------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . S T R I N G S . U N B O U N D E D -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2019, 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 -- -- . -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ -- Preconditions in this unit are meant for analysis only, not for run-time -- checking, so that the expected exceptions are raised. This is enforced by -- setting the corresponding assertion policy to Ignore. pragma Assertion_Policy (Pre => Ignore); -- This package provides an implementation of Ada.Strings.Unbounded that uses -- reference counts to implement copy on modification (rather than copy on -- assignment). This is significantly more efficient on many targets. -- This version is supported on: -- - all Alpha platforms -- - all ia64 platforms -- - all PowerPC platforms -- - all SPARC V9 platforms -- - all x86 platforms -- - all x86_64 platforms -- This package uses several techniques to increase speed: -- - Implicit sharing or copy-on-write. An Unbounded_String contains only -- the reference to the data which is shared between several instances. -- The shared data is reallocated only when its value is changed and -- the object mutation can't be used or it is inefficient to use it. -- - Object mutation. Shared data object can be reused without memory -- reallocation when all of the following requirements are met: -- - the shared data object is no longer used by anyone else; -- - the size is sufficient to store the new value; -- - the gap after reuse is less than a defined threshold. -- - Memory preallocation. Most of used memory allocation algorithms -- align allocated segments on the some boundary, thus some amount of -- additional memory can be preallocated without any impact. Such -- preallocated memory can used later by Append/Insert operations -- without reallocation. -- Reference counting uses GCC builtin atomic operations, which allows safe -- sharing of internal data between Ada tasks. Nevertheless, this does not -- make objects of Unbounded_String thread-safe: an instance cannot be -- accessed by several tasks simultaneously. with Ada.Strings.Maps; private with Ada.Finalization; private with System.Atomic_Counters; package Ada.Strings.Unbounded with Initial_Condition => Length (Null_Unbounded_String) = 0 is pragma Preelaborate; type Unbounded_String is private; pragma Preelaborable_Initialization (Unbounded_String); Null_Unbounded_String : constant Unbounded_String; function Length (Source : Unbounded_String) return Natural with Global => null; type String_Access is access all String; procedure Free (X : in out String_Access); -------------------------------------------------------- -- Conversion, Concatenation, and Selection Functions -- -------------------------------------------------------- function To_Unbounded_String (Source : String) return Unbounded_String with Post => Length (To_Unbounded_String'Result) = Source'Length, Global => null; function To_Unbounded_String (Length : Natural) return Unbounded_String with Post => Ada.Strings.Unbounded.Length (To_Unbounded_String'Result) = Length, Global => null; function To_String (Source : Unbounded_String) return String with Post => To_String'Result'Length = Length (Source), Global => null; procedure Set_Unbounded_String (Target : out Unbounded_String; Source : String) with Global => null; pragma Ada_05 (Set_Unbounded_String); procedure Append (Source : in out Unbounded_String; New_Item : Unbounded_String) with Pre => Length (New_Item) <= Natural'Last - Length (Source), Post => Length (Source) = Length (Source)'Old + Length (New_Item), Global => null; procedure Append (Source : in out Unbounded_String; New_Item : String) with Pre => New_Item'Length <= Natural'Last - Length (Source), Post => Length (Source) = Length (Source)'Old + New_Item'Length, Global => null; procedure Append (Source : in out Unbounded_String; New_Item : Character) with Pre => Length (Source) < Natural'Last, Post => Length (Source) = Length (Source)'Old + 1, Global => null; function "&" (Left : Unbounded_String; Right : Unbounded_String) return Unbounded_String with Pre => Length (Right) <= Natural'Last - Length (Left), Post => Length ("&"'Result) = Length (Left) + Length (Right), Global => null; function "&" (Left : Unbounded_String; Right : String) return Unbounded_String with Pre => Right'Length <= Natural'Last - Length (Left), Post => Length ("&"'Result) = Length (Left) + Right'Length, Global => null; function "&" (Left : String; Right : Unbounded_String) return Unbounded_String with Pre => Left'Length <= Natural'Last - Length (Right), Post => Length ("&"'Result) = Left'Length + Length (Right), Global => null; function "&" (Left : Unbounded_String; Right : Character) return Unbounded_String with Pre => Length (Left) < Natural'Last, Post => Length ("&"'Result) = Length (Left) + 1, Global => null; function "&" (Left : Character; Right : Unbounded_String) return Unbounded_String with Pre => Length (Right) < Natural'Last, Post => Length ("&"'Result) = Length (Right) + 1, Global => null; function Element (Source : Unbounded_String; Index : Positive) return Character with Pre => Index <= Length (Source), Global => null; procedure Replace_Element (Source : in out Unbounded_String; Index : Positive; By : Character) with Pre => Index <= Length (Source), Post => Length (Source) = Length (Source)'Old, Global => null; function Slice (Source : Unbounded_String; Low : Positive; High : Natural) return String with Pre => Low - 1 <= Length (Source) and then High <= Length (Source), Post => Slice'Result'Length = Natural'Max (0, High - Low + 1), Global => null; function Unbounded_Slice (Source : Unbounded_String; Low : Positive; High : Natural) return Unbounded_String with Pre => Low - 1 <= Length (Source) and then High <= Length (Source), Post => Length (Unbounded_Slice'Result) = Natural'Max (0, High - Low + 1), Global => null; pragma Ada_05 (Unbounded_Slice); procedure Unbounded_Slice (Source : Unbounded_String; Target : out Unbounded_String; Low : Positive; High : Natural) with Pre => Low - 1 <= Length (Source) and then High <= Length (Source), Post => Length (Target) = Natural'Max (0, High - Low + 1), Global => null; pragma Ada_05 (Unbounded_Slice); function "=" (Left : Unbounded_String; Right : Unbounded_String) return Boolean with Global => null; function "=" (Left : Unbounded_String; Right : String) return Boolean with Global => null; function "=" (Left : String; Right : Unbounded_String) return Boolean with Global => null; function "<" (Left : Unbounded_String; Right : Unbounded_String) return Boolean with Global => null; function "<" (Left : Unbounded_String; Right : String) return Boolean with Global => null; function "<" (Left : String; Right : Unbounded_String) return Boolean with Global => null; function "<=" (Left : Unbounded_String; Right : Unbounded_String) return Boolean with Global => null; function "<=" (Left : Unbounded_String; Right : String) return Boolean with Global => null; function "<=" (Left : String; Right : Unbounded_String) return Boolean with Global => null; function ">" (Left : Unbounded_String; Right : Unbounded_String) return Boolean with Global => null; function ">" (Left : Unbounded_String; Right : String) return Boolean with Global => null; function ">" (Left : String; Right : Unbounded_String) return Boolean with Global => null; function ">=" (Left : Unbounded_String; Right : Unbounded_String) return Boolean with Global => null; function ">=" (Left : Unbounded_String; Right : String) return Boolean with Global => null; function ">=" (Left : String; Right : Unbounded_String) return Boolean with Global => null; ------------------------ -- Search Subprograms -- ------------------------ function Index (Source : Unbounded_String; Pattern : String; Going : Direction := Forward; Mapping : Maps.Character_Mapping := Maps.Identity) return Natural with Pre => Pattern'Length /= 0, Global => null; function Index (Source : Unbounded_String; Pattern : String; Going : Direction := Forward; Mapping : Maps.Character_Mapping_Function) return Natural with Pre => Pattern'Length /= 0, Global => null; function Index (Source : Unbounded_String; Set : Maps.Character_Set; Test : Membership := Inside; Going : Direction := Forward) return Natural with Global => null; function Index (Source : Unbounded_String; Pattern : String; From : Positive; Going : Direction := Forward; Mapping : Maps.Character_Mapping := Maps.Identity) return Natural with Pre => (if Length (Source) /= 0 then From <= Length (Source)) and then Pattern'Length /= 0, Global => null; pragma Ada_05 (Index); function Index (Source : Unbounded_String; Pattern : String; From : Positive; Going : Direction := Forward; Mapping : Maps.Character_Mapping_Function) return Natural with Pre => (if Length (Source) /= 0 then From <= Length (Source)) and then Pattern'Length /= 0, Global => null; pragma Ada_05 (Index); function Index (Source : Unbounded_String; Set : Maps.Character_Set; From : Positive; Test : Membership := Inside; Going : Direction := Forward) return Natural with Pre => (if Length (Source) /= 0 then From <= Length (Source)), Global => null; pragma Ada_05 (Index); function Index_Non_Blank (Source : Unbounded_String; Going : Direction := Forward) return Natural with Global => null; function Index_Non_Blank (Source : Unbounded_String; From : Positive; Going : Direction := Forward) return Natural with Pre => (if Length (Source) /= 0 then From <= Length (Source)), Global => null; pragma Ada_05 (Index_Non_Blank); function Count (Source : Unbounded_String; Pattern : String; Mapping : Maps.Character_Mapping := Maps.Identity) return Natural with Pre => Pattern'Length /= 0, Global => null; function Count (Source : Unbounded_String; Pattern : String; Mapping : Maps.Character_Mapping_Function) return Natural with Pre => Pattern'Length /= 0, Global => null; function Count (Source : Unbounded_String; Set : Maps.Character_Set) return Natural with Global => null; procedure Find_Token (Source : Unbounded_String; Set : Maps.Character_Set; From : Positive; Test : Membership; First : out Positive; Last : out Natural) with Pre => (if Length (Source) /= 0 then From <= Length (Source)), Global => null; pragma Ada_2012 (Find_Token); procedure Find_Token (Source : Unbounded_String; Set : Maps.Character_Set; Test : Membership; First : out Positive; Last : out Natural) with Global => null; ------------------------------------ -- String Translation Subprograms -- ------------------------------------ function Translate (Source : Unbounded_String; Mapping : Maps.Character_Mapping) return Unbounded_String with Post => Length (Translate'Result) = Length (Source), Global => null; procedure Translate (Source : in out Unbounded_String; Mapping : Maps.Character_Mapping) with Post => Length (Source) = Length (Source)'Old, Global => null; function Translate (Source : Unbounded_String; Mapping : Maps.Character_Mapping_Function) return Unbounded_String with Post => Length (Translate'Result) = Length (Source), Global => null; procedure Translate (Source : in out Unbounded_String; Mapping : Maps.Character_Mapping_Function) with Post => Length (Source) = Length (Source)'Old, Global => null; --------------------------------------- -- String Transformation Subprograms -- --------------------------------------- function Replace_Slice (Source : Unbounded_String; Low : Positive; High : Natural; By : String) return Unbounded_String with Pre => Low - 1 <= Length (Source) and then (if High >= Low then Low - 1 <= Natural'Last - By'Length - Natural'Max (Length (Source) - High, 0) else Length (Source) <= Natural'Last - By'Length), Contract_Cases => (High >= Low => Length (Replace_Slice'Result) = Low - 1 + By'Length + Natural'Max (Length (Source)'Old - High, 0), others => Length (Replace_Slice'Result) = Length (Source)'Old + By'Length), Global => null; procedure Replace_Slice (Source : in out Unbounded_String; Low : Positive; High : Natural; By : String) with Pre => Low - 1 <= Length (Source) and then (if High >= Low then Low - 1 <= Natural'Last - By'Length - Natural'Max (Length (Source) - High, 0) else Length (Source) <= Natural'Last - By'Length), Contract_Cases => (High >= Low => Length (Source) = Low - 1 + By'Length + Natural'Max (Length (Source)'Old - High, 0), others => Length (Source) = Length (Source)'Old + By'Length), Global => null; function Insert (Source : Unbounded_String; Before : Positive; New_Item : String) return Unbounded_String with Pre => Before - 1 <= Length (Source) and then New_Item'Length <= Natural'Last - Length (Source), Post => Length (Insert'Result) = Length (Source) + New_Item'Length, Global => null; procedure Insert (Source : in out Unbounded_String; Before : Positive; New_Item : String) with Pre => Before - 1 <= Length (Source) and then New_Item'Length <= Natural'Last - Length (Source), Post => Length (Source) = Length (Source)'Old + New_Item'Length, Global => null; function Overwrite (Source : Unbounded_String; Position : Positive; New_Item : String) return Unbounded_String with Pre => Position - 1 <= Length (Source) and then (if New_Item'Length /= 0 then New_Item'Length <= Natural'Last - (Position - 1)), Post => Length (Overwrite'Result) = Natural'Max (Length (Source), Position - 1 + New_Item'Length), Global => null; procedure Overwrite (Source : in out Unbounded_String; Position : Positive; New_Item : String) with Pre => Position - 1 <= Length (Source) and then (if New_Item'Length /= 0 then New_Item'Length <= Natural'Last - (Position - 1)), Post => Length (Source) = Natural'Max (Length (Source)'Old, Position - 1 + New_Item'Length), Global => null; function Delete (Source : Unbounded_String; From : Positive; Through : Natural) return Unbounded_String with Pre => (if Through <= From then From - 1 <= Length (Source)), Contract_Cases => (Through >= From => Length (Delete'Result) = Length (Source) - (Through - From + 1), others => Length (Delete'Result) = Length (Source)), Global => null; procedure Delete (Source : in out Unbounded_String; From : Positive; Through : Natural) with Pre => (if Through <= From then From - 1 <= Length (Source)), Contract_Cases => (Through >= From => Length (Source) = Length (Source)'Old - (Through - From + 1), others => Length (Source) = Length (Source)'Old), Global => null; function Trim (Source : Unbounded_String; Side : Trim_End) return Unbounded_String with Post => Length (Trim'Result) <= Length (Source), Global => null; procedure Trim (Source : in out Unbounded_String; Side : Trim_End) with Post => Length (Source) <= Length (Source)'Old, Global => null; function Trim (Source : Unbounded_String; Left : Maps.Character_Set; Right : Maps.Character_Set) return Unbounded_String with Post => Length (Trim'Result) <= Length (Source), Global => null; procedure Trim (Source : in out Unbounded_String; Left : Maps.Character_Set; Right : Maps.Character_Set) with Post => Length (Source) <= Length (Source)'Old, Global => null; function Head (Source : Unbounded_String; Count : Natural; Pad : Character := Space) return Unbounded_String with Post => Length (Head'Result) = Count, Global => null; procedure Head (Source : in out Unbounded_String; Count : Natural; Pad : Character := Space) with Post => Length (Source) = Count, Global => null; function Tail (Source : Unbounded_String; Count : Natural; Pad : Character := Space) return Unbounded_String with Post => Length (Tail'Result) = Count, Global => null; procedure Tail (Source : in out Unbounded_String; Count : Natural; Pad : Character := Space) with Post => Length (Source) = Count, Global => null; function "*" (Left : Natural; Right : Character) return Unbounded_String with Pre => Left <= Natural'Last, Post => Length ("*"'Result) = Left, Global => null; function "*" (Left : Natural; Right : String) return Unbounded_String with Pre => (if Left /= 0 then Right'Length <= Natural'Last / Left), Post => Length ("*"'Result) = Left * Right'Length, Global => null; function "*" (Left : Natural; Right : Unbounded_String) return Unbounded_String with Pre => (if Left /= 0 then Length (Right) <= Natural'Last / Left), Post => Length ("*"'Result) = Left * Length (Right), Global => null; private pragma Inline (Length); package AF renames Ada.Finalization; type Shared_String (Max_Length : Natural) is limited record Counter : System.Atomic_Counters.Atomic_Counter; -- Reference counter Last : Natural := 0; Data : String (1 .. Max_Length); -- Last is the index of last significant element of the Data. All -- elements with larger indexes are currently insignificant. end record; type Shared_String_Access is access all Shared_String; procedure Reference (Item : not null Shared_String_Access); -- Increment reference counter procedure Unreference (Item : not null Shared_String_Access); -- Decrement reference counter, deallocate Item when counter goes to zero function Can_Be_Reused (Item : not null Shared_String_Access; Length : Natural) return Boolean; -- Returns True if Shared_String can be reused. There are two criteria when -- Shared_String can be reused: its reference counter must be one (thus -- Shared_String is owned exclusively) and its size is sufficient to -- store string with specified length effectively. function Allocate (Max_Length : Natural) return not null Shared_String_Access; -- Allocates new Shared_String with at least specified maximum length. -- Actual maximum length of the allocated Shared_String can be slightly -- greater. Returns reference to Empty_Shared_String when requested length -- is zero. Empty_Shared_String : aliased Shared_String (0); function To_Unbounded (S : String) return Unbounded_String renames To_Unbounded_String; -- This renames are here only to be used in the pragma Stream_Convert type Unbounded_String is new AF.Controlled with record Reference : not null Shared_String_Access := Empty_Shared_String'Access; end record; pragma Stream_Convert (Unbounded_String, To_Unbounded, To_String); -- Provide stream routines without dragging in Ada.Streams pragma Finalize_Storage_Only (Unbounded_String); -- Finalization is required only for freeing storage overriding procedure Initialize (Object : in out Unbounded_String); overriding procedure Adjust (Object : in out Unbounded_String); overriding procedure Finalize (Object : in out Unbounded_String); pragma Inline (Initialize, Adjust); Null_Unbounded_String : constant Unbounded_String := (AF.Controlled with Reference => Empty_Shared_String'Access); end Ada.Strings.Unbounded;