R/rasterization.R
In Nina-Song/stJoincount: stJoincount - Join count statistic for quantifying spatial correlation between clusters
Defines functions
mosaicIntPlot
rasterizeEachCluster
Documented in
mosaicIntPlot
rasterizeEachCluster
#' Create a raster object from a labeled sample
#'
#' Converts a labeled spatial tissue map into a raster object,
#' in which each spatial cluster is represented by a pixel coded by label assignment.
#'
#' @importFrom raster rasterize mosaic
#' @importFrom sp coordinates
#' @export
#'
#' @param sampleInfo A data.frame contains the pixel information and cluster labels for each barcode of a human breast cancer sample.
#' The index contains barcodes, and at least three other columns that have these information are required and the column names should be the same as following:
#' "imagerow": The row pixel coordinate of the center of the spot
#' "imagecol": The column pixel coordinate of the center of the spot
#' "Cluster": The label that corresponding to this barcode
#'
#' @return This function returns a class of RasterLayer. This raster object is converted from a labeled spatial tissue map.
#'
#' @examples
#' fpath <- system.file("extdata", "dataframe.rda", package="stJoincount")
#' load(fpath)
#' mosaicIntegration <- rasterizeEachCluster(humanBC)
rasterizeEachCluster <- function(sampleInfo){
sampleCoord <- sampleInfo
sampleCoord$numericCluster <- unclass(as.factor(sampleCoord$Cluster))
clusterNumber <- length(unique(sampleCoord$numericCluster))
n <- extentBuffer(sampleInfo)
r <- rasterPrep(sampleInfo, n)
mosaicClusters <- list()
for (i in seq_len(clusterNumber)){
subCluster <- subset(sampleCoord, numericCluster == i)
spdf <- subCluster
sp::coordinates(spdf) <- c("imagerow", "imagecol") #create a Spatial object
nam <- paste("clusterRast", i, sep = "_")
clusterName <- assign(nam, rasterize(spdf, r, field = i, extent = jc.extent, background = 0))
mosaicClusters <- c(mosaicClusters, clusterName)
}
names(mosaicClusters)[seq_len(2)] <- c('x', 'y')
mosaicClusters$fun <- max
mosaicClusters$na.rm <- TRUE
mosaicIntegration <- do.call(mosaic, mosaicClusters)
return(mosaicIntegration)
}
#' Mosaic plot
#'
#' Visualization of the rasterization results and label coding of the sample.
#'
#' @importFrom raster rasterToPoints
#' @importFrom ggplot2 ggplot geom_tile aes scale_fill_manual coord_equal theme_void theme element_blank
#' @param sampleInfo A dataset of a human breast cancer sample containing the
#' pixel information and cluster labels for each barcode.
#' @param mosaicIntegration A raster object converted from a labeled spatial tissue map.
#' @export
#'
#' @return A mosaic plot with labeled pixels.
#'
#' @examples
#' fpath <- system.file("extdata", "dataframe.rda", package="stJoincount")
#' load(fpath)
#' mosaicIntegration <- rasterizeEachCluster(humanBC)
#' mosaicIntPlot(humanBC, mosaicIntegration)
#'
mosaicIntPlot <- function(sampleInfo, mosaicIntegration){
nameList <- customDict(sampleInfo)
r_df <- data.frame(rasterToPoints(mosaicIntegration))
clusterNumber <- seq_along(unique(r_df$layer))
layerNumber <- clusterNumber - 1
r_df$cuts <- cut(r_df$layer,breaks=layerNumber)
r_plot <- na.omit(r_df)
colors.raster <- c("#810505", "#f79c09", "#f30808","#f3eb17", "#bcf775", "#5cd04d", "#2b7f20", "#2cdcc2",
"#78cdf5", "#1b5fe4", "#811be4", "#cc6ae6", "#f59ad5", "#9c6d6d", "#0000FF")
ggplot(data=r_plot) +
geom_tile(aes(x=x,y=y,fill=cuts)) +
scale_fill_manual("Cluster", values = colors.raster, labels = nameList[clusterNumber]) +
coord_equal() +
theme_void() +
theme(axis.text.x=element_blank(),
axis.ticks.x=element_blank(),
axis.text.y=element_blank(),
axis.ticks.y=element_blank()
)
}
Nina-Song/stJoincount documentation built on Oct. 23, 2022, 4:55 p.m.
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Defines functions mosaicIntPlot rasterizeEachCluster
Documented in mosaicIntPlot rasterizeEachCluster
#' Create a raster object from a labeled sample
#'
#' Converts a labeled spatial tissue map into a raster object,
#' in which each spatial cluster is represented by a pixel coded by label assignment.
#'
#' @importFrom raster rasterize mosaic
#' @importFrom sp coordinates
#' @export
#'
#' @param sampleInfo A data.frame contains the pixel information and cluster labels for each barcode of a human breast cancer sample.
#' The index contains barcodes, and at least three other columns that have these information are required and the column names should be the same as following:
#' "imagerow": The row pixel coordinate of the center of the spot
#' "imagecol": The column pixel coordinate of the center of the spot
#' "Cluster": The label that corresponding to this barcode
#'
#' @return This function returns a class of RasterLayer. This raster object is converted from a labeled spatial tissue map.
#'
#' @examples
#' fpath <- system.file("extdata", "dataframe.rda", package="stJoincount")
#' load(fpath)
#' mosaicIntegration <- rasterizeEachCluster(humanBC)
rasterizeEachCluster <- function(sampleInfo){
sampleCoord <- sampleInfo
sampleCoord$numericCluster <- unclass(as.factor(sampleCoord$Cluster))
clusterNumber <- length(unique(sampleCoord$numericCluster))
n <- extentBuffer(sampleInfo)
r <- rasterPrep(sampleInfo, n)
mosaicClusters <- list()
for (i in seq_len(clusterNumber)){
subCluster <- subset(sampleCoord, numericCluster == i)
spdf <- subCluster
sp::coordinates(spdf) <- c("imagerow", "imagecol") #create a Spatial object
nam <- paste("clusterRast", i, sep = "_")
clusterName <- assign(nam, rasterize(spdf, r, field = i, extent = jc.extent, background = 0))
mosaicClusters <- c(mosaicClusters, clusterName)
}
names(mosaicClusters)[seq_len(2)] <- c('x', 'y')
mosaicClusters$fun <- max
mosaicClusters$na.rm <- TRUE
mosaicIntegration <- do.call(mosaic, mosaicClusters)
return(mosaicIntegration)
}
#' Mosaic plot
#'
#' Visualization of the rasterization results and label coding of the sample.
#'
#' @importFrom raster rasterToPoints
#' @importFrom ggplot2 ggplot geom_tile aes scale_fill_manual coord_equal theme_void theme element_blank
#' @param sampleInfo A dataset of a human breast cancer sample containing the
#' pixel information and cluster labels for each barcode.
#' @param mosaicIntegration A raster object converted from a labeled spatial tissue map.
#' @export
#'
#' @return A mosaic plot with labeled pixels.
#'
#' @examples
#' fpath <- system.file("extdata", "dataframe.rda", package="stJoincount")
#' load(fpath)
#' mosaicIntegration <- rasterizeEachCluster(humanBC)
#' mosaicIntPlot(humanBC, mosaicIntegration)
#'
mosaicIntPlot <- function(sampleInfo, mosaicIntegration){
nameList <- customDict(sampleInfo)
r_df <- data.frame(rasterToPoints(mosaicIntegration))
clusterNumber <- seq_along(unique(r_df$layer))
layerNumber <- clusterNumber - 1
r_df$cuts <- cut(r_df$layer,breaks=layerNumber)
r_plot <- na.omit(r_df)
colors.raster <- c("#810505", "#f79c09", "#f30808","#f3eb17", "#bcf775", "#5cd04d", "#2b7f20", "#2cdcc2",
"#78cdf5", "#1b5fe4", "#811be4", "#cc6ae6", "#f59ad5", "#9c6d6d", "#0000FF")
ggplot(data=r_plot) +
geom_tile(aes(x=x,y=y,fill=cuts)) +
scale_fill_manual("Cluster", values = colors.raster, labels = nameList[clusterNumber]) +
coord_equal() +
theme_void() +
theme(axis.text.x=element_blank(),
axis.ticks.x=element_blank(),
axis.text.y=element_blank(),
axis.ticks.y=element_blank()
)
}
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