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DescriptiveRepresentation_CountryRanks / Warmup /app_v1pt1.R
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 # setwd("~/Downloads")
options(error = NULL)
library(shiny)
library(shinydashboard)
library(dplyr)
library(readr)
library(sf)
library(rnaturalearth)
library(rnaturalearthdata)
library(countrycode)
library(leaflet) # <-- For OpenStreetMap-based map
# =============================
# UI
# =============================
ui <- dashboardPage(
skin = "black",
dashboardHeader(
title = span(
style = "font-weight: 600; font-size: 13px;",
a(
href = "http://www.globalleadershipproject.net",
"GlobalLeadershipProject.net",
target = "_blank",
style = "color: white; text-decoration: underline;"
)
)
),
dashboardSidebar(
sidebarMenu(
menuItem("Map Type", tabName = "cartogramTab", icon = icon("globe"))
),
div(
style = "margin: 15px;",
selectInput(
inputId = "indexChoice",
label = "Select Representation Index:",
choices = c("Overall", "RepresentationGap", "Ethnicity",
"Gender", "Religion", "Language"),
selected = "Overall"
)
),
# ---- Minimal "Share" button HTML + JS inlined ----
tags$div(
style = "text-align: left; margin: 1em 0 1em 2em;",
HTML('
<button id="share-button"
style="
display: inline-flex;
align-items: center;
justify-content: center;
gap: 8px;
padding: 5px 10px;
font-size: 16px;
font-weight: normal;
color: #000;
background-color: #fff;
border: 1px solid #ddd;
border-radius: 6px;
cursor: pointer;
box-shadow: 0 1.5px 0 #000;
">
<svg width="18" height="18" viewBox="0 0 24 24" fill="none" stroke="currentColor"
stroke-width="2" stroke-linecap="round" stroke-linejoin="round">
<circle cx="18" cy="5" r="3"></circle>
<circle cx="6" cy="12" r="3"></circle>
<circle cx="18" cy="19" r="3"></circle>
<line x1="8.59" y1="13.51" x2="15.42" y2="17.49"></line>
<line x1="15.41" y1="6.51" x2="8.59" y2="10.49"></line>
</svg>
<strong>Share</strong>
</button>
'),
tags$script(
HTML("
(function() {
const shareBtn = document.getElementById('share-button');
// Reusable helper function to show a small “Copied!” message
function showCopyNotification() {
const notification = document.createElement('div');
notification.innerText = 'Copied to clipboard';
notification.style.position = 'fixed';
notification.style.bottom = '20px';
notification.style.right = '20px';
notification.style.backgroundColor = 'rgba(0, 0, 0, 0.8)';
notification.style.color = '#fff';
notification.style.padding = '8px 12px';
notification.style.borderRadius = '4px';
notification.style.zIndex = '9999';
document.body.appendChild(notification);
setTimeout(() => { notification.remove(); }, 2000);
}
shareBtn.addEventListener('click', function() {
const currentURL = window.location.href;
const pageTitle = document.title || 'Check this out!';
// If browser supports Web Share API
if (navigator.share) {
navigator.share({
title: pageTitle,
text: '',
url: currentURL
})
.catch((error) => {
console.log('Sharing failed', error);
});
} else {
// Fallback: Copy URL
if (navigator.clipboard && navigator.clipboard.writeText) {
navigator.clipboard.writeText(currentURL).then(() => {
showCopyNotification();
}, (err) => {
console.error('Could not copy text: ', err);
});
} else {
// Double fallback for older browsers
const textArea = document.createElement('textarea');
textArea.value = currentURL;
document.body.appendChild(textArea);
textArea.select();
try {
document.execCommand('copy');
showCopyNotification();
} catch (err) {
alert('Please copy this link:\\n' + currentURL);
}
document.body.removeChild(textArea);
}
}
});
})();
")
)
)
# ---- End: Minimal Share button snippet ----
),
dashboardBody(
tags$head(
tags$link(
href = "https://fonts.googleapis.com/css2?family=OCR+A+Extended&display=swap",
rel = "stylesheet"
),
tags$style(HTML("
/* Force OCR A Extended font across the entire UI and all HTML elements */
html, body, h1, h2, h3, h4, h5, h6, p, div, span, label, input, button, select,
.box, .content-wrapper, .main-sidebar, .main-header .navbar, .main-header .logo,
.sidebar-menu, .sidebar-menu li a, .sidebar-menu .fa {
font-family: 'OCR A Extended', monospace !important;
}
/* Header gradient background */
.main-header .navbar {
background: linear-gradient(to right, #3b6978, #204051) !important;
}
/* Logo area (left corner of the header) */
.main-header .logo {
background: #1b2a2f !important;
color: #ffffff !important;
border-bottom: none;
font-size: 18px;
font-weight: 600;
}
/* Sidebar background */
.main-sidebar {
background-color: #1b2a2f !important;
}
/* Active or hovered tab in the sidebar */
.sidebar-menu > li.active > a,
.sidebar-menu > li:hover > a {
background-color: #344e5c !important;
border-left-color: #78cdd7 !important;
color: #ffffff !important;
}
/* Sidebar menu item icons */
.sidebar-menu .fa {
color: #78cdd7 !important;
}
/* Sidebar menu item text */
.sidebar-menu > li > a {
color: #b8c7ce !important;
font-size: 15px;
font-weight: 500;
}
/* Customize the boxes */
.box {
border-top: none !important;
box-shadow: 0 4px 8px rgba(0,0,0,0.1);
border-radius: 6px;
}
.box.box-solid > .box-header {
background-color: #204051;
color: #fff;
border-radius: 6px 6px 0 0;
}
/* Plot box spacing */
.box .box-body {
padding: 0 !important;
}
/* Footer text styling (plot captions, etc.) */
.small, small {
font-size: 75%;
}
/* Responsive map container */
.map-container {
height: 70vh;
width: 100%;
}
@media (max-width: 768px) {
.map-container {
height: 50vh;
}
}
"))
),
tabItem(
tabName = "cartogramTab",
fluidRow(
column(
width = 9,
box(
width = NULL,
title = strong("Country-level Representation"),
solidHeader = TRUE,
div(
class = "map-container",
leafletOutput("cartogramPlot", width = "100%", height = "100%")
)
)
),
column(
width = 3,
box(
width = NULL,
title = strong("Selected Country Data"),
solidHeader = TRUE,
uiOutput("selectedCountryData"),
style = "overflow-y: auto;" # Scroll if content overflows
)
)
),
fluidRow(
column(
width = 9,
box(
width = NULL,
title = strong("Citation"),
solidHeader = TRUE,
tags$p(
"John Gerring, Connor T. Jerzak, Erzen Öncel.
The Composition of Descriptive Representation. ",
em("American Political Science Review,"), " 118(2): 784–801, 2024.",
tags$a(
href = "https://www.cambridge.org/core/services/aop-cambridge-core/content/view/7EAEA1CA4C553AB9D76054D1FA9C0840/S0003055423000680a.pdf/the-composition-of-descriptive-representation.pdf",
"PDF",
target = "_blank"
),
" | ",
tags$a(
href = "https://connorjerzak.com/wp-content/uploads/2024/07/CompositionBib.txt",
"BibTeX",
target = "_blank"
),
" | ",
tags$a(
href = "https://www.youtube.com/watch?v=nnfDj1NdOMo",
"YouTube",
target = "_blank"
)
)
)
)
)
)
)
)
# =============================
# SERVER
# =============================
server <- function(input, output, session) {
# 1. Custom matches for countries not recognized by default in 'countrycode'
custom_iso_matches <- c("Kosovo" = "XKX",
"Somaliland" = "SOM") # or any valid code you prefer
# 2. Read CSV data and create ISO3 codes with custom matches
rankings_data <- reactive({
read_csv("CountryRepresentationRankings.csv", show_col_types = FALSE) %>%
mutate(iso_a3 = countrycode(
sourcevar = Country,
origin = "country.name",
destination = "iso3c",
custom_match = custom_iso_matches
))
})
# 3. Read/prepare world map shapefile (still from Natural Earth),
# but transform to lat/lon (EPSG:4326) to align with Leaflet.
world_sf <- reactive({
ne_countries(scale = "medium", returnclass = "sf") %>%
dplyr::select(name, iso_a3, pop_est, geometry) %>%
st_transform(crs = 4326) # Leaflet requires lat/lon
})
# 4. Create the joined sf object
cartogram_sf <- reactive({
merged_sf <- world_sf() %>%
left_join(rankings_data(), by = "iso_a3")
# Filter out countries with no data in "Overall"
merged_sf[!is.na(merged_sf$Overall), ]
})
# 5. Create the Leaflet map with OSM tiles
# and dynamically add polygons based on index choice.
# Initialize the leaflet map (empty) so it renders once:
output$cartogramPlot <- renderLeaflet({
leaflet() %>%
addProviderTiles("OpenStreetMap.Mapnik") %>%
setView(lng = 0, lat = 20, zoom = 2) # A broad global view
})
# Observe changes in the chosen index and update polygons + legend
observeEvent(input$indexChoice, {
plot_data <- cartogram_sf()
index_col <- input$indexChoice
# Build a color palette based on the chosen index
pal <- colorNumeric(
palette = "viridis",
domain = plot_data[[index_col]],
na.color = "white"
)
# Construct a label/popup-like text
# Construct an indicator function for clarity
starIfSelected <- function(colName) {
if (index_col == colName) "*" else ""
}
# Build a label/popup to show all columns
labels <- sprintf(
paste0(
"<strong>Country:</strong> %s<br/>",
"<strong>%sOverall:</strong> %s<br/>",
"<strong>%sRepresentation Gap:</strong> %s<br/>",
"<strong>%sEthnicity:</strong> %s<br/>",
"<strong>%sGender:</strong> %s<br/>",
"<strong>%sReligion:</strong> %s<br/>",
"<strong>%sLanguage:</strong> %s"
),
# 1. Country
ifelse(is.na(plot_data$Country), "N/A", plot_data$Country),
# 2. Overall
starIfSelected("Overall"),
ifelse(is.na(plot_data$Overall), "N/A", plot_data$Overall),
# 3. RepresentationGap
starIfSelected("RepresentationGap"),
ifelse(is.na(plot_data$RepresentationGap), "N/A", plot_data$RepresentationGap),
# 4. Ethnicity
starIfSelected("Ethnicity"),
ifelse(is.na(plot_data$Ethnicity), "N/A", plot_data$Ethnicity),
# 5. Gender
starIfSelected("Gender"),
ifelse(is.na(plot_data$Gender), "N/A", plot_data$Gender),
# 6. Religion
starIfSelected("Religion"),
ifelse(is.na(plot_data$Religion), "N/A", plot_data$Religion),
# 7. Language
starIfSelected("Language"),
ifelse(is.na(plot_data$Language), "N/A", plot_data$Language)
) %>% lapply(htmltools::HTML)
leafletProxy("cartogramPlot", data = plot_data) %>%
clearShapes() %>% # clear existing polygons
clearControls() %>% # clear existing legends
addPolygons(
fillColor = ~pal(get(index_col)),
fillOpacity = 0.7,
color = "grey20",
weight = 0.4,
layerId = ~iso_a3,
label = labels,
highlightOptions = highlightOptions(
color = "white",
weight = 2,
bringToFront = TRUE
)
) %>%
addLegend(
position = "bottomright",
pal = pal,
bins = 5,
values = plot_data[[index_col]],
title = paste(index_col, "Index"),
opacity = 1
)
}, ignoreNULL = FALSE) # Trigger once on startup too
# Track which country was clicked
selected_iso <- reactiveVal(NULL)
observeEvent(input$cartogramPlot_shape_click, {
click <- input$cartogramPlot_shape_click
if (!is.null(click$id)) {
selected_iso(click$id)
}
})
# Reactive to fetch the selected country's data
selected_data <- reactive({
iso <- selected_iso()
if (is.null(iso)) return(NULL)
rankings_data() %>%
filter(iso_a3 == iso)
})
# Render the selected country data in the box
output$selectedCountryData <- renderUI({
if (is.null(selected_data())) {
HTML("<p>Select a country by clicking on the map.</p>")
} else {
data <- selected_data()
html_content <- paste0(
"<b>Country:</b> ", data$Country, "<br/>",
"<b>Overall:</b> ", ifelse(is.na(data$Overall), "N/A", data$Overall), "<br/>",
"<b>Representation Gap:</b> ", ifelse(is.na(data$RepresentationGap), "N/A", data$RepresentationGap), "<br/>",
"<b>Ethnicity:</b> ", ifelse(is.na(data$Ethnicity), "N/A", data$Ethnicity), "<br/>",
"<b>Gender:</b> ", ifelse(is.na(data$Gender), "N/A", data$Gender), "<br/>",
"<b>Religion:</b> ", ifelse(is.na(data$Religion), "N/A", data$Religion), "<br/>",
"<b>Language:</b> ", ifelse(is.na(data$Language), "N/A", data$Language)
)
HTML(html_content)
}
})
}
# =============================
# Launch the Shiny App
# =============================
shinyApp(ui = ui, server = server)