R/fsc.run.R

Defines functions fsc.write fsc.run

Documented in fsc.run fsc.write

#' @name fsc.run
#' @title Run fastsimcoal
#' @description Run fastsimcoal
#'
#' @param params a \linkS4class{skeleSim.params} object.
#'
#' @return a modified \linkS4class{skeleSim.params} object with the results of
#'   a fastsimcoal run.
#'
#' @importFrom strataG fastsimcoal fscPopInfo fscLocusParams fscWrite
#' @export
#'
fsc.run <- function(params) {
  label <- currentLabel(params)
  sc <- currentScenario(params)
  # print("mutation rate in sc")
  # print([email protected])

  # Check that folder is empty
  if(file.exists(params@wd)) for(f in dir(label, full.names = T)) file.remove(f)

  i <- which(c("DNA", "MICROSAT") == sc@simulator.params@locus.params[1, 1])
  locus.type <- c("dna", "msat", "snp")[i]

  lprm <- fscLocusParams(
    locus.type = locus.type,
    num.loci = 1,
    mut.rate = as.numeric(as.character(sc@simulator.params@locus.params[, 4])),
    chromosome = 1:dim(sc@simulator.params@locus.params)[1],
    sequence.length = sc@simulator.params@locus.params[, 2]
  )
  attr(lprm, "ploidy") = ifelse(sc@locus.type == "sequence", 1, 2)

  params@rep.sample <- fastsimcoal(
    pop.info = fscPopInfo(
      pop.size = sc@pop.size,
      sample.size = sc@sample.size,
      sample.times = sc@simulator.params@sample.times,
      growth.rate = sc@simulator.params@growth.rate
    ),
    locus.params = lprm,
    mig.rates = sc@migration,
    hist.ev = sc@simulator.params@hist.ev,
    label = label,
    quiet = params@quiet,
    exec = sc@simulator.params@fastsimcoal.exec,
    num.cores = 1
  )

  return(params)
}


#' @name fsc.write
#' @title Write fastsimcoal files
#' @description Run fastsimcoal
#'
#' @param params a \linkS4class{skeleSim.params} object.
#'
#' @return a modified \linkS4class{skeleSim.params} object with the results of
#'   a fastsimcoal run.
#'
#' @export
#'
fsc.write <- function(params) {
  numsc <- length(params@scenarios)
  for (s in 1:numsc) {
    params@current.scenario <- s
    sc <- currentScenario(params)
    label <- paste0(currentLabel(params), "-", s)
    # Check that folder is empty
    if(file.exists(params@wd)) for(f in dir(label, full.names = T)) file.remove(f)

    i <- which(c("DNA", "MICROSAT") == sc@simulator.params@locus.params[1, 1])
    locus.type <- c("dna", "msat", "snp")[i]

    tmp <- fscWrite(
      pop.info = fscPopInfo(
        pop.size = sc@pop.size,
        sample.size = sc@sample.size,
        sample.times = sc@simulator.params@sample.times,
        growth.rate = sc@simulator.params@growth.rate
      ),
      locus.params = fscLocusParams(
        locus.type = locus.type,num.loci=1,
        mut.rate = sc@simulator.params@locus.params[,4],
        chromosome = 1:dim(sc@simulator.params@locus.params)[1],
        sequence.length = ifelse(locus.type == "dna", sc@sequence.length, NULL)
      ),
      mig.rates = sc@migration,
      hist.ev = sc@simulator.params@hist.ev,
      label = label
    )
  }
}

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skeleSim documentation built on Nov. 28, 2017, 1:05 a.m.