R/CAPM.jensenAlpha.R
In AmurG/PerformanceAnalytics: Econometric tools for performance and risk analysis
#' Jensen's alpha of the return distribution
#'
#' The Jensen's alpha is the intercept of the regression equation in the Capital
#' Asset Pricing Model and is in effect the exess return adjusted for systematic risk.
#'
#' \deqn{\alpha = r_p - r_f - \beta_p * (b - r_f)}{alpha = r_p - r_f - beta_p * (b - r_f)}
#'
#' where \eqn{r_f} is the risk free rate, \eqn{\beta_r} is the regression beta,
#' \eqn{r_p} is the portfolio return and b is the benchmark return
#'
#' @aliases SFM.jensenAlpha
#' @param Ra an xts, vector, matrix, data frame, timeSeries or zoo object of
#' asset returns
#' @param Rb return vector of the benchmark asset
#' @param Rf risk free rate, in same period as your returns
#' @param \dots any other passthru parameters
#' @author Matthieu Lestel
#' @references Carl Bacon, \emph{Practical portfolio performance measurement
#' and attribution}, second edition 2008 p.72
#'
###keywords ts multivariate distribution models
#' @examples
#'
#' data(portfolio_bacon)
#' print(SFM.jensenAlpha(portfolio_bacon[,1], portfolio_bacon[,2])) #expected -0.014
#'
#' data(managers)
#' print(SFM.jensenAlpha(managers['1996',1], managers['1996',8]))
#' print(SFM.jensenAlpha(managers['1996',1:5], managers['1996',8]))
#'
#' @rdname CAPM.jensenAlpha
#' @export CAPM.jensenAlpha SFM.jensenAlpha
CAPM.jensenAlpha <- SFM.jensenAlpha <-
function (Ra, Rb, Rf = 0, ...)
{
calcul = FALSE
Ra = checkData(Ra, method="matrix")
Rb = checkData(Rb, method="matrix")
if (ncol(Ra)==1 || is.null(Ra) || is.vector(Ra)) {
period = Frequency(Ra)
Rp = (prod(1 + Ra))^(period / length(Ra)) - 1
Rpb = (prod(1 + Rb))^(period / length(Rb)) - 1
for (i in (1:length(Ra))) {
if (!is.na(Ra[i])) {
calcul = TRUE
}
}
if (calcul) {
result = Rp - Rf - CAPM.beta(Ra,Rb,Rf) * (Rpb - Rf)
}
else {
result = NA
}
return(result)
}
else {
Ra = checkData(Ra)
result = apply(Ra, MARGIN = 2, CAPM.jensenAlpha, Rb = Rb, Rf = Rf, ...)
result<-t(result)
colnames(result) = colnames(Ra)
rownames(result) = paste("Jensen's Alpha (Risk free = ",Rf,")", sep="")
return(result)
}
}
###############################################################################
# R (http://r-project.org/) Econometrics for Performance and Risk Analysis
#
# Copyright (c) 2004-2014 Peter Carl and Brian G. Peterson
#
# This R package is distributed under the terms of the GNU Public License (GPL)
# for full details see the file COPYING
#
# $Id: CAPM.jensenAlpha.R 3528 2014-09-11 12:43:17Z braverock $
#
###############################################################################
AmurG/PerformanceAnalytics documentation built on May 5, 2019, 4:55 a.m.
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#' Jensen's alpha of the return distribution
#'
#' The Jensen's alpha is the intercept of the regression equation in the Capital
#' Asset Pricing Model and is in effect the exess return adjusted for systematic risk.
#'
#' \deqn{\alpha = r_p - r_f - \beta_p * (b - r_f)}{alpha = r_p - r_f - beta_p * (b - r_f)}
#'
#' where \eqn{r_f} is the risk free rate, \eqn{\beta_r} is the regression beta,
#' \eqn{r_p} is the portfolio return and b is the benchmark return
#'
#' @aliases SFM.jensenAlpha
#' @param Ra an xts, vector, matrix, data frame, timeSeries or zoo object of
#' asset returns
#' @param Rb return vector of the benchmark asset
#' @param Rf risk free rate, in same period as your returns
#' @param \dots any other passthru parameters
#' @author Matthieu Lestel
#' @references Carl Bacon, \emph{Practical portfolio performance measurement
#' and attribution}, second edition 2008 p.72
#'
###keywords ts multivariate distribution models
#' @examples
#'
#' data(portfolio_bacon)
#' print(SFM.jensenAlpha(portfolio_bacon[,1], portfolio_bacon[,2])) #expected -0.014
#'
#' data(managers)
#' print(SFM.jensenAlpha(managers['1996',1], managers['1996',8]))
#' print(SFM.jensenAlpha(managers['1996',1:5], managers['1996',8]))
#'
#' @rdname CAPM.jensenAlpha
#' @export CAPM.jensenAlpha SFM.jensenAlpha
CAPM.jensenAlpha <- SFM.jensenAlpha <-
function (Ra, Rb, Rf = 0, ...)
{
calcul = FALSE
Ra = checkData(Ra, method="matrix")
Rb = checkData(Rb, method="matrix")
if (ncol(Ra)==1 || is.null(Ra) || is.vector(Ra)) {
period = Frequency(Ra)
Rp = (prod(1 + Ra))^(period / length(Ra)) - 1
Rpb = (prod(1 + Rb))^(period / length(Rb)) - 1
for (i in (1:length(Ra))) {
if (!is.na(Ra[i])) {
calcul = TRUE
}
}
if (calcul) {
result = Rp - Rf - CAPM.beta(Ra,Rb,Rf) * (Rpb - Rf)
}
else {
result = NA
}
return(result)
}
else {
Ra = checkData(Ra)
result = apply(Ra, MARGIN = 2, CAPM.jensenAlpha, Rb = Rb, Rf = Rf, ...)
result<-t(result)
colnames(result) = colnames(Ra)
rownames(result) = paste("Jensen's Alpha (Risk free = ",Rf,")", sep="")
return(result)
}
}
###############################################################################
# R (http://r-project.org/) Econometrics for Performance and Risk Analysis
#
# Copyright (c) 2004-2014 Peter Carl and Brian G. Peterson
#
# This R package is distributed under the terms of the GNU Public License (GPL)
# for full details see the file COPYING
#
# $Id: CAPM.jensenAlpha.R 3528 2014-09-11 12:43:17Z braverock $
#
###############################################################################
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