I have the following code to create a sample function and to generate simulated data

```
mean_detects<- function(obs,cens) {
detects <- obs[cens==0]
nondetects <- obs[cens==1]
res <- mean(detects)
return(res)
}
mu <-log(1); sigma<- log(3); n_samples=10, n_iterations = 5; p=0.10
dset2 <- function (mu, sigma, n_samples, n_iterations, p) {
X_after <- matrix(NA_real_, nrow = n_iterations, ncol = n_samples)
delta <- matrix(NA_real_, nrow = n_iterations, ncol = n_samples)
lod <- quantile(rlnorm(100000, mu, sigma), p = p)
pct_cens <- numeric(n_iterations)
count <- 1
while(count <= n_iterations) {
X_before <- rlnorm(n_samples, mu, sigma)
X_after[count, ] <- pmax(X_before, lod)
delta [count, ] <- X_before <= lod
pct_cens[count] <- mean(delta[count,])
if (pct_cens [count] > 0 & pct_cens [count] < 1 ) count <- count + 1 }
ave_detects <- mean_detects(X_after,delta) ## how can I use apply or other functions here?
return(ave_detects)
}
```

If I specify n_iterations, I will have a 1x10 X_after matrix and also 1x10 delta matrix. Then the mean_detects function works fine using this command.

```
ave_detects <- mean_detects(X_after,delta)
```

however when I increase n_iterations to say 5, then I will have 2 5x10 X_after and delta then the mean_detects function does not work any more. It only gives me output for 1 iteration instead of 5. My real simulation has thousands of iterations so speed and memory must also be taken into account.

Edits: I edited my code based your comments. The mean_detects function that I created was meant to show an example the use of X_after and delta matrices simultaneously. The real function is very long. That's why I did not post it here.