## ----eval=FALSE----------------------------------------------------------
## source("http://bioconductor.org/biocLite.R")
## biocLite("gdsfmt")
## ----eval=FALSE----------------------------------------------------------
## library("devtools")
## install_github("zhengxwen/gdsfmt")
## ------------------------------------------------------------------------
library(gdsfmt)
gfile <- createfn.gds("test.gds")
## ----echo=FALSE----------------------------------------------------------
set.seed(1000)
## ------------------------------------------------------------------------
add.gdsn(gfile, "int", val=1:10000)
add.gdsn(gfile, "double", val=seq(1, 1000, 0.4))
add.gdsn(gfile, "character", val=c("int", "double", "logical", "factor"))
add.gdsn(gfile, "logical", val=rep(c(TRUE, FALSE, NA), 50), visible=FALSE)
add.gdsn(gfile, "factor", val=as.factor(c(NA, "AA", "CC")), visible=FALSE)
add.gdsn(gfile, "bit2", val=sample(0:3, 1000, replace=TRUE), storage="bit2")
# list and data.frame
add.gdsn(gfile, "list", val=list(X=1:10, Y=seq(1, 10, 0.25)))
add.gdsn(gfile, "data.frame", val=data.frame(X=1:19, Y=seq(1, 10, 0.5)))
## ------------------------------------------------------------------------
folder <- addfolder.gdsn(gfile, "folder")
add.gdsn(folder, "int", val=1:1000)
add.gdsn(folder, "double", val=seq(1, 100, 0.4), visible=FALSE)
## ------------------------------------------------------------------------
gfile
## ------------------------------------------------------------------------
print(gfile, all=TRUE)
## ------------------------------------------------------------------------
index.gdsn(gfile, "int")
index.gdsn(gfile, "list/Y")
index.gdsn(gfile, "folder/int")
## ------------------------------------------------------------------------
# close the GDS file
closefn.gds(gfile)
## ------------------------------------------------------------------------
gfile <- createfn.gds("test.gds")
## ------------------------------------------------------------------------
(n <- add.gdsn(gfile, "I1", val=matrix(1:15, nrow=3)))
read.gdsn(n)
## ------------------------------------------------------------------------
write.gdsn(n, rep(0,5), start=c(2,1), count=c(1,-1))
read.gdsn(n)
## ------------------------------------------------------------------------
append.gdsn(n, 16:24)
read.gdsn(n)
## ------------------------------------------------------------------------
# initialize
n <- add.gdsn(gfile, "mat", matrix(1:48, 6))
read.gdsn(n)
# substitute
assign.gdsn(n, .value=c(9:14,35:40), .substitute=NA)
read.gdsn(n)
# subset
assign.gdsn(n, seldim=list(rep(c(TRUE, FALSE),3), rep(c(FALSE, TRUE),4)))
read.gdsn(n)
# initialize and subset
n <- add.gdsn(gfile, "mat", matrix(1:48, 6), replace=TRUE)
assign.gdsn(n, seldim=list(c(4,2,6,NA), c(5,6,NA,2,8,NA,4)))
read.gdsn(n)
# initialize and sort into descending order
n <- add.gdsn(gfile, "mat", matrix(1:48, 6), replace=TRUE)
assign.gdsn(n, seldim=list(6:1, 8:1))
read.gdsn(n)
## ------------------------------------------------------------------------
(n2 <- add.gdsn(gfile, "I2", storage="int", valdim=c(100, 2000)))
for (i in 1:2000)
{
write.gdsn(n2, seq.int(100*(i-1)+1, length.out=100),
start=c(1,i), count=c(-1,1))
}
## ------------------------------------------------------------------------
(n3 <- add.gdsn(gfile, "I3", storage="int", valdim=c(100, 0), compress="ZIP"))
for (i in 1:2000)
{
append.gdsn(n3, seq.int(100*(i-1)+1, length.out=100))
}
n3
## ------------------------------------------------------------------------
# close the GDS file
closefn.gds(gfile)
## ------------------------------------------------------------------------
gfile <- createfn.gds("test.gds")
add.gdsn(gfile, "I1", val=matrix(1:20, nrow=4))
add.gdsn(gfile, "I2", val=1:100)
closefn.gds(gfile)
## ------------------------------------------------------------------------
gfile <- openfn.gds("test.gds")
n <- index.gdsn(gfile, "I1")
read.gdsn(n)
## ------------------------------------------------------------------------
# read a subset
read.gdsn(n, start=c(2, 2), count=c(2, 3))
read.gdsn(n, start=c(2, 2), count=c(2, 3), .value=c(6,15), .substitute=NA)
## ------------------------------------------------------------------------
# read a subset
readex.gdsn(n, list(c(FALSE,TRUE,TRUE,FALSE), c(TRUE,FALSE,TRUE,FALSE,TRUE)))
readex.gdsn(n, list(c(1,4,3,NA), c(2,NA,3,1,3,1)))
readex.gdsn(n, list(c(1,4,3,NA), c(2,NA,3,1,3,1)), .value=NA, .substitute=-1)
## ------------------------------------------------------------------------
apply.gdsn(n, margin=1, FUN=print, as.is="none")
apply.gdsn(n, margin=2, FUN=print, as.is="none")
# close the GDS file
closefn.gds(gfile)
## ------------------------------------------------------------------------
gfile <- createfn.gds("test.gds")
n1 <- add.gdsn(gfile, "I1", val=1:100)
n2 <- add.gdsn(gfile, "I2", val=matrix(1:20, nrow=4))
gfile
## ------------------------------------------------------------------------
fout <- file("text.txt", "wt")
apply.gdsn(n1, 1, FUN=cat, as.is="none", file=fout, fill=TRUE)
close(fout)
scan("text.txt")
## ------------------------------------------------------------------------
fout <- file("text.txt", "wt")
apply.gdsn(n2, 1, FUN=cat, as.is="none", file=fout, fill=4194304)
close(fout)
readLines("text.txt")
## ------------------------------------------------------------------------
n.t <- add.gdsn(gfile, "transpose", storage="int", valdim=c(5,0))
# apply the function over rows of matrix
apply.gdsn(n2, margin=1, FUN=c, as.is="gdsnode", target.node=n.t)
# matrix transpose
read.gdsn(n.t)
# close the GDS file
closefn.gds(gfile)
## ------------------------------------------------------------------------
set.seed(1000)
val <- sample(seq(0,1,0.001), 50000, replace=TRUE)
head(val)
gfile <- createfn.gds("test.gds")
add.gdsn(gfile, "N1", val=val)
add.gdsn(gfile, "N2", val=val, compress="ZIP", closezip=TRUE)
add.gdsn(gfile, "N3", val=val, storage="float")
add.gdsn(gfile, "N4", val=val, storage="float", compress="ZIP", closezip=TRUE)
add.gdsn(gfile, "N5", val=val, storage="packedreal16", scale=0.001, offset=0)
add.gdsn(gfile, "N6", val=val, storage="packedreal16", scale=0.001, offset=0, compress="ZIP", closezip=TRUE)
gfile
## ----echo=FALSE----------------------------------------------------------
KB <- function(i)
{
s <- objdesp.gdsn(index.gdsn(gfile, paste("N", i, sep="")))$size
sprintf("%.1f KB", s/1000)
}
Ratio <- function(i)
{
s <- objdesp.gdsn(index.gdsn(gfile, paste("N", i, sep="")))$size
r <- 100*s / (8*length(val))
sprintf("%.1f%%", r)
}
Epsilon <- function(i)
{
ans <- mean(abs(val - read.gdsn(index.gdsn(gfile, paste0("N",i)))))
sprintf("%0.3g", ans)
}
## ------------------------------------------------------------------------
# close the GDS file
closefn.gds(gfile)
## ----eval=FALSE----------------------------------------------------------
## set.seed(100)
## # 10,000,000 random 0,1 sequence of 32-bit integers
## val <- sample.int(2, 10*1000*1000, replace=TRUE) - 1L
## table(val)
## ----eval=FALSE----------------------------------------------------------
## # cteate a GDS file
## f <- createfn.gds("test.gds")
##
## # compression algorithms
## compression <- c("", "ZIP.max", "ZIP_RA.max:16K", "LZ4.max", "LZ4_RA.max:16K")
##
## # save
## for (i in 1:length(compression))
## print(add.gdsn(f, paste0("I", i), val=val, compress=compression[i], closezip=TRUE))
##
## # close the file
## closefn.gds(f)
## ----eval=FALSE----------------------------------------------------------
## # open the GDS file
## f <- openfn.gds("test.gds")
##
## # 10,000 random positions
## set.seed(1000)
## idx <- sample.int(length(val), 10000)
##
## # enumerate each compression method
## dat <- vector("list", length(compression))
## for (i in seq_len(length(compression)))
## {
## cat("Compression:", compression[i], "\n")
## n <- index.gdsn(f, paste0("I", i))
## print(system.time({
## dat[[i]] <- sapply(idx, FUN=function(k) read.gdsn(n, start=k, count=1L))
## }))
## }
##
## # check
## for (i in seq_len(length(compression)))
## stopifnot(identical(dat[[i]], dat[[1L]]))
##
## # close the file
## closefn.gds(f)
## ------------------------------------------------------------------------
sessionInfo()
## ----echo=FALSE----------------------------------------------------------
unlink(c("test.gds", "text.txt"), force=TRUE)