mirror of
https://github.com/Klagarge/Cursor.git
synced 2024-11-26 19:23:27 +00:00
925 lines
32 KiB
VHDL
925 lines
32 KiB
VHDL
PACKAGE BODY testUtils IS
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--============================================================================
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-- console output
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--
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procedure print(value : string) is
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variable my_line : line;
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begin
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write(my_line, value);
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writeLine(output, my_line);
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deallocate(my_line);
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end print;
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--============================================================================
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-- string manipulation
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--
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------------------------------------------------------------------------------
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-- change to lowercase
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------------------------------------------------------------------------------
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procedure lc(value: inout line) is
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variable out_line: line;
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begin
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for index in value'range loop
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if (value(index) >= 'A') and (value(index) <= 'Z') then
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value(index) := character'val(character'pos(value(index))
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- character'pos('A')
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+ character'pos('a')
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);
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end if;
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end loop;
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end lc;
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function lc(value: string) return string is
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variable out_line: line;
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begin
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write(out_line, value);
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lc(out_line);
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return(out_line.all);
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end lc;
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------------------------------------------------------------------------------
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-- change to uppercase
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------------------------------------------------------------------------------
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procedure uc(value: inout line) is
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variable out_line: line;
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begin
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for index in value'range loop
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if (value(index) >= 'a') and (value(index) <= 'z') then
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value(index) := character'val(character'pos(value(index))
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- character'pos('a')
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+ character'pos('A')
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);
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end if;
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end loop;
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end uc;
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function uc(value: string) return string is
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variable out_line: line;
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begin
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write(out_line, value);
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uc(out_line);
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return(out_line.all);
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end uc;
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------------------------------------------------------------------------------
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-- formatted string output: padding and justifying
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------------------------------------------------------------------------------
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function pad(
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value : string;
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string_length : natural;
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fill_char : character := ' ';
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right_justify : boolean := false
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) return string is
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variable value_line : line;
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variable out_line : line;
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variable value_length : natural;
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variable shift_sign : boolean;
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begin
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write(value_line, value);
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value_length := value_line.all'length;
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if string_length = 0 then
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write(out_line, value_line.all);
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elsif string_length > value_length then
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if right_justify then
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if (value_line.all(value_line.all'left) <= '-') and not(fill_char = ' ') then
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shift_sign := true;
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write(out_line, value_line.all(value_line.all'left));
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end if;
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for index in 1 to string_length-value_length loop
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write(out_line, fill_char);
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end loop;
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end if;
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if shift_sign then
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write(out_line, value_line.all(value_line.all'left+1 to value_line.all'right));
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else
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write(out_line, value_line.all);
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end if;
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if not right_justify then
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for index in 1 to string_length-value_length loop
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write(out_line, fill_char);
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end loop;
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end if;
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elsif string_length < value_length then
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write(out_line, '#');
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write(out_line, value_line.all(value_length-string_length+2 to value_length));
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else
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write(out_line, value_line.all);
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end if;
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deallocate(value_line);
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return(out_line.all);
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end pad;
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------------------------------------------------------------------------------
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-- remove separator characters at beginning and end of line
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------------------------------------------------------------------------------
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procedure rm_side_separators(
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value : inout line;
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separators : in string
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) is
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variable input_line : line := value;
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variable found : boolean := false;
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variable position : integer := 0;
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begin
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-- remove all separators in the beginning
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position := -1;
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for character_index in input_line'range loop
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found := false;
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for separator_index in separators'range loop
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if input_line(character_index) = separators(separator_index) then
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found := true;
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end if;
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end loop;
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if found then
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position := character_index;
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else
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exit;
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end if;
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end loop;
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if position > -1 then
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input_line := new string'( input_line(position+1 to input_line'right) );
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end if;
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-- remove all separators in the end
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position := -1;
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for character_index in input_line'reverse_range loop
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found := false;
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for separator_index in separators'range loop
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if input_line(character_index) = separators(separator_index) then
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found := true;
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end if;
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end loop;
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if found then
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position := character_index;
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else
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exit;
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end if;
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end loop;
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if position > -1 then
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input_line := new string'( input_line(input_line'left to position-1) );
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end if;
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value := input_line;
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end;
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procedure rm_side_separators(value : inout line) is
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begin
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rm_side_separators(value, " :" & ht);
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end;
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------------------------------------------------------------------------------
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-- remove multiple occurences of separator characters, keeping one single
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------------------------------------------------------------------------------
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procedure trim_line(
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value : inout line;
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separators : in string
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) is
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variable input_line: line := value;
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variable output_line: line := new string'("");
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variable is_separator, was_separator : boolean := false;
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begin
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rm_side_separators(input_line);
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for character_index in input_line'range loop
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is_separator := false;
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for separator_index in separators'range loop
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if input_line.all(character_index) = separators(separator_index) then
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is_separator := true;
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end if;
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end loop;
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if not (is_separator and was_separator) then
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write(output_line, input_line.all(character_index));
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end if;
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was_separator := is_separator;
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end loop;
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value := output_line;
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end;
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procedure trim_line(value : inout line) is
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begin
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trim_line(value, " :" & ht);
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end;
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------------------------------------------------------------------------------
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-- remove all occurences of separator characters
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------------------------------------------------------------------------------
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procedure rm_all_separators(
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value : inout line;
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separators : in string
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) is
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variable input_line : line := value;
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variable is_separator : boolean := false;
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begin
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-- remove separators from beginn and end of the line
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-- rm_separator_be(value, separators);
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-- empty output line
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value := new string'("");
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-- find all separator symbols
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for character_index in input_line'range loop
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is_separator := false;
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for separator_index in separators'range loop
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if input_line(character_index) = separators(separator_index) then
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is_separator := true;
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end if;
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end loop;
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if not is_separator then
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write(value, input_line.all(character_index));
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end if;
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end loop;
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end;
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procedure rm_all_separators(value : inout line) is
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begin
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rm_all_separators(value, " _." & ht);
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end;
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------------------------------------------------------------------------------
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-- read first "word" out of a line
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------------------------------------------------------------------------------
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procedure read_first(
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value : inout line;
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separators : in string;
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first : out line
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) is
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variable input_line: line;
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variable position: natural := 0;
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begin
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input_line := value;
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for character_index in input_line.all'reverse_range loop
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for separator_index in separators'range loop
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if input_line.all(character_index) = separators(separator_index) then
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position := character_index;
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end if;
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end loop;
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end loop;
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if position > 1 then
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first := new string'(input_line.all(input_line'left to position-1));
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value := new string'(input_line(position+1 to input_line'right));
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else
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first := new string'(input_line.all);
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value := new string'("");
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end if;
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end;
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procedure read_first(value : inout line; first : out line) is
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begin
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read_first(value, " :" & ht, first);
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end;
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------------------------------------------------------------------------------
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-- read last "word" out of a line
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------------------------------------------------------------------------------
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procedure read_last(
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value : inout line;
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separators : in string;
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last : out line
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) is
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variable input_line: line := value;
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variable position: natural := 0;
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begin
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for character_index in input_line'range loop
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for separator_index in separators'range loop
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if input_line(character_index) = separators(separator_index) then
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position := character_index;
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end if;
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end loop;
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end loop;
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if position <= input_line'right and
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position > 0 then
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value := new string'(input_line(input_line'left to position-1));
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last := new string'(input_line(position+1 to input_line'right));
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else
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last := new string'(input_line.all);
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end if;
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end;
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procedure read_last(value : inout line; last : out line) is
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begin
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read_last(value, " :" & ht, last);
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end;
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--============================================================================
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-- formatted string output, internal functions
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--
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------------------------------------------------------------------------------
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-- get format specification
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------------------------------------------------------------------------------
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procedure get_format_items(
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format : string;
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right_justify : out boolean;
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add_sign : out boolean;
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fill_char : out character;
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total_length : out natural;
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point_precision : out natural;
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format_type : inout line
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) is
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variable find_sign : boolean := false;
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variable find_padding : boolean := false;
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variable find_length : boolean := false;
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variable find_precision : boolean := false;
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variable find_type : boolean := false;
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variable right_justify_int : boolean := true;
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variable total_length_int : natural := 0;
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variable point_precision_int : natural := 0;
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begin
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add_sign := false;
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fill_char := ' ';
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for index in 1 to format'length loop
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if find_type then
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write(format_type, format(index));
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end if;
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if find_precision then
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if (format(index) >= '0') and (format(index) <= '9') then
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point_precision_int := 10*point_precision_int + character'pos(format(index)) - character'pos('0');
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if format(index+1) >= 'A' then
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find_precision := false;
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find_type := true;
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end if;
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end if;
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end if;
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if find_length then
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if (format(index) >= '0') and (format(index) <= '9') then
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total_length_int := 10*total_length_int + character'pos(format(index)) - character'pos('0');
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end if;
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if format(index) = '.' then
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find_length := false;
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find_precision := true;
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elsif format(index+1) >= 'A' then
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find_length := false;
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find_type := true;
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end if;
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end if;
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if find_padding then
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if format(index) = '0' then
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if right_justify_int then
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fill_char := '0';
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end if;
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end if;
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find_padding := false;
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if format(index+1) >= 'A' then
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find_type := true;
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else
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find_length := true;
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end if;
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end if;
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if find_sign then
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if format(index) = '-' then
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right_justify_int := false;
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end if;
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if format(index) = '+' then
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add_sign := true;
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end if;
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find_sign := false;
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if format(index+1) <= '-' then
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find_sign := true;
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elsif format(index+1) = '0' then
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find_padding := true;
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elsif format(index+1) >= 'A' then
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find_type := true;
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else
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find_length := true;
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end if;
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end if;
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if format(index) = '%' then
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if format(index+1) <= '-' then
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find_sign := true;
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elsif format(index+1) = '0' then
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find_padding := true;
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elsif format(index+1) >= 'A' then
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find_type := true;
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else
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find_length := true;
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end if;
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end if;
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end loop;
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right_justify := right_justify_int;
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total_length := total_length_int;
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point_precision := point_precision_int;
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end get_format_items;
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------------------------------------------------------------------------------
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-- formatted string output: converting std_ulogic to character
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------------------------------------------------------------------------------
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function to_character(value: std_ulogic) return character is
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variable out_value: character;
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begin
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case value is
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when 'U' => out_value := 'U';
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when 'X' => out_value := 'X';
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when '0' => out_value := '0';
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when '1' => out_value := '1';
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when 'Z' => out_value := 'Z';
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when 'W' => out_value := 'W';
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when 'L' => out_value := 'L';
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when 'H' => out_value := 'H';
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when '-' => out_value := '-';
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end case;
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return(out_value);
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end to_character;
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------------------------------------------------------------------------------
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-- formatted string output: binary integer
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------------------------------------------------------------------------------
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function sprintf_b(value: std_ulogic_vector) return string is
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variable out_line : line;
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begin
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for index in value'range loop
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write(out_line, to_character(value(index)));
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end loop;
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return(out_line.all);
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end sprintf_b;
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------------------------------------------------------------------------------
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-- formatted string output: decimal integer
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------------------------------------------------------------------------------
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function sprintf_d(
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right_justify : boolean;
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add_sign : boolean;
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fill_char : character;
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string_length : natural;
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value : integer
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) return string is
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variable value_line : line;
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begin
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if add_sign and (value >= 0) then
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write(value_line, '+');
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end if;
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write(value_line, value);
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if string_length = 0 then
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return(value_line.all);
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else
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return(pad(value_line.all, string_length, fill_char, right_justify));
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end if;
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end sprintf_d;
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------------------------------------------------------------------------------
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-- formatted string output: fixed point real
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------------------------------------------------------------------------------
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function sprintf_f(
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right_justify : boolean;
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add_sign : boolean;
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fill_char : character;
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string_length : natural;
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point_precision : natural;
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value : real
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) return string is
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variable point_precision_int : natural;
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variable integer_part : integer;
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variable decimal_part : natural;
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variable value_line : line;
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begin
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if point_precision = 0 then
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point_precision_int := 6;
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else
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point_precision_int := point_precision;
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end if;
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if value >= 0.0 then
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integer_part := integer(value-0.5);
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else
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integer_part := - integer(-value-0.5);
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end if;
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decimal_part := abs(integer((value-real(integer_part))*(10.0**point_precision_int)));
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if add_sign and (value >= 0.0) then
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write(value_line, '+');
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end if;
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write(value_line, integer_part);
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write(value_line, '.');
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write(value_line, sprintf_d(true, false, '0', point_precision_int, decimal_part));
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if string_length = 0 then
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return(value_line.all);
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else
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return(pad(value_line.all, string_length, fill_char, right_justify));
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end if;
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end sprintf_f;
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------------------------------------------------------------------------------
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-- formatted string output: hexadecimal integer
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------------------------------------------------------------------------------
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function sprintf_X(
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extend_unsigned : boolean;
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value : std_ulogic_vector
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) return string is
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variable bit_count : positive;
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variable value_line : line;
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variable out_line : line;
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variable nibble: string(1 to 4);
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begin
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bit_count := value'length;
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while (bit_count mod 4) /= 0 loop
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if extend_unsigned then
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write(value_line, to_character('0'));
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else
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write(value_line, to_character(value(value'high)));
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end if;
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bit_count := bit_count + 1;
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end loop;
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write(value_line, sprintf_b(value));
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for index in value_line.all'range loop
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if (index mod 4) = 0 then
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nibble := value_line.all(index-3 to index);
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case nibble is
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when "0000" => write(out_line, 0);
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when "0001" => write(out_line, 1);
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when "0010" => write(out_line, 2);
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when "0011" => write(out_line, 3);
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when "0100" => write(out_line, 4);
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when "0101" => write(out_line, 5);
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when "0110" => write(out_line, 6);
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when "0111" => write(out_line, 7);
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when "1000" => write(out_line, 8);
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when "1001" => write(out_line, 9);
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when "1010" => write(out_line, 'A');
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when "1011" => write(out_line, 'B');
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when "1100" => write(out_line, 'C');
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when "1101" => write(out_line, 'D');
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when "1110" => write(out_line, 'E');
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when "1111" => write(out_line, 'F');
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when others => write(out_line, 'X');
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end case;
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end if;
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end loop;
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return(out_line.all);
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end sprintf_X;
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--============================================================================
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-- formatted string output, interface functions
|
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--
|
|
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|
------------------------------------------------------------------------------
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-- integer
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|
------------------------------------------------------------------------------
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|
function sprintf(format : string; value : integer) return string is
|
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variable right_justify : boolean;
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variable add_sign : boolean;
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variable fill_char : character;
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variable string_length : natural;
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variable point_precision : natural;
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variable format_type : line;
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begin
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get_format_items(format, right_justify, add_sign, fill_char,
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string_length, point_precision, format_type);
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if format_type.all = "b" then
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if string_length = 0 then
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string_length := 8;
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end if;
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return(sprintf_b(std_ulogic_vector(to_signed(value, string_length+1)(string_length-1 downto 0))));
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elsif format_type.all = "d" then
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return(sprintf_d(right_justify, add_sign, fill_char, string_length, value));
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elsif format_type.all = "f" then
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return(sprintf_f(right_justify, add_sign, fill_char,
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string_length, point_precision, real(value)));
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elsif (format_type.all = "X") or (format_type.all = "x") then
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if string_length = 0 then
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string_length := 8;
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end if;
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string_length := 4*string_length;
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if format_type.all = "X" then
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return(sprintf_X(false, std_ulogic_vector(to_signed(value, string_length+1)(string_length-1 downto 0))));
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else
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return(lc(sprintf_X(false, std_ulogic_vector(to_signed(value, string_length+1)(string_length-1 downto 0)))));
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end if;
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else
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return("Unhandled format type: '" & format_type.all & "'");
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end if;
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end sprintf;
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|
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------------------------------------------------------------------------------
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-- real
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------------------------------------------------------------------------------
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function sprintf(format : string; value : real) return string is
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variable right_justify : boolean;
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variable add_sign : boolean;
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variable fill_char : character;
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variable string_length : natural;
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variable point_precision : natural;
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variable format_type : line;
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begin
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get_format_items(format, right_justify, add_sign, fill_char,
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string_length, point_precision, format_type);
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if (format_type.all = "d") or (point_precision = 0) then
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return(sprintf_d(right_justify, add_sign, fill_char,
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string_length, integer(value)));
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elsif format_type.all = "f" then
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return(sprintf_f(right_justify, add_sign, fill_char,
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string_length, point_precision, value));
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else
|
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return("Unhandled format type: '" & format_type.all & "'");
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end if;
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end sprintf;
|
|
|
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------------------------------------------------------------------------------
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-- std_logic
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------------------------------------------------------------------------------
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function sprintf(format : string; value : std_logic) return string is
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variable right_justify : boolean;
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variable add_sign : boolean;
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variable fill_char : character;
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variable string_length : natural;
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variable point_precision : natural;
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variable format_type : line;
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variable logic_vector: std_logic_vector(1 to 1);
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begin
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get_format_items(format, right_justify, add_sign, fill_char,
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string_length, point_precision, format_type);
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if (format_type.all = "b") or (format_type.all = "d") or
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(format_type.all = "X") or (format_type.all = "x") then
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logic_vector(1) := value;
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return(sprintf(format, std_ulogic_vector(logic_vector)));
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else
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return("Not a std_logic format: '" & format_type.all & "'");
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end if;
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end sprintf;
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|
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------------------------------------------------------------------------------
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-- std_ulogic_vector
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|
------------------------------------------------------------------------------
|
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function sprintf(format : string; value : std_ulogic_vector) return string is
|
|
variable right_justify : boolean;
|
|
variable add_sign : boolean;
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|
variable fill_char : character;
|
|
variable bit_string_length : natural;
|
|
variable point_precision : natural;
|
|
variable format_type : line;
|
|
begin
|
|
get_format_items(format, right_justify, add_sign, fill_char,
|
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bit_string_length, point_precision, format_type);
|
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if format_type.all = "b" then
|
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return(pad(sprintf_b(value), bit_string_length, fill_char, right_justify));
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elsif format_type.all = "d" then
|
|
return(sprintf_d(right_justify, add_sign, fill_char, bit_string_length, to_integer(unsigned(value))));
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|
elsif (format_type.all = "X") or (format_type.all = "x") then
|
|
if format_type.all = "X" then
|
|
return(pad(sprintf_X(true, value), bit_string_length, fill_char, right_justify));
|
|
else
|
|
return(lc(pad(sprintf_X(true, value), bit_string_length, fill_char, right_justify)));
|
|
end if;
|
|
else
|
|
return("Not a std_ulogic_vector format: '" & format_type.all & "'");
|
|
end if;
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|
end sprintf;
|
|
|
|
------------------------------------------------------------------------------
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-- std_logic_vector
|
|
------------------------------------------------------------------------------
|
|
function sprintf(format : string; value : std_logic_vector) return string is
|
|
variable right_justify : boolean;
|
|
variable add_sign : boolean;
|
|
variable fill_char : character;
|
|
variable string_length : natural;
|
|
variable point_precision : natural;
|
|
variable format_type : line;
|
|
begin
|
|
get_format_items(format, right_justify, add_sign, fill_char,
|
|
string_length, point_precision, format_type);
|
|
if (format_type.all = "b") or (format_type.all = "d") or
|
|
(format_type.all = "X") or (format_type.all = "x") then
|
|
return(sprintf(format, std_ulogic_vector(value)));
|
|
else
|
|
return("Not a std_logic_vector format: '" & format_type.all & "'");
|
|
end if;
|
|
end sprintf;
|
|
|
|
------------------------------------------------------------------------------
|
|
-- unsigned
|
|
------------------------------------------------------------------------------
|
|
function sprintf(format : string; value : unsigned) return string is
|
|
variable right_justify : boolean;
|
|
variable add_sign : boolean;
|
|
variable fill_char : character;
|
|
variable string_length : natural;
|
|
variable point_precision : natural;
|
|
variable format_type : line;
|
|
begin
|
|
get_format_items(format, right_justify, add_sign, fill_char,
|
|
string_length, point_precision, format_type);
|
|
if (format_type.all = "b") or (format_type.all = "d") or
|
|
(format_type.all = "X") or (format_type.all = "x") then
|
|
return(sprintf(format, std_ulogic_vector(value)));
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|
else
|
|
return("Not an unsigned format: '" & format_type.all & "'");
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|
end if;
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|
end sprintf;
|
|
|
|
------------------------------------------------------------------------------
|
|
-- signed
|
|
------------------------------------------------------------------------------
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function sprintf(format : string; value : signed) return string is
|
|
variable right_justify : boolean;
|
|
variable add_sign : boolean;
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|
variable fill_char : character;
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|
variable bit_string_length : natural;
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|
variable point_precision : natural;
|
|
variable format_type : line;
|
|
begin
|
|
get_format_items(format, right_justify, add_sign, fill_char,
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bit_string_length, point_precision, format_type);
|
|
if (fill_char = '0') and (value(value'left) = '1') then
|
|
fill_char := '1';
|
|
end if;
|
|
if format_type.all = "b" then
|
|
return(pad(sprintf_b(std_ulogic_vector(value)), bit_string_length, fill_char, right_justify));
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|
elsif format_type.all = "d" then
|
|
return(sprintf_d(right_justify, add_sign, fill_char, bit_string_length, to_integer(signed(value))));
|
|
elsif (format_type.all = "X") or (format_type.all = "x") then
|
|
if fill_char = '1' then
|
|
fill_char := 'F';
|
|
end if;
|
|
if format_type.all = "X" then
|
|
return(pad(sprintf_X(true, std_ulogic_vector(value)), bit_string_length, fill_char, right_justify));
|
|
else
|
|
return(lc(pad(sprintf_X(true, std_ulogic_vector(value)), bit_string_length, fill_char, right_justify)));
|
|
end if;
|
|
else
|
|
return("Not a signed format: '" & format_type.all & "'");
|
|
end if;
|
|
end sprintf;
|
|
|
|
------------------------------------------------------------------------------
|
|
-- time
|
|
------------------------------------------------------------------------------
|
|
function sprintf(format : string; value : time) return string is
|
|
variable right_justify : boolean;
|
|
variable add_sign : boolean;
|
|
variable fill_char : character;
|
|
variable string_length : natural;
|
|
variable point_precision : natural;
|
|
variable format_type : line;
|
|
variable scaling : real;
|
|
variable base_time : time;
|
|
variable unit : string(1 to 3);
|
|
begin
|
|
get_format_items(format, right_justify, add_sign, fill_char,
|
|
string_length, point_precision, format_type);
|
|
if format_type.all(format_type.all'left) = 't' then
|
|
scaling := 10.0**point_precision;
|
|
if format_type.all = "tp" then
|
|
base_time := 1 ps;
|
|
unit := " ps";
|
|
elsif format_type.all = "tn" then
|
|
base_time := 1 ns;
|
|
unit := " ns";
|
|
elsif format_type.all = "tu" then
|
|
base_time := 1 us;
|
|
unit := " us";
|
|
elsif format_type.all = "tm" then
|
|
base_time := 1 ms;
|
|
unit := " ms";
|
|
elsif format_type.all = "ts" then
|
|
base_time := 1 sec;
|
|
unit := " s.";
|
|
else
|
|
return("Undefined time format: '" & format_type.all & "'");
|
|
end if;
|
|
if point_precision = 0 then
|
|
return(sprintf_d(right_justify, add_sign, fill_char,
|
|
string_length, value/base_time) & unit);
|
|
else
|
|
return(sprintf_f(right_justify, add_sign, fill_char, string_length,
|
|
point_precision, real(scaling*value/base_time)/scaling) & unit);
|
|
end if;
|
|
else
|
|
return("Not a time format: '" & format_type.all & "'");
|
|
end if;
|
|
end sprintf;
|
|
|
|
|
|
--============================================================================
|
|
-- formatted string input
|
|
------------------------------------------------------------------------------
|
|
|
|
------------------------------------------------------------------------------
|
|
-- read a nibble out of a character
|
|
------------------------------------------------------------------------------
|
|
function sscanf(value : character) return natural is
|
|
begin
|
|
if (value >= '0') and (value <= '9') then
|
|
return(character'pos(value) - character'pos('0'));
|
|
elsif (value >= 'a') and (value <= 'f') then
|
|
return(character'pos(value) - character'pos('a') + 10);
|
|
elsif (value >= 'A') and (value <= 'F') then
|
|
return(character'pos(value) - character'pos('A') + 10);
|
|
else
|
|
return(0);
|
|
end if;
|
|
end sscanf;
|
|
|
|
function sscanf(value : character) return nibbleUnsignedType is
|
|
begin
|
|
return(to_unsigned(sscanf(value), nibbleUnsignedType'length));
|
|
end sscanf;
|
|
|
|
function sscanf(value : character) return nibbleUlogicType is
|
|
variable unsigned_value : nibbleUnsignedType;
|
|
begin
|
|
unsigned_value := sscanf(value);
|
|
return(std_ulogic_vector(unsigned_value));
|
|
end sscanf;
|
|
|
|
------------------------------------------------------------------------------
|
|
-- read an binary word out of a string
|
|
------------------------------------------------------------------------------
|
|
function sscanf(value : string) return natural is
|
|
variable integer_value : natural;
|
|
begin
|
|
integer_value := 0;
|
|
for index in value'left to value'right loop
|
|
integer_value := integer_value*16 + sscanf(value(index));
|
|
end loop;
|
|
return(integer_value);
|
|
end;
|
|
|
|
function sscanf(value : string) return unsigned is
|
|
variable unsigned_value : unsigned(4*value'length-1 downto 0);
|
|
begin
|
|
unsigned_value := to_unsigned(0,unsigned_value'length);
|
|
for index in value'left to value'right loop
|
|
unsigned_value := shift_left(unsigned_value,4) + to_unsigned(sscanf(value(index)),4);
|
|
end loop;
|
|
return(unsigned_value);
|
|
end;
|
|
|
|
function sscanf(value : string) return std_ulogic_vector is
|
|
variable unsigned_value : unsigned(4*value'length-1 downto 0);
|
|
begin
|
|
unsigned_value := sscanf(value);
|
|
return(std_ulogic_vector(unsigned_value));
|
|
end;
|
|
|
|
------------------------------------------------------------------------------
|
|
-- read time from a string
|
|
-- time can be formated as follows:
|
|
-- "1ps" or "1 ps" or " 1 ps " or " 1ps"
|
|
-- possible time units are: hr, min, sec, ms, us, ns, ps, fs
|
|
------------------------------------------------------------------------------
|
|
procedure sscanf(
|
|
value : inout line;
|
|
time_val : out time
|
|
) is
|
|
variable time_line : line := value;
|
|
variable time_base : string(1 to 3);
|
|
variable time_value : integer;
|
|
variable time_int : time;
|
|
begin
|
|
-- remove all spaces and tabs
|
|
rm_all_separators(time_line);
|
|
|
|
-- strip time base (3 last characters)
|
|
time_base := time_line(time_line'right-2 to time_line'right);
|
|
|
|
-- separate time value and base
|
|
if time_base(2 to 3) = "hr" then
|
|
time_int := 1 hr;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
elsif time_base = "min" then
|
|
time_int := 1 min;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -3));
|
|
elsif time_base = "sec" then
|
|
time_int := 1 sec;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -3));
|
|
elsif time_base(2 to 3) = "ms" then
|
|
time_int := 1 ms;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
elsif time_base(2 to 3) = "us" then
|
|
time_int := 1 us;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
elsif time_base(2 to 3) = "ns" then
|
|
time_int := 1 ns;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
elsif time_base(2 to 3) = "ps" then
|
|
time_int := 1 ps;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
elsif time_base(2 to 3) = "fs" then
|
|
time_int := 1 fs;
|
|
time_value := integer'value(time_line(time_line'left to time_line'right -2));
|
|
else
|
|
time_int := 0 ps;
|
|
time_value := 1;
|
|
end if;
|
|
|
|
-- build time from value and base
|
|
time_val := time_int * time_value;
|
|
|
|
end;
|
|
|
|
function sscanf(value : string) return time is
|
|
variable value_line : line;
|
|
variable time_val : time;
|
|
begin
|
|
value_line := new string'(value);
|
|
sscanf(value_line, time_val);
|
|
return(time_val);
|
|
end;
|
|
|
|
END testUtils;
|