################################################################
# SIMULATIONS Statistics Binary and Survival outcomes
# Marta Bofill and Guadalupe Gómez
################################################################
rm(list = ls())
# Working directory
setwd("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation")
#####################################################################################
# PREAMBLE
#####################################################################################
# install.packages(c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))
library(copula)
library(pracma) # for using the function 'integral'
library(survival)
library(zoo) # 'rollmean' function
library(muhaz)
library(tidyr)
library(purrr) # 'possibly' function
library(foreach)
library(doParallel)
#####################################################################################
# Functions for the binary and survival setting; for the covariance computation; and for simulating the binary and time-to-event data
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/binary-functions.R')
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/survival-functions.R')
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/cov-functions.R')
# source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/simulation-functions.R')
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/simulation-functions_H1.R')
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/lstats-functions.R')
source('C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Functions/lstats_boots.R')
#####################################################################################
# setup parallel backend to use many processors
cores=detectCores()
cl <- makeCluster(cores[1]-1) #not to overload your computer
registerDoParallel(cl)
#####################################################################################
# Parameters
alpha=0.05;
z.alpha <- qnorm(1-alpha,0,1)
z.alphac <- qnorm(1-alpha/2,0,1)
# nsim: number of simulations
nsim=1000
# simulation seed
set.seed(1939)
#####################################################################################
# Scenarios H0 FALSE -- case 1
#####################################################################################
a=c(0.5,1,2)
b=c(1)
tau=c(1)
taub= c(0.5,1)
r=c(3) #unif
p0=c(0.1, 0.3)
d=c(0.075)
HR=c(0.75)
n=c(500)
# Assume we consider the following values for the rho spearman
# iRho(clayton.cop,rho=0.001)
# iRho(clayton.cop,rho=0.3)
# iRho(clayton.cop,rho=0.45)
theta=c(0.001,0.51,0.91)
# for the frank copula
# theta=c(0.001,2,3)
# test
eta=c(1)
rho=c(0,1)
gamma=c(0,1)
# omegab=c(0.5)
omegab=c(0.25,0.5,0.75)
data = tidyr::expand_grid(a,b,HR,tau,taub,r,p0,d,theta,n,eta,rho,gamma,omegab)
data$p1=data$d+data$p0
data$omegas=1-data$omegab
rm(a,b,taub,tau,r,p0,d,HR,omegab,theta,n,eta,rho,gamma)
#####################################################################################
#####################################################################################
t0=Sys.time()
#####################################################################################
#####################################################################################
Test_Power_pluginU <- c()
Test_Power_pluginU <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Unpooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginU)
data$Test_Power_pluginU <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_pluginu.RData")
#####################################################################################
Test_Power_pluginP <- c()
Test_Power_pluginP <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Pooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginP)
data$Test_Power_pluginP <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_plugin.RData")
#####################################################################################
Test_Power_Boots <- c()
Test_Power_Boots <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_boots_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i],
ws=data$omegas[i],
Boot=50)) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_Boots)
data$Test_Power_Boots <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_boots.RData")
#####################################################################################
Test_Power_Bonf <- c()
Test_Power_Bonf <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,(sum(fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])>z.alphac)>=1)))/nsim
tempMatrix
}
x=t(Test_Power_Bonf)
data$Test_Power_Bonf <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_bonf.RData")
#####################################################################################
Test_Power_S <- c()
Test_Power_S <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[2]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_S)
data$Test_Power_S <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_surv.RData")
#####################################################################################
Test_Power_B <- c()
Test_Power_B <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[1]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_B)
data$Test_Power_B <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_bin.RData")
#####################################################################################
t1=Sys.time()-t0
cat(t1, "\n", file="LOG_Results_H1_case1.txt", append=TRUE)
(t1)
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_case1.RData")
#####################################################################################
# Scenarios H0 FALSE -- case 2
#####################################################################################
a=c(0.5,1,2)
b=c(1)
tau=c(1)
taub= c(0.5,1)
r=c(3) #unif
p0=c(0.1, 0.3)
d=c(0)
HR=c(0.75)
n=c(500)
# Assume we consider the following values for the rho spearman
# iRho(clayton.cop,rho=0.001)
# iRho(clayton.cop,rho=0.3)
# iRho(clayton.cop,rho=0.45)
theta=c(0.001,0.51,0.91)
# for the frank copula
# theta=c(0.001,2,3)
# test
eta=c(1)
rho=c(0,1)
gamma=c(0,1)
# omegab=c(0.5)
omegab=c(0.25,0.5,0.75)
data = tidyr::expand_grid(a,b,HR,tau,taub,r,p0,d,theta,n,eta,rho,gamma,omegab)
data$p1=data$d+data$p0
data$omegas=1-data$omegab
rm(a,b,taub,tau,r,p0,d,HR,omegab,theta,n,eta,rho,gamma)
#####################################################################################
#####################################################################################
t0=Sys.time()
#####################################################################################
#####################################################################################
Test_Power_pluginU <- c()
Test_Power_pluginU <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Unpooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginU)
data$Test_Power_pluginU <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_pluginu.RData")
#####################################################################################
Test_Power_pluginP <- c()
Test_Power_pluginP <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Pooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginP)
data$Test_Power_pluginP <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_pluginp.RData")
#####################################################################################
Test_Power_Boots <- c()
Test_Power_Boots <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_boots_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i],
ws=data$omegas[i],
Boot=50)) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_Boots)
data$Test_Power_Boots <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_boot.RData")
#####################################################################################
Test_Power_Bonf <- c()
Test_Power_Bonf <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,(sum(fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])>z.alphac)>=1)))/nsim
tempMatrix
}
x=t(Test_Power_Bonf)
data$Test_Power_Bonf <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_bonf.RData")
#####################################################################################
Test_Power_S <- c()
Test_Power_S <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[2]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_S)
data$Test_Power_S <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_surv.RData")
#####################################################################################
Test_Power_B <- c()
Test_Power_B <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[1]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_B)
data$Test_Power_B <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case2_bin.RData")
#####################################################################################
t1=Sys.time()-t0
cat(t1, "\n", file="LOG_Results_H1_case2.txt", append=TRUE)
(t1)
rm(i)
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_case2.RData")
#####################################################################################
# Scenarios H0 FALSE -- case 3
#####################################################################################
a=c(0.5,1,2)
b=c(1)
tau=c(1)
taub= c(0.5,1)
r=c(3) #unif
p0=c(0.1, 0.3)
d=c(0.075)
HR=c(1)
n=c(500)
# Assume we consider the following values for the rho spearman
# iRho(clayton.cop,rho=0.001)
# iRho(clayton.cop,rho=0.3)
# iRho(clayton.cop,rho=0.45)
theta=c(0.001,0.51,0.91)
# for the frank copula
# theta=c(0.001,2,3)
# test
eta=c(1)
rho=c(0,1)
gamma=c(0,1)
# omegab=c(0.5)
omegab=c(0.25,0.5,0.75)
data = tidyr::expand_grid(a,b,HR,tau,taub,r,p0,d,theta,n,eta,rho,gamma,omegab)
data$p1=data$d+data$p0
data$omegas=1-data$omegab
rm(a,b,taub,tau,r,p0,d,HR,omegab,theta,n,eta,rho,gamma)
#####################################################################################
#####################################################################################
t0=Sys.time()
#####################################################################################
#####################################################################################
Test_Power_pluginU <- c()
Test_Power_pluginU <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Unpooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginU)
data$Test_Power_pluginU <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_pluginu.RData")
#####################################################################################
Test_Power_pluginP <- c()
Test_Power_pluginP <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Pooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_pluginP)
data$Test_Power_pluginP <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_pluginp.RData")
#####################################################################################
Test_Power_Boots <- c()
Test_Power_Boots <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_boots_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i],
ws=data$omegas[i],
Boot=50)) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_Boots)
data$Test_Power_Boots <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_boot.RData")
#####################################################################################
Test_Power_Bonf <- c()
Test_Power_Bonf <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,(sum(fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])>z.alphac)>=1)))/nsim
tempMatrix
}
x=t(Test_Power_Bonf)
data$Test_Power_Bonf <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_bonf.RData")
#####################################################################################
Test_Power_S <- c()
Test_Power_S <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[2]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_S)
data$Test_Power_S <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_surv.RData")
#####################################################################################
Test_Power_B <- c()
Test_Power_B <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=data$HR[i],
rate.param=data$r[i],
p0=data$p0[i], p1=data$p1[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[1]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Power_B)
data$Test_Power_B <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1case3_bin.RData")
#####################################################################################
t1=Sys.time()-t0
cat(t1, "\n", file="LOG_Results_H1_case3.txt", append=TRUE)
(t1)
rm(i)
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H1_case3.RData")
#####################################################################################
# H0 TRUE: Empirical sign level
#####################################################################################
#####################################################################################
# Scenarios H0 TRUE
#####################################################################################
a=c(0.5,1,2)
b=c(1)
tau=c(1)
taub= c(0.5,1)
r=c(3) #unif
p0=c(0.1, 0.3)
d=c(0)
HR=c(1)
n=c(500)
# Assume we consider the following values for the rho spearman
# iRho(clayton.cop,rho=0.001)
# iRho(clayton.cop,rho=0.3)
# iRho(clayton.cop,rho=0.45)
theta=c(0.001,0.51,0.91)
# for the frank copula
# theta=c(0.001,2,3)
# test
eta=c(1)
rho=c(0,1)
gamma=c(0,1)
omegab=c(0.5)
# omegab=c(0.25,0.5,0.75)
data = tidyr::expand_grid(a,b,HR,tau,taub,r,p0,d,theta,n,eta,rho,gamma,omegab)
data$p1=data$d+data$p0
data$omegas=1-data$omegab
rm(a,b,taub,tau,r,p0,d,HR,omegab,theta,n,eta,rho,gamma)
# save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/database_Scenarios_H0_True.RData")
#####################################################################################
# simulation seed
set.seed(1987)
# nsim: number of simulations
nsim=100000
#####################################################################################
#####################################################################################
t0=Sys.time()
#####################################################################################
#####################################################################################
Test_Alpha_pluginU <- c()
Test_Alpha_pluginU <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Unpooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Alpha_pluginU)
data$Test_Alpha_pluginU <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphaplugu.RData")
#####################################################################################
Test_Alpha_pluginP <- c()
Test_Alpha_pluginP <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i], ws=data$omegas[i],
var_est='Pooled')) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Alpha_pluginP)
data$Test_Alpha_pluginP <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphaplugp.RData")
#####################################################################################
Test_Alpha_Boots <- c()
Test_Alpha_Boots <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_boots_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i],
wb=data$omegab[i],
ws=data$omegas[i],
Boot=50)) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Alpha_Boots)
data$Test_Alpha_Boots <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphaboot.RData")
#####################################################################################
Test_Alpha_Bonf <- c()
Test_Alpha_Bonf <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,(sum(fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])>z.alphac)>=1)))/nsim
tempMatrix
}
x=t(Test_Alpha_Bonf)
data$Test_Alpha_Bonf <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphabonf.RData")
#####################################################################################
Test_Alpha_S <- c()
Test_Alpha_S <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[2]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Alpha_S)
data$Test_Alpha_S <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphas.RData")
#####################################################################################
Test_Alpha_B <- c()
Test_Alpha_B <- foreach(i= 1:dim(data)[1], #i= 1:2, # just for testing
.combine=cbind,
.packages=c("copula","pracma","survival","zoo","muhaz","tidyr","purrr"))%dopar% {
tempMatrix <- sum(replicate(nsim,fCS.TEST_Bonf_H1(a.shape=data$a[i], b.scale=data$b[i],
HR=1,
rate.param=data$r[i],
p0=data$p0[i], p1=data$p0[i],
ass.par=data$theta[i],
n0=data$n[i]/2, n1=data$n[i]/2,
censoring="Unif",
tau=data$tau[i],
taub=data$taub[i],
rho=data$rho[i], gam=data$gamma[i],
eta=data$eta[i])[1]) > z.alpha)/nsim
tempMatrix
}
x=t(Test_Alpha_B)
data$Test_Alpha_B <- x
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0_alphab.RData")
#####################################################################################
t1=Sys.time()-t0
cat(t1, "\n", file="LOG_Results_H0.txt", append=TRUE)
(t1)
rm(i)
save.image("C:/Users/Marta/Nextcloud/R_code/Code_PAPER/Rev_Simulation/results/RESULTS_PAPER_H0.RData")
#####################################################################################
#####################################################################################
# stop cluster
stopCluster(cl)
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