Nothing
test_that("MCMC: logquad binary logit", {
n_chains <- 2
link <- "logit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains)
# dreamer post
test_posterior(
mcmc,
doses = c(1, 3, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
true_responses = rlang::expr(
ilogit(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
# with dose adjustment
test_posterior(
mcmc,
doses = c(1, 3, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
true_responses = rlang::expr(
ilogit(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) -
ilogit(
b1 + b2 * log(reference_dose + 1) + b3 * log(reference_dose + 1) ^ 2
)
)
)
})
test_that("MCMC: logquad binary probit", {
n_chains <- 2
link <- "probit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains)
# dreamer post
test_posterior(
mcmc,
doses = c(1, 3, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
true_responses = rlang::expr(
iprobit(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
# with dose adjustment
test_posterior(
mcmc,
doses = c(1, 3, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
true_responses = rlang::expr(
iprobit(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) -
iprobit(
b1 + b2 * log(reference_dose + 1) + b3 * log(reference_dose + 1) ^ 2
)
)
)
})
test_that("MCMC: logquad binary logit long linear", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "logit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_linear(0, 1, t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
true_responses = rlang::expr(
ilogit(
a + time / !!t_max * (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
true_responses = rlang::expr(
ilogit(
a + (time / !!t_max) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
) -
ilogit(
a + time / !!t_max *
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
)
)
)
)
})
test_that("MCMC: logquad binary probit long linear", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "probit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_linear(0, 1, t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
true_responses = rlang::expr(
iprobit(
a + time / !!t_max * (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
true_responses = rlang::expr(
iprobit(
a + (time / !!t_max) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
) -
iprobit(
a + time / !!t_max *
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
)
)
)
)
})
test_that("MCMC: logquad binary logit long ITP", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "logit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_itp(0, 1, t_max = t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
true_responses = rlang::expr(
ilogit(
a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
true_responses = rlang::expr(
ilogit(
a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
) -
ilogit(
(a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
)
)
)
)
)
})
test_that("MCMC: logquad binary probit long ITP", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "probit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_itp(0, 1, t_max = t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
true_responses = rlang::expr(
iprobit(
a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
true_responses = rlang::expr(
iprobit(
a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2)
) -
iprobit(
(a + (1 - exp(- c1 * time)) / (1 - exp(- c1 * !!t_max)) *
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
)
)
)
)
)
})
test_that("MCMC: logquad binary logit long IDP", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "logit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_idp(0, 1, t_max = t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
c2 = seq(- .1, - .02, length = 10) / 100,
d1 = seq(3, 4, length = 10) / 100,
d2 = seq(4, 5, length = 10) / 100,
gam = seq(.2, .33, length = 10) / 100,
true_responses = rlang::expr(
ilogit(
a + (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
a = 10:1 / 100,
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
c1 = seq(.1, 3, length = 10) / 100,
c2 = seq(- .1, - .02, length = 10) / 100,
d1 = seq(3, 4, length = 10) / 100,
d2 = seq(4, 5, length = 10) / 100,
gam = seq(.2, .33, length = 10) / 100,
true_responses = rlang::expr(
ilogit(
a + (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
) -
ilogit(
(
a +
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
)
)
)
)
})
test_that("MCMC: logquad binary probit long IDP", {
n_chains <- 2
t_max <- 4
times <- c(0, 2, 4)
link <- "probit"
data <- dreamer_data_linear_binary(
n_cohorts = c(10, 20, 30),
dose = c(1, 3, 5),
b1 = 1,
b2 = 2,
link = link,
longitudinal = "linear",
a = .5,
times = times,
t_max = t_max
)
mcmc <- dreamer_mcmc(
data,
mod = model_logquad_binary(
mu_b1 = 0,
sigma_b1 = 1,
mu_b2 = 0,
sigma_b2 = 1,
mu_b3 = 0,
sigma_b3 = 1,
link = link,
longitudinal = model_longitudinal_idp(0, 1, t_max = t_max)
),
n_iter = 5,
silent = TRUE,
convergence_warn = FALSE,
n_chains = n_chains
)
assert_mcmc_format(mcmc, n_chains, times)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
prob = c(.25, .75),
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
a = 10:1 / 100,
c1 = seq(.1, 3, length = 10) / 100,
c2 = seq(- .1, - .02, length = 10) / 100,
d1 = seq(3, 4, length = 10) / 100,
d2 = seq(4, 5, length = 10) / 100,
gam = seq(.2, .33, length = 10) / 100,
true_responses = rlang::expr(
iprobit(
a + (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
)
)
)
test_posterior(
mcmc,
doses = c(1, 3, 2),
times = c(1, 5, 2),
reference_dose = .5,
prob = c(.25, .75),
a = 10:1 / 100,
b1 = 1:10 / 100,
b2 = 2:11 / 100,
b3 = 3:12 / 100,
c1 = seq(.1, 3, length = 10) / 100,
c2 = seq(- .1, - .02, length = 10) / 100,
d1 = seq(3, 4, length = 10) / 100,
d2 = seq(4, 5, length = 10) / 100,
gam = seq(.2, .33, length = 10) / 100,
true_responses = rlang::expr(
iprobit(
a + (b1 + b2 * log(dose + 1) + b3 * log(dose + 1) ^ 2) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
) -
iprobit(
(
a +
(
b1 +
b2 * log(reference_dose + 1) +
b3 * log(reference_dose + 1) ^ 2
) * (
(1 - exp(- c1 * time)) / (1 - exp(- c1 * d1)) * (time < d1) +
(1 - gam * (1 - exp(- c2 * (time - d1))) /
(1 - exp(- c2 * (d2 - d1)))) * (d1 <= time & time <= d2) +
(1 - gam) * (time > d2)
)
)
)
)
)
})
Any scripts or data that you put into this service are public.
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.