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|
------------------------------------------------------------------------------
-- --
-- GNAT LIBRARY COMPONENTS --
-- --
-- ADA.CONTAINERS.FUNCTIONAL_SETS --
-- --
-- S p e c --
-- --
-- Copyright (C) 2016-2018, 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/>. --
------------------------------------------------------------------------------
pragma Ada_2012;
private with Ada.Containers.Functional_Base;
generic
type Element_Type (<>) is private;
with function Equivalent_Elements
(Left : Element_Type;
Right : Element_Type) return Boolean is "=";
Enable_Handling_Of_Equivalence : Boolean := True;
-- This constant should only be set to False when no particular handling
-- of equivalence over elements is needed, that is, Equivalent_Elements
-- defines an element uniquely.
package Ada.Containers.Functional_Sets with SPARK_Mode is
type Set is private with
Default_Initial_Condition => Is_Empty (Set),
Iterable => (First => Iter_First,
Next => Iter_Next,
Has_Element => Iter_Has_Element,
Element => Iter_Element);
-- Sets are empty when default initialized.
-- "For in" quantification over sets should not be used.
-- "For of" quantification over sets iterates over elements.
-- Note that, for proof, "for of" quantification is understood modulo
-- equivalence (the range of quantification comprises all the elements that
-- are equivalent to any element of the set).
-----------------------
-- Basic operations --
-----------------------
-- Sets are axiomatized using Contains, which encodes whether an element is
-- contained in a set. The length of a set is also added to protect Add
-- against overflows but it is not actually modeled.
function Contains (Container : Set; Item : Element_Type) return Boolean with
-- Return True if Item is contained in Container
Global => null,
Post =>
(if Enable_Handling_Of_Equivalence then
-- Contains returns the same result on all equivalent elements
(if (for some E of Container => Equivalent_Elements (E, Item)) then
Contains'Result));
function Length (Container : Set) return Count_Type with
Global => null;
-- Return the number of elements in Container
------------------------
-- Property Functions --
------------------------
function "<=" (Left : Set; Right : Set) return Boolean with
-- Set inclusion
Global => null,
Post => "<="'Result = (for all Item of Left => Contains (Right, Item));
function "=" (Left : Set; Right : Set) return Boolean with
-- Extensional equality over sets
Global => null,
Post => "="'Result = (Left <= Right and Right <= Left);
pragma Warnings (Off, "unused variable ""Item""");
function Is_Empty (Container : Set) return Boolean with
-- A set is empty if it contains no element
Global => null,
Post =>
Is_Empty'Result = (for all Item of Container => False)
and Is_Empty'Result = (Length (Container) = 0);
pragma Warnings (On, "unused variable ""Item""");
function Included_Except
(Left : Set;
Right : Set;
Item : Element_Type) return Boolean
-- Return True if Left contains only elements of Right except possibly
-- Item.
with
Global => null,
Post =>
Included_Except'Result =
(for all E of Left =>
Contains (Right, E) or Equivalent_Elements (E, Item));
function Includes_Intersection
(Container : Set;
Left : Set;
Right : Set) return Boolean
with
-- Return True if every element of the intersection of Left and Right is
-- in Container.
Global => null,
Post =>
Includes_Intersection'Result =
(for all Item of Left =>
(if Contains (Right, Item) then Contains (Container, Item)));
function Included_In_Union
(Container : Set;
Left : Set;
Right : Set) return Boolean
with
-- Return True if every element of Container is the union of Left and Right
Global => null,
Post =>
Included_In_Union'Result =
(for all Item of Container =>
Contains (Left, Item) or Contains (Right, Item));
function Is_Singleton
(Container : Set;
New_Item : Element_Type) return Boolean
with
-- Return True Container only contains New_Item
Global => null,
Post =>
Is_Singleton'Result =
(for all Item of Container => Equivalent_Elements (Item, New_Item));
function Not_In_Both
(Container : Set;
Left : Set;
Right : Set) return Boolean
-- Return True if there are no elements in Container that are in Left and
-- Right.
with
Global => null,
Post =>
Not_In_Both'Result =
(for all Item of Container =>
not Contains (Left, Item) or not Contains (Right, Item));
function No_Overlap (Left : Set; Right : Set) return Boolean with
-- Return True if there are no equivalent elements in Left and Right
Global => null,
Post =>
No_Overlap'Result =
(for all Item of Left => not Contains (Right, Item));
function Num_Overlaps (Left : Set; Right : Set) return Count_Type with
-- Number of elements that are both in Left and Right
Global => null,
Post =>
Num_Overlaps'Result = Length (Intersection (Left, Right))
and (if Left <= Right then Num_Overlaps'Result = Length (Left)
else Num_Overlaps'Result < Length (Left))
and (if Right <= Left then Num_Overlaps'Result = Length (Right)
else Num_Overlaps'Result < Length (Right))
and (Num_Overlaps'Result = 0) = No_Overlap (Left, Right);
----------------------------
-- Construction Functions --
----------------------------
-- For better efficiency of both proofs and execution, avoid using
-- construction functions in annotations and rather use property functions.
function Add (Container : Set; Item : Element_Type) return Set with
-- Return a new set containing all the elements of Container plus E
Global => null,
Pre =>
not Contains (Container, Item)
and Length (Container) < Count_Type'Last,
Post =>
Length (Add'Result) = Length (Container) + 1
and Contains (Add'Result, Item)
and Container <= Add'Result
and Included_Except (Add'Result, Container, Item);
function Remove (Container : Set; Item : Element_Type) return Set with
-- Return a new set containing all the elements of Container except E
Global => null,
Pre => Contains (Container, Item),
Post =>
Length (Remove'Result) = Length (Container) - 1
and not Contains (Remove'Result, Item)
and Remove'Result <= Container
and Included_Except (Container, Remove'Result, Item);
function Intersection (Left : Set; Right : Set) return Set with
-- Returns the intersection of Left and Right
Global => null,
Post =>
Intersection'Result <= Left
and Intersection'Result <= Right
and Includes_Intersection (Intersection'Result, Left, Right);
function Union (Left : Set; Right : Set) return Set with
-- Returns the union of Left and Right
Global => null,
Pre =>
Length (Left) - Num_Overlaps (Left, Right) <=
Count_Type'Last - Length (Right),
Post =>
Length (Union'Result) =
Length (Left) - Num_Overlaps (Left, Right) + Length (Right)
and Left <= Union'Result
and Right <= Union'Result
and Included_In_Union (Union'Result, Left, Right);
---------------------------
-- Iteration Primitives --
---------------------------
type Private_Key is private;
function Iter_First (Container : Set) return Private_Key with
Global => null;
function Iter_Has_Element
(Container : Set;
Key : Private_Key) return Boolean
with
Global => null;
function Iter_Next
(Container : Set;
Key : Private_Key) return Private_Key
with
Global => null,
Pre => Iter_Has_Element (Container, Key);
function Iter_Element
(Container : Set;
Key : Private_Key) return Element_Type
with
Global => null,
Pre => Iter_Has_Element (Container, Key);
pragma Annotate (GNATprove, Iterable_For_Proof, "Contains", Contains);
private
pragma SPARK_Mode (Off);
subtype Positive_Count_Type is Count_Type range 1 .. Count_Type'Last;
function "="
(Left : Element_Type;
Right : Element_Type) return Boolean renames Equivalent_Elements;
package Containers is new Ada.Containers.Functional_Base
(Element_Type => Element_Type,
Index_Type => Positive_Count_Type);
type Set is record
Content : Containers.Container;
end record;
type Private_Key is new Count_Type;
function Iter_First (Container : Set) return Private_Key is (1);
function Iter_Has_Element
(Container : Set;
Key : Private_Key) return Boolean
is
(Count_Type (Key) in 1 .. Containers.Length (Container.Content));
function Iter_Next
(Container : Set;
Key : Private_Key) return Private_Key
is
(if Key = Private_Key'Last then 0 else Key + 1);
function Iter_Element
(Container : Set;
Key : Private_Key) return Element_Type
is
(Containers.Get (Container.Content, Count_Type (Key)));
end Ada.Containers.Functional_Sets;
|
