When using formulas that have factors, the fitted models name the coefficients XY, where X is the name of the factor and Y is a particular level of it. I want to be able to create a formula from the names of these coefficients.

The reason: If I fit a lasso to a sparse design matrix (as I do below) I would like to create a new formula object that only contains terms for the nonzero coefficients.

n <- 200
Z <- data.frame(letter=factor(sample(letters,n,replace=T),letters),
f <- ~ letter + x:letter + I(x>5):letter
X <- sparse.model.matrix(f, Z)
beta <- matrix(rnorm(dim(X)[2],0,5),dim(X)[2],1)
y <- X %*% beta + rnorm(n)

myfit <- glmnet(X,as.vector(y),lambda=.05)
fnew <- rownames(myfit$beta)[which(myfit$beta != 0)]
 [1] "letterb"              "letterc"              "lettere"             
 [4] "letterf"              "letterg"              "letterh"             
 [7] "letterj"              "letterm"              "lettern"             
[10] "lettero"              "letterp"              "letterr"             
[13] "letters"              "lettert"              "letteru"             
[16] "letterw"              "lettery"              "letterz"             
[19] "lettera:x"            "letterb:x"            "letterc:x"           
[22] "letterd:x"            "lettere:x"            "letterf:x"           
[25] "letterg:x"            "letterh:x"            "letteri:x"           
[28] "letterj:x"            "letterk:x"            "letterl:x"           
[31] "letterm:x"            "lettern:x"            "lettero:x"           
[34] "letterp:x"            "letterq:x"            "letterr:x"           
[37] "letters:x"            "lettert:x"            "letteru:x"           
[40] "letterv:x"            "letterw:x"            "letterx:x"           
[43] "lettery:x"            "letterz:x"            "letterb:I(x > 5)TRUE"
[46] "letterc:I(x > 5)TRUE" "letterd:I(x > 5)TRUE" "lettere:I(x > 5)TRUE"
[49] "letteri:I(x > 5)TRUE" "letterj:I(x > 5)TRUE" "letterl:I(x > 5)TRUE"
[52] "letterm:I(x > 5)TRUE" "letterp:I(x > 5)TRUE" "letterq:I(x > 5)TRUE"
[55] "letterr:I(x > 5)TRUE" "letteru:I(x > 5)TRUE" "letterv:I(x > 5)TRUE"
[58] "letterx:I(x > 5)TRUE" "lettery:I(x > 5)TRUE" "letterz:I(x > 5)TRUE"

From this I would like to have a formula

~ I(letter=="d") + I(letter=="e") + ...(etc)

I checked out formula() and all.vars() to no avail. Also, writing a function to parse this is a bit of a pain because of the different types of terms that can arise. For example, for x:letter when x is a numeric value and letter is a factor, or I(x>5):letter as another annoying case.

So am I not aware of some function to convert between formula and its character representation and back again?

  • That isn't a formula I recognise in R Nov 25, 2010 at 22:00
  • 1
    Perhaps I misunderstand, but you appear to not fully grep R's model formulae. You don't include in the formula the XY bits, you include the X and model.matrix() and model.frame() do their thing to expand the levels of the X to the relevant model matrix columns, the XY. Nov 25, 2010 at 22:06
  • Could you explain why you want the formula? What is the end use? Nov 25, 2010 at 22:14
  • I have a design matrix with 200k columns created with model f. After fitting the lasso, I have a model g with, say, 5k terms. I would like to build new design matrix with g rather than f. After letting model.matrix() and model.frame() do their thing, I would like to get a formula corresponding to some subset of the model matrix columns (after the levels have been expanded) Nov 26, 2010 at 3:14

2 Answers 2


When I ran the code, I got something a bit different, since set.seed() had not been specified. Instead of using the variable name "letter", I used "letter_" as a convenient splitting marker:

> fnew <- rownames(myfit$beta)[which(myfit$beta != 0)]

> fnew
 [1] "letter_c" "letter_d" "letter_e" "letter_f" "letter_h" "letter_k" "letter_l"
 [8] "letter_o" "letter_q" "letter_r" "letter_s" "letter_t" "letter_u" "letter_v"
[15] "letter_w"

Then made the split and packaged into a character matrix:

> fnewmtx <- cbind( lapply(sapply(fnew, strsplit, split="_"), "[[", 2),
+ lapply(sapply(fnew, strsplit, split="_"), "[[", 1))

fnewmtx [,1] [,2]
letter_c "c" "letter" letter_d "d" "letter" letter_e "e" "letter" letter_f "f" "letter" snipped the rest

And wrapped the paste function(s) output in as.formula() which is half of the answer to how to "convert between formula and its character representation and back." The other half is as.character()

form <- as.formula( paste("~", 
               paste(" I(", fnewmtx[,2], "_ ==", "'",fnewmtx[,1],"') ", sep="") , 
             sep="", collapse="+")
           )  # edit: needed to add back the underscore

And the output is now an appropriate class object:

> class(form)
[1] "formula"
> form
~I(letter_ == "c") + I(letter_ == "d") + I(letter_ == "e") + 
    I(letter_ == "f") + I(letter_ == "h") + I(letter_ == "k") + 
    I(letter_ == "l") + I(letter_ == "o") + I(letter_ == "q") + 
    I(letter_ == "r") + I(letter_ == "s") + I(letter_ == "t") + 
    I(letter_ == "u") + I(letter_ == "v") + I(letter_ == "w")

I find it interesting that the as.formula conversion made the single-quotes around the letters into double-quotes.

Edit: Now that the problem has an additional dimension or two, my suggestion is to skip the recreation of the formula. Note that the rownames of myfit$beta are exactly the same as the column names of X, so instead use the non-zero rownames as indices to select columns in the X matrix:

> str(X[ , which( colnames(X) %in% rownames(myfit$beta)[which(myfit$beta != 0)] )] )
Formal class 'dgCMatrix' [package "Matrix"] with 6 slots
  ..@ i       : int [1:429] 9 54 91 157 166 37 55 68 117 131 ...
  ..@ p       : int [1:61] 0 5 13 20 28 36 42 50 60 68 ...
  ..@ Dim     : int [1:2] 200 60
  ..@ Dimnames:List of 2
  .. ..$ : chr [1:200] "1" "2" "3" "4" ...
  .. ..$ : chr [1:60] "letter_b" "letter_c" "letter_e" "letter_f" ...
  ..@ x       : num [1:429] 1 1 1 1 1 1 1 1 1 1 ...
  ..@ factors : list()

> myfit2 <- glmnet(X[ , which( colnames(X) %in% rownames(myfit$beta)[which(myfit$beta != 0)] )] ,as.vector(y),lambda=.05)
> myfit2

Call:  glmnet(x = X[, which(colnames(X) %in% rownames(myfit$beta)[
                                           which(myfit$beta != 0)])], 
              y = as.vector(y), lambda = 0.05) 

     Df   %Dev Lambda
[1,] 60 0.9996   0.05
  • Thanks DWin! This is close, but not quite a general solution. I've updated my example. Is there a quick fix that extends your solution? Nov 25, 2010 at 23:10
  • Also, when creating fnewmtx, shouldn't the strsplit use split="_" instead of split=""? Nov 25, 2010 at 23:18
  • Quite right. I will edit. I am seeing if I can cope with the added complexity of an interaction formula but don't expect a quick reply on that..... update: tried to edit but the underscores are in the code segments of the original and not being displayed on the SO page. Re-"coded" and perhaps now better.
    – IRTFM
    Nov 25, 2010 at 23:48
  • 1
    @Christopher Not sure to which X you are referring above. DWin's solution is indexing your sparse model matrix X. From your Question, I got the distinct impression you could form that matrix in order to fit the model with glmnet(). DWin's subsetting yields a new sparse matrix containing only the columns where the coefs were non-zero. Do you want to create the full design matrix (as opposed to the sparse version) from this reduced sparse design matrix? If so, try: newX <- as.matrix(X[ , which( colnames(X) %in% rownames(myfit$beta)[which(myfit$beta != 0)] )]). newX has 60 cols. Nov 26, 2010 at 9:42
  • 1
    Sorry for not being clear. Let's say I create my first sparse model matrix X_train and fit it with glmnet(). (This takes 5-15 minutes for my particular problem.) Now I want to create a new sparse matrix using new data, X_test, but only with the columns whose coefficients were nonzero. For computational reasons, I want to avoid building up a sparse matrix for X_test that has all the columns, so the subseting solution above doesn't work for me (unless I'm missing something). Nov 27, 2010 at 2:55

Christopher, what you are asking for appears, after some consideration and examination of sparse.model.matrix etc, to be somewhat involved. You haven't explain why you do not want to form the full sparse model matrix for X_test so it is difficult to advise a way forward other than the two options below.

If you have a large number of observations in X_test and hence do not want to produce the full sparse matrix for use in predict() for computational reasons, it might be more expedient to split X_test into two or more chunks of samples and form the sparse model matrices for each one in turn, discarding it after after use.

Failing that, you will need to study code from the Matrix package in detail. Start with sparse.model.matrix and note that it then calls Matrix:::model.spmatrix and locate calls to Matrix:::fac2Sparse in that function. You will probably need to co-opt code from these functions but use a modified fac2Sparse to achieve what you want to achieve.

Sorry I cannot provide an off-the-shelf script to do this, but that is a substantial coding task. If you go down that route, check out the Sparse Model Matrices vignette in the Matrix package and get the package sources (from CRAN) to see if the functions I mention are better documented in the source code (there are no Rd files for fac2Sparse for example). You can also ask the authors of Matrix (Martin Maechler and Doug Bates) for advice, although note that both of these chaps have had a particularly heavy teaching load this term.

Good luck!

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.