I'm starting to learn Stan.

Could anyone explain when and how to use syntax such as... ?

```
target +=
```

instead of just:

```
y ~ normal(mu, sigma)
```

For example in Stan manual you can find the following example.

```
model {
real ps[K]; // temp for log component densities
sigma ~ cauchy(0, 2.5);
mu ~ normal(0, 10);
for (n in 1:N) {
for (k in 1:K) {
ps[k] = log(theta[k])
+ normal_lpdf(y[n] | mu[k], sigma[k]);
}
target += log_sum_exp(ps);
}
}
```

I think the target line increases the target value, that I think it's the logarithm of the posterior density.

But the posterior density for what parameter?

When is it updated and initialized?

After Stan finishes (and converges), how do you access its value and how I use it?

Other examples:

```
data {
int<lower=0> J; // number of schools
real y[J]; // estimated treatment effects
real<lower=0> sigma[J]; // s.e. of effect estimates
}
parameters {
real mu;
real<lower=0> tau;
vector[J] eta;
}
transformed parameters {
vector[J] theta;
theta = mu + tau * eta;
}
model {
target += normal_lpdf(eta | 0, 1);
target += normal_lpdf(y | theta, sigma);
}
```

the example above uses target twice instead of just once.

another example.

```
data {
int<lower=0> N;
vector[N] y;
}
parameters {
real mu;
real<lower=0> sigma_sq;
vector<lower=-0.5, upper=0.5>[N] y_err;
}
transformed parameters {
real<lower=0> sigma;
vector[N] z;
sigma = sqrt(sigma_sq);
z = y + y_err;
}
model {
target += -2 * log(sigma);
z ~ normal(mu, sigma);
}
```

This last example even mixes both methods.

To do it even more difficult I've read that

```
y ~ normal(0,1);
```

has the same effect than

```
increment_log_prob(normal_log(y,0,1));
```

Could anyone explain why, please?

Could anyone provide a simple example written in two different ways, with "target +=" and in the regular simpler "y ~" way, please?

Regards