Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a Mathematica expression generated by another program, which I would like to open in a notebook, properly formatted. For instance, the other program generates this:


The text is written into a file, crudely suffixed ".nb", and launched, and the expression opens in a notebook without formatting. To achieve formatting, writing a file manually with BoxData seems impractical.

The file is actually being launched from .Net using Process.Start("filename.nb"), but a command line launch seems equally problematic.

share|improve this question
Just curious ... What program are you using to generate that? – Dr. belisarius Sep 5 '11 at 11:43
@ belisarius - using .Net to build a function with numerous parameters & arguments. It's not actually a plot function like the example. – Chris Degnen Sep 5 '11 at 12:00

How about this:

   ToExpression[Import["C:\\Temp\\formatTest.nb", "Text"], InputForm, MakeBoxes]]

I tested it and it seems to work (importing from the plain file, exporting to the one you will then open). This does create explicit boxes, but with a very little effort on the user's side. I did not test, but you should be able to run this code in the script mode, from the command line.


To test from within Mathematica, you can use e.g.

    Plot[{Exp[x],Interpolation[Table[{k/5, Exp[(k - 1/2)/5]}, {k, 0, 5}],
    InterpolationOrder -> 0][x]}, {x, 0, 1}, 
    Filling -> {1 -> {{2}, {Yellow, Orange}}},
    PlotLabel -> Style["Formatting", Blue, FontFamily -> "Courier"]], 

before running the code above.

share|improve this answer
Thanks. Interesting to see use of ToExpression with MakeBoxes. I can confirm it works, e.g. FullForm[ToExpression[ToString[HoldForm[FullForm[expression]]], InputForm, MakeBoxes]] == FullForm[ToBoxes[Defer[expression]]] – Chris Degnen Sep 7 '11 at 9:34
@Chris I guess I subconsciously dislike Defer, probably because I don't know of a situation where its functionality can not be achieved in other, more transparent ways. – Leonid Shifrin Sep 7 '11 at 10:48

You can use the following wrapping:

nb = CreateWindow[
       Interpolation[Table[{k/5, Exp[(k - 1/2)/5]}, {k, 0, 5}], 
       InterpolationOrder -> 0][x]}, {x, 0, 1}, 
       Filling -> {1 -> {{2}, {Yellow, Orange}}}, 
       PlotLabel -> 
       Style["Formatting", Blue, FontFamily -> "Courier"]]

then commands NotebookSave and NotebookClose can be used to save and close the thing ;)

share|improve this answer
but that does not format the Mathematica expression – Rolf Mertig Sep 5 '11 at 11:43
This is a little closer to what I'm looking for, but despite trying I can't execute it from a command line: CreateDocument[ExpressionCell[Defer[Plot[{Exp[x],Interpolation[Table[{k/5,Exp[(k‌​-1/2)/5]},{k,0,5}],InterpolationOrder->0][x]},{x,0,1},Filling->{1->{{2},{Yellow,O‌​range}}},PlotLabel->Style["Formatting",Blue,FontFamily->"Courier"]]],"Input"]] – Chris Degnen Sep 5 '11 at 11:46
@Chris You need to wrap your code in DeveloperUseFrontEnd, again I mean use UseFrontEnd` in Developer context. – Sasha Sep 6 '11 at 17:56

Unless you create the BoxData expressions explicitly there is no way to format your expression without actually invoking at least the Mathematica FrontEnd.

The closest I can think of is that you add the following:

SelectionMove[EvaluationNotebook[], Next, EvaluationCell]; 
                 "SelectionConvert", "StandardForm"]}]; 
Plot[{Exp[x], Interpolation[Table[{k/5, Exp[(1/5)*(k - 1/2)]}, {k, 0, 5}], 
                InterpolationOrder -> 0][x]}, {x, 0, 1}, 
  Filling -> {1 -> {{2}, {Yellow, Orange}}}, 
  PlotLabel -> Style["Formatting", Blue, FontFamily -> "Courier"], 
  Evaluated -> True]
SelectionMove[EvaluationNotebook[], After, GeneratedCell]; 

which automatically formats the Plot command when the cell is evaluated. (BTW: You probably should either add Evaluate in front of the list or add the (not-so-well documented) Evaluate->True option.

share|improve this answer
ToBoxes allows to convert expressions to BoxForms using only the kernel. – Alexey Popkov Sep 5 '11 at 11:58
@ Alexey - thanks. I'm getting somewhere with the Kernel output from this: ToBoxes[Defer[ Plot[{Exp[x],Interpolation[Table[{k/5,Exp[(k-1/2)/5]},{k,0,5}], InterpolationOrder->0][x]},{x,0,1},Filling->{1->{{2},{Yellow,Orange}}}, PlotLabel->Style["Formatting",Blue,FontFamily->"Courier"]] ]] – Chris Degnen Sep 5 '11 at 15:10
up vote 1 down vote accepted

Here is the solution I adopted. Thanks for all the help.

The main step of the solution is to format the command via the kernel:-

     Interpolation[Table[{k/5, Exp[(k - 1/2)/5]}, {k, 0, 5}], 
       InterpolationOrder -> 0][x]}, {x, 0, 1}, 
    Filling -> {1 -> {{2}, {Yellow, Orange}}}, 
    PlotLabel -> 
     Style["Formatting", Blue, FontFamily -> "Courier"]]]]]

Then the formatted data is encapsulated to create a notebook:-


... ( inserted box-formatted output ) ...

], "Input"]
WindowSize->{615, 750},
WindowMargins->{{328, Automatic}, {Automatic, 76}},

This is written to a file, suffixed ".nb". All fine and dandy.

This approach works well for multi-statement blocks of code, but some additional processing was included to format a single function call of the form Function[expression, options] to add a line-break before each option. Here is the C# code used to produce both types of output:-

public static class MathematicaHelpers
    public static string CreateNotebook(string mathCommand, string fileLocation, MathKernel kernel, bool addNewLines)
        if (addNewLines) {
            mathCommand = string.Format("{0}{1}{2}", "Module[{boxoutput,b2},boxoutput=FullForm[ToBoxes[Defer[", mathCommand, "]]];b2=boxoutput[[1,1,3,1]];boxoutput[[1,1,3,1]]=Join[Flatten[Riffle[Partition[b2,2],\"\\[IndentingNewLine]\"],1],{\"\\[IndentingNewLine]\",Last[b2]}];boxoutput]");
        } else {
            mathCommand = string.Format("{0}{1}{2}", "FullForm[ToBoxes[Defer[", mathCommand, "]]]");
        fileLocation = Path.ChangeExtension(fileLocation, ".nb");

        mathCommand = ComputeMathCommand(mathCommand, kernel);
        mathCommand = string.Format("{0}{1}{2}", "Notebook[{Cell[BoxData[", mathCommand,
                                    "], \"Input\"]},WindowSize->{615, 750}, WindowMargins->{{328, Automatic}, {Automatic, 76}},StyleDefinitions->\"Default.nb\"]");

        File.WriteAllText(fileLocation, mathCommand);
        return fileLocation;

    private static string ComputeMathCommand(string command, MathKernel kernel)
        return kernel.Result.ToString();
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.