##// END OF EJS Templates
temp
temp

File last commit:

r100:fc97c34d69e3 martin
r249:279a122aaba5 JC
Show More
stdio.vhd
267 lines | 8.3 KiB | text/x-vhdl | VhdlLexer
------------------------------------------------------------------------------
-- This file is a part of the GRLIB VHDL IP LIBRARY
-- Copyright (C) 2003 - 2008, Gaisler Research
-- Copyright (C) 2008 - 2010, Aeroflex Gaisler
--
-- This program is free software; you can redistribute it and/or modify
-- it under the terms of the GNU General Public License as published by
-- the Free Software Foundation; either version 2 of the License, or
-- (at your option) any later version.
--
-- This program is distributed in the hope that it will be useful,
-- but WITHOUT 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
-- along with this program; if not, write to the Free Software
-- Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
--------------------------------------------------------------------------------
-- Package: StdIO
-- File: stdio.vhd
-- Author: Gaisler Research
-- Description: Package for common I/O functions
--------------------------------------------------------------------------------
-- pragma translate_off
library Std;
use Std.Standard.all;
use Std.TextIO.all;
library IEEE;
use IEEE.Std_Logic_1164.all;
-- pragma translate_on
package StdIO is
-- pragma translate_off
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_ULogic_Vector;
variable GOOD: out Boolean);
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_ULogic_Vector);
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_Logic_Vector;
variable GOOD: out Boolean);
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_Logic_Vector);
procedure HWrite(
variable L: inout Line;
constant VALUE: in Std_ULogic_Vector;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0);
procedure HWrite(
variable L: inout Line;
constant VALUE: in Std_Logic_Vector;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0);
procedure Write(
variable L: inout Line;
constant VALUE: in Std_ULogic;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0);
-- pragma translate_on
end package StdIO;
package body StdIO is
-- pragma translate_off
function ToChar(N: Std_ULogic_Vector(0 to 3)) return Character is
begin
case N is
when "0000" => return('0');
when "0001" => return('1');
when "0010" => return('2');
when "0011" => return('3');
when "0100" => return('4');
when "0101" => return('5');
when "0110" => return('6');
when "0111" => return('7');
when "1000" => return('8');
when "1001" => return('9');
when "1010" => return('A');
when "1011" => return('B');
when "1100" => return('C');
when "1101" => return('D');
when "1110" => return('E');
when "1111" => return('F');
when others => return('X');
end case;
end ToChar;
function FromChar(C: Character) return Std_ULogic_Vector is
variable R: Std_ULogic_Vector(0 to 3);
begin
case C is
when '0' => R := "0000";
when '1' => R := "0001";
when '2' => R := "0010";
when '3' => R := "0011";
when '4' => R := "0100";
when '5' => R := "0101";
when '6' => R := "0110";
when '7' => R := "0111";
when '8' => R := "1000";
when '9' => R := "1001";
when 'A' => R := "1010";
when 'B' => R := "1011";
when 'C' => R := "1100";
when 'D' => R := "1101";
when 'E' => R := "1110";
when 'F' => R := "1111";
when 'a' => R := "1010";
when 'b' => R := "1011";
when 'c' => R := "1100";
when 'd' => R := "1101";
when 'e' => R := "1110";
when 'f' => R := "1111";
when others => R := "XXXX";
end case;
return R;
end FromChar;
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_ULogic_Vector;
variable GOOD: out Boolean) is
variable B: Boolean;
variable C: Character;
constant SL: Integer := VALUE'Length;
variable SV: Std_ULogic_Vector(0 to SL-1);
variable S: String(1 to SL/4-1);
begin
if VALUE'Length mod 4 /= 0 then
GOOD := False;
SV := (others => 'X');
VALUE := SV;
return;
end if;
loop
Read(L, C, B);
exit when ((C /= ' ') and (C /= CR) and (C /= HT)) or (not B);
end loop;
SV(0 to 3) := FromChar(C);
if Is_X(SV(0 to 3)) or (not B) then
GOOD := False;
SV := (others => 'X');
VALUE := SV;
return;
end if;
Read(L, S, B);
if not B then
GOOD := False;
SV := (others => 'X');
VALUE := SV;
return;
end if;
for i in 1 to SL/4-1 loop
SV(4*i to 4*i+3) := FromChar(S(i));
if Is_X(SV(4*i to 4*i+3)) then
GOOD := False;
SV := (others => 'X');
VALUE := SV;
return;
end if;
end loop;
GOOD := True;
VALUE := SV;
end HRead;
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_ULogic_Vector) is
variable GOOD: Boolean;
begin
HRead(L, VALUE, GOOD);
assert GOOD
report "HREAD: access incorrect";
end HRead;
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_Logic_Vector;
variable GOOD: out Boolean) is
variable V: Std_ULogic_Vector(0 to Value'Length-1);
begin
HRead(L, V, GOOD);
VALUE := Std_Logic_Vector(V);
end HRead;
procedure HRead(
variable L: inout Line;
variable VALUE: out Std_Logic_Vector) is
variable GOOD: Boolean;
variable V: Std_ULogic_Vector(0 to Value'Length-1);
begin
HRead(L, V, GOOD);
VALUE := Std_Logic_Vector(V);
assert GOOD
report "HREAD: access incorrect";
end HRead;
procedure HWrite(
variable L: inout Line;
constant VALUE: in Std_ULogic_Vector;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0) is
constant PL: Integer := 4-(VALUE'Length mod 4);
constant PV: Std_ULogic_Vector(1 to PL) := (others => '0');
constant TL: Integer := PL + VALUE'Length;
constant TV: Std_ULogic_Vector(0 to TL-1) := PV & Value;
variable S: String(1 to TL/4);
begin
if PL /= 4 then
for i in 0 to TL/4 -1 loop
S(i+1) := ToChar(TV(4*i to 4*i+3));
end loop;
Write(L, S(1 to TL/4), JUSTIFIED, FIELD);
else
for i in 1 to TL/4 -1 loop
S(i+1) := ToChar(TV(4*i to 4*i+3));
end loop;
Write(L, S(2 to TL/4), JUSTIFIED, FIELD);
end if;
end HWrite;
procedure HWrite(
variable L: inout Line;
constant VALUE: in Std_Logic_Vector;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0) is
begin
HWrite(L, Std_ULogic_Vector(VALUE), JUSTIFIED, FIELD);
end HWrite;
procedure Write(
variable L: inout Line;
constant VALUE: in Std_ULogic;
constant JUSTIFIED: in SIDE := RIGHT;
constant FIELD: in WIDTH := 0) is
type Char_Array is array (Std_ULogic) of Character;
constant ToChar: Char_Array := "UX01ZWLH-";
begin
Write(L, ToChar(VALUE), JUSTIFIED, FIELD);
end Write;
-- pragma translate_on
end package body StdIO;