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------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- G N A T . D E C O D E _ S T R I N G -- -- -- -- S p e c -- -- -- -- Copyright (C) 2007-2010, AdaCore -- -- -- -- 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/>. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ -- This package provides a utility routine for converting from an encoded -- string to a corresponding Wide_String or Wide_Wide_String value. with Interfaces; use Interfaces; with System.WCh_Cnv; use System.WCh_Cnv; with System.WCh_Con; use System.WCh_Con; package body GNAT.Decode_String is ----------------------- -- Local Subprograms -- ----------------------- procedure Bad; pragma No_Return (Bad); -- Raise error for bad encoding procedure Past_End; pragma No_Return (Past_End); -- Raise error for off end of string --------- -- Bad -- --------- procedure Bad is begin raise Constraint_Error with "bad encoding or character out of range"; end Bad; --------------------------- -- Decode_Wide_Character -- --------------------------- procedure Decode_Wide_Character (Input : String; Ptr : in out Natural; Result : out Wide_Character) is Char : Wide_Wide_Character; begin Decode_Wide_Wide_Character (Input, Ptr, Char); if Wide_Wide_Character'Pos (Char) > 16#FFFF# then Bad; else Result := Wide_Character'Val (Wide_Wide_Character'Pos (Char)); end if; end Decode_Wide_Character; ------------------------ -- Decode_Wide_String -- ------------------------ function Decode_Wide_String (S : String) return Wide_String is Result : Wide_String (1 .. S'Length); Length : Natural; begin Decode_Wide_String (S, Result, Length); return Result (1 .. Length); end Decode_Wide_String; procedure Decode_Wide_String (S : String; Result : out Wide_String; Length : out Natural) is Ptr : Natural; begin Ptr := S'First; Length := 0; while Ptr <= S'Last loop if Length >= Result'Last then Past_End; end if; Length := Length + 1; Decode_Wide_Character (S, Ptr, Result (Length)); end loop; end Decode_Wide_String; -------------------------------- -- Decode_Wide_Wide_Character -- -------------------------------- procedure Decode_Wide_Wide_Character (Input : String; Ptr : in out Natural; Result : out Wide_Wide_Character) is C : Character; function In_Char return Character; pragma Inline (In_Char); -- Function to get one input character ------------- -- In_Char -- ------------- function In_Char return Character is begin if Ptr <= Input'Last then Ptr := Ptr + 1; return Input (Ptr - 1); else Past_End; end if; end In_Char; -- Start of processing for Decode_Wide_Wide_Character begin C := In_Char; -- Special fast processing for UTF-8 case if Encoding_Method = WCEM_UTF8 then UTF8 : declare U : Unsigned_32; W : Unsigned_32; procedure Get_UTF_Byte; pragma Inline (Get_UTF_Byte); -- Used to interpret 2#10xxxxxx# continuation byte in UTF-8 mode. -- Reads a byte, and raises CE if the first two bits are not 10. -- Otherwise shifts W 6 bits left and or's in the 6 xxxxxx bits. ------------------ -- Get_UTF_Byte -- ------------------ procedure Get_UTF_Byte is begin U := Unsigned_32 (Character'Pos (In_Char)); if (U and 2#11000000#) /= 2#10_000000# then Bad; end if; W := Shift_Left (W, 6) or (U and 2#00111111#); end Get_UTF_Byte; -- Start of processing for UTF8 case begin -- Note: for details of UTF8 encoding see RFC 3629 U := Unsigned_32 (Character'Pos (C)); -- 16#00_0000#-16#00_007F#: 0xxxxxxx if (U and 2#10000000#) = 2#00000000# then Result := Wide_Wide_Character'Val (Character'Pos (C)); -- 16#00_0080#-16#00_07FF#: 110xxxxx 10xxxxxx elsif (U and 2#11100000#) = 2#110_00000# then W := U and 2#00011111#; Get_UTF_Byte; Result := Wide_Wide_Character'Val (W); -- 16#00_0800#-16#00_ffff#: 1110xxxx 10xxxxxx 10xxxxxx elsif (U and 2#11110000#) = 2#1110_0000# then W := U and 2#00001111#; Get_UTF_Byte; Get_UTF_Byte; Result := Wide_Wide_Character'Val (W); -- 16#01_0000#-16#10_FFFF#: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx elsif (U and 2#11111000#) = 2#11110_000# then W := U and 2#00000111#; for K in 1 .. 3 loop Get_UTF_Byte; end loop; Result := Wide_Wide_Character'Val (W); -- 16#0020_0000#-16#03FF_FFFF#: 111110xx 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx elsif (U and 2#11111100#) = 2#111110_00# then W := U and 2#00000011#; for K in 1 .. 4 loop Get_UTF_Byte; end loop; Result := Wide_Wide_Character'Val (W); -- All other cases are invalid, note that this includes: -- 16#0400_0000#-16#7FFF_FFFF#: 1111110x 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx 10xxxxxx -- since Wide_Wide_Character does not include code values -- greater than 16#03FF_FFFF#. else Bad; end if; end UTF8; -- All encoding functions other than UTF-8 else Non_UTF8 : declare function Char_Sequence_To_UTF is new Char_Sequence_To_UTF_32 (In_Char); begin -- For brackets, must test for specific case of [ not followed by -- quotation, where we must not call Char_Sequence_To_UTF, but -- instead just return the bracket unchanged. if Encoding_Method = WCEM_Brackets and then C = '[' and then (Ptr > Input'Last or else Input (Ptr) /= '"') then Result := '['; -- All other cases including [" with Brackets else Result := Wide_Wide_Character'Val (Char_Sequence_To_UTF (C, Encoding_Method)); end if; end Non_UTF8; end if; end Decode_Wide_Wide_Character; ----------------------------- -- Decode_Wide_Wide_String -- ----------------------------- function Decode_Wide_Wide_String (S : String) return Wide_Wide_String is Result : Wide_Wide_String (1 .. S'Length); Length : Natural; begin Decode_Wide_Wide_String (S, Result, Length); return Result (1 .. Length); end Decode_Wide_Wide_String; procedure Decode_Wide_Wide_String (S : String; Result : out Wide_Wide_String; Length : out Natural) is Ptr : Natural; begin Ptr := S'First; Length := 0; while Ptr <= S'Last loop if Length >= Result'Last then Past_End; end if; Length := Length + 1; Decode_Wide_Wide_Character (S, Ptr, Result (Length)); end loop; end Decode_Wide_Wide_String; ------------------------- -- Next_Wide_Character -- ------------------------- procedure Next_Wide_Character (Input : String; Ptr : in out Natural) is begin if Ptr < Input'First then Past_End; end if; -- Special efficient encoding for UTF-8 case if Encoding_Method = WCEM_UTF8 then UTF8 : declare U : Unsigned_32; procedure Getc; pragma Inline (Getc); -- Gets the character at Input (Ptr) and returns code in U as -- Unsigned_32 value. On return Ptr is bumped past the character. procedure Skip_UTF_Byte; pragma Inline (Skip_UTF_Byte); -- Skips past one encoded byte which must be 2#10xxxxxx# ---------- -- Getc -- ---------- procedure Getc is begin if Ptr > Input'Last then Past_End; else U := Unsigned_32 (Character'Pos (Input (Ptr))); Ptr := Ptr + 1; end if; end Getc; ------------------- -- Skip_UTF_Byte -- ------------------- procedure Skip_UTF_Byte is begin Getc; if (U and 2#11000000#) /= 2#10_000000# then Bad; end if; end Skip_UTF_Byte; -- Start of processing for UTF-8 case begin -- 16#00_0000#-16#00_007F#: 0xxxxxxx Getc; if (U and 2#10000000#) = 2#00000000# then return; -- 16#00_0080#-16#00_07FF#: 110xxxxx 10xxxxxx elsif (U and 2#11100000#) = 2#110_00000# then Skip_UTF_Byte; -- 16#00_0800#-16#00_ffff#: 1110xxxx 10xxxxxx 10xxxxxx elsif (U and 2#11110000#) = 2#1110_0000# then Skip_UTF_Byte; Skip_UTF_Byte; -- Any other code is invalid, note that this includes: -- 16#01_0000#-16#10_FFFF#: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx -- 16#0020_0000#-16#03FF_FFFF#: 111110xx 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx -- 16#0400_0000#-16#7FFF_FFFF#: 1111110x 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx 10xxxxxx -- since Wide_Character does not allow codes > 16#FFFF# else Bad; end if; end UTF8; -- Non-UTF-8 case else declare Discard : Wide_Character; begin Decode_Wide_Character (Input, Ptr, Discard); end; end if; end Next_Wide_Character; ------------------------------ -- Next_Wide_Wide_Character -- ------------------------------ procedure Next_Wide_Wide_Character (Input : String; Ptr : in out Natural) is begin -- Special efficient encoding for UTF-8 case if Encoding_Method = WCEM_UTF8 then UTF8 : declare U : Unsigned_32; procedure Getc; pragma Inline (Getc); -- Gets the character at Input (Ptr) and returns code in U as -- Unsigned_32 value. On return Ptr is bumped past the character. procedure Skip_UTF_Byte; pragma Inline (Skip_UTF_Byte); -- Skips past one encoded byte which must be 2#10xxxxxx# ---------- -- Getc -- ---------- procedure Getc is begin if Ptr > Input'Last then Past_End; else U := Unsigned_32 (Character'Pos (Input (Ptr))); Ptr := Ptr + 1; end if; end Getc; ------------------- -- Skip_UTF_Byte -- ------------------- procedure Skip_UTF_Byte is begin Getc; if (U and 2#11000000#) /= 2#10_000000# then Bad; end if; end Skip_UTF_Byte; -- Start of processing for UTF-8 case begin if Ptr < Input'First then Past_End; end if; -- 16#00_0000#-16#00_007F#: 0xxxxxxx Getc; if (U and 2#10000000#) = 2#00000000# then null; -- 16#00_0080#-16#00_07FF#: 110xxxxx 10xxxxxx elsif (U and 2#11100000#) = 2#110_00000# then Skip_UTF_Byte; -- 16#00_0800#-16#00_ffff#: 1110xxxx 10xxxxxx 10xxxxxx elsif (U and 2#11110000#) = 2#1110_0000# then Skip_UTF_Byte; Skip_UTF_Byte; -- 16#01_0000#-16#10_FFFF#: 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx elsif (U and 2#11111000#) = 2#11110_000# then for K in 1 .. 3 loop Skip_UTF_Byte; end loop; -- 16#0020_0000#-16#03FF_FFFF#: 111110xx 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx elsif (U and 2#11111100#) = 2#111110_00# then for K in 1 .. 4 loop Skip_UTF_Byte; end loop; -- Any other code is invalid, note that this includes: -- 16#0400_0000#-16#7FFF_FFFF#: 1111110x 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx 10xxxxxx -- since Wide_Wide_Character does not allow codes > 16#03FF_FFFF# else Bad; end if; end UTF8; -- Non-UTF-8 case else declare Discard : Wide_Wide_Character; begin Decode_Wide_Wide_Character (Input, Ptr, Discard); end; end if; end Next_Wide_Wide_Character; -------------- -- Past_End -- -------------- procedure Past_End is begin raise Constraint_Error with "past end of string"; end Past_End; ------------------------- -- Prev_Wide_Character -- ------------------------- procedure Prev_Wide_Character (Input : String; Ptr : in out Natural) is begin if Ptr > Input'Last + 1 then Past_End; end if; -- Special efficient encoding for UTF-8 case if Encoding_Method = WCEM_UTF8 then UTF8 : declare U : Unsigned_32; procedure Getc; pragma Inline (Getc); -- Gets the character at Input (Ptr - 1) and returns code in U as -- Unsigned_32 value. On return Ptr is decremented by one. procedure Skip_UTF_Byte; pragma Inline (Skip_UTF_Byte); -- Checks that U is 2#10xxxxxx# and then calls Get ---------- -- Getc -- ---------- procedure Getc is begin if Ptr <= Input'First then Past_End; else Ptr := Ptr - 1; U := Unsigned_32 (Character'Pos (Input (Ptr))); end if; end Getc; ------------------- -- Skip_UTF_Byte -- ------------------- procedure Skip_UTF_Byte is begin if (U and 2#11000000#) = 2#10_000000# then Getc; else Bad; end if; end Skip_UTF_Byte; -- Start of processing for UTF-8 case begin -- 16#00_0000#-16#00_007F#: 0xxxxxxx Getc; if (U and 2#10000000#) = 2#00000000# then return; -- 16#00_0080#-16#00_07FF#: 110xxxxx 10xxxxxx else Skip_UTF_Byte; if (U and 2#11100000#) = 2#110_00000# then return; -- 16#00_0800#-16#00_ffff#: 1110xxxx 10xxxxxx 10xxxxxx else Skip_UTF_Byte; if (U and 2#11110000#) = 2#1110_0000# then return; -- Any other code is invalid, note that this includes: -- 16#01_0000#-16#10_FFFF#: 11110xxx 10xxxxxx 10xxxxxx -- 10xxxxxx -- 16#0020_0000#-16#03FF_FFFF#: 111110xx 10xxxxxx -- 10xxxxxx 10xxxxxx -- 10xxxxxx -- 16#0400_0000#-16#7FFF_FFFF#: 1111110x 10xxxxxx -- 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx -- since Wide_Character does not allow codes > 16#FFFF# else Bad; end if; end if; end if; end UTF8; -- Special efficient encoding for brackets case elsif Encoding_Method = WCEM_Brackets then Brackets : declare P : Natural; S : Natural; begin -- See if we have "] at end positions if Ptr > Input'First + 1 and then Input (Ptr - 1) = ']' and then Input (Ptr - 2) = '"' then P := Ptr - 2; -- Loop back looking for [" at start while P >= Ptr - 10 loop if P <= Input'First + 1 then Bad; elsif Input (P - 1) = '"' and then Input (P - 2) = '[' then -- Found ["..."], scan forward to check it S := P - 2; P := S; Next_Wide_Character (Input, P); -- OK if at original pointer, else error if P = Ptr then Ptr := S; return; else Bad; end if; end if; P := P - 1; end loop; -- Falling through loop means more than 8 chars between the -- enclosing brackets (or simply a missing left bracket) Bad; -- Here if no bracket sequence present else if Ptr = Input'First then Past_End; else Ptr := Ptr - 1; end if; end if; end Brackets; -- Non-UTF-8/Brackets. These are the inefficient cases where we have to -- go to the start of the string and skip forwards till Ptr matches. else Non_UTF_Brackets : declare Discard : Wide_Character; PtrS : Natural; PtrP : Natural; begin PtrS := Input'First; if Ptr <= PtrS then Past_End; end if; loop PtrP := PtrS; Decode_Wide_Character (Input, PtrS, Discard); if PtrS = Ptr then Ptr := PtrP; return; elsif PtrS > Ptr then Bad; end if; end loop; exception when Constraint_Error => Bad; end Non_UTF_Brackets; end if; end Prev_Wide_Character; ------------------------------ -- Prev_Wide_Wide_Character -- ------------------------------ procedure Prev_Wide_Wide_Character (Input : String; Ptr : in out Natural) is begin if Ptr > Input'Last + 1 then Past_End; end if; -- Special efficient encoding for UTF-8 case if Encoding_Method = WCEM_UTF8 then UTF8 : declare U : Unsigned_32; procedure Getc; pragma Inline (Getc); -- Gets the character at Input (Ptr - 1) and returns code in U as -- Unsigned_32 value. On return Ptr is decremented by one. procedure Skip_UTF_Byte; pragma Inline (Skip_UTF_Byte); -- Checks that U is 2#10xxxxxx# and then calls Get ---------- -- Getc -- ---------- procedure Getc is begin if Ptr <= Input'First then Past_End; else Ptr := Ptr - 1; U := Unsigned_32 (Character'Pos (Input (Ptr))); end if; end Getc; ------------------- -- Skip_UTF_Byte -- ------------------- procedure Skip_UTF_Byte is begin if (U and 2#11000000#) = 2#10_000000# then Getc; else Bad; end if; end Skip_UTF_Byte; -- Start of processing for UTF-8 case begin -- 16#00_0000#-16#00_007F#: 0xxxxxxx Getc; if (U and 2#10000000#) = 2#00000000# then return; -- 16#00_0080#-16#00_07FF#: 110xxxxx 10xxxxxx else Skip_UTF_Byte; if (U and 2#11100000#) = 2#110_00000# then return; -- 16#00_0800#-16#00_ffff#: 1110xxxx 10xxxxxx 10xxxxxx else Skip_UTF_Byte; if (U and 2#11110000#) = 2#1110_0000# then return; -- 16#01_0000#-16#10_FFFF#: 11110xxx 10xxxxxx 10xxxxxx -- 10xxxxxx else Skip_UTF_Byte; if (U and 2#11111000#) = 2#11110_000# then return; -- 16#0020_0000#-16#03FF_FFFF#: 111110xx 10xxxxxx -- 10xxxxxx 10xxxxxx -- 10xxxxxx else Skip_UTF_Byte; if (U and 2#11111100#) = 2#111110_00# then return; -- Any other code is invalid, note that this includes: -- 16#0400_0000#-16#7FFF_FFFF#: 1111110x 10xxxxxx -- 10xxxxxx 10xxxxxx -- 10xxxxxx 10xxxxxx -- since Wide_Wide_Character does not allow codes -- greater than 16#03FF_FFFF# else Bad; end if; end if; end if; end if; end if; end UTF8; -- Special efficient encoding for brackets case elsif Encoding_Method = WCEM_Brackets then Brackets : declare P : Natural; S : Natural; begin -- See if we have "] at end positions if Ptr > Input'First + 1 and then Input (Ptr - 1) = ']' and then Input (Ptr - 2) = '"' then P := Ptr - 2; -- Loop back looking for [" at start while P >= Ptr - 10 loop if P <= Input'First + 1 then Bad; elsif Input (P - 1) = '"' and then Input (P - 2) = '[' then -- Found ["..."], scan forward to check it S := P - 2; P := S; Next_Wide_Wide_Character (Input, P); -- OK if at original pointer, else error if P = Ptr then Ptr := S; return; else Bad; end if; end if; P := P - 1; end loop; -- Falling through loop means more than 8 chars between the -- enclosing brackets (or simply a missing left bracket) Bad; -- Here if no bracket sequence present else if Ptr = Input'First then Past_End; else Ptr := Ptr - 1; end if; end if; end Brackets; -- Non-UTF-8/Brackets. These are the inefficient cases where we have to -- go to the start of the string and skip forwards till Ptr matches. else Non_UTF8_Brackets : declare Discard : Wide_Wide_Character; PtrS : Natural; PtrP : Natural; begin PtrS := Input'First; if Ptr <= PtrS then Past_End; end if; loop PtrP := PtrS; Decode_Wide_Wide_Character (Input, PtrS, Discard); if PtrS = Ptr then Ptr := PtrP; return; elsif PtrS > Ptr then Bad; end if; end loop; exception when Constraint_Error => Bad; end Non_UTF8_Brackets; end if; end Prev_Wide_Wide_Character; -------------------------- -- Validate_Wide_String -- -------------------------- function Validate_Wide_String (S : String) return Boolean is Ptr : Natural; begin Ptr := S'First; while Ptr <= S'Last loop Next_Wide_Character (S, Ptr); end loop; return True; exception when Constraint_Error => return False; end Validate_Wide_String; ------------------------------- -- Validate_Wide_Wide_String -- ------------------------------- function Validate_Wide_Wide_String (S : String) return Boolean is Ptr : Natural; begin Ptr := S'First; while Ptr <= S'Last loop Next_Wide_Wide_Character (S, Ptr); end loop; return True; exception when Constraint_Error => return False; end Validate_Wide_Wide_String; end GNAT.Decode_String;
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