How to shift a std_logic_vector by std_logic_vector using concatenation

Say I have 2 std_logic_vectors:

``````inputA : std_logic_vector(31 downto 0)
inputB:  std_logic_vector(31 downto 0)
``````

How do I shift `inputA` by `inputB` using concatenation?

I know how to shift left or right by 1 place but can't figure out how to shift N places to the right (or left). Note: this is a clockless circuit, and can't use standard vhdl shift operators.

Other techniques or ideas other than concatenation would be appreciated as well.

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You probably can't do this in a clockless manner, since you'd need to have a programmable shift register or perform multiple rounds in a normal shift register. Doing this in a clockless manner wouldn't make sense since you would require 2^32 different shift registers for each possible path, and even then you would probably still require a clock. – slugonamission Sep 17 '12 at 14:01
@slugonamission: It's perfectly feasible without a clock - it's just a big bag of muxes... also known as a barrel-shifter – Martin Thompson Sep 17 '12 at 14:25
@MartinThompson - don't you ideally need to clock the value into the muxes to prevent hazards though? – slugonamission Sep 17 '12 at 14:29
@slugonamission: at some point, yes it'll need some registers on the extremities of the shifter. Once they are there, the timing tools will sort the rest out for you. – Martin Thompson Sep 17 '12 at 14:34

I prefer wjl's approach, but given you asked specifically for a method using concatenation, try this:

``````function variable_shift(i : std_logic_vector, num_bits : integer)
return std_logic_vector is
constant zeros : std_logic_vector(num_bits-1 downto 0) := (others => '0');
begin
return i(i'high-num_bits downto i'low) & zeros;
end function;
``````

(It could be written to take a second `std_logic_vector` for the `num_bits` parameter, but as it's fundamentally a number, I'd always use a number-based type for it)

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The simplest way to do this would be to something like this:

``````library ieee;
use ieee.numeric_std.all;
...
output <= std_logic_vector(unsigned(inputA) srl to_integer(unsigned(inputB)));
``````

(BTW, being a clockless circuit has nothing to do with being able to use shift operators or not. What determines that is data types. This shift operation will be turned into the same logic by a synthesizer as you would get if you wrote something more complex with case statements all expanded out by hand.)

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