# \donttest{
# Example values
q_vals <- c(0.2, 0.5, 0.8)
gamma_par <- 2.0 # Corresponds to shape1
delta_par <- 3.0 # Corresponds to shape2 - 1
shape1 <- gamma_par
shape2 <- delta_par + 1
# Calculate CDF using pbeta_
probs <- pbeta_(q_vals, gamma_par, delta_par)
print(probs)
# Compare with stats::pbeta
probs_stats <- stats::pbeta(q_vals, shape1 = shape1, shape2 = shape2)
print(paste("Max difference vs stats::pbeta:", max(abs(probs - probs_stats))))
# Compare with pgkw setting alpha=1, beta=1, lambda=1
probs_gkw <- pgkw(q_vals, alpha = 1.0, beta = 1.0, gamma = gamma_par,
delta = delta_par, lambda = 1.0)
print(paste("Max difference vs pgkw:", max(abs(probs - probs_gkw))))
# Compare with pmc setting lambda=1
probs_mc <- pmc(q_vals, gamma = gamma_par, delta = delta_par, lambda = 1.0)
print(paste("Max difference vs pmc:", max(abs(probs - probs_mc))))
# Calculate upper tail P(X > q)
probs_upper <- pbeta_(q_vals, gamma_par, delta_par, lower_tail = FALSE)
print(probs_upper)
print(stats::pbeta(q_vals, shape1, shape2, lower.tail = FALSE))
# Calculate log CDF
log_probs <- pbeta_(q_vals, gamma_par, delta_par, log_p = TRUE)
print(log_probs)
print(stats::pbeta(q_vals, shape1, shape2, log.p = TRUE))
# Plot the CDF
curve_q <- seq(0.001, 0.999, length.out = 200)
curve_p <- pbeta_(curve_q, gamma = 2, delta = 3) # Beta(2, 4)
plot(curve_q, curve_p, type = "l", main = "Beta(2, 4) CDF via pbeta_",
xlab = "q", ylab = "F(q)", col = "blue")
curve(stats::pbeta(x, 2, 4), add=TRUE, col="red", lty=2)
legend("bottomright", legend=c("pbeta_(gamma=2, delta=3)", "stats::pbeta(shape1=2, shape2=4)"),
col=c("blue", "red"), lty=c(1,2), bty="n")
# }
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