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R/plotIndiv.sgcca.R
In mixOmics: Omics Data Integration Project
Defines functions
plotIndiv.sgcca
Documented in
plotIndiv.sgcca
#----------------------------------------------------------------------------------------------------------#
#-- Includes plotIndiv rGCCA, sGCCA, sGCCDA --#
#----------------------------------------------------------------------------------------------------------#
#' @rdname plotIndiv
#' @method plotIndiv sgcca
#' @export
plotIndiv.sgcca <-
function(object,
comp = NULL,
blocks = NULL,
ind.names = TRUE,
group,
col.per.group,
style = "ggplot2",
ellipse = FALSE,
ellipse.level = 0.95,
centroid = FALSE,
star = FALSE,
title = NULL,
subtitle,
legend = FALSE,
X.label = NULL,
Y.label = NULL,
Z.label = NULL,
abline = FALSE,
xlim = NULL,
ylim = NULL,
col,
cex,
pch,
pch.levels,
alpha = 0.2,
axes.box = "box",
layout = NULL,
size.title = rel(2),
size.subtitle = rel(1.5),
size.xlabel = rel(1),
size.ylabel = rel(1),
size.axis = rel(0.8),
size.legend = rel(1),
size.legend.title = rel(1.1),
legend.title = "Legend",
legend.title.pch = "Legend",
legend.position = "right",
point.lwd = 1,
...
)
{
plot_parameters = list(
size.title = size.title,
size.subtitle = size.subtitle,
size.xlabel = size.xlabel,
size.ylabel = size.ylabel,
size.axis = size.axis,
size.legend = size.legend,
size.legend.title = size.legend.title,
legend.title = legend.title,
legend.title.pch = legend.title.pch,
legend.position = legend.position,
point.lwd = point.lwd,
alpha = alpha
)
if (any(class(object)%in%c("mint.block.pls", "mint.block.spls", "mint.block.plsda", "mint.block.splsda")))
stop("No plotIndiv for the following functions at this stage: mint.block.pls, mint.block.spls, mint.block.plsda, mint.block.splsda.")
#-- rep.space
rep.space = "multi" # rep.space is not used afterwards, put to "multi" to plot all blocks
input_average_blocks <- NULL
valid_average_blocks <- c('average', 'weighted.average')
if (is.null(blocks))
{
blocks = names(object$X)#names$blocks
} else if (is.numeric(blocks) & min(blocks) > 0 & max(blocks) <= length(object$names$blocks)) {
blocks = object$names$blocks[blocks]
} else if (is.character(blocks)) {
if (any(grepl(blocks, pattern = "average", ignore.case = TRUE))) {
input_average_blocks <- match.arg(blocks, choices = valid_average_blocks, several.ok = TRUE)
supported.classes <- c("sgcca", "rgcca", "sgccda")
if (! any(supported.classes %in% class(object)) ){
stop(sprintf("average plots are supported for objects of classes: %s", paste(supported.classes, collapse = ", ")), call. = FALSE)
}
object <- .add_average_blocks(block_object = object, average_blocks = input_average_blocks)
}
invalid_blocks <- setdiff(blocks, object$names$blocks)
if (length(invalid_blocks) > 0 ) {
valid_blocks <- object$names$blocks
stop(sprintf("Block(s) not found: %s. Blocks must be a selection of: %s, average, or weighted.average", paste(invalid_blocks , collapse = ', '), paste(valid_blocks, collapse = ', ')))
}
} else {
stop("Incorrect value for 'blocks'", call. = FALSE)
}
#object$variates = object$variates[names(object$variates) %in% blocks] # reduce the variate to the 'blocks' we are looking at
object$variates = object$variates[match(blocks, names(object$variates))] # reduce the variate to the 'blocks' we are looking at
if (any(object$ncomp[blocks] == 1))
stop(paste("The number of components for one selected block '", paste(blocks, collapse = " - "), "' is 1. The number of components must be superior or equal to 2."), call. = FALSE)
ncomp = object$ncomp[blocks]
if(length(blocks)!= length(unique(blocks)))
stop("Duplicate in 'blocks' not allowed")
if(!missing(subtitle))
{
if(length(subtitle)!= length(blocks) | length(subtitle)!= length(unique(subtitle)))
stop("'subtitle' indicates the subtitle of the plot for each 'blocks'; it needs to be the same length as 'blocks' and duplicate are not allowed.")
}
#-- check inputs
check = check.input.plotIndiv(
object = object,
comp = comp,
blocks = blocks,
ind.names = ind.names,
style = style,
ellipse = ellipse,
ellipse.level = ellipse.level,
centroid = centroid,
star = star,
legend = legend,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
abline = abline,
xlim = xlim,
ylim = ylim,
alpha = alpha,
axes.box = axes.box,
plot_parameters = plot_parameters
)
#-- retrieve outputs from the checks
axes.box = check$axes.box
comp = check$comp
xlim = check$xlim
ylim = check$ylim
ind.names = check$ind.names
display.names = check$display.names
#-- get the variates
variate = internal_getVariatesAndLabels(
object,
comp,
blocks = blocks,
style = style,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
rep.space = rep.space
)
#-- retrieve outputs
x = variate$x
y = variate$y
z = variate$z
X.label = variate$X.label
Y.label = variate$Y.label
Z.label = variate$Z.label
n = nrow(object$X[[1]])
# create data frame df that contains (almost) all the ploting information
out = shape.input.plotIndiv(
object = object,
n = n,
blocks = blocks,
x = x,
y = y,
z = z,
ind.names = ind.names,
group,
col.per.group = col.per.group,
style = style,
study = "global",
ellipse = ellipse,
ellipse.level = ellipse.level,
centroid = centroid,
star = star,
title = title,
xlim = xlim,
ylim = ylim,
col = col,
cex = cex,
pch = pch,
pch.levels = pch.levels,
display.names = display.names,
plot_parameters = plot_parameters
)
#-- retrieve outputs
df = out$df
df.ellipse = out$df.ellipse
col.per.group = out$col.per.group
title = out$title
display.names = out$display.names
xlim = out$xlim
ylim = out$ylim
#missing.col = out$missing.col
ellipse = out$ellipse
centroid = out$centroid
star = out$star
plot_parameters = out$plot_parameters
if (!is.null(input_average_blocks)) {
## ------ drop 'Block: ' from average labels
df$Block <- as.character(df$Block)
df$Block[df$Block == 'Block: weighted.average'] <- 'average (weighted)'
df.ellipse$Block[df.ellipse$Block == 'Block: weighted.average'] <- 'average (weighted)'
df$Block[df$Block == 'Block: average'] <- 'average'
df.ellipse$Block[df.ellipse$Block == 'Block: average'] <- 'average'
df$Block <- factor(df$Block)
## ------ drop explained variance on axes if only average asked
if (length(unique(df$Block)) == 1) {
X.label <- 'variate 1 - average'
Y.label <- 'variate 2 - average'
Z.label <- 'variate 3 - average'
}
}
# change the levels of df.final$Block to "subtitle"
if(!missing(subtitle))
{
df$Block = factor(df$Block, labels = subtitle)
if(ellipse)
df.ellipse$Block = factor(df.ellipse$Block, labels = subtitle)
}
#call plot module (ggplot2, lattice, graphics, 3d)
res = internal_graphicModule(
df = df,
centroid = centroid,
col.per.group = col.per.group,
title = title,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
xlim = xlim,
ylim = ylim,
class.object = class(object),
display.names = display.names,
legend = legend,
abline = abline,
star = star,
ellipse = ellipse,
df.ellipse = df.ellipse,
style = style,
layout = layout,
#missing.col = missing.col,
axes.box = axes.box,
plot_parameters = plot_parameters,
alpha = alpha
)
return(invisible(list(df = df, df.ellipse = df.ellipse, graph = res)))
}
#' @rdname plotIndiv
#' @method plotIndiv rgcca
#' @export
plotIndiv.rgcca <- plotIndiv.sgcca
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Defines functions plotIndiv.sgcca
Documented in plotIndiv.sgcca
#----------------------------------------------------------------------------------------------------------#
#-- Includes plotIndiv rGCCA, sGCCA, sGCCDA --#
#----------------------------------------------------------------------------------------------------------#
#' @rdname plotIndiv
#' @method plotIndiv sgcca
#' @export
plotIndiv.sgcca <-
function(object,
comp = NULL,
blocks = NULL,
ind.names = TRUE,
group,
col.per.group,
style = "ggplot2",
ellipse = FALSE,
ellipse.level = 0.95,
centroid = FALSE,
star = FALSE,
title = NULL,
subtitle,
legend = FALSE,
X.label = NULL,
Y.label = NULL,
Z.label = NULL,
abline = FALSE,
xlim = NULL,
ylim = NULL,
col,
cex,
pch,
pch.levels,
alpha = 0.2,
axes.box = "box",
layout = NULL,
size.title = rel(2),
size.subtitle = rel(1.5),
size.xlabel = rel(1),
size.ylabel = rel(1),
size.axis = rel(0.8),
size.legend = rel(1),
size.legend.title = rel(1.1),
legend.title = "Legend",
legend.title.pch = "Legend",
legend.position = "right",
point.lwd = 1,
...
)
{
plot_parameters = list(
size.title = size.title,
size.subtitle = size.subtitle,
size.xlabel = size.xlabel,
size.ylabel = size.ylabel,
size.axis = size.axis,
size.legend = size.legend,
size.legend.title = size.legend.title,
legend.title = legend.title,
legend.title.pch = legend.title.pch,
legend.position = legend.position,
point.lwd = point.lwd,
alpha = alpha
)
if (any(class(object)%in%c("mint.block.pls", "mint.block.spls", "mint.block.plsda", "mint.block.splsda")))
stop("No plotIndiv for the following functions at this stage: mint.block.pls, mint.block.spls, mint.block.plsda, mint.block.splsda.")
#-- rep.space
rep.space = "multi" # rep.space is not used afterwards, put to "multi" to plot all blocks
input_average_blocks <- NULL
valid_average_blocks <- c('average', 'weighted.average')
if (is.null(blocks))
{
blocks = names(object$X)#names$blocks
} else if (is.numeric(blocks) & min(blocks) > 0 & max(blocks) <= length(object$names$blocks)) {
blocks = object$names$blocks[blocks]
} else if (is.character(blocks)) {
if (any(grepl(blocks, pattern = "average", ignore.case = TRUE))) {
input_average_blocks <- match.arg(blocks, choices = valid_average_blocks, several.ok = TRUE)
supported.classes <- c("sgcca", "rgcca", "sgccda")
if (! any(supported.classes %in% class(object)) ){
stop(sprintf("average plots are supported for objects of classes: %s", paste(supported.classes, collapse = ", ")), call. = FALSE)
}
object <- .add_average_blocks(block_object = object, average_blocks = input_average_blocks)
}
invalid_blocks <- setdiff(blocks, object$names$blocks)
if (length(invalid_blocks) > 0 ) {
valid_blocks <- object$names$blocks
stop(sprintf("Block(s) not found: %s. Blocks must be a selection of: %s, average, or weighted.average", paste(invalid_blocks , collapse = ', '), paste(valid_blocks, collapse = ', ')))
}
} else {
stop("Incorrect value for 'blocks'", call. = FALSE)
}
#object$variates = object$variates[names(object$variates) %in% blocks] # reduce the variate to the 'blocks' we are looking at
object$variates = object$variates[match(blocks, names(object$variates))] # reduce the variate to the 'blocks' we are looking at
if (any(object$ncomp[blocks] == 1))
stop(paste("The number of components for one selected block '", paste(blocks, collapse = " - "), "' is 1. The number of components must be superior or equal to 2."), call. = FALSE)
ncomp = object$ncomp[blocks]
if(length(blocks)!= length(unique(blocks)))
stop("Duplicate in 'blocks' not allowed")
if(!missing(subtitle))
{
if(length(subtitle)!= length(blocks) | length(subtitle)!= length(unique(subtitle)))
stop("'subtitle' indicates the subtitle of the plot for each 'blocks'; it needs to be the same length as 'blocks' and duplicate are not allowed.")
}
#-- check inputs
check = check.input.plotIndiv(
object = object,
comp = comp,
blocks = blocks,
ind.names = ind.names,
style = style,
ellipse = ellipse,
ellipse.level = ellipse.level,
centroid = centroid,
star = star,
legend = legend,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
abline = abline,
xlim = xlim,
ylim = ylim,
alpha = alpha,
axes.box = axes.box,
plot_parameters = plot_parameters
)
#-- retrieve outputs from the checks
axes.box = check$axes.box
comp = check$comp
xlim = check$xlim
ylim = check$ylim
ind.names = check$ind.names
display.names = check$display.names
#-- get the variates
variate = internal_getVariatesAndLabels(
object,
comp,
blocks = blocks,
style = style,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
rep.space = rep.space
)
#-- retrieve outputs
x = variate$x
y = variate$y
z = variate$z
X.label = variate$X.label
Y.label = variate$Y.label
Z.label = variate$Z.label
n = nrow(object$X[[1]])
# create data frame df that contains (almost) all the ploting information
out = shape.input.plotIndiv(
object = object,
n = n,
blocks = blocks,
x = x,
y = y,
z = z,
ind.names = ind.names,
group,
col.per.group = col.per.group,
style = style,
study = "global",
ellipse = ellipse,
ellipse.level = ellipse.level,
centroid = centroid,
star = star,
title = title,
xlim = xlim,
ylim = ylim,
col = col,
cex = cex,
pch = pch,
pch.levels = pch.levels,
display.names = display.names,
plot_parameters = plot_parameters
)
#-- retrieve outputs
df = out$df
df.ellipse = out$df.ellipse
col.per.group = out$col.per.group
title = out$title
display.names = out$display.names
xlim = out$xlim
ylim = out$ylim
#missing.col = out$missing.col
ellipse = out$ellipse
centroid = out$centroid
star = out$star
plot_parameters = out$plot_parameters
if (!is.null(input_average_blocks)) {
## ------ drop 'Block: ' from average labels
df$Block <- as.character(df$Block)
df$Block[df$Block == 'Block: weighted.average'] <- 'average (weighted)'
df.ellipse$Block[df.ellipse$Block == 'Block: weighted.average'] <- 'average (weighted)'
df$Block[df$Block == 'Block: average'] <- 'average'
df.ellipse$Block[df.ellipse$Block == 'Block: average'] <- 'average'
df$Block <- factor(df$Block)
## ------ drop explained variance on axes if only average asked
if (length(unique(df$Block)) == 1) {
X.label <- 'variate 1 - average'
Y.label <- 'variate 2 - average'
Z.label <- 'variate 3 - average'
}
}
# change the levels of df.final$Block to "subtitle"
if(!missing(subtitle))
{
df$Block = factor(df$Block, labels = subtitle)
if(ellipse)
df.ellipse$Block = factor(df.ellipse$Block, labels = subtitle)
}
#call plot module (ggplot2, lattice, graphics, 3d)
res = internal_graphicModule(
df = df,
centroid = centroid,
col.per.group = col.per.group,
title = title,
X.label = X.label,
Y.label = Y.label,
Z.label = Z.label,
xlim = xlim,
ylim = ylim,
class.object = class(object),
display.names = display.names,
legend = legend,
abline = abline,
star = star,
ellipse = ellipse,
df.ellipse = df.ellipse,
style = style,
layout = layout,
#missing.col = missing.col,
axes.box = axes.box,
plot_parameters = plot_parameters,
alpha = alpha
)
return(invisible(list(df = df, df.ellipse = df.ellipse, graph = res)))
}
#' @rdname plotIndiv
#' @method plotIndiv rgcca
#' @export
plotIndiv.rgcca <- plotIndiv.sgcca
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