Nothing
R/summary.TC.R
In acde: Artificial Components Detection of Differentially Expressed Genes
summary.TC <-
function (object, ...)
{
dec <- 3
ACT <- as.logical(sum(apply(as.matrix(1:length(object$act)),
1, function(tp) class(object$act[[tp]]) == "STP")))
GCT <- sum(apply(as.matrix(1:length(object$gct)), 1,
function(tp) class(object$gct[[tp]]) ==
"STP")) == length(object$gct)
cat("\n")
cat("Time course analysis for detecting differentially\n")
cat("expressed genes in microarray data.\n \n")
cat("Inertia ratios (%): \n")
print(round(100 * object$iRatios, 2))
if (ACT) {
cat("\n\nActive vs complementary time points analysis:\n\n")
cat(paste("Active timepoint:", names(object$act)[object$activeTP],
"\n\n"))
cat(paste("Achieved FDR:",
round(100*object$act[[object$activeTP]]$astar, 2), "%.\n\n"))
cat("Differentially expressed genes:")
print(table(object$act[[object$activeTP]]$dgenes))
}
if (GCT) {
cat("\n\nGroups conformation through time analysis:\n\n")
tpstar <- rep(FALSE, length(object$gct))
for (tp in 1:length(object$gct)) {
tpstar[tp] <- object$gct[[tp]]$astar <= object$gct[[tp]]$alpha
}
tpstar <- (1:length(object$gct))[tpstar]
if (length(tpstar) == 1) {
cat("Differentially expressed genes:")
print(table(object$act[[tpstar]]$dgenes))
}
else {
cat("Differentially expressed genes:")
for (i in 1:(length(tpstar) - 1)) {
for (j in (i + 1):length(tpstar)) {
cat(paste("\n", names(object$gct)[tpstar[i]],
"vs", paste(names(object$gct)[tpstar[j]])))
print(addmargins(table(object$gct[[tpstar[i]]]$dgenes,
object$gct[[tpstar[j]]]$dgenes)))
}
}
}
}
}
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acde documentation built on Nov. 8, 2020, 11:10 p.m.
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summary.TC <-
function (object, ...)
{
dec <- 3
ACT <- as.logical(sum(apply(as.matrix(1:length(object$act)),
1, function(tp) class(object$act[[tp]]) == "STP")))
GCT <- sum(apply(as.matrix(1:length(object$gct)), 1,
function(tp) class(object$gct[[tp]]) ==
"STP")) == length(object$gct)
cat("\n")
cat("Time course analysis for detecting differentially\n")
cat("expressed genes in microarray data.\n \n")
cat("Inertia ratios (%): \n")
print(round(100 * object$iRatios, 2))
if (ACT) {
cat("\n\nActive vs complementary time points analysis:\n\n")
cat(paste("Active timepoint:", names(object$act)[object$activeTP],
"\n\n"))
cat(paste("Achieved FDR:",
round(100*object$act[[object$activeTP]]$astar, 2), "%.\n\n"))
cat("Differentially expressed genes:")
print(table(object$act[[object$activeTP]]$dgenes))
}
if (GCT) {
cat("\n\nGroups conformation through time analysis:\n\n")
tpstar <- rep(FALSE, length(object$gct))
for (tp in 1:length(object$gct)) {
tpstar[tp] <- object$gct[[tp]]$astar <= object$gct[[tp]]$alpha
}
tpstar <- (1:length(object$gct))[tpstar]
if (length(tpstar) == 1) {
cat("Differentially expressed genes:")
print(table(object$act[[tpstar]]$dgenes))
}
else {
cat("Differentially expressed genes:")
for (i in 1:(length(tpstar) - 1)) {
for (j in (i + 1):length(tpstar)) {
cat(paste("\n", names(object$gct)[tpstar[i]],
"vs", paste(names(object$gct)[tpstar[j]])))
print(addmargins(table(object$gct[[tpstar[i]]]$dgenes,
object$gct[[tpstar[j]]]$dgenes)))
}
}
}
}
}
Try the acde package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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