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------------------------------------------------------------------------------ -- -- -- GNAT LIBRARY COMPONENTS -- -- -- -- A D A . C O N T A I N E R S . H A S H E D _ M A P S -- -- -- -- B o d y -- -- -- -- Copyright (C) 2004-2009, Free Software Foundation, Inc. -- -- -- -- 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 unit was originally developed by Matthew J Heaney. -- ------------------------------------------------------------------------------ with Ada.Unchecked_Deallocation; with Ada.Containers.Hash_Tables.Generic_Operations; pragma Elaborate_All (Ada.Containers.Hash_Tables.Generic_Operations); with Ada.Containers.Hash_Tables.Generic_Keys; pragma Elaborate_All (Ada.Containers.Hash_Tables.Generic_Keys); package body Ada.Containers.Hashed_Maps is ----------------------- -- Local Subprograms -- ----------------------- function Copy_Node (Source : Node_Access) return Node_Access; pragma Inline (Copy_Node); function Equivalent_Key_Node (Key : Key_Type; Node : Node_Access) return Boolean; pragma Inline (Equivalent_Key_Node); procedure Free (X : in out Node_Access); function Find_Equal_Key (R_HT : Hash_Table_Type; L_Node : Node_Access) return Boolean; function Hash_Node (Node : Node_Access) return Hash_Type; pragma Inline (Hash_Node); function Next (Node : Node_Access) return Node_Access; pragma Inline (Next); function Read_Node (Stream : not null access Root_Stream_Type'Class) return Node_Access; pragma Inline (Read_Node); procedure Set_Next (Node : Node_Access; Next : Node_Access); pragma Inline (Set_Next); function Vet (Position : Cursor) return Boolean; procedure Write_Node (Stream : not null access Root_Stream_Type'Class; Node : Node_Access); pragma Inline (Write_Node); -------------------------- -- Local Instantiations -- -------------------------- package HT_Ops is new Hash_Tables.Generic_Operations (HT_Types => HT_Types, Hash_Node => Hash_Node, Next => Next, Set_Next => Set_Next, Copy_Node => Copy_Node, Free => Free); package Key_Ops is new Hash_Tables.Generic_Keys (HT_Types => HT_Types, Next => Next, Set_Next => Set_Next, Key_Type => Key_Type, Hash => Hash, Equivalent_Keys => Equivalent_Key_Node); function Is_Equal is new HT_Ops.Generic_Equal (Find_Equal_Key); procedure Read_Nodes is new HT_Ops.Generic_Read (Read_Node); procedure Write_Nodes is new HT_Ops.Generic_Write (Write_Node); --------- -- "=" -- --------- function "=" (Left, Right : Map) return Boolean is begin return Is_Equal (Left.HT, Right.HT); end "="; ------------ -- Adjust -- ------------ procedure Adjust (Container : in out Map) is begin HT_Ops.Adjust (Container.HT); end Adjust; -------------- -- Capacity -- -------------- function Capacity (Container : Map) return Count_Type is begin return HT_Ops.Capacity (Container.HT); end Capacity; ----------- -- Clear -- ----------- procedure Clear (Container : in out Map) is begin HT_Ops.Clear (Container.HT); end Clear; -------------- -- Contains -- -------------- function Contains (Container : Map; Key : Key_Type) return Boolean is begin return Find (Container, Key) /= No_Element; end Contains; --------------- -- Copy_Node -- --------------- function Copy_Node (Source : Node_Access) return Node_Access is Target : constant Node_Access := new Node_Type'(Key => Source.Key, Element => Source.Element, Next => null); begin return Target; end Copy_Node; ------------ -- Delete -- ------------ procedure Delete (Container : in out Map; Key : Key_Type) is X : Node_Access; begin Key_Ops.Delete_Key_Sans_Free (Container.HT, Key, X); if X = null then raise Constraint_Error with "attempt to delete key not in map"; end if; Free (X); end Delete; procedure Delete (Container : in out Map; Position : in out Cursor) is begin if Position.Node = null then raise Constraint_Error with "Position cursor of Delete equals No_Element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor of Delete designates wrong map"; end if; if Container.HT.Busy > 0 then raise Program_Error with "Delete attempted to tamper with elements (map is busy)"; end if; pragma Assert (Vet (Position), "bad cursor in Delete"); HT_Ops.Delete_Node_Sans_Free (Container.HT, Position.Node); Free (Position.Node); Position.Container := null; end Delete; ------------- -- Element -- ------------- function Element (Container : Map; Key : Key_Type) return Element_Type is Node : constant Node_Access := Key_Ops.Find (Container.HT, Key); begin if Node = null then raise Constraint_Error with "no element available because key not in map"; end if; return Node.Element; end Element; function Element (Position : Cursor) return Element_Type is begin if Position.Node = null then raise Constraint_Error with "Position cursor of function Element equals No_Element"; end if; pragma Assert (Vet (Position), "bad cursor in function Element"); return Position.Node.Element; end Element; ------------------------- -- Equivalent_Key_Node -- ------------------------- function Equivalent_Key_Node (Key : Key_Type; Node : Node_Access) return Boolean is begin return Equivalent_Keys (Key, Node.Key); end Equivalent_Key_Node; --------------------- -- Equivalent_Keys -- --------------------- function Equivalent_Keys (Left, Right : Cursor) return Boolean is begin if Left.Node = null then raise Constraint_Error with "Left cursor of Equivalent_Keys equals No_Element"; end if; if Right.Node = null then raise Constraint_Error with "Right cursor of Equivalent_Keys equals No_Element"; end if; pragma Assert (Vet (Left), "Left cursor of Equivalent_Keys is bad"); pragma Assert (Vet (Right), "Right cursor of Equivalent_Keys is bad"); return Equivalent_Keys (Left.Node.Key, Right.Node.Key); end Equivalent_Keys; function Equivalent_Keys (Left : Cursor; Right : Key_Type) return Boolean is begin if Left.Node = null then raise Constraint_Error with "Left cursor of Equivalent_Keys equals No_Element"; end if; pragma Assert (Vet (Left), "Left cursor in Equivalent_Keys is bad"); return Equivalent_Keys (Left.Node.Key, Right); end Equivalent_Keys; function Equivalent_Keys (Left : Key_Type; Right : Cursor) return Boolean is begin if Right.Node = null then raise Constraint_Error with "Right cursor of Equivalent_Keys equals No_Element"; end if; pragma Assert (Vet (Right), "Right cursor of Equivalent_Keys is bad"); return Equivalent_Keys (Left, Right.Node.Key); end Equivalent_Keys; ------------- -- Exclude -- ------------- procedure Exclude (Container : in out Map; Key : Key_Type) is X : Node_Access; begin Key_Ops.Delete_Key_Sans_Free (Container.HT, Key, X); Free (X); end Exclude; -------------- -- Finalize -- -------------- procedure Finalize (Container : in out Map) is begin HT_Ops.Finalize (Container.HT); end Finalize; ---------- -- Find -- ---------- function Find (Container : Map; Key : Key_Type) return Cursor is Node : constant Node_Access := Key_Ops.Find (Container.HT, Key); begin if Node = null then return No_Element; end if; return Cursor'(Container'Unchecked_Access, Node); end Find; -------------------- -- Find_Equal_Key -- -------------------- function Find_Equal_Key (R_HT : Hash_Table_Type; L_Node : Node_Access) return Boolean is R_Index : constant Hash_Type := Key_Ops.Index (R_HT, L_Node.Key); R_Node : Node_Access := R_HT.Buckets (R_Index); begin while R_Node /= null loop if Equivalent_Keys (L_Node.Key, R_Node.Key) then return L_Node.Element = R_Node.Element; end if; R_Node := R_Node.Next; end loop; return False; end Find_Equal_Key; ----------- -- First -- ----------- function First (Container : Map) return Cursor is Node : constant Node_Access := HT_Ops.First (Container.HT); begin if Node = null then return No_Element; end if; return Cursor'(Container'Unchecked_Access, Node); end First; ---------- -- Free -- ---------- procedure Free (X : in out Node_Access) is procedure Deallocate is new Ada.Unchecked_Deallocation (Node_Type, Node_Access); begin if X /= null then X.Next := X; -- detect mischief (in Vet) Deallocate (X); end if; end Free; ----------------- -- Has_Element -- ----------------- function Has_Element (Position : Cursor) return Boolean is begin pragma Assert (Vet (Position), "bad cursor in Has_Element"); return Position.Node /= null; end Has_Element; --------------- -- Hash_Node -- --------------- function Hash_Node (Node : Node_Access) return Hash_Type is begin return Hash (Node.Key); end Hash_Node; ------------- -- Include -- ------------- procedure Include (Container : in out Map; Key : Key_Type; New_Item : Element_Type) is Position : Cursor; Inserted : Boolean; begin Insert (Container, Key, New_Item, Position, Inserted); if not Inserted then if Container.HT.Lock > 0 then raise Program_Error with "Include attempted to tamper with cursors (map is locked)"; end if; Position.Node.Key := Key; Position.Node.Element := New_Item; end if; end Include; ------------ -- Insert -- ------------ procedure Insert (Container : in out Map; Key : Key_Type; Position : out Cursor; Inserted : out Boolean) is function New_Node (Next : Node_Access) return Node_Access; pragma Inline (New_Node); procedure Local_Insert is new Key_Ops.Generic_Conditional_Insert (New_Node); -------------- -- New_Node -- -------------- function New_Node (Next : Node_Access) return Node_Access is begin return new Node_Type'(Key => Key, Element => <>, Next => Next); end New_Node; HT : Hash_Table_Type renames Container.HT; -- Start of processing for Insert begin if HT_Ops.Capacity (HT) = 0 then HT_Ops.Reserve_Capacity (HT, 1); end if; Local_Insert (HT, Key, Position.Node, Inserted); if Inserted and then HT.Length > HT_Ops.Capacity (HT) then HT_Ops.Reserve_Capacity (HT, HT.Length); end if; Position.Container := Container'Unchecked_Access; end Insert; procedure Insert (Container : in out Map; Key : Key_Type; New_Item : Element_Type; Position : out Cursor; Inserted : out Boolean) is function New_Node (Next : Node_Access) return Node_Access; pragma Inline (New_Node); procedure Local_Insert is new Key_Ops.Generic_Conditional_Insert (New_Node); -------------- -- New_Node -- -------------- function New_Node (Next : Node_Access) return Node_Access is begin return new Node_Type'(Key, New_Item, Next); end New_Node; HT : Hash_Table_Type renames Container.HT; -- Start of processing for Insert begin if HT_Ops.Capacity (HT) = 0 then HT_Ops.Reserve_Capacity (HT, 1); end if; Local_Insert (HT, Key, Position.Node, Inserted); if Inserted and then HT.Length > HT_Ops.Capacity (HT) then HT_Ops.Reserve_Capacity (HT, HT.Length); end if; Position.Container := Container'Unchecked_Access; end Insert; procedure Insert (Container : in out Map; Key : Key_Type; New_Item : Element_Type) is Position : Cursor; pragma Unreferenced (Position); Inserted : Boolean; begin Insert (Container, Key, New_Item, Position, Inserted); if not Inserted then raise Constraint_Error with "attempt to insert key already in map"; end if; end Insert; -------------- -- Is_Empty -- -------------- function Is_Empty (Container : Map) return Boolean is begin return Container.HT.Length = 0; end Is_Empty; ------------- -- Iterate -- ------------- procedure Iterate (Container : Map; Process : not null access procedure (Position : Cursor)) is procedure Process_Node (Node : Node_Access); pragma Inline (Process_Node); procedure Local_Iterate is new HT_Ops.Generic_Iteration (Process_Node); ------------------ -- Process_Node -- ------------------ procedure Process_Node (Node : Node_Access) is begin Process (Cursor'(Container'Unchecked_Access, Node)); end Process_Node; B : Natural renames Container'Unrestricted_Access.HT.Busy; -- Start of processing for Iterate begin B := B + 1; begin Local_Iterate (Container.HT); exception when others => B := B - 1; raise; end; B := B - 1; end Iterate; --------- -- Key -- --------- function Key (Position : Cursor) return Key_Type is begin if Position.Node = null then raise Constraint_Error with "Position cursor of function Key equals No_Element"; end if; pragma Assert (Vet (Position), "bad cursor in function Key"); return Position.Node.Key; end Key; ------------ -- Length -- ------------ function Length (Container : Map) return Count_Type is begin return Container.HT.Length; end Length; ---------- -- Move -- ---------- procedure Move (Target : in out Map; Source : in out Map) is begin HT_Ops.Move (Target => Target.HT, Source => Source.HT); end Move; ---------- -- Next -- ---------- function Next (Node : Node_Access) return Node_Access is begin return Node.Next; end Next; function Next (Position : Cursor) return Cursor is begin if Position.Node = null then return No_Element; end if; pragma Assert (Vet (Position), "bad cursor in function Next"); declare HT : Hash_Table_Type renames Position.Container.HT; Node : constant Node_Access := HT_Ops.Next (HT, Position.Node); begin if Node = null then return No_Element; end if; return Cursor'(Position.Container, Node); end; end Next; procedure Next (Position : in out Cursor) is begin Position := Next (Position); end Next; ------------------- -- Query_Element -- ------------------- procedure Query_Element (Position : Cursor; Process : not null access procedure (Key : Key_Type; Element : Element_Type)) is begin if Position.Node = null then raise Constraint_Error with "Position cursor of Query_Element equals No_Element"; end if; pragma Assert (Vet (Position), "bad cursor in Query_Element"); declare M : Map renames Position.Container.all; HT : Hash_Table_Type renames M.HT'Unrestricted_Access.all; B : Natural renames HT.Busy; L : Natural renames HT.Lock; begin B := B + 1; L := L + 1; declare K : Key_Type renames Position.Node.Key; E : Element_Type renames Position.Node.Element; begin Process (K, E); exception when others => L := L - 1; B := B - 1; raise; end; L := L - 1; B := B - 1; end; end Query_Element; ---------- -- Read -- ---------- procedure Read (Stream : not null access Root_Stream_Type'Class; Container : out Map) is begin Read_Nodes (Stream, Container.HT); end Read; procedure Read (Stream : not null access Root_Stream_Type'Class; Item : out Cursor) is begin raise Program_Error with "attempt to stream map cursor"; end Read; --------------- -- Read_Node -- --------------- function Read_Node (Stream : not null access Root_Stream_Type'Class) return Node_Access is Node : Node_Access := new Node_Type; begin Key_Type'Read (Stream, Node.Key); Element_Type'Read (Stream, Node.Element); return Node; exception when others => Free (Node); raise; end Read_Node; ------------- -- Replace -- ------------- procedure Replace (Container : in out Map; Key : Key_Type; New_Item : Element_Type) is Node : constant Node_Access := Key_Ops.Find (Container.HT, Key); begin if Node = null then raise Constraint_Error with "attempt to replace key not in map"; end if; if Container.HT.Lock > 0 then raise Program_Error with "Replace attempted to tamper with cursors (map is locked)"; end if; Node.Key := Key; Node.Element := New_Item; end Replace; --------------------- -- Replace_Element -- --------------------- procedure Replace_Element (Container : in out Map; Position : Cursor; New_Item : Element_Type) is begin if Position.Node = null then raise Constraint_Error with "Position cursor of Replace_Element equals No_Element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor of Replace_Element designates wrong map"; end if; if Position.Container.HT.Lock > 0 then raise Program_Error with "Replace_Element attempted to tamper with cursors (map is locked)"; end if; pragma Assert (Vet (Position), "bad cursor in Replace_Element"); Position.Node.Element := New_Item; end Replace_Element; ---------------------- -- Reserve_Capacity -- ---------------------- procedure Reserve_Capacity (Container : in out Map; Capacity : Count_Type) is begin HT_Ops.Reserve_Capacity (Container.HT, Capacity); end Reserve_Capacity; -------------- -- Set_Next -- -------------- procedure Set_Next (Node : Node_Access; Next : Node_Access) is begin Node.Next := Next; end Set_Next; -------------------- -- Update_Element -- -------------------- procedure Update_Element (Container : in out Map; Position : Cursor; Process : not null access procedure (Key : Key_Type; Element : in out Element_Type)) is begin if Position.Node = null then raise Constraint_Error with "Position cursor of Update_Element equals No_Element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor of Update_Element designates wrong map"; end if; pragma Assert (Vet (Position), "bad cursor in Update_Element"); declare HT : Hash_Table_Type renames Container.HT; B : Natural renames HT.Busy; L : Natural renames HT.Lock; begin B := B + 1; L := L + 1; declare K : Key_Type renames Position.Node.Key; E : Element_Type renames Position.Node.Element; begin Process (K, E); exception when others => L := L - 1; B := B - 1; raise; end; L := L - 1; B := B - 1; end; end Update_Element; --------- -- Vet -- --------- function Vet (Position : Cursor) return Boolean is begin if Position.Node = null then return Position.Container = null; end if; if Position.Container = null then return False; end if; if Position.Node.Next = Position.Node then return False; end if; declare HT : Hash_Table_Type renames Position.Container.HT; X : Node_Access; begin if HT.Length = 0 then return False; end if; if HT.Buckets = null or else HT.Buckets'Length = 0 then return False; end if; X := HT.Buckets (Key_Ops.Index (HT, Position.Node.Key)); for J in 1 .. HT.Length loop if X = Position.Node then return True; end if; if X = null then return False; end if; if X = X.Next then -- to prevent endless loop return False; end if; X := X.Next; end loop; return False; end; end Vet; ----------- -- Write -- ----------- procedure Write (Stream : not null access Root_Stream_Type'Class; Container : Map) is begin Write_Nodes (Stream, Container.HT); end Write; procedure Write (Stream : not null access Root_Stream_Type'Class; Item : Cursor) is begin raise Program_Error with "attempt to stream map cursor"; end Write; ---------------- -- Write_Node -- ---------------- procedure Write_Node (Stream : not null access Root_Stream_Type'Class; Node : Node_Access) is begin Key_Type'Write (Stream, Node.Key); Element_Type'Write (Stream, Node.Element); end Write_Node; end Ada.Containers.Hashed_Maps;