R/survBootOutliers.R

# source("R/getwhas100dataset.R")
# source('R/bootstraps_p.R')
# source("R/coxfit.R")
# source("R/wod_4_p.R")
# source("R/wod_6.R")
# source("R/wod_coxdevianceresiduals.R")
# source("R/wod_coxld.R")
# source("R/wod_coxmartingaleresiduals.R")
# source("R/dbht_p.R")
# source("R/paod_t_onesided.R")
#' Extract the most outlying observations following a criteria based on the bootstrapped concordance with parallel processing
#' @param surv.object An obect of type survival::Surv containing lifetimes and right-censoring status
#' @param covariate.data A data frame containing the data with covariate values for each individual
#' @param sod.method One of c("osd","bht","dbht","ld","martingale","deviance")
#' @param B The number of bootstrap samples generated only applicable for "bht" and "dbht" methods. 
#'   Typically at least 10x the size of the dataset, ideally should be increased until convergence.
#' @param B.N the number of observations in each bootstrap sample
#' @param max.outliers This parameter is only used for the "osd" method   
#' @param parallel.param (Optional) A BiocParallel object, examples: SerialParam(), MulticoreParam()
#' 
#' @return For all methods except for "bht" and "dbht" the value returned is a data.frame containing the most outlying observations sorted by outlying score.
#'         For the "bht" method the value returned is a list of two members: 
#'             "outlier_set": the most outlygin observations sorted by p-values; 
#'             "histograms": histogram of concordance variation for each observation.
#'         For the "dbht" method the value returned is a list of two members: 
#'             "outlier_set": the most outlygin observations sorted by p-values;
#'            "histograms": histogrms of concordance for each observations for the two types of bootstap: "poison" and "antidote".
#' 
#' @examples ## One Step Deletion "osd" method
#' \donttest{
#' whas <- get.whas100.dataset()
#' print( getwd() )
#' outliers_osd <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "osd", 
#'    max.outliers = 5
#'  )
#' }
#' 
#' @examples ## Bootstrap Hypothesis Test "bht" with 1000 bootstrap samples, 
#' ## each with 100 individuals, running without parallelism.
#' \donttest{  
#' whas <- get.whas100.dataset()
#' outliers_bht <- survBootOutliers( 
#'      surv.object=Surv(time = whas$times,event = whas$status ), 
#'      covariate.data = whas[,2:5], 
#'      sod.method = "bht", 
#'      B = 1000, 
#'      B.N = 100,
#'      parallel.param = BiocParallel::MulticoreParam() 
#' )
#' }
#' 
#' @examples ## Dual Bootstrap Hypothesis Test "dbht" with 1000 bootstrap samples,
#' ## each with 50 individuals and running on all available cores.
#' \donttest{ whas <- get.whas100.dataset()
#' outliers_dbht <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "dbht",
#'    B = 1000, 
#'    B.N = 50,
#'    parallel.param = BiocParallel::MulticoreParam() 
#' )
#' }
#' @examples ## One Step Deletion "osd" with an amount of 10 for maximum outlier count
#' whas <- get.whas100.dataset()
#' outliers_osd <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "osd", 
#'    max.outliers = 10
#' )
#' 
#' @examples ## Likelihood displacement criterion for outlier ranking
#' whas <- get.whas100.dataset()
#' outliers_ld <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "ld"
#' )
#' 
#' @examples ## Cox regression deviance residuals criterion for outlier ranking
#' whas <- get.whas100.dataset()
#' outliers_deviance <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "deviance"
#' )
#' 
#' @examples ## Cox regression Martingale residuals criterion for outlier ranking
#' whas <- get.whas100.dataset()
#' outliers_martingale <- survBootOutliers( 
#'    surv.object=Surv(time = whas$times,event = whas$status ), 
#'    covariate.data = whas[,2:5], 
#'    sod.method = "martingale"
#' )
#'
#' @import survival
#' @import stats
#' @export
survBootOutliers <- function(surv.object, covariate.data, sod.method, B, B.N=NULL, max.outliers, parallel.param=NULL ){
  
  ## load library dependencies
  #library(stats)
  #library(survival)
  
  if( requireNamespace("BiocParallel", quietly = TRUE) ){
    #library(BiocParallel);
    HAS_BIOCPARALLEL = TRUE;
    print("BiocParallel detected")
  } else {
    HAS_BIOCPARALLEL = FALSE;
  }
  
  if( ! survival::is.Surv(surv.object) ){
    
    stop("Parameter \"surv.object\" must be an object of type \"survival::Surv\" ")
  }
  
  if(  (sod.method=="bht" || sod.method=="dbht") &&  is.null(B.N) ){
    B.N=nrow(covariate.data)
  }
  
  if(  (sod.method=="bht" || sod.method=="dbht") &&  B.N > nrow(covariate.data) ){
    stop("Parameter \"B.N\" cannot be larger than the number of available observations.")
  }
  
  if( ! base::is.data.frame(covariate.data) ){
    
    stop("Parameter \"covariate.data\" must be of type \"data.frame\".")
  } 
  
  if( is.null(parallel.param)==FALSE &&  methods::is(parallel.param,"BiocParallelParam")==FALSE ){
    stop("Parameter \"parallel.param\" must be of type \"BiocParallelParam\".")
  }
  
  # obtain the number of records (individuals)
  N <- attr(surv.object,"dim")[1]
  t <- surv.object[1:N,1]
  s <- surv.object[1:N,2]

  if( sod.method=="osd" ){
    outlier_set <- wod_6( surv.object = surv.object , covariate.data = covariate.data,  max_outliers = max.outliers )
    return( outlier_set)
  }
  
  if( sod.method=="bht" ){  
      
    if(HAS_BIOCPARALLEL && is.null(parallel.param)==FALSE  ){
      bht_output <- BiocParallel::bplapply(X = 1:N,FUN = wod_4_p, s=surv.object, covariate.data=covariate.data, B=B , B.N=B.N,  BPPARAM = parallel.param )
    }  else {
      bht_output <- lapply(X = 1:N,FUN = wod_4_p, s=surv.object, covariate.data=covariate.data, B=B , B.N=B.N )
    }
    ## extract metrics and histograms
    outlier_set <- mapply( function(list){ return(list["metrics"]) } , list=bht_output )
    histograms <- mapply( function(list){ return(list["histogram"]) } , list=bht_output )
    
    ## unlist to matrix and sort by pvalue
    outlier_set_flat <-  matrix(unlist(outlier_set), ncol = 4, byrow = TRUE) 
    colnames(outlier_set_flat) <- c("obs_id","avg_delta","max_delta","pvalue")
    set_sorted  <- outlier_set_flat[order(outlier_set_flat[,4]),] 
    
    combined_output <- list(set_sorted,histograms)
    names(combined_output) <- c("outlier_set","histograms")
  
    return(combined_output)
  }

  if(sod.method=="dbht" ){    
    
    if(HAS_BIOCPARALLEL && is.null(parallel.param)==FALSE   ){
      dbht_out <- BiocParallel::bplapply(X = 1:N, FUN=dbht_p, s=surv.object ,covariate.data = covariate.data , B=B, B.N=B.N, BPPARAM = parallel.param )
    }
    else {
      dbht_out <- lapply(X = 1:N, FUN=dbht_p, s=surv.object ,covariate.data = covariate.data , B=B, B.N=B.N);
    }
    ## extract metrics and histograms
    outlier_set <- mapply( function(list){ return(list["metrics"]) } , list=dbht_out )
    histograms <- mapply( function(list){ return(list["histograms"]) } , list=dbht_out )
  
    outlier_set_flat <-  matrix(unlist(outlier_set), ncol = 2, byrow = TRUE) 
    colnames(outlier_set_flat) <- c("obs_id","pvalue")
    set_sorted  <- outlier_set_flat[order(outlier_set_flat[,2]),]
    
    combined_output <- list(set_sorted,histograms)
    names(combined_output) <- c("outlier_set","histograms")
    
    return(combined_output)
  }

  if( sod.method=="ld" ){
    outlier_set <- wod_coxld(surv.object = surv.object , covariate.data = covariate.data)
    return(outlier_set)
    
  }
  
  if( sod.method=="martingale"){
    outlier_set <- wod_coxmartingaleresiduals(surv.object = surv.object , covariate.data = covariate.data)
    return(outlier_set)
  }
  
  if( sod.method=="deviance"){
    outlier_set <- wod_coxdevianceresiduals(surv.object = surv.object , covariate.data = covariate.data)
    return(outlier_set)
  }
  
  stop("Parameter \"sod.method\" must be one of c(\"osd\",\"bht\",\"dbht\",\"ld\",\"martingale\",\"deviance\") ")
  
}

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survBootOutliers documentation built on May 2, 2019, 8:44 a.m.