80 lines
1.8 KiB
R
80 lines
1.8 KiB
R
# Sourcing all necessary files
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require("sbm", quietly = T)
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require("dplyr", quietly = T)
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require("tictoc", quietly = T)
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require("ggplot2", quietly = T)
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devtools::load_all(path = "R/")
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set.seed(1234)
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verbose <- TRUE
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test_alea <- TRUE
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eps <- 0.05
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M <- 3
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nr <- 100
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nc <- 250
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pic <- c(0.1, 0.2, 0.3, 0.4)
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pir <- c(0.1, 0.2, 0.7)
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Q <- c(length(pir), length(pic))
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alpha <- matrix(
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c(
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1, 0, 0, 5,
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4, 100, 25, 45,
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0, 55, 0, 60
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),
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nrow = Q[1], ncol = Q[2], byrow = TRUE
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)
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bipartite_collection <- generate_bipartite_collection(nr, nc, pir, pic, alpha, M, distribution = "poisson", return_memberships = TRUE)
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# This is a list of the M incidence matrices
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bipartite_collection_incidence <- lapply(seq.int(M), function(m) {
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bipartite_collection[[m]]$incidence_matrix
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})
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bipartite_collection_incidence_binary <- lapply(seq_along(bipartite_collection_incidence), function(m) {
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1 * (bipartite_collection_incidence[[m]] > 0)
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})
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## Init given with exact membership
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Z <- lapply(seq.int(M), function(m) {
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list(bipartite_collection[[m]]$row_clustering, bipartite_collection[[m]]$col_clustering)
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})
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tic()
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mybisbmpop <- estimate_colBiSBM(
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netlist = bipartite_collection_incidence_binary, colsbm_model = "iid",
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nb_run = 3,
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distribution = "poisson",
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global_opts = list(
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parallelization_vector = c(T, T),
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nb_cores = 6, verbosity = 4
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)
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)
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toc()
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# choosed_bisbmpop <- estimate_colBiSBM(
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# netlist = bipartite_collection_incidence,
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# colsbm_model = "iid",
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# global_opts = list(nb_cores = 3)
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# )
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ari_sums <- sapply(
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seq_along(mybisbmpop$best_fit$Z),
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function(m) {
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sum(c(
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aricode::ARI(
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Z[[m]][[1]],
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mybisbmpop$best_fit$Z[[m]][[1]]
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),
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aricode::ARI(
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Z[[m]][[2]],
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mybisbmpop$best_fit$Z[[m]][[2]]
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)
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))
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}
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)
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