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[/] [common_pkg/] [trunk/] [common_str_pkg.vhd] - Rev 15

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-------------------------------------------------------------------------------
--
-- Copyright (C) 2019
-- ASTRON (Netherlands Institute for Radio Astronomy) <http://www.astron.nl/>
-- P.O.Box 2, 7990 AA Dwingeloo, The Netherlands
--
-- 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 3 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, see <http://www.gnu.org/licenses/>.
--
-------------------------------------------------------------------------------
 
-- Author:
-- . Daniel van der Schuur
-- Purpose:
-- . Collection of commonly used string funtions
-- Interface:
-- . [n/a]
-- Description:
-- . None
 
LIBRARY IEEE;
USE IEEE.STD_LOGIC_1164.ALL;
USE IEEE.NUMERIC_STD.ALL;
USE STD.TEXTIO.ALL;
USE IEEE.STD_LOGIC_TEXTIO.ALL;
USE work.common_pkg.ALL;
 
PACKAGE common_str_pkg IS
 
  TYPE t_str_4_arr IS ARRAY (INTEGER RANGE <>) OF STRING(1 TO 4);
 
  FUNCTION nof_digits(number: NATURAL) RETURN NATURAL;
  FUNCTION nof_digits_int(number: INTEGER) RETURN NATURAL;
 
  FUNCTION time_to_str(in_time : TIME) RETURN STRING;
  FUNCTION str_to_time(in_str : STRING) RETURN TIME;
  FUNCTION slv_to_str(slv : STD_LOGIC_VECTOR) RETURN STRING;
  FUNCTION str_to_hex(str : STRING) RETURN STRING;
  FUNCTION slv_to_hex(slv : STD_LOGIC_VECTOR) RETURN STRING;
  FUNCTION hex_to_slv(str : STRING) RETURN STD_LOGIC_VECTOR;
 
  Function hex_nibble_to_slv(c: character) return std_logic_vector;
 
  FUNCTION int_to_str(int: INTEGER) RETURN STRING;
  FUNCTION real_to_str(re: REAL; width : INTEGER; digits : INTEGER) RETURN STRING;
 
  PROCEDURE print_str(str : STRING);
 
  FUNCTION str_to_ascii_integer_arr(s: STRING) RETURN t_integer_arr;
  FUNCTION str_to_ascii_slv_8_arr(  s: STRING) RETURN t_slv_8_arr;
  FUNCTION str_to_ascii_slv_32_arr( s: STRING) RETURN t_slv_32_arr;
  FUNCTION str_to_ascii_slv_32_arr( s: STRING; arr_size : NATURAL) RETURN t_slv_32_arr;
 
END common_str_pkg;
 
PACKAGE BODY common_str_pkg IS
 
  FUNCTION nof_digits(number: NATURAL) RETURN NATURAL IS
  -- Returns number of digits in a natural number. Only used in string processing, so defined here.
  -- log10(0) is not allowed so:
  -- . nof_digits(0) = 1
  -- We're adding 1 so:
  -- . nof_digits(1) = 1
  -- . nof_digits(9) = 1
  -- . nof_digits(10) = 2
  BEGIN
    IF number>0 THEN
      RETURN floor_log10(number)+1;
    ELSE 
      RETURN 1;
    END IF;
  END;
 
  FUNCTION nof_digits_int(number: INTEGER) RETURN NATURAL IS
  -- Returns number of digits in a natural number. Only used in string processing, so defined here.
  -- log10(0) is not allowed so:
  -- . nof_digits(0) = 1
  -- We're adding 1 so:
  -- . nof_digits(1) = 1
  -- . nof_digits(9) = 1
  -- . nof_digits(10) = 2
  -- . nof_digits(1) = 2
  BEGIN
    IF number=0 THEN
      RETURN 1;
    ELSE  
      IF number > 0 THEN
        RETURN floor_log10(number)+1;
      ELSE
        RETURN floor_log10(-1*number)+2;
      END IF;
    END IF;
  END;
 
  FUNCTION time_to_str(in_time : TIME) RETURN STRING IS
    CONSTANT c_max_len_time : NATURAL := 20;
  	VARIABLE v_line         : LINE;
  	VARIABLE v_str          : STRING(1 TO c_max_len_time):= (OTHERS => ' '); 
  BEGIN
    write(v_line, in_time);
  	v_str(v_line.ALL'RANGE) := v_line.ALL;
  	deallocate(v_line);
  	RETURN v_str;
  END;
 
  FUNCTION str_to_time(in_str : STRING) RETURN TIME IS
  BEGIN
    RETURN TIME'VALUE(in_str);
  END;
 
  FUNCTION slv_to_str(slv : STD_LOGIC_VECTOR) RETURN STRING IS
    VARIABLE v_line : LINE;  
    VARIABLE v_str  : STRING(1 TO slv'LENGTH) := (OTHERS => ' ');
  BEGIN
     write(v_line, slv);
     v_str(v_line.ALL'RANGE) := v_line.ALL;
     deallocate(v_line);
     RETURN v_str;
  END;
 
  FUNCTION str_to_hex(str : STRING) RETURN STRING IS
    CONSTANT c_nof_nibbles : NATURAL := ceil_div(str'LENGTH, c_nibble_w);
    VARIABLE v_nibble_arr  : t_str_4_arr(0 TO c_nof_nibbles-1) := (OTHERS=>(OTHERS=>'0'));
    VARIABLE v_hex         : STRING(1 TO c_nof_nibbles) := (OTHERS => '0');
  BEGIN
    FOR i IN 0 TO v_hex'RIGHT-1 LOOP
      v_nibble_arr(i) := slice_up(str, c_nibble_w, i, '0'); 
 
      CASE v_nibble_arr(i) IS
        WHEN "0000" => v_hex(i+1) := '0';
        WHEN "0001" => v_hex(i+1) := '1'; 
        WHEN "0010" => v_hex(i+1) := '2';
        WHEN "0011" => v_hex(i+1) := '3';
        WHEN "0100" => v_hex(i+1) := '4';
        WHEN "0101" => v_hex(i+1) := '5';
        WHEN "0110" => v_hex(i+1) := '6';
        WHEN "0111" => v_hex(i+1) := '7';
        WHEN "1000" => v_hex(i+1) := '8';
        WHEN "1001" => v_hex(i+1) := '9';
        WHEN "1010" => v_hex(i+1) := 'A';
        WHEN "1011" => v_hex(i+1) := 'B';
        WHEN "1100" => v_hex(i+1) := 'C';
        WHEN "1101" => v_hex(i+1) := 'D';
        WHEN "1110" => v_hex(i+1) := 'E';
        WHEN "1111" => v_hex(i+1) := 'F';
        WHEN OTHERS => v_hex(i+1) := 'X';
      END CASE; 
    END LOOP;
    RETURN v_hex; 
  END;
 
  FUNCTION slv_to_hex(slv :STD_LOGIC_VECTOR) RETURN STRING IS 
  BEGIN 
    RETURN str_to_hex(slv_to_str(slv));
  END;
 
  FUNCTION hex_to_slv(str: STRING) RETURN STD_LOGIC_VECTOR IS
  CONSTANT c_length : NATURAL := str'LENGTH;
  VARIABLE v_str    : STRING(1 TO str'LENGTH) := str; -- Keep local copy of str to prevent range mismatch
  VARIABLE v_result : STD_LOGIC_VECTOR(c_length * 4 - 1 DOWNTO 0);
  BEGIN 
   FOR i IN c_length DOWNTO 1 LOOP
       v_result(3 +(c_length - i)*4  DOWNTO (c_length-i)*4) := hex_nibble_to_slv(v_str(i));
   END LOOP;
   RETURN v_result;
  END;
 
  FUNCTION hex_nibble_to_slv(c: CHARACTER) RETURN STD_LOGIC_VECTOR IS
    VARIABLE v_result : STD_LOGIC_VECTOR(3 DOWNTO 0);
  BEGIN
    CASE c IS
      WHEN '0' => v_result :=  "0000";
      WHEN '1' => v_result :=  "0001";
      WHEN '2' => v_result :=  "0010";
      WHEN '3' => v_result :=  "0011";
      WHEN '4' => v_result :=  "0100";
      WHEN '5' => v_result :=  "0101";
      WHEN '6' => v_result :=  "0110";
      WHEN '7' => v_result :=  "0111";
      WHEN '8' => v_result :=  "1000";
      WHEN '9' => v_result :=  "1001";
      WHEN 'A' => v_result :=  "1010";
      WHEN 'B' => v_result :=  "1011";
      WHEN 'C' => v_result :=  "1100";
      WHEN 'D' => v_result :=  "1101";
      WHEN 'E' => v_result :=  "1110";
      WHEN 'F' => v_result :=  "1111";
      WHEN 'a' => v_result :=  "1010";
      WHEN 'b' => v_result :=  "1011";
      WHEN 'c' => v_result :=  "1100";
      WHEN 'd' => v_result :=  "1101";
      WHEN 'e' => v_result :=  "1110";
      WHEN 'f' => v_result :=  "1111";
      WHEN 'x' => v_result :=  "XXXX";
      WHEN 'X' => v_result :=  "XXXX";
      WHEN 'z' => v_result :=  "ZZZZ";
      WHEN 'Z' => v_result :=  "ZZZZ";
 
	    WHEN OTHERS => v_result := "0000";
     END CASE;
   RETURN v_result;
  END hex_nibble_to_slv;
 
  FUNCTION int_to_str(int: INTEGER) RETURN STRING IS
    VARIABLE v_line: LINE;
    VARIABLE v_str: STRING(1 TO nof_digits_int(int)):= (OTHERS => ' ');
  BEGIN 
    STD.TEXTIO.WRITE(v_line, int);
    v_str(v_line.ALL'RANGE) := v_line.ALL;
    deallocate(v_line);
    RETURN v_str;        
  END;
 
  FUNCTION real_to_str(re: REAL; width : INTEGER; digits : INTEGER) RETURN STRING IS
    VARIABLE v_line: LINE;
    VARIABLE v_str: STRING(1 TO width):= (OTHERS => ' ');
  BEGIN 
    STD.TEXTIO.WRITE(v_line, re, right, width, digits);
    v_str(v_line.ALL'RANGE) := v_line.ALL;
    deallocate(v_line);
    RETURN v_str;        
  END;
 
  PROCEDURE print_str(str: STRING) IS
  VARIABLE v_line: LINE;
  BEGIN
    write(v_line, str);
    writeline(output, v_line);
    deallocate(v_line);
  END;
 
  FUNCTION str_to_ascii_integer_arr(s: STRING) RETURN t_integer_arr IS
    VARIABLE r: t_integer_arr(0 TO s'RIGHT-1);
  BEGIN
    FOR i IN s'RANGE LOOP
      r(i-1) := CHARACTER'POS(s(i));
    END LOOP;
    RETURN r;
  END;
 
  FUNCTION str_to_ascii_slv_8_arr(s: STRING) RETURN t_slv_8_arr IS
    VARIABLE r: t_slv_8_arr(0 TO s'RIGHT-1);
  BEGIN
    FOR i IN s'RANGE LOOP
      r(i-1) := TO_UVEC(str_to_ascii_integer_arr(s)(i-1), 8);
    END LOOP;
    RETURN r;
  END;
 
  -- Returns minimum array size required to fit the string
  FUNCTION str_to_ascii_slv_32_arr(s: STRING) RETURN t_slv_32_arr IS
    CONSTANT c_slv_8: t_slv_8_arr(0 TO s'RIGHT-1) := str_to_ascii_slv_8_arr(s);
    CONSTANT c_bytes_per_word : NATURAL := 4;
    -- Initialize all elements to (OTHERS=>'0') so any unused bytes become a NULL character
    VARIABLE r: t_slv_32_arr(0 TO ceil_div(s'RIGHT * c_byte_w, c_word_w)-1) := (OTHERS=>(OTHERS=>'0'));
  BEGIN
    FOR word IN r'RANGE  LOOP --0, 1
      FOR byte IN 0 TO c_bytes_per_word-1 LOOP -- 0,1,2,3
        IF byte+c_bytes_per_word*word<=c_slv_8'RIGHT THEN
          r(word)(byte*c_byte_w+c_byte_w-1 DOWNTO byte*c_byte_w) := c_slv_8(byte+c_bytes_per_word*word); 
        END IF;
      END LOOP;
    END LOOP;
 
    RETURN r;
  END;
 
  -- Overloaded version to match array size to arr_size
  FUNCTION str_to_ascii_slv_32_arr(s: STRING; arr_size: NATURAL) RETURN t_slv_32_arr IS
    CONSTANT slv_32: t_slv_32_arr(0 TO ceil_div(s'RIGHT * c_byte_w, c_word_w)-1) := str_to_ascii_slv_32_arr(s);   
    VARIABLE r: t_slv_32_arr(0 TO arr_size-1) := (OTHERS=>(OTHERS=>'0'));
  BEGIN
    FOR word IN slv_32'RANGE  LOOP
      r(word) := slv_32(word);
    END LOOP;
    RETURN r;
  END;
 
END common_str_pkg;
 
 

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