How can we evaluate a Mathematica notebook from the command line (i.e. when running the kernel in command line mode)?

Suppose we're working on a remote machine. I know it is possible to convert the notebook to an m-file, and evaluate that, but I'm curious if it's possible to do this directly using the notebook.

This is what I have so far:

First, we need to start a headless X server on the remote Linux machine, so the front end can run there (and open the notebook). Skip this step if you're working on a local machine.

Xvfb :1 &
export DISPLAY=:1

After this I started a Mathematica kernel (math) and did the following.

It's necessary to use UsingFrontEnd because opening notebook requires a front end. test.nb has a single input cell containing a=1.

In[1]:= nb=UsingFrontEnd@NotebookOpen["test.nb"]

Out[1]= -NotebookObject-

After trying to evaluate the notebook, apparently I get a dialog, and I need to use Return[] to return. I am not sure why the input line starts counting from 1 again (a new kernel was started by the front end?) Note that a didn't gain a value.

In[2]:= UsingFrontEnd@NotebookEvaluate[nb]

 In[1]:= a

 Out[1]= a

 In[2]:= Return[]

Out[2]= a

After returning from the dialog, a still doesn't have a value.

In[3]:= a

Out[3]= a
  • Looks like we're working in a similar way and are equally lazy! – acl Dec 28 '11 at 14:50
  • 1
    +1 I'd love to know this, too! I'd love to evaluate my notebooks on a remote system on our HPC. – Eli Lansey Dec 28 '11 at 15:43

This is on Windows, using Arnouds nice work and just adding plain old MathLink (pretty slow btw ...):

link = LinkCreate["8000", LinkProtocol -> "TCPIP"];
NotebookPauseForEvaluation[nb_] := Module[{},
 While[ NotebookEvaluatingQ[nb], Pause[.25] ] ];
nb = NotebookOpen["G:\\mma\\test.nb"];
SelectionMove[nb, Before, Notebook];
NotebookWrite[nb, Cell["Link = LinkConnect[\"8000\", LinkProtocol -> \"TCPIP\"]", "Input"]];
SelectionMove[nb, After, Notebook];
NotebookWrite[nb, Cell["LinkWrite[Link, a]", "Input"]];
SelectionMove[nb, All, Notebook];
a = LinkRead[link];
Print["a = ",a];
  • Thanks! Do we really need LinkProtocol -> "TCPIP" here or can we use the more efficient default? (I think by default it uses memory mapped files for interprocess commuincation) – Szabolcs Dec 28 '11 at 19:02
  • Probably. At least I cannot get it to work with LinkProtocol -> "SharedMemory" – Rolf Mertig Dec 28 '11 at 19:43
  • BTW: Why do you really need this at all? Is it not easier to save your results by DumpSave or some such? – Rolf Mertig Dec 28 '11 at 19:44
  • Perhaps he develops code on a laptop and wants to run it on remote machines. That is what I do and I find these answers very useful (and using a notebook rather than an m file is, in my case, so I can mix code and typeset discussion). – acl Dec 28 '11 at 23:14

This is a partial answer to your question. The following code opens a notebook, assigns it a "Test" kernel, evaluates the notebook in that kernel, waits for the evaluation to finish and saves the evaluated notebook. It does not cause a to be defined in the local command line kernel though.

This waits for kernel evaluations to finish in the notebook:

NotebookPauseForEvaluation[nb_] := Module[{},
 While[ NotebookEvaluatingQ[nb], Pause[.25] ] ]

This checks if any cell in the notebook is still under evaluation:


This is just a diagnostic message, when you're trying to redefine a kernel like "Test":

AddTestEvaluator::exists = "Evaluator `1` is already defined, but has a definition that is `2` and not the expected `3`.";

This is code to add an evaluator, like "Test" to the frontend:

AddTestEvaluator[evaluator_String] := Module[
 {evaluatornames, testevaluator},
 evaluatornames = EvaluatorNames /. Options[$FrontEnd, EvaluatorNames];
 testevaluator = evaluator -> {"AutoStartOnLaunch" -> False};
  MemberQ[evaluatornames, evaluator -> {"AutoStartOnLaunch" -> False}],
  MemberQ[evaluatornames, evaluator -> _],
  evaluator /. (EvaluatorNames /. Options[$FrontEnd, EvaluatorNames]),
  {"AutoStartOnLaunch" -> False}
 AppendTo[evaluatornames, testevaluator];
 SetOptions[$FrontEnd, EvaluatorNames -> evaluatornames]

Finally, this is the code to evaluate a notebook under a "Test" kernel and save the evaluated kernel:

  nb = NotebookOpen["test.nb"];

I'm still looking into a solution for your full problem (having a defined in the local command line kernel).

  • 1
    This is already very useful! Do you know if there is an easy way to transfer definitions associated with a symbol between kernels? This is exactly what happens during parallel computations, and what DistributeDefinitions does. So I guess this is already implemented. But are the functions that do this user-accessible? – Szabolcs Dec 28 '11 at 17:57

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