## ----setup, include = FALSE--------------------------------------------------- knitr::opts_chunk$set(cache = FALSE, collapse = TRUE, comment = "#>" ) options() ## ----fig.show='hold'---------------------------------------------------------- library(nph) ## ----001, fig.show='hold', fig.width=12.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(18,nrow = 1)), lambdaMat2 = m2r(matrix(11,nrow = 1)), lambdaProgMat = m2r(matrix(9, nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 # There are no subgroups K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(11,nrow = 1)), lambdaMat2 = m2r(matrix(9, nrow = 1)), lambdaProgMat = m2r(matrix(5, nrow = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----002, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.2, .8) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18),nrow = 2)), lambdaMat2 = m2r(matrix(c(20, 11),nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(11,nrow = 1)), lambdaMat2 = m2r(matrix(9, nrow = 1)), lambdaProgMat = m2r(matrix(5, nrow = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----003, fig.show='hold', fig.width=11, warning=FALSE, out.width='100%'----- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.5, .5) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18),nrow = 2)), lambdaMat2 = m2r(matrix(c(20, 11),nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(11,nrow = 1)), lambdaMat2 = m2r(matrix(9, nrow = 1)), lambdaProgMat = m2r(matrix(5, nrow = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----004, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.5, .5) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18), nrow = 2)), lambdaMat2 = m2r(matrix(c(30, 11), nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(11, nrow = 1)), lambdaMat2 = m2r(matrix( 9, nrow = 1)), lambdaProgMat = m2r(matrix( 5, nrow = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----005, fig.show='hold', fig.width=12.5, warning=FALSE, out.width='100%'---- times <- c(0, 100, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 18), nrow = 1)), lambdaMat2 = m2r(matrix(c( 9, 11), nrow = 1)), lambdaProgMat = m2r(matrix(c( 5, 9), nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 1)), lambdaMat2 = m2r(matrix(c( 9, 9), nrow = 1)), lambdaProgMat = m2r(matrix(c( 5, 5), nrow = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----006, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 100, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(0.5, 0.5) #Proportion of subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 30, 11, 18), byrow = TRUE, nrow = 2)), lambdaMat2 = m2r(matrix(c( 9, 20, 9, 11), byrow = TRUE, nrow = 2)), lambdaProgMat = m2r(matrix(c( 5, 15, 5, 9), byrow = TRUE, nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- 1 K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 1, ncol = 2)), lambdaMat2 = m2r(matrix(c( 9, 9), nrow = 1, ncol = 2)), lambdaProgMat = m2r(matrix(c( 5, 5), nrow = 1, ncol = 2)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----007, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(18, nrow = 1)), lambdaMat2 = m2r(matrix(11, nrow = 1)), lambdaProgMat = m2r(matrix( 9, nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(1/3, 2/3) #non-switcher, switcher reponse K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 2, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 11), nrow = 2, ncol = 1)), lambdaProgMat = m2r(matrix(c( 5, 5), nrow = 2, ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, B_subgr_labels = c("Non-switcher","Switcher")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----007b, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(18, nrow = 1)), lambdaMat2 = m2r(matrix(11, nrow = 1)), lambdaProgMat = m2r(matrix( 9, nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(1/3, 2/3) #non-switcher, switcher reponse K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 2, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 14), nrow = 2, ncol = 1)), lambdaProgMat = m2r(matrix(c( 5, 5), nrow = 2, ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, B_subgr_labels = c("Non-switcher","Switcher")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----008, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(18,nrow = 1)), lambdaMat2 = m2r(matrix(11,nrow = 1)), lambdaProgMat = m2r(matrix(9, nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(2/3, 1/3) #non-switcher, switcher reponse K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 2, ncol = 1)), lambdaMat2 = m2r(matrix(c(9, 11), nrow = 2, ncol = 1)), lambdaProgMat = m2r(matrix(c(5, 5), nrow = 2, ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, B_subgr_labels = c("Non-switcher","Switcher")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----008b, fig.show='hold', fig.width=12.5, fig.height=10.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- 1 # There are no subgroups B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(18, nrow = 1)), lambdaMat2 = m2r(matrix(11, nrow = 1)), lambdaProgMat = m2r(matrix( 9, nrow = 1)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(2/3, 1/3) #non-switcher, switcher reponse K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11, 11), nrow = 2, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 14), nrow = 2, ncol = 1)), lambdaProgMat = m2r(matrix(c( 5, 5), nrow = 2, ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, B_subgr_labels = c("Non-switcher","Switcher")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----009, fig.show='hold', fig.width=12.5, fig.height=13, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.5, .5) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c( 2, 18), nrow = 2)), lambdaMat2 = m2r(matrix(c( 2, 18), nrow = 2)), lambdaProgMat = m2r(matrix(c(19, 19), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(1) K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11), nrow = 1, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9), nrow = 1, ncol = 1)), lambdaProgMat = m2r(matrix(c( 5), nrow = 1, ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----010, fig.show='hold', fig.width=12.5, fig.height=13.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.2, .8) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18), nrow = 2)), lambdaMat2 = m2r(matrix(c(30, 11), nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(2/3, 1/3*t_resp[1], 1/3*t_resp[2]) K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11), nrow = 3, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 25, 14), nrow = 3)), lambdaProgMat = m2r(matrix(c( 5), nrow = 3,ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2"), B_subgr_labels = c("Non-switcher","Switcher-S1","Switcher-S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----010b, fig.show='hold', fig.width=12.5, fig.height=13.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.5, .5) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18), nrow = 2)), lambdaMat2 = m2r(matrix(c(30, 11), nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(2/3, 1/3*t_resp[1], 1/3*t_resp[2]) K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11), nrow = 3, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 25, 14), nrow = 3)), lambdaProgMat = m2r(matrix(c( 5), nrow = 3,ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2"), B_subgr_labels = c("Non-switcher","Switcher-S1","Switcher-S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5) ## ----010c, fig.show='hold', fig.width=12.5, fig.height=13.5, warning=FALSE, out.width='100%'---- times <- c(0, 5 * 365) # Time interval boundaries, in days # Treatment group t_resp <- c(.5, .5) B5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(30, 18), nrow = 2)), lambdaMat2 = m2r(matrix(c(20, 11), nrow = 2)), lambdaProgMat = m2r(matrix(c(15, 9), nrow = 2)), p = t_resp, timezero = FALSE, discrete_approximation = TRUE ) # Control group c_resp <- c(1/3, 2/3*t_resp[1], 2/3*t_resp[2]) K5 <- pop_pchaz( T = times, lambdaMat1 = m2r(matrix(c(11), nrow = 3, ncol = 1)), lambdaMat2 = m2r(matrix(c( 9, 25, 14), nrow = 3)), lambdaProgMat = m2r(matrix(c( 5), nrow = 3,ncol = 1)), p = c_resp, timezero = TRUE, discrete_approximation = TRUE ) pp = plot_diagram(B5, K5, A_subgr_labels = c("S1", "S2"), B_subgr_labels = c("Non-switcher","Switcher-S1","Switcher-S2")) pp ## ----fig.show='hold', fig.height=3.5, fig.width=10, warning=FALSE, out.width='100%'---- plot_shhr(K5, B5)