capacity : Count_Type) is private with
	Iterable => (First => First,
	Next => Next,
	Has_Element => Has_Element,
	Element => Element);
	pragma Preelaborable_Initialization (List);

	type Cursor is private;
	pragma Preelaborable_Initialization (Cursor);

	Empty_List : constant List;

	No_Element : constant Cursor;

	function "=" (Left, Right : List) return Boolean with
	Global => null;

	function Length (Container : List) return Count_Type with
	Global => null;

	function Is_Empty (Container : List) return Boolean with
	Global => null;

	procedure Clear (Container : in out List) with
	Global => null;

	procedure Assign (Target : in out List; Source : List) with
	Global => null,
	Pre => Target.Capacity >= Length (Source);

	function Copy (Source : List; Capacity : Count_Type := 0) return List with
	Global => null,
	Pre => Capacity = 0 or else Capacity >= Source.Capacity;

	function Element
	(Container : List;
	Position : Cursor) return Element_Type
	with
	Global => null,
	Pre => Has_Element (Container, Position);

	procedure Replace_Element
	(Container : in out List;
	Position : Cursor;
	New_Item : Element_Type)
	with
	Global => null,
	Pre => Has_Element (Container, Position);

	procedure Move (Target : in out List; Source : in out List) with
	Global => null,
	Pre => Target.Capacity >= Length (Source);

	procedure Insert
	(Container : in out List;
	Before : Cursor;
	New_Item : Element_Type;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Length (Container) + Count <= Container.Capacity
	and then (Has_Element (Container, Before)
	or else Before = No_Element);

	procedure Insert
	(Container : in out List;
	Before : Cursor;
	New_Item : Element_Type;
	Position : out Cursor;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Length (Container) + Count <= Container.Capacity
	and then (Has_Element (Container, Before)
	or else Before = No_Element);

	procedure Insert
	(Container : in out List;
	Before : Cursor;
	Position : out Cursor;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Length (Container) + Count <= Container.Capacity
	and then (Has_Element (Container, Before)
	or else Before = No_Element);

	procedure Prepend
	(Container : in out List;
	New_Item : Element_Type;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Length (Container) + Count <= Container.Capacity;

	procedure Append
	(Container : in out List;
	New_Item : Element_Type;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Length (Container) + Count <= Container.Capacity;

	procedure Delete
	(Container : in out List;
	Position : in out Cursor;
	Count : Count_Type := 1)
	with
	Global => null,
	Pre => Has_Element (Container, Position);

	procedure Delete_First
	(Container : in out List;
	Count : Count_Type := 1)
	with
	Global => null;

	procedure Delete_Last
	(Container : in out List;
	Count : Count_Type := 1)
	with
	Global => null;

	procedure Reverse_Elements (Container : in out List) with
	Global => null;

	procedure Swap
	(Container : in out List;
	I, J : Cursor)
	with
	Global => null,
	Pre => Has_Element (Container, I) and then Has_Element (Container, J);

	procedure Swap_Links
	(Container : in out List;
	I, J : Cursor)
	with
	Global => null,
	Pre => Has_Element (Container, I) and then Has_Element (Container, J);

	procedure Splice
	(Target : in out List;
	Before : Cursor;
	Source : in out List)
	with
	Global => null,
	Pre => Length (Source) + Length (Target) <= Target.Capacity
	and then (Has_Element (Target, Before)
	or else Before = No_Element);

	procedure Splice
	(Target : in out List;
	Before : Cursor;
	Source : in out List;
	Position : in out Cursor)
	with
	Global => null,
	Pre => Length (Source) + Length (Target) <= Target.Capacity
	and then (Has_Element (Target, Before)
	or else Before = No_Element)
	and then Has_Element (Source, Position);

	procedure Splice
	(Container : in out List;
	Before : Cursor;
	Position : Cursor)
	with
	Global => null,
	Pre => 2 * Length (Container) <= Container.Capacity
	and then (Has_Element (Container, Before)
	or else Before = No_Element)
	and then Has_Element (Container, Position);

	function First (Container : List) return Cursor with
	Global => null;

	function First_Element (Container : List) return Element_Type with
	Global => null,
	Pre => not Is_Empty (Container);

	function Last (Container : List) return Cursor with
	Global => null;

	function Last_Element (Container : List) return Element_Type with
	Global => null,
	Pre => not Is_Empty (Container);

	function Next (Container : List; Position : Cursor) return Cursor with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	procedure Next (Container : List; Position : in out Cursor) with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	function Previous (Container : List; Position : Cursor) return Cursor with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	procedure Previous (Container : List; Position : in out Cursor) with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	function Find
	(Container : List;
	Item : Element_Type;
	Position : Cursor := No_Element) return Cursor
	with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	function Reverse_Find
	(Container : List;
	Item : Element_Type;
	Position : Cursor := No_Element) return Cursor
	with
	Global => null,
	Pre => Has_Element (Container, Position) or else Position = No_Element;

	function Contains
	(Container : List;
	Item : Element_Type) return Boolean
	with
	Global => null;

	function Has_Element (Container : List; Position : Cursor) return Boolean
	with
	Global => null;

	generic
	with function "<" (Left, Right : Element_Type) return Boolean is <>;
	package Generic_Sorting is

	function Is_Sorted (Container : List) return Boolean with
	Global => null;

	procedure Sort (Container : in out List) with
	Global => null;

	procedure Merge (Target, Source : in out List) with
	Global => null;

	end Generic_Sorting;

	function Strict_Equal (Left, Right : List) return Boolean with
	Global => null;
	-- Strict_Equal returns True if the containers are physically equal, i.e.
	-- they are structurally equal (function "=" returns True) and that they
	-- have the same set of cursors.

	function First_To_Previous (Container : List; Current : Cursor) return List
	with
	Global => null,
	Pre => Has_Element (Container, Current) or else Current = No_Element;
	function Current_To_Last (Container : List; Current : Cursor) return List
	with
	Global => null,
	Pre => Has_Element (Container, Current) or else Current = No_Element;
	-- First_To_Previous returns a container containing all elements preceding
	-- Current (excluded) in Container. Current_To_Last returns a container
	-- containing all elements following Current (included) in Container.
	-- These two new functions can be used to express invariant properties in
	-- loops which iterate over containers. First_To_Previous returns the part
	-- of the container already scanned and Current_To_Last the part not
	-- scanned yet.

	private

	type Node_Type is record
	Prev : Count_Type'Base := -1;
	Next : Count_Type;
	Element : Element_Type;
	end record;

	function "=" (L, R : Node_Type) return Boolean is abstract;

	type Node_Array is array (Count_Type range <>) of Node_Type;
	function "=" (L, R : Node_Array) return Boolean is abstract;

	type List (Capacity : Count_Type) is tagged record
	Nodes : Node_Array (1 .. Capacity) := (others => <>);
	Free : Count_Type'Base := -1;
	Length : Count_Type := 0;
	First : Count_Type := 0;
	Last : Count_Type := 0;
	end record;

	type Cursor is record
	Node : Count_Type := 0;
	end record;

	Empty_List : constant List := (0, others => <>);

	No_Element : constant Cursor := (Node => 0);

	end Ada.Containers.Formal_Doubly_Linked_Lists;