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Replaced corrV1 with corrV2

ac8d9e3 10 months ago

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	library(shiny)
	library(shinydashboard)
	library(shinydashboardPlus)
	library(shinyWidgets)
	library(shinycssloaders)

	library(DT)
	library(plotly)
	library(scico)
	library(ggthemes)
	library(scales)
	library(stringr)
	library(wesanderson)

	library(data.table)
	library(dtplyr)

	library(parallel)

	# devtools::install_github("woobe/Rnumerai")
	library(Rnumerai)


	# ==============================================================================
	# Helper Functions
	# ==============================================================================

	# Download raw data
	download_raw_data <- function(model_name) {

	# Download data from Numerai
	d_raw <- round_model_performances(model_name)

	# Remove rows without CORR
	d_raw <- d_raw[!is.na(d_raw$corrWMetamodel), ]


	# Add the model name
	d_raw$model <- model_name

	# Return
	return(as.data.table(d_raw))

	}

	# Reformat
	reformat_data <- function(d_raw) {

	# Keep some columns only
	col_keep <- c("model", "roundNumber",
	"roundOpenTime", "roundResolveTime",
	"roundResolved", "selectedStakeValue",
	# "corr", "corrPercentile",
	"corr20V2", "corr20V2Percentile",
	"fncV3", "fncV3Percentile",
	"tc", "tcPercentile",
	"corrWMetamodel",
	"roundPayoutFactor", "payout")
	d_munged <- d_raw[, col_keep, with = FALSE]

	# Date
	d_munged[, roundOpenTime := as.Date(roundOpenTime)]
	d_munged[, roundResolveTime := as.Date(roundResolveTime)]

	# Reformat percentile
	d_munged[, corr20V2Percentile := round(corr20V2Percentile * 100, 6)]
	d_munged[, fncV3Percentile := round(fncV3Percentile * 100, 6)]
	d_munged[, tcPercentile := round(tcPercentile * 100, 6)]

	# Rename columns
	colnames(d_munged) <- c("model", "round",
	"date_open", "date_resolved",
	"resolved", "stake",
	"corrV2", "corrV2_pct",
	"fncV3", "fncV3_pct",
	"tc", "tc_pct",
	"corr_meta",
	"pay_ftr", "payout")

	# Return
	return(d_munged)

	}

	# Generate Colour Palette
	gen_custom_palette <- function(ls_model) {

	# Extract info
	n_limit <- 5
	n_coluor <- length(unique(ls_model))
	n_pal_rep <- ceiling(n_coluor / n_limit)
	wes_pal_themes <- rep(c("Cavalcanti1", "Darjeeling1"), n_pal_rep)

	# Generate
	custom_palette <- c()
	for (n_pal in 1:n_pal_rep) {
	tmp_pal_name <- wes_pal_themes[n_pal]
	tmp_pal <- wesanderson::wes_palette(name = tmp_pal_name, n = n_limit, type = "continuous")
	custom_palette <- c(custom_palette, tmp_pal)
	}

	# Trim and return
	return(custom_palette[1:n_coluor])

	}


	# ==============================================================================
	# UI
	# ==============================================================================

	ui <- shinydashboardPlus::dashboardPage(

	title = "Shiny Numerati",

	skin = "black-light",

	options = list(sidebarExpandOnHover = TRUE),

	header = shinydashboardPlus::dashboardHeader(
	title = "✨ Shiny Numerati",
	userOutput("user")
	),


	# ============================================================================
	# Sidebar
	# ============================================================================

	sidebar = shinydashboardPlus::dashboardSidebar(
	id = "sidebar",
	sidebarMenu(
	menuItem(text = "Start Here", tabName = "start", icon = icon("play")),
	menuItem(text = "Payout Summary", tabName = "payout", icon = icon("credit-card")),
	menuItem(text = "Model Performance", tabName = "performance", icon = icon("line-chart")),
	menuItem(text = "Raw Data", tabName = "raw_data", icon = icon("download")),
	menuItem(text = "Community", tabName = "community", icon = icon("users")),
	menuItem(text = "About", tabName = "about", icon = icon("question-circle"))
	),
	minified = TRUE,
	collapsed = FALSE
	),


	# ============================================================================
	# Main Body
	# ============================================================================

	body = dashboardBody(

	tabItems(

	# ========================================================================
	# Start Here
	# ========================================================================

	tabItem(tabName = "start",

	fluidPage(

	# ==============================================================
	# Special script to keep the session alive for a bit longer
	# ==============================================================

	tags$head(
	HTML(
	"
	<script>
	var socket_timeout_interval
	var n = 0
	$(document).on('shiny:connected', function(event) {
	socket_timeout_interval = setInterval(function(){
	Shiny.onInputChange('count', n++)
	}, 10000)
	});
	$(document).on('shiny:disconnected', function(event) {
	clearInterval(socket_timeout_interval)
	});
	</script>
	"
	)
	),

	# ==============================================================
	# First Page
	# ==============================================================

	markdown("# Shiny Numerati"),
	markdown("### Community Dashboard for the Numerai Classic Tournament"),

	br(),

	fluidRow(

	column(6,

	markdown("## Step 1 - Select Your Models"),

	markdown("### First, click this ⬇"),

	pickerInput(inputId = "model",
	label = " ",
	choices = sort(Rnumerai::get_leaderboard()$username),
	multiple = TRUE,
	width = "100%",
	options = list(
	`title` = "---------->>> HERE <<<----------",
	`header` = "Notes: 1) Use the search box below to find and select your models. 2) Use 'Select All' for quick selection.",
	size = 20,
	`actions-box` = TRUE,
	`live-search` = TRUE,
	`live-search-placeholder` = "For example, try lgbm_v4 or integration_test",
	`virtual-scroll` = TRUE,
	`multiple-separator` = ", ",
	`selected-text-format`= "count > 3",
	`count-selected-text` = "{0} models selected (out of {1})",
	`deselect-all-text` = "Deselect All",
	`select-all-text` = "Select All"
	)
	)
	),

	column(6,

	markdown("## Step 2 - Download Data"),

	markdown("### Next, click this ⬇ (it may take a while)"),

	br(),

	actionBttn(inputId = "button_download",
	label = "Download Data from Numerai",
	color = "primary",
	icon = icon("cloud-download"),
	style = "gradient",
	block = TRUE
	)
	)
	),

	br(),

	h3(strong(textOutput(outputId = "text_download"))),
	verbatimTextOutput(outputId = "print_download"),

	br(),

	h3(strong(textOutput(outputId = "text_preview"))),
	shinycssloaders::withSpinner(DTOutput("dt_model")),

	br(),

	h3(strong(textOutput(outputId = "text_next"))),
	h3(strong(textOutput(outputId = "text_soon")))

	)
	),

	# ========================================================================
	# Payout Summary
	# ========================================================================

	tabItem(tabName = "payout",

	fluidPage(

	markdown("# Payout Summary"),
	markdown("### Remember to refresh the charts after making changes to model selection or settings below."),
	br(),

	fluidRow(

	column(6,

	markdown("## Step 1 - Define the Range"),

	sliderInput(inputId = "range_round",
	label = "Numerai Classic Tournament Rounds",
	width = "100%",
	step = 1,
	min = 168, # first tournament round
	max = Rnumerai::get_current_round(), # note: daily payouts from round 474
	value = c(474, Rnumerai::get_current_round())
	)
	),

	column(6,

	markdown("## Step 2 - Visualise"),
	br(),
	actionBttn(inputId = "button_filter",
	label = "Create / Refresh Charts",
	color = "primary",
	icon = icon("refresh"),
	style = "gradient",
	block = TRUE)
	)
	), # end of fluidRow

	br(),

	tabsetPanel(type = "tabs",


	tabPanel("Net Round Payouts",

	br(),

	h3(strong(textOutput(outputId = "text_payout_net"))),

	br(),

	fluidRow(
	class = "text-center",

	valueBoxOutput("payout_n_round_resolved", width = 3),
	valueBoxOutput("payout_resolved", width = 3),
	valueBoxOutput("payout_average_resolved", width = 3),
	valueBoxOutput("payout_avg_ror_resolved", width = 3),

	valueBoxOutput("payout_n_round_pending", width = 3),
	valueBoxOutput("payout_pending", width = 3),
	valueBoxOutput("payout_average_pending", width = 3),
	valueBoxOutput("payout_avg_ror_pending", width = 3),

	valueBoxOutput("payout_n_round", width = 3),
	valueBoxOutput("payout_total", width = 3),
	valueBoxOutput("payout_average", width = 3),
	valueBoxOutput("payout_avg_ror", width = 3)
	),

	br(),

	shinycssloaders::withSpinner(plotlyOutput("plot_payout_net")),

	br(),

	DTOutput("dt_payout_summary"),

	br()

	),


	tabPanel("Chart (Stacked Payouts)",

	br(),

	h3(strong(textOutput(outputId = "text_payout_all_models"))),

	br(),

	shinycssloaders::withSpinner(plotlyOutput("plot_payout_stacked")),

	br()
	# br(),

	# DTOutput("dt_payout_summary")

	),

	tabPanel("Chart (Individual Models)",
	# br(),
	# materialSwitch(inputId = "switch_scale_payout",
	# label = "Fixed Scale?",
	# value = TRUE,
	# status = "primary",
	# ),
	br(),
	h3(strong(textOutput(outputId = "text_payout_ind_models"))),
	br(),
	shinycssloaders::withSpinner(plotlyOutput("plot_payout_individual"))
	)

	) # end of tabsetPanel

	) # end of fluidPage

	),


	# ========================================================================
	# Model Performance
	# ========================================================================

	tabItem(tabName = "performance",
	fluidPage(

	markdown("# Model Performance"),

	markdown("![image](https://media.giphy.com/media/cftSzNoCTfSyAWctcl/giphy.gif)")

	# markdown("### Note 1: Experimental features. Changes to be expected in the coming days."),
	# markdown("### Note 2: Define the range in `Payout Summary` first."),
	# br(),
	# tabsetPanel(type = "tabs",
	# tabPanel("Boxplot - TCP",
	# br(),
	# markdown("### TC Percentile by Model"),
	# shinycssloaders::withSpinner(plotlyOutput("plot_boxplot_tcp"))
	# )
	# ) # End of tabsetPanel

	) # End of fluidPage

	),


	# ========================================================================
	# Raw Data
	# ========================================================================

	tabItem(tabName = "raw_data",

	markdown("# Download Raw Data"),
	markdown("### Wanna run your own analysis? No problem."),
	markdown("### Remember to select your model(s) first."),
	br(),
	fluidRow(
	column(6,
	downloadBttn(outputId = "download_raw",
	label = "Download Raw Data CSV",
	icon = icon("cloud-download"),
	style = "gradient",
	block = T)
	)
	)
	),


	# ========================================================================
	# Community
	# ========================================================================

	tabItem(tabName = "community",
	markdown("![image](https://media.giphy.com/media/cftSzNoCTfSyAWctcl/giphy.gif)")
	),


	# ========================================================================
	# About
	# ========================================================================

	tabItem(tabName = "about",

	markdown("# About this App"),
	markdown('### Yet another Numerai community dashboard by <b><a href="https://linktr.ee/jofaichow" target="_blank">Jo-fai Chow</a></b>.'),

	br(),
	markdown("## Acknowledgements"),
	markdown("- #### This hobby project was inspired by Rajiv's <b><a href='https://huggingface.co/spaces/rajistics/shiny-kmeans' target='_blank'>shiny-kmeans</a></b> on 🤗 Spaces."),
	markdown('- #### The <b><a href="https://linktr.ee/jofaichow" target="_blank">Rnumerai</a></b> package from Omni Analytics Group.'),

	br(),
	markdown("## Changelog"),
	markdown(
	"
	- #### 0.1.0 — First prototype with an interactive table output
	- #### 0.1.1 — Added a functional `Payout Summary` page
	- #### 0.1.2 — `Payout Summary` layout updates
	- #### 0.1.3 — Added `Raw Data`
	- #### 0.1.4 — Improved and sped up `Payout Summary`
	- #### 0.1.5 — Replaced `corrV1` with `corrV2`
	"),

	br(),
	markdown("## Session Info"),
	verbatimTextOutput(outputId = "session_info"),

	br(),
	textOutput("keepAlive") # trick to keep session alive
	)

	# ========================================================================

	) # end of tabItems

	),

	footer = shinydashboardPlus::dashboardFooter(
	left = "Powered by ❤️, ☕, Shiny, and 🤗 Spaces",
	right = paste0("Version 0.1.5"))

	)


	# ==============================================================================
	# Server
	# ==============================================================================

	server <- function(input, output) {

	# About Joe
	output$user <- renderUser({
	dashboardUser(
	name = "JC",
	image = "https://numerai-public-images.s3.amazonaws.com/profile_images/aijoe_v5_compressed-iJWEo1WeHkpH.jpg",
	subtitle = "@matlabulous",
	footer = p('"THE NMR LIFE CHOSE ME."', class = 'text-center')
	)
	})


	# ============================================================================
	# Reactive: Data
	# ============================================================================

	react_ls_model <- eventReactive(input$button_download, {sort(input$model)})

	output$print_download <- renderPrint({react_ls_model()})

	output$text_download <- renderText({
	if (length(react_ls_model()) >= 1) "Your Selection:" else " "
	})

	output$text_preview <- renderText({
	if (length(react_ls_model()) >= 1) "Data Preview:" else " "
	})

	output$text_next <- renderText({
	if (length(react_ls_model()) >= 1) "⬅ [NEW] Payout Summary and Raw Data 📊💸" else " "
	})

	output$text_soon <- renderText({
	if (length(react_ls_model()) >= 1) "⬅ [COMING SOON] Model Performance 📈🔥" else " "
	})

	react_d_raw <- eventReactive(
	input$button_download,
	{

	# Parallelised download
	d_raw <- rbindlist(mclapply(X = input$model,
	FUN = download_raw_data,
	mc.cores = detectCores()))

	# Return
	d_raw

	}
	)


	# ============================================================================
	# Reactive: DataTable
	# ============================================================================

	output$dt_model <- DT::renderDT({

	# Raw Data
	d_raw <- react_d_raw()

	# Reformat
	d_munged <- reformat_data(d_raw)

	# Main DT
	DT::datatable(

	# Data
	d_munged,

	# Other Options
	rownames = FALSE,
	extensions = "Buttons",
	options =
	list(
	dom = 'Bflrtip', # https://datatables.net/reference/option/dom
	buttons = list('csv', 'excel', 'copy', 'print'), # https://rstudio.github.io/DT/003-tabletools-buttons.html
	order = list(list(0, 'asc'), list(1, 'asc')),
	pageLength = 5,
	lengthMenu = c(5, 10, 20, 100, 500, 1000, 50000),
	columnDefs = list(list(className = 'dt-center', targets = "_all")))
	) \|>

	# Reformat individual columns
	formatRound(columns = c("corrV2", "tc", "fncV3", "corr_meta", "pay_ftr"), digits = 4) \|>
	formatRound(columns = c("corrV2_pct", "tc_pct", "fncV3_pct"), digits = 1) \|>
	formatRound(columns = c("stake", "payout"), digits = 2) \|>

	formatStyle(columns = c("model"),
	fontWeight = "bold") \|>

	formatStyle(columns = c("stake"),
	fontWeight = "bold",
	color = styleInterval(cuts = -1e-15, values = c("#D24141", "#2196F3"))) \|>

	formatStyle(columns = c("corrV2", "fncV3"),
	color = styleInterval(cuts = -1e-15, values = c("#D24141", "black"))) \|>

	formatStyle(columns = c("tc"),
	color = styleInterval(cuts = -1e-15, values = c("#D24141", "#A278DC"))) \|>

	formatStyle(columns = c("corrV2_pct", "tc_pct", "fncV3_pct"),
	color = styleInterval(cuts = c(1, 5, 15, 85, 95, 99),
	values = c("#692020", "#9A2F2F", "#D24141",
	"#D1D1D1", # light grey
	"#00A800", "#007000", "#003700"))) \|>

	formatStyle(columns = c("payout"),
	fontWeight = "bold",
	color = styleInterval(cuts = c(-1e-15, 1e-15),
	values = c("#D24141", "#D1D1D1", "#00A800")))

	})


	# ============================================================================
	# Reactive: filtering data for all charts
	# ============================================================================

	react_d_filter <- eventReactive(
	input$button_filter,
	{

	# Reformat and Filter
	d_filter <- reformat_data(react_d_raw())
	d_filter <- d_filter[pay_ftr > 0, ] # ignoring the new daily rounds for now
	d_filter <- d_filter[round >= input$range_round[1], ]
	d_filter <- d_filter[round <= input$range_round[2], ]

	# Return
	d_filter

	})


	react_d_payout_summary <- eventReactive(
	input$button_filter,
	{

	# Summarise payout
	d_smry <-
	react_d_filter() \|>
	lazy_dt() \|>
	filter(stake > 0) \|>
	group_by(round, date_open, date_resolved, resolved) \|>
	summarise(staked_models = n(),
	total_stake = sum(stake, na.rm = T),
	net_payout = sum(payout, na.rm = T)) \|>
	as.data.table()
	d_smry$rate_of_return <- (d_smry$net_payout / d_smry$total_stake) * 100

	# Return
	d_smry

	})


	# ============================================================================
	# Reactive: Payout Value Boxes
	# ============================================================================

	output$text_payout_net <- renderText({
	if (nrow(react_d_filter()) >= 1) "Net Payouts in NMR" else " "
	})

	output$text_payout_all_models <- renderText({
	if (nrow(react_d_filter()) >= 1) "Payouts in NMR (Stacked)" else " "
	})

	output$text_payout_ind_models <- renderText({
	if (nrow(react_d_filter()) >= 1) "Payouts in NMR (Individual Models)" else " "
	})


	# ============================================================================
	# Reactive valueBox outputs: Rounds
	# ============================================================================

	output$payout_n_round_resolved <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = nrow(react_d_payout_summary()[resolved == TRUE & total_stake > 0, ]),
	subtitle = "Staked Rounds (Resolved)",
	color = "olive")
	})


	output$payout_n_round_pending <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = nrow(react_d_payout_summary()[resolved == FALSE & total_stake > 0, ]),
	subtitle = "Staked Rounds (Pending)",
	color = "yellow")
	})


	output$payout_n_round <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = nrow(react_d_payout_summary()[total_stake > 0, ]),
	subtitle = "Staked Rounds (All)",
	color = "light-blue")
	})


	# ============================================================================
	# Reactive valueBox outputs: Payouts
	# ============================================================================

	output$payout_resolved <- renderValueBox({
	valueBox(value = as.character(format(round(sum(react_d_filter()[resolved == T, ]$payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Total Payout (Resolved)",
	color = "olive")
	})

	output$payout_pending <- renderValueBox({
	valueBox(value = as.character(format(round(sum(react_d_filter()[resolved == F, ]$payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Total Payout (Pending)",
	color = "yellow")
	})

	output$payout_total <- renderValueBox({
	valueBox(value = as.character(format(round(sum(react_d_filter()$payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Total Payout (All)",
	color = "light-blue")
	})


	# ============================================================================
	# Reactive valueBox outputs: Average Round Payouts
	# ============================================================================

	output$payout_average_resolved <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = as.character(format(round(mean(react_d_payout_summary()[resolved == T & total_stake > 0, ]$net_payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Avg. Round Payout (Resolved)",
	color = "olive")
	})

	output$payout_average_pending <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = as.character(format(round(mean(react_d_payout_summary()[resolved == F & total_stake > 0, ]$net_payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Avg. Round Payout (Pending)",
	color = "yellow")
	})

	output$payout_average <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = as.character(format(round(mean(react_d_payout_summary()[total_stake > 0, ]$net_payout, na.rm = T), 2), nsmall = 2)),
	subtitle = "Avg. Round Payout (All)",
	color = "light-blue")
	})

	# ============================================================================
	# Reactive valueBox outputs: Average Rate of Return
	# ============================================================================

	output$payout_avg_ror_resolved <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = paste(as.character(format(round(mean(react_d_payout_summary()[resolved == T & total_stake > 0, ]$rate_of_return), 2), nsmall = 2)), "%"),
	subtitle = "Avg. Round ROR (Resolved)",
	color = "olive")
	})

	output$payout_avg_ror_pending <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = paste(as.character(format(round(mean(react_d_payout_summary()[resolved == F & total_stake > 0, ]$rate_of_return), 2), nsmall = 2)), "%"),
	subtitle = "Avg. Round ROR (Pending)",
	color = "yellow")
	})

	output$payout_avg_ror <- renderValueBox({
	# Use rounds with stake > 0 only
	valueBox(value = paste(as.character(format(round(mean(react_d_payout_summary()[total_stake > 0, ]$rate_of_return), 2), nsmall = 2)), "%"),
	subtitle = "Avg. Round ROR (All)",
	color = "light-blue")
	})


	# ============================================================================
	# Reactive: Payout Charts
	# ============================================================================


	# Net Payouts Bar Chart
	output$plot_payout_net <- renderPlotly({

	# Data
	d_filter <- react_d_payout_summary()

	# Filter
	d_filter <- d_filter[total_stake > 0]

	# Divider (resolved vs pending)
	x_marker <- max(d_filter[resolved == TRUE]$round) + 0.5
	y_marker <- max(d_filter$net_payout)

	# ggplot
	p <- ggplot(d_filter,
	aes(x = round, y = net_payout, fill = net_payout,
	text = paste("Round:", round,
	"\nRound Open Date:", date_open,
	"\nRound Resolved Date:", date_resolved,
	"\nRound Resolved?:", resolved,
	"\nPayout:", round(net_payout,2), "NMR"))) +

	geom_bar(position = "stack", stat = "identity") +
	theme(
	panel.border = element_rect(fill = 'transparent',
	color = "grey", linewidth = 0.25),
	panel.background = element_rect(fill = 'transparent'),
	plot.background = element_rect(fill = 'transparent', color = NA),
	panel.grid.major = element_blank(),
	panel.grid.minor = element_blank(),
	strip.background = element_rect(fill = 'transparent'),
	strip.text = element_text(),
	strip.clip = "on",
	legend.background = element_rect(fill = 'transparent'),
	legend.box.background = element_rect(fill = 'transparent')
	) +

	geom_vline(aes(xintercept = x_marker), linewidth = 0.25, color = "grey", linetype = "dashed") +
	geom_hline(aes(yintercept = 0), linewidth = 0.25, color = "grey") +

	annotate("text", x = x_marker, y = y_marker*1.2, label = "← Resolved vs. Pending →") +

	scale_fill_scico(palette = "vikO", direction = -1, midpoint = 0) +
	# scale_x_date(breaks = breaks_pretty(10),
	# labels = label_date_short(format = c("%Y", "%b", "%d"), sep = "\n")
	# ) +
	xlab("\nTournament Round") +
	ylab("Round Payout (NMR)")

	# Generate plotly
	ggplotly(p, tooltip = "text")

	})


	# Stacked Bar Chart
	output$plot_payout_stacked <- renderPlotly({

	# Data
	d_filter <- react_d_filter()

	# Filter
	d_filter <- d_filter[stake > 0]

	# Divider (resolved vs pending)
	x_marker <- max(d_filter[resolved == TRUE]$round) + 0.5

	# ggplot
	p <- ggplot(d_filter,
	aes(x = round, y = payout, fill = payout,
	text = paste("Model:", model,
	"\nRound:", round,
	"\nRound Open Date:", date_open,
	"\nRound Resolved Date:", date_resolved,
	"\nRound Resolved?:", resolved,
	"\nPayout:", round(payout,2), "NMR"))) +
	geom_bar(position = "stack", stat = "identity") +
	theme(
	panel.border = element_rect(fill = 'transparent',
	color = "grey", linewidth = 0.25),
	panel.background = element_rect(fill = 'transparent'),
	plot.background = element_rect(fill = 'transparent', color = NA),
	panel.grid.major = element_blank(),
	panel.grid.minor = element_blank(),
	strip.background = element_rect(fill = 'transparent'),
	strip.text = element_text(),
	strip.clip = "on",
	legend.background = element_rect(fill = 'transparent'),
	legend.box.background = element_rect(fill = 'transparent')
	) +
	geom_vline(aes(xintercept = x_marker), linewidth = 0.25, color = "grey", linetype = "dashed") +
	geom_hline(aes(yintercept = 0), linewidth = 0.25, color = "grey") +
	scale_fill_scico(palette = "vikO", direction = -1, midpoint = 0) +
	# scale_x_date(breaks = breaks_pretty(10),
	# labels = label_date_short(format = c("%Y", "%b", "%d"), sep = "\n")
	# ) +
	xlab("\nTournament Round") +
	ylab("Round Payout (NMR)")

	# Generate plotly
	ggplotly(p, tooltip = "text")

	})


	# Individual
	output$plot_payout_individual <- renderPlotly({

	# Data
	d_filter <- react_d_filter()

	# Filter
	d_filter <- d_filter[stake > 0]

	# Get the number of unique models
	n_model <- length(unique(d_filter$model))

	# Base plot
	p <- ggplot(d_filter,
	aes(x = round, y = payout, fill = payout,
	text = paste("Model:", model,
	"\nRound:", round,
	"\nRound Open Date:", date_open,
	"\nRound Resolved Date:", date_resolved,
	"\nRound Resolved:", resolved,
	"\nPayout:", round(payout,2), "NMR"))) +
	geom_bar(stat = "identity") +
	theme(
	panel.border = element_rect(fill = 'transparent', color = "grey", linewidth = 0.25),
	panel.background = element_rect(fill = 'transparent'),
	plot.background = element_rect(fill = 'transparent', color = NA),
	panel.grid.major = element_blank(),
	panel.grid.minor = element_blank(),
	strip.background = element_rect(fill = 'transparent'),
	strip.text = element_text(),
	strip.clip = "on",
	legend.background = element_rect(fill = 'transparent'),
	legend.box.background = element_rect(fill = 'transparent'),
	axis.text.x = element_text(angle = 45, hjust = 1)
	) +
	geom_hline(aes(yintercept = 0), linewidth = 0.25, color = "grey") +
	scale_fill_scico(palette = "vikO", direction = -1, midpoint = 0) +
	scale_x_continuous(breaks = breaks_pretty(5)) +
	xlab("\nTournament Round") +
	ylab("Payout (NMR)")

	# Facet setting
	# if ((n_model %% 4) == 0) {
	# p <- p + facet_wrap(. ~ model, ncol = 4, scales = "fixed")
	# } else if ((n_model %% 5) == 0) {
	# p <- p + facet_wrap(. ~ model, ncol = 5, scales = "fixed")
	# } else {
	# p <- p + facet_wrap(. ~ model, ncol = 6, scales = "fixed")
	# }
	p <- p + facet_wrap(. ~ model, ncol = 5, scales = "fixed") # fixed

	# Dynamic height adjustment
	height <- 600 # default minimum height
	if (n_model >= 10) height = 800
	if (n_model >= 15) height = 1000
	if (n_model >= 20) height = 1200
	if (n_model >= 25) height = 1400
	if (n_model >= 30) height = 1600
	if (n_model >= 35) height = 1800
	if (n_model >= 40) height = 2000
	if (n_model >= 45) height = 2200
	if (n_model >= 50) height = 2400
	if (n_model >= 55) height = 2600
	if (n_model >= 60) height = 2800
	if (n_model >= 65) height = 3000

	# Generate plotly
	ggplotly(p, height = height, tooltip = "text")

	})


	# ============================================================================
	# Reactive: Payout Summary Table
	# ============================================================================

	output$dt_payout_summary <- DT::renderDT({

	# Generate a new DT
	DT::datatable(

	# Data
	react_d_payout_summary(),

	# Other Options
	rownames = FALSE,
	extensions = "Buttons",
	options =
	list(
	dom = 'Bflrtip', # https://datatables.net/reference/option/dom
	buttons = list('csv', 'excel', 'copy', 'print'), # https://rstudio.github.io/DT/003-tabletools-buttons.html
	order = list(list(0, 'asc'), list(1, 'asc')),
	pageLength = 500,
	lengthMenu = c(10, 50, 100, 500, 1000),
	columnDefs = list(list(className = 'dt-center', targets = "_all")))
	) \|>

	# Reformat individual columns
	formatRound(columns = c("total_stake", "net_payout", "rate_of_return"), digits = 2) \|>

	formatStyle(columns = c("round"), fontWeight = "bold") \|>

	formatStyle(columns = c("resolved"),
	target = "row",
	backgroundColor = styleEqual(c(1,0), c("transparent", "#FFF8E1"))) \|>


	formatStyle(columns = c("total_stake"),
	fontWeight = "bold",
	color = styleInterval(cuts = -1e-15, values = c("#D24141", "#2196F3"))) \|>

	formatStyle(columns = c("net_payout"),
	fontWeight = "bold",
	color = styleInterval(cuts = c(-1e-15, 1e-15),
	values = c("#D24141", "#D1D1D1", "#00A800"))) \|>

	formatStyle(columns = c("rate_of_return"),
	fontWeight = "bold",
	color = styleInterval(cuts = c(-1e-15, 1e-15),
	values = c("#D24141", "#D1D1D1", "#00A800")))

	})


	# ============================================================================
	# Reactive: Model Performance Charts
	# ============================================================================

	# Boxplot - TC Percentile
	output$plot_boxplot_tcp <- renderPlotly({

	# Data
	d_filter <- react_d_filter()

	# Order by TC_PCT
	d_model_order <- with(d_filter, reorder(model, tc_pct, median))
	d_filter$model_order <- factor(d_filter$model, levels = levels(d_model_order))

	# ggplot2
	p <- ggplot(d_filter, aes(x = model_order, y = tc_pct, group = model_order, color = model_order)) +
	geom_boxplot() +
	theme(
	panel.border = element_blank(),
	panel.background = element_rect(fill = 'transparent'),
	plot.background = element_rect(fill = 'transparent', color = NA),
	panel.grid.major.x = element_blank(),
	panel.grid.major.y = element_line(color = "grey", linewidth = 0.25),
	panel.grid.minor = element_blank(),
	strip.background = element_rect(fill = 'transparent'),
	strip.text = element_text(),
	strip.clip = "on",
	legend.position = "none"
	) +
	scale_color_manual(values = gen_custom_palette(d_filter$model)) +
	xlab("Model") +
	ylab("TC Percentile") +
	scale_y_continuous(limits = c(0,100), breaks = breaks_pretty(4)) +
	coord_flip()


	# Dynamic height adjustment
	n_model <- length(unique(d_filter$model))
	height <- 600 # default
	if (n_model > 10) height = 800
	if (n_model > 15) height = 1000
	if (n_model > 20) height = 1200
	if (n_model > 25) height = 1400
	if (n_model > 30) height = 1600
	if (n_model > 35) height = 1800
	if (n_model > 40) height = 2000
	if (n_model > 45) height = 2200
	if (n_model > 50) height = 2400

	# Generate plotly
	ggplotly(p, height = height)

	})


	# ============================================================================
	# Reactive: Downloads
	# ============================================================================

	output$download_raw <- downloadHandler(
	filename = "raw_data.csv",
	content = function(file) {fwrite(react_d_raw(), file, row.names = FALSE)}
	)


	# ============================================================================
	# Session Info
	# ============================================================================

	output$session_info <- renderPrint({
	sessionInfo()
	})


	# ============================================================================
	# Trick to keep session alive
	# https://tickets.dominodatalab.com/hc/en-us/articles/360015932932-Increasing-the-timeout-for-Shiny-Server
	# ============================================================================

	output$keepAlive <- renderText({
	req(input$count)
	# paste("keep alive ", input$count)
	" "
	})

	}


	# ==============================================================================
	# App
	# ==============================================================================

	shinyApp(ui, server)