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##### Maxent content
output$ui_MaxEnt<-renderUI({
# Specdata<-reactive({
# dsf<-load.occ$select
# dsf<-dsf %>% dplyr::rename(lon=load.occ$lon,lat=load.occ$lat)
# dsf
# })
#
# Specdata_Presence<-reactive({
# dsf<-Specdata()
# dsf<-dsf[dsf[,ncol(dsf)] == 1,]
# sp::coordinates(dsf) <-~lon+lat
# sp::proj4string(dsf) <-raster::crs(data$Env)
# dsf
# })
#
# glc<-reactive({
# GLcenfa(x = data$Env)
# })
#
# mod.enfa<-reactive({
# pr<-Specdata_Presence()
# pr@data$load.occ$spec_select<-as.numeric(pr@data$load.occ$spec_select)
# CENFA::enfa(x = data$Env, s.dat = pr, field = load.occ$spec_select)
# })
# enfa_plot<-reactive({
# glc <- glc()
#
# mod.enfa <- mod.enfa()
# CENFA::scatter(x = mod.enfa, y = glc,n=nlayers(data$Env),p=1)
# })
output$enfa_var_Maxent<-renderPlot({
glc <- glc()
mod.enfa <- mod.enfa()
CENFA::scatter(x = mod.enfa,y = glc,n=nlayers(data$Env),p=1)
})
observeEvent(input$MaxEnt,{
validate(
need(length(input$var_expl) > 0, 'Choose specie predictors first !')
)
data$enfa<-raster::subset(data$Env,input$var_expl)
Specdata<-Specdata()
set.seed(1994)
fold<-dismo::kfold(Specdata,input$number_no_block_fold)
#fold<-kfold()
model<-list()
evaluate_model<-list()
for (i in 1:input$number_no_block_fold) {
p<-Specdata[Specdata[fold != i,ncol(Specdata)] == 1, 1:(ncol(Specdata)-1)]
a<-Specdata[Specdata[fold != i,ncol(Specdata)] == 0, 1:(ncol(Specdata)-1)]
#test<-Specdata[fold == i, ]
occtest<-Specdata[Specdata[fold == i,ncol(Specdata)] == 1, 1:(ncol(Specdata)-1)]
bgtest<-Specdata[Specdata[fold == i,ncol(Specdata)] == 0, 1:(ncol(Specdata)-1)]
model[[i]] <- dismo::maxent(data$enfa, p, a) #, factors='Sol'
evaluate_model[[i]] <- dismo::evaluate(occtest, bgtest, model[[i]], data$enfa)
}
model_pred<-list()
auc <- sapply(evaluate_model, function(x){x@auc})
model_pred[["espece"]]<-predict(data$enfa, model[[which.max(auc)]])
model_pred[["AUC"]]<-auc[which.max(auc)]
model_pred[["threshold"]]<- threshold(evaluate_model[[which.max(auc)]], 'spec_sens')
model_pred[["PresenceAbsence"]]<-model_pred[["espece"]]>model_pred[["threshold"]]
model_pred[["ProbaPresence"]]<-sdmApp::sdmApp_TimesRasters(model_pred[["espece"]],model_pred[["PresenceAbsence"]])
observeEvent(input$probaplot,{
if(input$probaplot=='Occurence map'){
title_probaplot<-'Occurence map'
map<-model_pred[["espece"]]}
if(input$probaplot=='Occurence map (Presence/Absence)'){
title_probaplot<-'Occurence map (Presence/Absence)'
map<-model_pred[["PresenceAbsence"]]
}
if(input$probaplot=='Occurence map (Presence)'){
title_probaplot<-'Occurence map (Presence)'
map<-model_pred[["ProbaPresence"]]
}
output$proba_occ<-renderPlot({
if(title_probaplot=='Occurence map (Presence/Absence)'){sdmApp::sdmApp_PA(map)}
else{
sdmApp::sdmApp_RasterPlot(map)
}
})
})
observeEvent(input$model_ev,{
if(input$model_ev == 'ROC') {ev<-'ROC'}
if(input$model_ev == 'density') {ev<-'density'}
if(input$model_ev == 'boxplot') {ev<-'boxplot'}
if(input$model_ev == 'kappa') {ev<-'kappa'}
if(input$model_ev == 'FPR') {ev<-'FPR'}
if(input$model_ev == 'prevalence') {ev<-'prevalence'}
output$eval<-renderPlot({
if(ev=='density'){density(evaluate_model[[which.max(auc)]])}
else{
if(ev=='boxplot'){boxplot(evaluate_model[[which.max(auc)]], col=c('red', 'green'),xlab=load.occ$spec_select)}
else{
plot(evaluate_model[[which.max(auc)]],ev)
}
}
})
})
observeEvent(input$response_var,{
output$response_eco<-renderPlot({
dismo::response(model[[which.max(auc)]],var=input$response_var,main=load.occ$spec_select)
})
})
output$var_importance<-renderPlot({
plot(model[[which.max(auc)]], main=load.occ$spec_select,xlab="Purcentage(%)")
})
})
out <- NULL
#txt_setup<-'The Maxent software is based on the maximum-entropy approach for modeling species niches and distributions. From a set of environmental (e.g., climatic) grids and georeferenced occurrence localities (e.g. mediated by GBIF), the model expresses a probability distribution where each grid cell has a predicted suitability of conditions for the species. Maxent is a stand-alone Java application and can be used on any computer running Java version 1.5 or later.'
out <- fluidRow(
column(width = 12, offset = 0, h3("MaxEnt"), class="wb-header"),
column(width = 12, offset = 0, p("After choosing your spatial blocking approach please choose the species predictors according to ENFA or own selection, and then the MaxEnt model."), class="wb-header-hint")
#fluidRow(column(12, h4("Read Me", tipify(icon("info-circle"), title=txt_setup, placement="bottom"), class="wb-block-title"), align="center"))
)
out<-list(out,
sidebarPanel(
selectInput("choice_block", "Please Choose your model technic (without spatial blocking or with spatial blocking)",
c(without="Modelling without spatial blocking",with="Modelling with spatial blocking")
),
conditionalPanel(
condition = "input.choice_block == 'Modelling without spatial blocking'",
sliderInput("number_no_block_fold", "Please set the number of fold", min = 1, max = 100, value = 5)
)),
conditionalPanel(
condition = "input.choice_block == 'Modelling without spatial blocking'",
mainPanel(width = 6, tabsetPanel(type = "tabs",
tabPanel("Specie predictors",
selectInput('var_expl', 'Please select the specie predictors', names(data$Env), multiple = TRUE, selectize = TRUE),
myActionButton("MaxEnt",label=("Apply MaxEnt"), "primary"),
plotOutput("enfa_var_Maxent")
),
tabPanel("Map",
selectInput('probaplot', '', c("Occurence map","Occurence map (Presence/Absence)","Occurence map (Presence)"), multiple = FALSE, selectize = TRUE),
radioButtons(inputId = "plot_type_MaxEnt", label = "Select the file type to export", choices = list("png", "pdf","tif"),inline = TRUE),
downloadButton('download_MaxEnt', 'Download'),
plotOutput("proba_occ")
),
tabPanel("Model Evaluation",
selectInput('model_ev', 'Please select the metric to evaluate the model', c("ROC","density","boxplot","kappa","FPR","prevalence"), multiple = FALSE, selectize = TRUE),
radioButtons(inputId = "plot_type_model_ev_MaxEnt", label = "Select the file type to export", choices = list("png", "pdf"),inline = TRUE),
downloadButton('download_model_ev_MaxEnt', 'Download'),
plotOutput("eval")
),
tabPanel("Variable response",
selectInput('response_var', 'Please select the variable to get its ecological response', names(data$enfa), multiple = FALSE, selectize = TRUE),
radioButtons(inputId = "plot_type_response_var_MaxEnt", label = "Select the file type to export", choices = list("png", "pdf"),inline = TRUE),
downloadButton('download_response_var_MaxEnt', 'Download'),
plotOutput("response_eco")
),
tabPanel("Variable Importance",
radioButtons(inputId = "plot_type_var_importance_MaxEnt", label = "Select the file type to export", choices = list("png", "pdf"),inline = TRUE),
downloadButton('download_var_importance_MaxEnt', 'Download'),
plotOutput("var_importance")
)
),
id = "tabs"))
)
out
})
###########"end Maxent ######
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