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Just wanted to check if it safe to do the following:

Lets say I have a function 'f(x)' that also depends on other parameters. For example, the function a*Exp[ (x-x0)^2/(2*std^2)]

From the UI I read the user input values (via sliders) for the parameters a and x0 and std, then I make a pure function variable

 f=Function[{x,a,x0,std}, a*Exp[ (x-x0)^2/(2*std^2)]

The above is done in the same context (in the Manipulate control area), when I am reading the user input, then when the user hits a button to run the program, I call another lower level function to process this input, like this


then inside foo, it evaluates f over some grid points (x1,x2,etc...) by making calls like this

   f[x3,a,x0,std]; etc... 

Notice that inside foo, only the x parameter to the pure function is used, the rest are just coming along for the ride.

But since they are not used inside foo, I am thinking of not passing all the other parameters a,x0,std.

So, I changed the pure function to become

 f=Function[{x}, a*Exp[ (x-x0)^2/(2*std^2)];

then called foo like this


then inside foo, I do

   f[x3]; etc...

I tested this, and it works. (at first I thought since the context is different inside Module foo, I had to pass a,x0,std along with f. But I did not have to. It seems the a, x0 and stdx values inside the pure function as saved as globals and passed in the pure function body.

My question: do you see any problem with the second approach above? something I am overlooking? in the tests I've done, it works fine so far. And it would make it much simpler, since now I only need to pass the pure function itself, and not pass all the other parameters used to build up, since they are not needed inside foo.

In other words, I am trying to decide between these 2 setups:

enter image description here

Just thought to check.


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1 Answer 1

up vote 7 down vote accepted

How about something along these lines:

mkf[a_, x0_, std_] := 
 Function[{x}, Evaluate[a*Exp[(x - x0)^2/(2*std^2)]]]

foo[f_] := Module[{x},
      x = 1;

foo[mkf[1, 1, 1]]

You generate the function you want to use before passing it onwards.

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good idea. So you basically replaced the parameters by numbers, except for the x, so that when the pure function is passed, only x the free variable in it. Should be safer. How about in this case, if I use With to build f? as I show in my edit(1). Same idea as yours. seems to have the same result. thanks –  Nasser Jan 12 '12 at 13:07
With is fine too; in some cases you may be able to use Evaluate to get things simplified as much as possible. The point is to generate a new function that is independent of other variables. –  user1054186 Jan 12 '12 at 13:09
+1 - I would have done it similarly (generate a closure with embedded constants). One thing though: since you use Evaluate (which is not strictly needed here), only the renaming of x to x$, done by (presumably) SetDelayed / RuleDelayed, saves x in the function body from accidental collisions with the possible global value for x. (which happens e.g. here: x = 1;Function[{x}, Evaluate[a*Exp[(x - x0)^2/(2*std^2)]]]). I don't know whether we can always count on renaming scheme in such cases, but one easy protective measure would be to wrap the r.h.s. of mkf into Block[{x},...]. –  Leonid Shifrin Jan 12 '12 at 14:11
@Nasser You can use the method suggested here, also in case when your parameters are not known in advance, or you find it inconveneinet to generate a function beforehand: simply generate the function already inside the Module, and then apply it. –  Leonid Shifrin Jan 12 '12 at 14:16
The fact that I used Evaluate[] was to show that this method actually can have the advantage that the function body can already at this stage be manipulated (optimized); you could generate a compiled function instead. Adding a Block[{x}] might be good, if you use global variables. –  user1054186 Jan 12 '12 at 14:26

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