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I'm working in Matlab using Non-negative Matrix factorization to decompose a matrix into two factors. Using this I get from A two double precision floating point matrices, B and C.

sample results are

B(1,1) = 0.118
C(1,1) = 112.035

I am now trying to modify specific bits within these values but using the bitset function on either values I get an error because bitset requires unsigned integers.

I have also tried using dec2bin function, which I assumed would convert decimals to binary but it returns '0' for B(1,1).

Does anyone know of any way to deal with floats at bit level without losing precision?

share|improve this question
out of sheer curiosity, why do you want to do this? – David Heffernan Mar 9 '11 at 12:14
Its a steganography project using NNMF for added security. Its a university project but I'm really struggling using Matlab – Michael Allen Mar 9 '11 at 12:19
up vote 6 down vote accepted

You should look into the typecast and bitset functions. (Doc here and here respectively). That lets you do stuff like

xb = typecast( 1.0, 'uint64' );
xb = bitset( xb, 10, 1 );
typecast( xb, 'double' );
share|improve this answer
This method worked to convert the double to a value bitset could work with however when i convert it back instead of getting 0.118 I get 1.000 – Michael Allen Mar 9 '11 at 13:11
Did you try "bitset(typecast(B(1,1), 'uint64'),...)" ? Also, "format hex" shows you the underlying data values in hex... – Edric Mar 9 '11 at 16:44

The num2hex and hex2num functions are your friends. (Though not necessarily very good friends; hexadecimal strings aren't the best imaginable form for working on binary floating-point numbers. You could split them into, say, 8-nybble chunks and convert each to an integer.)

From the MATLAB docs:

num2hex([1 0 0.1 -pi Inf NaN])


ans =



num2hex(single([1 0 0.1 -pi Inf NaN]))


ans =

share|improve this answer
typecast is preferable to num2hex. (Not sure when it was introduced) – Edric Mar 9 '11 at 12:49
Ooo, I didn't know about typecast. I completely agree: better than num2hex and hex2num. Thanks. – Gareth McCaughan Mar 9 '11 at 13:00

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