I am trying to create a few constants and assign hex numbers to them; however, I keep getting errors.
I want the constant FOO_CONST to be equal to 0x38
Like this...
constant FOO_CONST : integer := x"38";
The error:
Type integer does not match with a string literal
I've tried a few variants with no success.
You can specify a base for integers by using the format base#value#:
constant FOO_CONST : integer := 16#38#;
In general, you can use literals in expressions as follows:
Numeric literals may be expressed in any base from 2 to 16. They may also be broken up using underscore, for clarity.
FOO_CONST_HEX <= 16#FF#;
FOO_CONST_BIN <= 2#1010_1010#;
FOO_CONST_BROKEN := 1_000_000.0; -- breaking the number using _
To answer the question clearly, you can do as Erasmus Cedernaes suggested:
constant FOO_CONST: integer:= 16#38#;
OR
constant FOO_CONST : std_logic_vector := X"38"; -- if you will convert it to a std_logic_vector later
Literals for arrays of characters, such as string, bit_vector and std_logic_vector are placed in double quotes:
constant FLAG :bit_vector(0 to 7) := "11111111";
constant MSG : string := "Hello";
Numeric literals with a decimal point are real, those without are integer;
constant FREEZE : integer := 32;
constant TEMP : real := 32.0;
Real numbers may be expressed in exponential form:
FACTOR := 2.2E-6;
Literals of type time (and other physical types) must have units. The units should be preceded by a space, although some tools may not require this:
constant DEL1 :time := 10 ns;
constant DEL2 :time := 2.27 us;
Literals of enumerated types may either be characters (as for bit and std_logic), or identifiers:
type MY_LOGIC is ('X','0','1','Z');
type T_STATE is (IDLE, READ, END_CYC);
signal CLK : MY_LOGIC := '0';
signal STATE : T_STATE := IDLE;
Bit vector literals may be expressed in binary (default), octal or hex. They may also contain embedded underscores for clarity. These forms may not be used as std_logic_vector literals:
BIT_8_BUS <= B"1111_1111";
BIT_9_BUS <= O"353";
BIT_16_BUS <= X"AA55";
Literals are supported for synthesis, providing they are of a type acceptable to the logic synthesis tool. They are either synthesized as connections to logic '1' or '0' or are used to help minimize the number of gates required.
16#38#. Where 16 is the base, the '#' is a delimiter. See IEEE Std 1076-2008 15. Lexical elements, 15.5.3 Based literals. You could alsouse ieee.std_logic_1164.all; use ieee.numeric_std.all;andconstant FOO_CONST : integer := to_integer(unsigned'(x"38"));converting a bit string literal to an integer specifying sign extension with the required qualified expression.#numeric literal. If you use it with 16 as the prefix, then it'll accept a base 16 number