inst/shinyapp/step3_explore_lace_input_data.R
In BIMIB-DISCo/LACE: Longitudinal Analysis of Cancer Evolution (LACE)
#################################################
########## NA ###########
#################################################
NA_compute <- function(depth_minimum, missing_values_max, data_dir, depth_dir, out_dir, time_points) {
# set working directory
browser()
#library(stringr)
#depth_minimum = 3 # minimum depth to set values to NA
#missing_values_max = 0.40 # maximum number of considered missing data per gene
dir.create(out_dir, showWarnings = FALSE)
if (!dir.exists(out_dir))
showNotification(paste("Filtered data output folder,", out_dir, ", cannot be created"), duration = 10, type = "warning")
# load data
snpMut_filt_freq <- readRDS(file=paste0(file.path(data_dir, "snpMut_filt_freq.rds")))
mutations = as.matrix(read.table(file.path(depth_dir, "final_data_mut.txt")))
depth = as.matrix(read.table(file.path(depth_dir, "final_data_depth.txt")))
# set NA values
check_ids <- snpMut_filt_freq$scID %in% colnames(mutations)
error_ids <- sort(unique(snpMut_filt_freq$scID[!check_ids]))
snpMut_filt_freq <- snpMut_filt_freq[check_ids,]
depth = depth[,colnames(mutations)]
mutations[which(mutations>1,arr.ind=TRUE)] = 1
mutations[which(depth<=depth_minimum,arr.ind=TRUE)] = NA
mycellsdata = list()
#time_points=c("before treatment", "4d on treatment", "28d on treatment", "57d on treatment")
check_time_points <- time_points %in% unique(snpMut_filt_freq$Time)
time_points <- time_points[check_time_points]
for (i in time_points) {
mycellsdata[[i]] = t(mutations[,sort(unique(snpMut_filt_freq$scID[which(snpMut_filt_freq$Time==i)]))])
}
# evaluate number of missing data per time point
time_points_NA = list()
#for (t in time_points)
# time_points_NA[[t]] = NULL
#
##browser()
#for (t in time_points)
# for(i in 1:ncol(mycellsdata[[1]]))
# time_points_NA[[t]] = c(time_points_NA[[t]],length(which(is.na(mycellsdata[[t]][,i])))/nrow(mycellsdata[[t]]))
time_points_NA = list()
for (t in time_points)
time_points_NA[[t]] <- colSums(is.na(mycellsdata[[t]]))/nrow(mycellsdata[[t]])
##valid_genes = sort(unique(colnames(mycellsdata[[1]])[which(all(time_points_NA<=missing_values_max))]))
#valid_genes = colSums(do.call(rbind, lapply(time_points_NA, function(x){x<=missing_values_max})))
#valid_genes <- colnames(mycellsdata[[1]])[apply(do.call(rbind, lapply(time_points_NA, function(x){x<=missing_values_max})), FUN = all, MARGIN = 2)]
# browser()
valid_genes <- colnames(mycellsdata[[1]])[apply(bind_rows(lapply(time_points_NA, function(x){x<=missing_values_max})), FUN = all, MARGIN = 2)]
#valid_genes <- colnames(mycellsdata[[1]])[(data.frame(bind_rows(time_points_NA)<=missing_values_max) %>% rowwise() %>% mutate(y=all(c_across(everything())) ))$y]
valid = NULL
#for(i in valid_genes) {
# valid = c(valid,unique(snpMut_filt_freq$Gene[grep(i,snpMut_filt_freq$UIDsnp)]))
#}
#valid = paste0(valid,"_",valid_genes)
valid = unique(grep(paste0(valid_genes, collapse = "|"), unique(snpMut_filt_freq$UIDsnp), value = T ))
# get names of valid genes
valid_genes_names = NULL
#for(i in valid) {
# valid_genes_names = c(valid_genes_names,strsplit(i,split="_")[[1]][[1]])
#}
#browser()
valid_genes_names <- str_split_fixed(valid,"_", n=2 )[,1]
log2_print(length(valid_genes_names), msg = "NA_compute: # valid genes")
log2_print(length(unique(valid_genes_names)))
log2_print(sort(valid_genes_names[which(duplicated(valid_genes_names))]))
# make final list of candidate selected variants
#snpMut_filt_freq_reduced = unique(snpMut_filt_freq[which(snpMut_filt_freq$Gene%in%valid_genes_names),c("Gene","Chr","PosStart","PosEnd","REF","ALT")])
snpMut_filt_freq_reduced = unique(snpMut_filt_freq[which(snpMut_filt_freq$Gene%in%valid_genes_names), ])
snpMut_filt_freq_reduced = snpMut_filt_freq_reduced[order(snpMut_filt_freq_reduced[,1],snpMut_filt_freq_reduced[,2],snpMut_filt_freq_reduced[,3],snpMut_filt_freq_reduced[,4],snpMut_filt_freq_reduced[,5],snpMut_filt_freq_reduced[,6]),]
saveRDS(snpMut_filt_freq_reduced, file=file.path(out_dir,"snpMut_filt_freq_reduced.rds"))
#write.table(snpMut_filt_freq_reduced,file=file.path(out_dir,"snpMut_filt_freq_reduced.txt"),append=FALSE,quote=FALSE,sep="\t",row.names=FALSE,col.names=TRUE)
#browser()
return(valid_genes_names)
}
BIMIB-DISCo/LACE documentation built on April 24, 2024, 7:22 a.m.
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#################################################
########## NA ###########
#################################################
NA_compute <- function(depth_minimum, missing_values_max, data_dir, depth_dir, out_dir, time_points) {
# set working directory
browser()
#library(stringr)
#depth_minimum = 3 # minimum depth to set values to NA
#missing_values_max = 0.40 # maximum number of considered missing data per gene
dir.create(out_dir, showWarnings = FALSE)
if (!dir.exists(out_dir))
showNotification(paste("Filtered data output folder,", out_dir, ", cannot be created"), duration = 10, type = "warning")
# load data
snpMut_filt_freq <- readRDS(file=paste0(file.path(data_dir, "snpMut_filt_freq.rds")))
mutations = as.matrix(read.table(file.path(depth_dir, "final_data_mut.txt")))
depth = as.matrix(read.table(file.path(depth_dir, "final_data_depth.txt")))
# set NA values
check_ids <- snpMut_filt_freq$scID %in% colnames(mutations)
error_ids <- sort(unique(snpMut_filt_freq$scID[!check_ids]))
snpMut_filt_freq <- snpMut_filt_freq[check_ids,]
depth = depth[,colnames(mutations)]
mutations[which(mutations>1,arr.ind=TRUE)] = 1
mutations[which(depth<=depth_minimum,arr.ind=TRUE)] = NA
mycellsdata = list()
#time_points=c("before treatment", "4d on treatment", "28d on treatment", "57d on treatment")
check_time_points <- time_points %in% unique(snpMut_filt_freq$Time)
time_points <- time_points[check_time_points]
for (i in time_points) {
mycellsdata[[i]] = t(mutations[,sort(unique(snpMut_filt_freq$scID[which(snpMut_filt_freq$Time==i)]))])
}
# evaluate number of missing data per time point
time_points_NA = list()
#for (t in time_points)
# time_points_NA[[t]] = NULL
#
##browser()
#for (t in time_points)
# for(i in 1:ncol(mycellsdata[[1]]))
# time_points_NA[[t]] = c(time_points_NA[[t]],length(which(is.na(mycellsdata[[t]][,i])))/nrow(mycellsdata[[t]]))
time_points_NA = list()
for (t in time_points)
time_points_NA[[t]] <- colSums(is.na(mycellsdata[[t]]))/nrow(mycellsdata[[t]])
##valid_genes = sort(unique(colnames(mycellsdata[[1]])[which(all(time_points_NA<=missing_values_max))]))
#valid_genes = colSums(do.call(rbind, lapply(time_points_NA, function(x){x<=missing_values_max})))
#valid_genes <- colnames(mycellsdata[[1]])[apply(do.call(rbind, lapply(time_points_NA, function(x){x<=missing_values_max})), FUN = all, MARGIN = 2)]
# browser()
valid_genes <- colnames(mycellsdata[[1]])[apply(bind_rows(lapply(time_points_NA, function(x){x<=missing_values_max})), FUN = all, MARGIN = 2)]
#valid_genes <- colnames(mycellsdata[[1]])[(data.frame(bind_rows(time_points_NA)<=missing_values_max) %>% rowwise() %>% mutate(y=all(c_across(everything())) ))$y]
valid = NULL
#for(i in valid_genes) {
# valid = c(valid,unique(snpMut_filt_freq$Gene[grep(i,snpMut_filt_freq$UIDsnp)]))
#}
#valid = paste0(valid,"_",valid_genes)
valid = unique(grep(paste0(valid_genes, collapse = "|"), unique(snpMut_filt_freq$UIDsnp), value = T ))
# get names of valid genes
valid_genes_names = NULL
#for(i in valid) {
# valid_genes_names = c(valid_genes_names,strsplit(i,split="_")[[1]][[1]])
#}
#browser()
valid_genes_names <- str_split_fixed(valid,"_", n=2 )[,1]
log2_print(length(valid_genes_names), msg = "NA_compute: # valid genes")
log2_print(length(unique(valid_genes_names)))
log2_print(sort(valid_genes_names[which(duplicated(valid_genes_names))]))
# make final list of candidate selected variants
#snpMut_filt_freq_reduced = unique(snpMut_filt_freq[which(snpMut_filt_freq$Gene%in%valid_genes_names),c("Gene","Chr","PosStart","PosEnd","REF","ALT")])
snpMut_filt_freq_reduced = unique(snpMut_filt_freq[which(snpMut_filt_freq$Gene%in%valid_genes_names), ])
snpMut_filt_freq_reduced = snpMut_filt_freq_reduced[order(snpMut_filt_freq_reduced[,1],snpMut_filt_freq_reduced[,2],snpMut_filt_freq_reduced[,3],snpMut_filt_freq_reduced[,4],snpMut_filt_freq_reduced[,5],snpMut_filt_freq_reduced[,6]),]
saveRDS(snpMut_filt_freq_reduced, file=file.path(out_dir,"snpMut_filt_freq_reduced.rds"))
#write.table(snpMut_filt_freq_reduced,file=file.path(out_dir,"snpMut_filt_freq_reduced.txt"),append=FALSE,quote=FALSE,sep="\t",row.names=FALSE,col.names=TRUE)
#browser()
return(valid_genes_names)
}
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