debugging

Debugging odin models can be challenging because:

  • They’re not composable - you end up with a fairly large set of equations that govern your system, and you can’t easily split this into smaller testable units and compose them together.
  • You are writing in the DSL but the model runs in some other language; this sometimes behaves unexpectedly and is much less inspectable than just using R
  • You can’t (easily) interrupt the running of the program at any point and inspect it

Here, we outline some strategies for debugging, and describe the new features that aim to make this easier.

Using print()

As of odin 1.4.5, you can print the value of some variables in the middle of running your model. We will expand and change this functionality in future versions, your feedback is very welcome.

Consider the simple model below, which illustrates the idea:

gen <- odin::odin({
  deriv(x) <- x
  initial(x) <- 1
  print("x: {x}")
}, debug_enable = TRUE)
## Loading required namespace: pkgbuild
## Generating model in c
## ℹ Re-compiling odin156e6554 (debug build)
## ── R CMD INSTALL ───────────────────────────────────────────────────────────────
## * installing *source* package ‘odin156e6554’ ...
## ** using staged installation
## ** libs
## using C compiler: ‘gcc (Ubuntu 13.2.0-23ubuntu4) 13.2.0’
## gcc -I"/usr/share/R/include" -DNDEBUG       -fpic  -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/build/r-base-YnquTi/r-base-4.4.1=. -fstack-protector-strong -fstack-clash-protection -Wformat  -fcf-protection -fdebug-prefix-map=/build/r-base-YnquTi/r-base-4.4.1=/usr/src/r-base-4.4.1-3.2404.0 -Wdate-time -D_FORTIFY_SOURCE=3  -UNDEBUG -Wall -pedantic -g -O0 -c odin.c -o odin.o
## odin.c: In function ‘odin_metadata’:
## odin.c:76:18: warning: unused variable ‘internal’ [-Wunused-variable]
##    76 |   odin_internal *internal = odin_get_internal(internal_p, 1);
##       |                  ^~~~~~~~
## gcc -I"/usr/share/R/include" -DNDEBUG       -fpic  -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/build/r-base-YnquTi/r-base-4.4.1=. -fstack-protector-strong -fstack-clash-protection -Wformat  -fcf-protection -fdebug-prefix-map=/build/r-base-YnquTi/r-base-4.4.1=/usr/src/r-base-4.4.1-3.2404.0 -Wdate-time -D_FORTIFY_SOURCE=3  -UNDEBUG -Wall -pedantic -g -O0 -c registration.c -o registration.o
## gcc -shared -L/usr/lib/R/lib -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro -o odin156e6554.so odin.o registration.o -L/usr/lib/R/lib -lR
## installing to /tmp/Rtmpp1KmXq/devtools_install_e4f28cb80be/00LOCK-filee4fd2afb43/00new/odin156e6554/libs
## ** checking absolute paths in shared objects and dynamic libraries
## * DONE (odin156e6554)
## ℹ Loading odin156e6554
mod <- gen$new()
mod$run(c(0, 0.1))
## [0.000000] x: 1.000000
## [0.000100] x: 1.000100
## [0.000100] x: 1.000100
## [0.000200] x: 1.000200
## [0.000200] x: 1.000200
## [0.020796] x: 1.021012
## [0.020796] x: 1.021014
## [0.041392] x: 1.042257
## [0.041392] x: 1.042262
## [0.061987] x: 1.063947
## [0.061987] x: 1.063951
## [0.121251] x: 1.128890
## [0.121251] x: 1.128907
##     t        x
## 1 0.0 1.000000
## 2 0.1 1.105171

Here we’ve told odin that we want to watch the variable x and print its value at every evaluation (the third line of the model code) and to include generated code that actually prints the debugging information (debug_enable = TRUE). When we run the model it prints out the time in square brackets then the debug information following. Notice that we only requested the solution at times 0 and 0.1 but the debug information shows every point in time that the ODE solver evaluated this system of equations.

While this function shares its name with R’s print() it has entirely different functionality.

Importantly, adding the print() statement to a model has no effect unless it is compiled with debug_enable = TRUE. It’s safe to leave these statements in with no performance cost as if debug_enable = FALSE (the default) odin will simply not generate any related code.

Current limitations

This is an experimental interface, and it has not been exposed to much real-world use. As such it is possible that you might write fairly innocent looking code and it produce a compiler error rather than a nicer R error - please let us know so we can fix this.

  • There’s no good way of printing out the contents of an array aside from indexing into it. That’s possibly a reasonable thing to do though, given that most arrays get very large very quickly.
  • You can’t yet control the way that time is formatted (e.g., disabling it or changing the precision)
  • The print statement only runs in your right-hand-side function (ODE models) or update function (discrete time models) and so it’s possible that some variables that you refer to in your print statements won’t exist in this function (e.g., transient quantities used only to compute some initial condition). We hope this is rare in real-use examples but welcome minimal examples that show where this causes problems (likely you will see a compiler error)
  • We print the result at the end of the rhs/update function; if you have a crash (or are writing off the end of memory) then this might not be what you want (e.g., the variables you see are the ones in the iteration prior to the crash, or after they have been overwritten by junk). We may support printing more eagerly, after all dependencies in the expression are satisfied, with an additional option to print
  • Be careful of using integer printing (e.g., {x; d}) for variables that are merely integer-like, or you will get unexpected junk output out.