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I have been given an assignment in which I am supposed to write an algorithm which performs polynomial interpolation by the barycentric formula. The formulas states that:

p(x) = (SIGMA_(j=0 to n) w(j)*f(j)/(x - x(j)))/(SIGMA_(j=0 to n) w(j)/(x - x(j)))

I have written an algorithm which works just fine, and I get the polynomial output I desire. However, this requires the use of some quite long loops, and for a large grid number, lots of nastly loop operations will have to be done. Thus, I would appreciate it greatly if anyone has any hints as to how I may improve this, so that I will avoid all these loops.

In the algorithm, x and f stand for the given points we are supposed to interpolate. w stands for the barycentric weights, which have been calculated before running the algorithm. And grid is the linspace over which the interpolation should take place:

function p = barycentric_formula(x,f,w,grid)

%Assert x-vectors and f-vectors have same length.
if length(x) ~= length(f)
    sprintf('Not equal amounts of x- and y-values. Function is terminated.')

n = length(x);
m = length(grid);
p = zeros(1,m);

% Loops for finding polynomial values at grid points.  All values are
% calculated by the barycentric formula.
for i = 1:m
    var = 0;
    sum1 = 0;
    sum2 = 0;
    for j = 1:n
        if grid(i) == x(j)
            p(i) = f(j);
            var = 1;
            sum1 = sum1 + (w(j)*f(j))/(grid(i) - x(j));
            sum2 = sum2 + (w(j)/(grid(i) - x(j)));
    if var == 0
        p(i) = sum1/sum2;
share|improve this question
homework tag is deprecated afaik – gokcehan Oct 24 '12 at 17:38
Well, technically I have already solved this, and I'm not really asking someone to do my homework for me. After all, I get the polynomial values I'm supposed to. But for my own learning, I would appreciate it if someone has any tips on how to avoid long loops such as the ones above. However, if the question is deemed inappropriate, I understand, and you may remove it. – Kristian Oct 24 '12 at 17:42
I think it's ok to ask about homeworks, it's just you don't need to tag them explicitly as homework.. – gokcehan Oct 24 '12 at 17:44
hover to the homework tag and you'll see. it says Please do NOT add this tag to questions – gokcehan Oct 24 '12 at 17:46
OK. I understand, and I have removed the tag. Thanks for informing me. – Kristian Oct 24 '12 at 17:58
up vote 3 down vote accepted

This is a classical case for matlab 'vectorization'. I would say - just remove the loops. It is almost that simple. First, have a look at this code:

function p = bf2(x, f, w, grid)

m = length(grid);
p = zeros(1,m);

for i = 1:m
    var = grid(i)==x;
    if any(var)
        p(i) = f(var);
        sum1 = sum((w.*f)./(grid(i) - x));
        sum2 = sum(w./(grid(i) - x));
        p(i) = sum1/sum2;

I have removed the inner loop over j. All I did here was in fact removing the (j) indexing and changing the arithmetic operators from / to ./ and from * to .* - the same, but with a dot in front to signify that the operation is performed on element by element basis. This is called array operators in contrast to ordinary matrix operators. Also note that treating the special case where the grid points fall onto x is very similar to what you had in the original implementation, only using a vector var such that x(var)==grid(i).

Now, you can also remove the outermost loop. This is a bit more tricky and there are two major approaches how you can do that in MATLAB. I will do it the simpler way, which can be less efficient, but more clear to read - using repmat:

function p = bf3(x, f, w, grid)

% Find grid points that coincide with x.
% The below compares all grid values with all x values
% and returns a matrix of 0/1. 1 is in the (row,col)
% for which grid(row)==x(col)

var  = bsxfun(@eq, grid', x);

% find the logical indexes of those x entries
varx = sum(var, 1)~=0;

% and of those grid entries
varp = sum(var, 2)~=0;

% Outer-most loop removal - use repmat to
% replicate the vectors into matrices.
% Thus, instead of having a loop over j
% you have matrices of values that would be
% referenced in the loop

ww = repmat(w, numel(grid), 1);
ff = repmat(f, numel(grid), 1);
xx = repmat(x, numel(grid), 1);
gg = repmat(grid', 1, numel(x));

% perform the calculations element-wise on the matrices
sum1 = sum((ww.*ff)./(gg - xx),2);
sum2 = sum(ww./(gg - xx),2);
p    = sum1./sum2;

% fix the case where grid==x and return
p(varp) = f(varx);


The fully vectorized version can be implemented with bsxfun rather than repmat. This can potentially be a bit faster, since the matrices are not explicitly formed. However, the speed difference may not be large for small system sizes.

Also, the first solution with one loop is also not too bad performance-wise. I suggest you test those and see, what is better. Maybe it is not worth it to fully vectorize? The first code looks a bit more readable..

share|improve this answer
Wow! Thank you very much for your help. I really appreciate it. – Kristian Oct 24 '12 at 18:51

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