Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

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)) )
}

savepar <- par(ask=FALSE)
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)
share|improve this question
    
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

1 Answer 1

You might want to look at http://www.image.ucar.edu/GSP/Software/Fields/Help/add.image.html - it should in principal be possible to add an image to a plot, so you could save the image, then create a new graph with that as a background and draw on top of it. You are going to run into issues with scaling and such, though.

share|improve this answer
    
Thanks TARehman, I am trying to keep things as fast as possible, can I store an image in memory instead of saving to disk? something like a <-function(plot(....)) –  JPIrving Oct 3 '12 at 14:10

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.