Mercurial > repos > ppericard > viscorvar
view viscorvar_circlecor.R @ 4:d4e9f7546dfa draft
"planemo upload for repository https://gitlab.com/bilille/galaxy-viscorvar commit 579dc54316e8ede493f86f434a87d3d7b692b023"
author | ppericard |
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date | Tue, 17 Nov 2020 13:01:44 +0000 |
parents | c8533e9298e5 |
children |
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#!/usr/bin/env Rscript # Setup R error handling to go to stderr options( show.error.messages=F, error = function () { cat( geterrmessage(), file=stderr() ); q( "no", 1, F ) } ) # we need that to not crash galaxy with an UTF8 error on German LC settings. loc <- Sys.setlocale("LC_MESSAGES", "en_US.UTF-8") ## Get parameters ## suppressPackageStartupMessages(require(argparse)) parser <- ArgumentParser(description='Run the circleCor function') parser$add_argument('--input_rdata', dest='input_rdata', required=TRUE, help="Input RData file") parser$add_argument('--blocks_vec', dest='blocks_vec', required=TRUE, help="Blocks vector") parser$add_argument('--responses_var', dest='responses_var', required=TRUE, help="Responses variables") parser$add_argument('--x_min', dest='x_min', type='double', required=TRUE, help="X min") parser$add_argument('--x_max', dest='x_max', type='double', required=TRUE, help="X max") parser$add_argument('--y_min', dest='y_min', type='double', required=TRUE, help="Y min") parser$add_argument('--y_max', dest='y_max', type='double', required=TRUE, help="Y max") parser$add_argument('--output_var', dest='output_var', required=TRUE, help="Output variables file") parser$add_argument('--output_pdf', dest='output_pdf', required=TRUE, help="Output PDF file") args <- parser$parse_args() ## Print parameters print("Input RData:") print(args$input_rdata) print("Blocks vector:") print(args$blocks_vec) print("Response variables:") print(args$responses_var) print("X min:") print(args$x_min) print("X max:") print(args$x_max) print("Y min:") print(args$y_min) print("Y max:") print(args$y_max) print("Output variables file:") print(args$output_var) print("Output PDF file:") print(args$output_pdf) names_blocks = strsplit(args$blocks_vec, ",")[[1]] names_response_variables = strsplit(args$responses_var, ",")[[1]] print("names_blocks:") print(names_blocks) print("names_response_variables:") print(names_response_variables) ## Loading libraries suppressPackageStartupMessages(require(visCorVar)) # R script call source_local <- function(fname) { argv <- commandArgs(trailingOnly = FALSE) base_dir <- dirname(substring(argv[grep("--file=", argv)], 8)) source(paste(base_dir, fname, sep="/")) } # Loading input Rdata file # loads res_matCorAddVar object load(args$input_rdata) mat_cor_comp1 = res_matCorAddVar$mat_cor_comp1 mat_cor_comp2 = res_matCorAddVar$mat_cor_comp2 cutoff_comp = res_matCorAddVar$cutoff_comp comp = res_matCorAddVar$comp list_vec_index_block_select = res_matCorAddVar$list_vec_index_block_select list_vec_names_blocks = res_matCorAddVar$list_vec_names_blocks list_cor_comp_selected_var_resp_var = res_matCorAddVar$list_cor_comp_selected_var_resp_var res_compute_cor_var_interest = res_matCorAddVar$res_compute_cor_var_interest res_block_splsda = res_matCorAddVar$res_block_splsda # print("mat_cor_comp1:") print(mat_cor_comp1) print("mat_cor_comp2:") print(mat_cor_comp2) print("cutoff_comp:") print(cutoff_comp) print("comp:") print(comp) print("list_vec_index_block_select:") print(list_vec_index_block_select) print("list_vec_names_blocks:") print(list_vec_names_blocks) print("list_cor_comp_selected_var_resp_var:") print(list_cor_comp_selected_var_resp_var) print("res_compute_cor_var_interest:") print(res_compute_cor_var_interest) # Open output pdf file pdf(args$output_pdf, width=8, height=7) mar = c(5, 5, 2, 8) par(mar = mar) selected_variables = circleCor(list_dataframe_cor_comp_var_global = list_cor_comp_selected_var_resp_var, list_vec_index_block_select = list_vec_index_block_select, mat_cor_comp1 = mat_cor_comp1, mat_cor_comp2 = mat_cor_comp2, names_blocks = names_blocks, names_response_variables = names_response_variables, comp = comp, cutoff = 0.80, min.X = args$x_min, max.X = args$x_max, min.Y = args$y_min, max.Y = args$y_max, # vec_col = vec_col, rad.in = 0.5, cex = 0.7, cex_legend = 0.8, pos = c(1.2, 0), pch = 20) dev.off() write(selected_variables, file=args$output_var, ncolumns=1)