R/plotEmpiricalDistribution.R

Defines functions plotEmpiricalDistribution

Documented in plotEmpiricalDistribution

#' Plot the empirical distribution of the methylation beta vals or coverage
#' 
#' Uses ggplot2 to plot smoothed density histograms of methylation
#' proportions (beta values), or coverage. Methylation proportion densities
#' are weighted by coverage.
#' The number of curves plotted 
#' will be equal to the number of different values of \code{testCovariate},
#' unless \code{bySample} is TRUE. This can take quite some time to 
#' execute for a large object, so it is recommended to first take a random
#' sample of loci (say one million) before plotting.
#' 
#' @param bs a BSseq object
#'
#' @param testCovariate character specifying the column name of the
#' \code{pData} slot of the BSseq object to include in the plot legend.
#' 
#' @param bySample logical whether to plot a separate line for each sample,
#'  even if the grouping \code{testCovariate} is specified.
#'  Default value is FALSE (so samples with the same value of 
#'  \code{testCovariate} will be collapsed into the same line). If 
#'  \code{testCovariate} is not specified, this parameter does not have an 
#'  effect and samples are automatically plotted separately.
#' 
#' @param type a character indicating which type of density to plot - the 
#' methylation (beta) values ("M") or the coverage ("Cov"). Default is "M".
#' 
#' @param adj a numeric value for the \code{adjust} parameter to pass to the 
#' \code{geom_line} function. Specifies how smooth the make the function.
#' 
#' @return a ggplot object
#' 
#' @importFrom locfit locfit lp
#' 
#' @export
#' 
#' @examples 
#' 
#' data(BS.chr21)
#' 
#' # plot beta values by sample group
#' plotEmpiricalDistribution(BS.chr21, testCovariate="CellType")
#' 
plotEmpiricalDistribution <- function(bs, 
                                      testCovariate = NULL,
                                      bySample = FALSE,
                                      type = "M",
                                      adj = 2.5) {
    #satisfy check
    M <- Cov <- group <- wt <- NULL
  
    if (!(type %in% c("M", "Cov"))){
      stop("type must be either M or Cov")
    }
    
    if(is.null(testCovariate) & !bySample){
      message("No testCovariate specified; plotting each sample separately.")
      bySample = TRUE
    }
  
    meth.mat <- getCoverage(bs, type = "M")
    unmeth.mat <- getCoverage(bs, type = "Cov") - meth.mat
    
    meth.levelsm <- data.frame(meth.mat/
                                 (meth.mat + unmeth.mat))
    cov.matm <- data.frame((meth.mat + unmeth.mat))
    
    if (!is.null(testCovariate)) {
        if (sum(grepl(testCovariate, colnames(pData(bs)))) == 0) {
            stop("Error: no column in pData() found ", 
                "that matches the testCovariate")
        } else if (length(grep(testCovariate, colnames(pData(bs)))) > 1) {
            stop("Error: testCovariate matches more ",
                "than one column in pData()")
        }
        mC <- grep(testCovariate, colnames(pData(bs)))
        grouplab <- pData(bs)[,mC]
    }else{
       if(is.null(sampleNames(bs))){
         grouplab <- as.character(seq_len(ncol(bs)))
       }else{
         grouplab <- sampleNames(bs)
       }
    }
    
    meth.levelsm <- utils::stack(meth.levelsm)
    colnames(meth.levelsm)[1] <- "M"
    meth.levelsm$Cov <- utils::stack(cov.matm)$values
    
    if(is.null(sampleNames(bs))){
      meth.levelsm$sample <- sort(rep(seq_len(ncol(bs)), nrow(bs)))
    }else{
      meth.levelsm$sample <- unlist(lapply(sampleNames(bs), function(x) 
                                           rep(x, nrow(bs))))
    }
    
    if (!is.null(testCovariate)){
      meth.levelsm$group <- 
        unlist(lapply(seq_len(ncol(bs)), function(x) 
          rep(pData(bs)[x,mC], nrow(bs))))
    }else{
      meth.levelsm$group <- meth.levelsm$sample
    }
    
    if (!bySample){
      if (type=="M"){
        # compute weights - sum over all samples in group ##
        covtots <- rep(NA, ncol(cov.matm))
        names(covtots) <- grouplab
        for(l in unique(grouplab)){
          covtots[names(covtots) == l] <- sum(colSums(cov.matm)[grouplab == l]) 
        }
        
        wt.matm <- data.frame(t(t(cov.matm) / covtots)) 
        meth.levelsm$wt <- utils::stack(wt.matm)$values 
        
        p1 <- ggplot(meth.levelsm, 
                 aes(M, colour = group, group = group, weight = wt)) + 
          geom_line(adjust = adj, alpha = 0.6, stat = "density", size = 1.3) + 
        xlab("Methylation Proportion") + 
        theme_bw()
      }else{
        p1 <- ggplot(meth.levelsm, aes(Cov+0.1, 
                               colour = group, group = group)) + 
          geom_line(adjust = adj, alpha = 0.6, stat = "density", size = 1.3) +
          scale_x_continuous(trans="log2") +
        xlab("Coverage") + 
          theme_bw()
      }
      p1 <- p1 + labs(colour = "Group")
    }else{
      if (type=="M"){
        wt.matm <- data.frame(t(t(cov.matm) / colSums(cov.matm))) 
        meth.levelsm$wt <- utils::stack(wt.matm)$values 
        
        if(identical(meth.levelsm$group, meth.levelsm$sample)){
          p1 <- ggplot(meth.levelsm, 
                       aes(M, colour = group, group = sample, weight = wt)) +
            labs(color = "Sample")
        }else{
          if(ncol(bs) <= 12){
            p1 <- ggplot(meth.levelsm, 
                     aes(M, colour = group, group = sample, weight = wt,
                         linetype = sample)) +
                    labs(color = "Group", linetype = "Sample")
          }else{
            p1 <- ggplot(meth.levelsm, 
                         aes(M, colour = group, group = sample, weight = wt)) +
              labs(color = "Group")
          }
        }
        p1 <- p1 + geom_line(adjust = adj, alpha = 0.6, stat = "density", size = 1.3) +
          xlab("Methylation Proportion") + 
          theme_bw()  
      }else{
        if(identical(meth.levelsm$group, meth.levelsm$sample)){
          p1 <- ggplot(meth.levelsm, aes(Cov+0.1, 
                                         colour = group, group = sample)) +
            labs(color = "Sample")
        }else{
          if(ncol(bs) <= 12){
            p1 <- ggplot(meth.levelsm, aes(Cov+0.1, 
                                         colour = group, group = sample,
                                         linetype = sample)) +
                  labs(color = "Group", linetype = "Sample")
          }else{
            p1 <- ggplot(meth.levelsm, aes(Cov+0.1, 
                                           colour = group, group = sample)) +
              labs(color = "Group")
          }
        }
        
        p1 <- p1 + 
          geom_line(adjust = adj, alpha = 0.6, stat = "density", size = 1.3) +
          scale_x_continuous(trans="log2") +
          xlab("Coverage") + 
          theme_bw()  
      }
    }
    return(p1)
}

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dmrseq documentation built on April 18, 2021, 6 p.m.