firx error in slave.c

[epclust.git] / old_C_code / stage2 / src / 05_cluster2stepWER.r

diff --git a/old_C_code/stage2/src/05_cluster2stepWER.r b/old_C_code/stage2/src/05_cluster2stepWER.r
deleted file mode 100644 (file)
index 9b55da1..0000000
--- a/old_C_code/stage2/src/05_cluster2stepWER.r
+++ /dev/null
@@ -1,143 +0,0 @@
-## File : 05_cluster2stepWER.r
-## Description : 
-
-rm(list = ls())
-
-setwd("~/ownCloud/projects/2014_EDF-Orsay-Lyon2/codes/")
-  
-library(Rwave)       # CWT
-library(cluster)     # pam
-#library(flexclust)   # kcca
-source("aux.r")               # auxiliary clustering functions 
-
-#TODO: [plus tard] alternative à sowa (package disparu) : cwt..
-source("sowas-superseded.r")  # auxiliary CWT functions
-
-## 1. Read auxiliar data files ####
-
-identifiants <- read.table("identifs.txt")[ ,1]
-dates0       <- read.table("datesall.txt")[, 1]
-dates        <- as.character(dates0[grep("2009", dates0)])
-rm(dates0)
-
-n     <- length(identifiants)
-p <- delta <- length(dates)
-
-synchros09 <- t(as.matrix(read.table("~/tmp/2009_synchros200RC.txt")))
-#synchros09 <- t(as.matrix(read.table("~/tmp/2009_synchros200-random.txt")))
-
-nas <- which(is.na(synchros09)[, 1]) # some 1/1/2009 are missing
-synchros09[nas, 1] <- rowMeans(synchros09[nas, 2:4]) #valeurs après 1er janvier
-
-#moyenne pondérée pour compléter deux demi-heures manquantes
-imput09 <- synchros09[, 4180:4181] %*% matrix(c(2/3, 1/3, 1/3, 2/3), 2)
-synchros09 <- cbind(synchros09[, 1:4180], imput09, synchros09[, 4181:17518])
-
-conso <- synchros09[-201, ];  # series must be on rows 
-n     <- nrow(conso)
-delta <- ncol(conso)
-
-rm(synchros09, nas)
-
-## 2. Compute WER distance matrix ####
-
-## _.a CWT -- Filtering the lowest freqs (>6m) ####
-# nvoice   <- 4
-# # noctave4 = 2^13 = 8192 half hours ~ 180 days
-# noctave4 <- adjust.noctave(N = delta, dt = 1, s0 = 2,
-#                           tw = 0, noctave = 13)
-# # 4 here represent 2^5 = 32 half-hours ~ 1 day
-# scalevector4  <- 2^(4:(noctave4 * nvoice) / nvoice) * 2
-# lscvect4      <- length(scalevector4)
-# lscvect <- lscvect4  # i should clean my code: werFam demands a lscvect
-
-
-#17000 colonnes coeff 1, puis 17000 coeff 2... [non : dans chaque tranche du cube]
-
-#TODO: une fonction qui fait lignes 59 à 91
-
-#cube:
-# Xcwt4   <- toCWT(conso, noctave = noctave4, dt = 1,
-#                 scalevector = scalevector4,
-#                 lt = delta, smooth = FALSE, 
-#                 nvoice = nvoice)      # observations node with CWT
-# 
-# #matrix:
-# ############Xcwt2 <- matrix(0.0, nrow= n, ncol= 2 + delta * lscvect)
-# #Xcwt2 <- matrix(NA_complex_, nrow= n, ncol= 2 + length((c(Xcwt4[,,1]))))
-# 
-# #NOTE: delta et lscvect pourraient etre gardés à part (communs)
-# for(i in 1:n) 
-#  Xcwt2[i,] <- c(delta, lscvect, Xcwt4[,,i] / max(Mod(Xcwt4[,,i])) ) 
-# 
-# #rm(conso, Xcwt4); gc()
-# 
-# ## _.b WER^2 distances  ########
-# Xwer_dist    <- matrix(0.0, n, n)
-# for(i in 1:(n - 1)){
-#  mat1   <- vect2mat(Xcwt2[i,])
-#  for(j in (i + 1):n){
-#     mat2 <- vect2mat(Xcwt2[j,])
-#     num     <- Mod(mat1 * Conj(mat2))
-#     WX      <- Mod(mat1 * Conj(mat1))
-#     WY      <- Mod(mat2 * Conj(mat2))
-#     smsmnum <- smCWT(num, scalevector = scalevector4)
-#     smsmWX  <- smCWT(WX,  scalevector = scalevector4)
-#     smsmWY  <- smCWT(WY,  scalevector = scalevector4)
-#     wer2    <- sum(colSums(smsmnum)^2)  /
-#       sum( sum(colSums(smsmWX) * colSums(smsmWY)) )
-#     Xwer_dist[i, j] <- sqrt(delta * lscvect * (1 - wer2))
-#     Xwer_dist[j, i] <- Xwer_dist[i, j]
-#   }
-# }
-# diag(Xwer_dist) <- numeric(n)
-# 
-# save(Xwer_dist, file = "../res/2009_synchros200WER.Rdata")
-# save(Xwer_dist, file = "../res/2009_synchros200-randomWER.Rdata")
-
-load("../res/2009_synchros200WER.Rdata")
-#load("../res/2009_synchros200-randomWER.Rdata")
-
-## 3. Cluster using WER distance matrix ####
- 
-#hc    <- hclust(as.dist(Xwer_dist), method = "ward.D")
-#plot(hc)
-# 
-# #clust <- cutree(hc, 2)
-# 
-for(K in 2:30){ 
-  #K <- 3
-  #pamfit <- pam(tdata[-201, ci$selectv], k = K)
-  pamfit <- pam(as.dist(Xwer_dist), k = K, diss = TRUE)
-  
-  #table(pamfit$clustering)
-
-  SC <- matrix(0, ncol = p, nrow = K)
-
-  clustfactor <- pamfit$clustering
-#  for(k in 1:K){ 
-#    clustk <- which(clustfactor == k)
-#  if(length(clustk) > 0) {
-#    if(length(clustk) > 1) {
-#      SCk <- colSums(synchros09[which(clustfactor == k), ])
-#      } else {
-#        SCk <- synchros09[which(clustfactor == k), ]
-#      }
-#      SC[k, ] <- SC[k, ] + SCk
-#      rm(SCk)
-#  }
-#}
-
-#write.table(clustfactor, file = paste0("~/tmp/clustfactorRC", K, ".txt"))
-#write.table(clustfactor, file = "~/tmp/clustfactor3.txt")
-#write.table(clustfactor, file = paste0("~/tmp/clustfactorWER", K, ".txt"))
-write.table(clustfactor, file = paste0("~/tmp/clustfactor-randomWER", K, ".txt"))
-}
-# 
-# # Plots
-# layout(1)
-# matplot(t(SC)[48*10 + 1:(48*30), ],  type = 'l', ylab = '',col = 1:3, lty = 1)
-# matplot(t(SC)[48*100 + 1:(48*30), ], type = 'l', ylab = '', col = 1:3, lty = 1)
-# 
-# 
-#