# Create a matrix of list without for loop in R

I have two list in R and I want to create the result in a matrix for different `z` values. Means that at the end I have matrix with 2 rows and 10 columns.

``````x = list(a = 1, b = 2, c = 3)
y = list(a = 4, b = 5, c =  3)
z = seq(0, 1, len = 10)
w = list(a1 = z * x\$a + (1-z) * x\$b + x\$c , b1 = z * y\$a + (1-z) * y\$b + y\$c)
``````

How can I do this without for loop in R?

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How would you do it with a `for` loop? (It is not at all clear what you want.) – Matthew Lundberg May 9 '13 at 3:51
I didn't do it with for loop, but I think with for loop we should create a matrix of zero then fill out each element with unlist the w vector elements. – rose May 9 '13 at 3:54
So you want to turn `w` into a matrix? This should do the trick `do.call("rbind", w)`. FYI - you are missing a mathematical operator in `a1`, probably intended to be `*` based on `b1`. – Chase May 9 '13 at 3:54

``````rbind(unlist(x), unlist(y)) %*% rbind(z, 1-z, 1)
``````
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If the length of unlist(x) and unlist(y) was not 2 , so we can not use this code. What should we do in this regards? – rose May 9 '13 at 5:04
See, it also works with your new example. After I added a row of `1` to the weight matrix on the right. – flodel May 9 '13 at 5:11
I get this result:> rbind(unlist(x), unlist(y)) %*% rbind(z, 1-z) Error in rbind(unlist(x), unlist(y)) %*% rbind(z, 1 - z) : non-conformable arguments – rose May 9 '13 at 5:13
If we want to create w = list(a1 = z * x\$a + (1-z) * y\$a + x\$c , b1 = z * x\$b + (1-z) * y\$b + y\$c) how can we do this? – rose May 9 '13 at 5:49
The only reason that I did not delete my answer, is that this is yet another example of "find the matrix multiplication" and mine just might be good for comparison. – Matthew Lundberg May 9 '13 at 12:42

How about something like this (prior to the edit of the question, `x` and `y` are of length 2):

``````d <- list(x, y)
t(sapply(d,  function(x) z*x\$a + (1-z)*x\$b))
##      [,1]     [,2]     [,3]     [,4]     [,5]     [,6]     [,7]     [,8]     [,9] [,10]
## [1,]    2 1.888889 1.777778 1.666667 1.555556 1.444444 1.333333 1.222222 1.111111     1
## [2,]    5 4.888889 4.777778 4.666667 4.555556 4.444444 4.333333 4.222222 4.111111     4
``````
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