将selectInput与sliderInput链接为闪亮

Question

朋友，我希望将selectInput链接到输出表中显示的簇数。 换句话说，它似乎分为5个簇。在selectInput中，我希望它显示如下：

选择集群

1

2

3

4

5

也就是说，我的selectinput将取决于我的sliderInput。我怎样才能做到这一点？我的可执行代码如下：

library(shiny)
library(ggplot2)
library(rdist)
library(geosphere)
library(kableExtra)
library(readxl)
library(tidyverse)
library(DT)

#database
df<-structure(list(Properties = c(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35), Latitude = c(-23.8, -23.8, -23.9, -23.9, -23.9,  -23.9, -23.9, -23.9, -23.9, -23.9, -23.9, -23.9, -23.9, -23.9, 
                                                                                                                                                 + -23.9, -23.9, -23.9, -23.9, -23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9,-23.9), Longitude = c(-49.6, -49.6, -49.6, -49.6, -49.6, -49.6, -49.6, -49.6, -49.6, -49.6, -49.7, 
                                                                                                                                                                                                                                                                                                     + -49.7, -49.7, -49.7, -49.7, -49.6, -49.6, -49.6, -49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6,-49.6), Waste = c(526, 350, 526, 469, 285, 175, 175, 350, 350, 175, 350, 175, 175, 364, 
                                                                                                                                                                                                                                                                                                                                                                                                                                                                          + 175, 175, 350, 45.5, 54.6,350,350,350,350,350,350,350,350,350,350,350,350,350,350,350,350)), class = "data.frame", row.names = c(NA, -35L))

function.clustering<-function(df,k,Filter1,Filter2){

  if (Filter1==2){
    Q1<-matrix(quantile(df$Waste, probs = 0.25)) 
    Q3<-matrix(quantile(df$Waste, probs = 0.75))
    L<-Q1-1.5*(Q3-Q1)
    S<-Q3+1.5*(Q3-Q1)
    df_1<-subset(df,Waste>L[1]) 
    df<-subset(df_1,Waste<S[1])
  }

  #cluster
  coordinates<-df[c("Latitude","Longitude")]
  d<-as.dist(distm(coordinates[,2:1]))
  fit.average<-hclust(d,method="average") 


  #Number of clusters
  clusters<-cutree(fit.average, k) 
  nclusters<-matrix(table(clusters))  
  df$cluster <- clusters 

  #Localization
  center_mass<-matrix(nrow=k,ncol=2)
  for(i in 1:k){
    center_mass[i,]<-c(weighted.mean(subset(df,cluster==i)$Latitude,subset(df,cluster==i)$Waste),
                       weighted.mean(subset(df,cluster==i)$Longitude,subset(df,cluster==i)$Waste))}
  coordinates$cluster<-clusters 
  center_mass<-cbind(center_mass,matrix(c(1:k),ncol=1)) 

  #Coverage
  coverage<-matrix(nrow=k,ncol=1)
  for(i in 1:k){
    aux_dist<-distm(rbind(subset(coordinates,cluster==i),center_mass[i,])[,2:1])
    coverage[i,]<-max(aux_dist[nclusters[i,1]+1,])}
  coverage<-cbind(coverage,matrix(c(1:k),ncol=1))
  colnames(coverage)<-c("Coverage_meters","cluster")

  #Sum of Waste from clusters
  sum_waste<-matrix(nrow=k,ncol=1)
  for(i in 1:k){
    sum_waste[i,]<-sum(subset(df,cluster==i)["Waste"])
  }
  sum_waste<-cbind(sum_waste,matrix(c(1:k),ncol=1))
  colnames(sum_waste)<-c("Potential_Waste_m3","cluster")

  #Output table
  data_table <- Reduce(merge, list(df, coverage, sum_waste))
  data_table <- data_table[order(data_table$cluster, as.numeric(data_table$Properties)),]
  data_table_1 <- aggregate(. ~ cluster + Coverage_meters + Potential_Waste_m3, data_table[,c(1,7,6,2)], toString)

  #Scatter Plot
  suppressPackageStartupMessages(library(ggplot2))
  df1<-as.data.frame(center_mass)
  colnames(df1) <-c("Latitude", "Longitude", "cluster")
  g<-ggplot(data=df,  aes(x=Longitude, y=Latitude,  color=factor(clusters))) + geom_point(aes(x=Longitude, y=Latitude), size = 4)
  Centro_View<- g +  geom_text(data=df, mapping=aes(x=eval(Longitude), y=eval(Latitude), label=Waste), size=3, hjust=-0.1)+ geom_point(data=df1, mapping=aes(Longitude, Latitude), color= "green", size=4) + geom_text(data=df1, mapping = aes(x=Longitude, y=Latitude, label = 1:k), color = "black", size = 4)
  plotGD<-print(Centro_View + ggtitle("Scatter Plot") + theme(plot.title = element_text(hjust = 0.5)))

  return(list(
    "Data" = data_table_1,
    "Plot" = plotGD,
    "Coverage" = coverage
  ))
}

ui <- bootstrapPage(
  navbarPage(theme = shinytheme("flatly"), collapsible = TRUE,
             "Clustering", 

             tabPanel("General Solution",

                      sidebarLayout(
                        sidebarPanel(
                          radioButtons("filtro1", h3("Select properties"),
                                       choices = list("All properties" = 1, 
                                                      "Exclude properties" = 2),
                                       selected = 1),

                          radioButtons("filtro2", h3("Coverage"),
                                       choices = list("Limite coverage" = 1, 
                                                      "No limite coverage" = 2
                                       ),selected = 1),
                          radioButtons("gasoduto", h3("Preference for the location"),
                                       choices = list("big production" = 1, 
                                                      "small production"= 2
                                       ),selected = 1),

                          tags$hr(),
                          tags$b(h3("Satisfied?")),
                          radioButtons("satisfaction","", choices = list("Yes" = 1,"No " = 2),selected = 1),
                          tags$b(h5("(a) Choose other filters")),
                          tags$b(h5("(b) Choose clusters")),  
                          sliderInput("Slider", h5(""),
                                      min = 2, max = 8, value = 5),
                          tags$hr(),
                          actionButton("reset", "Clean")
                        ),

                        mainPanel(
                          tabsetPanel(      
                            tabPanel("Solution", DTOutput("tabela"))))

                      )),

             tabPanel("Route and distance",
                      sidebarLayout(
                        sidebarPanel(
                          selectInput("select", label = h3("Select the cluster"),"")
                        ),
                        mainPanel(
                          tabsetPanel(
                          tabPanel("Distance", plotOutput(""))))
                      ))))

server <- function(input, output) {

  f1<-renderText({input$filter1})
  f2<-renderText({input$filter2})


  Modelclustering<-reactive(function.clustering(df,input$Slider,1,1))


  output$tabela <- renderDataTable({
    data_table_1 <- req(Modelclustering())[[1]]
    x <- datatable(data_table_1[order(data_table_1$cluster),c(1,4,2,3)],
                   options = list(columnDefs = list(list(className = 'dt-center', targets = 0:3)), 
                                  paging =TRUE,searching = FALSE,
                                  pageLength =  10,lenghtMenu=c(5,10,15,20),scrollx=T
                   ), rownames = FALSE)%>% formatRound(c(3:4), 2,mark = ",")%>%
      formatStyle(columns = c(3:4), 'text-align' = 'center')
    return(x)
  })

  output$ScatterPlot <- renderPlot({
    Modelclustering()[[2]]
  })

}

shinyApp(ui = ui, server = server)

非常感谢您的朋友！

新更新

我插入了updateSelectiInput函数（下面的代码），这样我设法放置了相应数量的集群。但是，我想将其保留为清单的形式，而不是像我一开始所描述的那样为5：

observeEvent(input$Slider,{
  updateSelectInput(session,'select',
                    choices=unique(df[df==input$Slider]))
}) 

Answer 1

您与更新表达式非常接近。您只需要：

  observeEvent(input$Slider,{
    updateSelectInput(session,'select',
                      choices=unique(1:input$Slider))
  }) 

另一种方法是使用uiOutput/renderUI。在ui中，我们可以使用一个占位符代替创建空的selectInput：

uiOutput("select_clusters")

然后在服务器中，我们填充此占位符：

output$select_clusters <- renderUI({
  selectInput("select", label = h3("Select the cluster"), choices = 1:input$Slider)
})

---

修改

要使observeEvent（或eventReactive）对多个输入做出反应，请将输入或反应堆包装在c()中：

observeEvent(c(input$SLIDER, input$FILTER),{
    updateSelectInput(session,'select',
                      choices=unique(1:input$Slider))
  }) 

但是，如果您需要这样做，我认为采用renderUI方法更有意义并具有更大的灵活性。看起来可能像这样：

output$select_clusters <- renderUI({
   req(input$slider)
   req(input$filter)

   df2 <- df[df$something %in% input$filter, ]

  selectInput("select", 
              label = h3("Select the cluster"), 
              choices = df2$something)

})

通常，使用update*Input函数，您只能更新现有的小部件，而不能删除它。但是，如果集群数= 1，则根本不需要选择输入。使用renderUI，如果条件需要，您可以使用空的HTML容器（div()）“隐藏” selectInput：

what_to_do <- reactive({
   req(input$Slider)
   if (input$Slider == 1) {
      x <- div() 
   } else {
      x <- selectInput("select", 
                       label = h3("Select the cluster"), 
                       choices = 1:input$Slider)
   }

return(x)
})

output$select_clusters <- renderUI({
   what_to_do()
})