Nothing
inst/shiny/server.R
In rTRMui: A shiny user interface for rTRM
library(shiny)
library(rTRM)
library(org.Mm.eg.db)
library(org.Hs.eg.db)
library(MotifDb)
data(biogrid_mm)
data(biogrid_hs)
.getGeneReport =
function (x, organism, sort.by = "symbol")
{
map = rTRM:::.getMapFromOrg(organism)
dd = select(map, keys=x, columns=c("SYMBOL", "GENENAME"))
#family = sapply(getTFclassFromEntrezgene(x), function(z) if (length(z) > 0) paste(z, collapse = " | ") else "")
#d = data.frame(entrezgene = x, symbol = S, description = D)#, family = family, check.names = FALSE)
d = data.frame(entrezgene = x, symbol = dd$SYMBOL, description = dd$GENENAME,stringsAsFactors = FALSE)#, family = family, check.names = FALSE)
d[order(d[, sort.by]), ]
}
.getTFreport = function(organism, sort.by = "symbol") {
e = unique(getOrthologs(organism=organism)$map_entrezgene)
e = e[e != ""]
.getGeneReport(e, organism, sort.by = sort.by)
}
tf_hs = .getTFreport("human")
tf_mm = .getTFreport("mouse")
tf_hs_eg=tf_hs$entrezgene
tf_mm_eg=tf_mm$entrezgene
tf_hs_name=apply(tf_hs,1,function(x) paste(x[2]," (",x[1],")",sep=""))
tf_mm_name=apply(tf_mm,1,function(x) paste(x[2]," (",x[1],")",sep=""))
names(tf_hs_eg)=tf_hs_name
names(tf_mm_eg)=tf_mm_name
#
.getPPIfromOrg = function(x) {
switch(x,
"human" = biogrid_hs,
"mouse" = biogrid_mm
)}
.getFilterFromOrg = function(x) {
map = rTRM:::.getMapFromOrg(x)
switch(x,
"human" = {
f = c("UBC", "SUMO1", "SUMO2", "SUMO3", "SUMO4")
},
"mouse" = {
f = c("Ubc", "Sumo1", "Sumo2", "Sumo3")
})
select(map,keys=f,columns="ENTREZID",keytype="SYMBOL")$ENTREZID
}
.getLayout = function(x) {
switch(x,
"concentric" = layout.concentric,
"circle" = layout.circle,
"arc" = layout.arc,
"kamada.kawai" = layout.kamada.kawai,
"fruchterman.reingold" = layout.fruchterman.reingold
)
}
shinyServer(function(input, output, session) {
motif = reactive({
if(!is.null(input$motif$name))
scan(input$motif$datapath, what = "")
})
query = reactive({
if(!is.null(motif())) {
switch(input$query,
"motif" = getOrthologFromMatrix(motif(), organism=org()),
"motif_motifdb" = {
getOrthologs(values(MotifDb[motif()])$geneId,organism=org())$map_entrezgene},
"gene" = getOrthologs(motif(),organism=org())$map_entrezgene
)
}
})
gene = reactive({
if(!is.null(input$gene$name))
scan(input$gene$datapath, what = "")
})
tflist = reactive({
switch(input$organism,
"human" = tf_hs,
"mouse" = tf_mm
)
})
tflist2 = reactive({
switch(input$organism,
"human" = tf_hs_eg,
"mouse" = tf_mm_eg
)
})
observe({updateSelectInput(session,"target",choices=tflist2())})
map = reactive({
rTRM:::.getMapFromOrg(input$organism)
})
org = reactive({
input$organism
})
# ABOUT TAB #####################
output$author=renderPrint({
cat("Author: ", packageDescription("rTRMui")$Author, "\n")
cat("E-mail: ", packageDescription("rTRMui")$Maintainer, "\n")
})
output$trm_citation=renderPrint({
tmp = citation(package="rTRM")
cat("Title: ", tmp$title, "\n")
cat("Author: ", paste(tmp$author, collapse = ", "), "\n")
cat("Year: ", tmp$year, "\n")
cat("Journal: ", tmp$journal, "\n")
})
output$trmui_citation=renderPrint({
tmp = citation(package="rTRMui")
cat("Title: ", tmp$title, "\n")
cat("Author: ", paste(tmp$author, collapse = ", "), "\n")
cat("Year: ", tmp$year, "\n")
cat("Journal: ", tmp$journal, "\n")
})
output$biogrid=renderPrint({
cat("Human interactome:", "\n")
cat("Release: ", biogrid_hs$info$release, "\n")
cat("Date: ", as.character(biogrid_hs$info$date), "\n")
cat("Nodes: ", vcount(biogrid_hs), "\n")
cat("Edges: ", ecount(biogrid_hs), "\n\n")
cat("Mouse interactome:", "\n")
cat("Release: ", biogrid_mm$info$release, "\n")
cat("Date: ", as.character(biogrid_mm$info$date), "\n")
cat("Nodes: ", vcount(biogrid_mm), "\n")
cat("Edges: ", ecount(biogrid_mm), "\n")
})
output$package_version = renderPrint({
cat("rTRM:", packageDescription("rTRM")$Version, "\n")
cat("rTRMui:", packageDescription("rTRMui")$Version, "\n")
cat("igraph:", packageDescription("igraph")$Version, "\n")
cat("shiny:", packageDescription("shiny")$Version, "\n")
cat("RSQLite:", packageDescription("RSQLite")$Version, "\n")
cat("org.Hs.eg.db:", packageDescription("org.Hs.eg.db")$Version, "\n")
cat("org.Mm.eg.db:", packageDescription("org.Mm.eg.db")$Version, "\n")
})
#####################
output$organism = reactive({
paste("List of", org(), "transcription factors")
})
output$ppi_vcount=renderText({
paste("PPI (original): nodes [", vcount(ppi_raw()), "] edges [", ecount(ppi_raw()))
})
output$ppi_fil_vcount=renderText({
paste("PPI (Ub/Sumo filtered): nodes [", vcount(ppi_fil()), "] edges [", ecount(ppi_fil()))
})
output$ppi_exp_vcount=renderText({
if(!is.null(ppi()))
paste("PPI (expressed): nodes [", vcount(ppi()), "] edges [", ecount(ppi()))
})
ppi_raw = reactive({
.getPPIfromOrg(input$organism)
})
ppi_fil = reactive({
if(input$filter_ppi) {
f = .getFilterFromOrg(input$organism)
removeVertices(ppi_raw(), f)
} else ppi_raw()
})
ppi = reactive({
if(!is.null(gene())) {
p = ppi_fil()
g = gene()
induced.subgraph(p, V(p)[ name %in% g ])
}
})
observe({
input$reset
isolate({
updateSelectInput(session,"organism",selected = "human")
updateSelectInput(session,"target",selected = "")
updateSelectInput(session,"query",selected="motif")
updateSelectInput(session,"extended",selected="FALSE")
updateSelectInput(session,"strict",selected="TRUE")
updateSelectInput(session,"distance",selected=1)
updateCheckboxInput(session,"filter_ppi",value = "TRUE")
})
})
target = reactive({
input$target
})
layout = reactive({
if(!is.null(trm())) {
layfun = .getLayout(input$layout)
switch(input$layout,
"concentric" = {
cl = getConcentricList(trm(), t=target(), e=query(),order.by=ifelse(input$sort,"label","name"))
layfun(trm(),concentric=cl, order.by=ifelse(input$sort,"label","name"))
},
"arc" = {
layfun(trm(),target=target(),query=query())
},
{
layfun(trm())
})
}
})
trm = reactive({
input$go
isolate({if(!is.null(target()) && !is.null(query()) && !is.null(gene()) && !is.null(ppi())) {
t = target()
g = gene()
g = unique(c(g, t)) # make sure targets are present!
q = query()
q = q[q %in% g]
p = ppi()
findTRM(p, t, q, extended=input$extended, strict=input$strict, max.bridge = as.numeric(input$distance))
}
else
NULL
})
})
output$trmdone = reactive({
if(!is.null(trm()))
TRUE # this should be a logical but there is some problem...
else
FALSE
})
outputOptions(output,"trmdone",suspendWhenHidden=FALSE)
output$target = reactive({
if(!is.null(target()))
paste("Target: ", names(target()), " [", target(), "]", sep = "")
else
"Target: undefined"
})
output$debug = renderTable({
m = ifelse(is.null(motif()), NA, length(motif()))
q = ifelse(is.null(query()), NA, length(query()))
e = ifelse(is.null(gene()), NA, length(gene()))
t = ifelse(is.null(target()), NA, target())
tn = ifelse(is.null(target()), NA, names(target()))
p = ifelse(is.null(ppi()), NA, vcount(ppi()))
data.frame(motif = m, query = q, exprs = e, target = t, name = tn, org = org(), ppi = p, extended = input$extended, strict = input$strict, dist = input$distance)
}, include.rownames = FALSE)
output$trm = renderPlot({
if(!is.null(trm()))
plotTRM(trm(), layout = layout(), vertex.cex = input$vsize, vertex.lwd = input$esize, edge.lwd = input$esize, label=as.logical(input$lsize),label.cex = input$lsize, mar = input$margin)
})
output$legend = renderPlot({
if(!is.null(trm()))
plotTRMlegend(trm(), cex = 1.5)
})
output$genes = renderDataTable({
if(!is.null(trm()))
writeTRMreport(trm(), organism = input$organism, target = target(), query = query())
},options=list(searching=FALSE))
output$tfs = renderDataTable({
tfs = switch(input$organism,
"human" = tf_hs,
"mouse" = tf_mm
)
if(is.null(input$filter))
tfs
else
tfs[grepl(input$filter, tfs$symbol,ignore.case=TRUE), ]
},options=list(searching=FALSE))
output$trmtable = downloadHandler(filename = "trmtable.txt", content = function(con) { writeTRMreport(trm(), file = con, organism = input$organism, target = target(), query = query()) })
output$trmlegend = downloadHandler(filename = "trmlegend.pdf",
content = function(con) {
pdf(file = con)
plotTRMlegend(trm(), cex = 1.5)
dev.off()
}
)
output$trmplot = downloadHandler(filename = "trmplot.pdf",
content = function(con) {
if(!is.null(trm())) {
pdf(file = con)
plotTRM(trm(), layout = layout(), vertex.cex = input$vsize, vertex.lwd = input$esize, edge.lwd = input$esize, label.cex = input$lsize, mar = input$margin)
dev.off()
} else NULL
}
)
})
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rTRMui documentation built on Nov. 8, 2020, 6:51 p.m.
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library(shiny)
library(rTRM)
library(org.Mm.eg.db)
library(org.Hs.eg.db)
library(MotifDb)
data(biogrid_mm)
data(biogrid_hs)
.getGeneReport =
function (x, organism, sort.by = "symbol")
{
map = rTRM:::.getMapFromOrg(organism)
dd = select(map, keys=x, columns=c("SYMBOL", "GENENAME"))
#family = sapply(getTFclassFromEntrezgene(x), function(z) if (length(z) > 0) paste(z, collapse = " | ") else "")
#d = data.frame(entrezgene = x, symbol = S, description = D)#, family = family, check.names = FALSE)
d = data.frame(entrezgene = x, symbol = dd$SYMBOL, description = dd$GENENAME,stringsAsFactors = FALSE)#, family = family, check.names = FALSE)
d[order(d[, sort.by]), ]
}
.getTFreport = function(organism, sort.by = "symbol") {
e = unique(getOrthologs(organism=organism)$map_entrezgene)
e = e[e != ""]
.getGeneReport(e, organism, sort.by = sort.by)
}
tf_hs = .getTFreport("human")
tf_mm = .getTFreport("mouse")
tf_hs_eg=tf_hs$entrezgene
tf_mm_eg=tf_mm$entrezgene
tf_hs_name=apply(tf_hs,1,function(x) paste(x[2]," (",x[1],")",sep=""))
tf_mm_name=apply(tf_mm,1,function(x) paste(x[2]," (",x[1],")",sep=""))
names(tf_hs_eg)=tf_hs_name
names(tf_mm_eg)=tf_mm_name
#
.getPPIfromOrg = function(x) {
switch(x,
"human" = biogrid_hs,
"mouse" = biogrid_mm
)}
.getFilterFromOrg = function(x) {
map = rTRM:::.getMapFromOrg(x)
switch(x,
"human" = {
f = c("UBC", "SUMO1", "SUMO2", "SUMO3", "SUMO4")
},
"mouse" = {
f = c("Ubc", "Sumo1", "Sumo2", "Sumo3")
})
select(map,keys=f,columns="ENTREZID",keytype="SYMBOL")$ENTREZID
}
.getLayout = function(x) {
switch(x,
"concentric" = layout.concentric,
"circle" = layout.circle,
"arc" = layout.arc,
"kamada.kawai" = layout.kamada.kawai,
"fruchterman.reingold" = layout.fruchterman.reingold
)
}
shinyServer(function(input, output, session) {
motif = reactive({
if(!is.null(input$motif$name))
scan(input$motif$datapath, what = "")
})
query = reactive({
if(!is.null(motif())) {
switch(input$query,
"motif" = getOrthologFromMatrix(motif(), organism=org()),
"motif_motifdb" = {
getOrthologs(values(MotifDb[motif()])$geneId,organism=org())$map_entrezgene},
"gene" = getOrthologs(motif(),organism=org())$map_entrezgene
)
}
})
gene = reactive({
if(!is.null(input$gene$name))
scan(input$gene$datapath, what = "")
})
tflist = reactive({
switch(input$organism,
"human" = tf_hs,
"mouse" = tf_mm
)
})
tflist2 = reactive({
switch(input$organism,
"human" = tf_hs_eg,
"mouse" = tf_mm_eg
)
})
observe({updateSelectInput(session,"target",choices=tflist2())})
map = reactive({
rTRM:::.getMapFromOrg(input$organism)
})
org = reactive({
input$organism
})
# ABOUT TAB #####################
output$author=renderPrint({
cat("Author: ", packageDescription("rTRMui")$Author, "\n")
cat("E-mail: ", packageDescription("rTRMui")$Maintainer, "\n")
})
output$trm_citation=renderPrint({
tmp = citation(package="rTRM")
cat("Title: ", tmp$title, "\n")
cat("Author: ", paste(tmp$author, collapse = ", "), "\n")
cat("Year: ", tmp$year, "\n")
cat("Journal: ", tmp$journal, "\n")
})
output$trmui_citation=renderPrint({
tmp = citation(package="rTRMui")
cat("Title: ", tmp$title, "\n")
cat("Author: ", paste(tmp$author, collapse = ", "), "\n")
cat("Year: ", tmp$year, "\n")
cat("Journal: ", tmp$journal, "\n")
})
output$biogrid=renderPrint({
cat("Human interactome:", "\n")
cat("Release: ", biogrid_hs$info$release, "\n")
cat("Date: ", as.character(biogrid_hs$info$date), "\n")
cat("Nodes: ", vcount(biogrid_hs), "\n")
cat("Edges: ", ecount(biogrid_hs), "\n\n")
cat("Mouse interactome:", "\n")
cat("Release: ", biogrid_mm$info$release, "\n")
cat("Date: ", as.character(biogrid_mm$info$date), "\n")
cat("Nodes: ", vcount(biogrid_mm), "\n")
cat("Edges: ", ecount(biogrid_mm), "\n")
})
output$package_version = renderPrint({
cat("rTRM:", packageDescription("rTRM")$Version, "\n")
cat("rTRMui:", packageDescription("rTRMui")$Version, "\n")
cat("igraph:", packageDescription("igraph")$Version, "\n")
cat("shiny:", packageDescription("shiny")$Version, "\n")
cat("RSQLite:", packageDescription("RSQLite")$Version, "\n")
cat("org.Hs.eg.db:", packageDescription("org.Hs.eg.db")$Version, "\n")
cat("org.Mm.eg.db:", packageDescription("org.Mm.eg.db")$Version, "\n")
})
#####################
output$organism = reactive({
paste("List of", org(), "transcription factors")
})
output$ppi_vcount=renderText({
paste("PPI (original): nodes [", vcount(ppi_raw()), "] edges [", ecount(ppi_raw()))
})
output$ppi_fil_vcount=renderText({
paste("PPI (Ub/Sumo filtered): nodes [", vcount(ppi_fil()), "] edges [", ecount(ppi_fil()))
})
output$ppi_exp_vcount=renderText({
if(!is.null(ppi()))
paste("PPI (expressed): nodes [", vcount(ppi()), "] edges [", ecount(ppi()))
})
ppi_raw = reactive({
.getPPIfromOrg(input$organism)
})
ppi_fil = reactive({
if(input$filter_ppi) {
f = .getFilterFromOrg(input$organism)
removeVertices(ppi_raw(), f)
} else ppi_raw()
})
ppi = reactive({
if(!is.null(gene())) {
p = ppi_fil()
g = gene()
induced.subgraph(p, V(p)[ name %in% g ])
}
})
observe({
input$reset
isolate({
updateSelectInput(session,"organism",selected = "human")
updateSelectInput(session,"target",selected = "")
updateSelectInput(session,"query",selected="motif")
updateSelectInput(session,"extended",selected="FALSE")
updateSelectInput(session,"strict",selected="TRUE")
updateSelectInput(session,"distance",selected=1)
updateCheckboxInput(session,"filter_ppi",value = "TRUE")
})
})
target = reactive({
input$target
})
layout = reactive({
if(!is.null(trm())) {
layfun = .getLayout(input$layout)
switch(input$layout,
"concentric" = {
cl = getConcentricList(trm(), t=target(), e=query(),order.by=ifelse(input$sort,"label","name"))
layfun(trm(),concentric=cl, order.by=ifelse(input$sort,"label","name"))
},
"arc" = {
layfun(trm(),target=target(),query=query())
},
{
layfun(trm())
})
}
})
trm = reactive({
input$go
isolate({if(!is.null(target()) && !is.null(query()) && !is.null(gene()) && !is.null(ppi())) {
t = target()
g = gene()
g = unique(c(g, t)) # make sure targets are present!
q = query()
q = q[q %in% g]
p = ppi()
findTRM(p, t, q, extended=input$extended, strict=input$strict, max.bridge = as.numeric(input$distance))
}
else
NULL
})
})
output$trmdone = reactive({
if(!is.null(trm()))
TRUE # this should be a logical but there is some problem...
else
FALSE
})
outputOptions(output,"trmdone",suspendWhenHidden=FALSE)
output$target = reactive({
if(!is.null(target()))
paste("Target: ", names(target()), " [", target(), "]", sep = "")
else
"Target: undefined"
})
output$debug = renderTable({
m = ifelse(is.null(motif()), NA, length(motif()))
q = ifelse(is.null(query()), NA, length(query()))
e = ifelse(is.null(gene()), NA, length(gene()))
t = ifelse(is.null(target()), NA, target())
tn = ifelse(is.null(target()), NA, names(target()))
p = ifelse(is.null(ppi()), NA, vcount(ppi()))
data.frame(motif = m, query = q, exprs = e, target = t, name = tn, org = org(), ppi = p, extended = input$extended, strict = input$strict, dist = input$distance)
}, include.rownames = FALSE)
output$trm = renderPlot({
if(!is.null(trm()))
plotTRM(trm(), layout = layout(), vertex.cex = input$vsize, vertex.lwd = input$esize, edge.lwd = input$esize, label=as.logical(input$lsize),label.cex = input$lsize, mar = input$margin)
})
output$legend = renderPlot({
if(!is.null(trm()))
plotTRMlegend(trm(), cex = 1.5)
})
output$genes = renderDataTable({
if(!is.null(trm()))
writeTRMreport(trm(), organism = input$organism, target = target(), query = query())
},options=list(searching=FALSE))
output$tfs = renderDataTable({
tfs = switch(input$organism,
"human" = tf_hs,
"mouse" = tf_mm
)
if(is.null(input$filter))
tfs
else
tfs[grepl(input$filter, tfs$symbol,ignore.case=TRUE), ]
},options=list(searching=FALSE))
output$trmtable = downloadHandler(filename = "trmtable.txt", content = function(con) { writeTRMreport(trm(), file = con, organism = input$organism, target = target(), query = query()) })
output$trmlegend = downloadHandler(filename = "trmlegend.pdf",
content = function(con) {
pdf(file = con)
plotTRMlegend(trm(), cex = 1.5)
dev.off()
}
)
output$trmplot = downloadHandler(filename = "trmplot.pdf",
content = function(con) {
if(!is.null(trm())) {
pdf(file = con)
plotTRM(trm(), layout = layout(), vertex.cex = input$vsize, vertex.lwd = input$esize, edge.lwd = input$esize, label.cex = input$lsize, mar = input$margin)
dev.off()
} else NULL
}
)
})
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