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I have a vectorization Q in R using matrices. I have 2 Cols that need to be regressed against each using certain indices. Data is

matrix_senttoR = [ ...
                  0.11 0.95
                  0.23 0.34
                  0.67 0.54
                  0.65 0.95
                  0.12 0.54
                  0.45 0.43 ] ;
indices_forR = [ ...
            2 ] ;

Col1 in matrix is data for say MSFT and GOOG (3 rows each) and Col2 is the return from benchmark StkIndex, on corresponding dates. The data is in matrix format as it is sent from Matlab.

I currently use

slope <- by(    data.frame(matrix_senttoR),   indices_forR,   FUN=function(x)  
                         {zyp.sen (X1~X2,data=x) $coeff[2] }      ) 
betasFac <- sapply(slope , function(x) x+0)

I'm using data.frame above as I could not use cbind(). If I use cbind() then Matlab gives an error as it doesn't understand that format of data. I'm running these commands from inside Matlab (http://www.mathworks.com/matlabcentral/fileexchange/5051). You can replace zyp (zyp.sen) with lm.

BY is slow here (may be because of dataframes?). Is there a better way to do it? It takes 14secs+ for 150k rows of data. Can I instead use matrix-vectorization in R? Thanks.

share|improve this question
If you are just running a regression, why bother passing the code from MATLAB to R? MATLAB's regress function in the Stats toolbox will do the trick. –  Richie Cotton Jan 23 '12 at 18:16
It is also a good idea to do some profiling on the code to see where the slowdown lies. You need to know how much time is taken up with by and how much with your modelling function, and how much time is spent passing data between MATLAB and R. –  Richie Cotton Jan 23 '12 at 18:20
@Richie -> It is because I'm trying to do non-parametric regression, specifically using zyp library package. All my data is in Matlab. My only option is to design the Theil-Sen Regressor in Matlab myself! –  Maddy Jan 23 '12 at 18:26

2 Answers 2

up vote 0 down vote accepted

I still think that you are overcomplicating things by moving from MATLAB to R and back. And passing 150k rows of data must be slowing things down considerably.

zyp.sen is actually pretty trivial to port to MATLAB. Here you go:

function [intercept, slope, intercepts, slopes, rank, residuals] = ZypSen(x, y)
% Computes a Thiel-Sen estimate of slope for a vector of data.

n = length(x);

slopes = arrayfun(@(i) ZypSlopediff(i, x, y, n), 1:(n - 1), ...
    'UniformOutput', false);
slopes =  [slopes{:}];
sni = isfinite(slopes);
slope = median(slopes(sni));

intercepts = y - slope * x;
intercept = median(intercepts);

rank = 2;
residuals = x - slope * y + intercept;


function z = ZypSlopediff(i, x, y, n)

z = (y(1:(n - i)) - y((i + 1):n)) ./ ...
    (x(1:(n - i)) - x((i + 1):n));


I checked this using the R's example(zyp.sen), and it gives the same answer.

x = [0 1 2 4 5]
y = [6 4 1 8 7]
[int, sl, ints, sls, ra, res] = ZypSen(x, y)

You should really do some further checking though, just to be sure.

share|improve this answer

This could easily be moved to a comment, but:

A few things to consider, I tend to avoid the by() function since its return value is a funky object. Instead, why not add your indices_forR vector to the data.frame?

df <- data.frame(matrix_senttoR) 
df$indices_forR <- indices_forR

the plyr package does the work from here:

ddply(df,.(indices_forR),function(x) zyp.sen(X1~X2,data=x)$coeff[2])

you can easily multi-thread this operation using doMC or doSnow and the argument .parallel=TRUE to ddply.

if speed is the goal, I would also learn the data.table package (which wraps data.frame and is much faster). Also, I assume that the slow piece is the zyp.sen() call rather than the by() call. Executing on multiple cores will speed this along.

> dput(df)
structure(list(X1 = c(0.11, 0.23, 0.67, 0.65, 0.12, 0.45), X2 = c(0.95, 
0.34, 0.54, 0.95, 0.54, 0.43), indices_forR = c(1, 1, 1, 2, 2, 
2)), .Names = c("X1", "X2", "indices_forR"), row.names = c(NA, 
-6L), class = "data.frame")

> ddply(df,.(indices),function(x) lm(X1~X2,data=x)$coeff[2])
  indices         X2
1       1 -0.3702172
2       2  0.6324900
share|improve this answer
-> the step ddply does not work when implemented like evalR('slope <- ddply(df,.(indices_forR),function(x) zyp.sen(X1~X2,data=x)$coeff[2])') ; I get an error: Invoke Error, Dispatch Exception: Object is static; operation not allowed –  Maddy Jan 23 '12 at 19:36
@Maddy that sounds like a Matlab error rather than an R error. not sure which package zyp.sen() comes from but using lm() in R itself it works great. –  Justin Jan 23 '12 at 20:38
-> Thanks Justin. But I guess im stuck with zyp for now. It is non-parametric and I have to use it specifically. I knew that it is matlab based error. Im not really well versed with R and so had put this Q hoping for a solution. –  Maddy Jan 23 '12 at 21:17

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