You can use the
bitshift function, which is available from at least MATLAB 2009a. From the documentation
c = bitshift(a, k) returns the value of
a shifted by
k is positive, 0-valued bits are shifted in on the right.
k is negative, and
a is unsigned, or a signed and positive, 0-valued bits are shifted in on the left.
k is negative and
a is a signed and negative, 1-valued bits are shifted in on the left.
On MATLAB 2012b
>> bitsra(128, 3)
On MATLAB 2009a:
>> bitshift(128, -3)
bitshift works with any fixed-point data type, although the error message generated by calling
bitshift(128.5, -3) would suggest that it requires integer values. So
bitshift(128.5, -3), for example, will not work since
128.5 is, by default, a floating point double precision variable. From the documentation for
bitshift you can use the
fi function from the floating-point toolbox to create fixed-point numbers. So to work with fractions one could do something like
>> bitshift(fi(128.5), -3)