14.7 Discrete range distribution
14.7.1 Probability mass functions
If \(l, u \in \mathbb{Z}\) are lower and upper bounds (\(l \le u\)), then for any integer \(y \in \{l,\ldots,u\}\), \[ \text{DiscreteRange}(y ~|~ l, u) = \frac{1}{u - l + 1}. \]
14.7.2 Sampling statement
y ~
discrete_range
(l, u)
Increment the target log probability density with discrete_range_lupmf(y | l, u)
dropping constant additive terms.
Available since 2.26
14.7.3 Stan functions
All of the discrete range distributions are vectorized so that the
outcome y
and the bounds l, u
can be a single integer (type int
)
or an array of integers (type array[] int
).
real
discrete_range_lpmf
(ints y | ints l, ints u)
The log probability mass function with outcome(s) y in \(l:u\).
Available since 2.26
real
discrete_range_lupmf
(ints y | ints l, ints u)
The log probability mass function with outcome(s) y in \(l:u\)
dropping constant additive terms.
Available since 2.26
real
discrete_range_cdf
(ints y, ints l, ints u)
The discrete range cumulative distribution function
for the given y, lower and upper bounds.
Available since 2.26
real
discrete_range_lcdf
(ints y | ints l, ints u)
The log of the discrete range cumulative distribution function
for the given y, lower and upper bounds.
Available since 2.26
real
discrete_range_lccdf
(ints y | ints l, ints u)
The log of the discrete range complementary cumulative distribution function
for the given y, lower and upper bounds.
Available since 2.26
int
discrete_range_rng
(ints l, ints u)
Generate a discrete variate between the given lower and upper bounds;
may only be used in transformed data and generated quantities blocks.
Available since 2.26