fototo · August 16, 2012 16:03
diff --git a/why trend is not your friend on french industries.r b/why trend is not your friend on french industries.r
 #get very helpful Ken French data
 #for this project we will look at Industry Portfolios
 #http://mba.tuck.dartmouth.edu/pages/faculty/ken.french/ftp/48_Industry_Portfolios_daily.zip

 require(latticeExtra)
 require(PerformanceAnalytics)
 require(quantmod)

 #my.url will be the location of the zip file with the data
 my.url="http://mba.tuck.dartmouth.edu/pages/faculty/ken.french/ftp/48_Industry_Portfolios_daily.zip"
 #this will be the temp file set up for the zip file
 my.tempfile<-paste(tempdir(),"\\frenchindustry.zip",sep="")
 #my.usefile is the name of the txt file with the data
 my.usefile<-paste(tempdir(),"\\48_Industry_Portfolios_daily.txt",sep="")
 download.file(my.url, my.tempfile, method="auto", 
              quiet = FALSE, mode = "wb",cacheOK = TRUE)
 unzip(my.tempfile,exdir=tempdir(),junkpath=TRUE)
 #read space delimited text file extracted from zip
 french_industry <- read.table(file=my.usefile,
                              header = TRUE, sep = "",
                              as.is = TRUE,
                              skip = 9, nrows=12211)

 #get dates ready for xts index
 datestoformat <- rownames(french_industry)
 datestoformat <- paste(substr(datestoformat,1,4),
                       substr(datestoformat,5,6),substr(datestoformat,7,8),sep="-")

 #get xts for analysis
 french_industry_xts <- as.xts(french_industry[,1:NCOL(french_industry)],
                              order.by=as.Date(datestoformat))

 #divide by 100 to get percent
 french_industry_xts <- french_industry_xts/100

 #delete missing data which is denoted by -0.9999
 french_industry_xts[which(french_industry_xts < -0.99,arr.ind=TRUE)[,1],
                  unique(which(french_industry_xts < -0.99,arr.ind=TRUE)[,2])] <- 0

 #get price series or cumulative growth of 1
 french_industry_price <- cumprod(french_industry_xts+1)

 #do 200 day moving average for initial testing
 #just change n to test on other widths or rolling period
 ma <- as.xts(apply(french_industry_price, MARGIN = 2, FUN = runMean, n=200), order.by = index(french_industry_price))

 #do plot to test reasonableness
 chart.TimeSeries(ma,ylog=TRUE)

 #set up system to enter when price moves above moving average
 #exit when below
 ma.system <- lag(as.xts(
                  apply(french_industry_price > ma, MARGIN = 2, as.numeric),
                  order.by = index(french_industry_price)),
                 k=1) * french_industry_xts

 #get returns cumulative and annualized for the entire period
 ret.comp.cumul <- Return.cumulative(ma.system) - Return.cumulative(french_industry_xts)
 ret.bh.ann <- Return.annualized(french_industry_xts)
 ret.comp.ann <- Return.annualized(ma.system) - ret.bh.ann
 rownames(ret.comp.ann) <- "Out(under)performance"


 #get colors to use for heat map style coloring by out/under performance
 brew <- brewer.pal(name="RdBu",n=5)
 #get color ramp
 cc.brew <- colorRampPalette(brew)
 #apply color ramp
 cc <- cc.brew(length(ret.comp.ann))
 #do colors based on out/under performance but with gray so visible when labelling
 cc.palette <- colorRampPalette(c(cc[1],"gray60",cc[length(cc)]))
 cc.levpalette <- cc.palette(length(ret.comp.ann))
 cc.levels <- level.colors(ret.comp.ann, at = do.breaks(c(-max(abs(ret.comp.ann)),max(abs(ret.comp.ann))),length(ret.comp.ann)),
                          col.regions = cc.levpalette)


 #plot(ret.comp.cumul ~ Return.cumulative(french_industry_xts),pch=19)
 #plot out/underperformance of ma system vs annualized compounded return of buyhold
 plot(x=ret.bh.ann,y=ret.comp.ann,
     pch=19, col=cc.levels,bty="l",
     xlab = "Ann. Return of BuyHold", ylab = "Out(under)Performance of MA")
 text(x=ret.bh.ann,y=ret.comp.ann, labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
 #plot out/underperformance of ma system vs std. dev. of buyhold
 plot(y=ret.comp.ann, x=apply(na.omit(french_industry_xts),MARGIN=2,sd),
     pch=19,col=cc.levels,bty="l",
     xlab = "StdDev of BuyHold", ylab = "Out(under)Performance of MA")
 text(y=ret.comp.ann, x=apply(na.omit(french_industry_xts),MARGIN=2,sd), labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
 #plot out/underperformance of ma system vs Omega of buyhold
 plot(y=ret.comp.ann, x=Omega(french_industry_xts),
     pch=19,col=cc.levels,bty="l",
     xlab = "Omega of BuyHold", ylab = "Out(under)Performance of MA")
 text(y=ret.comp.ann, x=Omega(french_industry_xts), labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)


 #using rugarch get garch stats similar to those explored in the research
 require(rugarch)
 spec = ugarchspec(
  variance.model=list(garchOrder=c(1,1)),
  mean.model=list(armaOrder=c(1,1), include.mean=T))
 #set up function to get garch stats through apply function
 gfNa <- function(data, spec) {
  x <- na.omit(coredata(data))
  gf <- suppressWarnings(ugarchfit(spec=spec, data=x))
  stats <- coef(gf)
  return(stats)
 }
 #do apply to get garch stats across all industries
 gf.stats <- apply(french_industry_xts[,1:NCOL(french_industry_xts)],MARGIN=2,FUN=gfNa,spec=spec)

 #plot return comparison by each garch stat
 for (i in 1:NROW(gf.stats)) {
  plot(y=ret.comp.ann, x=gf.stats[i,],
       pch=19, col=cc.levels, bty="l",
       xlab=rownames(gf.stats)[i], ylab="Out(under)Performance of MA")
  text(y=ret.comp.ann, x=gf.stats[i,], labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
 }

 #thinking through linear model
 #linmod = lm(as.vector(ret.comp.ann)~as.vector(gf.stats[1,]))
 #plot(linmod)

 #do parallel coordinates chart with color
 require(MASS)
 parcoord(cbind(t(ret.comp.ann),t(gf.stats)[,c(1,2,5)]),
         col = cc.levels,lwd = 2,
         main = "Out(under)Performance by GARCH Stat")
 parcoord(cbind(t(ret.comp.ann),t(gf.stats)),
         col = cc.levels,lwd = 2,
         main = "Out(under)Performance by GARCH Stat")


 #get rolling out(under) performance for horizon chart
 #change na to 0 in ma.system returns
 ma.system[which(is.na(ma.system),arr.ind=TRUE)[,1],
          unique(which(is.na(ma.system),arr.ind=TRUE)[,2])] <- 0
 ma_system_price <- cumprod(1+ma.system)
 roc <- french_industry_price
 #split into groups so do not run out of memory
 for (i in seq(12,48,by=12)) {
  #get difference in rolling performance
  roc[,((i-11):(i))] <- ROC(ma_system_price[,((i-11):(i))],n=250,type="discrete") -
    ROC(french_industry_price[,((i-11):(i))],n=250,type="discrete")
 }
 roc[1:250,] <- 0

 #do a horizon plot of all 48 industries with horizonscale of 0.25
 horizonplot(roc,
            layout=c(1,48),
            horizonscale=0.25,    #feel free to change to whatever you would like
            scales = list(tck = c(1,0), y = list(draw = FALSE,relation = "same")),
            origin = 0,
            colorkey = FALSE,
            #since so many industries, we will comment out grid
            #            panel = function(x, ...) {
            #              panel.horizonplot(x, ...)
            #              panel.grid(h=3, v=0,col = "white", lwd=1,lty = 3)
            #            },
            ylab = list(rev(colnames(roc)), rot = 0, cex = 0.7, pos = 3), 
            xlab = NULL,
            par.settings=theEconomist.theme(box = "gray70"),
            #use ylab above for labelling so we can specify FALSE for strip and strip.left
            strip = FALSE,
            strip.left = FALSE,
            main = "Moving Averages System Performance on French Daily 48 Industry 1963-2011\n source: http://mba.tuck.dartmouth.edu/pages/faculty/ken.french")
	#get very helpful Ken French data
	#for this project we will look at Industry Portfolios
	#http://mba.tuck.dartmouth.edu/pages/faculty/ken.french/ftp/48_Industry_Portfolios_daily.zip

	require(latticeExtra)
	require(PerformanceAnalytics)
	require(quantmod)

	#my.url will be the location of the zip file with the data
	my.url="http://mba.tuck.dartmouth.edu/pages/faculty/ken.french/ftp/48_Industry_Portfolios_daily.zip"
	#this will be the temp file set up for the zip file
	my.tempfile<-paste(tempdir(),"\\frenchindustry.zip",sep="")
	#my.usefile is the name of the txt file with the data
	my.usefile<-paste(tempdir(),"\\48_Industry_Portfolios_daily.txt",sep="")
	download.file(my.url, my.tempfile, method="auto",
	quiet = FALSE, mode = "wb",cacheOK = TRUE)
	unzip(my.tempfile,exdir=tempdir(),junkpath=TRUE)
	#read space delimited text file extracted from zip
	french_industry <- read.table(file=my.usefile,
	header = TRUE, sep = "",
	as.is = TRUE,
	skip = 9, nrows=12211)

	#get dates ready for xts index
	datestoformat <- rownames(french_industry)
	datestoformat <- paste(substr(datestoformat,1,4),
	substr(datestoformat,5,6),substr(datestoformat,7,8),sep="-")

	#get xts for analysis
	french_industry_xts <- as.xts(french_industry[,1:NCOL(french_industry)],
	order.by=as.Date(datestoformat))

	#divide by 100 to get percent
	french_industry_xts <- french_industry_xts/100

	#delete missing data which is denoted by -0.9999
	french_industry_xts[which(french_industry_xts < -0.99,arr.ind=TRUE)[,1],
	unique(which(french_industry_xts < -0.99,arr.ind=TRUE)[,2])] <- 0

	#get price series or cumulative growth of 1
	french_industry_price <- cumprod(french_industry_xts+1)

	#do 200 day moving average for initial testing
	#just change n to test on other widths or rolling period
	ma <- as.xts(apply(french_industry_price, MARGIN = 2, FUN = runMean, n=200), order.by = index(french_industry_price))

	#do plot to test reasonableness
	chart.TimeSeries(ma,ylog=TRUE)

	#set up system to enter when price moves above moving average
	#exit when below
	ma.system <- lag(as.xts(
	apply(french_industry_price > ma, MARGIN = 2, as.numeric),
	order.by = index(french_industry_price)),
	k=1) * french_industry_xts

	#get returns cumulative and annualized for the entire period
	ret.comp.cumul <- Return.cumulative(ma.system) - Return.cumulative(french_industry_xts)
	ret.bh.ann <- Return.annualized(french_industry_xts)
	ret.comp.ann <- Return.annualized(ma.system) - ret.bh.ann
	rownames(ret.comp.ann) <- "Out(under)performance"


	#get colors to use for heat map style coloring by out/under performance
	brew <- brewer.pal(name="RdBu",n=5)
	#get color ramp
	cc.brew <- colorRampPalette(brew)
	#apply color ramp
	cc <- cc.brew(length(ret.comp.ann))
	#do colors based on out/under performance but with gray so visible when labelling
	cc.palette <- colorRampPalette(c(cc[1],"gray60",cc[length(cc)]))
	cc.levpalette <- cc.palette(length(ret.comp.ann))
	cc.levels <- level.colors(ret.comp.ann, at = do.breaks(c(-max(abs(ret.comp.ann)),max(abs(ret.comp.ann))),length(ret.comp.ann)),
	col.regions = cc.levpalette)


	#plot(ret.comp.cumul ~ Return.cumulative(french_industry_xts),pch=19)
	#plot out/underperformance of ma system vs annualized compounded return of buyhold
	plot(x=ret.bh.ann,y=ret.comp.ann,
	pch=19, col=cc.levels,bty="l",
	xlab = "Ann. Return of BuyHold", ylab = "Out(under)Performance of MA")
	text(x=ret.bh.ann,y=ret.comp.ann, labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
	#plot out/underperformance of ma system vs std. dev. of buyhold
	plot(y=ret.comp.ann, x=apply(na.omit(french_industry_xts),MARGIN=2,sd),
	pch=19,col=cc.levels,bty="l",
	xlab = "StdDev of BuyHold", ylab = "Out(under)Performance of MA")
	text(y=ret.comp.ann, x=apply(na.omit(french_industry_xts),MARGIN=2,sd), labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
	#plot out/underperformance of ma system vs Omega of buyhold
	plot(y=ret.comp.ann, x=Omega(french_industry_xts),
	pch=19,col=cc.levels,bty="l",
	xlab = "Omega of BuyHold", ylab = "Out(under)Performance of MA")
	text(y=ret.comp.ann, x=Omega(french_industry_xts), labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)


	#using rugarch get garch stats similar to those explored in the research
	require(rugarch)
	spec = ugarchspec(
	variance.model=list(garchOrder=c(1,1)),
	mean.model=list(armaOrder=c(1,1), include.mean=T))
	#set up function to get garch stats through apply function
	gfNa <- function(data, spec) {
	x <- na.omit(coredata(data))
	gf <- suppressWarnings(ugarchfit(spec=spec, data=x))
	stats <- coef(gf)
	return(stats)
	}
	#do apply to get garch stats across all industries
	gf.stats <- apply(french_industry_xts[,1:NCOL(french_industry_xts)],MARGIN=2,FUN=gfNa,spec=spec)

	#plot return comparison by each garch stat
	for (i in 1:NROW(gf.stats)) {
	plot(y=ret.comp.ann, x=gf.stats[i,],
	pch=19, col=cc.levels, bty="l",
	xlab=rownames(gf.stats)[i], ylab="Out(under)Performance of MA")
	text(y=ret.comp.ann, x=gf.stats[i,], labels=colnames(ret.comp.ann), cex=0.7, pos=2, col=cc.levels)
	}

	#thinking through linear model
	#linmod = lm(as.vector(ret.comp.ann)~as.vector(gf.stats[1,]))
	#plot(linmod)

	#do parallel coordinates chart with color
	require(MASS)
	parcoord(cbind(t(ret.comp.ann),t(gf.stats)[,c(1,2,5)]),
	col = cc.levels,lwd = 2,
	main = "Out(under)Performance by GARCH Stat")
	parcoord(cbind(t(ret.comp.ann),t(gf.stats)),
	col = cc.levels,lwd = 2,
	main = "Out(under)Performance by GARCH Stat")


	#get rolling out(under) performance for horizon chart
	#change na to 0 in ma.system returns
	ma.system[which(is.na(ma.system),arr.ind=TRUE)[,1],
	unique(which(is.na(ma.system),arr.ind=TRUE)[,2])] <- 0
	ma_system_price <- cumprod(1+ma.system)
	roc <- french_industry_price
	#split into groups so do not run out of memory
	for (i in seq(12,48,by=12)) {
	#get difference in rolling performance
	roc[,((i-11):(i))] <- ROC(ma_system_price[,((i-11):(i))],n=250,type="discrete") -
	ROC(french_industry_price[,((i-11):(i))],n=250,type="discrete")
	}
	roc[1:250,] <- 0

	#do a horizon plot of all 48 industries with horizonscale of 0.25
	horizonplot(roc,
	layout=c(1,48),
	horizonscale=0.25, #feel free to change to whatever you would like
	scales = list(tck = c(1,0), y = list(draw = FALSE,relation = "same")),
	origin = 0,
	colorkey = FALSE,
	#since so many industries, we will comment out grid
	# panel = function(x, ...) {
	# panel.horizonplot(x, ...)
	# panel.grid(h=3, v=0,col = "white", lwd=1,lty = 3)
	# },
	ylab = list(rev(colnames(roc)), rot = 0, cex = 0.7, pos = 3),
	xlab = NULL,
	par.settings=theEconomist.theme(box = "gray70"),
	#use ylab above for labelling so we can specify FALSE for strip and strip.left
	strip = FALSE,
	strip.left = FALSE,
	main = "Moving Averages System Performance on French Daily 48 Industry 1963-2011\n source: http://mba.tuck.dartmouth.edu/pages/faculty/ken.french")