------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . W I D E _ W I D E _ T E X T _ I O . G E N E R I C _ A U X -- -- -- -- B o d y -- -- -- -- Copyright (C) 1992-2024, 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 -- -- . -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Interfaces.C_Streams; use Interfaces.C_Streams; with System.File_IO; with System.File_Control_Block; package body Ada.Wide_Wide_Text_IO.Generic_Aux is package FIO renames System.File_IO; package FCB renames System.File_Control_Block; subtype AP is FCB.AFCB_Ptr; ------------------------ -- Check_End_Of_Field -- ------------------------ procedure Check_End_Of_Field (Buf : String; Stop : Integer; Ptr : Integer; Width : Field) is begin if Ptr > Stop then return; elsif Width = 0 then raise Data_Error; else for J in Ptr .. Stop loop if not Is_Blank (Buf (J)) then raise Data_Error; end if; end loop; end if; end Check_End_Of_Field; ----------------------- -- Check_On_One_Line -- ----------------------- procedure Check_On_One_Line (File : File_Type; Length : Integer) is begin FIO.Check_Write_Status (AP (File)); if File.Line_Length /= 0 then if Count (Length) > File.Line_Length then raise Layout_Error; elsif File.Col + Count (Length) > File.Line_Length + 1 then New_Line (File); end if; end if; end Check_On_One_Line; -------------- -- Is_Blank -- -------------- function Is_Blank (C : Character) return Boolean is begin return C = ' ' or else C = ASCII.HT; end Is_Blank; ---------- -- Load -- ---------- procedure Load (File : File_Type; Buf : out String; Ptr : in out Integer; Char : Character; Loaded : out Boolean) is ch : int; begin if File.Before_Wide_Wide_Character then Loaded := False; return; else ch := Getc (File); if ch = Character'Pos (Char) then Store_Char (File, ch, Buf, Ptr); Loaded := True; else Ungetc (ch, File); Loaded := False; end if; end if; end Load; procedure Load (File : File_Type; Buf : out String; Ptr : in out Integer; Char : Character) is ch : int; begin if File.Before_Wide_Wide_Character then null; else ch := Getc (File); if ch = Character'Pos (Char) then Store_Char (File, ch, Buf, Ptr); else Ungetc (ch, File); end if; end if; end Load; procedure Load (File : File_Type; Buf : out String; Ptr : in out Integer; Char1 : Character; Char2 : Character; Loaded : out Boolean) is ch : int; begin if File.Before_Wide_Wide_Character then Loaded := False; return; else ch := Getc (File); if ch = Character'Pos (Char1) or else ch = Character'Pos (Char2) then Store_Char (File, ch, Buf, Ptr); Loaded := True; else Ungetc (ch, File); Loaded := False; end if; end if; end Load; procedure Load (File : File_Type; Buf : out String; Ptr : in out Integer; Char1 : Character; Char2 : Character) is ch : int; begin if File.Before_Wide_Wide_Character then null; else ch := Getc (File); if ch = Character'Pos (Char1) or else ch = Character'Pos (Char2) then Store_Char (File, ch, Buf, Ptr); else Ungetc (ch, File); end if; end if; end Load; ----------------- -- Load_Digits -- ----------------- procedure Load_Digits (File : File_Type; Buf : out String; Ptr : in out Integer; Loaded : out Boolean) is ch : int; After_Digit : Boolean; begin if File.Before_Wide_Wide_Character then Loaded := False; return; else ch := Getc (File); if ch not in Character'Pos ('0') .. Character'Pos ('9') then Loaded := False; else Loaded := True; After_Digit := True; loop Store_Char (File, ch, Buf, Ptr); ch := Getc (File); if ch in Character'Pos ('0') .. Character'Pos ('9') then After_Digit := True; elsif ch = Character'Pos ('_') and then After_Digit then After_Digit := False; else exit; end if; end loop; end if; Ungetc (ch, File); end if; end Load_Digits; procedure Load_Digits (File : File_Type; Buf : out String; Ptr : in out Integer) is ch : int; After_Digit : Boolean; begin if File.Before_Wide_Wide_Character then return; else ch := Getc (File); if ch in Character'Pos ('0') .. Character'Pos ('9') then After_Digit := True; loop Store_Char (File, ch, Buf, Ptr); ch := Getc (File); if ch in Character'Pos ('0') .. Character'Pos ('9') then After_Digit := True; elsif ch = Character'Pos ('_') and then After_Digit then After_Digit := False; else exit; end if; end loop; end if; Ungetc (ch, File); end if; end Load_Digits; -------------------------- -- Load_Extended_Digits -- -------------------------- procedure Load_Extended_Digits (File : File_Type; Buf : out String; Ptr : in out Integer; Loaded : out Boolean) is ch : int; After_Digit : Boolean := False; begin if File.Before_Wide_Wide_Character then Loaded := False; return; else Loaded := False; loop ch := Getc (File); if ch in Character'Pos ('0') .. Character'Pos ('9') or else ch in Character'Pos ('a') .. Character'Pos ('f') or else ch in Character'Pos ('A') .. Character'Pos ('F') then After_Digit := True; elsif ch = Character'Pos ('_') and then After_Digit then After_Digit := False; else exit; end if; Store_Char (File, ch, Buf, Ptr); Loaded := True; end loop; Ungetc (ch, File); end if; end Load_Extended_Digits; procedure Load_Extended_Digits (File : File_Type; Buf : out String; Ptr : in out Integer) is Junk : Boolean; begin Load_Extended_Digits (File, Buf, Ptr, Junk); end Load_Extended_Digits; ------------------ -- Load_Integer -- ------------------ procedure Load_Integer (File : File_Type; Buf : out String; Ptr : in out Natural) is Hash_Loc : Natural; Loaded : Boolean; begin Load_Skip (File); -- Note: it is a bit strange to allow a minus sign here, but it seems -- consistent with the general behavior expected by the ACVC tests -- which is to scan past junk and then signal data error, see ACVC -- test CE3704F, case (6), which is for signed integer exponents, -- which seems a similar case. Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr, Loaded); if Loaded then -- Deal with based literal. We recognize either the standard '#' or -- the allowed alternative replacement ':' (see RM J.2(3)). Load (File, Buf, Ptr, '#', ':', Loaded); if Loaded then Hash_Loc := Ptr; Load_Extended_Digits (File, Buf, Ptr); Load (File, Buf, Ptr, Buf (Hash_Loc)); end if; -- Deal with exponent Load (File, Buf, Ptr, 'E', 'e', Loaded); if Loaded then -- Note: it is strange to allow a minus sign, since the syntax -- does not, but that is what ACVC test CE3704F, case (6) wants -- for the signed case, and there seems no good reason to treat -- exponents differently for the signed and unsigned cases. Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr); end if; end if; end Load_Integer; --------------- -- Load_Real -- --------------- procedure Load_Real (File : File_Type; Buf : out String; Ptr : in out Natural) is Loaded : Boolean; begin -- Skip initial blanks and load possible sign Load_Skip (File); Load (File, Buf, Ptr, '+', '-'); -- Case of .nnnn Load (File, Buf, Ptr, '.', Loaded); if Loaded then Load_Digits (File, Buf, Ptr, Loaded); -- Hopeless junk if no digits loaded if not Loaded then return; end if; -- Otherwise must have digits to start else Load_Digits (File, Buf, Ptr, Loaded); -- Hopeless junk if no digits loaded if not Loaded then return; end if; -- Deal with based case. We recognize either the standard '#' or the -- allowed alternative replacement ':' (see RM J.2(3)). Load (File, Buf, Ptr, '#', ':', Loaded); if Loaded then -- Case of nnn#.xxx# Load (File, Buf, Ptr, '.', Loaded); if Loaded then Load_Extended_Digits (File, Buf, Ptr); Load (File, Buf, Ptr, '#', ':'); -- Case of nnn#xxx.[xxx]# or nnn#xxx# else Load_Extended_Digits (File, Buf, Ptr); Load (File, Buf, Ptr, '.', Loaded); if Loaded then Load_Extended_Digits (File, Buf, Ptr); end if; -- As usual, it seems strange to allow mixed base characters, -- but that is what ACVC tests expect, see CE3804M, case (3). Load (File, Buf, Ptr, '#', ':'); end if; -- Case of nnn.[nnn] or nnn else -- Prevent the potential processing of '.' in cases where the -- initial digits have a trailing underscore. if Buf (Ptr) = '_' then return; end if; Load (File, Buf, Ptr, '.', Loaded); if Loaded then Load_Digits (File, Buf, Ptr); end if; end if; end if; -- Deal with exponent Load (File, Buf, Ptr, 'E', 'e', Loaded); if Loaded then Load (File, Buf, Ptr, '+', '-'); Load_Digits (File, Buf, Ptr); end if; end Load_Real; --------------- -- Load_Skip -- --------------- procedure Load_Skip (File : File_Type) is C : Character; begin FIO.Check_Read_Status (AP (File)); -- We need to explicitly test for the case of being before a wide -- character (greater than 16#7F#). Since no such character can -- ever legitimately be a valid numeric character, we can -- immediately signal Data_Error. if File.Before_Wide_Wide_Character then raise Data_Error; end if; -- Otherwise loop till we find a non-blank character (note that as -- usual in Wide_Wide_Text_IO, blank includes horizontal tab). Note that -- Get_Character deals with Before_LM/Before_LM_PM flags appropriately. loop Get_Character (File, C); exit when not Is_Blank (C); end loop; Ungetc (Character'Pos (C), File); File.Col := File.Col - 1; end Load_Skip; ---------------- -- Load_Width -- ---------------- procedure Load_Width (File : File_Type; Width : Field; Buf : out String; Ptr : in out Integer) is ch : int; WC : Wide_Wide_Character; Bad_Wide_Wide_C : Boolean := False; -- Set True if one of the characters read is not in range of type -- Character. This is always a Data_Error, but we do not signal it -- right away, since we have to read the full number of characters. begin FIO.Check_Read_Status (AP (File)); -- If we are immediately before a line mark, then we have no characters. -- This is always a data error, so we may as well raise it right away. if File.Before_LM then raise Data_Error; else for J in 1 .. Width loop if File.Before_Wide_Wide_Character then Bad_Wide_Wide_C := True; Store_Char (File, 0, Buf, Ptr); File.Before_Wide_Wide_Character := False; else ch := Getc (File); if ch = EOF then exit; elsif ch = LM then Ungetc (ch, File); exit; else WC := Get_Wide_Wide_Char (Character'Val (ch), File); ch := Wide_Wide_Character'Pos (WC); if ch > 255 then Bad_Wide_Wide_C := True; ch := 0; end if; Store_Char (File, ch, Buf, Ptr); end if; end if; end loop; if Bad_Wide_Wide_C then raise Data_Error; end if; end if; end Load_Width; -------------- -- Put_Item -- -------------- procedure Put_Item (File : File_Type; Str : String) is begin Check_On_One_Line (File, Str'Length); for J in Str'Range loop Put (File, Wide_Wide_Character'Val (Character'Pos (Str (J)))); end loop; end Put_Item; ---------------- -- Store_Char -- ---------------- procedure Store_Char (File : File_Type; ch : Integer; Buf : out String; Ptr : in out Integer) is begin File.Col := File.Col + 1; if Ptr = Buf'Last then raise Data_Error; else Ptr := Ptr + 1; Buf (Ptr) := Character'Val (ch); end if; end Store_Char; ----------------- -- String_Skip -- ----------------- procedure String_Skip (Str : String; Ptr : out Integer) is begin -- Routines calling String_Skip malfunction if Str'Last = Positive'Last. -- It's too much trouble to make this silly case work, so we just raise -- Program_Error with an appropriate message. We raise Program_Error -- rather than Constraint_Error because we don't want this case to be -- converted to Data_Error. if Str'Last = Positive'Last then raise Program_Error with "string upper bound is Positive'Last, not supported"; end if; -- Normal case where Str'Last < Positive'Last Ptr := Str'First; loop if Ptr > Str'Last then raise End_Error; elsif not Is_Blank (Str (Ptr)) then return; else Ptr := Ptr + 1; end if; end loop; end String_Skip; ------------ -- Ungetc -- ------------ procedure Ungetc (ch : int; File : File_Type) is begin if ch /= EOF then if ungetc (ch, File.Stream) = EOF then raise Device_Error; end if; end if; end Ungetc; end Ada.Wide_Wide_Text_IO.Generic_Aux;