The goal of openmpp
is to provide a programmatic interface to the
OpenM++ API directly from R to simplify creating scenarios, running
models, and gathering results for further processing.
You can install the development version of openmpp
from
GitHub with:
# install.packages("remotes")
remotes::install_github("mattwarkentin/openmpp")
The openmpp
package contains many functions that provide access to
nearly every OpenM++ API endpoint. However, users will typically only
use a smaller set of functions for most common tasks.
Each user is required to set their local or remote host address (i.e.,
URL) for the OpenM++ API in their global or project-specific .Renviron
file in order for the openmpp
package to authenticate and communicate
with the API on behalf of the user.
For an API running locally, set the following environment variable in
your .Renviron
file:
OPENMPP_LOCAL_URL=http://localhost:XXXX
Where XXXX
is the four digits corresponding to your specific local
host address. If you aren’t sure of your host address, you may contact
the OpenM++ administrator to retrieve this information.
For an API running remotely, set the following environment variables in
your .Renviron
file:
OPENMPP_REMOTE_URL=...
OPENMPP_REMOTE_USER=...
OPENMPP_REMOTE_PWD=...
Note that the URL, user name, and password should be kept confidential and not committed into version control (e.g., git).
Once the environment variables are set, users may register a local or remote API connection in their R scripts.
library(openmpp)
use_OpenMpp_local()
Or,
library(openmpp)
use_OpenMpp_remote()
see ?use_OpenMpp_local
or ?use_OpenMpp_remote
for more information.
-
Functions for accessing tables of models, worksets, or model runs
-
get_models()
-
get_worksets()
/get_scenarios()
-
get_model_runs()
/get_runs()
-
-
Functions for creating new worksets or scenarios
create_scenario()
/create_workset()
-
Functions for loading models, worksets, or model runs
-
load_model()
-
load_workset()
/load_scenario()
-
load_model_run()
/load_run()
-
load_model_runs()
/load_runs()
-
-
Functions for deleting worksets or model runs
-
delete_workset()
/delete_scenario()
-
delete_model_run()
/delete_run()
-
There are 4 main classes you will work with when using the openmpp
package: OpenMppModel
, OpenMppWorkset
, OpenMppModelRun
, and
OpenMppModelRunSet
. Each of these are R6
classes. R6
is an
encapsulated object-oriented programming system for R. Use the
load_*()
set of functions to load a model, workset/scenario, model
run, or set of model runs into memory.
Instances of each of these 4 classes have methods and fields associated
with them. You can access public methods and fields using the standard
$
subset operator (e.g., obj$action()
or obj$field
)
Here we will work through a very simple example of creating a new scenario, extracting parameters to change, changing parameters, running the model, and extracting results.
library(openmpp)
library(dplyr)
library(ggplot2)
use_OpenMpp_remote()
Let’s see what models are available:
get_models()
#> # A tibble: 34 × 7
#> ModelId Name Digest Type Version CreateDateTime DefaultLangCode
#> <int> <chr> <chr> <int> <chr> <chr> <chr>
#> 1 101 OncoSim-allcance… 24892… 0 3.6.4.4 2024-08-09 16… EN
#> 2 101 OncoSim-breast e1f97… 0 3.6.4.4 2024-08-09 15… EN
#> 3 101 OncoSim-cervical a9583… 0 3.6.4.4 2024-08-09 15… EN
#> 4 101 OncoSim-colorect… 0636a… 0 3.6.4.4 2024-08-09 15… EN
#> 5 101 OncoSim-gmm 5dc68… 0 3.6.4.4 2024-08-09 15… EN
#> 6 101 OncoSim-lung de02f… 0 3.6.4.4 2024-08-09 16… EN
#> 7 101 OncoSim-allcance… a746a… 0 3.6.3.9 2024-03-19 13… EN
#> 8 101 OncoSim-breast 4f35e… 0 3.6.3.9 2024-03-19 12… EN
#> 9 101 OncoSim-cervical c851a… 0 3.6.3.9 2024-03-19 13… EN
#> 10 101 OncoSim-colorect… 52248… 0 3.6.3.9 2024-03-19 13… EN
#> # ℹ 24 more rows
We can now see what worksets and model runs exist for a given model.
get_worksets('RiskPaths')
#> # A tibble: 1 × 10
#> ModelName ModelDigest ModelVersion ModelCreateDateTime Name BaseRunDigest
#> <chr> <chr> <chr> <chr> <chr> <chr>
#> 1 RiskPaths d90e1e9a49a06d… 3.0.0.0 2024-02-16 20:32:4… Defa… ""
#> # ℹ 4 more variables: IsReadonly <lgl>, UpdateDateTime <chr>,
#> # IsCleanBaseRun <lgl>, Txt <list>
get_runs('RiskPaths')
#> # A tibble: 1 × 15
#> ModelName ModelDigest ModelVersion ModelCreateDateTime Name SubCount
#> <chr> <chr> <chr> <chr> <chr> <int>
#> 1 RiskPaths d90e1e9a49a06d972ec… 3.0.0.0 2024-02-16 20:32:4… Risk… 1
#> # ℹ 9 more variables: SubStarted <int>, SubCompleted <int>,
#> # CreateDateTime <chr>, Status <chr>, UpdateDateTime <chr>, RunId <int>,
#> # RunDigest <chr>, ValueDigest <chr>, RunStamp <chr>
Now we can load the RiskPaths
model to inspect.
rp <- load_model('RiskPaths')
rp
#> ── OpenM++ Model ───────────────────────────────────────────────────────────────
#> → ModelName: RiskPaths
#> → ModelVersion: 3.0.0.0
#> → ModelDigest: d90e1e9a49a06d972ecf1d50e684c62b
We will now load the Default
set of input parameters for the RiskPaths
model.
rp_default <- load_scenario('RiskPaths', 'Default')
rp_default
#> ── OpenM++ Workset ─────────────────────────────────────────────────────────────
#> → ModelName: RiskPaths
#> → ModelVersion: 3.0.0.0
#> → ModelDigest: d90e1e9a49a06d972ecf1d50e684c62b
#> → WorksetName: Default
#> → BaseRunDigest:
Finally, we will load the base run for the RiskPaths model.
baserun_digest <- rp$ModelRuns$RunDigest[[1]]
rp_baserun <- load_run('RiskPaths', baserun_digest)
rp_baserun
#> ── OpenM++ ModelRun ────────────────────────────────────────────────────────────
#> → ModelName: RiskPaths
#> → ModelVersion: 3.0.0.0
#> → ModelDigest: d90e1e9a49a06d972ecf1d50e684c62b
#> → RunName: RiskPaths_Default
#> → RunDigest: 134517d057d2008d01c9dbc418247ae3
We will create a new scenario based on the parameters from the
RiskPaths_Default
model run.
create_scenario('RiskPaths', 'MyNewScenario', baserun_digest)
We will load the new scenario, copy over the AgeBaselinePreg1
parameter from the base run.
my_scenario <- load_scenario('RiskPaths', 'MyNewScenario')
Let’s reduce the fertility rate by 10% across all age groups…
my_scenario$copy_params('AgeBaselinePreg1')
half_rate <- my_scenario$Parameters$AgeBaselinePreg1
half_rate <-
half_rate |>
mutate(across(-sub_id, \(x) x * 0.9))
my_scenario$Parameters$AgeBaselinePreg1 <- half_rate
We will now run the model and give it the name 'ExampleRun'
. We use
the wait = TRUE
flag to make sure we want for the model run to finish
before returning to our R session. We use progress = FALSE
to avoid
printing progress bars in this document. Note that model runs may take a
long time when the number of simulation cases is large.
my_scenario$ReadOnly <- TRUE
my_scenario$run('ExampleRun', wait = TRUE, progress = FALSE)
Note that we can use the opts
argument and the opts_run()
function
to configure our run. By default, models are run with 5,000 simulation
cases and 12 SubValues. This allows for quick model runs and faster
iteration, but users will want to increase the number of simulation
cases when performing a full model run.
Now that our model run is complete, let’s load it into memory.
example_run <- load_run('RiskPaths', 'ExampleRun')
example_run
#> ── OpenM++ ModelRun ────────────────────────────────────────────────────────────
#> → ModelName: RiskPaths
#> → ModelVersion: 3.0.0.0
#> → ModelDigest: d90e1e9a49a06d972ecf1d50e684c62b
#> → RunName: ExampleRun
#> → RunDigest: 204a176d2c10350a58d7b3ba9cca235b
We can now extract an output table from the Tables
field in the model
run object (example_run$Tables
).
example_run$Tables$T06_BirthsByUnion
#> # A tibble: 7 × 3
#> expr_name Dim0 expr_value
#> <chr> <chr> <dbl>
#> 1 Expr0 US_NEVER_IN_UNION 1205.
#> 2 Expr0 US_FIRST_UNION_PERIOD1 2944.
#> 3 Expr0 US_FIRST_UNION_PERIOD2 333.
#> 4 Expr0 US_AFTER_FIRST_UNION 10.0
#> 5 Expr0 US_SECOND_UNION 72.0
#> 6 Expr0 US_AFTER_SECOND_UNION 1.00
#> 7 Expr0 all 4565.
Great, we have created a new scenario, modified some parameters, ran the model, and extracted output tables. In this last step, we will load multiple model runs into memory to compare them.
rp_runs <- load_runs('RiskPaths', rp$ModelRuns$RunDigest)
rp_runs
#> ── OpenM++ ModelRunSet ─────────────────────────────────────────────────────────
#> → ModelName: RiskPaths
#> → ModelVersion: 3.0.0.0
#> → ModelDigest: d90e1e9a49a06d972ecf1d50e684c62b
#> → RunNames: [RiskPaths_Default, ExampleRun]
#> → RunDigests: [134517d057d2008d01c9dbc418247ae3, 204a176d2c10350a58d7b3ba9cca235b]
We will extract a new table from both models. Note that an extra column,
RunName
is added to indicate which model run the output table data
corresponds to.
births <- rp_runs$Tables$T06_BirthsByUnion
births
#> # A tibble: 14 × 4
#> RunName expr_name Dim0 expr_value
#> <chr> <chr> <chr> <dbl>
#> 1 RiskPaths_Default Expr0 US_NEVER_IN_UNION 1285
#> 2 RiskPaths_Default Expr0 US_FIRST_UNION_PERIOD1 2986
#> 3 RiskPaths_Default Expr0 US_FIRST_UNION_PERIOD2 293
#> 4 RiskPaths_Default Expr0 US_AFTER_FIRST_UNION 11
#> 5 RiskPaths_Default Expr0 US_SECOND_UNION 57
#> 6 RiskPaths_Default Expr0 US_AFTER_SECOND_UNION 1
#> 7 RiskPaths_Default Expr0 all 4633
#> 8 ExampleRun Expr0 US_NEVER_IN_UNION 1205.
#> 9 ExampleRun Expr0 US_FIRST_UNION_PERIOD1 2944.
#> 10 ExampleRun Expr0 US_FIRST_UNION_PERIOD2 333.
#> 11 ExampleRun Expr0 US_AFTER_FIRST_UNION 10.0
#> 12 ExampleRun Expr0 US_SECOND_UNION 72.0
#> 13 ExampleRun Expr0 US_AFTER_SECOND_UNION 1.00
#> 14 ExampleRun Expr0 all 4565.
We can even plot this using ggplot2
! Note that the number of
simulation cases for ExampleRun
is low so the results are not to
be trusted! This is only for demonstration purposes.
births |>
ggplot(aes(Dim0, expr_value, fill = RunName)) +
geom_col(position = position_dodge()) +
labs(x = NULL, y = 'Number of births by union') +
coord_flip() +
theme_minimal() +
theme(legend.position = 'bottom')
When we are sure we no longer need a scenario or model run, we can use
delete_scenario()
or delete_run()
to clean things up!
Please note that the openmpp
project is released with a Contributor
Code of
Conduct.
By contributing to this project, you agree to abide by its terms.