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fTrading (version 3042.79)

RollingAnalysis: Rolling Analysis

Description

A collection and description of functions to perform a rolling analysis. A rolling analysis is often required in building trading models.

The functions are:

rollFun Rolling or moving sample statistics,

Usage

rollFun(x, n, trim = TRUE, na.rm = FALSE, FUN, ...)



rollVar(x, n = 9, trim = TRUE, unbiased = TRUE, na.rm = FALSE)

Arguments

FUN

the rolling function, arguments to this function can be passed through the argument.

n

an integer specifying the number of periods or terms to use in each rolling/moving sample.

na.rm

a logical flag: if TRUE, missing values in x will be removed before computation. The default is FALSE.

trim

a logical flag: if TRUE, the first n-1 missing values in the returned object will be removed; if FALSE, they will be saved in the returned object. The default is TRUE.

unbiased

a logical flag. If TRUE, the unbiased sample variance will be returned. The default is TRUE.

x

an univariate timeSeries object or a numeric vector.

additional arguments to be passed.

Value

The functions return a timeSeries object or a numeric vector, depending on the argument x.

rollMax returns the rolling sample maximum, rollMin returns the rolling sample minimum, rollMean returns the rolling sample mean, and rollVar returns the biased/unbiased rolling sample variance.

Note, that the function rollFun always returns a numeric vector, independent of the argument x.

If you like to operate for x with rectangular objects, you have to call the functions columnwise within a loop.

See Also

var.

Examples

Run this code
# NOT RUN {
## Rolling Analysis:
   x = (1:10)^2
   x
   trim =  c(TRUE, TRUE, FALSE, FALSE)
   na.rm = c(TRUE, FALSE, TRUE, FALSE)
   for (i in 1:4)
     rollFun(x, 5, trim[i], na.rm[i], FUN = min)
   for (i in 1:4)
     rollFun(x, 5, trim[i], na.rm[i], FUN = max)
   for (i in 1:4)
     rollVar(x, 5, trim[i], unbiased = TRUE, na.rm[i])
   for (i in 1:4)
     rollVar(x, 5, trim[i], unbiased = FALSE, na.rm[i])
# }

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