------------------------------------------------------------------------------ -- -- -- GNAT LIBRARY COMPONENTS -- -- -- -- A D A . C O N T A I N E R S . F O R M A L _ H A S H E D _ S E T S -- -- -- -- S p e c -- -- -- -- Copyright (C) 2004-2018, 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 -- -- . -- ------------------------------------------------------------------------------ -- This spec is derived from package Ada.Containers.Bounded_Hashed_Sets 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 -- content of a container: Element, Next, Query_Element, Has_Element, Key, -- Iterate, Equivalent_Elements. 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. with Ada.Containers.Functional_Maps; with Ada.Containers.Functional_Sets; with Ada.Containers.Functional_Vectors; private with Ada.Containers.Hash_Tables; generic type Element_Type is private; with function Hash (Element : Element_Type) return Hash_Type; with function Equivalent_Elements (Left : Element_Type; Right : Element_Type) return Boolean is "="; package Ada.Containers.Formal_Hashed_Sets with SPARK_Mode is pragma Annotate (CodePeer, Skip_Analysis); type Set (Capacity : Count_Type; Modulus : Hash_Type) is private with Iterable => (First => First, Next => Next, Has_Element => Has_Element, Element => Element), Default_Initial_Condition => Is_Empty (Set); pragma Preelaborable_Initialization (Set); type Cursor is record Node : Count_Type; end record; No_Element : constant Cursor := (Node => 0); function Length (Container : Set) return Count_Type with Global => null, Post => Length'Result <= Container.Capacity; pragma Unevaluated_Use_Of_Old (Allow); package Formal_Model with Ghost is subtype Positive_Count_Type is Count_Type range 1 .. Count_Type'Last; package M is new Ada.Containers.Functional_Sets (Element_Type => Element_Type, Equivalent_Elements => Equivalent_Elements); function "=" (Left : M.Set; Right : M.Set) return Boolean renames M."="; function "<=" (Left : M.Set; Right : M.Set) return Boolean renames M."<="; package E is new Ada.Containers.Functional_Vectors (Element_Type => Element_Type, Index_Type => Positive_Count_Type); function "=" (Left : E.Sequence; Right : E.Sequence) return Boolean renames E."="; function "<" (Left : E.Sequence; Right : E.Sequence) return Boolean renames E."<"; function "<=" (Left : E.Sequence; Right : E.Sequence) return Boolean renames E."<="; function Find (Container : E.Sequence; Item : Element_Type) return Count_Type -- Search for Item in Container with Global => null, Post => (if Find'Result > 0 then Find'Result <= E.Length (Container) and Equivalent_Elements (Item, E.Get (Container, Find'Result))); function E_Elements_Included (Left : E.Sequence; Right : E.Sequence) return Boolean -- The elements of Left are contained in Right with Global => null, Post => E_Elements_Included'Result = (for all I in 1 .. E.Length (Left) => Find (Right, E.Get (Left, I)) > 0 and then E.Get (Right, Find (Right, E.Get (Left, I))) = E.Get (Left, I)); pragma Annotate (GNATprove, Inline_For_Proof, E_Elements_Included); function E_Elements_Included (Left : E.Sequence; Model : M.Set; Right : E.Sequence) return Boolean -- The elements of Container contained in Model are in Right with Global => null, Post => E_Elements_Included'Result = (for all I in 1 .. E.Length (Left) => (if M.Contains (Model, E.Get (Left, I)) then Find (Right, E.Get (Left, I)) > 0 and then E.Get (Right, Find (Right, E.Get (Left, I))) = E.Get (Left, I))); pragma Annotate (GNATprove, Inline_For_Proof, E_Elements_Included); function E_Elements_Included (Container : E.Sequence; Model : M.Set; Left : E.Sequence; Right : E.Sequence) return Boolean -- The elements of Container contained in Model are in Left and others -- are in Right. with Global => null, Post => E_Elements_Included'Result = (for all I in 1 .. E.Length (Container) => (if M.Contains (Model, E.Get (Container, I)) then Find (Left, E.Get (Container, I)) > 0 and then E.Get (Left, Find (Left, E.Get (Container, I))) = E.Get (Container, I) else Find (Right, E.Get (Container, I)) > 0 and then E.Get (Right, Find (Right, E.Get (Container, I))) = E.Get (Container, I))); pragma Annotate (GNATprove, Inline_For_Proof, E_Elements_Included); package P is new Ada.Containers.Functional_Maps (Key_Type => Cursor, Element_Type => Positive_Count_Type, Equivalent_Keys => "=", Enable_Handling_Of_Equivalence => False); function "=" (Left : P.Map; Right : P.Map) return Boolean renames P."="; function "<=" (Left : P.Map; Right : P.Map) return Boolean renames P."<="; function Mapping_Preserved (E_Left : E.Sequence; E_Right : E.Sequence; P_Left : P.Map; P_Right : P.Map) return Boolean with Ghost, Global => null, Post => (if Mapping_Preserved'Result then -- Right contains all the cursors of Left P.Keys_Included (P_Left, P_Right) -- Right contains all the elements of Left and E_Elements_Included (E_Left, E_Right) -- Mappings from cursors to elements induced by E_Left, P_Left -- and E_Right, P_Right are the same. and (for all C of P_Left => E.Get (E_Left, P.Get (P_Left, C)) = E.Get (E_Right, P.Get (P_Right, C)))); function Mapping_Preserved_Except (E_Left : E.Sequence; E_Right : E.Sequence; P_Left : P.Map; P_Right : P.Map; Position : Cursor) return Boolean with Ghost, Global => null, Post => (if Mapping_Preserved_Except'Result then -- Right contains all the cursors of Left P.Keys_Included (P_Left, P_Right) -- Mappings from cursors to elements induced by E_Left, P_Left -- and E_Right, P_Right are the same except for Position. and (for all C of P_Left => (if C /= Position then E.Get (E_Left, P.Get (P_Left, C)) = E.Get (E_Right, P.Get (P_Right, C))))); function Model (Container : Set) return M.Set with -- The high-level model of a set is a set of elements. Neither cursors -- nor order of elements are represented in this model. Elements are -- modeled up to equivalence. Ghost, Global => null, Post => M.Length (Model'Result) = Length (Container); function Elements (Container : Set) return E.Sequence with -- The Elements sequence represents the underlying list structure of -- sets that is used for iteration. It stores the actual values of -- elements in the set. It does not model cursors. Ghost, Global => null, Post => E.Length (Elements'Result) = Length (Container) -- It only contains keys contained in Model and (for all Item of Elements'Result => M.Contains (Model (Container), Item)) -- It contains all the elements contained in Model and (for all Item of Model (Container) => (Find (Elements'Result, Item) > 0 and then Equivalent_Elements (E.Get (Elements'Result, Find (Elements'Result, Item)), Item))) -- It has no duplicate and (for all I in 1 .. Length (Container) => Find (Elements'Result, E.Get (Elements'Result, I)) = I) and (for all I in 1 .. Length (Container) => (for all J in 1 .. Length (Container) => (if Equivalent_Elements (E.Get (Elements'Result, I), E.Get (Elements'Result, J)) then I = J))); pragma Annotate (GNATprove, Iterable_For_Proof, "Model", Elements); function Positions (Container : Set) return P.Map with -- The Positions map is used to model cursors. It only contains valid -- cursors and maps them to their position in the container. Ghost, Global => null, Post => not P.Has_Key (Positions'Result, No_Element) -- Positions of cursors are smaller than the container's length and then (for all I of Positions'Result => P.Get (Positions'Result, I) in 1 .. Length (Container) -- No two cursors have the same position. Note that we do not -- state that there is a cursor in the map for each position, as -- it is rarely needed. and then (for all J of Positions'Result => (if P.Get (Positions'Result, I) = P.Get (Positions'Result, J) then I = J))); procedure Lift_Abstraction_Level (Container : Set) with -- Lift_Abstraction_Level is a ghost procedure that does nothing but -- assume that we can access the same elements by iterating over -- positions or cursors. -- This information is not generally useful except when switching from -- a low-level, cursor-aware view of a container, to a high-level, -- position-based view. Ghost, Global => null, Post => (for all Item of Elements (Container) => (for some I of Positions (Container) => E.Get (Elements (Container), P.Get (Positions (Container), I)) = Item)); function Contains (C : M.Set; K : Element_Type) return Boolean renames M.Contains; -- To improve readability of contracts, we rename the function used to -- search for an element in the model to Contains. end Formal_Model; use Formal_Model; Empty_Set : constant Set; function "=" (Left, Right : Set) return Boolean with Global => null, Post => "="'Result = (Length (Left) = Length (Right) and E_Elements_Included (Elements (Left), Elements (Right))) and "="'Result = (E_Elements_Included (Elements (Left), Elements (Right)) and E_Elements_Included (Elements (Right), Elements (Left))); function Equivalent_Sets (Left, Right : Set) return Boolean with Global => null, Post => Equivalent_Sets'Result = (Model (Left) = Model (Right)); function To_Set (New_Item : Element_Type) return Set with Global => null, Post => M.Is_Singleton (Model (To_Set'Result), New_Item) and Length (To_Set'Result) = 1 and E.Get (Elements (To_Set'Result), 1) = New_Item; function Capacity (Container : Set) return Count_Type with Global => null, Post => Capacity'Result = Container.Capacity; procedure Reserve_Capacity (Container : in out Set; Capacity : Count_Type) with Global => null, Pre => Capacity <= Container.Capacity, Post => Model (Container) = Model (Container)'Old and Length (Container)'Old = Length (Container) -- Actual elements are preserved and E_Elements_Included (Elements (Container), Elements (Container)'Old) and E_Elements_Included (Elements (Container)'Old, Elements (Container)); function Is_Empty (Container : Set) return Boolean with Global => null, Post => Is_Empty'Result = (Length (Container) = 0); procedure Clear (Container : in out Set) with Global => null, Post => Length (Container) = 0 and M.Is_Empty (Model (Container)); procedure Assign (Target : in out Set; Source : Set) with Global => null, Pre => Target.Capacity >= Length (Source), Post => Model (Target) = Model (Source) and Length (Target) = Length (Source) -- Actual elements are preserved and E_Elements_Included (Elements (Target), Elements (Source)) and E_Elements_Included (Elements (Source), Elements (Target)); function Copy (Source : Set; Capacity : Count_Type := 0) return Set with Global => null, Pre => Capacity = 0 or else Capacity >= Source.Capacity, Post => Model (Copy'Result) = Model (Source) and Elements (Copy'Result) = Elements (Source) and Positions (Copy'Result) = Positions (Source) and (if Capacity = 0 then Copy'Result.Capacity = Source.Capacity else Copy'Result.Capacity = Capacity); function Element (Container : Set; Position : Cursor) return Element_Type with Global => null, Pre => Has_Element (Container, Position), Post => Element'Result = E.Get (Elements (Container), P.Get (Positions (Container), Position)); pragma Annotate (GNATprove, Inline_For_Proof, Element); procedure Replace_Element (Container : in out Set; Position : Cursor; New_Item : Element_Type) with Global => null, Pre => Has_Element (Container, Position), Post => Length (Container) = Length (Container)'Old -- Position now maps to New_Item and Element (Container, Position) = New_Item -- New_Item is contained in Container and Contains (Model (Container), New_Item) -- Other elements are preserved and M.Included_Except (Model (Container)'Old, Model (Container), Element (Container, Position)'Old) and M.Included_Except (Model (Container), Model (Container)'Old, New_Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved_Except (E_Left => Elements (Container)'Old, E_Right => Elements (Container), P_Left => Positions (Container)'Old, P_Right => Positions (Container), Position => Position) and Positions (Container) = Positions (Container)'Old; procedure Move (Target : in out Set; Source : in out Set) with Global => null, Pre => Target.Capacity >= Length (Source), Post => Length (Source) = 0 and Model (Target) = Model (Source)'Old and Length (Target) = Length (Source)'Old -- Actual elements are preserved and E_Elements_Included (Elements (Target), Elements (Source)'Old) and E_Elements_Included (Elements (Source)'Old, Elements (Target)); procedure Insert (Container : in out Set; New_Item : Element_Type; Position : out Cursor; Inserted : out Boolean) with Global => null, Pre => Length (Container) < Container.Capacity or Contains (Container, New_Item), Post => Contains (Container, New_Item) and Has_Element (Container, Position) and Equivalent_Elements (Element (Container, Position), New_Item), Contract_Cases => -- If New_Item is already in Container, it is not modified and Inserted -- is set to False. (Contains (Container, New_Item) => not Inserted and Model (Container) = Model (Container)'Old and Elements (Container) = Elements (Container)'Old and Positions (Container) = Positions (Container)'Old, -- Otherwise, New_Item is inserted in Container and Inserted is set to -- True. others => Inserted and Length (Container) = Length (Container)'Old + 1 -- Position now maps to New_Item and Element (Container, Position) = New_Item -- Other elements are preserved and Model (Container)'Old <= Model (Container) and M.Included_Except (Model (Container), Model (Container)'Old, New_Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container)'Old, E_Right => Elements (Container), P_Left => Positions (Container)'Old, P_Right => Positions (Container)) and P.Keys_Included_Except (Positions (Container), Positions (Container)'Old, Position)); procedure Insert (Container : in out Set; New_Item : Element_Type) with Global => null, Pre => Length (Container) < Container.Capacity and then (not Contains (Container, New_Item)), Post => Length (Container) = Length (Container)'Old + 1 and Contains (Container, New_Item) and Element (Container, Find (Container, New_Item)) = New_Item -- Other elements are preserved and Model (Container)'Old <= Model (Container) and M.Included_Except (Model (Container), Model (Container)'Old, New_Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container)'Old, E_Right => Elements (Container), P_Left => Positions (Container)'Old, P_Right => Positions (Container)) and P.Keys_Included_Except (Positions (Container), Positions (Container)'Old, Find (Container, New_Item)); procedure Include (Container : in out Set; New_Item : Element_Type) with Global => null, Pre => Length (Container) < Container.Capacity or Contains (Container, New_Item), Post => Contains (Container, New_Item) and Element (Container, Find (Container, New_Item)) = New_Item, Contract_Cases => -- If an element equivalent to New_Item is already in Container, it is -- replaced by New_Item. (Contains (Container, New_Item) => -- Elements are preserved modulo equivalence Model (Container) = Model (Container)'Old -- Cursors are preserved and Positions (Container) = Positions (Container)'Old -- The actual value of other elements is preserved and E.Equal_Except (Elements (Container)'Old, Elements (Container), P.Get (Positions (Container), Find (Container, New_Item))), -- Otherwise, New_Item is inserted in Container others => Length (Container) = Length (Container)'Old + 1 -- Other elements are preserved and Model (Container)'Old <= Model (Container) and M.Included_Except (Model (Container), Model (Container)'Old, New_Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container)'Old, E_Right => Elements (Container), P_Left => Positions (Container)'Old, P_Right => Positions (Container)) and P.Keys_Included_Except (Positions (Container), Positions (Container)'Old, Find (Container, New_Item))); procedure Replace (Container : in out Set; New_Item : Element_Type) with Global => null, Pre => Contains (Container, New_Item), Post => -- Elements are preserved modulo equivalence Model (Container) = Model (Container)'Old and Contains (Container, New_Item) -- Cursors are preserved and Positions (Container) = Positions (Container)'Old -- The element equivalent to New_Item in Container is replaced by -- New_Item. and Element (Container, Find (Container, New_Item)) = New_Item and E.Equal_Except (Elements (Container)'Old, Elements (Container), P.Get (Positions (Container), Find (Container, New_Item))); procedure Exclude (Container : in out Set; Item : Element_Type) with Global => null, Post => not Contains (Container, Item), Contract_Cases => -- If Item is not in Container, nothing is changed (not Contains (Container, Item) => Model (Container) = Model (Container)'Old and Elements (Container) = Elements (Container)'Old and Positions (Container) = Positions (Container)'Old, -- Otherwise, Item is removed from Container others => Length (Container) = Length (Container)'Old - 1 -- Other elements are preserved and Model (Container) <= Model (Container)'Old and M.Included_Except (Model (Container)'Old, Model (Container), Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container), E_Right => Elements (Container)'Old, P_Left => Positions (Container), P_Right => Positions (Container)'Old) and P.Keys_Included_Except (Positions (Container)'Old, Positions (Container), Find (Container, Item)'Old)); procedure Delete (Container : in out Set; Item : Element_Type) with Global => null, Pre => Contains (Container, Item), Post => Length (Container) = Length (Container)'Old - 1 -- Item is no longer in Container and not Contains (Container, Item) -- Other elements are preserved and Model (Container) <= Model (Container)'Old and M.Included_Except (Model (Container)'Old, Model (Container), Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container), E_Right => Elements (Container)'Old, P_Left => Positions (Container), P_Right => Positions (Container)'Old) and P.Keys_Included_Except (Positions (Container)'Old, Positions (Container), Find (Container, Item)'Old); procedure Delete (Container : in out Set; Position : in out Cursor) with Global => null, Pre => Has_Element (Container, Position), Post => Position = No_Element and Length (Container) = Length (Container)'Old - 1 -- The element at position Position is no longer in Container and not Contains (Container, Element (Container, Position)'Old) and not P.Has_Key (Positions (Container), Position'Old) -- Other elements are preserved and Model (Container) <= Model (Container)'Old and M.Included_Except (Model (Container)'Old, Model (Container), Element (Container, Position)'Old) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container), E_Right => Elements (Container)'Old, P_Left => Positions (Container), P_Right => Positions (Container)'Old) and P.Keys_Included_Except (Positions (Container)'Old, Positions (Container), Position'Old); procedure Union (Target : in out Set; Source : Set) with Global => null, Pre => Length (Source) - Length (Target and Source) <= Target.Capacity - Length (Target), Post => Length (Target) = Length (Target)'Old - M.Num_Overlaps (Model (Target)'Old, Model (Source)) + Length (Source) -- Elements already in Target are still in Target and Model (Target)'Old <= Model (Target) -- Elements of Source are included in Target and Model (Source) <= Model (Target) -- Elements of Target come from either Source or Target and M.Included_In_Union (Model (Target), Model (Source), Model (Target)'Old) -- Actual value of elements come from either Left or Right and E_Elements_Included (Elements (Target), Model (Target)'Old, Elements (Target)'Old, Elements (Source)) and E_Elements_Included (Elements (Target)'Old, Model (Target)'Old, Elements (Target)) and E_Elements_Included (Elements (Source), Model (Target)'Old, Elements (Source), Elements (Target)) -- Mapping from cursors of Target to elements is preserved and Mapping_Preserved (E_Left => Elements (Target)'Old, E_Right => Elements (Target), P_Left => Positions (Target)'Old, P_Right => Positions (Target)); function Union (Left, Right : Set) return Set with Global => null, Pre => Length (Left) <= Count_Type'Last - Length (Right), Post => Length (Union'Result) = Length (Left) - M.Num_Overlaps (Model (Left), Model (Right)) + Length (Right) -- Elements of Left and Right are in the result of Union and Model (Left) <= Model (Union'Result) and Model (Right) <= Model (Union'Result) -- Elements of the result of union come from either Left or Right and M.Included_In_Union (Model (Union'Result), Model (Left), Model (Right)) -- Actual value of elements come from either Left or Right and E_Elements_Included (Elements (Union'Result), Model (Left), Elements (Left), Elements (Right)) and E_Elements_Included (Elements (Left), Model (Left), Elements (Union'Result)) and E_Elements_Included (Elements (Right), Model (Left), Elements (Right), Elements (Union'Result)); function "or" (Left, Right : Set) return Set renames Union; procedure Intersection (Target : in out Set; Source : Set) with Global => null, Post => Length (Target) = M.Num_Overlaps (Model (Target)'Old, Model (Source)) -- Elements of Target were already in Target and Model (Target) <= Model (Target)'Old -- Elements of Target are in Source and Model (Target) <= Model (Source) -- Elements both in Source and Target are in the intersection and M.Includes_Intersection (Model (Target), Model (Source), Model (Target)'Old) -- Actual value of elements of Target is preserved and E_Elements_Included (Elements (Target), Elements (Target)'Old) and E_Elements_Included (Elements (Target)'Old, Model (Source), Elements (Target)) -- Mapping from cursors of Target to elements is preserved and Mapping_Preserved (E_Left => Elements (Target), E_Right => Elements (Target)'Old, P_Left => Positions (Target), P_Right => Positions (Target)'Old); function Intersection (Left, Right : Set) return Set with Global => null, Post => Length (Intersection'Result) = M.Num_Overlaps (Model (Left), Model (Right)) -- Elements in the result of Intersection are in Left and Right and Model (Intersection'Result) <= Model (Left) and Model (Intersection'Result) <= Model (Right) -- Elements both in Left and Right are in the result of Intersection and M.Includes_Intersection (Model (Intersection'Result), Model (Left), Model (Right)) -- Actual value of elements come from Left and E_Elements_Included (Elements (Intersection'Result), Elements (Left)) and E_Elements_Included (Elements (Left), Model (Right), Elements (Intersection'Result)); function "and" (Left, Right : Set) return Set renames Intersection; procedure Difference (Target : in out Set; Source : Set) with Global => null, Post => Length (Target) = Length (Target)'Old - M.Num_Overlaps (Model (Target)'Old, Model (Source)) -- Elements of Target were already in Target and Model (Target) <= Model (Target)'Old -- Elements of Target are not in Source and M.No_Overlap (Model (Target), Model (Source)) -- Elements in Target but not in Source are in the difference and M.Included_In_Union (Model (Target)'Old, Model (Target), Model (Source)) -- Actual value of elements of Target is preserved and E_Elements_Included (Elements (Target), Elements (Target)'Old) and E_Elements_Included (Elements (Target)'Old, Model (Target), Elements (Target)) -- Mapping from cursors of Target to elements is preserved and Mapping_Preserved (E_Left => Elements (Target), E_Right => Elements (Target)'Old, P_Left => Positions (Target), P_Right => Positions (Target)'Old); function Difference (Left, Right : Set) return Set with Global => null, Post => Length (Difference'Result) = Length (Left) - M.Num_Overlaps (Model (Left), Model (Right)) -- Elements of the result of Difference are in Left and Model (Difference'Result) <= Model (Left) -- Elements of the result of Difference are in Right and M.No_Overlap (Model (Difference'Result), Model (Right)) -- Elements in Left but not in Right are in the difference and M.Included_In_Union (Model (Left), Model (Difference'Result), Model (Right)) -- Actual value of elements come from Left and E_Elements_Included (Elements (Difference'Result), Elements (Left)) and E_Elements_Included (Elements (Left), Model (Difference'Result), Elements (Difference'Result)); function "-" (Left, Right : Set) return Set renames Difference; procedure Symmetric_Difference (Target : in out Set; Source : Set) with Global => null, Pre => Length (Source) - Length (Target and Source) <= Target.Capacity - Length (Target) + Length (Target and Source), Post => Length (Target) = Length (Target)'Old - 2 * M.Num_Overlaps (Model (Target)'Old, Model (Source)) + Length (Source) -- Elements of the difference were not both in Source and in Target and M.Not_In_Both (Model (Target), Model (Target)'Old, Model (Source)) -- Elements in Target but not in Source are in the difference and M.Included_In_Union (Model (Target)'Old, Model (Target), Model (Source)) -- Elements in Source but not in Target are in the difference and M.Included_In_Union (Model (Source), Model (Target), Model (Target)'Old) -- Actual value of elements come from either Left or Right and E_Elements_Included (Elements (Target), Model (Target)'Old, Elements (Target)'Old, Elements (Source)) and E_Elements_Included (Elements (Target)'Old, Model (Target), Elements (Target)) and E_Elements_Included (Elements (Source), Model (Target), Elements (Target)); function Symmetric_Difference (Left, Right : Set) return Set with Global => null, Pre => Length (Left) <= Count_Type'Last - Length (Right), Post => Length (Symmetric_Difference'Result) = Length (Left) - 2 * M.Num_Overlaps (Model (Left), Model (Right)) + Length (Right) -- Elements of the difference were not both in Left and Right and M.Not_In_Both (Model (Symmetric_Difference'Result), Model (Left), Model (Right)) -- Elements in Left but not in Right are in the difference and M.Included_In_Union (Model (Left), Model (Symmetric_Difference'Result), Model (Right)) -- Elements in Right but not in Left are in the difference and M.Included_In_Union (Model (Right), Model (Symmetric_Difference'Result), Model (Left)) -- Actual value of elements come from either Left or Right and E_Elements_Included (Elements (Symmetric_Difference'Result), Model (Left), Elements (Left), Elements (Right)) and E_Elements_Included (Elements (Left), Model (Symmetric_Difference'Result), Elements (Symmetric_Difference'Result)) and E_Elements_Included (Elements (Right), Model (Symmetric_Difference'Result), Elements (Symmetric_Difference'Result)); function "xor" (Left, Right : Set) return Set renames Symmetric_Difference; function Overlap (Left, Right : Set) return Boolean with Global => null, Post => Overlap'Result = not (M.No_Overlap (Model (Left), Model (Right))); function Is_Subset (Subset : Set; Of_Set : Set) return Boolean with Global => null, Post => Is_Subset'Result = (Model (Subset) <= Model (Of_Set)); function First (Container : Set) return Cursor with Global => null, Contract_Cases => (Length (Container) = 0 => First'Result = No_Element, others => Has_Element (Container, First'Result) and P.Get (Positions (Container), First'Result) = 1); function Next (Container : Set; Position : Cursor) return Cursor with Global => null, Pre => Has_Element (Container, Position) or else Position = No_Element, Contract_Cases => (Position = No_Element or else P.Get (Positions (Container), Position) = Length (Container) => Next'Result = No_Element, others => Has_Element (Container, Next'Result) and then P.Get (Positions (Container), Next'Result) = P.Get (Positions (Container), Position) + 1); procedure Next (Container : Set; Position : in out Cursor) with Global => null, Pre => Has_Element (Container, Position) or else Position = No_Element, Contract_Cases => (Position = No_Element or else P.Get (Positions (Container), Position) = Length (Container) => Position = No_Element, others => Has_Element (Container, Position) and then P.Get (Positions (Container), Position) = P.Get (Positions (Container), Position'Old) + 1); function Find (Container : Set; Item : Element_Type) return Cursor with Global => null, Contract_Cases => -- If Item is not contained in Container, Find returns No_Element (not Contains (Model (Container), Item) => Find'Result = No_Element, -- Otherwise, Find returns a valid cursor in Container others => P.Has_Key (Positions (Container), Find'Result) and P.Get (Positions (Container), Find'Result) = Find (Elements (Container), Item) -- The element designated by the result of Find is Item and Equivalent_Elements (Element (Container, Find'Result), Item)); function Contains (Container : Set; Item : Element_Type) return Boolean with Global => null, Post => Contains'Result = Contains (Model (Container), Item); pragma Annotate (GNATprove, Inline_For_Proof, Contains); function Has_Element (Container : Set; Position : Cursor) return Boolean with Global => null, Post => Has_Element'Result = P.Has_Key (Positions (Container), Position); pragma Annotate (GNATprove, Inline_For_Proof, Has_Element); function Default_Modulus (Capacity : Count_Type) return Hash_Type with Global => null; generic type Key_Type (<>) is private; with function Key (Element : Element_Type) return Key_Type; with function Hash (Key : Key_Type) return Hash_Type; with function Equivalent_Keys (Left, Right : Key_Type) return Boolean; package Generic_Keys with SPARK_Mode is package Formal_Model with Ghost is function M_Included_Except (Left : M.Set; Right : M.Set; Key : Key_Type) return Boolean with Global => null, Post => M_Included_Except'Result = (for all E of Left => Contains (Right, E) or Equivalent_Keys (Generic_Keys.Key (E), Key)); end Formal_Model; use Formal_Model; function Key (Container : Set; Position : Cursor) return Key_Type with Global => null, Post => Key'Result = Key (Element (Container, Position)); pragma Annotate (GNATprove, Inline_For_Proof, Key); function Element (Container : Set; Key : Key_Type) return Element_Type with Global => null, Pre => Contains (Container, Key), Post => Element'Result = Element (Container, Find (Container, Key)); pragma Annotate (GNATprove, Inline_For_Proof, Element); procedure Replace (Container : in out Set; Key : Key_Type; New_Item : Element_Type) with Global => null, Pre => Contains (Container, Key), Post => Length (Container) = Length (Container)'Old -- Key now maps to New_Item and Element (Container, Key) = New_Item -- New_Item is contained in Container and Contains (Model (Container), New_Item) -- Other elements are preserved and M_Included_Except (Model (Container)'Old, Model (Container), Key) and M.Included_Except (Model (Container), Model (Container)'Old, New_Item) -- Mapping from cursors to elements is preserved and Mapping_Preserved_Except (E_Left => Elements (Container)'Old, E_Right => Elements (Container), P_Left => Positions (Container)'Old, P_Right => Positions (Container), Position => Find (Container, Key)) and Positions (Container) = Positions (Container)'Old; procedure Exclude (Container : in out Set; Key : Key_Type) with Global => null, Post => not Contains (Container, Key), Contract_Cases => -- If Key is not in Container, nothing is changed (not Contains (Container, Key) => Model (Container) = Model (Container)'Old and Elements (Container) = Elements (Container)'Old and Positions (Container) = Positions (Container)'Old, -- Otherwise, Key is removed from Container others => Length (Container) = Length (Container)'Old - 1 -- Other elements are preserved and Model (Container) <= Model (Container)'Old and M_Included_Except (Model (Container)'Old, Model (Container), Key) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container), E_Right => Elements (Container)'Old, P_Left => Positions (Container), P_Right => Positions (Container)'Old) and P.Keys_Included_Except (Positions (Container)'Old, Positions (Container), Find (Container, Key)'Old)); procedure Delete (Container : in out Set; Key : Key_Type) with Global => null, Pre => Contains (Container, Key), Post => Length (Container) = Length (Container)'Old - 1 -- Key is no longer in Container and not Contains (Container, Key) -- Other elements are preserved and Model (Container) <= Model (Container)'Old and M_Included_Except (Model (Container)'Old, Model (Container), Key) -- Mapping from cursors to elements is preserved and Mapping_Preserved (E_Left => Elements (Container), E_Right => Elements (Container)'Old, P_Left => Positions (Container), P_Right => Positions (Container)'Old) and P.Keys_Included_Except (Positions (Container)'Old, Positions (Container), Find (Container, Key)'Old); function Find (Container : Set; Key : Key_Type) return Cursor with Global => null, Contract_Cases => -- If Key is not contained in Container, Find returns No_Element ((for all E of Model (Container) => not Equivalent_Keys (Key, Generic_Keys.Key (E))) => Find'Result = No_Element, -- Otherwise, Find returns a valid cursor in Container others => P.Has_Key (Positions (Container), Find'Result) -- The key designated by the result of Find is Key and Equivalent_Keys (Generic_Keys.Key (Container, Find'Result), Key)); function Contains (Container : Set; Key : Key_Type) return Boolean with Global => null, Post => Contains'Result = (for some E of Model (Container) => Equivalent_Keys (Key, Generic_Keys.Key (E))); end Generic_Keys; private pragma SPARK_Mode (Off); pragma Inline (Next); type Node_Type is record Element : Element_Type; Next : Count_Type; Has_Element : Boolean := False; end record; package HT_Types is new Ada.Containers.Hash_Tables.Generic_Bounded_Hash_Table_Types (Node_Type); type Set (Capacity : Count_Type; Modulus : Hash_Type) is new HT_Types.Hash_Table_Type (Capacity, Modulus) with null record; use HT_Types; Empty_Set : constant Set := (Capacity => 0, Modulus => 0, others => <>); end Ada.Containers.Formal_Hashed_Sets;