# NOT RUN {
mu <- 0.5; x <- seq(-2, 4, by = 0.01)
Lower <- -1; Upper <- 2.0
integrate(dtobit, lower = Lower, upper = Upper,
mean = mu, Lower = Lower, Upper = Upper)$value +
dtobit(Lower, mean = mu, Lower = Lower, Upper = Upper) +
dtobit(Upper, mean = mu, Lower = Lower, Upper = Upper) # Adds to unity
# }
# NOT RUN {
plot(x, ptobit(x, m = mu, Lower = Lower, Upper = Upper),
type = "l", ylim = 0:1, las = 1, col = "orange",
ylab = paste("ptobit(m = ", mu, ", sd = 1, Lower =", Lower,
", Upper =", Upper, ")"),
main = "Orange is cumulative distribution function; blue is density",
sub = "Purple lines are the 10,20,...,90 percentiles")
abline(h = 0)
lines(x, dtobit(x, m = mu, Lower = Lower, Upper = Upper), col = "blue")
probs <- seq(0.1, 0.9, by = 0.1)
Q <- qtobit(probs, m = mu, Lower = Lower, Upper = Upper)
lines(Q, ptobit(Q, m = mu, Lower = Lower, Upper = Upper),
col = "purple", lty = "dashed", type = "h")
lines(Q, dtobit(Q, m = mu, Lower = Lower, Upper = Upper),
col = "darkgreen", lty = "dashed", type = "h")
abline(h = probs, col = "purple", lty = "dashed")
max(abs(ptobit(Q, m = mu, Lower = Lower, Upper = Upper) - probs)) # Should be 0
endpts <- c(Lower, Upper) # Endpoints have a spike (not quite, actually)
lines(endpts, dtobit(endpts, m = mu, Lower = Lower, Upper = Upper),
col = "blue", lwd = 3, type = "h")
# }
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