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global.R
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global.R
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# load packages
# Run the auto-installer/updater code:
source("install.R", local = TRUE)
# Default options for app startup
source("core/default-parameters.R", local = TRUE)
# For pasting times into things
simpletime = function(){gsub("\\D", "_", Sys.time())}
# Graphic-saving utilities
source("core/ggsave.R", local = TRUE)
################################################################################
# Function for standard-out phyloseq print summary in HTML
#
# http://stackoverflow.com/questions/18007440/how-to-change-font-size-in-html5
# http://www.w3schools.com/cssref/pr_font_font-size.asp
# http://stackoverflow.com/questions/19777515/r-shiny-mainpanel-display-style-and-font
################################################################################
output_phyloseq_print_html = function(physeq){
HTML(
paste(
'<p class="phyloseq-print">',
paste0(capture.output(print(physeq)), collapse=" <br/> "),
"</p>"
)
)
# Alternative tag way:
# do.call("p", args = c(list(class="phyloseq-print",
# sapply(c("alskfjs", "askfjls"), br, simplify = FALSE, USE.NAMES = FALSE))))
}
################################################################################
# Special variant of numericInput() that has a smaller default width,
# and is much more customizable, including `...`
# and an explicitly exposed `class` argument
#
# This is used by both ui.R and server.R
#
# Some helpful details.
#
# http://shiny.rstudio.com/tutorial/lesson2/
# http://shiny.rstudio.com/articles/layout-guide.html
# http://stackoverflow.com/questions/20637248/shiny-4-small-textinput-boxes-side-by-side
# http://getbootstrap.com/2.3.2/base-css.html#forms
################################################################################
numericInputRow <- function(inputId, label, value, min = NA, max = NA, step = NA, class="form-control", ...){
inputTag <- tags$input(id = inputId, type = "number", value = value, class=class, ...)
if (!is.na(min))
inputTag$attribs$min = min
if (!is.na(max))
inputTag$attribs$max = max
if (!is.na(step))
inputTag$attribs$step = step
div(style="display:inline-block",
tags$label(label, `for` = inputId),
inputTag)
}
textInputRow <- function(inputId, label, value = "", class="form-control", ...){
div(style="display:inline-block",
tags$label(label, `for` = inputId),
tags$input(id = inputId, type = "text", value = value, class=class, ...))
}
################################################################################
# Supported ggplot2 themes
################################################################################
theme_blank_custom = theme_bw() + theme(
plot.title = element_text(size = 28),
panel.grid.major = element_blank(),
panel.grid.minor = element_blank(),
axis.text.x = element_blank(),
axis.text.y = element_blank(),
axis.title.x = element_blank(),
axis.title.y = element_blank(),
axis.ticks = element_blank(),
panel.border = element_blank()
)
shiny_phyloseq_ggtheme_list <- list(
bl_wh = theme_bw(),
blank = theme_blank_custom,
thin = theme_linedraw(),
light = theme_light(),
minimal = theme_minimal(),
classic = theme_classic(),
gray = theme_gray()
)
################################################################################
# Included Data
# Define the named list of datasets to choose from
################################################################################
# Create an environment to store original loaded data
env_psdata = new.env()
# Keep server-loaded data into a special environemnt, `env_psdata`
data(list=c("GlobalPatterns", "enterotype", "esophagus"), envir = env_psdata)
load("data/kostic.RData", envir = env_psdata)
load("data/1457_uparse.RData", envir = env_psdata)
attach(env_psdata)
# Define initial list of available datasets
datalist = list(
closed_1457_uparse = closed_1457_uparse,
study_1457_Kostic = kostic,
GlobalPatterns = GlobalPatterns,
enterotype = enterotype,
esophagus = esophagus)
########################################
# Plot Rendering Stuff.
########################################
RstudioPNGsp <- png::readPNG("www/RStudio-logo-shiny-phyloseq.png")
RasterRstudio <- grid::rasterGrob(RstudioPNGsp, interpolate=TRUE)
# Define a dummy "failed plot" to return if render section cannot build valid plot.
fail_gen = function(main = "Change settings and/or click buttons.",
subtext = "",
image = RasterRstudio){
qplot(x=0, y=0, main=main) +
annotation_custom(image, xmin=-Inf, xmax=Inf, ymin=-Inf, ymax=Inf) +
annotate("text", 0, 0, size=10, color="black", hjust=0.5, vjust=-1,
label=subtext) +
theme_bw() +
theme(
plot.title = element_text(size = 28),
panel.grid.major = element_blank(),
panel.grid.minor = element_blank(),
axis.text.x = element_blank(),
axis.text.y = element_blank(),
axis.title.x = element_blank(),
axis.title.y = element_blank(),
axis.ticks = element_blank(),
panel.border = element_blank()
)
}
# Define a default controlled ggplot printing check for all print rendering
shiny_phyloseq_print = function(p, f=fail_gen()){
if(inherits(p, "ggplot")){
# Check that rendering will work
printout = NULL
try(printout <- print(p), silent=TRUE)
if(is.null(printout)){
# If still NULL, the print-render failed,
# otherwise print() would have returned a 'list'
# Nothing was printed. Print the fail graphic in its place.
print(f)
}
} else {
print(f)
}
}
# Define generic function to access/clean variables
# This especially converts "NULL" to NULL
av = function(x){
if( isTRUE(all.equal(x, "")) | isTRUE(all.equal(x, "NULL")) ){
return(NULL)
}
return(x)
}
# Generic variable-to-facet-formula conversion function
# for facet_grid.
# Could easily make a facet_row equivalent, if needed.
get_facet_grid = function(facetrow=NULL, facetcol=NULL){
if(is.null(av(facetrow)) & is.null(av(facetcol))){
return(NULL)
} else if(is.null(av(facetcol))){
# If no column value, add a "."
formstring = paste(paste(facetrow, collapse = "+"), "~", ".")
} else {
formstring = paste(
paste(facetrow, collapse = "+"),
"~",
paste(facetcol, collapse = "+")
)
}
return(as.formula(formstring))
}
################################################################################
# Component table rendering functions.
################################################################################
# Defines a function to convert
# a phyloseq data component
# into a data.frame, data.table, or matrix
# For the purpose of DataTables screen rendering
tablify_phyloseq_component = function(component, colmax=25L){
if(inherits(component, "sample_data")){
Table = data.frame(component)
}
if(inherits(component, "taxonomyTable")){
Table = [email protected]
}
if(inherits(component, "otu_table")){
if(!taxa_are_rows(component)){component <- t(component)}
Table = [email protected]
}
return(Table[, 1:min(colmax, ncol(Table))])
}
# Determine available table-like components for on-screen rendering
component_options = function(physeq){
# Initialize the return option list
component_option_list = list("NULL"="NULL")
# Get logical vector of components
nonEmpty = sapply(slotNames(physeq), function(x, ps){!is.null(access(ps, x))}, ps=physeq)
if(sum(nonEmpty)<1){return(NULL)}
# Convert to vector of slot-name strings for non-empty components
nonEmpty <- names(nonEmpty)[nonEmpty]
# Cull the non-table components
nonEmpty <- nonEmpty[!nonEmpty %in% c("phy_tree", "refseq")]
# If no tables available, return default empty option
if(length(nonEmpty)<1){return(component_option_list)}
# Otherwise add to the option list and return
compFuncString = names(phyloseq:::get.component.classes()[nonEmpty])
if("sam_data" %in% compFuncString){
compFuncString[compFuncString=="sam_data"] <- "sample_data"
}
NiceNames = c(otu_table="OTU Table",
sample_data="Sample Data",
tax_table = "Taxonomy Table")
names(compFuncString) <- NiceNames[compFuncString]
return(c(component_option_list, as.list(compFuncString)))
}
################################################################################
# Supported distance methods
################################################################################
# List of distances
# Make available for relevant panels.
distlist <- as.list(unlist(phyloseq::distanceMethodList))
names(distlist) <- distlist
distlist <- distlist[which(!distlist %in% c("ANY"))]
################################################################################
# Rescaled extension of `distance` function
################################################################################
scaled_distance = function(physeq, method, type, rescaled=TRUE){
Dist = phyloseq::distance(physeq, method, type)
if(rescaled){
# rescale the distance matrix to be [0, 1]
Dist <- Dist / max(Dist, na.rm=TRUE)
Dist <- Dist - min(Dist, na.rm=TRUE)
}
return(Dist)
}
################################################################################
# Function to convert a distance matrix and threshold value
# into an edge-table (essentially a sparse graph matrix).
# This is used by multiple panels.
################################################################################
dist_to_edge_table = function(Dist, MaxDistance=NULL, vnames = c("v1", "v2")){
dmat <- as.matrix(Dist)
# Set duplicate entries and self-links to Inf
dmat[upper.tri(dmat, diag = TRUE)] <- Inf
LinksData = data.table(reshape2::melt(dmat, varnames=vnames, as.is = TRUE))
setnames(LinksData, old = "value", new = "Distance")
# Remove self-links and duplicate links
LinksData <- LinksData[is.finite(Distance), ]
# Remove entries above the threshold, MaxDistance
if(!is.null(MaxDistance)){
LinksData <- LinksData[Distance < MaxDistance, ]
}
return(LinksData)
}
################################################################################