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# Save a plot as an image, then plot over it in

I'm working on an R package that allows users to edit timeseries by clicking and dragging points on a graph.

I need to have 6 lines shown at all times on the graph, though only one of the lines is 'active' and can be edited with the mouse.

It works ok now, but because I am drawing so many lines and plotting several times a second when the 'click and drag' function is active, the screen flashes a lot, which is hard on the eyes.

I would like to make a plot with the nonactive series, then save this plot as an image, then write the image to a device and plot the 'active' line over the image for the rest of the event loop. By my reckoning this would lower the number of 'layers' in the graph from 6 to 2.

Some in the comments said some real code would be helpful. Here is my code:

near.point<-function(point,x.vec,y.vec){   #this function takes 'point' which is an x,y val and then finds the point in x.vec, y.vec which is nearby, and returns it
dis.vec<- sqrt(abs(x.vec/(max(x.vec)-min(x.vec))-point[1]/(max(x.vec)-min(x.vec)))^2 + abs(y.vec/(max(y.vec)-min(y.vec))-point[2]/(max(y.vec)-min(y.vec)))^2) #vector of total distances of #pointer click from line points
return(which(dis.vec==min(dis.vec)) )
}

picker.mover <- function(bl,scenarios,date.labs,target,name) { #this function allows one to edit #line points with the mouse

#plot the baseline (the first time series)
plot(unlist(bl),col="black",type="l",lwd=2,xaxt="n",main=name,xlab="",
ylab="Add function to bring in units, later",sub=paste(paste("S",target,sep=""),"active",sep=" "),ylim=c(.96*min(scenarios),1.04*max(scenarios)))
axis(1,at=seq(1,length(date.labs),12),labels=date.labs[seq(1,length(date.labs),12)])
#plot the nontarget scenarios, the other lines to show in the graph but not be edited with mouse
for(i in c(1:6)[-which(c(1:6)==target)]){ #this 'which' structure returns a sequence from #1 to 6 excluding the target scenario
lines(scenarios[,i],col=(i),pch=5,lwd=1)
}
#plot the target scenario
lines(unlist(scenarios[,target]),type="b",col="blue",lwd=3)
#####legend structure###################################################
l.widths <-rep(1,7);l.widths[target+1] <-3
l.colors<-c("black",1:6);l.colors[target+1]<-"blue"
legend("bottomright",c("BL","S1","S2","S3","S4","S5","S6"),lty=c(1,1,1,1,1,1,1),lwd=l.widths,col=l.colors)
####End legend structure###############################################

#some graphics events functions, Frankensteined from the getGrapnicsEven R help example

devset <- function()
if (dev.cur() != eventEnv\$which) dev.set(eventEnv\$which)

dragmousedown <- function(buttons, x, y) { #what happens when we click
start.x <- grconvertX(x,"ndc","user") #<<- super assignment
start.y <- grconvertY(y,"ndc","user")
#devset()

temp.point<<-near.point(c(start.x,start.y),
1:length(unlist(bl)),scenarios[,target])
points(temp.point,scenarios[temp.point,target],col="Red"
,pch=21,bg="red",lwd=2)

eventEnv\$onMouseMove <- dragmousemove
NULL
}

dragmousemove <- function(buttons, x, y) { #what happens when we move after clicking
#devset()

y.scaled<-grconvertY(y,"ndc","user")
scenarios[temp.point,target]<<-y.scaled

#och plotta hela grej igen
#plot the baseline
plot(unlist(bl),col="black",type="l",lwd=2,xaxt="n",xlab="",
ylab="Add function to bring in units, later",sub=paste(paste("S",target,sep=""),"active",sep=" "),main=name,ylim=c(.96*min(scenarios),1.04*max(scenarios)))
axis(1,at=seq(1,length(date.labs),12),labels=date.labs[seq(1,length(date.labs),12)])

#plot the nontarget scenarios
for(i in c(1:6)[-which(c(1:6)==target)]){ #this 'which' structure returns a sequence from 1 to 6 excluding the target scenario
lines(scenarios[,i],col=(i),pch=5,lwd=1)
}
#plot the target scenario
lines(unlist(scenarios[,target]),type="b",col="blue",lwd=3)
####legend structure###################################################
l.widths <-rep(1,7);l.widths[target+1] <-3
l.colors<-c("black",1:6);l.colors[target+1]<-"blue"
legend("bottomright",c("BL","S1","S2","S3","S4","S5","S6"),lty=c(1,1,1,1,1,1,1),lwd=l.widths,col=l.colors)
####End legend structure###############################################

points(temp.point,scenarios[temp.point,target],col="Red"
,pch=21,bg="red",lwd=2)

temp.text<- paste(as.character(date.labs[temp.point]),":",sep="") #report date
temp.text <- paste(temp.text,paste(round(100*(scenarios[temp.point,target]/unlist(bl)[temp.point]-1),3),"%",sep=""),sep=" ")
temp.text<- paste(temp.text,"from BL")
legend("topleft",temp.text)
NULL
}

mouseup <- function(buttons, x, y) {
eventEnv\$onMouseMove <- NULL
}

keydown <- function(key) {
if (key == "q") return(invisible(1))
eventEnv\$onMouseMove <- NULL
NULL
}

setGraphicsEventHandlers(prompt="Click and drag, hit q to quit",
onMouseDown = dragmousedown,
onMouseUp = mouseup,
onKeybd = keydown)
eventEnv <- getGraphicsEventEnv()
}

My datas data frame is huge, but pretend it just has vectors of timeseries.

First col is dates, then col 2 is the 'baseline' forecast and 3 to 8 are alternative scenarios.

I just use the lines below to test, I have another function to run the whole thing

picker.mover(bl=datas[,2],scenarios=datas[,3:8],date.labs=datas[,1],target=1,name=colnames(datas)[2])
getGraphicsEvent()
par(savepar)
-
This would be easier to answer if you had given us some partially working code to start with – Chase Oct 2 '12 at 20:02
Also, what exactly is the question here? – TARehman Oct 2 '12 at 21:12