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---------------------------------------------------------------------- ---- ---- ---- txt_util.vhd ---- ---- ---- ---- This file is part of the PlTbUtils project ---- ---- http://opencores.org/project,pltbutils ---- ---- ---- ---- Description: ---- ---- PlTbUtils is a collection of functions, procedures and ---- ---- components for easily creating stimuli and checking response ---- ---- in automatic self-checking testbenches. ---- ---- ---- ---- This file defines useful functions an procedures for text ---- ---- handling text in VHDL. ---- ---- ---- ---- To Do: ---- ---- - ---- ---- ---- ---- Source: ---- ---- http://www.mrc.uidaho.edu/mrc/people/jff/vhdl_info/txt_util.vhd - ---- Thanks to Stefan Doll and James F. Frenzel. ---- ---- ---------------------------------------------------------------------- -- -- Disclaimer: Derived from txt_util.vhd on www.stefanvhdl.com -- -- Revision History: -- -- 1.0 URL: http://www.stefanvhdl.com/vhdl/vhdl/txt_util.vhd -- -- 1.1 Modified str_read() to prevent extra character (JFF) -- -- 1.2 Added is_whitespace() and strip_whitespace() (JFF) -- -- 1.3 Added first_string() and chomp() (JFF) -- -- 1.4 Added hex string and integer string conversion (JFF) -- ---------------------------------------------------------------- library ieee; use ieee.std_logic_1164.all; use std.textio.all; package txt_util is -- prints a message to the screen procedure print(text: string); -- prints the message when active -- useful for debug switches procedure print(active: boolean; text: string); -- converts std_logic into a character function chr(sl: std_logic) return character; -- converts std_logic into a string (1 to 1) function str(sl: std_logic) return string; -- converts std_logic_vector into a string (binary base) function str(slv: std_logic_vector) return string; -- converts boolean into a string function str(b: boolean) return string; -- converts an integer into a single character -- (can also be used for hex conversion and other bases) function chr(int: integer) return character; -- converts integer into string using specified base function str(int: integer; base: integer) return string; -- converts integer to string, using base 10 function str(int: integer) return string; -- convert std_logic_vector into a string in hex format function hstr(slv: std_logic_vector) return string; -- functions to manipulate strings ----------------------------------- -- convert a character to upper case function to_upper(c: character) return character; -- convert a character to lower case function to_lower(c: character) return character; -- convert a string to upper case function to_upper(s: string) return string; -- convert a string to lower case function to_lower(s: string) return string; -- checks if whitespace (JFF) function is_whitespace(c: character) return boolean; -- remove leading whitespace (JFF) function strip_whitespace(s: string) return string; -- return first nonwhitespace substring (JFF) function first_string(s: string) return string; -- finds the first non-whitespace substring in a string and (JFF) -- returns both the substring and the original with the substring removed procedure chomp(variable s: inout string; variable shead: out string); -- functions to convert strings into other formats -------------------------------------------------- -- converts a character into std_logic function to_std_logic(c: character) return std_logic; -- converts a hex character into std_logic_vector (JFF) function chr_to_slv(c: character) return std_logic_vector; -- converts a character into int (JFF) function chr_to_int(c: character) return integer; -- converts a binary string into std_logic_vector function to_std_logic_vector(s: string) return std_logic_vector; -- converts a hex string into std_logic_vector (JFF) function hstr_to_slv(s: string) return std_logic_vector; -- converts a decimal string into an integer (JFF) function str_to_int(s: string) return integer; -- file I/O ----------- -- read variable length string from input file procedure str_read(file in_file: TEXT; res_string: out string); -- print string to a file and start new line procedure print(file out_file: TEXT; new_string: in string); -- print character to a file and start new line procedure print(file out_file: TEXT; char: in character); end txt_util; package body txt_util is -- prints text to the screen procedure print(text: string) is variable msg_line: line; begin write(msg_line, text); writeline(output, msg_line); end print; -- prints text to the screen when active procedure print(active: boolean; text: string) is begin if active then print(text); end if; end print; -- converts std_logic into a character function chr(sl: std_logic) return character is variable c: character; begin case sl is when 'U' => c:= 'U'; when 'X' => c:= 'X'; when '0' => c:= '0'; when '1' => c:= '1'; when 'Z' => c:= 'Z'; when 'W' => c:= 'W'; when 'L' => c:= 'L'; when 'H' => c:= 'H'; when '-' => c:= '-'; end case; return c; end chr; -- converts std_logic into a string (1 to 1) function str(sl: std_logic) return string is variable s: string(1 to 1); begin s(1) := chr(sl); return s; end str; -- converts std_logic_vector into a string (binary base) -- (this also takes care of the fact that the range of -- a string is natural while a std_logic_vector may -- have an integer range) function str(slv: std_logic_vector) return string is variable result : string (1 to slv'length); variable r : integer; begin r := 1; for i in slv'range loop result(r) := chr(slv(i)); r := r + 1; end loop; return result; end str; function str(b: boolean) return string is begin if b then return "true"; else return "false"; end if; end str; -- converts an integer into a character -- for 0 to 9 the obvious mapping is used, higher -- values are mapped to the characters A-Z -- (this is usefull for systems with base > 10) -- (adapted from Steve Vogwell's posting in comp.lang.vhdl) function chr(int: integer) return character is variable c: character; begin case int is when 0 => c := '0'; when 1 => c := '1'; when 2 => c := '2'; when 3 => c := '3'; when 4 => c := '4'; when 5 => c := '5'; when 6 => c := '6'; when 7 => c := '7'; when 8 => c := '8'; when 9 => c := '9'; when 10 => c := 'A'; when 11 => c := 'B'; when 12 => c := 'C'; when 13 => c := 'D'; when 14 => c := 'E'; when 15 => c := 'F'; when 16 => c := 'G'; when 17 => c := 'H'; when 18 => c := 'I'; when 19 => c := 'J'; when 20 => c := 'K'; when 21 => c := 'L'; when 22 => c := 'M'; when 23 => c := 'N'; when 24 => c := 'O'; when 25 => c := 'P'; when 26 => c := 'Q'; when 27 => c := 'R'; when 28 => c := 'S'; when 29 => c := 'T'; when 30 => c := 'U'; when 31 => c := 'V'; when 32 => c := 'W'; when 33 => c := 'X'; when 34 => c := 'Y'; when 35 => c := 'Z'; when others => c := '?'; end case; return c; end chr; -- convert integer to string using specified base -- (adapted from Steve Vogwell's posting in comp.lang.vhdl) function str(int: integer; base: integer) return string is variable temp: string(1 to 10); variable num: integer; variable abs_int: integer; variable len: integer := 1; variable power: integer := 1; begin -- bug fix for negative numbers abs_int := abs(int); num := abs_int; while num >= base loop -- Determine how many len := len + 1; -- characters required num := num / base; -- to represent the end loop ; -- number. for i in len downto 1 loop -- Convert the number to temp(i) := chr(abs_int/power mod base); -- a string starting power := power * base; -- with the right hand end loop ; -- side. -- return result and add sign if required if int < 0 then return '-'& temp(1 to len); else return temp(1 to len); end if; end str; -- convert integer to string, using base 10 function str(int: integer) return string is begin return str(int, 10) ; end str; -- converts a std_logic_vector into a hex string. function hstr(slv: std_logic_vector) return string is variable hexlen: integer; variable longslv : std_logic_vector(67 downto 0) := (others => '0'); variable hex : string(1 to 16); variable fourbit : std_logic_vector(3 downto 0); begin hexlen := (slv'left+1)/4; if (slv'left+1) mod 4 /= 0 then hexlen := hexlen + 1; end if; longslv(slv'left downto 0) := slv; for i in (hexlen -1) downto 0 loop fourbit := longslv(((i*4)+3) downto (i*4)); case fourbit is when "0000" => hex(hexlen -I) := '0'; when "0001" => hex(hexlen -I) := '1'; when "0010" => hex(hexlen -I) := '2'; when "0011" => hex(hexlen -I) := '3'; when "0100" => hex(hexlen -I) := '4'; when "0101" => hex(hexlen -I) := '5'; when "0110" => hex(hexlen -I) := '6'; when "0111" => hex(hexlen -I) := '7'; when "1000" => hex(hexlen -I) := '8'; when "1001" => hex(hexlen -I) := '9'; when "1010" => hex(hexlen -I) := 'A'; when "1011" => hex(hexlen -I) := 'B'; when "1100" => hex(hexlen -I) := 'C'; when "1101" => hex(hexlen -I) := 'D'; when "1110" => hex(hexlen -I) := 'E'; when "1111" => hex(hexlen -I) := 'F'; when "ZZZZ" => hex(hexlen -I) := 'z'; when "UUUU" => hex(hexlen -I) := 'u'; when "XXXX" => hex(hexlen -I) := 'x'; when others => hex(hexlen -I) := '?'; end case; end loop; return hex(1 to hexlen); end hstr; -- functions to manipulate strings ----------------------------------- -- convert a character to upper case function to_upper(c: character) return character is variable u: character; begin case c is when 'a' => u := 'A'; when 'b' => u := 'B'; when 'c' => u := 'C'; when 'd' => u := 'D'; when 'e' => u := 'E'; when 'f' => u := 'F'; when 'g' => u := 'G'; when 'h' => u := 'H'; when 'i' => u := 'I'; when 'j' => u := 'J'; when 'k' => u := 'K'; when 'l' => u := 'L'; when 'm' => u := 'M'; when 'n' => u := 'N'; when 'o' => u := 'O'; when 'p' => u := 'P'; when 'q' => u := 'Q'; when 'r' => u := 'R'; when 's' => u := 'S'; when 't' => u := 'T'; when 'u' => u := 'U'; when 'v' => u := 'V'; when 'w' => u := 'W'; when 'x' => u := 'X'; when 'y' => u := 'Y'; when 'z' => u := 'Z'; when others => u := c; end case; return u; end to_upper; -- convert a character to lower case function to_lower(c: character) return character is variable l: character; begin case c is when 'A' => l := 'a'; when 'B' => l := 'b'; when 'C' => l := 'c'; when 'D' => l := 'd'; when 'E' => l := 'e'; when 'F' => l := 'f'; when 'G' => l := 'g'; when 'H' => l := 'h'; when 'I' => l := 'i'; when 'J' => l := 'j'; when 'K' => l := 'k'; when 'L' => l := 'l'; when 'M' => l := 'm'; when 'N' => l := 'n'; when 'O' => l := 'o'; when 'P' => l := 'p'; when 'Q' => l := 'q'; when 'R' => l := 'r'; when 'S' => l := 's'; when 'T' => l := 't'; when 'U' => l := 'u'; when 'V' => l := 'v'; when 'W' => l := 'w'; when 'X' => l := 'x'; when 'Y' => l := 'y'; when 'Z' => l := 'z'; when others => l := c; end case; return l; end to_lower; -- convert a string to upper case function to_upper(s: string) return string is variable uppercase: string (s'range); begin for i in s'range loop uppercase(i):= to_upper(s(i)); end loop; return uppercase; end to_upper; -- convert a string to lower case function to_lower(s: string) return string is variable lowercase: string (s'range); begin for i in s'range loop lowercase(i):= to_lower(s(i)); end loop; return lowercase; end to_lower; -- checks if whitespace (JFF) function is_whitespace(c: character) return boolean is begin if (c = ' ') or (c = HT) then return true; else return false; end if; end is_whitespace; -- remove leading whitespace (JFF) function strip_whitespace(s: string) return string is variable stemp : string (s'range); variable j, k : positive := 1; begin -- fill stemp with blanks for i in s'range loop stemp(i) := ' '; end loop; -- find first non-whitespace in s for i in s'range loop if is_whitespace(s(i)) then j := j + 1; else exit; end if; end loop; -- j points to first non-whitespace -- copy remainder of s into stemp -- starting at 1 for i in j to s'length loop stemp(k) := s(i); k := k + 1; end loop; return stemp; end strip_whitespace; -- return first non-whitespacesubstring (JFF) function first_string(s: string) return string is variable stemp, s2 : string (s'range); begin -- fill s2 with blanks for i in s'range loop s2(i) := ' '; end loop; -- remove leading whitespace stemp := strip_whitespace(s); -- copy until first whitespace for i in stemp'range loop if not is_whitespace(stemp(i)) then s2(i) := stemp(i); else exit; end if; end loop; return s2; end first_string; -- removes first non-whitespace string from a string (JFF) procedure chomp(variable s: inout string; variable shead: out string) is variable stemp, stemp2 : string (s'range); variable j, k : positive := 1; begin -- fill stemp and stemp2 with blanks for i in s'range loop stemp(i) := ' '; stemp2(i) := ' '; end loop; stemp := strip_whitespace(s); shead := first_string(stemp); -- find first whitespace in stemp for i in stemp'range loop if not is_whitespace(stemp(i)) then j := j + 1; else exit; end if; end loop; -- j points to first whitespace -- copy remainder of stemp into stemp2 -- starting at 1 for i in j to stemp'length loop stemp2(k) := stemp(i); k := k + 1; end loop; s := stemp2; end chomp; -- functions to convert strings into other types -- converts a character into a std_logic function to_std_logic(c: character) return std_logic is variable sl: std_logic; begin case c is when 'U' => sl := 'U'; when 'X' => sl := 'X'; when '0' => sl := '0'; when '1' => sl := '1'; when 'Z' => sl := 'Z'; when 'W' => sl := 'W'; when 'L' => sl := 'L'; when 'H' => sl := 'H'; when '-' => sl := '-'; when others => sl := 'X'; end case; return sl; end to_std_logic; -- converts a character into std_logic_vector (JFF) function chr_to_slv(c: character) return std_logic_vector is variable slv: std_logic_vector(3 downto 0); begin case c is when '0' => slv := "0000"; when '1' => slv := "0001"; when '2' => slv := "0010"; when '3' => slv := "0011"; when '4' => slv := "0100"; when '5' => slv := "0101"; when '6' => slv := "0110"; when '7' => slv := "0111"; when '8' => slv := "1000"; when '9' => slv := "1001"; when 'A' | 'a' => slv := "1010"; when 'B' | 'b' => slv := "1011"; when 'C' | 'c' => slv := "1100"; when 'D' | 'd' => slv := "1101"; when 'E' | 'e' => slv := "1110"; when 'F' | 'f' => slv := "1111"; when others => null; end case; return slv; end chr_to_slv; -- converts a character into int (JFF) function chr_to_int(c: character) return integer is variable x: integer; begin case c is when '0' => x := 0; when '1' => x := 1; when '2' => x := 2; when '3' => x := 3; when '4' => x := 4; when '5' => x := 5; when '6' => x := 6; when '7' => x := 7; when '8' => x := 8; when '9' => x := 9; when others => null; end case; return x; end chr_to_int; -- converts a binary string into std_logic_vector function to_std_logic_vector(s: string) return std_logic_vector is variable slv: std_logic_vector(s'high-s'low downto 0); variable k: integer; begin k := s'high-s'low; for i in s'range loop slv(k) := to_std_logic(s(i)); k := k - 1; end loop; return slv; end to_std_logic_vector; -- converts a hex string into std_logic_vector (JFF) function hstr_to_slv(s: string) return std_logic_vector is variable slv: std_logic_vector(((s'length*4)-1) downto 0) := (others => '0'); variable k: integer; begin for i in s'range loop slv := slv((slv'length - 5) downto 0) & chr_to_slv(s(i)); end loop; return slv; end hstr_to_slv; -- converts a decimal string into an integer (JFF) function str_to_int(s: string) return integer is variable k: integer; begin k := 0; for i in s'range loop k := (k*10) + chr_to_int(s(i)); end loop; return k; end str_to_int; ---------------- -- file I/O -- ---------------- -- read variable length string from input file procedure str_read(file in_file: TEXT; res_string: out string) is variable l: line; variable c: character; variable is_string: boolean; begin readline(in_file, l); -- clear the contents of the result string for i in res_string'range loop res_string(i) := ' '; end loop; -- read all characters of the line, up to the length -- of the results string for i in res_string'range loop -- JFF - new -- read(l, c, is_string); if is_string then res_string(i) := c; else exit; end if; -- JFF - was duplicating the last char if no -- space at the end of the line -- -- read(l, c, is_string); -- res_string(i) := c; -- if not is_string then -- found end of line -- exit; -- end if; end loop; end str_read; -- print string to a file procedure print(file out_file: TEXT; new_string: in string) is variable l: line; begin write(l, new_string); writeline(out_file, l); end print; -- print character to a file and start new line procedure print(file out_file: TEXT; char: in character) is variable l: line; begin write(l, char); writeline(out_file, l); end print; -- appends contents of a string to a file until line feed occurs -- (LF is considered to be the end of the string) procedure str_write(file out_file: TEXT; new_string: in string) is begin for i in new_string'range loop print(out_file, new_string(i)); if new_string(i) = LF then -- end of string exit; end if; end loop; end str_write; end txt_util;
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