# do.call with cbind and lags of a variable

I want to create a function that produces a matrix containing several lags of a variable. A simple example that works is

``````a <- ts(1:10)
cbind(a, lag(a, -1))
``````

To do this for multiple lags, I have

``````lagger <- function(var, lags) {

### Create list of lags
lagged <- lapply(1:lags, function(x){
lag(var, -x)
})

### Join lags together
do.call(cbind, list(var, lagged))
}
``````

Using the above example gives unexpected results;

``````lagger(a, 1)
``````

gives a length 20 list with the original time series broken out into separate list slots and the final 10 each being a replication of the lagged series.

Any suggestions to getting this working? Thanks!

-

This gives a lag of 0 and of 1.

``````library(zoo)
a <- ts(11:13)
lags <- -(0:1)

a.lag <- as.ts(lag(as.zoo(a), lags))
``````

Now `a.lag` is this:

``````> a.lag
Time Series:
Start = 1
End = 4
Frequency = 1
lag0 lag-1
1   11    NA
2   12    11
3   13    12
4   NA    13
``````

If you don't want the `NA` entries then use: `as.ts(na.omit(lag(as.zoo(a), lags)))` .

-
Well, I guess I can stop hacking on the `embed` code now. This is what I thought the OP wanted. –  BondedDust Aug 23 '12 at 17:25

I thinkd embed is the correct answer but you get the vectors in the other way around. I mean using `embed` you'll get the lagged series not in the proper order, see the following

``````lagged <- embed(a,4)
colnames(lagged) <- paste('t', 3:0, sep='-')
lagged
t-3 t-2 t-1 t-0
[1,]   4   3   2   1
[2,]   5   4   3   2
[3,]   6   5   4   3
[4,]   7   6   5   4
[5,]   8   7   6   5
[6,]   9   8   7   6
[7,]  10   9   8   7
``````

this gives the correct answer to you but not in the correct order, since the lags are in descending order.

But it you reorder just like this:

``````lagged_OK <- lagged[,ncol(lagged):1]
colnames(lagged_OK) <- paste('t', 0:3, sep='-')
lagged_OK
lag.0 lag.1 lag.2 lag.3
[1,]     1     2     3     4
[2,]     2     3     4     5
[3,]     3     4     5     6
[4,]     4     5     6     7
[5,]     5     6     7     8
[6,]     6     7     8     9
[7,]     7     8     9    10
``````

Then, you get the right lagged matrix.

I add `colnames` only for explanation purpose, you can just do:

``````embed(a,4)[ ,4:1]
``````

If you really want a `lagger` function, try this

``````lagger <- function(x, lag=1){
lag <- lag+1
Lagged <- embed(x,lag)[ ,lag:1]
colnames(Lagged) <- paste('lag', 0:(lag-1), sep='.')
return(Lagged)
}

lagger(a, 4)
lag.0 lag.1 lag.2 lag.3 lag.4
[1,]     1     2     3     4     5
[2,]     2     3     4     5     6
[3,]     3     4     5     6     7
[4,]     4     5     6     7     8
[5,]     5     6     7     8     9
[6,]     6     7     8     9    10

lagger(a, 1)
lag.0 lag.1
[1,]     1     2
[2,]     2     3
[3,]     3     4
[4,]     4     5
[5,]     5     6
[6,]     6     7
[7,]     7     8
[8,]     8     9
[9,]     9    10
``````
-

I'm not sure what's wrong with your function, but you can probably use `embed` instead.

``````> embed(a,4)
[,1] [,2] [,3] [,4]
[1,]    4    3    2    1
[2,]    5    4    3    2
[3,]    6    5    4    3
[4,]    7    6    5    4
[5,]    8    7    6    5
[6,]    9    8    7    6
[7,]   10    9    8    7
``````
-