I am trying to estimate the model below. The model uses a package in R called brms. I am a doing all the data manipulation in Python. To bridge the two languages I am using rpy2. I am able to load the brms package with rpy2, but I can't figure out the syntax to estimate the model. Below is a simple example of what I would like to do. I tried to follow the documentation on rpy2's website, but I can't seem to get it to work. This code works natively in R. How do I translate it to rpy2?

library(brms) 
data("kidney", package = "brms") 
head(kidney, n = 3)

fit1 <- brm(time | cens(censored) ~ age + sex + disease, 
            data = kidney, family = weibull, inits = "0")
summary(fit1)  
plot(fit1)

fit2 <- brm(time | cens(censored) ~ age + sex + disease + (1|patient),
                data = kidney, family = weibull(), inits = "0",
                prior = set_prior("cauchy(0,2)", class = "sd"))
summary(fit2)  
plot(fit2)

In Python, every non-built-in attribute or object must be qualified with a namespace. Fortunately, in R everything is an object within implicit namespaces! Most new useRs may not know but built-in core libraries, base, stats, utils, are loaded with each session. So many everyday functions like read.csv, data.frame, and lapply are actually methods within libraries and can be called in Python's style with double-colon operator: utils::read_csv(), base::lapply(), stats::lm(). To find such libaries, in R check method's doc pages with ? (i.e., ?lapply) and find in upper left corner.

Therefore, simply retain all of your R syntax, of course, adhering to Python's syntax rules such as translating dot names and without the assignment <- operator. However, rpy2 does not render graphs interactively, so you need to save plots as images to disk and print any console output. Also, one challenge may be the loading of built-in datasets. Below includes the mtcars load from the built-in R datasets package. Hopefully it is translatable.

from rpy2.robjects.packages import importr, data

# IMPORT R PACKAGES
base = importr('base')
utils = importr('utils')
datasets = importr('datasets')
stats = importr('stats', robject_translations={'as.formula': 'as_formula'})
graphics = importr('graphics')
grDevices = importr('grDevices')    
brms = importr('brms')

# LOADING DATA
# WORKING EXAMPLE: mtcars = data(datasets).fetch('mtcars')['mtcars']
kidney_df = data(brms).fetch('kidney')['kidney']
print(utils.head(kidney_df, n = 3))

# MODELING
formula1 = stats.as_formula("time | cens(censored) ~ age + sex + disease")
fit1 = brms.brm(formula1, data = kidney_df, family = "weibull", inits = "0")
print(stats.summary(fit1))

formula2 = stats.as_formula("time | cens(censored) ~ age + sex + disease + (1|patient)")    
fit2 <- brms.brm(formula2, data = kidney_df, family = "weibull", inits = "0",
                 prior = brms.set_prior("cauchy(0,2)", class = "sd"))
print(stats.summary(fit2))

# GRAPHING
grDevices.png('/path/to/plot1.png') 
graphics.plot(fit1)
grDevices.dev_off()

grDevices.png('/path/to/plot2.png') 
graphics.plot(fit2)
grDevices.dev_off()

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