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R/HierHe_updated.R
In HierDpart: Partitioning Hierarchical Diversity and Differentiation Across Metrics and Scales, from Genes to Ecosystems
Defines functions
HierHe
Documented in
HierHe
HierHe=function(x, nreg, r, ncode) {
read.genepop1 <- function(file, ncode, quiet = FALSE) {
adegenet::.readExt
adegenet::.genlab
adegenet::df2genind
adegenet::is.genind
adegenet::pop
adegenet::repool
adegenet::Hs
adegenet::seppop
adegenet::popNames
if (toupper(.readExt(file)) != "GEN")
stop("File extension .gen expected")
if (!quiet)
cat("\n Converting data from a Genepop .gen file to a genind object... \n\n")
prevcall <- match.call()
txt <- scan(file, sep = "\n", what = "character", quiet = TRUE)
if (!quiet)
cat("\nFile description: ", txt[1], "\n")
txt <- txt[-1]
txt <- gsub("\t", " ", txt)
NA.char <- paste(rep("0", ncode), collapse = "")
locinfo.idx <- 1:(min(grep("POP", toupper(txt))) - 1)
locinfo <- txt[locinfo.idx]
locinfo <- paste(locinfo, collapse = ",")
loc.names <- unlist(strsplit(locinfo, "([,]|[\n])+"))
loc.names <- trimws(loc.names)
nloc <- length(loc.names)
txt <- txt[-locinfo.idx]
pop.idx <- grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))
npop <- length(pop.idx)
nocomma <- which(!(1:length(txt)) %in% grep(",", txt))
splited <- nocomma[which(!nocomma %in% pop.idx)]
if (length(splited) > 0) {
for (i in sort(splited, decreasing = TRUE)) {
txt[i - 1] <- paste(txt[i - 1], txt[i], sep = " ")
}
txt <- txt[-splited]
}
pop.idx <- grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))
txt[length(txt) + 1] <- "POP"
nind.bypop <- diff(grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))) - 1
pop <- factor(rep(1:npop, nind.bypop))
txt <- txt[-c(pop.idx, length(txt))]
temp <- sapply(1:length(txt), function(i) strsplit(txt[i], ","))
ind.names <- vapply(temp, function(e) e[1], character(1))
ind.names <- trimws(ind.names)
vec.genot <- vapply(temp, function(e) e[2], character(1))
vec.genot <- trimws(vec.genot)
X <- matrix(unlist(strsplit(vec.genot, "[[:space:]]+")), ncol = nloc, byrow = TRUE)
if (any(duplicated(ind.names))) {
rownames(X) <- .genlab("", nrow(X))
} else {
rownames(X) <- ind.names
}
colnames(X) <- loc.names
pop.names.idx <- cumsum(table(pop))
pop.names <- ind.names[pop.names.idx]
levels(pop) <- pop.names
if (!all(unique(nchar(X)) == (ncode * 2)))
stop(paste("some alleles are not encoded with", ncode, "characters\nCheck 'ncode' argument"))
res <- df2genind(X = X, pop = as.character(pop), ploidy = 2, ncode = ncode, NA.char = NA.char)
res@call <- prevcall
if (!quiet)
cat("\n...done.\n\n")
return(res)
}
genfiles = read.genepop1(x, ncode, quiet = TRUE) # covert the genepop #files to genind files, we can also use read.genpop from adegent package
hierfstat::genind2hierfstat
hfiles <- genind2hierfstat(genfiles) # convert into hieformat
## Here we add our hierchical information (regions-pops) to the data
# require("dplyr")
npops = length(levels(genfiles$pop))
nloci = length(levels(genfiles$loc.fac))
sampsize = summary(genfiles$pop) ## sample size
if (length(r) != nreg)
stop("Number of regions should be equal to the number defined in the level") ## number of pops per region
if (sum(r) != npops)
stop("Number of pops should be equal to the number defined in level")
rsample = list()
for (i in 1:nreg) {
rsample[[i]] = sum(sampsize[(sum(head(r, i - 1)) + 1):(sum(head(r, i)))])
}
rsample = as.data.frame(rsample)
rsample = as.numeric(unlist(rsample))
region = list()
hierHr = list()
hierHrperloc = list()
for (i in seq_along(r)) {
region[[i]] = list()
region[[i]] = hfiles[(sum(head(rsample, i - 1)) + 1):(sum(head(rsample, i))), ]
region[[i]]$pop = factor(region[[i]]$pop)
hierHr[[i]] = list()
hierHrperloc[[i]] = list()
hierHr[[i]] = t(basic.stats(region[[i]], diploid = TRUE, digits = 4)$overall)
hierHrperloc[[i]] = basic.stats(region[[i]], diploid = TRUE, digits = 4)$perloc
}
Hrperloc = matrix(data = 0, ncol = nreg, nrow = nloci)
for (j in seq(hierHrperloc)) {
Hrperloc[, j] = hierHrperloc[[j]]$Ht
}
HierHr_T = t(basic.stats(hfiles, diploid = TRUE, digits = 4)$overall)
HierHr_Tperloc = basic.stats(hfiles, diploid = TRUE, digits = 4)$perloc
Hallperloc = cbind(HierHr_Tperloc$Ht, Hrperloc, HierHr_Tperloc$Hs)
colnames(Hallperloc) = c("Ht", paste("Hr", 1:nreg), "Hp")
rownames(Hallperloc) = c(paste("Locus", 1:nloci))
hierHr = do.call(rbind, lapply(hierHr, data.frame))
Hr = colMeans(hierHr)
Hr = as.array(Hr)
HierHr_T = as.data.frame(HierHr_T)
HieHr = cbind(HierHr_T$Ht, Hr[3], HierHr_T$Hs)
colnames(HieHr) = c("Ht", "Hr", "Hp")
rownames(HieHr) = NULL
return(list(HierHe_perloc = Hallperloc,HierHr=hierHr, Hrperloc=Hrperloc,HieHr_overall = HieHr))
}
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HierDpart documentation built on March 31, 2021, 5:09 p.m.
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Defines functions HierHe
Documented in HierHe
HierHe=function(x, nreg, r, ncode) {
read.genepop1 <- function(file, ncode, quiet = FALSE) {
adegenet::.readExt
adegenet::.genlab
adegenet::df2genind
adegenet::is.genind
adegenet::pop
adegenet::repool
adegenet::Hs
adegenet::seppop
adegenet::popNames
if (toupper(.readExt(file)) != "GEN")
stop("File extension .gen expected")
if (!quiet)
cat("\n Converting data from a Genepop .gen file to a genind object... \n\n")
prevcall <- match.call()
txt <- scan(file, sep = "\n", what = "character", quiet = TRUE)
if (!quiet)
cat("\nFile description: ", txt[1], "\n")
txt <- txt[-1]
txt <- gsub("\t", " ", txt)
NA.char <- paste(rep("0", ncode), collapse = "")
locinfo.idx <- 1:(min(grep("POP", toupper(txt))) - 1)
locinfo <- txt[locinfo.idx]
locinfo <- paste(locinfo, collapse = ",")
loc.names <- unlist(strsplit(locinfo, "([,]|[\n])+"))
loc.names <- trimws(loc.names)
nloc <- length(loc.names)
txt <- txt[-locinfo.idx]
pop.idx <- grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))
npop <- length(pop.idx)
nocomma <- which(!(1:length(txt)) %in% grep(",", txt))
splited <- nocomma[which(!nocomma %in% pop.idx)]
if (length(splited) > 0) {
for (i in sort(splited, decreasing = TRUE)) {
txt[i - 1] <- paste(txt[i - 1], txt[i], sep = " ")
}
txt <- txt[-splited]
}
pop.idx <- grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))
txt[length(txt) + 1] <- "POP"
nind.bypop <- diff(grep("^([[:space:]]*)POP([[:space:]]*)$", toupper(txt))) - 1
pop <- factor(rep(1:npop, nind.bypop))
txt <- txt[-c(pop.idx, length(txt))]
temp <- sapply(1:length(txt), function(i) strsplit(txt[i], ","))
ind.names <- vapply(temp, function(e) e[1], character(1))
ind.names <- trimws(ind.names)
vec.genot <- vapply(temp, function(e) e[2], character(1))
vec.genot <- trimws(vec.genot)
X <- matrix(unlist(strsplit(vec.genot, "[[:space:]]+")), ncol = nloc, byrow = TRUE)
if (any(duplicated(ind.names))) {
rownames(X) <- .genlab("", nrow(X))
} else {
rownames(X) <- ind.names
}
colnames(X) <- loc.names
pop.names.idx <- cumsum(table(pop))
pop.names <- ind.names[pop.names.idx]
levels(pop) <- pop.names
if (!all(unique(nchar(X)) == (ncode * 2)))
stop(paste("some alleles are not encoded with", ncode, "characters\nCheck 'ncode' argument"))
res <- df2genind(X = X, pop = as.character(pop), ploidy = 2, ncode = ncode, NA.char = NA.char)
res@call <- prevcall
if (!quiet)
cat("\n...done.\n\n")
return(res)
}
genfiles = read.genepop1(x, ncode, quiet = TRUE) # covert the genepop #files to genind files, we can also use read.genpop from adegent package
hierfstat::genind2hierfstat
hfiles <- genind2hierfstat(genfiles) # convert into hieformat
## Here we add our hierchical information (regions-pops) to the data
# require("dplyr")
npops = length(levels(genfiles$pop))
nloci = length(levels(genfiles$loc.fac))
sampsize = summary(genfiles$pop) ## sample size
if (length(r) != nreg)
stop("Number of regions should be equal to the number defined in the level") ## number of pops per region
if (sum(r) != npops)
stop("Number of pops should be equal to the number defined in level")
rsample = list()
for (i in 1:nreg) {
rsample[[i]] = sum(sampsize[(sum(head(r, i - 1)) + 1):(sum(head(r, i)))])
}
rsample = as.data.frame(rsample)
rsample = as.numeric(unlist(rsample))
region = list()
hierHr = list()
hierHrperloc = list()
for (i in seq_along(r)) {
region[[i]] = list()
region[[i]] = hfiles[(sum(head(rsample, i - 1)) + 1):(sum(head(rsample, i))), ]
region[[i]]$pop = factor(region[[i]]$pop)
hierHr[[i]] = list()
hierHrperloc[[i]] = list()
hierHr[[i]] = t(basic.stats(region[[i]], diploid = TRUE, digits = 4)$overall)
hierHrperloc[[i]] = basic.stats(region[[i]], diploid = TRUE, digits = 4)$perloc
}
Hrperloc = matrix(data = 0, ncol = nreg, nrow = nloci)
for (j in seq(hierHrperloc)) {
Hrperloc[, j] = hierHrperloc[[j]]$Ht
}
HierHr_T = t(basic.stats(hfiles, diploid = TRUE, digits = 4)$overall)
HierHr_Tperloc = basic.stats(hfiles, diploid = TRUE, digits = 4)$perloc
Hallperloc = cbind(HierHr_Tperloc$Ht, Hrperloc, HierHr_Tperloc$Hs)
colnames(Hallperloc) = c("Ht", paste("Hr", 1:nreg), "Hp")
rownames(Hallperloc) = c(paste("Locus", 1:nloci))
hierHr = do.call(rbind, lapply(hierHr, data.frame))
Hr = colMeans(hierHr)
Hr = as.array(Hr)
HierHr_T = as.data.frame(HierHr_T)
HieHr = cbind(HierHr_T$Ht, Hr[3], HierHr_T$Hs)
colnames(HieHr) = c("Ht", "Hr", "Hp")
rownames(HieHr) = NULL
return(list(HierHe_perloc = Hallperloc,HierHr=hierHr, Hrperloc=Hrperloc,HieHr_overall = HieHr))
}
Try the HierDpart package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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