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I'm trying to multiply a data frame df by a vector v, so that the product is a data frame, where the i-th row is given by df[i,]*v. I can do this, for example, by

df <- data.frame(A=1:5, B=2:6); v <- c(0,2)
as.data.frame(t(t(df) * v))
   A  B
1  0  4
2  0  6
3  0  8
4  0 10
5  0 12

I am sure there has to be a more R-style approach (and a very simple one!), but nothing comes on my mind. I even tried something like

apply(df, MARGIN=1, function(x) x*v)

but still, non-readable constructions like as.data.frame(t(.)) are required.
How can I find an efficient and elegant workaround here?

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Why does it need to be a data.frame? If you have all numeric elements it generally makes more sense to use a matrix. –  Señor O Aug 22 '13 at 16:42
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5 Answers

up vote 9 down vote accepted

This works too:


In that solution, you are taking advantage of the fact that data.frame is a type of list, so you can iterate over both the elements of df and v at the same time with mapply.

Unfortunately, you are limited in what you can output from mapply: as simple list, or a matrix. If your data are huge, this would likely be more efficient:


Because it would convert it to a list, which is more efficient to convert to a data.frame.

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This is a great line of code, and it seems to be the most efficient as well. Not quite self-explaining in the code, but very neat, compared to my solution. +1 for further optimization! –  tonytonov Aug 22 '13 at 14:43
@Arun I thought you were right, eddi's answer it seems to show that it is much slower. Perhaps the matrix generation takes longer than you think? –  nograpes Aug 22 '13 at 16:43
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If you're looking for speed and memory efficiency - data.table to the rescue:

dt = data.table(df)

for (i in seq_along(dt))
  dt[, i := dt[[i]] * v[i], with = F]

eddi = function(dt) { for (i in seq_along(dt)) dt[, i := dt[[i]] * v[i], with = F] }
arun = function(df) { df * matrix(v, ncol=ncol(df), nrow=nrow(df), byrow=TRUE) }
nograpes = function(df) { data.frame(mapply(`*`,df,v,SIMPLIFY=FALSE)) }

N = 1e6
dt = data.table(A = rnorm(N), B = rnorm(N))
v = c(0,2)

microbenchmark(eddi(copy(dt)), arun(copy(dt)), nograpes(copy(dt)), times = 10)
#Unit: milliseconds
#               expr        min         lq     median         uq        max neval
#     eddi(copy(dt))   17.46796   19.23358   23.53997   26.03665   30.01232    10
#     arun(copy(dt)) 1014.36108 1375.66253 1461.46489 1527.66639 1721.96316    10
# nograpes(copy(dt))   92.14517  109.30627  158.42780  186.32240  188.01758    10

As Arun points out in the comments, one can also use the set function from the data.table package to do this in-place modification on data.frame's as well:

for (i in seq_along(df))
  set(df, j = i, value = df[[i]] * v[i])

This of course also works for data.table's and could be significantly faster if the number of columns is large.

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+1 nice! The documentation states that using set with for-loop would be faster because there's no overhead due to [.data.table. However, here, I don't see it being faster.. any idea? Also, set can be used with data.frame. You don't have to convert to a data.table (and assigning happens by reference)! –  Arun Aug 22 '13 at 18:53
good point about set, but since, I assume, the number of columns is small, I don't think for loop vs set is going to make a difference (if the number of columns is large enough for it to matter, I think data.table is not a good data structure any more at that point); also in my world there are no conversions to data.table as everything is data.table to begin with ;) –  eddi Aug 22 '13 at 19:08
yes. What I meant (about any idea) was, set is slower... I cant explain why it's slower... –  Arun Aug 22 '13 at 19:18
@Arun got it; you're right - I just checked and set is indeed slower for 2 columns - but becomes better as the number of columns increases - it's actually 2x as fast for 10 columns –  eddi Aug 22 '13 at 19:21
+1 Btw, we're starting to favour dt[, (i) := dt[[i]] * v[i]] so we don't need with=FALSE. The with=FALSE may be confusing as to what the with refers to. (i) is still confusing maybe, but at least the reader knows it's something to do with i. –  Matt Dowle Sep 2 '13 at 19:39
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A language that lets you combine vectors with matrices has to make a decision at some point whether the matrices are row-major or column-major ordered. The reason:

> df * v
  A  B
1 0  4
2 4  0
3 0  8
4 8  0
5 0 12

is because R operates down the columns first. Doing the double-transpose trick subverts this. Sorry if this is just explaining what you know, but I don't know another way of doing it, except explicitly expanding v into a matrix of the same size.

Or write a nice function that wraps the not very R-style code into something that is R-stylish.

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The flexibility of R is what we love it for, that's so true. Thanks for the comment, I think the solution will be to wrap this into a function in order to preserve code readability. –  tonytonov Aug 22 '13 at 14:36
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Whats wrong with

t(apply(df, 1, function(x)x*v))


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It seems to work just fine.. –  Mariam Aug 22 '13 at 14:25
This returns a matrix instead of a data.frame, so it would be data.frame(t(apply(df, 1, function(x)x*v))) which is less concise than @nograpes ' answer data.frame(mapply(*,df,v)). –  Rob Aug 22 '13 at 14:31
mapply version seems to be faster, cool. –  Fernando Aug 22 '13 at 14:37
Thanks for pointing that out, Rob. The question of efficiency is still open though. –  tonytonov Aug 22 '13 at 14:38
mapply indeed also appears to be faster: On a data.frame with 1000000 rows it takes 4.42 sec using mapply vs. 12.52 sec using apply on my system. –  Rob Aug 22 '13 at 14:43
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I think the fastest way (without testing data.table) is data.frame(t(t(df)*v)).

My tests:

testit <- function(nrow, ncol)
    df <- as.data.frame(matrix(rnorm(nrow*ncol),nrow=nrow,ncol=ncol))

    v <- runif(ncol)

    r1 <- data.frame(t(t(df)*v))
    r2 <- data.frame(mapply(`*`,df,v,SIMPLIFY=FALSE))
    r3 <- df * rep(v, each=nrow(df))

    stopifnot(identical(r1, r2) && identical(r1, r3))

    microbenchmark(data.frame(t(t(df)*v)), data.frame(mapply(`*`,df,v,SIMPLIFY=FALSE)), df * rep(v, each=nrow(df)))


> set.seed(1)
> testit(100,100)
Unit: milliseconds
                                             expr       min        lq    median        uq      max neval
                         data.frame(t(t(df) * v))  2.297075  2.359541  2.455778  3.804836 33.05806   100
 data.frame(mapply(`*`, df, v, SIMPLIFY = FALSE))  9.977436 10.401576 10.658964 11.762009 15.09721   100
                     df * rep(v, each = nrow(df)) 14.309822 14.956705 16.092469 16.516609 45.13450   100
> testit(1000,10)
Unit: microseconds
                                             expr      min       lq   median       uq      max neval
                         data.frame(t(t(df) * v))  754.844  805.062  844.431 1850.363 27955.79   100
 data.frame(mapply(`*`, df, v, SIMPLIFY = FALSE)) 1457.895 1497.088 1567.604 2550.090  4732.03   100
                     df * rep(v, each = nrow(df)) 5383.288 5527.817 5875.143 6628.586 32392.81   100
> testit(10,1000)
Unit: milliseconds
                                             expr       min        lq    median        uq       max neval
                         data.frame(t(t(df) * v))  17.07548  18.29418  19.91498  20.67944  57.62913   100
 data.frame(mapply(`*`, df, v, SIMPLIFY = FALSE))  99.90103 104.36028 108.28147 114.82012 150.05907   100
                     df * rep(v, each = nrow(df)) 112.21719 118.74359 122.51308 128.82863 164.57431   100
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you're looking at tiny data (where those differences don't matter unless you're doing loops) - look at e.g. testit(100000,10) - not super large and shaped like data is usually shaped –  eddi Aug 22 '13 at 17:28
@eddi, interesting. But transposing twice is still in the same order of mapply for 1e6. rows Actually it's about 5% faster in my run. –  Ferdinand.kraft Aug 22 '13 at 17:34
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