X-Git-Url: https://git.auder.net/?a=blobdiff_plain;f=epclust%2FR%2Fmain.R;h=a039d1cc029f94f641d6943b7aacc63d27c38002;hb=37c82bbafbffc19e8b47a521952bac58f189e9ea;hp=86dac64c150c6d1a6c1b4f8bf8756030ca89ae5d;hpb=eef6f6c97277ea3ce760981e5244cbde7fc904a0;p=epclust.git

diff --git a/epclust/R/main.R b/epclust/R/main.R
index 86dac64..a039d1c 100644
--- a/epclust/R/main.R
+++ b/epclust/R/main.R
@@ -39,10 +39,16 @@
 #'   }
 #' @param K1 Number of clusters to be found after stage 1 (K1 << N [number of series])
 #' @param K2 Number of clusters to be found after stage 2 (K2 << K1)
-#' @param nb_per_chunk (Maximum) number of items to retrieve in one batch, for both types of
-#'   retrieval: resp. series and contribution; in a vector of size 2
-#' @param nb_items_clust1 (Maximum) number of items in input of the clustering algorithm
-#'   for stage 1
+#' @param nb_series_per_chunk (Maximum) number of series to retrieve in one batch
+#' @param algo_clust1 Clustering algorithm for stage 1. A function which takes (data, K)
+#'   as argument where data is a matrix in columns and K the desired number of clusters,
+#'   and outputs K medoids ranks. Default: PAM
+#' @param algo_clust2 Clustering algorithm for stage 2. A function which takes (dists, K)
+#'   as argument where dists is a matrix of distances and K the desired number of clusters,
+#'   and outputs K clusters representatives (curves). Default: k-means
+#' @param nb_items_clust1 (~Maximum) number of items in input of the clustering algorithm
+#'   for stage 1. At worst, a clustering algorithm might be called with ~2*nb_items_clust1
+#'   items; but this could only happen at the last few iterations.
 #' @param wav_filt Wavelet transform filter; see ?wavelets::wt.filter
 #' @param contrib_type Type of contribution: "relative", "logit" or "absolute" (any prefix)
 #' @param WER "end" to apply stage 2 after stage 1 has fully iterated, or "mix" to apply
@@ -78,12 +84,12 @@
 #' series = do.call( cbind, lapply( 1:6, function(i)
 #'   do.call(cbind, wmtsa::wavBootstrap(ref_series[i,], n.realization=400)) ) )
 #' #dim(series) #c(2400,10001)
-#' medoids_ascii = claws(series, K1=60, K2=6, nb_per_chunk=c(200,500), verbose=TRUE)
+#' medoids_ascii = claws(series, K1=60, K2=6, 200, verbose=TRUE)
 #'
 #' # Same example, from CSV file
 #' csv_file = "/tmp/epclust_series.csv"
 #' write.table(series, csv_file, sep=",", row.names=FALSE, col.names=FALSE)
-#' medoids_csv = claws(csv_file, K1=60, K2=6, nb_per_chunk=c(200,500))
+#' medoids_csv = claws(csv_file, K1=60, K2=6, 200)
 #'
 #' # Same example, from binary file
 #' bin_file <- "/tmp/epclust_series.bin"
@@ -91,7 +97,7 @@
 #' endian <- "little"
 #' binarize(csv_file, bin_file, 500, nbytes, endian)
 #' getSeries <- function(indices) getDataInFile(indices, bin_file, nbytes, endian)
-#' medoids_bin <- claws(getSeries, K1=60, K2=6, nb_per_chunk=c(200,500))
+#' medoids_bin <- claws(getSeries, K1=60, K2=6, 200)
 #' unlink(csv_file)
 #' unlink(bin_file)
 #'
@@ -118,7 +124,7 @@
 #'   df_series <- dbGetQuery(series_db, request)
 #'   as.matrix(df_series[,"value"], nrow=serie_length)
 #' }
-#' medoids_db = claws(getSeries, K1=60, K2=6, nb_per_chunk=c(200,500))
+#' medoids_db = claws(getSeries, K1=60, K2=6, 200))
 #' dbDisconnect(series_db)
 #'
 #' # All computed medoids should be the same:
@@ -128,14 +134,16 @@
 #' digest::sha1(medoids_db)
 #' }
 #' @export
-claws <- function(getSeries, K1, K2,
-	nb_per_chunk,nb_items_clust1=7*K1 #volumes of data
-	wav_filt="d8",contrib_type="absolute", #stage 1
-	WER="end", #stage 2
-	random=TRUE, #randomize series order?
-	ntasks=1, ncores_tasks=1, ncores_clust=4, #parallelism
-	sep=",", #ASCII input separator
-	nbytes=4, endian=.Platform$endian, #serialization (write,read)
+claws <- function(getSeries, K1, K2, nb_series_per_chunk,
+	nb_items_clust1=7*K1,
+	algo_clust1=function(data,K) cluster::pam(data,K,diss=FALSE),
+	algo_clust2=function(dists,K) stats::kmeans(dists,K,iter.max=50,nstart=3),
+	wav_filt="d8", contrib_type="absolute",
+	WER="end",
+	random=TRUE,
+	ntasks=1, ncores_tasks=1, ncores_clust=4,
+	sep=",",
+	nbytes=4, endian=.Platform$endian,
 	verbose=FALSE, parll=TRUE)
 {
 	# Check/transform arguments
@@ -147,12 +155,11 @@ claws <- function(getSeries, K1, K2,
 	}
 	K1 <- .toInteger(K1, function(x) x>=2)
 	K2 <- .toInteger(K2, function(x) x>=2)
-	if (!is.numeric(nb_per_chunk) || length(nb_per_chunk)!=2)
-		stop("'nb_per_chunk': numeric, size 2")
-	nb_per_chunk[1] <- .toInteger(nb_per_chunk[1], function(x) x>=1)
-	# A batch of contributions should have at least as many elements as a batch of series,
-	# because it always contains much less values
-	nb_per_chunk[2] <- max(.toInteger(nb_per_chunk[2],function(x) x>=1), nb_per_chunk[1])
+	nb_series_per_chunk <- .toInteger(nb_series_per_chunk, function(x) x>=1)
+	# K1 (number of clusters at step 1) cannot exceed nb_series_per_chunk, because we will need
+	# to load K1 series in memory for clustering stage 2.
+	if (K1 > nb_series_per_chunk)
+		stop("'K1' cannot exceed 'nb_series_per_chunk'")
 	nb_items_clust1 <- .toInteger(nb_items_clust1, function(x) x>K1)
 	random <- .toLogical(random)
 	tryCatch
@@ -176,9 +183,16 @@ claws <- function(getSeries, K1, K2,
 	verbose <- .toLogical(verbose)
 	parll <- .toLogical(parll)
 
-	# Serialize series if required, to always use a function
+	# Since we don't make assumptions on initial data, there is a possibility that even
+	# when serialized, contributions or synchrones do not fit in RAM. For example,
+	# 30e6 series of length 100,000 would lead to a +4Go contribution matrix. Therefore,
+	# it's safer to place these in (binary) files, located in the following folder.
 	bin_dir <- ".epclust_bin/"
 	dir.create(bin_dir, showWarnings=FALSE, mode="0755")
+
+	# Binarize series if getSeries is not a function; the aim is to always use a function,
+	# to uniformize treatments. An equally good alternative would be to use a file-backed
+	# bigmemory::big.matrix, but it would break the uniformity.
 	if (!is.function(getSeries))
 	{
 		if (verbose)
@@ -199,14 +213,43 @@ claws <- function(getSeries, K1, K2,
 		contribs_file, nb_series_per_chunk, nbytes, endian)
 	getContribs = function(indices) getDataInFile(indices, contribs_file, nbytes, endian)
 
+	# A few sanity checks: do not continue if too few data available.
 	if (nb_curves < K2)
 		stop("Not enough data: less series than final number of clusters")
 	nb_series_per_task = round(nb_curves / ntasks)
 	if (nb_series_per_task < K2)
 		stop("Too many tasks: less series in one task than final number of clusters")
 
+	# Generate a random permutation of 1:N (if random==TRUE); otherwise just use arrival
+	# (storage) order.
+	indices_all = if (random) sample(nb_curves) else seq_len(nb_curves)
+	# Split (all) indices into ntasks groups of ~same size
+	indices_tasks = lapply(seq_len(ntasks), function(i) {
+		upper_bound = ifelse( i<ntasks, min(nb_series_per_task*i,nb_curves), nb_curves )
+		indices_all[((i-1)*nb_series_per_task+1):upper_bound]
+	})
+
+	if (parll && ntasks>1)
+	{
+		# Initialize parallel runs: outfile="" allow to output verbose traces in the console
+		# under Linux. All necessary variables are passed to the workers.
+		cl = parallel::makeCluster(ncores_tasks, outfile="")
+		varlist = c("getSeries","getContribs","K1","K2","algo_clust1","algo_clust2",
+			"nb_series_per_chunk","nb_items_clust","ncores_clust","sep",
+			"nbytes","endian","verbose","parll")
+		if (WER=="mix")
+			varlist = c(varlist, "medoids_file")
+		parallel::clusterExport(cl, varlist, envir = environment())
+	}
+
+	# This function achieves one complete clustering task, divided in stage 1 + stage 2.
+	# stage 1: n indices  --> clusteringTask1(...) --> K1 medoids
+	# stage 2: K1 medoids --> clusteringTask2(...) --> K2 medoids,
+	# where n = N / ntasks, N being the total number of curves.
 	runTwoStepClustering = function(inds)
 	{
+		# When running in parallel, the environment is blank: we need to load required
+		# packages, and pass useful variables.
 		if (parll && ntasks>1)
 			require("epclust", quietly=TRUE)
 		indices_medoids = clusteringTask1(
@@ -218,18 +261,18 @@ claws <- function(getSeries, K1, K2,
 			medoids1 = bigmemory::as.big.matrix( getSeries(indices_medoids) )
 			medoids2 = clusteringTask2(medoids1, K2, getSeries, nb_curves, nb_series_per_chunk,
 				nbytes, endian, ncores_clust, verbose, parll)
-			binarize(medoids2, synchrones_file, nb_series_per_chunk, sep, nbytes, endian)
+			binarize(medoids2, medoids_file, nb_series_per_chunk, sep, nbytes, endian)
 			return (vector("integer",0))
 		}
 		indices_medoids
 	}
 
-	# Cluster contributions in parallel (by nb_series_per_chunk)
-	indices_all = if (random) sample(nb_curves) else seq_len(nb_curves)
-	indices_tasks = lapply(seq_len(ntasks), function(i) {
-		upper_bound = ifelse( i<ntasks, min(nb_series_per_task*i,nb_curves), nb_curves )
-		indices_all[((i-1)*nb_series_per_task+1):upper_bound]
-	})
+	# Synchrones (medoids) need to be stored only if WER=="mix"; indeed in this case, every
+	# task output is a set of new (medoids) curves. If WER=="end" however, output is just a
+	# set of indices, representing some initial series.
+	if (WER=="mix")
+		{medoids_file = paste(bin_dir,"medoids",sep="") ; unlink(medoids_file)}
+
 	if (verbose)
 	{
 		message = paste("...Run ",ntasks," x stage 1", sep="")
@@ -237,19 +280,10 @@ claws <- function(getSeries, K1, K2,
 			message = paste(message," + stage 2", sep="")
 		cat(paste(message,"\n", sep=""))
 	}
-	if (WER=="mix")
-		{synchrones_file = paste(bin_dir,"synchrones",sep="") ; unlink(synchrones_file)}
-	if (parll && ntasks>1)
-	{
-		cl = parallel::makeCluster(ncores_tasks, outfile="")
-		varlist = c("getSeries","getContribs","K1","K2","verbose","parll",
-			"nb_series_per_chunk","ntasks","ncores_clust","sep","nbytes","endian")
-		if (WER=="mix")
-			varlist = c(varlist, "synchrones_file")
-		parallel::clusterExport(cl, varlist=varlist, envir = environment())
-	}
 
-	# 1000*K1 indices [if WER=="end"], or empty vector [if WER=="mix"] --> series on file
+	# As explained above, indices will be assigned to ntasks*K1 medoids indices [if WER=="end"],
+	# or nothing (empty vector) if WER=="mix"; in this case, medoids (synchrones) are stored
+	# in a file.
 	indices <-
 		if (parll && ntasks>1)
 			unlist( parallel::parLapply(cl, indices_tasks, runTwoStepClustering) )
@@ -258,13 +292,20 @@ claws <- function(getSeries, K1, K2,
 	if (parll && ntasks>1)
 		parallel::stopCluster(cl)
 
+	# Right before the final stage, two situations are possible:
+	#  a. data to be processed now sit in binary format in medoids_file (if WER=="mix")
+	#  b. data still is the initial set of curves, referenced by the ntasks*K1 indices
+	# So, the function getSeries() will potentially change. However, computeSynchrones()
+	# requires a function retrieving the initial series. Thus, the next line saves future
+	# conditional instructions.
 	getRefSeries = getSeries
+
 	if (WER=="mix")
 	{
 		indices = seq_len(ntasks*K2)
-		#Now series must be retrieved from synchrones_file
-		getSeries = function(inds) getDataInFile(inds, synchrones_file, nbytes, endian)
-		#Contributions must be re-computed
+		# Now series (synchrones) must be retrieved from medoids_file
+		getSeries = function(inds) getDataInFile(inds, medoids_file, nbytes, endian)
+		# Contributions must be re-computed
 		unlink(contribs_file)
 		index = 1
 		if (verbose)
@@ -274,6 +315,9 @@ claws <- function(getSeries, K1, K2,
 			contribs_file, nb_series_per_chunk, nbytes, endian)
 	}
 
+#TODO: check THAT
+
+
 	# Run step2 on resulting indices or series (from file)
 	if (verbose)
 		cat("...Run final // stage 1 + stage 2\n")
@@ -283,9 +327,11 @@ claws <- function(getSeries, K1, K2,
 	medoids2 = clusteringTask2(medoids1, K2, getRefSeries, nb_curves, nb_series_per_chunk,
 		nbytes, endian, ncores_tasks*ncores_clust, verbose, parll)
 
-	# Cleanup
+	# Cleanup: remove temporary binary files and their folder
 	unlink(bin_dir, recursive=TRUE)
 
+	# Return medoids as a standard matrix, since K2 series have to fit in RAM
+	# (clustering algorithm 1 takes K1 > K2 of them as input)
 	medoids2[,]
 }