inst/apps/distribution_norgets/server.R
In Auburngrads/teachingApps: Apps for Teaching Statistics, R Programming, and Shiny App Development
server = function(input, output, session) {
t <- reactive({ signif(seq(input$range.nget[1], input$range.nget[2],length = 500), digits = 4) })
p <- reactive({ signif(seq(0, 1, length = 500), digits = 4) })
C <- reactive({ pgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal") })
P <- reactive({ dgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal")})
R <- reactive({ 1-C()})
h <- reactive({exp(log(P())-log(R()))})
H <- reactive({ -1*log(1-pgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal"))})
Q <- reactive({ qgets(p(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal")})
df <- reactive({data.frame(Time = t(),PROB = p(), CDF = C(),PDF = P(),REL = R(),haz = h(),HAZ = H(), QUANT = Q())})
output$ngetC <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = CDF, decimals = 4, top = 0) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'F(t)')%>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetP <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = PDF, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'f(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetR <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = REL, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'S(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngeth <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = haz, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'h(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetH <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = HAZ, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'H(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetQ <- renderMetricsgraphics({
mjs_plot(df(), x = PROB, y = QUANT, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Probability (p)', y_label = 't(p)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
}
Auburngrads/teachingApps documentation built on June 17, 2020, 4:57 a.m.
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server = function(input, output, session) {
t <- reactive({ signif(seq(input$range.nget[1], input$range.nget[2],length = 500), digits = 4) })
p <- reactive({ signif(seq(0, 1, length = 500), digits = 4) })
C <- reactive({ pgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal") })
P <- reactive({ dgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal")})
R <- reactive({ 1-C()})
h <- reactive({exp(log(P())-log(R()))})
H <- reactive({ -1*log(1-pgets(t(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal"))})
Q <- reactive({ qgets(p(),input$al.nget,input$si.nget,input$xi.nget,distribution = "normal")})
df <- reactive({data.frame(Time = t(),PROB = p(), CDF = C(),PDF = P(),REL = R(),haz = h(),HAZ = H(), QUANT = Q())})
output$ngetC <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = CDF, decimals = 4, top = 0) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'F(t)')%>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetP <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = PDF, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'f(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetR <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = REL, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'S(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngeth <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = haz, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'h(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetH <- renderMetricsgraphics({
mjs_plot(df(), x = Time, y = HAZ, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Time (t)', y_label = 'H(t)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
output$ngetQ <- renderMetricsgraphics({
mjs_plot(df(), x = PROB, y = QUANT, decimals = 4) %>%
mjs_line(area = TRUE) %>%
mjs_labs(x_label = 'Probability (p)', y_label = 't(p)') %>%
mjs_add_css_rule("{{ID}} .mg-active-datapoint { font-size: 20pt }")})
}
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