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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [ada/] [get_scos.adb] - Rev 749

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------------------------------------------------------------------------------
--                                                                          --
--                         GNAT COMPILER COMPONENTS                         --
--                                                                          --
--                             G E T _ S C O S                              --
--                                                                          --
--                                 B o d y                                  --
--                                                                          --
--          Copyright (C) 2009-2012, 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.  See the GNU General Public License --
-- for  more details.  You should have  received  a copy of the GNU General --
-- Public License  distributed with GNAT; see file COPYING3.  If not, go to --
-- http://www.gnu.org/licenses for a complete copy of the license.          --
--                                                                          --
-- GNAT was originally developed  by the GNAT team at  New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc.      --
--                                                                          --
------------------------------------------------------------------------------
 
pragma Ada_2005;
--  This unit is not part of the compiler proper, it is used in tools that
--  read SCO information from ALI files (Xcov and sco_test). Ada 2005
--  constructs may therefore be used freely (and are indeed).
 
with SCOs;   use SCOs;
with Snames; use Snames;
with Types;  use Types;
 
with Ada.IO_Exceptions; use Ada.IO_Exceptions;
 
procedure Get_SCOs is
   Dnum : Nat;
   C    : Character;
   Loc1 : Source_Location;
   Loc2 : Source_Location;
   Cond : Character;
   Dtyp : Character;
 
   use ASCII;
   --  For CR/LF
 
   function At_EOL return Boolean;
   --  Skips any spaces, then checks if we are the end of a line. If so,
   --  returns True (but does not skip over the EOL sequence). If not,
   --  then returns False.
 
   procedure Check (C : Character);
   --  Checks that file is positioned at given character, and if so skips past
   --  it, If not, raises Data_Error.
 
   function Get_Int return Int;
   --  On entry the file is positioned to a digit. On return, the file is
   --  positioned past the last digit, and the returned result is the decimal
   --  value read. Data_Error is raised for overflow (value greater than
   --  Int'Last), or if the initial character is not a digit.
 
   procedure Get_Source_Location (Loc : out Source_Location);
   --  Reads a source location in the form line:col and places the source
   --  location in Loc. Raises Data_Error if the format does not match this
   --  requirement. Note that initial spaces are not skipped.
 
   procedure Get_Source_Location_Range (Loc1, Loc2 : out Source_Location);
   --  Skips initial spaces, then reads a source location range in the form
   --  line:col-line:col and places the two source locations in Loc1 and Loc2.
   --  Raises Data_Error if format does not match this requirement.
 
   procedure Skip_EOL;
   --  Called with the current character about to be read being LF or CR. Skips
   --  past CR/LF characters until either a non-CR/LF character is found, or
   --  the end of file is encountered.
 
   procedure Skip_Spaces;
   --  Skips zero or more spaces at the current position, leaving the file
   --  positioned at the first non-blank character (or Types.EOF).
 
   ------------
   -- At_EOL --
   ------------
 
   function At_EOL return Boolean is
   begin
      Skip_Spaces;
      return Nextc = CR or else Nextc = LF;
   end At_EOL;
 
   -----------
   -- Check --
   -----------
 
   procedure Check (C : Character) is
   begin
      if Nextc = C then
         Skipc;
      else
         raise Data_Error;
      end if;
   end Check;
 
   -------------
   -- Get_Int --
   -------------
 
   function Get_Int return Int is
      Val : Int;
      C   : Character;
 
   begin
      C := Nextc;
      Val := 0;
 
      if C not in '0' .. '9' then
         raise Data_Error;
      end if;
 
      --  Loop to read digits of integer value
 
      loop
         declare
            pragma Unsuppress (Overflow_Check);
         begin
            Val := Val * 10 + (Character'Pos (C) - Character'Pos ('0'));
         end;
 
         Skipc;
         C := Nextc;
 
         exit when C not in '0' .. '9';
      end loop;
 
      return Val;
 
   exception
      when Constraint_Error =>
         raise Data_Error;
   end Get_Int;
 
   -------------------------
   -- Get_Source_Location --
   -------------------------
 
   procedure Get_Source_Location (Loc : out Source_Location) is
      pragma Unsuppress (Range_Check);
   begin
      Loc.Line := Logical_Line_Number (Get_Int);
      Check (':');
      Loc.Col := Column_Number (Get_Int);
   exception
      when Constraint_Error =>
         raise Data_Error;
   end Get_Source_Location;
 
   -------------------------------
   -- Get_Source_Location_Range --
   -------------------------------
 
   procedure Get_Source_Location_Range (Loc1, Loc2 : out Source_Location) is
   begin
      Skip_Spaces;
      Get_Source_Location (Loc1);
      Check ('-');
      Get_Source_Location (Loc2);
   end Get_Source_Location_Range;
 
   --------------
   -- Skip_EOL --
   --------------
 
   procedure Skip_EOL is
      C : Character;
 
   begin
      loop
         Skipc;
         C := Nextc;
         exit when C /= LF and then C /= CR;
 
         if C = ' ' then
            Skip_Spaces;
            C := Nextc;
            exit when C /= LF and then C /= CR;
         end if;
      end loop;
   end Skip_EOL;
 
   -----------------
   -- Skip_Spaces --
   -----------------
 
   procedure Skip_Spaces is
   begin
      while Nextc = ' ' loop
         Skipc;
      end loop;
   end Skip_Spaces;
 
   Buf : String (1 .. 32_768);
   N   : Natural;
   --  Scratch buffer, and index into it
 
--  Start of processing for Get_Scos
 
begin
   SCOs.Initialize;
 
   --  Loop through lines of SCO information
 
   while Nextc = 'C' loop
      Skipc;
 
      C := Getc;
 
      --  Make sure first line is a header line
 
      if SCO_Unit_Table.Last = 0 and then C /= ' ' then
         raise Data_Error;
      end if;
 
      --  Otherwise dispatch on type of line
 
      case C is
 
         --  Header entry
 
         when ' ' =>
 
            --  Complete previous entry if any
 
            if SCO_Unit_Table.Last /= 0 then
               SCO_Unit_Table.Table (SCO_Unit_Table.Last).To :=
                 SCO_Table.Last;
            end if;
 
            --  Scan out dependency number and file name
 
            Skip_Spaces;
            Dnum := Get_Int;
 
            Skip_Spaces;
 
            N := 0;
            while Nextc > ' ' loop
               N := N + 1;
               Buf (N) := Getc;
            end loop;
 
            --  Make new unit table entry (will fill in To later)
 
            SCO_Unit_Table.Append (
              (File_Name => new String'(Buf (1 .. N)),
               Dep_Num   => Dnum,
               From      => SCO_Table.Last + 1,
               To        => 0));
 
         --  Statement entry
 
         when 'S' | 's' =>
            declare
               Typ : Character;
               Key : Character;
               Pid : Pragma_Id;
 
            begin
               Key := 'S';
 
               --  If continuation, reset Last indication in last entry stored
               --  for previous CS or cs line.
 
               if C = 's' then
                  SCO_Table.Table (SCO_Table.Last).Last := False;
               end if;
 
               --  Initialize to scan items on one line
 
               Skip_Spaces;
 
               --  Loop through items on one line
 
               loop
                  Pid := Unknown_Pragma;
                  Typ := Nextc;
 
                  case Typ is
                     when '>' =>
 
                        --  Dominance marker may be present only at entry point
 
                        pragma Assert (Key = 'S');
 
                        Skipc;
                        Key := '>';
                        Typ := Getc;
 
                     when '1' .. '9' =>
                        Typ := ' ';
 
                     when others =>
                        Skipc;
                        if Typ = 'P' or else Typ = 'p' then
                           if Nextc not in '1' .. '9' then
                              N := 1;
                              loop
                                 Buf (N) := Getc;
                                 exit when Nextc = ':';
                                 N := N + 1;
                              end loop;
 
                              Skipc;
 
                              begin
                                 Pid :=
                                   Pragma_Id'Value ("pragma_" & Buf (1 .. N));
                              exception
                                 when Constraint_Error =>
 
                                    --  Pid remains set to Unknown_Pragma
 
                                    null;
                              end;
                           end if;
                        end if;
                  end case;
 
                  if Key = '>' and then Typ /= 'E' then
                     Get_Source_Location (Loc1);
                     Loc2 := No_Source_Location;
                  else
                     Get_Source_Location_Range (Loc1, Loc2);
                  end if;
 
                  SCO_Table.Append
                    ((C1          => Key,
                      C2          => Typ,
                      From        => Loc1,
                      To          => Loc2,
                      Last        => At_EOL,
                      Pragma_Sloc => No_Location,
                      Pragma_Name => Pid));
 
                  if Key = '>' then
                     Key := 'S';
                  end if;
 
                  exit when At_EOL;
               end loop;
            end;
 
         --  Decision entry
 
         when 'E' | 'G' | 'I' | 'P' | 'W' | 'X' =>
            Dtyp := C;
            Skip_Spaces;
 
            --  Output header
 
            declare
               Loc : Source_Location;
 
            begin
               --  Acquire location information
 
               if Dtyp = 'X' then
                  Loc := No_Source_Location;
               else
                  Get_Source_Location (Loc);
               end if;
 
               SCO_Table.Append
                 ((C1     => Dtyp,
                   C2     => ' ',
                   From   => Loc,
                   To     => No_Source_Location,
                   Last   => False,
                   others => <>));
            end;
 
            --  Loop through terms in complex expression
 
            C := Nextc;
            while C /= CR and then C /= LF loop
               if C = 'c' or else C = 't' or else C = 'f' then
                  Cond := C;
                  Skipc;
                  Get_Source_Location_Range (Loc1, Loc2);
                  SCO_Table.Append
                    ((C2     => Cond,
                      From   => Loc1,
                      To     => Loc2,
                      Last   => False,
                      others => <>));
 
               elsif C = '!' or else
                     C = '&' or else
                     C = '|'
               then
                  Skipc;
 
                  declare
                     Loc : Source_Location;
                  begin
                     Get_Source_Location (Loc);
                     SCO_Table.Append
                       ((C1     => C,
                         From   => Loc,
                         Last   => False,
                         others => <>));
                  end;
 
               elsif C = ' ' then
                  Skip_Spaces;
 
               elsif C = 'T' or else C = 'F' then
 
                  --  Chaining indicator: skip for now???
 
                  declare
                     Loc1, Loc2 : Source_Location;
                     pragma Unreferenced (Loc1, Loc2);
                  begin
                     Skipc;
                     Get_Source_Location_Range (Loc1, Loc2);
                  end;
 
               else
                  raise Data_Error;
               end if;
 
               C := Nextc;
            end loop;
 
            --  Reset Last indication to True for last entry
 
            SCO_Table.Table (SCO_Table.Last).Last := True;
 
         --  No other SCO lines are possible
 
         when others =>
            raise Data_Error;
      end case;
 
      Skip_EOL;
   end loop;
 
   --  Here with all SCO's stored, complete last SCO Unit table entry
 
   SCO_Unit_Table.Table (SCO_Unit_Table.Last).To := SCO_Table.Last;
end Get_SCOs;
 

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