# Rollapply for time series

I am trying to calculate the rolling 20 period historical volatility. I take the daily returns:

``````ret<-ROC(data1)
``````

And then I use rollapply to get the 20 day HV for each column:

``````vol<-rollapply(ret,20,sd,by.column=T,fill=NA)
``````

The problem is that observations in vol starts appearing after ten days which is wrong as I specified 20.

For demonstration here is sample of the data:

``````0.000000000, 0.005277045, 0.023622047, 0.002564103,-0.002557545, -0.020512821,
0.007853403,-0.012987013,  0.007894737,  0.015665796,  0.000000000, -0.002570694,
0.002577320, -0.015424165, 0.002610966,  0.010416667,  0.002577320,  0.015424165,
0.000000000, -0.002531646, -0.002538071, 0.030534351,  0.014814815, -0.007299270,
-0.009803922, -0.012376238,  0.002506266, -0.015000000,-0.002538071,  0.002544529
``````

Assume the data above is stored in x, then:

``````rollapply(x,20,sd,fill=NA)
``````

will yield a first observation at 10th row instead of 20. Also the sd is wrong too.

I should be missing something here...

-

You need to use `align='right'` instead of using the default which is `align='center'`, or instead of using `rollapply`, use the `rollapplyr` wrapper which has `align='right'` as the default.

From `?rollapply`:

align specifyies whether the index of the result should be left- or right-aligned or centered (default) compared to the rolling window of observations. This argument is only used if width represents widths.

Although, for this, personally, I'd use `runSD` from the TTR package because it uses compiled code and will be faster.

Either of these should do what you expect, but the second one will be faster.

``````library(zoo)
rollapply(x, 20, sd, fill=NA, align='right')

library(TTR)
runSD(x, 20)
``````
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