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A.18.6 The Package Containers.Ordered_Maps

Static Semantics

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The generic library package Containers.Ordered_Maps has the following declaration:

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     generic
        type Key_Type is private;
        type Element_Type is private;
        with function "<" (Left, Right Key_Type) return Boolean is <>;
        with function "=" (Left, Right Element_Type) return Boolean is <>;
     package Ada.Containers.Ordered_Maps is   pragma Preelaborate(Ordered_Maps);

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        function Equivalent_Keys (Left, Right Key_Type) return Boolean;

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        type Map is tagged private;
        pragma Preelaborable_Initialization(Map);

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        type Cursor is private;
        pragma Preelaborable_Initialization(Cursor);

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        Empty_Map constant Map;

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        No_Element constant Cursor;

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        function "=" (Left, Right Map) return Boolean;

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        function Length (Container Map) return Count_Type;

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        function Is_Empty (Container Map) return Boolean;

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        procedure Clear (Container in out Map);

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        function Key (Position Cursor) return Key_Type;

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        function Element (Position Cursor) return Element_Type;

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        procedure Replace_Element (Container in out Map;
                                   Position  in     Cursor;
                                   New_Item  in     Element_Type);

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        procedure Query_Element
          (Position in Cursor;
           Process  not null access procedure (Key     in Key_Type;
                                                 Element in Element_Type));

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        procedure Update_Element
          (Container in out Map;
           Position  in     Cursor;
           Process   not null access procedure
                           (Key     in     Key_Type;
                            Element in out Element_Type));

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        procedure Move (Target in out Map;
                        Source in out Map);

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        procedure Insert (Container in out Map;
                          Key       in     Key_Type;
                          New_Item  in     Element_Type;
                          Position     out Cursor;
                          Inserted     out Boolean);

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        procedure Insert (Container in out Map;
                          Key       in     Key_Type;
                          Position     out Cursor;
                          Inserted     out Boolean);

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        procedure Insert (Container in out Map;
                          Key       in     Key_Type;
                          New_Item  in     Element_Type);

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        procedure Include (Container in out Map;
                           Key       in     Key_Type;
                           New_Item  in     Element_Type);

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        procedure Replace (Container in out Map;
                           Key       in     Key_Type;
                           New_Item  in     Element_Type);

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        procedure Exclude (Container in out Map;
                           Key       in     Key_Type);

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        procedure Delete (Container in out Map;
                          Key       in     Key_Type);

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        procedure Delete (Container in out Map;
                          Position  in out Cursor);

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        procedure Delete_First (Container in out Map);

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        procedure Delete_Last (Container in out Map);

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        function First (Container Map) return Cursor;

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        function First_Element (Container Map) return Element_Type;

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        function First_Key (Container Map) return Key_Type;

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        function Last (Container Map) return Cursor;

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        function Last_Element (Container Map) return Element_Type;

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        function Last_Key (Container Map) return Key_Type;

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        function Next (Position Cursor) return Cursor;

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        procedure Next (Position in out Cursor);

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        function Previous (Position Cursor) return Cursor;

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        procedure Previous (Position in out Cursor);

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        function Find (Container Map;
                       Key       Key_Type) return Cursor;

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        function Element (Container Map;
                          Key       Key_Type) return Element_Type;

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        function Floor (Container Map;
                        Key       Key_Type) return Cursor;

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        function Ceiling (Container Map;
                          Key       Key_Type) return Cursor;

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        function Contains (Container Map;
                           Key       Key_Type) return Boolean;

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        function Has_Element (Position Cursor) return Boolean;

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        function "<" (Left, Right Cursor) return Boolean;

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        function ">" (Left, Right Cursor) return Boolean;

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        function "<" (Left Cursor; Right Key_Type) return Boolean;

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        function ">" (Left Cursor; Right Key_Type) return Boolean;

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        function "<" (Left Key_Type; Right Cursor) return Boolean;

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        function ">" (Left Key_Type; Right Cursor) return Boolean;

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        procedure Iterate
          (Container in Map;
           Process   not null access procedure (Position in Cursor));

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        procedure Reverse_Iterate
          (Container in Map;
           Process   not null access procedure (Position in Cursor));

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     private

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        ... −− not specified by the language

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     end Ada.Containers.Ordered_Maps;

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Two keys K1 and K2 are equivalent if both K1 < K2 and K2 < K1 return False, using the generic formal "<" operator for keys. Function Equivalent_Keys returns True if Left and Right are equivalent, and False otherwise.

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The actual function for the generic formal function "<" on Key_Type values is expected to return the same value each time it is called with a particular pair of key values. It should define a strict ordering relationship, that is, be irreflexive, asymmetric, and transitive. If the actual for "<" behaves in some other manner, the behavior of this package is unspecified. Which subprograms of this package call "<" and how many times they call it, is unspecified.57/2
If the value of a key stored in a map is changed other than by an operation in this package such that at least one of "<" or "=" give different results, the behavior of this package is unspecified.58/2
The first node of a nonempty map is the one whose key is less than the key of all the other nodes in the map. The last node of a nonempty map is the one whose key is greater than the key of all the other elements in the map. The successor of a node is the node with the smallest key that is larger than the key of the given node. The predecessor of a node is the node with the largest key that is smaller than the key of the given node. All comparisons are done using the generic formal "<" operator for keys.

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     procedure Delete_First (Container in out Map);

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If Container is empty, Delete_First has no effect. Otherwise the node designated by First (Container) is removed from Container. Delete_First tampers with the cursors of Container.

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     procedure Delete_Last (Container in out Map);

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If Container is empty, Delete_Last has no effect. Otherwise the node designated by Last (Container) is removed from Container. Delete_Last tampers with the cursors of Container.

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     function First_Element (Container Map) return Element_Type;

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Equivalent to Element (First (Container)).

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     function First_Key (Container Map) return Key_Type;

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Equivalent to Key (First (Container)).

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     function Last (Container Map) return Cursor;

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Returns a cursor that designates the last node in Container. If Container is empty, returns No_Element.

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     function Last_Element (Container Map) return Element_Type;

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Equivalent to Element (Last (Container)).

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     function Last_Key (Container Map) return Key_Type;

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Equivalent to Key (Last (Container)).

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     function Previous (Position Cursor) return Cursor;

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If Position equals No_Element, then Previous returns No_Element. Otherwise Previous returns a cursor designating the node that precedes the one designated by Position. If Position designates the first element, then Previous returns No_Element.

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     procedure Previous (Position in out Cursor);

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Equivalent to Position := Previous (Position).

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     function Floor (Container Map;
                     Key       Key_Type) return Cursor;

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Floor searches for the last node whose key is not greater than Key, using the generic formal "<" operator for keys. If such a node is found, a cursor that designates it is returned. Otherwise No_Element is returned.

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     function Ceiling (Container Map;
                       Key       Key_Type) return Cursor;

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Ceiling searches for the first node whose key is not less than Key, using the generic formal "<" operator for keys. If such a node is found, a cursor that designates it is returned. Otherwise No_Element is returned.

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     function "<" (Left, Right Cursor) return Boolean;

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Equivalent to Key (Left) < Key (Right).

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     function ">" (Left, Right Cursor) return Boolean;

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Equivalent to Key (Right) < Key (Left).

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     function "<" (Left Cursor; Right Key_Type) return Boolean;

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Equivalent to Key (Left) < Right.

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     function ">" (Left Cursor; Right Key_Type) return Boolean;

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Equivalent to Right < Key (Left).

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     function "<" (Left Key_Type; Right Cursor) return Boolean;

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Equivalent to Left < Key (Right).

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     function ">" (Left Key_Type; Right Cursor) return Boolean;

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Equivalent to Key (Right) < Left.

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     procedure Reverse_Iterate
       (Container in Map;
        Process   not null access procedure (Position in Cursor));

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Iterates over the nodes in Container as per Iterate, with the difference that the nodes are traversed in predecessor order, starting with the last node.
Implementation Advice

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If N is the length of a map, then the worst−case time complexity of the Element, Insert, Include, Replace, Delete, Exclude and Find operations that take a key parameter should be O((log N)**2) or better. The worst−case time complexity of the subprograms that take a cursor parameter should be O(1).