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% Generated by roxygen2: do not edit by hand
% Please edit documentation in R/compare.R
\name{compareSCESets}
\alias{compareSCESets}
\title{Compare SCESet objects}
\usage{
compareSCESets(sces, point.size = 0.1, point.alpha = 0.1, fits = TRUE,
colours = NULL)
}
\arguments{
\item{sces}{named list of SCESet objects to combine and compare.}
\item{point.size}{size of points in scatter plots.}
\item{point.alpha}{opacity of points in scatter plots.}
\item{fits}{whether to include fits in scatter plots.}
\item{colours}{vector of colours to use for each dataset.}
}
\value{
List containing the combined datasets and plots.
}
\description{
Combine the data from several SCESet objects and produce some basic plots
\item{\code{FeatureData}}{Combined feature data from the provided
SCESets.}
\item{\code{PhenoData}}{Combined pheno data from the provided SCESets.}
\item{\code{Plots}}{Comparison plots
\describe{
\item{\code{Means}}{Boxplot of mean distribution.}
\item{\code{Variances}}{Boxplot of variance distribution.}
\item{\code{MeanVar}}{Scatter plot with fitted lines showing the
mean-variance relationship.}
\item{\code{LibraySizes}}{Boxplot of the library size
distribution.}
\item{\code{ZerosGene}}{Boxplot of the percentage of each gene
that is zero.}
\item{\code{ZerosCell}}{Boxplot of the percentage of each cell
that is zero.}
\item{\code{MeanZeros}}{Scatter plot with fitted lines showing
}
}
}
The plots returned by this function are created using
\code{\link[ggplot2]{ggplot}} and are only a sample of the kind of plots you
might like to consider. The data used to create these plots is also returned
and should be in the correct format to allow you to create further plots
using \code{\link[ggplot2]{ggplot}}.
}
\examples{
sim2 <- simpleSimulate(nGenes = 1000, nCells = 20)
comparison <- compareSCESets(list(Splat = sim1, Simple = sim2))
names(comparison)
names(comparison$Plots)
}