Mathematica has the CheckAbort function which allows to catch and handle user-generated and programmatic Aborts. But it does not allow to catch interrupts generated by such functions as TimeConstrained and MemoryConstrained:

TimeConstrained[CheckAbort[Pause[100], Print["From CheckAbort"]], 1]

(does not print "From CheckAbort").

Is there a way to catch such interrupts in Mathematica?

EDIT: I do know that third argument of TimeConstrained and MemoryConstrained allows to evaluate some code in the case of interrupt but this way is not what I need: I need a way to handle such interrupts entirely inside of my function allowing a user do not care of its internals.

P.S. The reason why I need this is that I have a function that creates MathLink objects which must be closed in the case of any interrupts or aborts but not in other cases.


The construct for this is available in undocumented form.


will cause postprocessing to take place before returning from aborts or various types of jumps.

See also:

Reliable clean-up in Mathematica

Import big files/arrays with mathematica

Daniel Lichtblau

  • Internal`WithLocalSettings evaluates postprocessing in any case, not only when an interrupt happens. I need not to close MathLink connections after any evaluation of my function - only when some interrupt or abort happens. – Alexey Popkov Sep 28 '11 at 17:12
  • 2
    This could work if a "done" flag is introduced, e.g. TimeConstrained[Module[{done=False},Internal`WithLocalSettings[Print@"start",Pause[100];done=True,If[!done, Print@"Interrupted!"]]], 5] – WReach Sep 28 '11 at 18:00
  • @WReach Good idea! But your solution does not preserve the semantics of TimeConstrained that returns output from the function it the time constrain is met. I also wish to avoid double evaluation of the output of my function. – Alexey Popkov Sep 28 '11 at 18:34
  • @WReach I did a similar one in the first edit for my answer – Leonid Shifrin Sep 28 '11 at 18:53
  • @Leonid I felt that your first edit is very close to solution but was unable to find the key - WReach has given it. I will post improved version of WReach's solution as a separate answer. – Alexey Popkov Sep 28 '11 at 19:04

Here is improved version of WReach's solution (he suggested it in a comment to the answer by Daniel Lichtblau). I should redefine my function f as follows (and now call it as ff):

SetAttributes[ff, HoldAllComplete];
ff[expr_] /; (Unset[done]; True) := 
 Internal`WithLocalSettings[Null, done = f[expr], 
  AbortProtect[If[! ValueQ[done], Print["Interrupt!"]]; Unset[done]]]


ff[1 + 1]
TimeConstrained[ff[Pause[10]; 1 + 1], 1]
(*=> prints "Interrupt!"*)
TimeConstrained[ff[Pause[.10]; 1 + 1], 1]
TimeConstrained[Pause[100], 1, Print["-->Aborted"]]


MemoryConstrained[100!, 1, Print["-->Aborted"]]
  • I meant a way to catch aborts entirely inside of my function, allowing a user do not care of closing my MathLink connections. – Alexey Popkov Sep 28 '11 at 16:59
  • @Alexey outerFunc[x_]:=TimeConstrained[innerFunc[x],10, Print[..]]? ... shieding it ... – Dr. belisarius Sep 28 '11 at 17:01
  • I need not TimeConstrained inside of my function. I just wish to allow a user to use it without risk to run into problems. – Alexey Popkov Sep 28 '11 at 17:04
  • @Alexey Could you post an example of your intended usage? One not covered by the third argument, I mean. – Dr. belisarius Sep 28 '11 at 17:07
  • Given f[expr] as my MathLink function which evaluates expr in a slave kernel, I wish to allow a user to write TimeConstrained[f[expr],10] without care of internals of f (without using of the third argument). – Alexey Popkov Sep 28 '11 at 17:17

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