| ------------------------------------------------------------------------------ |
| -- -- |
| -- GNAT LIBRARY COMPONENTS -- |
| -- -- |
| -- A D A . C O N T A I N E R S . F O R M A L _ V E C T O R S -- |
| -- -- |
| -- S p e c -- |
| -- -- |
| -- Copyright (C) 2004-2015, 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 package Ada.Containers.Bounded_Vectors 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. |
| |
| generic |
| type Index_Type is range <>; |
| type Element_Type is private; |
| |
| with function "=" (Left, Right : Element_Type) return Boolean is <>; |
| |
| Bounded : Boolean := True; |
| -- If True, the containers are bounded; the initial capacity is the maximum |
| -- size, and heap allocation will be avoided. If False, the containers can |
| -- grow via heap allocation. |
| |
| package Ada.Containers.Formal_Vectors with |
| SPARK_Mode |
| is |
| pragma Annotate (GNATprove, External_Axiomatization); |
| |
| subtype Extended_Index is Index_Type'Base |
| range Index_Type'First - 1 .. |
| Index_Type'Min (Index_Type'Base'Last - 1, Index_Type'Last) + 1; |
| |
| No_Index : constant Extended_Index := Extended_Index'First; |
| |
| subtype Capacity_Range is |
| Count_Type range 0 .. Count_Type (Index_Type'Last - Index_Type'First + 1); |
| |
| type Vector (Capacity : Capacity_Range) is limited private with |
| Default_Initial_Condition => Is_Empty (Vector); |
| -- In the bounded case, Capacity is the capacity of the container, which |
| -- never changes. In the unbounded case, Capacity is the initial capacity |
| -- of the container, and operations such as Reserve_Capacity and Append can |
| -- increase the capacity. The capacity never shrinks, except in the case of |
| -- Clear. |
| -- |
| -- Note that all objects of type Vector are constrained, including in the |
| -- unbounded case; you can't assign from one object to another if the |
| -- Capacity is different. |
| |
| function Empty_Vector return Vector; |
| |
| function "=" (Left, Right : Vector) return Boolean with |
| Global => null; |
| |
| function To_Vector |
| (New_Item : Element_Type; |
| Length : Capacity_Range) return Vector |
| with |
| Global => null; |
| |
| function Capacity (Container : Vector) return Capacity_Range with |
| Global => null, |
| Post => Capacity'Result >= Container.Capacity; |
| |
| procedure Reserve_Capacity |
| (Container : in out Vector; |
| Capacity : Capacity_Range) |
| with |
| Global => null, |
| Pre => (if Bounded then Capacity <= Container.Capacity); |
| |
| function Length (Container : Vector) return Capacity_Range with |
| Global => null; |
| |
| function Is_Empty (Container : Vector) return Boolean with |
| Global => null; |
| |
| procedure Clear (Container : in out Vector) with |
| Global => null; |
| -- Note that this reclaims storage in the unbounded case. You need to call |
| -- this before a container goes out of scope in order to avoid storage |
| -- leaks. In addition, "X := ..." can leak unless you Clear(X) first. |
| |
| procedure Assign (Target : in out Vector; Source : Vector) with |
| Global => null, |
| Pre => (if Bounded then Length (Source) <= Target.Capacity); |
| |
| function Copy |
| (Source : Vector; |
| Capacity : Capacity_Range := 0) return Vector |
| with |
| Global => null, |
| Pre => (if Bounded then (Capacity = 0 or Length (Source) <= Capacity)); |
| |
| function Element |
| (Container : Vector; |
| Index : Index_Type) return Element_Type |
| with |
| Global => null, |
| Pre => Index in First_Index (Container) .. Last_Index (Container); |
| |
| procedure Replace_Element |
| (Container : in out Vector; |
| Index : Index_Type; |
| New_Item : Element_Type) |
| with |
| Global => null, |
| Pre => Index in First_Index (Container) .. Last_Index (Container); |
| |
| procedure Append |
| (Container : in out Vector; |
| New_Item : Vector) |
| with |
| Global => null, |
| Pre => (if Bounded then |
| Length (Container) + Length (New_Item) <= Container.Capacity); |
| |
| procedure Append |
| (Container : in out Vector; |
| New_Item : Element_Type) |
| with |
| Global => null, |
| Pre => (if Bounded then |
| Length (Container) < Container.Capacity); |
| |
| procedure Delete_Last |
| (Container : in out Vector) |
| with |
| Global => null; |
| |
| procedure Reverse_Elements (Container : in out Vector) with |
| Global => null; |
| |
| procedure Swap (Container : in out Vector; I, J : Index_Type) with |
| Global => null, |
| Pre => I in First_Index (Container) .. Last_Index (Container) |
| and then J in First_Index (Container) .. Last_Index (Container); |
| |
| function First_Index (Container : Vector) return Index_Type with |
| Global => null; |
| |
| function First_Element (Container : Vector) return Element_Type with |
| Global => null, |
| Pre => not Is_Empty (Container); |
| |
| function Last_Index (Container : Vector) return Extended_Index with |
| Global => null; |
| |
| function Last_Element (Container : Vector) return Element_Type with |
| Global => null, |
| Pre => not Is_Empty (Container); |
| |
| function Find_Index |
| (Container : Vector; |
| Item : Element_Type; |
| Index : Index_Type := Index_Type'First) return Extended_Index |
| with |
| Global => null; |
| |
| function Reverse_Find_Index |
| (Container : Vector; |
| Item : Element_Type; |
| Index : Index_Type := Index_Type'Last) return Extended_Index |
| with |
| Global => null; |
| |
| function Contains |
| (Container : Vector; |
| Item : Element_Type) return Boolean |
| with |
| Global => null; |
| |
| function Has_Element |
| (Container : Vector; |
| Position : Extended_Index) return Boolean |
| with |
| Global => null; |
| |
| generic |
| with function "<" (Left, Right : Element_Type) return Boolean is <>; |
| package Generic_Sorting is |
| |
| function Is_Sorted (Container : Vector) return Boolean with |
| Global => null; |
| |
| procedure Sort (Container : in out Vector) with |
| Global => null; |
| |
| end Generic_Sorting; |
| |
| function First_To_Previous |
| (Container : Vector; |
| Current : Index_Type) return Vector |
| with |
| Ghost, |
| Global => null, |
| Pre => Current in First_Index (Container) .. Last_Index (Container); |
| |
| function Current_To_Last |
| (Container : Vector; |
| Current : Index_Type) return Vector |
| with |
| Ghost, |
| Global => null, |
| Pre => Current in First_Index (Container) .. Last_Index (Container); |
| -- 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 |
| pragma SPARK_Mode (Off); |
| |
| pragma Inline (First_Index); |
| pragma Inline (Last_Index); |
| pragma Inline (Element); |
| pragma Inline (First_Element); |
| pragma Inline (Last_Element); |
| pragma Inline (Replace_Element); |
| pragma Inline (Contains); |
| |
| subtype Array_Index is Capacity_Range range 1 .. Capacity_Range'Last; |
| type Elements_Array is array (Array_Index range <>) of Element_Type; |
| function "=" (L, R : Elements_Array) return Boolean is abstract; |
| |
| type Elements_Array_Ptr is access all Elements_Array; |
| |
| type Vector (Capacity : Capacity_Range) is limited record |
| -- In the bounded case, the elements are stored in Elements. In the |
| -- unbounded case, the elements are initially stored in Elements, until |
| -- we run out of room, then we switch to Elements_Ptr. |
| Last : Extended_Index := No_Index; |
| Elements_Ptr : Elements_Array_Ptr := null; |
| Elements : aliased Elements_Array (1 .. Capacity); |
| end record; |
| |
| -- The primary reason Vector is limited is that in the unbounded case, once |
| -- Elements_Ptr is in use, assignment statements won't work. "X := Y;" will |
| -- cause X and Y to share state; that is, X.Elements_Ptr = Y.Elements_Ptr, |
| -- so for example "Append (X, ...);" will modify BOTH X and Y. That would |
| -- allow SPARK to "prove" things that are false. We could fix that by |
| -- making Vector a controlled type, and override Adjust to make a deep |
| -- copy, but finalization is not allowed in SPARK. |
| -- |
| -- Note that (unfortunately) this means that 'Old and 'Loop_Entry are not |
| -- allowed on Vectors. |
| |
| function Empty_Vector return Vector is |
| ((Capacity => 0, others => <>)); |
| |
| end Ada.Containers.Formal_Vectors; |