Mercurial > repos > galaxyp > mt2mq
view MT2MQ.R @ 2:9c8e7137d331 draft
"planemo upload commit 59afcdaf7afdf574c475f0faae73127f0e563328"
| author | galaxyp |
|---|---|
| date | Wed, 12 Aug 2020 17:36:53 -0400 |
| parents | e50ec3a9a3f9 |
| children |
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# MT2MQ: prepares metatranscriptomic outputs from ASaiM (HUMAnN2 and metaphlan) for metaquantome # Load libraries suppressPackageStartupMessages(library(tidyverse)) suppressPackageStartupMessages(library(taxize)) # Set parameters from arguments args <- commandArgs(trailingOnly = TRUE) data <- args[1] # data: full path to file or directory: # - if in functional or f-t mode, should be a tsv file of HUMAnN2 gene families, after regrouping and renaming to GO, joining samples, and renormalizing to CPM. # - if in taxonomic mode, should be a directory of tsv files of metaphlan genus-level results mode <- args[2] # mode: # -"f": function # -"t": taxonomy # -"ft": function-taxonomy ontology <- unlist(strsplit(args[3], split = ",")) # ontology: only for function or f-t mode. A string of the GO namespace(s) to include, separated by commas. # ex: to include all: "molecular_function,biological_process,cellular_component" int_file <- args[4] # int_file: full path and file name and extension to write intensity file func_file <- args[5] # func_file: full path and file name and extension to write func file tax_file <- args[6] # tax_file: full path and file name and extension to write tax file # Functional mode if (mode == "f") { int <- read.delim(file = data, header = TRUE, sep = "\t") %>% filter(!grepl(".+g__.+", X..Gene.Family)) %>% separate(col = X..Gene.Family, into = c("id", "Extra"), sep = ": ", fill = "left") %>% separate(col = Extra, into = c("namespace", "name"), sep = " ", fill = "left", extra = "merge") %>% mutate(namespace = if_else(namespace == "[MF]", true = "molecular_function", false = if_else(namespace == "[BP]", true = "biological_process", false = "cellular_component"))) %>% filter(namespace %in% ontology) %>% select(id, name, namespace, 4:ncol(.)) func <- int %>% select(id) %>% mutate(gos = id) write.table(x = int, file = int_file, quote = FALSE, sep = "\t", row.names = FALSE) write.table(x = func, file = func_file, quote = FALSE, sep = "\t", row.names = FALSE) } # Taxonomic mode if (mode == "t") { files <- dir(path = data) int <- tibble(filename = files) %>% mutate(file_contents = map(filename, ~read.delim(file = file.path(data, .), header = TRUE, sep = "\t"))) %>% unnest(cols = c(file_contents)) %>% rename(sample = filename) %>% separate(col = sample, into = c("sample", NA), sep = ".tsv") %>% pivot_wider(names_from = sample, values_from = abundance) %>% mutate(rank = "genus") %>% rename(name = genus) %>% mutate(name = as.character(name)) %>% mutate(id = get_uid(name, key = NULL, messages = FALSE)) %>% select(id, name, rank, 2:ncol(.)) tax <- int %>% select(id) %>% mutate(tax = id) write.table(x = int, file = int_file, quote = FALSE, sep = "\t", row.names = FALSE) write.table(x = tax, file = tax_file, quote = FALSE, sep = "\t", row.names = FALSE) } # Function-taxonomy mode if (mode == "ft") { ft <- read.delim(file = data, header = TRUE, sep = "\t") %>% filter(grepl(".+g__.+", X..Gene.Family)) %>% separate(col = X..Gene.Family, into = c("id", "Extra"), sep = ": ", fill = "left") %>% separate(col = Extra, into = c("namespace", "name"), sep = " ", fill = "left", extra = "merge") %>% separate(col = name, into = c("name", "taxa"), sep = "\\|", extra = "merge") %>% separate(col = taxa, into = c("Extra", "genus", "species"), sep = "__") %>% select(-"Extra") %>% mutate_if(is.character, str_replace_all, pattern = "\\.s", replacement = "") %>% mutate_at(c("species"), str_replace_all, pattern = "_", replacement = " ") %>% mutate(namespace = if_else(namespace == "[MF]", true = "molecular_function", false = if_else(namespace == "[BP]", true = "biological_process", false = "cellular_component"))) %>% filter(namespace %in% ontology) %>% select(id, name, namespace, 4:ncol(.)) write.table(x = ft, file = int_file, quote = FALSE, sep = "\t", row.names = FALSE) }