# Need to speed up this loop in matlab [closed]

I'm running an MCMC simulation in matlab and need to speed up the loop iterations, after profiling I found that the following loop is taking up the most time by far:

``````for i=1 : n
u=0;
for ii=0 : t-1
if bitget(R(i),8-ii)==1
u=bitset(u,ii+1+2*t);
end
if bitget(G(i),8-ii)==1
u=bitset(u,ii+1+t);
end
if bitget(B(i),8-ii)==1
u=bitset(u,ii+1);
end
end

%u = Tcb(i)*Tcr(i);
p(1+u) = p(1+u) + 1; %kernel(X(i)*X(i)+Y(i)*Y(i));
end
``````

It is a part of an algorithm to obtain the colour distribution of an image. Here are the profile results:

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What is the value of `t`? Is this your data bitsize (eg 8)? –  paddy Feb 6 '13 at 22:56
Why was this closed? –  Eamonn McEvoy Feb 8 '13 at 20:21

## closed as not a real question by TemplateRex, Sankar Ganesh, Sindre Sorhus, Tragedian, WillFeb 8 '13 at 15:48

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

You can save some time by defining 8-ii and ii+1 as variables at the beginning of your loop, thereby reducing repeated calculations.

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So you have 8-bit values and you are reversing the bits in each of the red, green and blue channels, then packing them into a 24-bit value.

Read the Bit Twiddling Hacks page entry Reverse the bits in a byte with 7 operations:

http://graphics.stanford.edu/~seander/bithacks.html#ReverseByteWith32Bits

These operations are surely faster than `bitget` and `bitset`. MatLab provides shifting and bitwise-and.

You can make an anonymous function that does the reversal, then shift and pack the results with bitwise-or.

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Without more knowledge I can only prevent double calculations as @Theoretical described as well as some double lookups.

``````for i=1 : n
u=0;
ri = R(i);
gi = G(i);
ui = U(i);
for ii=0 : t-1
pos = 8 - ii;
if bitget(ri,pos)
u=bitset(u,ii+1+2*t);
end
if bitget(gi,pos)
u=bitset(u,ii+1+t);
end
if bitget(ui,pos)
u=bitset(u,ii+1);
end
end

%u = Tcb(i)*Tcr(i);
p(1+u) = p(1+u) + 1; %kernel(X(i)*X(i)+Y(i)*Y(i));
end
``````
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Assuming `R`, `G` and `B` are marices of type `uint8`. How about

``````% flip bytes function
flip2dec = @( x ) bin2dec( char( '0' + x(8:-1:1) ) );
flip = @( x ) flip2dec( bitget( x, 1:8 ) );
% flip all at once
fR = arrayfun( flip, R );
fG = arrayfun( flip, G );
fB = arrayfun( flip, B );

u = bitshift( uint32(fR), 16 ) + bitshift( uint32(fG), 8 ) + fB;

p = accumarray( double(u(1:n)) +1, 1 ); % up to transposing of inputs
``````
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