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R/see.Fcdf.r
In asbio: A Collection of Statistical Tools for Biologists
Defines functions
command
see.Fcdf.tck<-function ()
{
# old.par <- par(no.readonly = TRUE)
if (!exists("slider.env"))
slider.env <- NULL; suppressWarnings(rm(slider.env)); slider.env <<- new.env()# Dummy to trick R CMD check
nu1 <- 5
assign("nu1", tclVar(nu1), envir = slider.env)
nu2 <- 5
assign("nu2", tclVar(nu2), envir = slider.env)
xmin <- 0
assign("xmin", tclVar(xmin), envir = slider.env)
xmax <- 10
assign("xmax", tclVar(xmax), envir = slider.env)
dev.new(height=4,width=8);par(mar=c(4.4,4.5,1,0.5),cex=.85, oma = c(0,0,1.5,0)); layout(matrix(c(1,2), 1, 2, byrow = TRUE))
norm.refresh <- function(...) {
nu1 <- as.numeric(evalq(tclvalue(nu1), envir = slider.env))
nu2 <- as.numeric(evalq(tclvalue(nu2), envir = slider.env))
xmin <- as.numeric(evalq(tclvalue(xmin), envir = slider.env))
xmax <- as.numeric(evalq(tclvalue(xmax), envir = slider.env))
xx <- seq(0, 10, length = 200)
yy <- df(xx, nu1, nu2)
y1 <- pf(xx, nu1, nu2)
dev.hold()
plot(xx, yy, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(f),"(",italic(x),")", sep = "")))
plot(xx, y1, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(F),"(",italic(x),")", sep = "")))
mtext(bquote(paste(italic(X), " ~ ", italic(F), "(", .(nu1), ", ", .(nu2),")", sep = "")), outer = TRUE, side = 3, cex = .9)
dev.flush()
}
tclServiceMode(TRUE)
m <- tktoplevel()
tkwm.title(m, "F(\u03bd\u2081, \u03bd\u2082)")
tkpack(tklabel(m,text=" Visualizing the F Distribution "))
tkwm.geometry(m, "+0+0")
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2081',width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu1), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2082',width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(tklabel(fr, text = "Xmin:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmin), envir = slider.env)
tkpack(tklabel(fr, text = "Xmax:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmax), envir = slider.env)
tkpack(tkbutton(m, text = "Refresh", command = norm.refresh),
side = "left")
tkpack(tkbutton(m, text = "Exit", command = function() tkdestroy(m)),
side = "right")
# on.exit(par(old.par))
}
see.F.tck<-function ()
{
if (!exists("slider.env"))
slider.env <- NULL; suppressWarnings(rm(slider.env)); slider.env <<- new.env()# Dummy to trick R CMD check
nu1 <- 5
assign("nu1", tclVar(nu1), envir = slider.env)
nu2 <- 5
assign("nu2", tclVar(nu2), envir = slider.env)
xmin <- 0
assign("xmin", tclVar(xmin), envir = slider.env)
xmax <- 10
assign("xmax", tclVar(xmax), envir = slider.env)
norm.refresh <- function(...) {
nu1 <- as.numeric(evalq(tclvalue(nu1), envir = slider.env))
nu2 <- as.numeric(evalq(tclvalue(nu2), envir = slider.env))
xmin <- as.numeric(evalq(tclvalue(xmin), envir = slider.env))
xmax <- as.numeric(evalq(tclvalue(xmax), envir = slider.env))
xx <- seq(0, 10, length = 200)
yy <- df(xx, nu1, nu2)
dev.hold()
plot(xx, yy, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(f),"(",italic(x),")", sep = "")))
mtext(bquote(paste(italic(X), " ~ ", italic(F), "(", .(nu1), ", ", .(nu2),")", sep = "")), line = 1, side = 3)
dev.flush()
}
tclServiceMode(TRUE)
m <- tktoplevel()
tkwm.title(m, "F(\u03bd\u2081, \u03bd\u2082)")
tkpack(tklabel(m,text=" Visualizing the F Distribution "))
tkwm.geometry(m, "+0+0")
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2081', width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu1), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2082', width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(tklabel(fr, text = "Xmin:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmin), envir = slider.env)
tkpack(tklabel(fr, text = "Xmax:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmax), envir = slider.env)
tkpack(tkbutton(m, text = "Refresh", command = norm.refresh),
side = "left")
tkpack(tkbutton(m, text = "Exit", command = function() tkdestroy(m)),
side = "right")
}
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Defines functions command
see.Fcdf.tck<-function ()
{
# old.par <- par(no.readonly = TRUE)
if (!exists("slider.env"))
slider.env <- NULL; suppressWarnings(rm(slider.env)); slider.env <<- new.env()# Dummy to trick R CMD check
nu1 <- 5
assign("nu1", tclVar(nu1), envir = slider.env)
nu2 <- 5
assign("nu2", tclVar(nu2), envir = slider.env)
xmin <- 0
assign("xmin", tclVar(xmin), envir = slider.env)
xmax <- 10
assign("xmax", tclVar(xmax), envir = slider.env)
dev.new(height=4,width=8);par(mar=c(4.4,4.5,1,0.5),cex=.85, oma = c(0,0,1.5,0)); layout(matrix(c(1,2), 1, 2, byrow = TRUE))
norm.refresh <- function(...) {
nu1 <- as.numeric(evalq(tclvalue(nu1), envir = slider.env))
nu2 <- as.numeric(evalq(tclvalue(nu2), envir = slider.env))
xmin <- as.numeric(evalq(tclvalue(xmin), envir = slider.env))
xmax <- as.numeric(evalq(tclvalue(xmax), envir = slider.env))
xx <- seq(0, 10, length = 200)
yy <- df(xx, nu1, nu2)
y1 <- pf(xx, nu1, nu2)
dev.hold()
plot(xx, yy, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(f),"(",italic(x),")", sep = "")))
plot(xx, y1, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(F),"(",italic(x),")", sep = "")))
mtext(bquote(paste(italic(X), " ~ ", italic(F), "(", .(nu1), ", ", .(nu2),")", sep = "")), outer = TRUE, side = 3, cex = .9)
dev.flush()
}
tclServiceMode(TRUE)
m <- tktoplevel()
tkwm.title(m, "F(\u03bd\u2081, \u03bd\u2082)")
tkpack(tklabel(m,text=" Visualizing the F Distribution "))
tkwm.geometry(m, "+0+0")
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2081',width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu1), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2082',width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(tklabel(fr, text = "Xmin:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmin), envir = slider.env)
tkpack(tklabel(fr, text = "Xmax:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmax), envir = slider.env)
tkpack(tkbutton(m, text = "Refresh", command = norm.refresh),
side = "left")
tkpack(tkbutton(m, text = "Exit", command = function() tkdestroy(m)),
side = "right")
# on.exit(par(old.par))
}
see.F.tck<-function ()
{
if (!exists("slider.env"))
slider.env <- NULL; suppressWarnings(rm(slider.env)); slider.env <<- new.env()# Dummy to trick R CMD check
nu1 <- 5
assign("nu1", tclVar(nu1), envir = slider.env)
nu2 <- 5
assign("nu2", tclVar(nu2), envir = slider.env)
xmin <- 0
assign("xmin", tclVar(xmin), envir = slider.env)
xmax <- 10
assign("xmax", tclVar(xmax), envir = slider.env)
norm.refresh <- function(...) {
nu1 <- as.numeric(evalq(tclvalue(nu1), envir = slider.env))
nu2 <- as.numeric(evalq(tclvalue(nu2), envir = slider.env))
xmin <- as.numeric(evalq(tclvalue(xmin), envir = slider.env))
xmax <- as.numeric(evalq(tclvalue(xmax), envir = slider.env))
xx <- seq(0, 10, length = 200)
yy <- df(xx, nu1, nu2)
dev.hold()
plot(xx, yy, type = "l", xlim = c(xmin, xmax),xlab=expression(italic(x)),ylab=expression(paste(italic(f),"(",italic(x),")", sep = "")))
mtext(bquote(paste(italic(X), " ~ ", italic(F), "(", .(nu1), ", ", .(nu2),")", sep = "")), line = 1, side = 3)
dev.flush()
}
tclServiceMode(TRUE)
m <- tktoplevel()
tkwm.title(m, "F(\u03bd\u2081, \u03bd\u2082)")
tkpack(tklabel(m,text=" Visualizing the F Distribution "))
tkwm.geometry(m, "+0+0")
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2081', width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu1), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
tkpack(tklabel(fr, text = '\u03bd\u2082', width = "20"), side = "right")
tkpack(sc <- tkscale(fr, command = norm.refresh, from = 1,
to = 30, orient = "horiz", resolution = 1, showvalue = TRUE),
side = "left")
assign("sc", sc, envir = slider.env)
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(fr <- tkframe(m), side = "top")
evalq(tkconfigure(sc, variable = nu2), envir = slider.env)
tkpack(tklabel(fr, text = "Xmin:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmin), envir = slider.env)
tkpack(tklabel(fr, text = "Xmax:", width = 6), side = "left")
tkpack(e <- tkentry(fr, width = 8), side = "left")
assign("e", e, envir = slider.env)
evalq(tkconfigure(e, textvariable = xmax), envir = slider.env)
tkpack(tkbutton(m, text = "Refresh", command = norm.refresh),
side = "left")
tkpack(tkbutton(m, text = "Exit", command = function() tkdestroy(m)),
side = "right")
}
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