Mercurial > repos > ecology > ecoregion_brt_analysis
view nb_clust_G.R @ 3:a56c413f3a98 draft
planemo upload for repository https://github.com/galaxyecology/tools-ecology/tree/master/tools/Ecoregionalization_workflow commit e03df85746a3b61a382a5ee7e3357a8bf42a5097
author | ecology |
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date | Wed, 11 Sep 2024 09:19:41 +0000 |
parents | fc621f3f8226 |
children |
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# Script to determine the optimal number of clusters thanks to the optimization of the SIH index and to produce the files needed in the next step of clustering #load packages library(cluster) library(dplyr) library(tidyverse) #load arguments args = commandArgs(trailingOnly=TRUE) if (length(args)==0) { stop("This tool needs at least one argument") }else{ enviro <- args[1] taxa_list <- args[2] preds <- args[3] max_k <- as.numeric(args[4]) metric <- args[5] sample <- as.numeric(args[6]) } #load data env.data <- read.table(enviro, sep="\t", header = TRUE, dec = ".", na.strings = "-9999") ##List of modelled taxa used for clustering tv <- read.table(taxa_list, dec=".", sep=" ", header=F, na.strings = "NA") names(tv) <- c("a") ################Grouping of taxa if multiple prediction files entered ################ data_split = str_split(preds,",") data.bio = NULL for (i in 1:length(data_split[[1]])) { data.bio1 <- read.table(data_split[[1]][i], dec=".", sep="\t", header=T, na.strings = "NA") data.bio <- rbind(data.bio,data.bio1) remove(data.bio1) } names(data.bio) <- c("lat", "long", "pred", "taxon") #keep selected taxa data.bio <- data.bio[which(data.bio$taxon %in% tv$a),] write.table(data.bio,file="data_bio.tsv",sep="\t",quote=F,row.names=F) #format data test3 <- matrix(data.bio$pred , nrow = nrow(env.data), ncol = nrow(data.bio)/nrow(env.data)) test3 <- data.frame(test3) names(test3) <- unique(data.bio$taxon) write.table(test3, file="data_to_clus.tsv", sep="\t",quote=F,row.names=F) #Max number of clusters to test max_k <- max_k # Initialization of vectors to store SIH indices sih_values <- rep(0, max_k) # Calculation of the SIH index for each number of clusters for (k in 2:max_k) { # Clara execution clara_res <- clara(test3, k, metric =metric, samples = sample, sampsize = min(nrow(test3), (nrow(data.bio)/nrow(test3))+2*k)) # Calculation of the SIH index sih_values[k] <- clara_res$silinfo$avg.width } # Plot SIH Index Chart by Number of Clusters png("Indices_SIH.png") plot(2:max_k, sih_values[2:max_k], type = "b", xlab = "Number of clusters", ylab = "SIH index") dev.off()