computeSynchronesChunk = function(indices)
{
- ref_series = getRefSeries(indices)
- nb_series = nrow(ref_series)
-
if (parll)
{
require("bigmemory", quietly=TRUE)
- require("synchronicity", 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)
-
-#TODO: use dbs(),
- #https://www.r-bloggers.com/debugging-parallel-code-with-dbs/
- #http://gforge.se/2015/02/how-to-go-parallel-in-r-basics-tips/
-
-#OK ::
-#write(length(indices), file="TOTO")
-#write( computeMedoidsIndices(medoids@address, getRefSeries(indices[1:600])), file="TOTO")
-#stop()
-
-# write(indices, file="TOTO", ncolumns=10, append=TRUE)
-#write("medoids", file = "TOTO", ncolumns=1, append=TRUE)
-#write(medoids[1,1:3], file = "TOTO", ncolumns=1, append=TRUE)
-#write("synchrones", file = "TOTO", ncolumns=1, append=TRUE)
-#write(synchrones[1,1:3], file = "TOTO", ncolumns=1, append=TRUE)
-
-#NOT OK :: (should just be "ref_series") ...or yes ? race problems mutex then ? ?!
#get medoids indices for this chunk of series
- mi = computeMedoidsIndices(medoids@address, getRefSeries(indices[1:600])) #ref_series)
-write("MI ::::", file = "TOTO", ncolumns=1, append=TRUE)
-write(mi[1:3], file = "TOTO", ncolumns=1, append=TRUE)
-
-# #R-equivalent, requiring a matrix (thus potentially breaking "fit-in-memory" hope)
-# mat_meds = medoids[,]
-# mi = rep(NA,nb_series)
-# for (i in 1:nb_series)
-# mi[i] <- which.min( rowSums( sweep(mat_meds, 2, ref_series[i,], '-')^2 ) )
-# rm(mat_meds); gc()
+ mi = computeMedoidsIndices(medoids@address, ref_series)
for (i in seq_len(nb_series))
{
if (parll)
synchronicity::lock(m)
- synchrones[mi[i],] = synchrones[mi[i],] + ref_series[i,]
- counts[mi[i],1] = counts[mi[i],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)
}
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_desc","counts","verbose","m_desc","medoids_desc","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)
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)
+
+
+
+
n <- nrow(synchrones)
delta <- ncol(synchrones)
#TODO: automatic tune of all these parameters ? (for other users)
totnoct = noctave + as.integer(s0log/nvoice) + 1
Xwer_dist <- bigmemory::big.matrix(nrow=n, ncol=n, type="double")
- fcoefs = rep(1/3, 3) #moving average on 3 values
# 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()
- V = seq_len(n)
- for (i in 1:n)
+ 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))
{
V = V[-1]
- pairs = c(pairs, lapply(V, function(v) c(i,v)))
- }
+ pairs = c(pairs,
# Distance between rows i and j
computeDistancesIJ = function(pair)
{
- require("bigmemory", quietly=TRUE)
- require("epclust", quietly=TRUE)
- synchrones <- bigmemory::attach.big.matrix(synchrones_desc)
- Xwer_dist <- bigmemory::attach.big.matrix(Xwer_dist_desc)
-
- computeCWT = function(i)
+ if (parll)
{
- ts <- scale(ts(synchrones[i,]), center=TRUE, scale=scaled)
+ require("bigmemory", quietly=TRUE)
+ require("epclust", quietly=TRUE)
+ synchrones <- bigmemory::attach.big.matrix(synchrones_desc)
+ Xwer_dist <- bigmemory::attach.big.matrix(Xwer_dist_desc)
+ }
+
+ computeCWT = function(index)
+ {
+ 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
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)
+ 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) * (1 - wer2))
+ 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.
}
{
cl = parallel::makeCluster(ncores_clust)
synchrones_desc <- bigmemory::describe(synchrones)
- Xwer_dist_desc_desc <- bigmemory::describe(Xwer_dist)
+ 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())
projects / epclust.git / blobdiff