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If I have some massive function in R, for example the plot.modwt function from the wavelets package, then I can't copy and paste the whole thing into console. It'll give error messages all the way through. But if I copy it chunk by chunk, then it'll work.

  • Why does this happen?
  • What is the solution to this (without copying the function to a script and loading it).

I am using the R console itself. It'll paste fine for about 100 lines then start showing Error: unexpected... at every second line.

plot.modwt <- function (x, levels = NULL, draw.boundary = FALSE, type = "stack", 
    col.plot = "black", col.boundary = "red", X.xtick.at = NULL, 
    X.ytick.at = NULL, Stack.xtick.at = NULL, Stack.ytick.at = NULL, 
    X.xlab = "t", y.rlabs = TRUE, plot.X = TRUE, plot.W = TRUE, 
    plot.V = TRUE, ...) 
{
    stackplot.modwt <- function(x, w.range, v.range, col.plot, 
        col.boundary, draw.boundary, X.xtick.at, X.ytick.at, 
        Stack.xtick.at, Stack.ytick.at, X.xlab = "t", plot.X = TRUE) {
        innerplot <- function(x, y, type = "l", xtick.at, ytick.at) {
            if (is.null(xtick.at) == FALSE || is.null(ytick.at) == 
                FALSE) {
                plot(x, y, type = "l", axes = FALSE, frame.plot = TRUE)
                if (is.null(xtick.at) == FALSE) {
                  axis(1, at = axTicks(1, xtick.at))
                  xtickrate <- xtick.at
                }
                else {
                  axis(1)
                  xtickrate <- par("xaxp")
                }
                if (is.null(ytick.at) == FALSE) {
                  axis(2, at = axTicks(2, ytick.at))
                  ytickrate <- ytick.at
                }
                else {
                  axis(2)
                  ytickrate <- par("yaxp")
                }
            }
            else {
                plot(x, y, type = "l")
                xtickrate <- par("xaxp")
                ytickrate <- par("yaxp")
            }
            tickrate <- list(xtick = xtickrate, ytick = ytickrate)
            tickrate
        }
        if (plot.X) {
            nf <- layout(matrix(c(2, 2, 1, 1), 2, 2, byrow = TRUE), 
                c(1, 2), c(2, 1), TRUE)
            par(mai = c(0.6, 0.4, 0.1, 0.6))
            if (x@class.X == "ts" || x@class.X == "mts") {
                x.range <- x@attr.X$tsp[1]:x@attr.X$tsp[2]
            }
            else {
                x.range <- 1:dim(x@series)[1]
            }
            tickrate <- innerplot(x.range, x@series[, 1], type = "l", 
                X.xtick.at, X.ytick.at)
            right.usrplotrange <- par()$usr[2] - par()$usr[1]
            NDCplotrange <- par()$plt[2] - par()$plt[1]
            marginpos <- (1 - par()$plt[2])/2
            right.usrlabelpos <- ((marginpos * right.usrplotrange)/NDCplotrange) + 
                par()$usr[2]
            text(right.usrlabelpos, 0, "X", xpd = TRUE)
            mtext(X.xlab, side = 1, line = 2)
            par(mai = c(0, 0.4, 0.1, 0.6))
        }
        if (plot.X == FALSE) {
            par(mai = c(0.4, 0.4, 0.1, 0.6))
            if (is.null(Stack.xtick.at) == FALSE) {
                xtickrate <- Stack.xtick.at
            }
            else {
                xtickrate <- NULL
            }
            if (is.null(Stack.ytick.at) == FALSE) {
                ytickrate <- Stack.ytick.at
            }
            else {
                ytickrate <- NULL
            }
            tickrate <- list(xtick = xtickrate, ytick = ytickrate)
        }
        if (is.null(w.range) == FALSE) {
            gammawave = wt.filter.shift(x@filter, w.range, wavelet = TRUE, 
                modwt = TRUE)
        }
        if (is.null(v.range) == FALSE) {
            gammascale = wt.filter.shift(x@filter, v.range, wavelet = FALSE, 
                modwt = TRUE)
        }
        if (y.rlabs) {
            rightlabels <- labels.modwt(w.range = w.range, v.range = v.range, 
                gammah = gammawave, gammag = gammascale)
        }
        else {
            rightlabels <- NULL
        }
        if (draw.boundary) {
            matrixlist <- list(modwt = as.matrix.modwt(x, w.range, 
                v.range), posbound = boundary.as.matrix.modwt(x, 
                w.range, v.range, positive = TRUE), negbound = boundary.as.matrix.modwt(x, 
                w.range, v.range, positive = FALSE))
            col <- c(col.plot, col.boundary, col.boundary)
            stackplot(matrixlist, y = NULL, y.rlabs = rightlabels, 
                type = c("l", "h", "h"), col = col, xtick.at = tickrate$xtick, 
                ytick.at = tickrate$ytick)
        }
        else {
            matrixlist <- list(modwt = as.matrix.modwt(x, w.range, 
                v.range))
            col <- col.plot
            stackplot(matrixlist, y = NULL, y.rlabs = rightlabels, 
                type = "l", col = col, xtick.at = tickrate$xtick, 
                ytick.at = tickrate$ytick)
        }
    }
    boundary.as.matrix.modwt <- function(x, w.range, v.range, 
        positive = TRUE) {
        if (is.null(w.range) == FALSE) {
            wavecoefmatrix <- array(NA, c(2 * dim(x@series)[1], 
                length(w.range)))
            Wjplot <- rep(NA, 2 * dim(x@series)[1])
            wavecoefmatrix.index <- 0
            W.Ljs <- ((2^w.range) - 1) * (x@filter@L - 1) + 1
            for (j in w.range) {
                wavecoefmatrix.index <- wavecoefmatrix.index + 
                  1
                if (positive) {
                  boundaryheight <- max(x@W[[j]])
                }
                else {
                  boundaryheight <- min(x@W[[j]])
                }
                leftspace <- rep(NA, 2 * (W.Ljs[wavecoefmatrix.index] - 
                  2 - vjH.modwt(x@filter@L, j, dim(x@series)[1])) - 
                  1)
                rightspace <- rep(NA, 2 * (vjH.modwt(x@filter@L, 
                  j, dim(x@series)[1])))
                middlespace <- rep(NA, 2 * dim(x@series)[1] - 
                  2 - length(leftspace) - length(rightspace))
                Wjplot <- c(leftspace, boundaryheight, middlespace, 
                  boundaryheight, rightspace)
                wavecoefmatrix[, wavecoefmatrix.index] <- Wjplot
            }
            rownames(wavecoefmatrix) <- seq(0.5, dim(x@series)[1], 
                by = 0.5)
        }
        if (is.null(v.range) == FALSE) {
            scalecoefmatrix <- array(NA, c(2 * dim(x@series)[1], 
                length(v.range)))
            Vjplot <- rep(NA, 2 * dim(x@series)[1])
            scalecoefmatrix.index <- 0
            V.Ljs <- ((2^v.range) - 1) * (x@filter@L - 1) + 1
            for (j in v.range) {
                scalecoefmatrix.index <- scalecoefmatrix.index + 
                  1
                Vj <- x@V[[j]][, 1] - mean(x@V[[j]][, 1])
                if (positive) {
                  boundaryheight <- max(Vj)
                }
                else {
                  boundaryheight <- min(Vj)
                }
                leftspace <- rep(NA, 2 * (V.Ljs[scalecoefmatrix.index] - 
                  2 - vjG.modwt(x@filter@L, j, dim(x@series)[1])) - 
                  1)
                rightspace <- rep(NA, 2 * (vjG.modwt(x@filter@L, 
                  j, dim(x@series)[1])))
                middlespace <- rep(NA, 2 * dim(x@series)[1] - 
                  2 - length(leftspace) - length(rightspace))
                Vjplot <- c(leftspace, boundaryheight, middlespace, 
                  boundaryheight, rightspace)
                scalecoefmatrix[, scalecoefmatrix.index] <- Vjplot
            }
            rownames(scalecoefmatrix) <- seq(0.5, dim(x@series)[1], 
                by = 0.5)
        }
        if (is.null(w.range) == FALSE && is.null(v.range) == 
            FALSE) {
            results <- cbind(wavecoefmatrix, scalecoefmatrix)
        }
        if (is.null(w.range) == FALSE && is.null(v.range)) {
            results <- wavecoefmatrix
        }
        if (is.null(w.range) && is.null(v.range) == FALSE) {
            results <- scalecoefmatrix
        }
        results
    }
    as.matrix.modwt <- function(x, w.range, v.range) {
        if (is.null(w.range) == FALSE) {
            wavecoefmatrix <- array(NA, c(dim(x@series)[1], length(w.range)))
            wavecoefmatrix.index <- 0
            for (j in w.range) {
                wavecoefmatrix.index <- wavecoefmatrix.index + 
                  1
                Wjplot <- x@W[[j]][, 1]
                Wjplot <- levelshift.modwt(Wjplot, wt.filter.shift(x@filter, 
                  j, wavelet = TRUE, modwt = TRUE))
                wavecoefmatrix[, wavecoefmatrix.index] <- Wjplot
            }
            rownames(wavecoefmatrix) <- 1:dim(x@series)[1]
        }
        if (is.null(v.range) == FALSE) {
            scalecoefmatrix <- array(NA, c(dim(x@series)[1], 
                length(v.range)))
            scalecoefmatrix.index <- 0
            for (k in v.range) {
                scalecoefmatrix.index <- scalecoefmatrix.index + 
                  1
                Vjplot <- x@V[[k]][, 1] - mean(x@V[[k]][, 1])
                Vjplot <- levelshift.modwt(Vjplot, wt.filter.shift(x@filter, 
                  k, wavelet = FALSE, modwt = TRUE))
                scalecoefmatrix[, scalecoefmatrix.index] <- Vjplot
            }
            rownames(scalecoefmatrix) <- 1:dim(x@series)[1]
        }
        if (is.null(w.range) == FALSE && is.null(v.range) == 
            FALSE) {
            results <- cbind(wavecoefmatrix, scalecoefmatrix)
        }
        if (is.null(w.range) == FALSE && is.null(v.range)) {
            results <- wavecoefmatrix
        }
        if (is.null(w.range) && is.null(v.range) == FALSE) {
            results <- scalecoefmatrix
        }
        results
    }
    labels.modwt <- function(w.range = NULL, v.range = NULL, 
        gammah = NULL, gammag = NULL) {
        verticallabel <- list()
        if (is.null(w.range) == FALSE && is.null(gammah) == FALSE) {
            for (j in 1:length(w.range)) {
                label <- substitute(paste(T^-gamma, W[level]), 
                  list(gamma = gammah[j], level = w.range[j]))
                verticallabel <- c(verticallabel, label)
            }
        }
        if (is.null(v.range) == FALSE && is.null(gammag) == FALSE) {
            for (i in 1:length(v.range)) {
                label <- substitute(paste(T^-gamma, V[level]), 
                  list(gamma = gammag[i], level = v.range[i]))
                verticallabel <- c(verticallabel, label)
            }
        }
        results <- verticallabel
        results
    }
    levelshift.modwt <- function(level, shift) {
        if (shift != 0) {
            level <- c(level[(shift + 1):length(level)], level[1:shift])
        }
        level
    }
    shift.modwt <- function(L, j, N) {
        Lj <- ((2^j) - 1) * (L - 1) + 1
        shift <- min(Lj - 2, N - 1)
        shift
    }
    vjH.modwt <- function(L, j, N) {
        Lj <- ((2^j) - 1) * (L - 1) + 1
        if (L == 10 || L == 18) {
            vjH <- (-Lj/2) + 1
        }
        else if (L == 14) {
            vjH <- (-Lj/2) - 1
        }
        else {
            vjH <- -Lj/2
        }
        vjH <- abs(vjH)
    }
    vjG.modwt <- function(L, j, N) {
        Lj <- ((2^j) - 1) * (L - 1) + 1
        if (L == 10 || L == 18) {
            vjG <- -((Lj - 1) * L)/(2 * (L - 1))
        }
        else if (L == 14) {
            vjG <- -((Lj - 1) * (L - 4))/(2 * (L - 1))
        }
        else {
            vjG <- -((Lj - 1) * (L - 2))/(2 * (L - 1))
        }
        vjG <- abs(vjG)
        vjG
    }
    if (type == "stack") {
        if (class(x) != "modwt") {
            stop("Invalid argument: 'modwt' object must be of class modwt.")
        }
        if (is.null(levels)) {
            w.range <- 1:x@level
            v.range <- max(w.range)
        }
        if (class(levels) == "numeric") {
            if (length(levels) == 1) {
                w.range <- 1:levels
                v.range <- max(w.range)
            }
            else {
                w.range <- levels
                v.range <- max(w.range)
            }
        }
        if (class(levels) == "list") {
            if (length(levels) < 1) {
                w.range <- 1:x@level
                v.range <- max(w.range)
            }
            if (length(levels) == 1) {
                w.range <- levels[[1]]
                v.range <- max(w.range)
            }
            else {
                w.range <- levels[[1]]
                v.range <- levels[[2]]
            }
        }
        if (class(levels) != "list" && class(levels) != "vector" && 
            class(levels) != "numeric" && is.null(levels) == 
            FALSE) {
            stop("Invalid argument: 'levels' must be numeric, vector, or list.")
        }
        if (plot.W == FALSE) {
            w.range <- NULL
        }
        if (plot.V == FALSE) {
            v.range <- NULL
        }
        if (plot.W == FALSE && plot.V == FALSE) {
            stop("At least one of plot.W or plot.V must be TRUE")
        }
        if (is.null(w.range) == FALSE) {
            if (min(w.range) < 1 || x@level < max(w.range)) {
                stop("Invalid argument: elements of 'levels' must be compatible with the level of decomposition of the 'modwt' object.")
            }
        }
        if (is.null(v.range) == FALSE) {
            if (min(v.range) < 1 || x@level < max(v.range)) {
                stop("Invalid argument: elements of 'levels' must be compatible with the level of decomposition of the 'modwt' object.")
            }
        }
        stackplot.modwt(x, w.range, v.range, col.plot, col.boundary, 
            draw.boundary = draw.boundary, X.xtick.at = X.xtick.at, 
            X.ytick.at = X.ytick.at, Stack.xtick.at = Stack.xtick.at, 
            Stack.ytick.at = Stack.ytick.at, X.xlab = X.xlab, 
            plot.X = plot.X)
    }
    else {
        stop("Only the stackplot is currently implemented.")
    }
}
<environment: namespace:wavelets>
share|improve this question

marked as duplicate by Joshua Ulrich, Justin, joran, Brian Diggs, BondedDust Oct 18 '13 at 16:32

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

3  
Save the function in a script file, and source() it... It will be much practical to edit and to run. –  juba Oct 18 '13 at 14:17
2  
Can't reproduce your error. –  plannapus Oct 18 '13 at 14:20
2  
pastes fine for me –  Matthew Plourde Oct 18 '13 at 14:21
1  
@user2763361 if you do this multiple times, saving in a file and typing source('/path/file.R') is even faster. –  Paul Hiemstra Oct 18 '13 at 14:21
1  
For those who can't reproduce this, it's because you're not using the same console as the OP. See the linked duplicate. –  Joshua Ulrich Oct 18 '13 at 14:46

1 Answer 1

Despite your convictions that the way you're doing it is fastest and easiest, it isn't. Take the time to learn to use any of a large number of text editors which have direct links into R. In that way, you don't even need to copypaste. Just select the code and hit whatever keystroke or menu item passes the code into the R-console.

This can be done with EMACS, Notepad++ (with an external linking app), SublimeText 2/3, the builtin R.app GUI on OSX, and many more.

share|improve this answer
    
I need to use console because I am programming a supercomputer. –  user2763361 Oct 18 '13 at 15:33
    
But, great answer nevertheless and thanks for the software suggestions (I prefer Eclipse by the way). –  user2763361 Oct 18 '13 at 15:34
1  
At least one of those solutions (EMACS/ESS) allows the R process to be remote (running on a machine other than that which EMACS is running on, connected by telnet/ssh). –  Brian Diggs Oct 18 '13 at 15:46
1  
"Using a supercomputer" does not excuse you from learning to use the source function. –  BondedDust Oct 18 '13 at 16:34
1  
He wrote: "since I need to hold this in my brain as well as the task that I need to later delete it while I am thinking about 20 other stuff that I am modelling". I found that statement mostly incomprehensible and probably tangential to the issue at hand. –  BondedDust Oct 18 '13 at 18:13

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