X-Git-Url: https://git.auder.net/?a=blobdiff_plain;f=epclust%2FR%2Fclustering.R;h=c22678632dcee57df836d4e75978299bb9eaa027;hb=6ad3f3fd0ec4f3cd1fd5de4a287c1893293e5bcc;hp=cda7fbe6c8fab73762d02d72a6568aea75df75f8;hpb=1a1196f21036a321710f848d4cb28e6677f24904;p=epclust.git

diff --git a/epclust/R/clustering.R b/epclust/R/clustering.R
index cda7fbe..c226786 100644
--- a/epclust/R/clustering.R
+++ b/epclust/R/clustering.R
@@ -18,6 +18,7 @@
 #' @param getContribs Function to retrieve contributions from initial series indices:
 #'   \code{getContribs(indices)} outpus a contributions matrix
 #' @param contribs matrix of contributions (e.g. output of \code{curvesToContribs()})
+#' @param distances matrix of K1 x K1 (WER) distances between synchrones
 #' @inheritParams computeSynchrones
 #' @inheritParams claws
 #'
@@ -33,15 +34,7 @@ clusteringTask1 = function(
 	indices, getContribs, K1, nb_series_per_chunk, ncores_clust=1, verbose=FALSE, parll=TRUE)
 {
 	if (verbose)
-		cat(paste("*** Clustering task on ",length(indices)," lines\n", sep=""))
-
-	wrapComputeClusters1 = function(inds) {
-		if (parll)
-			require("epclust", quietly=TRUE)
-		if (verbose)
-			cat(paste("   computeClusters1() on ",length(inds)," lines\n", sep=""))
-		inds[ computeClusters1(getContribs(inds), K1) ]
-	}
+		cat(paste("*** Clustering task 1 on ",length(indices)," lines\n", sep=""))
 
 	if (parll)
 	{
@@ -51,10 +44,20 @@ clusteringTask1 = function(
 	while (length(indices) > K1)
 	{
 		indices_workers = .spreadIndices(indices, nb_series_per_chunk)
-		if (parll)
-			indices = unlist( parallel::parLapply(cl, indices_workers, wrapComputeClusters1) )
-		else
-			indices = unlist( lapply(indices_workers, wrapComputeClusters1) )
+		indices <-
+			if (parll)
+			{
+				unlist( parallel::parLapply(cl, indices_workers, function(inds) {
+					require("epclust", quietly=TRUE)
+					inds[ computeClusters1(getContribs(inds), K1, verbose) ]
+				}) )
+			}
+			else
+			{
+				unlist( lapply(indices_workers, function(inds)
+					inds[ computeClusters1(getContribs(inds), K1, verbose) ]
+				) )
+			}
 	}
 	if (parll)
 		parallel::stopCluster(cl)
@@ -67,27 +70,34 @@ clusteringTask1 = function(
 clusteringTask2 = function(medoids, K2,
 	getRefSeries, nb_ref_curves, nb_series_per_chunk, ncores_clust=1,verbose=FALSE,parll=TRUE)
 {
+	if (verbose)
+		cat(paste("*** Clustering task 2 on ",nrow(medoids)," lines\n", sep=""))
+
 	if (nrow(medoids) <= K2)
 		return (medoids)
 	synchrones = computeSynchrones(medoids,
 		getRefSeries, nb_ref_curves, nb_series_per_chunk, ncores_clust, verbose, parll)
 	distances = computeWerDists(synchrones, ncores_clust, verbose, parll)
-	# PAM in package 'cluster' cannot take big.matrix in input: need to cast it
-	mat_dists = matrix(nrow=K1, ncol=K1)
-	for (i in seq_len(K1))
-		mat_dists[i,] = distances[i,]
-	medoids[ computeClusters2(mat_dists,K2), ]
+	medoids[ computeClusters2(distances,K2,verbose), ]
 }
 
 #' @rdname clustering
 #' @export
-computeClusters1 = function(contribs, K1)
+computeClusters1 = function(contribs, K1, verbose=FALSE)
+{
+	if (verbose)
+		cat(paste("   computeClusters1() on ",nrow(contribs)," lines\n", sep=""))
 	cluster::pam(contribs, K1, diss=FALSE)$id.med
+}
 
 #' @rdname clustering
 #' @export
-computeClusters2 = function(distances, K2)
+computeClusters2 = function(distances, K2, verbose=FALSE)
+{
+	if (verbose)
+		cat(paste("   computeClusters2() on ",nrow(distances)," lines\n", sep=""))
 	cluster::pam(distances, K2, diss=TRUE)$id.med
+}
 
 #' computeSynchrones
 #'
@@ -106,47 +116,63 @@ computeClusters2 = function(distances, K2)
 computeSynchrones = function(medoids, getRefSeries,
 	nb_ref_curves, nb_series_per_chunk, ncores_clust=1,verbose=FALSE,parll=TRUE)
 {
+	if (verbose)
+		cat(paste("--- Compute synchrones\n", sep=""))
+
 	computeSynchronesChunk = function(indices)
 	{
-		if (verbose)
-			cat(paste("--- Compute synchrones for ",length(indices)," lines\n", sep=""))
+		if (parll)
+		{
+			require("bigmemory", quietly=TRUE)
+			requireNamespace("synchronicity", quietly=TRUE)
+			require("epclust", quietly=TRUE)
+			synchrones <- bigmemory::attach.big.matrix(synchrones_desc)
+			counts <- bigmemory::attach.big.matrix(counts_desc)
+			medoids <- bigmemory::attach.big.matrix(medoids_desc)
+			m <- synchronicity::attach.mutex(m_desc)
+		}
+
 		ref_series = getRefSeries(indices)
+		nb_series = nrow(ref_series)
+
 		#get medoids indices for this chunk of series
-		for (i in seq_len(nrow(ref_series)))
+		mi = computeMedoidsIndices(medoids@address, ref_series)
+
+		for (i in seq_len(nb_series))
 		{
-			j = which.min( rowSums( sweep(medoids, 2, ref_series[i,], '-')^2 ) )
 			if (parll)
 				synchronicity::lock(m)
-			synchrones[j,] = synchrones[j,] + ref_series[i,]
-			counts[j,1] = counts[j,1] + 1
+			synchrones[ mi[i], ] = synchrones[ mi[i], ] + ref_series[i,]
+			counts[ mi[i] ] = counts[ mi[i] ] + 1 #TODO: remove counts?
 			if (parll)
 				synchronicity::unlock(m)
 		}
 	}
 
-	K = nrow(medoids)
+	K = nrow(medoids) ; L = ncol(medoids)
 	# Use bigmemory (shared==TRUE by default) + synchronicity to fill synchrones in //
 	# TODO: if size > RAM (not our case), use file-backed big.matrix
-	synchrones = bigmemory::big.matrix(nrow=K,ncol=ncol(medoids),type="double",init=0.)
-	counts = bigmemory::big.matrix(nrow=K,ncol=1,type="double",init=0)
+	synchrones = bigmemory::big.matrix(nrow=K, ncol=L, type="double", init=0.)
+	counts = bigmemory::big.matrix(nrow=K, ncol=1, type="double", init=0)
 	# synchronicity is only for Linux & MacOS; on Windows: run sequentially
 	parll = (requireNamespace("synchronicity",quietly=TRUE)
 		&& parll && Sys.info()['sysname'] != "Windows")
-	if (parll)
-		m <- synchronicity::boost.mutex()
-
 	if (parll)
 	{
+		m <- synchronicity::boost.mutex()
+		m_desc <- synchronicity::describe(m)
+		synchrones_desc = bigmemory::describe(synchrones)
+		counts_desc = bigmemory::describe(counts)
+		medoids_desc = bigmemory::describe(medoids)
 		cl = parallel::makeCluster(ncores_clust)
-		parallel::clusterExport(cl,
-			varlist=c("synchrones","counts","verbose","medoids","getRefSeries"),
-			envir=environment())
+		parallel::clusterExport(cl, varlist=c("synchrones_desc","counts_desc","counts",
+			"verbose","m_desc","medoids_desc","getRefSeries"), envir=environment())
 	}
 
 	indices_workers = .spreadIndices(seq_len(nb_ref_curves), nb_series_per_chunk)
 	ignored <-
 		if (parll)
-			parallel::parLapply(indices_workers, computeSynchronesChunk)
+			parallel::parLapply(cl, indices_workers, computeSynchronesChunk)
 		else
 			lapply(indices_workers, computeSynchronesChunk)
 
@@ -174,15 +200,21 @@ computeSynchrones = function(medoids, getRefSeries,
 #'   as the series in the initial dataset
 #' @inheritParams claws
 #'
-#' @return A big.matrix of size K1 x K1
+#' @return A matrix of size K1 x K1
 #'
 #' @export
 computeWerDists = function(synchrones, ncores_clust=1,verbose=FALSE,parll=TRUE)
 {
+	if (verbose)
+		cat(paste("--- Compute WER dists\n", sep=""))
+
+
 
 
+#TODO: serializer les CWT, les récupérer via getDataInFile 
+#--> OK, faut juste stocker comme séries simples de taille delta*ncol (53*17519)
+
 
-#TODO: re-organize to call computeWerDist(x,y) [C] (in //?) from two indices + big.matrix
 
 
 	n <- nrow(synchrones)
@@ -201,82 +233,89 @@ computeWerDists = function(synchrones, ncores_clust=1,verbose=FALSE,parll=TRUE)
 	s0log = as.integer( (log2( s0*w0/(2*pi) ) - 1) * nvoice + 1.5 )
 	totnoct = noctave + as.integer(s0log/nvoice) + 1
 
-	computeCWT = function(i)
-	{
-		if (verbose)
-			cat(paste("+++ Compute Rwave::cwt() on serie ",i,"\n", sep=""))
-		ts <- scale(ts(synchrones[i,]), center=TRUE, scale=scaled)
-		totts.cwt = Rwave::cwt(ts, totnoct, nvoice, w0, plot=FALSE)
-		ts.cwt = totts.cwt[,s0log:(s0log+noctave*nvoice)]
-		#Normalization
-		sqs <- sqrt(2^(0:(noctave*nvoice)/nvoice)*s0)
-		sqres <- sweep(ts.cwt,2,sqs,'*')
-		sqres / max(Mod(sqres))
-	}
+	Xwer_dist <- bigmemory::big.matrix(nrow=n, ncol=n, type="double")
 
-	if (parll)
+	# Generate n(n-1)/2 pairs for WER distances computations
+#	pairs = list()
+#	V = seq_len(n)
+#	for (i in 1:n)
+#	{
+#		V = V[-1]
+#		pairs = c(pairs, lapply(V, function(v) c(i,v)))
+#	}
+	# Generate "smart" pairs for WER distances computations
+	pairs = list()
+	F = floor(2*n/3)
+	for (i in 1:F)
+		pairs = c(pairs, lapply((i+1):n, function(v) c(i,v)))
+	V = (F+1):n
+	for (i in (F+1):(n-1))
 	{
-		cl = parallel::makeCluster(ncores_clust)
-		parallel::clusterExport(cl,
-			varlist=c("synchrones","totnoct","nvoice","w0","s0log","noctave","s0","verbose"),
-			envir=environment())
-	}
+		V = V[-1]
+		pairs = c(pairs, 
 
-	# list of CWT from synchrones
-	# TODO: fit in RAM, OK? If not, 2 options: serialize, compute individual distances
-	Xcwt4 <-
+	# Distance between rows i and j
+	computeDistancesIJ = function(pair)
+	{
 		if (parll)
-			parallel::parLapply(cl, seq_len(n), computeCWT)
-		else
-			lapply(seq_len(n), computeCWT)
-
-	if (parll)
-		parallel::stopCluster(cl)
-
-	Xwer_dist <- bigmemory::big.matrix(nrow=n, ncol=n, type="double")
-	fcoefs = rep(1/3, 3) #moving average on 3 values (TODO: very slow! correct?!)
-	if (verbose)
-		cat("*** Compute WER distances from CWT\n")
-
-	#TODO: computeDistances(i,j), et répartir les n(n-1)/2 couples d'indices
-	#là c'est trop déséquilibré
+		{
+			require("bigmemory", quietly=TRUE)
+			require("epclust", quietly=TRUE)
+			synchrones <- bigmemory::attach.big.matrix(synchrones_desc)
+			Xwer_dist <- bigmemory::attach.big.matrix(Xwer_dist_desc)
+		}
 
-	computeDistancesLineI = function(i)
-	{
-		if (verbose)
-			cat(paste("   Line ",i,"\n", sep=""))
-		for (j in (i+1):n)
+		computeCWT = function(index)
 		{
-			#TODO: 'circular=TRUE' is wrong, should just take values on the sides; to rewrite in C
-			num <- filter(Mod(Xcwt4[[i]] * Conj(Xcwt4[[j]])), fcoefs, circular=TRUE)
-			WX <- filter(Mod(Xcwt4[[i]] * Conj(Xcwt4[[i]])), fcoefs, circular=TRUE)
-			WY <- filter(Mod(Xcwt4[[j]] * Conj(Xcwt4[[j]])), fcoefs, circular=TRUE)
-			wer2 <- sum(colSums(num)^2) / sum( sum(colSums(WX) * colSums(WY)) )
-			if (parll)
-				synchronicity::lock(m)
-			Xwer_dist[i,j] <- sqrt(delta * ncol(Xcwt4[[1]]) * (1 - wer2))
-			Xwer_dist[j,i] <- Xwer_dist[i,j]
-			if (parll)
-				synchronicity::unlock(m)
+			ts <- scale(ts(synchrones[index,]), center=TRUE, scale=scaled)
+			totts.cwt = Rwave::cwt(ts, totnoct, nvoice, w0, plot=FALSE)
+			ts.cwt = totts.cwt[,s0log:(s0log+noctave*nvoice)]
+			#Normalization
+			sqs <- sqrt(2^(0:(noctave*nvoice)/nvoice)*s0)
+			sqres <- sweep(ts.cwt,2,sqs,'*')
+			sqres / max(Mod(sqres))
 		}
+
+		i = pair[1] ; j = pair[2]
+		if (verbose && j==i+1)
+			cat(paste("   Distances (",i,",",j,"), (",i,",",j+1,") ...\n", sep=""))
+		cwt_i <- computeCWT(i)
+		cwt_j <- computeCWT(j)
+
+#print(system.time( {
+		num <- epclustFilter(Mod(cwt_i * Conj(cwt_j)))
+		WX  <- epclustFilter(Mod(cwt_i * Conj(cwt_i)))
+		WY  <- epclustFilter(Mod(cwt_j * Conj(cwt_j)))
+		wer2 <- sum(colSums(num)^2) / sum(colSums(WX) * colSums(WY))
+		Xwer_dist[i,j] <- sqrt(delta * ncol(cwt_i) * max(1 - wer2, 0.)) #FIXME: wer2 should be < 1
+		Xwer_dist[j,i] <- Xwer_dist[i,j]
+#} ) )
 		Xwer_dist[i,i] = 0.
 	}
 
-	parll = (requireNamespace("synchronicity",quietly=TRUE)
-		&& parll && Sys.info()['sysname'] != "Windows")
 	if (parll)
-		m <- synchronicity::boost.mutex()
+	{
+		cl = parallel::makeCluster(ncores_clust)
+		synchrones_desc <- bigmemory::describe(synchrones)
+		Xwer_dist_desc <- bigmemory::describe(Xwer_dist)
+
+		parallel::clusterExport(cl, varlist=c("synchrones_desc","Xwer_dist_desc","totnoct",
+			"nvoice","w0","s0log","noctave","s0","verbose"), envir=environment())
+	}
 
 	ignored <-
 		if (parll)
-		{
-			parallel::mclapply(seq_len(n-1), computeDistancesLineI,
-				mc.cores=ncores_clust, mc.allow.recursive=FALSE)
-		}
+			parallel::parLapply(cl, pairs, computeDistancesIJ)
 		else
-			lapply(seq_len(n-1), computeDistancesLineI)
+			lapply(pairs, computeDistancesIJ)
+
+	if (parll)
+		parallel::stopCluster(cl)
+
 	Xwer_dist[n,n] = 0.
-	Xwer_dist
+	distances <- Xwer_dist[,]
+	rm(Xwer_dist) ; gc()
+	distances #~small matrix K1 x K1
 }
 
 # Helper function to divide indices into balanced sets