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------------------------------------------------------------------------------ -- -- -- GNAT LIBRARY COMPONENTS -- -- -- -- A D A . C O N T A I N E R S . I N D E F I N I T E _ V E C T O R 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.Containers.Generic_Array_Sort; with Ada.Unchecked_Deallocation; with System; use type System.Address; package body Ada.Containers.Indefinite_Vectors is type Int is range System.Min_Int .. System.Max_Int; type UInt is mod System.Max_Binary_Modulus; procedure Free is new Ada.Unchecked_Deallocation (Elements_Type, Elements_Access); procedure Free is new Ada.Unchecked_Deallocation (Element_Type, Element_Access); --------- -- "&" -- --------- function "&" (Left, Right : Vector) return Vector is LN : constant Count_Type := Length (Left); RN : constant Count_Type := Length (Right); begin if LN = 0 then if RN = 0 then return Empty_Vector; end if; declare RE : Elements_Array renames Right.Elements.EA (Index_Type'First .. Right.Last); Elements : Elements_Access := new Elements_Type (Right.Last); begin for I in Elements.EA'Range loop begin if RE (I) /= null then Elements.EA (I) := new Element_Type'(RE (I).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; return (Controlled with Elements, Right.Last, 0, 0); end; end if; if RN = 0 then declare LE : Elements_Array renames Left.Elements.EA (Index_Type'First .. Left.Last); Elements : Elements_Access := new Elements_Type (Left.Last); begin for I in Elements.EA'Range loop begin if LE (I) /= null then Elements.EA (I) := new Element_Type'(LE (I).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; return (Controlled with Elements, Left.Last, 0, 0); end; end if; declare N : constant Int'Base := Int (LN) + Int (RN); Last_As_Int : Int'Base; begin if Int (No_Index) > Int'Last - N then raise Constraint_Error with "new length is out of range"; end if; Last_As_Int := Int (No_Index) + N; if Last_As_Int > Int (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type (Last_As_Int); LE : Elements_Array renames Left.Elements.EA (Index_Type'First .. Left.Last); RE : Elements_Array renames Right.Elements.EA (Index_Type'First .. Right.Last); Elements : Elements_Access := new Elements_Type (Last); I : Index_Type'Base := No_Index; begin for LI in LE'Range loop I := I + 1; begin if LE (LI) /= null then Elements.EA (I) := new Element_Type'(LE (LI).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; for RI in RE'Range loop I := I + 1; begin if RE (RI) /= null then Elements.EA (I) := new Element_Type'(RE (RI).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; return (Controlled with Elements, Last, 0, 0); end; end; end "&"; function "&" (Left : Vector; Right : Element_Type) return Vector is LN : constant Count_Type := Length (Left); begin if LN = 0 then declare Elements : Elements_Access := new Elements_Type (Index_Type'First); begin begin Elements.EA (Index_Type'First) := new Element_Type'(Right); exception when others => Free (Elements); raise; end; return (Controlled with Elements, Index_Type'First, 0, 0); end; end if; declare Last_As_Int : Int'Base; begin if Int (Index_Type'First) > Int'Last - Int (LN) then raise Constraint_Error with "new length is out of range"; end if; Last_As_Int := Int (Index_Type'First) + Int (LN); if Last_As_Int > Int (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type (Last_As_Int); LE : Elements_Array renames Left.Elements.EA (Index_Type'First .. Left.Last); Elements : Elements_Access := new Elements_Type (Last); begin for I in LE'Range loop begin if LE (I) /= null then Elements.EA (I) := new Element_Type'(LE (I).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; begin Elements.EA (Last) := new Element_Type'(Right); exception when others => for J in Index_Type'First .. Last - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; return (Controlled with Elements, Last, 0, 0); end; end; end "&"; function "&" (Left : Element_Type; Right : Vector) return Vector is RN : constant Count_Type := Length (Right); begin if RN = 0 then declare Elements : Elements_Access := new Elements_Type (Index_Type'First); begin begin Elements.EA (Index_Type'First) := new Element_Type'(Left); exception when others => Free (Elements); raise; end; return (Controlled with Elements, Index_Type'First, 0, 0); end; end if; declare Last_As_Int : Int'Base; begin if Int (Index_Type'First) > Int'Last - Int (RN) then raise Constraint_Error with "new length is out of range"; end if; Last_As_Int := Int (Index_Type'First) + Int (RN); if Last_As_Int > Int (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type (Last_As_Int); RE : Elements_Array renames Right.Elements.EA (Index_Type'First .. Right.Last); Elements : Elements_Access := new Elements_Type (Last); I : Index_Type'Base := Index_Type'First; begin begin Elements.EA (I) := new Element_Type'(Left); exception when others => Free (Elements); raise; end; for RI in RE'Range loop I := I + 1; begin if RE (RI) /= null then Elements.EA (I) := new Element_Type'(RE (RI).all); end if; exception when others => for J in Index_Type'First .. I - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; end loop; return (Controlled with Elements, Last, 0, 0); end; end; end "&"; function "&" (Left, Right : Element_Type) return Vector is begin if Index_Type'First >= Index_Type'Last then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type'First + 1; Elements : Elements_Access := new Elements_Type (Last); begin begin Elements.EA (Index_Type'First) := new Element_Type'(Left); exception when others => Free (Elements); raise; end; begin Elements.EA (Last) := new Element_Type'(Right); exception when others => Free (Elements.EA (Index_Type'First)); Free (Elements); raise; end; return (Controlled with Elements, Last, 0, 0); end; end "&"; --------- -- "=" -- --------- overriding function "=" (Left, Right : Vector) return Boolean is begin if Left'Address = Right'Address then return True; end if; if Left.Last /= Right.Last then return False; end if; for J in Index_Type'First .. Left.Last loop if Left.Elements.EA (J) = null then if Right.Elements.EA (J) /= null then return False; end if; elsif Right.Elements.EA (J) = null then return False; elsif Left.Elements.EA (J).all /= Right.Elements.EA (J).all then return False; end if; end loop; return True; end "="; ------------ -- Adjust -- ------------ procedure Adjust (Container : in out Vector) is begin if Container.Last = No_Index then Container.Elements := null; return; end if; declare L : constant Index_Type := Container.Last; E : Elements_Array renames Container.Elements.EA (Index_Type'First .. L); begin Container.Elements := null; Container.Last := No_Index; Container.Busy := 0; Container.Lock := 0; Container.Elements := new Elements_Type (L); for I in E'Range loop if E (I) /= null then Container.Elements.EA (I) := new Element_Type'(E (I).all); end if; Container.Last := I; end loop; end; end Adjust; ------------ -- Append -- ------------ procedure Append (Container : in out Vector; New_Item : Vector) is begin if Is_Empty (New_Item) then return; end if; if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Insert (Container, Container.Last + 1, New_Item); end Append; procedure Append (Container : in out Vector; New_Item : Element_Type; Count : Count_Type := 1) is begin if Count = 0 then return; end if; if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Insert (Container, Container.Last + 1, New_Item, Count); end Append; -------------- -- Capacity -- -------------- function Capacity (Container : Vector) return Count_Type is begin if Container.Elements = null then return 0; end if; return Container.Elements.EA'Length; end Capacity; ----------- -- Clear -- ----------- procedure Clear (Container : in out Vector) is begin if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; while Container.Last >= Index_Type'First loop declare X : Element_Access := Container.Elements.EA (Container.Last); begin Container.Elements.EA (Container.Last) := null; Container.Last := Container.Last - 1; Free (X); end; end loop; end Clear; -------------- -- Contains -- -------------- function Contains (Container : Vector; Item : Element_Type) return Boolean is begin return Find_Index (Container, Item) /= No_Index; end Contains; ------------ -- Delete -- ------------ procedure Delete (Container : in out Vector; Index : Extended_Index; Count : Count_Type := 1) is begin if Index < Index_Type'First then raise Constraint_Error with "Index is out of range (too small)"; end if; if Index > Container.Last then if Index > Container.Last + 1 then raise Constraint_Error with "Index is out of range (too large)"; end if; return; end if; if Count = 0 then return; end if; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; declare Index_As_Int : constant Int := Int (Index); Old_Last_As_Int : constant Int := Int (Container.Last); Count1 : constant Int'Base := Int (Count); Count2 : constant Int'Base := Old_Last_As_Int - Index_As_Int + 1; N : constant Int'Base := Int'Min (Count1, Count2); J_As_Int : constant Int'Base := Index_As_Int + N; E : Elements_Array renames Container.Elements.EA; begin if J_As_Int > Old_Last_As_Int then while Container.Last >= Index loop declare K : constant Index_Type := Container.Last; X : Element_Access := E (K); begin E (K) := null; Container.Last := K - 1; Free (X); end; end loop; else declare J : constant Index_Type := Index_Type (J_As_Int); New_Last_As_Int : constant Int'Base := Old_Last_As_Int - N; New_Last : constant Index_Type := Index_Type (New_Last_As_Int); begin for K in Index .. J - 1 loop declare X : Element_Access := E (K); begin E (K) := null; Free (X); end; end loop; E (Index .. New_Last) := E (J .. Container.Last); Container.Last := New_Last; end; end if; end; end Delete; procedure Delete (Container : in out Vector; Position : in out Cursor; Count : Count_Type := 1) is pragma Warnings (Off, Position); begin if Position.Container = null then raise Constraint_Error with "Position cursor has no element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor denotes wrong container"; end if; if Position.Index > Container.Last then raise Program_Error with "Position index is out of range"; end if; Delete (Container, Position.Index, Count); Position := No_Element; end Delete; ------------------ -- Delete_First -- ------------------ procedure Delete_First (Container : in out Vector; Count : Count_Type := 1) is begin if Count = 0 then return; end if; if Count >= Length (Container) then Clear (Container); return; end if; Delete (Container, Index_Type'First, Count); end Delete_First; ----------------- -- Delete_Last -- ----------------- procedure Delete_Last (Container : in out Vector; Count : Count_Type := 1) is N : constant Count_Type := Length (Container); begin if Count = 0 or else N = 0 then return; end if; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; declare E : Elements_Array renames Container.Elements.EA; begin for Indx in 1 .. Count_Type'Min (Count, N) loop declare J : constant Index_Type := Container.Last; X : Element_Access := E (J); begin E (J) := null; Container.Last := J - 1; Free (X); end; end loop; end; end Delete_Last; ------------- -- Element -- ------------- function Element (Container : Vector; Index : Index_Type) return Element_Type is begin if Index > Container.Last then raise Constraint_Error with "Index is out of range"; end if; declare EA : constant Element_Access := Container.Elements.EA (Index); begin if EA = null then raise Constraint_Error with "element is empty"; end if; return EA.all; end; end Element; function Element (Position : Cursor) return Element_Type is begin if Position.Container = null then raise Constraint_Error with "Position cursor has no element"; end if; if Position.Index > Position.Container.Last then raise Constraint_Error with "Position cursor is out of range"; end if; declare EA : constant Element_Access := Position.Container.Elements.EA (Position.Index); begin if EA = null then raise Constraint_Error with "element is empty"; end if; return EA.all; end; end Element; -------------- -- Finalize -- -------------- procedure Finalize (Container : in out Vector) is begin Clear (Container); -- Checks busy-bit declare X : Elements_Access := Container.Elements; begin Container.Elements := null; Free (X); end; end Finalize; ---------- -- Find -- ---------- function Find (Container : Vector; Item : Element_Type; Position : Cursor := No_Element) return Cursor is begin if Position.Container /= null then if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor denotes wrong container"; end if; if Position.Index > Container.Last then raise Program_Error with "Position index is out of range"; end if; end if; for J in Position.Index .. Container.Last loop if Container.Elements.EA (J) /= null and then Container.Elements.EA (J).all = Item then return (Container'Unchecked_Access, J); end if; end loop; return No_Element; end Find; ---------------- -- Find_Index -- ---------------- function Find_Index (Container : Vector; Item : Element_Type; Index : Index_Type := Index_Type'First) return Extended_Index is begin for Indx in Index .. Container.Last loop if Container.Elements.EA (Indx) /= null and then Container.Elements.EA (Indx).all = Item then return Indx; end if; end loop; return No_Index; end Find_Index; ----------- -- First -- ----------- function First (Container : Vector) return Cursor is begin if Is_Empty (Container) then return No_Element; end if; return (Container'Unchecked_Access, Index_Type'First); end First; ------------------- -- First_Element -- ------------------- function First_Element (Container : Vector) return Element_Type is begin if Container.Last = No_Index then raise Constraint_Error with "Container is empty"; end if; declare EA : constant Element_Access := Container.Elements.EA (Index_Type'First); begin if EA = null then raise Constraint_Error with "first element is empty"; end if; return EA.all; end; end First_Element; ----------------- -- First_Index -- ----------------- function First_Index (Container : Vector) return Index_Type is pragma Unreferenced (Container); begin return Index_Type'First; end First_Index; --------------------- -- Generic_Sorting -- --------------------- package body Generic_Sorting is ----------------------- -- Local Subprograms -- ----------------------- function Is_Less (L, R : Element_Access) return Boolean; pragma Inline (Is_Less); ------------- -- Is_Less -- ------------- function Is_Less (L, R : Element_Access) return Boolean is begin if L = null then return R /= null; elsif R = null then return False; else return L.all < R.all; end if; end Is_Less; --------------- -- Is_Sorted -- --------------- function Is_Sorted (Container : Vector) return Boolean is begin if Container.Last <= Index_Type'First then return True; end if; declare E : Elements_Array renames Container.Elements.EA; begin for I in Index_Type'First .. Container.Last - 1 loop if Is_Less (E (I + 1), E (I)) then return False; end if; end loop; end; return True; end Is_Sorted; ----------- -- Merge -- ----------- procedure Merge (Target, Source : in out Vector) is I, J : Index_Type'Base; begin if Target.Last < Index_Type'First then Move (Target => Target, Source => Source); return; end if; if Target'Address = Source'Address then return; end if; if Source.Last < Index_Type'First then return; end if; if Source.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; I := Target.Last; -- original value (before Set_Length) Target.Set_Length (Length (Target) + Length (Source)); J := Target.Last; -- new value (after Set_Length) while Source.Last >= Index_Type'First loop pragma Assert (Source.Last <= Index_Type'First or else not (Is_Less (Source.Elements.EA (Source.Last), Source.Elements.EA (Source.Last - 1)))); if I < Index_Type'First then declare Src : Elements_Array renames Source.Elements.EA (Index_Type'First .. Source.Last); begin Target.Elements.EA (Index_Type'First .. J) := Src; Src := (others => null); end; Source.Last := No_Index; return; end if; pragma Assert (I <= Index_Type'First or else not (Is_Less (Target.Elements.EA (I), Target.Elements.EA (I - 1)))); declare Src : Element_Access renames Source.Elements.EA (Source.Last); Tgt : Element_Access renames Target.Elements.EA (I); begin if Is_Less (Src, Tgt) then Target.Elements.EA (J) := Tgt; Tgt := null; I := I - 1; else Target.Elements.EA (J) := Src; Src := null; Source.Last := Source.Last - 1; end if; end; J := J - 1; end loop; end Merge; ---------- -- Sort -- ---------- procedure Sort (Container : in out Vector) is procedure Sort is new Generic_Array_Sort (Index_Type => Index_Type, Element_Type => Element_Access, Array_Type => Elements_Array, "<" => Is_Less); -- Start of processing for Sort begin if Container.Last <= Index_Type'First then return; end if; if Container.Lock > 0 then raise Program_Error with "attempt to tamper with cursors (vector is locked)"; end if; Sort (Container.Elements.EA (Index_Type'First .. Container.Last)); end Sort; end Generic_Sorting; ----------------- -- Has_Element -- ----------------- function Has_Element (Position : Cursor) return Boolean is begin if Position.Container = null then return False; end if; return Position.Index <= Position.Container.Last; end Has_Element; ------------ -- Insert -- ------------ procedure Insert (Container : in out Vector; Before : Extended_Index; New_Item : Element_Type; Count : Count_Type := 1) is N : constant Int := Int (Count); First : constant Int := Int (Index_Type'First); New_Last_As_Int : Int'Base; New_Last : Index_Type; New_Length : UInt; Max_Length : constant UInt := UInt (Count_Type'Last); Dst : Elements_Access; begin if Before < Index_Type'First then raise Constraint_Error with "Before index is out of range (too small)"; end if; if Before > Container.Last and then Before > Container.Last + 1 then raise Constraint_Error with "Before index is out of range (too large)"; end if; if Count = 0 then return; end if; declare Old_Last_As_Int : constant Int := Int (Container.Last); begin if Old_Last_As_Int > Int'Last - N then raise Constraint_Error with "new length is out of range"; end if; New_Last_As_Int := Old_Last_As_Int + N; if New_Last_As_Int > Int (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; New_Length := UInt (New_Last_As_Int - First + 1); if New_Length > Max_Length then raise Constraint_Error with "new length is out of range"; end if; New_Last := Index_Type (New_Last_As_Int); end; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; if Container.Elements = null then Container.Elements := new Elements_Type (New_Last); Container.Last := No_Index; for J in Container.Elements.EA'Range loop Container.Elements.EA (J) := new Element_Type'(New_Item); Container.Last := J; end loop; return; end if; if New_Last <= Container.Elements.Last then declare E : Elements_Array renames Container.Elements.EA; begin if Before <= Container.Last then declare Index_As_Int : constant Int'Base := Index_Type'Pos (Before) + N; Index : constant Index_Type := Index_Type (Index_As_Int); J : Index_Type'Base; begin -- The new items are being inserted in the middle of the -- array, in the range [Before, Index). Copy the existing -- elements to the end of the array, to make room for the -- new items. E (Index .. New_Last) := E (Before .. Container.Last); Container.Last := New_Last; -- We have copied the existing items up to the end of the -- array, to make room for the new items in the middle of -- the array. Now we actually allocate the new items. -- Note: initialize J outside loop to make it clear that -- J always has a value if the exception handler triggers. J := Before; begin while J < Index loop E (J) := new Element_Type'(New_Item); J := J + 1; end loop; exception when others => -- Values in the range [Before, J) were successfully -- allocated, but values in the range [J, Index) are -- stale (these array positions contain copies of the -- old items, that did not get assigned a new item, -- because the allocation failed). We must finish what -- we started by clearing out all of the stale values, -- leaving a "hole" in the middle of the array. E (J .. Index - 1) := (others => null); raise; end; end; else for J in Before .. New_Last loop E (J) := new Element_Type'(New_Item); Container.Last := J; end loop; end if; end; return; end if; -- There follows LOTS of code completely devoid of comments ??? -- This is not our general style ??? declare C, CC : UInt; begin C := UInt'Max (1, Container.Elements.EA'Length); -- ??? while C < New_Length loop if C > UInt'Last / 2 then C := UInt'Last; exit; end if; C := 2 * C; end loop; if C > Max_Length then C := Max_Length; end if; if Index_Type'First <= 0 and then Index_Type'Last >= 0 then CC := UInt (Index_Type'Last) + UInt (-Index_Type'First) + 1; else CC := UInt (Int (Index_Type'Last) - First + 1); end if; if C > CC then C := CC; end if; declare Dst_Last : constant Index_Type := Index_Type (First + UInt'Pos (C) - Int'(1)); begin Dst := new Elements_Type (Dst_Last); end; end; if Before <= Container.Last then declare Index_As_Int : constant Int'Base := Index_Type'Pos (Before) + N; Index : constant Index_Type := Index_Type (Index_As_Int); Src : Elements_Access := Container.Elements; begin Dst.EA (Index_Type'First .. Before - 1) := Src.EA (Index_Type'First .. Before - 1); Dst.EA (Index .. New_Last) := Src.EA (Before .. Container.Last); Container.Elements := Dst; Container.Last := New_Last; Free (Src); for J in Before .. Index - 1 loop Dst.EA (J) := new Element_Type'(New_Item); end loop; end; else declare Src : Elements_Access := Container.Elements; begin Dst.EA (Index_Type'First .. Container.Last) := Src.EA (Index_Type'First .. Container.Last); Container.Elements := Dst; Free (Src); for J in Before .. New_Last loop Dst.EA (J) := new Element_Type'(New_Item); Container.Last := J; end loop; end; end if; end Insert; procedure Insert (Container : in out Vector; Before : Extended_Index; New_Item : Vector) is N : constant Count_Type := Length (New_Item); begin if Before < Index_Type'First then raise Constraint_Error with "Before index is out of range (too small)"; end if; if Before > Container.Last and then Before > Container.Last + 1 then raise Constraint_Error with "Before index is out of range (too large)"; end if; if N = 0 then return; end if; Insert_Space (Container, Before, Count => N); declare Dst_Last_As_Int : constant Int'Base := Int'Base (Before) + Int'Base (N) - 1; Dst_Last : constant Index_Type := Index_Type (Dst_Last_As_Int); Dst : Elements_Array renames Container.Elements.EA (Before .. Dst_Last); Dst_Index : Index_Type'Base := Before - 1; begin if Container'Address /= New_Item'Address then declare subtype Src_Index_Subtype is Index_Type'Base range Index_Type'First .. New_Item.Last; Src : Elements_Array renames New_Item.Elements.EA (Src_Index_Subtype); begin for Src_Index in Src'Range loop Dst_Index := Dst_Index + 1; if Src (Src_Index) /= null then Dst (Dst_Index) := new Element_Type'(Src (Src_Index).all); end if; end loop; end; return; end if; declare subtype Src_Index_Subtype is Index_Type'Base range Index_Type'First .. Before - 1; Src : Elements_Array renames Container.Elements.EA (Src_Index_Subtype); begin for Src_Index in Src'Range loop Dst_Index := Dst_Index + 1; if Src (Src_Index) /= null then Dst (Dst_Index) := new Element_Type'(Src (Src_Index).all); end if; end loop; end; if Dst_Last = Container.Last then return; end if; declare subtype Src_Index_Subtype is Index_Type'Base range Dst_Last + 1 .. Container.Last; Src : Elements_Array renames Container.Elements.EA (Src_Index_Subtype); begin for Src_Index in Src'Range loop Dst_Index := Dst_Index + 1; if Src (Src_Index) /= null then Dst (Dst_Index) := new Element_Type'(Src (Src_Index).all); end if; end loop; end; end; end Insert; procedure Insert (Container : in out Vector; Before : Cursor; New_Item : Vector) is Index : Index_Type'Base; begin if Before.Container /= null and then Before.Container /= Container'Unchecked_Access then raise Program_Error with "Before cursor denotes wrong container"; end if; if Is_Empty (New_Item) then return; end if; if Before.Container = null or else Before.Index > Container.Last then if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Index := Container.Last + 1; else Index := Before.Index; end if; Insert (Container, Index, New_Item); end Insert; procedure Insert (Container : in out Vector; Before : Cursor; New_Item : Vector; Position : out Cursor) is Index : Index_Type'Base; begin if Before.Container /= null and then Before.Container /= Vector_Access'(Container'Unchecked_Access) then raise Program_Error with "Before cursor denotes wrong container"; end if; if Is_Empty (New_Item) then if Before.Container = null or else Before.Index > Container.Last then Position := No_Element; else Position := (Container'Unchecked_Access, Before.Index); end if; return; end if; if Before.Container = null or else Before.Index > Container.Last then if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Index := Container.Last + 1; else Index := Before.Index; end if; Insert (Container, Index, New_Item); Position := Cursor'(Container'Unchecked_Access, Index); end Insert; procedure Insert (Container : in out Vector; Before : Cursor; New_Item : Element_Type; Count : Count_Type := 1) is Index : Index_Type'Base; begin if Before.Container /= null and then Before.Container /= Container'Unchecked_Access then raise Program_Error with "Before cursor denotes wrong container"; end if; if Count = 0 then return; end if; if Before.Container = null or else Before.Index > Container.Last then if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Index := Container.Last + 1; else Index := Before.Index; end if; Insert (Container, Index, New_Item, Count); end Insert; procedure Insert (Container : in out Vector; Before : Cursor; New_Item : Element_Type; Position : out Cursor; Count : Count_Type := 1) is Index : Index_Type'Base; begin if Before.Container /= null and then Before.Container /= Container'Unchecked_Access then raise Program_Error with "Before cursor denotes wrong container"; end if; if Count = 0 then if Before.Container = null or else Before.Index > Container.Last then Position := No_Element; else Position := (Container'Unchecked_Access, Before.Index); end if; return; end if; if Before.Container = null or else Before.Index > Container.Last then if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Index := Container.Last + 1; else Index := Before.Index; end if; Insert (Container, Index, New_Item, Count); Position := (Container'Unchecked_Access, Index); end Insert; ------------------ -- Insert_Space -- ------------------ procedure Insert_Space (Container : in out Vector; Before : Extended_Index; Count : Count_Type := 1) is N : constant Int := Int (Count); First : constant Int := Int (Index_Type'First); New_Last_As_Int : Int'Base; New_Last : Index_Type; New_Length : UInt; Max_Length : constant UInt := UInt (Count_Type'Last); Dst : Elements_Access; begin if Before < Index_Type'First then raise Constraint_Error with "Before index is out of range (too small)"; end if; if Before > Container.Last and then Before > Container.Last + 1 then raise Constraint_Error with "Before index is out of range (too large)"; end if; if Count = 0 then return; end if; declare Old_Last_As_Int : constant Int := Int (Container.Last); begin if Old_Last_As_Int > Int'Last - N then raise Constraint_Error with "new length is out of range"; end if; New_Last_As_Int := Old_Last_As_Int + N; if New_Last_As_Int > Int (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; New_Length := UInt (New_Last_As_Int - First + 1); if New_Length > Max_Length then raise Constraint_Error with "new length is out of range"; end if; New_Last := Index_Type (New_Last_As_Int); end; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; if Container.Elements = null then Container.Elements := new Elements_Type (New_Last); Container.Last := New_Last; return; end if; if New_Last <= Container.Elements.Last then declare E : Elements_Array renames Container.Elements.EA; begin if Before <= Container.Last then declare Index_As_Int : constant Int'Base := Index_Type'Pos (Before) + N; Index : constant Index_Type := Index_Type (Index_As_Int); begin E (Index .. New_Last) := E (Before .. Container.Last); E (Before .. Index - 1) := (others => null); end; end if; end; Container.Last := New_Last; return; end if; declare C, CC : UInt; begin C := UInt'Max (1, Container.Elements.EA'Length); -- ??? while C < New_Length loop if C > UInt'Last / 2 then C := UInt'Last; exit; end if; C := 2 * C; end loop; if C > Max_Length then C := Max_Length; end if; if Index_Type'First <= 0 and then Index_Type'Last >= 0 then CC := UInt (Index_Type'Last) + UInt (-Index_Type'First) + 1; else CC := UInt (Int (Index_Type'Last) - First + 1); end if; if C > CC then C := CC; end if; declare Dst_Last : constant Index_Type := Index_Type (First + UInt'Pos (C) - 1); begin Dst := new Elements_Type (Dst_Last); end; end; declare Src : Elements_Access := Container.Elements; begin if Before <= Container.Last then declare Index_As_Int : constant Int'Base := Index_Type'Pos (Before) + N; Index : constant Index_Type := Index_Type (Index_As_Int); begin Dst.EA (Index_Type'First .. Before - 1) := Src.EA (Index_Type'First .. Before - 1); Dst.EA (Index .. New_Last) := Src.EA (Before .. Container.Last); end; else Dst.EA (Index_Type'First .. Container.Last) := Src.EA (Index_Type'First .. Container.Last); end if; Container.Elements := Dst; Container.Last := New_Last; Free (Src); end; end Insert_Space; procedure Insert_Space (Container : in out Vector; Before : Cursor; Position : out Cursor; Count : Count_Type := 1) is Index : Index_Type'Base; begin if Before.Container /= null and then Before.Container /= Container'Unchecked_Access then raise Program_Error with "Before cursor denotes wrong container"; end if; if Count = 0 then if Before.Container = null or else Before.Index > Container.Last then Position := No_Element; else Position := (Container'Unchecked_Access, Before.Index); end if; return; end if; if Before.Container = null or else Before.Index > Container.Last then if Container.Last = Index_Type'Last then raise Constraint_Error with "vector is already at its maximum length"; end if; Index := Container.Last + 1; else Index := Before.Index; end if; Insert_Space (Container, Index, Count); Position := Cursor'(Container'Unchecked_Access, Index); end Insert_Space; -------------- -- Is_Empty -- -------------- function Is_Empty (Container : Vector) return Boolean is begin return Container.Last < Index_Type'First; end Is_Empty; ------------- -- Iterate -- ------------- procedure Iterate (Container : Vector; Process : not null access procedure (Position : Cursor)) is V : Vector renames Container'Unrestricted_Access.all; B : Natural renames V.Busy; begin B := B + 1; begin for Indx in Index_Type'First .. Container.Last loop Process (Cursor'(Container'Unchecked_Access, Indx)); end loop; exception when others => B := B - 1; raise; end; B := B - 1; end Iterate; ---------- -- Last -- ---------- function Last (Container : Vector) return Cursor is begin if Is_Empty (Container) then return No_Element; end if; return (Container'Unchecked_Access, Container.Last); end Last; ------------------ -- Last_Element -- ------------------ function Last_Element (Container : Vector) return Element_Type is begin if Container.Last = No_Index then raise Constraint_Error with "Container is empty"; end if; declare EA : constant Element_Access := Container.Elements.EA (Container.Last); begin if EA = null then raise Constraint_Error with "last element is empty"; end if; return EA.all; end; end Last_Element; ---------------- -- Last_Index -- ---------------- function Last_Index (Container : Vector) return Extended_Index is begin return Container.Last; end Last_Index; ------------ -- Length -- ------------ function Length (Container : Vector) return Count_Type is L : constant Int := Int (Container.Last); F : constant Int := Int (Index_Type'First); N : constant Int'Base := L - F + 1; begin return Count_Type (N); end Length; ---------- -- Move -- ---------- procedure Move (Target : in out Vector; Source : in out Vector) is begin if Target'Address = Source'Address then return; end if; if Source.Busy > 0 then raise Program_Error with "attempt to tamper with elements (Source is busy)"; end if; Clear (Target); -- Checks busy-bit declare Target_Elements : constant Elements_Access := Target.Elements; begin Target.Elements := Source.Elements; Source.Elements := Target_Elements; end; Target.Last := Source.Last; Source.Last := No_Index; end Move; ---------- -- Next -- ---------- function Next (Position : Cursor) return Cursor is begin if Position.Container = null then return No_Element; end if; if Position.Index < Position.Container.Last then return (Position.Container, Position.Index + 1); end if; return No_Element; end Next; ---------- -- Next -- ---------- procedure Next (Position : in out Cursor) is begin if Position.Container = null then return; end if; if Position.Index < Position.Container.Last then Position.Index := Position.Index + 1; else Position := No_Element; end if; end Next; ------------- -- Prepend -- ------------- procedure Prepend (Container : in out Vector; New_Item : Vector) is begin Insert (Container, Index_Type'First, New_Item); end Prepend; procedure Prepend (Container : in out Vector; New_Item : Element_Type; Count : Count_Type := 1) is begin Insert (Container, Index_Type'First, New_Item, Count); end Prepend; -------------- -- Previous -- -------------- procedure Previous (Position : in out Cursor) is begin if Position.Container = null then return; end if; if Position.Index > Index_Type'First then Position.Index := Position.Index - 1; else Position := No_Element; end if; end Previous; function Previous (Position : Cursor) return Cursor is begin if Position.Container = null then return No_Element; end if; if Position.Index > Index_Type'First then return (Position.Container, Position.Index - 1); end if; return No_Element; end Previous; ------------------- -- Query_Element -- ------------------- procedure Query_Element (Container : Vector; Index : Index_Type; Process : not null access procedure (Element : Element_Type)) is V : Vector renames Container'Unrestricted_Access.all; B : Natural renames V.Busy; L : Natural renames V.Lock; begin if Index > Container.Last then raise Constraint_Error with "Index is out of range"; end if; if V.Elements.EA (Index) = null then raise Constraint_Error with "element is null"; end if; B := B + 1; L := L + 1; begin Process (V.Elements.EA (Index).all); exception when others => L := L - 1; B := B - 1; raise; end; L := L - 1; B := B - 1; end Query_Element; procedure Query_Element (Position : Cursor; Process : not null access procedure (Element : Element_Type)) is begin if Position.Container = null then raise Constraint_Error with "Position cursor has no element"; end if; Query_Element (Position.Container.all, Position.Index, Process); end Query_Element; ---------- -- Read -- ---------- procedure Read (Stream : not null access Root_Stream_Type'Class; Container : out Vector) is Length : Count_Type'Base; Last : Index_Type'Base := Index_Type'Pred (Index_Type'First); B : Boolean; begin Clear (Container); Count_Type'Base'Read (Stream, Length); if Length > Capacity (Container) then Reserve_Capacity (Container, Capacity => Length); end if; for J in Count_Type range 1 .. Length loop Last := Last + 1; Boolean'Read (Stream, B); if B then Container.Elements.EA (Last) := new Element_Type'(Element_Type'Input (Stream)); end if; Container.Last := Last; end loop; end Read; procedure Read (Stream : not null access Root_Stream_Type'Class; Position : out Cursor) is begin raise Program_Error with "attempt to stream vector cursor"; end Read; --------------------- -- Replace_Element -- --------------------- procedure Replace_Element (Container : in out Vector; Index : Index_Type; New_Item : Element_Type) is begin if Index > Container.Last then raise Constraint_Error with "Index is out of range"; end if; if Container.Lock > 0 then raise Program_Error with "attempt to tamper with cursors (vector is locked)"; end if; declare X : Element_Access := Container.Elements.EA (Index); begin Container.Elements.EA (Index) := new Element_Type'(New_Item); Free (X); end; end Replace_Element; procedure Replace_Element (Container : in out Vector; Position : Cursor; New_Item : Element_Type) is begin if Position.Container = null then raise Constraint_Error with "Position cursor has no element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor denotes wrong container"; end if; if Position.Index > Container.Last then raise Constraint_Error with "Position cursor is out of range"; end if; if Container.Lock > 0 then raise Program_Error with "attempt to tamper with cursors (vector is locked)"; end if; declare X : Element_Access := Container.Elements.EA (Position.Index); begin Container.Elements.EA (Position.Index) := new Element_Type'(New_Item); Free (X); end; end Replace_Element; ---------------------- -- Reserve_Capacity -- ---------------------- procedure Reserve_Capacity (Container : in out Vector; Capacity : Count_Type) is N : constant Count_Type := Length (Container); begin if Capacity = 0 then if N = 0 then declare X : Elements_Access := Container.Elements; begin Container.Elements := null; Free (X); end; elsif N < Container.Elements.EA'Length then if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; declare subtype Array_Index_Subtype is Index_Type'Base range Index_Type'First .. Container.Last; Src : Elements_Array renames Container.Elements.EA (Array_Index_Subtype); X : Elements_Access := Container.Elements; begin Container.Elements := new Elements_Type'(Container.Last, Src); Free (X); end; end if; return; end if; if Container.Elements = null then declare Last_As_Int : constant Int'Base := Int (Index_Type'First) + Int (Capacity) - 1; begin if Last_As_Int > Index_Type'Pos (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type (Last_As_Int); begin Container.Elements := new Elements_Type (Last); end; end; return; end if; if Capacity <= N then if N < Container.Elements.EA'Length then if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; declare subtype Array_Index_Subtype is Index_Type'Base range Index_Type'First .. Container.Last; Src : Elements_Array renames Container.Elements.EA (Array_Index_Subtype); X : Elements_Access := Container.Elements; begin Container.Elements := new Elements_Type'(Container.Last, Src); Free (X); end; end if; return; end if; if Capacity = Container.Elements.EA'Length then return; end if; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; declare Last_As_Int : constant Int'Base := Int (Index_Type'First) + Int (Capacity) - 1; begin if Last_As_Int > Index_Type'Pos (Index_Type'Last) then raise Constraint_Error with "new length is out of range"; end if; declare Last : constant Index_Type := Index_Type (Last_As_Int); X : Elements_Access := Container.Elements; subtype Index_Subtype is Index_Type'Base range Index_Type'First .. Container.Last; begin Container.Elements := new Elements_Type (Last); declare Src : Elements_Array renames X.EA (Index_Subtype); Tgt : Elements_Array renames Container.Elements.EA (Index_Subtype); begin Tgt := Src; end; Free (X); end; end; end Reserve_Capacity; ---------------------- -- Reverse_Elements -- ---------------------- procedure Reverse_Elements (Container : in out Vector) is begin if Container.Length <= 1 then return; end if; if Container.Lock > 0 then raise Program_Error with "attempt to tamper with cursors (vector is locked)"; end if; declare I : Index_Type; J : Index_Type; E : Elements_Array renames Container.Elements.EA; begin I := Index_Type'First; J := Container.Last; while I < J loop declare EI : constant Element_Access := E (I); begin E (I) := E (J); E (J) := EI; end; I := I + 1; J := J - 1; end loop; end; end Reverse_Elements; ------------------ -- Reverse_Find -- ------------------ function Reverse_Find (Container : Vector; Item : Element_Type; Position : Cursor := No_Element) return Cursor is Last : Index_Type'Base; begin if Position.Container /= null and then Position.Container /= Container'Unchecked_Access then raise Program_Error with "Position cursor denotes wrong container"; end if; if Position.Container = null or else Position.Index > Container.Last then Last := Container.Last; else Last := Position.Index; end if; for Indx in reverse Index_Type'First .. Last loop if Container.Elements.EA (Indx) /= null and then Container.Elements.EA (Indx).all = Item then return (Container'Unchecked_Access, Indx); end if; end loop; return No_Element; end Reverse_Find; ------------------------ -- Reverse_Find_Index -- ------------------------ function Reverse_Find_Index (Container : Vector; Item : Element_Type; Index : Index_Type := Index_Type'Last) return Extended_Index is Last : constant Index_Type'Base := (if Index > Container.Last then Container.Last else Index); begin for Indx in reverse Index_Type'First .. Last loop if Container.Elements.EA (Indx) /= null and then Container.Elements.EA (Indx).all = Item then return Indx; end if; end loop; return No_Index; end Reverse_Find_Index; --------------------- -- Reverse_Iterate -- --------------------- procedure Reverse_Iterate (Container : Vector; Process : not null access procedure (Position : Cursor)) is V : Vector renames Container'Unrestricted_Access.all; B : Natural renames V.Busy; begin B := B + 1; begin for Indx in reverse Index_Type'First .. Container.Last loop Process (Cursor'(Container'Unchecked_Access, Indx)); end loop; exception when others => B := B - 1; raise; end; B := B - 1; end Reverse_Iterate; ---------------- -- Set_Length -- ---------------- procedure Set_Length (Container : in out Vector; Length : Count_Type) is N : constant Count_Type := Indefinite_Vectors.Length (Container); begin if Length = N then return; end if; if Container.Busy > 0 then raise Program_Error with "attempt to tamper with elements (vector is busy)"; end if; if Length < N then for Index in 1 .. N - Length loop declare J : constant Index_Type := Container.Last; X : Element_Access := Container.Elements.EA (J); begin Container.Elements.EA (J) := null; Container.Last := J - 1; Free (X); end; end loop; return; end if; if Length > Capacity (Container) then Reserve_Capacity (Container, Capacity => Length); end if; declare Last_As_Int : constant Int'Base := Int (Index_Type'First) + Int (Length) - 1; begin Container.Last := Index_Type (Last_As_Int); end; end Set_Length; ---------- -- Swap -- ---------- procedure Swap (Container : in out Vector; I, J : Index_Type) is begin if I > Container.Last then raise Constraint_Error with "I index is out of range"; end if; if J > Container.Last then raise Constraint_Error with "J index is out of range"; end if; if I = J then return; end if; if Container.Lock > 0 then raise Program_Error with "attempt to tamper with cursors (vector is locked)"; end if; declare EI : Element_Access renames Container.Elements.EA (I); EJ : Element_Access renames Container.Elements.EA (J); EI_Copy : constant Element_Access := EI; begin EI := EJ; EJ := EI_Copy; end; end Swap; procedure Swap (Container : in out Vector; I, J : Cursor) is begin if I.Container = null then raise Constraint_Error with "I cursor has no element"; end if; if J.Container = null then raise Constraint_Error with "J cursor has no element"; end if; if I.Container /= Container'Unrestricted_Access then raise Program_Error with "I cursor denotes wrong container"; end if; if J.Container /= Container'Unrestricted_Access then raise Program_Error with "J cursor denotes wrong container"; end if; Swap (Container, I.Index, J.Index); end Swap; --------------- -- To_Cursor -- --------------- function To_Cursor (Container : Vector; Index : Extended_Index) return Cursor is begin if Index not in Index_Type'First .. Container.Last then return No_Element; end if; return Cursor'(Container'Unchecked_Access, Index); end To_Cursor; -------------- -- To_Index -- -------------- function To_Index (Position : Cursor) return Extended_Index is begin if Position.Container = null then return No_Index; end if; if Position.Index <= Position.Container.Last then return Position.Index; end if; return No_Index; end To_Index; --------------- -- To_Vector -- --------------- function To_Vector (Length : Count_Type) return Vector is begin if Length = 0 then return Empty_Vector; end if; declare First : constant Int := Int (Index_Type'First); Last_As_Int : constant Int'Base := First + Int (Length) - 1; Last : Index_Type; Elements : Elements_Access; begin if Last_As_Int > Index_Type'Pos (Index_Type'Last) then raise Constraint_Error with "Length is out of range"; end if; Last := Index_Type (Last_As_Int); Elements := new Elements_Type (Last); return (Controlled with Elements, Last, 0, 0); end; end To_Vector; function To_Vector (New_Item : Element_Type; Length : Count_Type) return Vector is begin if Length = 0 then return Empty_Vector; end if; declare First : constant Int := Int (Index_Type'First); Last_As_Int : constant Int'Base := First + Int (Length) - 1; Last : Index_Type'Base; Elements : Elements_Access; begin if Last_As_Int > Index_Type'Pos (Index_Type'Last) then raise Constraint_Error with "Length is out of range"; end if; Last := Index_Type (Last_As_Int); Elements := new Elements_Type (Last); Last := Index_Type'First; begin loop Elements.EA (Last) := new Element_Type'(New_Item); exit when Last = Elements.Last; Last := Last + 1; end loop; exception when others => for J in Index_Type'First .. Last - 1 loop Free (Elements.EA (J)); end loop; Free (Elements); raise; end; return (Controlled with Elements, Last, 0, 0); end; end To_Vector; -------------------- -- Update_Element -- -------------------- procedure Update_Element (Container : in out Vector; Index : Index_Type; Process : not null access procedure (Element : in out Element_Type)) is B : Natural renames Container.Busy; L : Natural renames Container.Lock; begin if Index > Container.Last then raise Constraint_Error with "Index is out of range"; end if; if Container.Elements.EA (Index) = null then raise Constraint_Error with "element is null"; end if; B := B + 1; L := L + 1; begin Process (Container.Elements.EA (Index).all); exception when others => L := L - 1; B := B - 1; raise; end; L := L - 1; B := B - 1; end Update_Element; procedure Update_Element (Container : in out Vector; Position : Cursor; Process : not null access procedure (Element : in out Element_Type)) is begin if Position.Container = null then raise Constraint_Error with "Position cursor has no element"; end if; if Position.Container /= Container'Unrestricted_Access then raise Program_Error with "Position cursor denotes wrong container"; end if; Update_Element (Container, Position.Index, Process); end Update_Element; ----------- -- Write -- ----------- procedure Write (Stream : not null access Root_Stream_Type'Class; Container : Vector) is N : constant Count_Type := Length (Container); begin Count_Type'Base'Write (Stream, N); if N = 0 then return; end if; declare E : Elements_Array renames Container.Elements.EA; begin for Indx in Index_Type'First .. Container.Last loop if E (Indx) = null then Boolean'Write (Stream, False); else Boolean'Write (Stream, True); Element_Type'Output (Stream, E (Indx).all); end if; end loop; end; end Write; procedure Write (Stream : not null access Root_Stream_Type'Class; Position : Cursor) is begin raise Program_Error with "attempt to stream vector cursor"; end Write; end Ada.Containers.Indefinite_Vectors;
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