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Suppose we have the following:

x <- matrix(1:9, nrow=3)
y <- c(1,2,3)

Why are the matrix multiplications not undefined? We know that x is a 3 x 3 matrix and y is a 1 x 3 matrix. So x %*% y should not be defined and y %*% x should be a 1 x 3 matrix.

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The answer is found in the first section of help("%*%") output. –  cardinal Jan 4 '13 at 14:22

1 Answer 1

Luckily (or unfortunately, depending on the situation) many R operators (in their default state) are overloaded and do all sorts of things 'under the hood' - in this example, the default functionality for %*% in R automatically coerces y to matrix whose dimension will work. When you type

x %*% y 

it makes y a 3 x 1 matrix and when you type

y %*% x 

it makes y a 1 x 3 matrix.

Try comparing those with when you type

x %*% as.matrix(y) 


t(as.matrix(y)) %*% x


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I vote for "unfortunately". My experience has been that implicit coercion in R often causes obscure, hard to detect, and hard to debug behavior, whereas the explicit coercion facilities are maddening in their ability to do the "wrong" thing! :-) Despite its many and varied flaws, on balance, I still like R and use it regularly. –  cardinal Jan 4 '13 at 14:33
+1 for "unfortuntately". There are already lots of stats packages out there that try to do the thinking for the user... –  Stephan Kolassa Jan 4 '13 at 15:09
If you are still in a whinging frame of mind, then you should also be mentioning what happens when you extract a single column: (x%*%y)[,1] –  BondedDust Jan 4 '13 at 16:03
@DWin, I'm not sure what you're driving at. Once you do the multiplication, e.g. x%*%y, a new matrix is created based on however it had to coerce to do make the multiplication work and then you're just indexing that matrix as usual. So, x%*%y multiplies a (3 x 3) by a (3 x 1) to get a (3 x 1) and so extracting the first column just gives a vector of length 3 and with y%*%x you have a (1 x 3) so the first column is just a scalar. I've probably missed your point... –  Macro Jan 4 '13 at 16:21
What it all comes down to (my personal inference) is that R is primarily a data analysis tool so matrix operations are designed to DWIM, where "I" is a statistician. Alternatively, Matlab's DWIM is aimed at "I" being a linear algebraist. –  Carl Witthoft Jan 4 '13 at 16:30

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