Mercurial > repos > recetox > recetox_aplcms_correct_time
view utils.R @ 2:353b9d58d360 draft
planemo upload for repository https://github.com/RECETOX/galaxytools/tree/master/tools/recetox_aplcms commit 724ecb1b81ebd8a67488b8a9397177b2ff0357db
author | recetox |
---|---|
date | Wed, 24 May 2023 14:49:35 +0000 |
parents | 7b0bf5d403ba |
children | 5f667da3804a |
line wrap: on
line source
library(recetox.aplcms) get_env_sample_name <- function() { sample_name <- Sys.getenv("SAMPLE_NAME", unset = NA) if (nchar(sample_name) == 0) { sample_name <- NA } if (is.na(sample_name)) { message("The mzML file does not contain run ID.") } return(sample_name) } save_sample_name <- function(df, sample_name) { attr(df, "sample_name") <- sample_name return(df) } load_sample_name <- function(df) { sample_name <- attr(df, "sample_name") if (is.null(sample_name)) { return(NA) } else { return(sample_name) } } save_data_as_parquet_file <- function(data, filename) { arrow::write_parquet(data, filename) } load_data_from_parquet_file <- function(filename) { return(arrow::read_parquet(filename)) } load_parquet_collection <- function(files) { features <- lapply(files, arrow::read_parquet) features <- lapply(features, tibble::as_tibble) return(features) } save_parquet_collection <- function(feature_tables, sample_names, subdir) { dir.create(subdir) for (i in seq_len(length(feature_tables))) { filename <- file.path(subdir, paste0(subdir, "_", sample_names[i], ".parquet")) feature_table <- as.data.frame(feature_tables[[i]]) feature_table <- save_sample_name(feature_table, sample_names[i]) arrow::write_parquet(feature_table, filename) } } sort_by_sample_name <- function(tables, sample_names) { return(tables[order(sample_names)]) } save_tolerances <- function(table, tol_file) { mz_tolerance <- c(table$mz_tol_relative) rt_tolerance <- c(table$rt_tol_relative) arrow::write_parquet(data.frame(mz_tolerance, rt_tolerance), tol_file) } save_aligned_features <- function(aligned_features, metadata_file, rt_file, intensity_file) { save_data_as_parquet_file(aligned_features$metadata, metadata_file) save_data_as_parquet_file(aligned_features$rt, rt_file) save_data_as_parquet_file(aligned_features$intensity, intensity_file) } select_table_with_sample_name <- function(tables, sample_name) { sample_names <- lapply(tables, load_sample_name) index <- which(sample_names == sample_name) if (length(index) > 0) { return(tables[[index]]) } else { stop(sprintf("Mismatch - sample name '%s' not present in %s", sample_name, paste(sample_names, collapse = ", "))) } } select_adjusted <- function(recovered_features) { return(recovered_features$adjusted_features) } known_table_columns <- function() { c("chemical_formula", "HMDB_ID", "KEGG_compound_ID", "mass", "ion.type", "m.z", "Number_profiles_processed", "Percent_found", "mz_min", "mz_max", "RT_mean", "RT_sd", "RT_min", "RT_max", "int_mean(log)", "int_sd(log)", "int_min(log)", "int_max(log)") } save_known_table <- function(table, filename) { columns <- known_table_columns() arrow::write_parquet(table$known_table[columns], filename) } read_known_table <- function(filename) { arrow::read_parquet(filename, col_select = known_table_columns()) } save_pairing <- function(table, filename) { df <- table$pairing %>% as_tibble() %>% setNames(c("new", "old")) arrow::write_parquet(df, filename) } join_tables_to_list <- function(metadata, rt_table, intensity_table) { features <- new("list") features$metadata <- metadata features$intensity <- intensity_table features$rt <- rt_table return(features) } validate_sample_names <- function(sample_names) { if ((any(is.na(sample_names))) || (length(unique(sample_names)) != length(sample_names))) { stop(sprintf("Sample names absent or not unique - provided sample names: %s", paste(sample_names, collapse = ", "))) } } determine_sigma_ratios <- function(sigma_ratio_lim_min = NA, sigma_ratio_lim_max = NA) { if (is.na(sigma_ratio_lim_min)) { sigma_ratio_lim_min <- 0 } if (is.na(sigma_ratio_lim_max)) { sigma_ratio_lim_max <- Inf } return(c(sigma_ratio_lim_min, sigma_ratio_lim_max)) }