# How to write an integer to stdout as hexadecimal in VHDL?

I can print an `integer` as decimal to stdout with:

``````library std;
use std.textio.all;

entity min is
end min;

architecture behav of min is
begin
process is
variable my_line : line;
begin
write(my_line, 16);
writeline(output, my_line);
wait;
end process;
end behav;
``````

which outputs:

``````16
``````

But how to output instead either:

``````10
0x10
``````
• @downvoters: please explain so I can learn and improve ;-) – Ciro Santilli 冠状病毒审查六四事件法轮功 Jun 17 '16 at 12:21
• Each hexadecimal digit represents four binary digits (bits). An integer scalar is a discrete type with a position that is an integer value (IEEE Std 1076-2008, 5.2 Scalar types) - and integr doesn't have bits. You could write a function to convert an integer value to base16 amenable to a string notation with a based literal equivalent (15.5.3), or convert an integer value to a type that does represent binary bits numerically and whose string representation has a bit string equivalent (15.8). – user1155120 Jun 19 '16 at 23:20

Assuming an integer `i`, and VHDL-2008, you could use:

``````write(output, integer'image(i) & LF);  -- Plain integer value
write(output, "0x" & to_hstring(to_signed(i, 32)) & LF);  -- Hexadecimal representation
``````

You need to have `use std.textio.all;` for this to work. Change the `32` to reduce the length of the hex value. I chose 32 so that it can represent any integer value in most simulators.

These will also work for `report` statements, e.g.

``````report "i = 0x" & to_hstring(to_signed(i, 32));
``````

There is no standard library implementation, but for example our PoC-Libary has several formatting function in the PoC.Strings package. On top of that, we have a `to_string(...)` function, which accepts a format character like `h` for hexadecimal outputs.

How to write such an integer to hex conversion?

1. Convert the INTEGER into a binary representation
2. Group the binary value into 4-bit groups
3. translate each group into an integer/alpha in range 0..F
4. prepend `0x` if wished

So here is a wrapper to convert the integer to a binary representation:

``````-- format a natural as HEX string
function raw_format_nat_hex(Value : NATURAL) return STRING is
begin
return raw_format_slv_hex(std_logic_vector(to_unsigned(Value, log2ceil(Value+1))));
end function;
``````

And now the grouping and transformation

``````-- format a std_logic_vector as HEX string
function raw_format_slv_hex(slv : STD_LOGIC_VECTOR) return STRING is
variable Value                : STD_LOGIC_VECTOR(4*div_ceil(slv'length, 4) - 1 downto 0);
variable Digit                : STD_LOGIC_VECTOR(3 downto 0);
variable Result               : STRING(1 to div_ceil(slv'length, 4));
variable j                    : NATURAL;
begin
Value := resize(slv, Value'length);
j             := 0;
for i in Result'reverse_range loop
Digit       := Value((j * 4) + 3 downto (j * 4));
Result(i)   := to_HexChar(unsigned(Digit));
j           := j + 1;
end loop;
return Result;
end function;

-- convert an unsigned value(4 bit) to a HEX digit (0-F)
function to_HexChar(Value : UNSIGNED) return CHARACTER is
constant HEX : STRING := "0123456789ABCDEF";
begin
if (Value < 16) then
return HEX(to_integer(Value)+1);
else
return 'X';
end if;
end function;

-- return TRUE, if input is a power of 2
function div_ceil(a : NATURAL; b : POSITIVE) return NATURAL is  -- calculates: ceil(a / b)
begin
return (a + (b - 1)) / b;
end function;

-- return log2; always rounded up
function log2ceil(arg : positive) return natural is
variable tmp : positive;
variable log : natural;
begin
if arg = 1 then   return 0; end if;
tmp := 1;
log := 0;
while arg > tmp loop
tmp := tmp * 2;
log := log + 1;
end loop;
return log;
end function;
``````

Note: These functions do not prepend `0x`.

• What, no function div_ceil? – user1155120 Jun 17 '16 at 20:08

You could use the `hwrite` procedure in the `IEEE.std_logic_textio` package:

``````library IEEE;                                                   -- ADDED

library std;
use std.textio.all;

entity min is
end min;

architecture behav of min is
begin
process is
variable my_line : line;
begin
hwrite(my_line, std_logic_vector(to_unsigned(16,8)));   -- CHANGED
writeline(output, my_line);
wait;
end process;
end behav;
``````

The `hwrite` procedure writes a `std_logic_vector` to a file. So, you do have to convert your `integer` into a `std_logic_vector`, however (which also needs you to specify a number of bits in the `to_unsigned` function).

http://www.edaplayground.com/x/exs