Nothing
R/crossvalidateODE.R
In CNORode: ODE add-on to CellNOptR
Defines functions
crossvalidateODE
Documented in
crossvalidateODE
#' ## Crossvalidation study
#' crossvalidate
#'
#' k-fold crossvalidation for Boolean model
#'
#' Does a k-fold cross-validation for Boolean CellNOpt models. In k-iterations a
#' fraction of the data is eliminated from the CNOlist. The model is trained on the
#' remaining data and then the model predicts the held-out data. Then the prediction
#' accuracy is reported for each iteration.
#'
#' @param CNOlist Cnolist which contains all the experiments
#' @param model a model prepared for the training
#' @param nfolds number of folds - default is 10. Although nfolds can be as large as the sample size (leave-one-out CV),
#' it is not recommended for large datasets.
#' @param foldid an optional vector of values between `1` and `nfold` identifying what fold each observation is in. If supplied, `nfold` can be missing.
#' @param type define the way to do the crossvalidation. The default is
#' `type="datapoint"`, which assigns the data randomly into folds.
#' The option `type="experiment"` uses whole experiments for crossvalidation
#' (all data corresponding to a cue combination). The `type=observable` uses the
#' subset of nodes across all experiments for crossvalidation.
#' @param ... further arguments are passed to parEstimationLBode
#' @seealso \link{\code{parEstimationLBode}}
crossvalidateODE = function(CNOlist, model, nfolds=10, foldid=NULL, type='datapoint', parallel=FALSE, ode_parameters=NULL, paramsSSm=NULL, method = "essm", ...){
if ((class(CNOlist)=="CNOlist")==FALSE){
CNOlist = CellNOptR::CNOlist(CNOlist)
}
crossvalidate.call = match.call(expand.dots = TRUE)
if(!(type%in%c('datapoint','experiment','observable'))){
error("Wrong argument for type. It should either be 'datapoint', 'experiment' or 'observable'")
} else {
if(type=='datapoint'){
N = prod(dim(CNOlist@signals[[1]]))
}else if(type=='experiment'){
N = nrow(CNOlist@signals[[1]])
}else if(type=="observable"){
N = ncol(CNOlist@signals[[1]])
}
}
if (is.null(foldid)){
foldid = sample(rep(seq(nfolds), length = N))
} else {
nfolds = max(foldid)
}
outlist = as.list(seq(nfolds))
if (parallel) {
require(doParallel)
outlist = foreach(i = seq(nfolds), .packages = c("CNORode")) %dopar%
{
whichI = foldid == i
CNOlist.sub = CNOlist
CNOlist.cv = CNOlist
if(type=='datapoint'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI] = NA
CNOlist.cv@signals[[timeIndex]][!whichI] = NA
}
}else if(type=='experiment'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI,] = NA
CNOlist.cv@signals[[timeIndex]][!whichI,] = NA
}
}else if(type=="observable"){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][,whichI] = NA
CNOlist.cv@signals[[timeIndex]][,!whichI] = NA
}
}
if(is.null(ode_parameters)){
ode_parameters=createLBodeContPars(model, LB_n = 1, LB_k = 0,
LB_tau = 0, UB_n = 4, UB_k = 1, UB_tau = 1, default_n = 3,
default_k = 0.5, default_tau = 0.01, opt_n = FALSE, opt_k = TRUE,
opt_tau = TRUE, random = TRUE)
}
if(is.null(paramsSSm)){
paramsSSm=defaultParametersSSm()
paramsSSm$local_solver = "DHC"
paramsSSm$maxtime = 600;
paramsSSm$maxeval = Inf;
paramsSSm$atol=1e-6;
paramsSSm$reltol=1e-6;
paramsSSm$nan_fac=0;
paramsSSm$dim_refset=30;
paramsSSm$n_diverse=1000;
paramsSSm$maxStepSize=Inf;
paramsSSm$maxNumSteps=10000;
transferFun=4;
paramsSSm$transfer_function = transferFun;
paramsSSm$lambda_tau=0
paramsSSm$lambda_k=0
paramsSSm$bootstrap=F
paramsSSm$SSpenalty_fac=10
paramsSSm$SScontrolPenalty_fac=1000
}
outlist = list()
res = parEstimationLBode(cnolist = CNOlist.sub, model = model, ode_parameters = ode_parameters, method = method, paramsSSm = paramsSSm)
outlist$fit = res
outlist$cvScore = res$ssm_results$fbest
outlist
}
}
else {
cat("fold \t fitScore \t cvScore \t nTolModels \t bString\n")
for (i in seq(nfolds)) {
whichI = foldid == i
CNOlist.sub = CNOlist
CNOlist.cv = CNOlist
if(type=='datapoint'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI] = NA
CNOlist.cv@signals[[timeIndex]][!whichI] = NA
}
}else if(type=='experiment'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI,] = NA
CNOlist.cv@signals[[timeIndex]][!whichI,] = NA
}
}else if(type=="observable"){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][,whichI] = NA
CNOlist.cv@signals[[timeIndex]][,!whichI] = NA
}
}
if(is.null(ode_parameters)){
ode_parameters=createLBodeContPars(model, LB_n = 1, LB_k = 0,
LB_tau = 0, UB_n = 4, UB_k = 1, UB_tau = 1, default_n = 3,
default_k = 0.5, default_tau = 0.01, opt_n = FALSE, opt_k = TRUE,
opt_tau = TRUE, random = TRUE)
}
if(is.null(paramsSSm)){
paramsSSm=defaultParametersSSm()
paramsSSm$local_solver = "DHC"
paramsSSm$maxtime = 600;
paramsSSm$maxeval = Inf;
paramsSSm$atol=1e-6;
paramsSSm$reltol=1e-6;
paramsSSm$nan_fac=1000;
paramsSSm$dim_refset=30;
paramsSSm$n_diverse=1000;
paramsSSm$maxStepSize=Inf;
paramsSSm$maxNumSteps=10000;
transferFun=4;
paramsSSm$transfer_function = transferFun;
paramsSSm$lambda_tau=0
paramsSSm$lambda_k=0
paramsSSm$bootstrap=F
paramsSSm$SSpenalty_fac=10
paramsSSm$SScontrolPenalty_fac=1000
}
res = parEstimationLBode(cnolist = CNOlist.sub, model = model, ode_parameters = ode_parameters, method = method, paramsSSm = paramsSSm)
outlist[[i]] = list()
outlist[[i]]$fit = res
outlist[[i]]$cvScore = res$ssm_results$fbest
}
}
return(outlist)
}
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Defines functions crossvalidateODE
Documented in crossvalidateODE
#' ## Crossvalidation study
#' crossvalidate
#'
#' k-fold crossvalidation for Boolean model
#'
#' Does a k-fold cross-validation for Boolean CellNOpt models. In k-iterations a
#' fraction of the data is eliminated from the CNOlist. The model is trained on the
#' remaining data and then the model predicts the held-out data. Then the prediction
#' accuracy is reported for each iteration.
#'
#' @param CNOlist Cnolist which contains all the experiments
#' @param model a model prepared for the training
#' @param nfolds number of folds - default is 10. Although nfolds can be as large as the sample size (leave-one-out CV),
#' it is not recommended for large datasets.
#' @param foldid an optional vector of values between `1` and `nfold` identifying what fold each observation is in. If supplied, `nfold` can be missing.
#' @param type define the way to do the crossvalidation. The default is
#' `type="datapoint"`, which assigns the data randomly into folds.
#' The option `type="experiment"` uses whole experiments for crossvalidation
#' (all data corresponding to a cue combination). The `type=observable` uses the
#' subset of nodes across all experiments for crossvalidation.
#' @param ... further arguments are passed to parEstimationLBode
#' @seealso \link{\code{parEstimationLBode}}
crossvalidateODE = function(CNOlist, model, nfolds=10, foldid=NULL, type='datapoint', parallel=FALSE, ode_parameters=NULL, paramsSSm=NULL, method = "essm", ...){
if ((class(CNOlist)=="CNOlist")==FALSE){
CNOlist = CellNOptR::CNOlist(CNOlist)
}
crossvalidate.call = match.call(expand.dots = TRUE)
if(!(type%in%c('datapoint','experiment','observable'))){
error("Wrong argument for type. It should either be 'datapoint', 'experiment' or 'observable'")
} else {
if(type=='datapoint'){
N = prod(dim(CNOlist@signals[[1]]))
}else if(type=='experiment'){
N = nrow(CNOlist@signals[[1]])
}else if(type=="observable"){
N = ncol(CNOlist@signals[[1]])
}
}
if (is.null(foldid)){
foldid = sample(rep(seq(nfolds), length = N))
} else {
nfolds = max(foldid)
}
outlist = as.list(seq(nfolds))
if (parallel) {
require(doParallel)
outlist = foreach(i = seq(nfolds), .packages = c("CNORode")) %dopar%
{
whichI = foldid == i
CNOlist.sub = CNOlist
CNOlist.cv = CNOlist
if(type=='datapoint'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI] = NA
CNOlist.cv@signals[[timeIndex]][!whichI] = NA
}
}else if(type=='experiment'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI,] = NA
CNOlist.cv@signals[[timeIndex]][!whichI,] = NA
}
}else if(type=="observable"){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][,whichI] = NA
CNOlist.cv@signals[[timeIndex]][,!whichI] = NA
}
}
if(is.null(ode_parameters)){
ode_parameters=createLBodeContPars(model, LB_n = 1, LB_k = 0,
LB_tau = 0, UB_n = 4, UB_k = 1, UB_tau = 1, default_n = 3,
default_k = 0.5, default_tau = 0.01, opt_n = FALSE, opt_k = TRUE,
opt_tau = TRUE, random = TRUE)
}
if(is.null(paramsSSm)){
paramsSSm=defaultParametersSSm()
paramsSSm$local_solver = "DHC"
paramsSSm$maxtime = 600;
paramsSSm$maxeval = Inf;
paramsSSm$atol=1e-6;
paramsSSm$reltol=1e-6;
paramsSSm$nan_fac=0;
paramsSSm$dim_refset=30;
paramsSSm$n_diverse=1000;
paramsSSm$maxStepSize=Inf;
paramsSSm$maxNumSteps=10000;
transferFun=4;
paramsSSm$transfer_function = transferFun;
paramsSSm$lambda_tau=0
paramsSSm$lambda_k=0
paramsSSm$bootstrap=F
paramsSSm$SSpenalty_fac=10
paramsSSm$SScontrolPenalty_fac=1000
}
outlist = list()
res = parEstimationLBode(cnolist = CNOlist.sub, model = model, ode_parameters = ode_parameters, method = method, paramsSSm = paramsSSm)
outlist$fit = res
outlist$cvScore = res$ssm_results$fbest
outlist
}
}
else {
cat("fold \t fitScore \t cvScore \t nTolModels \t bString\n")
for (i in seq(nfolds)) {
whichI = foldid == i
CNOlist.sub = CNOlist
CNOlist.cv = CNOlist
if(type=='datapoint'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI] = NA
CNOlist.cv@signals[[timeIndex]][!whichI] = NA
}
}else if(type=='experiment'){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][whichI,] = NA
CNOlist.cv@signals[[timeIndex]][!whichI,] = NA
}
}else if(type=="observable"){
for(timeIndex in 1:length(CNOlist@timepoints)){
CNOlist.sub@signals[[timeIndex]][,whichI] = NA
CNOlist.cv@signals[[timeIndex]][,!whichI] = NA
}
}
if(is.null(ode_parameters)){
ode_parameters=createLBodeContPars(model, LB_n = 1, LB_k = 0,
LB_tau = 0, UB_n = 4, UB_k = 1, UB_tau = 1, default_n = 3,
default_k = 0.5, default_tau = 0.01, opt_n = FALSE, opt_k = TRUE,
opt_tau = TRUE, random = TRUE)
}
if(is.null(paramsSSm)){
paramsSSm=defaultParametersSSm()
paramsSSm$local_solver = "DHC"
paramsSSm$maxtime = 600;
paramsSSm$maxeval = Inf;
paramsSSm$atol=1e-6;
paramsSSm$reltol=1e-6;
paramsSSm$nan_fac=1000;
paramsSSm$dim_refset=30;
paramsSSm$n_diverse=1000;
paramsSSm$maxStepSize=Inf;
paramsSSm$maxNumSteps=10000;
transferFun=4;
paramsSSm$transfer_function = transferFun;
paramsSSm$lambda_tau=0
paramsSSm$lambda_k=0
paramsSSm$bootstrap=F
paramsSSm$SSpenalty_fac=10
paramsSSm$SScontrolPenalty_fac=1000
}
res = parEstimationLBode(cnolist = CNOlist.sub, model = model, ode_parameters = ode_parameters, method = method, paramsSSm = paramsSSm)
outlist[[i]] = list()
outlist[[i]]$fit = res
outlist[[i]]$cvScore = res$ssm_results$fbest
}
}
return(outlist)
}
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