There has already appeared an answer on stackoverflow on how to save the current state of the "Base" random number generator within Julia (question itself marked as duplicate). However none of the questions or answers are pertinent to random samples from distributions that are set outside the "Base" generator (even though they are used in the main "Distributions" package for Julia). Two such univariate distributions are Gamma and Beta - whose random deviates appear to be created from Distributions package calling a generator from package StatsFuns (which itself appears to rely on an R header/library).

I'm building a patient discrete event simulation model comparing treatments. To reduce monte carlo sampling error/variation between treatments I'd like the ability to save the current state of the random number generator(s) at various points along a patient pathway under one treatment. I can then restore them at appropriate points for the next treatment. Simply setting the seed at the start and resetting it for the same patient under a different treatment does not meet my needs - the stochastic nature will ensure the same patient may follow events in different sequence orders, different scenarios, then possibly converge again later where resetting is needed.

I've inserted Julia programming code that clearly shows my problem - in the first example, saving the random generator state so many iterations in from setting the seed clearly works: outputs "true" for path1 == path3. This example uses Normal distribution. Thanks to Bogumił Kamiński for the function code (borrowed/stole it from his stackoverflow answer Is there a way to obtain the state of the random number generator? ).

But for the code example that uses Gamma distribution, the same function does not work (code prints "false" for final command path1 == path3).

Can anyone please provide an equivalent function similar in spirit to the one listed below but will work for Gamma and Beta random draws (or any alternative suggestions that are not "simply reset manual seed value").

Many thanks (and apologies for long post: thought needed rationale why not duplicate question)

```
using Distributions
function reset_global_rng(rng_state)
Base.Random.GLOBAL_RNG.seed = rng_state.seed
Base.Random.GLOBAL_RNG.state = rng_state.state
Base.Random.GLOBAL_RNG.vals = rng_state.vals
Base.Random.GLOBAL_RNG.idx = rng_state.idx
end
srand(1234) # set seed
# Now generate 100,000 Normal rands
r = rand(Normal(3,11),10000)
#Now from herein my model can take two different paths:store generator
rs = deepcopy(Base.Random.GLOBAL_RNG)
# Now take path 1
path1 = rand(Normal(5,10),2)
# path2 has higher mean but more uncertainty but want to minimise
#monte carlo sampling error, hence desire to reset generator
reset_global_rng(rs)
path2 = rand(Normal(6,12),2)
#To prove the resetting worked do path3 below with same parameters as path1
reset_global_rng(rs)
path3 = rand(Normal(5,10),2)
println(path1==path3) # prints "true"
```

Below does not work correctly for gamma (or beta)

```
srand(1234) # set seed
# Now generate 100,000 Normal rands
r = rand(Normal(3,11),10000)
#Now from herein my model can take two different paths
# store generator value
rs = deepcopy(Base.Random.GLOBAL_RNG)
# Now take path 1
path1 = rand(Gamma(5,10),2)
# path2 has higher mean but more uncertainty but want to minimise
#monte carlo sampling error, hence desire to reset generator
reset_global_rng(rs)
path2 = rand(Gamma(6,12),2)
#To prove the resetting hasn't worked:
reset_global_rng(rs)
path3 = rand(Gamma(5,10),2)
println(path1==path3) # prints "false"
```

`println(path1==path3) # prints "false"`

prints`true`

on my setup (v0.7) – Dan Getz Oct 18 '17 at 11:32`true`

for me (0.6). In fact,`Rmath.jl`

sets the global random generator of`Rmath-julia`

(its C implementation) to Julia's`rand`

, which does use`GLOBAL_RNG`

. – phipsgabler Oct 18 '17 at 12:04