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|
------------------------------------------------------------------------------
-- --
-- GNAT SYSTEM UTILITIES --
-- --
-- X O S C O N S --
-- --
-- B o d y --
-- --
-- Copyright (C) 2008-2013, 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. --
-- --
------------------------------------------------------------------------------
-- The base name of the template file is given by Argument (1). This program
-- generates the spec for this specified unit (let's call it UNIT_NAME).
-- It works in conjunction with a C template file which must be pre-processed
-- and compiled using the cross compiler. Two input files are used:
-- - the preprocessed C file: UNIT_NAME-tmplt.i
-- - the generated assembly file: UNIT_NAME-tmplt.s
-- The generated files are UNIT_NAME.ads and UNIT_NAME.h
with Ada.Characters.Handling; use Ada.Characters.Handling;
with Ada.Command_Line; use Ada.Command_Line;
with Ada.Exceptions; use Ada.Exceptions;
with Ada.Streams.Stream_IO; use Ada.Streams.Stream_IO;
with Ada.Strings.Fixed; use Ada.Strings.Fixed;
with Ada.Strings.Maps; use Ada.Strings.Maps;
with Ada.Strings.Maps.Constants; use Ada.Strings.Maps.Constants;
with Ada.Text_IO; use Ada.Text_IO;
pragma Warnings (Off);
-- System.Unsigned_Types is an internal GNAT unit
with System.Unsigned_Types; use System.Unsigned_Types;
pragma Warnings (On);
with GNAT.String_Split; use GNAT.String_Split;
with GNAT.Table;
with XUtil; use XUtil;
procedure XOSCons is
use Ada.Strings;
Unit_Name : constant String := Argument (1);
Tmpl_Name : constant String := Unit_Name & "-tmplt";
-------------------------------------------------
-- Information retrieved from assembly listing --
-------------------------------------------------
type String_Access is access all String;
-- Note: we can't use GNAT.Strings for this definition, since that unit
-- is not available in older base compilers.
-- We need to deal with integer values that can be signed or unsigned, so
-- we need to accommodate the maximum range of both cases.
type Int_Value_Type is record
Positive : Boolean;
Abs_Value : Long_Unsigned := 0;
end record;
function ">" (V1, V2 : Int_Value_Type) return Boolean;
function "<" (V1, V2 : Int_Value_Type) return Boolean;
type Asm_Info_Kind is
(CND, -- Named number (decimal)
CNU, -- Named number (decimal, unsigned)
CNS, -- Named number (freeform text)
C, -- Constant object
SUB, -- Subtype
TXT); -- Literal text
-- Recognized markers found in assembly file. These markers are produced by
-- the same-named macros from the C template.
subtype Asm_Int_Kind is Asm_Info_Kind range CND .. CNU;
-- Asm_Info_Kind values with int values in input
subtype Named_Number is Asm_Info_Kind range CND .. CNS;
-- Asm_Info_Kind values with named numbers in output
type Asm_Info (Kind : Asm_Info_Kind := TXT) is record
Line_Number : Integer;
-- Line number in C source file
Constant_Name : String_Access;
-- Name of constant to be defined
Constant_Type : String_Access;
-- Type of constant (case of Kind = C)
Value_Len : Natural := 0;
-- Length of text representation of constant's value
Text_Value : String_Access;
-- Value for CNS / C constant
Int_Value : Int_Value_Type;
-- Value for CND / CNU constant
Comment : String_Access;
-- Additional descriptive comment for constant, or free-form text (TXT)
end record;
package Asm_Infos is new GNAT.Table
(Table_Component_Type => Asm_Info,
Table_Index_Type => Integer,
Table_Low_Bound => 1,
Table_Initial => 100,
Table_Increment => 10);
Max_Constant_Name_Len : Natural := 0;
Max_Constant_Value_Len : Natural := 0;
Max_Constant_Type_Len : Natural := 0;
-- Lengths of longest name and longest value
Size_Of_Unsigned_Int : Integer := 0;
-- Size of unsigned int on target
type Language is (Lang_Ada, Lang_C);
function Parse_Int (S : String; K : Asm_Int_Kind) return Int_Value_Type;
-- Parse a decimal number, preceded by an optional '$' or '#' character,
-- and return its value.
procedure Output_Info
(Lang : Language;
OFile : Sfile;
Info_Index : Integer);
-- Output information from the indicated asm info line
procedure Parse_Asm_Line (Line : String);
-- Parse one information line from the assembly source
function Contains_Template_Name (S : String) return Boolean;
-- True if S contains Tmpl_Name, possibly with different casing
function Spaces (Count : Integer) return String;
-- If Count is positive, return a string of Count spaces, else return an
-- empty string.
---------
-- ">" --
---------
function ">" (V1, V2 : Int_Value_Type) return Boolean is
P1 : Boolean renames V1.Positive;
P2 : Boolean renames V2.Positive;
A1 : Long_Unsigned renames V1.Abs_Value;
A2 : Long_Unsigned renames V2.Abs_Value;
begin
return (P1 and then not P2)
or else (P1 and then P2 and then A1 > A2)
or else (not P1 and then not P2 and then A1 < A2);
end ">";
---------
-- "<" --
---------
function "<" (V1, V2 : Int_Value_Type) return Boolean is
begin
return not (V1 > V2) and then not (V1 = V2);
end "<";
----------------------------
-- Contains_Template_Name --
----------------------------
function Contains_Template_Name (S : String) return Boolean is
begin
if Index (Source => To_Lower (S), Pattern => Tmpl_Name) > 0 then
return True;
else
return False;
end if;
end Contains_Template_Name;
-----------------
-- Output_Info --
-----------------
procedure Output_Info
(Lang : Language;
OFile : Sfile;
Info_Index : Integer)
is
Info : Asm_Info renames Asm_Infos.Table (Info_Index);
procedure Put (S : String);
-- Write S to OFile
---------
-- Put --
---------
procedure Put (S : String) is
begin
Put (OFile, S);
end Put;
-- Start of processing for Output_Info
begin
case Info.Kind is
when TXT =>
-- Handled in the common code for comments below
null;
when SUB =>
case Lang is
when Lang_Ada =>
Put (" subtype " & Info.Constant_Name.all
& " is Interfaces.C."
& Info.Text_Value.all & ";");
when Lang_C =>
Put ("#define " & Info.Constant_Name.all & " "
& Info.Text_Value.all);
end case;
when others =>
-- All named number cases
case Lang is
when Lang_Ada =>
Put (" " & Info.Constant_Name.all);
Put (Spaces (Max_Constant_Name_Len
- Info.Constant_Name'Length));
if Info.Kind in Named_Number then
Put (" : constant := ");
else
Put (" : constant " & Info.Constant_Type.all);
Put (Spaces (Max_Constant_Type_Len
- Info.Constant_Type'Length));
Put (" := ");
end if;
when Lang_C =>
Put ("#define " & Info.Constant_Name.all & " ");
Put (Spaces (Max_Constant_Name_Len
- Info.Constant_Name'Length));
end case;
if Info.Kind in Asm_Int_Kind then
if not Info.Int_Value.Positive then
Put ("-");
end if;
Put (Trim (Info.Int_Value.Abs_Value'Img, Side => Left));
else
declare
Is_String : constant Boolean :=
Info.Kind = C
and then Info.Constant_Type.all = "String";
begin
if Is_String then
Put ("""");
end if;
Put (Info.Text_Value.all);
if Is_String then
Put ("""");
end if;
end;
end if;
if Lang = Lang_Ada then
Put (";");
if Info.Comment'Length > 0 then
Put (Spaces (Max_Constant_Value_Len - Info.Value_Len));
Put (" -- ");
end if;
end if;
end case;
if Lang = Lang_Ada then
Put (Info.Comment.all);
end if;
New_Line (OFile);
end Output_Info;
--------------------
-- Parse_Asm_Line --
--------------------
procedure Parse_Asm_Line (Line : String) is
Index1, Index2 : Integer := Line'First;
function Field_Alloc return String_Access;
-- Allocate and return a copy of Line (Index1 .. Index2 - 1)
procedure Find_Colon (Index : in out Integer);
-- Increment Index until the next colon in Line
-----------------
-- Field_Alloc --
-----------------
function Field_Alloc return String_Access is
begin
return new String'(Line (Index1 .. Index2 - 1));
end Field_Alloc;
----------------
-- Find_Colon --
----------------
procedure Find_Colon (Index : in out Integer) is
begin
loop
Index := Index + 1;
exit when Index > Line'Last or else Line (Index) = ':';
end loop;
end Find_Colon;
-- Start of processing for Parse_Asm_Line
begin
Find_Colon (Index2);
declare
Info : Asm_Info (Kind => Asm_Info_Kind'Value
(Line (Line'First .. Index2 - 1)));
begin
Index1 := Index2 + 1;
Find_Colon (Index2);
Info.Line_Number :=
Integer (Parse_Int (Line (Index1 .. Index2 - 1), CNU).Abs_Value);
case Info.Kind is
when CND | CNU | CNS | C | SUB =>
Index1 := Index2 + 1;
Find_Colon (Index2);
Info.Constant_Name := Field_Alloc;
if Info.Kind /= SUB
and then
Info.Constant_Name'Length > Max_Constant_Name_Len
then
Max_Constant_Name_Len := Info.Constant_Name'Length;
end if;
Index1 := Index2 + 1;
Find_Colon (Index2);
if Info.Kind = C then
Info.Constant_Type := Field_Alloc;
if Info.Constant_Type'Length > Max_Constant_Type_Len then
Max_Constant_Type_Len := Info.Constant_Type'Length;
end if;
Index1 := Index2 + 1;
Find_Colon (Index2);
end if;
if Info.Kind = CND or else Info.Kind = CNU then
Info.Int_Value :=
Parse_Int (Line (Index1 .. Index2 - 1), Info.Kind);
Info.Value_Len := Info.Int_Value.Abs_Value'Img'Length - 1;
if not Info.Int_Value.Positive then
Info.Value_Len := Info.Value_Len + 1;
end if;
else
Info.Text_Value := Field_Alloc;
Info.Value_Len := Info.Text_Value'Length;
end if;
if Info.Constant_Name.all = "SIZEOF_unsigned_int" then
Size_Of_Unsigned_Int :=
8 * Integer (Info.Int_Value.Abs_Value);
end if;
when others =>
null;
end case;
Index1 := Index2 + 1;
Index2 := Line'Last + 1;
Info.Comment := Field_Alloc;
if Info.Kind = TXT then
Info.Text_Value := Info.Comment;
-- Update Max_Constant_Value_Len, but only if this constant has a
-- comment (else the value is allowed to be longer).
elsif Info.Comment'Length > 0 then
if Info.Value_Len > Max_Constant_Value_Len then
Max_Constant_Value_Len := Info.Value_Len;
end if;
end if;
Asm_Infos.Append (Info);
end;
exception
when E : others =>
Put_Line
(Standard_Error, "can't parse " & Line);
Put_Line
(Standard_Error, "exception raised: " & Exception_Information (E));
end Parse_Asm_Line;
----------------
-- Parse_Cond --
----------------
procedure Parse_Cond
(If_Line : String;
Cond : Boolean;
Tmpl_File : Ada.Text_IO.File_Type;
Ada_Ofile, C_Ofile : Sfile;
Current_Line : in out Integer)
is
function Get_Value (Name : String) return Int_Value_Type;
-- Returns the value of the variable Name
---------------
-- Get_Value --
---------------
function Get_Value (Name : String) return Int_Value_Type is
begin
if Is_Subset (To_Set (Name), Decimal_Digit_Set) then
return Parse_Int (Name, CND);
else
for K in 1 .. Asm_Infos.Last loop
if Asm_Infos.Table (K).Constant_Name /= null then
if Name = Asm_Infos.Table (K).Constant_Name.all then
return Asm_Infos.Table (K).Int_Value;
end if;
end if;
end loop;
-- Not found returns 0
return (True, 0);
end if;
end Get_Value;
-- Local variables
Sline : Slice_Set;
Line : String (1 .. 256);
Last : Integer;
Value1 : Int_Value_Type;
Value2 : Int_Value_Type;
Res : Boolean;
-- Start of processing for Parse_Cond
begin
Create (Sline, If_Line, " ");
if Slice_Count (Sline) /= 4 then
Put_Line (Standard_Error, "can't parse " & If_Line);
end if;
Value1 := Get_Value (Slice (Sline, 2));
Value2 := Get_Value (Slice (Sline, 4));
if Slice (Sline, 3) = ">" then
Res := Cond and (Value1 > Value2);
elsif Slice (Sline, 3) = "<" then
Res := Cond and (Value1 < Value2);
elsif Slice (Sline, 3) = "=" then
Res := Cond and (Value1 = Value2);
elsif Slice (Sline, 3) = "/=" then
Res := Cond and (Value1 /= Value2);
else
-- No other operator can be used
Put_Line (Standard_Error, "unknown operator in " & If_Line);
Res := False;
end if;
Current_Line := Current_Line + 1;
loop
Get_Line (Tmpl_File, Line, Last);
Current_Line := Current_Line + 1;
exit when Line (1 .. Last) = "@END_IF";
if Last > 4 and then Line (1 .. 4) = "@IF " then
Parse_Cond
(Line (1 .. Last), Res,
Tmpl_File, Ada_Ofile, C_Ofile, Current_Line);
elsif Line (1 .. Last) = "@ELSE" then
Res := Cond and not Res;
elsif Res then
Put_Line (Ada_OFile, Line (1 .. Last));
Put_Line (C_OFile, Line (1 .. Last));
end if;
end loop;
end Parse_Cond;
---------------
-- Parse_Int --
---------------
function Parse_Int
(S : String;
K : Asm_Int_Kind) return Int_Value_Type
is
First : Integer := S'First;
Result : Int_Value_Type;
begin
-- On some platforms, immediate integer values are prefixed with
-- a $ or # character in assembly output.
if S (First) = '$' or else S (First) = '#' then
First := First + 1;
end if;
if S (First) = '-' then
Result.Positive := False;
First := First + 1;
else
Result.Positive := True;
end if;
Result.Abs_Value := Long_Unsigned'Value (S (First .. S'Last));
if not Result.Positive and then K = CNU then
-- Negative value, but unsigned expected: take 2's complement
-- reciprocical value.
Result.Abs_Value := ((not Result.Abs_Value) + 1)
and
(Shift_Left (1, Size_Of_Unsigned_Int) - 1);
Result.Positive := True;
end if;
return Result;
exception
when others =>
Put_Line (Standard_Error, "can't parse decimal value: " & S);
raise;
end Parse_Int;
------------
-- Spaces --
------------
function Spaces (Count : Integer) return String is
begin
if Count <= 0 then
return "";
else
return (1 .. Count => ' ');
end if;
end Spaces;
-- Local declarations
-- Input files
Tmpl_File_Name : constant String := Tmpl_Name & ".i";
Asm_File_Name : constant String := Tmpl_Name & ".s";
-- Output files
Ada_File_Name : constant String := Unit_Name & ".ads";
C_File_Name : constant String := Unit_Name & ".h";
Asm_File : Ada.Text_IO.File_Type;
Tmpl_File : Ada.Text_IO.File_Type;
Ada_OFile : Sfile;
C_OFile : Sfile;
Line : String (1 .. 256);
Last : Integer;
-- Line being processed
Current_Line : Integer;
Current_Info : Integer;
In_Comment : Boolean;
In_Template : Boolean;
-- Start of processing for XOSCons
begin
-- Load values from assembly file
Open (Asm_File, In_File, Asm_File_Name);
while not End_Of_File (Asm_File) loop
Get_Line (Asm_File, Line, Last);
if Last > 2 and then Line (1 .. 2) = "->" then
Parse_Asm_Line (Line (3 .. Last));
end if;
end loop;
Close (Asm_File);
-- Load C template and output definitions
Open (Tmpl_File, In_File, Tmpl_File_Name);
Create (Ada_OFile, Out_File, Ada_File_Name);
Create (C_OFile, Out_File, C_File_Name);
Current_Line := 0;
Current_Info := Asm_Infos.First;
In_Comment := False;
while not End_Of_File (Tmpl_File) loop
<<Get_One_Line>>
Get_Line (Tmpl_File, Line, Last);
if Last >= 2 and then Line (1 .. 2) = "# " then
declare
Index : Integer;
begin
Index := 3;
while Index <= Last and then Line (Index) in '0' .. '9' loop
Index := Index + 1;
end loop;
if Contains_Template_Name (Line (Index + 1 .. Last)) then
Current_Line := Integer'Value (Line (3 .. Index - 1));
In_Template := True;
goto Get_One_Line;
else
In_Template := False;
end if;
end;
elsif In_Template then
if In_Comment then
if Line (1 .. Last) = "*/" then
Put_Line (C_OFile, Line (1 .. Last));
In_Comment := False;
elsif Last > 4 and then Line (1 .. 4) = "@IF " then
Parse_Cond
(Line (1 .. Last), True,
Tmpl_File, Ada_Ofile, C_Ofile, Current_Line);
else
Put_Line (Ada_OFile, Line (1 .. Last));
Put_Line (C_OFile, Line (1 .. Last));
end if;
elsif Line (1 .. Last) = "/*" then
Put_Line (C_OFile, Line (1 .. Last));
In_Comment := True;
elsif Asm_Infos.Table (Current_Info).Line_Number = Current_Line then
if Fixed.Index (Line, "/*NOGEN*/") = 0 then
Output_Info (Lang_Ada, Ada_OFile, Current_Info);
Output_Info (Lang_C, C_OFile, Current_Info);
end if;
Current_Info := Current_Info + 1;
end if;
Current_Line := Current_Line + 1;
end if;
end loop;
Close (Tmpl_File);
exception
when others =>
Put_Line ("xoscons <base_name>");
end XOSCons;
|