context("ICM extended models (All SOC)") # SI Models --------------------------------------------------------------- test_that("SI, 1G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SI", nsteps = 100, nsims = 1, verbose = FALSE, verbose.int = 1) x <- icm(param, init, control) expect_is(x, "icm") expect_true(all(x$epi$num == 501)) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 1G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SI", nsteps = 100, nsims = 2, verbose = FALSE, verbose.int = 5) x <- icm(param, init, control) expect_is(x, "icm") expect_true(all(x$epi$num == 501)) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) plot(x, qnts.smooth = FALSE, sim.lines = TRUE, mean.smooth = FALSE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 1G, CL: inf.prob = 0", { skip_on_cran() param <- param.icm(inf.prob = 0, act.rate = 0.25) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SI", nsteps = 25, nsims = 10, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_true(all(x$epi$num == 501)) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 13)) expect_output(summary(x, at = 25), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 25) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 2G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.5, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1") init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SI", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_true(all(x$epi$num == 501)) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) test_icm(x) }) test_that("SI, 2G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1") init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SI", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_true(all(x$epi$num == 501)) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 50)) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 1G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SI", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 1G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SI", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 50) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 2G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SI", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SI, 2G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SI", nsteps = 50, nsims = 2, verbose = FALSE, verbose.int = 5) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 50)) expect_error(comp_plot(x, at = 200)) test_icm(x) }) # SIR Models -------------------------------------------------------------- test_that("SIR, 1G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, rec.rate = 1 / 50) init <- init.icm(s.num = 500, i.num = 1, r.num = 0) control <- control.icm(type = "SIR", nsteps = 100, nsims = 1, verbose = FALSE, verbose.int = 1) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "r.num") plot(x, y = "ir.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 1G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, rec.rate = 1 / 50) init <- init.icm(s.num = 500, i.num = 1, r.num = 0) control <- control.icm(type = "SIR", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "r.num") plot(x, y = "ir.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 50) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 1G, CL: inf.prob = 0", { skip_on_cran() param <- param.icm(inf.prob = 0, act.rate = 0.25, rec.rate = 0) init <- init.icm(s.num = 500, i.num = 1, r.num = 0) control <- control.icm(type = "SIR", nsteps = 10, nsims = 10, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_equal(max(x$epi$i.num), 1) expect_equal(min(x$epi$i.num), 1) expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 13)) expect_output(summary(x, at = 10), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 10) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 2G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", rec.rate = 1 / 100, rec.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0, s.num.g2 = 500, i.num.g2 = 0, r.num.g2 = 0) control <- control.icm(type = "SIR", nsims = 1, nsteps = 100, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 2G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", rec.rate = 1 / 100, rec.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0, s.num.g2 = 500, i.num.g2 = 0, r.num.g2 = 0) control <- control.icm(type = "SIR", nsims = 2, nsteps = 50, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 50)) test_icm(x) }) test_that("SIR, 1G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 3, rec.rate = 1 / 50, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90, dr.rate = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0) control <- control.icm(type = "SIR", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 1G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 3, rec.rate = 1 / 50, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90, dr.rate = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0) control <- control.icm(type = "SIR", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 50) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 2G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, inf.prob.g2 = 0.1, act.rate = 3, balance = "g1", rec.rate = 1 / 50, rec.rate.g2 = 1 / 50, a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90, dr.rate = 1 / 100, dr.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0, s.num.g2 = 500, i.num.g2 = 0, r.num.g2 = 0) control <- control.icm(type = "SIR", nsteps = 100, nsims = 1, verbose = FALSE, verbose.int = 5) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIR, 2G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, inf.prob.g2 = 0.1, act.rate = 3, balance = "g1", rec.rate = 1 / 50, rec.rate.g2 = 1 / 50, a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90, dr.rate = 1 / 100, dr.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, r.num = 0, s.num.g2 = 500, i.num.g2 = 0, r.num.g2 = 0) control <- control.icm(type = "SIR", nsteps = 50, nsims = 2, verbose = FALSE, verbose.int = 1) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) test_icm(x) }) # SIS Models -------------------------------------------------------------- test_that("SIS, 1G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, rec.rate = 1 / 50) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SIS", nsteps = 100, nsims = 1, verbose = FALSE, verbose.int = 1) x <- icm(param, init, control) expect_equal(max(x$epi$s.num + x$epi$i.num), 501) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIS, 1G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, rec.rate = 1 / 50) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SIS", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_equal(max(x$epi$s.num + x$epi$i.num), 501) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 50) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIS, 1G, CL: inf.prob = 0", { skip_on_cran() param <- param.icm(inf.prob = 0, act.rate = 0.25, rec.rate = 0) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SIS", nsteps = 10, nsims = 10, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 13)) expect_output(summary(x, at = 10), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 10) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIS, 2G, CL: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", rec.rate = 1 / 100, rec.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SIS", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) test_icm(x) }) test_that("SIS, 2G, CL: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.25, inf.prob.g2 = 0.1, balance = "g1", rec.rate = 1 / 100, rec.rate.g2 = 1 / 100) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 0) control <- control.icm(type = "SIS", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 50)) test_icm(x) }) test_that("SIS, 1G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.5, rec.rate = 1 / 50, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SIS", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 100) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIS, 1G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, act.rate = 0.5, rec.rate = 1 / 50, a.rate = 1 / 100, ds.rate = 1 / 100, di.rate = 1 / 90) init <- init.icm(s.num = 500, i.num = 1) control <- control.icm(type = "SIS", nsteps = 50, nsims = 2, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) comp_plot(x, at = 50) expect_error(comp_plot(x, at = 200)) test_icm(x) }) test_that("SIS, 2G, OP: 1 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, inf.prob.g2 = 0.1, act.rate = 0.5, balance = "g1", rec.rate = 1 / 50, rec.rate.g2 = 1 / 50, a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 1) control <- control.icm(type = "SIS", nsteps = 100, nsims = 1, verbose = FALSE) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_output(summary(x, at = 100), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 100)) test_icm(x) }) test_that("SIS, 2G, OP: 2 sim", { skip_on_cran() param <- param.icm(inf.prob = 0.2, inf.prob.g2 = 0.1, act.rate = 0.5, balance = "g1", rec.rate = 1 / 50, rec.rate.g2 = 1 / 50, a.rate = 1 / 100, a.rate.g2 = NA, ds.rate = 1 / 100, ds.rate.g2 = 1 / 100, di.rate = 1 / 90, di.rate.g2 = 1 / 90) init <- init.icm(s.num = 500, i.num = 1, s.num.g2 = 500, i.num.g2 = 1) control <- control.icm(type = "SIS", nsteps = 50, nsims = 2, verbose = FALSE, verbose.int = 5) x <- icm(param, init, control) expect_is(x, "icm") expect_is(as.data.frame(x), "data.frame") expect_is(as.data.frame(x, out = "vals"), "data.frame") expect_is(as.data.frame(x, out = "mean"), "data.frame") expect_is(as.data.frame(x, out = "sd"), "data.frame") expect_error(as.data.frame(x, out = "vals", sim = 3)) expect_output(summary(x, at = 50), "EpiModel Summary") expect_error(summary(x, at = 200)) plot(x) plot(x, y = "i.num") plot(x, y = "si.flow", mean.smooth = TRUE) expect_error(plot(x, y = "sr.flow")) expect_error(comp_plot(x, at = 50)) test_icm(x) })