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I've been fighting with Mathematica's Manipulate function for the last few days for a project.

I'm working on tweaking assumptions and boundary conditions that go into a physical model. For this, I want to be able to plot different equations and adjust the parameters and have the graphs update on the fly. Manipulate seems to be the perfect tool for the job -- except that I can't get it to work. The plots won't update when the parameters are changed.

Basic example:

a =.;
b =.;
c =.;
func1[x_] := a*x;
func2[x_] := a*x^2 + b*x + c;
funcNamesList := {"Linear", "Quadratic"};
funcList := {func1[x], func2[x]}
Manipulate[
   Plot[function, {x, -5, 5}], {function,MapThread[Function[#1 -> #2],
    {funcList, funcNamesList}]}, {a, -5, 5}, {b, -5, 5}, {c, -5, 5},
    LocalizeVariables -> False
]

I can get, for example, func1 to refresh by clicking func1, adjusting a, and then clickingfunc1 again, but I'm hoping to have it update when I adjust a because the real functions I'm using are rather temperamental with respect to their parameters.

-Because I'll be dealing with long functions that have different parameters, using a list of functions is useful.

EDIT:

In case it produces any ideas for anyone, here are some working examples of the individual components of what I want to do (from the Wolfram documentation):

Plot graphs and have them update when parameters are changed:

Manipulate[
    Plot[Sin[a x + b], {x, 0, 6}], {{a, 2, "Multiplier"}, 1, 4},
    {{b, 0, "Phase Parameter"}, 0, 10}
]

Note: This breaks when the function is taken outside:

func[x] := Sin[a x + b];
Manipulate[
  Plot[func[x], {x, 0, 6}], {{a, 2, "Multiplier"}, 1, 4},
  {{b, 0, "Phase Parameter"}, 0, 10}, LocalizeVariables -> False
]

Example of changing the function being plotted:

Manipulate[
   Plot[f[x], {x, 0, 2 Pi}], {f, {Sin -> "sine", Cos -> "cosine", Tan -> "tangent"}}
]

Edit 2 Changed func2 from a*x^2 to a*x^2 + b*x + c to reflect the fact that the functions may have different parameters.

Edit 3 Added the tidbit I use to get nice names on the function buttons.

share|improve this question
    
what do you mean "that have different parameters"? do they have different signatures? –  acl Aug 19 '11 at 19:54
    
Generally, you have to make sure that the Manipulate control variables appear explicitly in Manipulate's body. So, its best to use the parameters in the function definition, so that they're visible to Manipulate. –  Sjoerd C. de Vries Aug 19 '11 at 20:11
    
If I execute your code the buttons are labeled a x and a x^2 not func1 and func2 as you state in the text. Have you really posted your latest code? –  Sjoerd C. de Vries Aug 19 '11 at 20:16
    
@Sjoerd or 1.32x and 1.32x^2 etc if you re-execute the Manipulate... Global state can be confusing! –  acl Aug 19 '11 at 20:20
    
So how would you like this to work? For instance, to have sliders for a, b and c, and simply ignore the b and c values when you are plotting the linear function? Or some other behaviour? –  acl Aug 19 '11 at 20:22

2 Answers 2

up vote 7 down vote accepted

There are two problems that prevent your Manipulate statement from working.

First, while the Manipulate variable a is global due to the LocalizeVariables -> False setting, the Plot variable x is not. x is local to the Plot expression.

The second problem is that Manipulate, by default, assumes TrackedSymbols -> Full. This means that only symbols that explicitly appear in the manipulated expression are tracked. Note that a does not appear in the expression, so it is not tracked.

We can correct both problems thus:

a =.;
function =.;
func1[x_] := a*x;
func2[x_] := a*x^2;
funcList := {func1, func2}
Manipulate[
 Plot[function[x], {x, -5, 5}], {function, funcList}, {a, -5, 5}, 
 LocalizeVariables -> False, TrackedSymbols :> {a, function}
 ]

The changes are:

  1. funcList was changed to {func1, func2}
  2. The Plot expression was changed to function[x], thereby referencing the local x variable.
  3. The Manipulate option TrackedSymbols :> {a, function} was added.
  4. function is initially unset.
share|improve this answer
    
Beautiful. As a new member, I'm not sure if this is the venue to ask, but if you have any pointers on finding issues like this, I'd love to hear them. –  BenB Aug 19 '11 at 20:29
    
P.S. Is it redundant to +1 an answer and select it as the solution? –  BenB Aug 19 '11 at 20:30
    
Rgarding the first request, perhaps I should be more specific. I'm used to programming in C and C++. Between the compiler, gdb, and Valgrind, I have the tools necessary to figure out scopes and types of variables, to figure out when I'm using something that is undefined, or if I'm not passing an appropriate type to a method. Without having Workbench, is there any way to get information of this sort in Mathematica? –  BenB Aug 19 '11 at 21:18
    
***Adding "function" to the TrackedSymbols list above is helpful. Without it, one must change a in order to have the second plot up date. *** –  BenB Aug 19 '11 at 22:18
1  
I incorporated your suggestion into my answer. As for resources for learning about Mathematica's behaviour, check out Mathematica Programming - An Advanced Introduction which discusses many of Mathematica's unusual elements. Finally, it is common to both +1 and accept an answer. –  WReach Aug 19 '11 at 23:47

I'd do this in a slightly different way:

func1[x_, a_] := a*x;
func2[x_, a_] := a*x^2;
funcList = {func1, func2};
Manipulate[
    Plot[Evaluate[function[x, b]],
        {x, -5, 5},
        PlotLabel \[Rule] funcList
    ],
    {function, funcList},
    {b, -5, 5}
 ]

but this may be unsuitable for what you want. Do your functions have different signatures?

EDIT: I've renamed the parameter to b to make it clearer that is it just a parameter being passed, as opposed to a global variable as you were using it.

share|improve this answer
    
They'll have different parameters at least. So if I pass the parameters as arguments to the function, then yes. –  BenB Aug 19 '11 at 20:02
    
Problem with this solution is the labels in the buttons have changed from describing the functions to just a bland label –  Sjoerd C. de Vries Aug 19 '11 at 20:02
    
In case it's useful to anyone coming by, that can be worked around by: declaring funcNamesList := {"Linear", "Quadratic"}; and changing {function, funcList} to {function, MapThread[Function[#1 -> #2], {funcList, funcNamesList}]}. (Although the original problem concerning different function signatures remains). –  BenB Aug 19 '11 at 20:09
    
@Maberib can you give two example functions with different parameters? More productive than trying to guess :) –  acl Aug 19 '11 at 20:12
    
@acl done. //Extra Characters to post comment. –  BenB Aug 19 '11 at 20:25

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