I'm having some problems with writing a function that takes options. One of the option values is a function. I one to get at this value but keep it unevaluated. I tried every single thing I could possibly think of but nothing worked so far.

Basically, to illustrate this is what I tried:

SetAttributes[Foo, HoldRest];
Options[Foo] = {Blah -> None}

Foo[x_, OptionsPattern[]] :=

        blah = OptionValue[Automatic, Automatic, Blah, Hold];

Then when I have:

func[a_, b_, c_] := a + b + c;

I'd like to be able to call Foo with:

Foo[2, Blah -> func[1, 2, 3]]

And have the "blah" variable (inside Foo) to be unevaluated, i.e. blah = func[1, 2, 3].

Thanks for all the help in advance!


For reasons that are too long to elaborate, I cannot use RuleDelayed (:>). I'm trying to write a function that will be in a package, used by other people that don't really know Mathematica, so they would have no clue what :> is. Using rules (->) for specifying options and their values is the standard way and they familiar with that.

So to further illustrate, let's say that I'm trying to write a number generator function that takes a function that generates the actual number as one of it's options:

Options[GenerateNumbers] = {GeneratorFunction -> None};

GenerateNumbers[n_, OptionsPattern[]] :=

        func = OptionValue[GeneratorFunction];
        Table[func, {n}]

Now, if I called this function with values as follows:

GenerateNumbers[5, GeneratorFunction -> RandomReal[10]]

It would return a list of 5 numbers that are the same, since RandomReal[10] gets evaluated once and not at every iteration of Table. I want to prevent this. The problem is more complicated but it's along these lines.



Use a name for the OptionsPattern and then wrap the captured sequence object with a List and an Unevaluated. A very minimal way of capturing the right-hand side for Blah is:

SetAttributes[Foo, HoldRest]; Options[Foo] = {Blah -> None};
Foo[x_, opts : OptionsPattern[]] :=
  blah = OptionValue[Foo, Unevaluated[{opts}], Blah, Hold];

Testing it out:

In[2]:= Foo[x, Blah -> (1 + 1)]
Out[2]= Hold[1 + 1]
  • +1, that is a very interesting idea. – rcollyer Feb 18 '11 at 16:45
  • 1
    One general problem with Hold-attributes and OptionsPattern is that options passed not directly but say as Sequence@@FilterRules[{opts},Options[Foo]] (or any other way which would require their evaluation) will not be matched by OptionsPattern in the presense of Hold - attributes (I mean, HoldAll and HoldRest). Of course, this is natural in this example, but this requirement of options being only passed directly is very non-obvious and can puzzle the end-user of the function. I had this problem a few times with my own functions, and even that was quite puzzling. – Leonid Shifrin Feb 21 '11 at 16:38

Why don't you use RuleDelayed?

Foo[2, Blah :> func[1, 2, 3]]

In this case blah=Hold[func[1, 2, 3]] as expected.


Your usage of the options is a little strange. If you want to pass some expression wrapped in Hold, why not wrap it in Hold when passing, like Blah->Hold[func[1,2,3]]? Anyway, assuming this simple definition for Foo:

Foo[x_, OptionsPattern[]] :=
   blah = OptionValue[Automatic, Automatic, Blah, Hold];

you can accomplish what you want by passing an option with RuleDelayed rather than Rule:

In[7]:= func[a_, b_, c_] := a + b + c;

In[8]:= Foo[2, Blah :> func[1, 2, 3]]

Out[8]= Hold[func[1, 2, 3]] 



If you don't want Hold wrapped around, here is one way to get rid of it:

SetAttributes[setDelayedHeld, HoldFirst];
setDelayedHeld[lhs_, Hold[rhs_]] := lhs := rhs

Foo[x_, OptionsPattern[]] :=
   setDelayedHeld[blah, OptionValue[Automatic, Automatic, Blah, Hold]];

In[30]:= Foo[2, Blah :> func[1, 2, 3]]

Out[30]= {HoldPattern[blah$1018] :> func[1, 2, 3]}

I return OwnValues for blah to show that it was assigned func[1,2,3] without evaluating the latter - if this is what you want.

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