Mercurial > repos > iuc > ancombc
view ancombc.R @ 1:6fbedba4d983 draft default tip
planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/ancombc commit 04e758f00aa0613ea0b6996813126c4001da070b
| author | iuc |
|---|---|
| date | Wed, 01 Nov 2023 08:48:16 +0000 |
| parents | 939c59ab61cf |
| children |
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#!/usr/bin/env Rscript suppressPackageStartupMessages(library("ANCOMBC")) suppressPackageStartupMessages(library("data.table")) suppressPackageStartupMessages(library("optparse")) option_list <- list( make_option(c("--phyloseq"), action = "store", dest = "phyloseq", help = "File containing a phyloseq object"), make_option(c("--formula"), action = "store", dest = "formula", help = "Formula"), make_option(c("--p_adj_method"), action = "store", dest = "p_adj_method", help = "Method to adjust p-values"), make_option(c("--zero_cut"), action = "store", dest = "zero_cut", type = "double", help = "Minimum taxa prevalence"), make_option(c("--lib_cut"), action = "store", dest = "lib_cut", type = "integer", help = "Thrshold for filtering samples based on library sizes"), make_option(c("--group"), action = "store", dest = "group", help = "Name of the group variable in the metadata"), make_option(c("--struc_zero"), action = "store", dest = "struc_zero", help = "Detect structural zeros based on group"), make_option(c("--neg_lb"), action = "store", dest = "neg_lb", help = "Classify a taxon as a structural zero using its asymptotic lower bound"), make_option(c("--tol"), action = "store", dest = "tol", type = "double", help = "Iteration convergence tolerance for the E-M algorithm"), make_option(c("--max_iter"), action = "store", dest = "max_iter", help = "Maximum number of iterations for the E-M algorithm"), make_option(c("--conserve"), action = "store", dest = "conserve", help = "Use a conservative variance estimator for the test statistic"), make_option(c("--alpha"), action = "store", dest = "alpha", help = "Level of significance"), make_option(c("--global"), action = "store", dest = "global", help = "Perform global test"), make_option(c("--output_dir"), action = "store", dest = "output_dir", help = "Output directory") ) parser <- OptionParser(usage = "%prog [options] file", option_list = option_list) args <- parse_args(parser, positional_arguments = TRUE) opt <- args$options get_boolean_value <- function(val) { if (val == "true") { return(TRUE) } else { return(FALSE) } } get_file_path <- function(dir, file_name) { file_path <- paste(dir, file_name, sep = "/") return(file_path) } write_data_frame <- function(dir, file_name, data_frame) { file_path <- get_file_path(dir, file_name) write.table(data_frame, file = file_path, quote = FALSE, row.names = TRUE, col.names = TRUE, sep = "\t") } # Convert boolean values to boolean. struc_zero <- get_boolean_value(opt$struc_zero) neg_lb <- get_boolean_value(opt$neg_lb) conserve <- get_boolean_value(opt$conserve) global <- get_boolean_value(opt$global) # Construct a phyloseq object. phyloseq_obj <- readRDS(opt$phyloseq) # Construct an ANCOM-BC object. ancombc_obj <- ancombc(phyloseq = phyloseq_obj, formula = opt$formula, p_adj_method = opt$p_adj_method, zero_cut = opt$zero_cut, lib_cut = opt$lib_cut, group = opt$group, struc_zero = struc_zero, neg_lb = neg_lb, tol = opt$tol, max_iter = opt$max_iter, conserve = conserve, alpha = opt$alpha, global = global) res <- ancombc_obj$res # Write the outputs. write_data_frame(opt$output_dir, "feature_table.tabular", ancombc_obj$feature_table) write_data_frame(opt$output_dir, "zero_ind.tabular", ancombc_obj$zero_ind) write.csv2(ancombc_obj$samp_frac, file = get_file_path(opt$output_dir, "samp_frac.tabular"), row.names = FALSE, col.names = FALSE, sep = "\t") write_data_frame(opt$output_dir, "resid.tabular", ancombc_obj$resid) write(ancombc_obj$delta_em, file = get_file_path(opt$output_dir, "delta_em.tabular")) write(ancombc_obj$delta_wls, file = get_file_path(opt$output_dir, "delta_wls.tabular")) write_data_frame(opt$output_dir, "res_beta.tabular", res$beta) write_data_frame(opt$output_dir, "res_se.tabular", res$se) write_data_frame(opt$output_dir, "res_W.tabular", res$W) write_data_frame(opt$output_dir, "res_p_val.tabular", res$p_val) write_data_frame(opt$output_dir, "res_q_val.tabular", res$q_val) write_data_frame(opt$output_dir, "res_diff_abn.tabular", res$diff_abn) write_data_frame(opt$output_dir, "res_global.tabular", ancombc_obj$res_global)