This is an example of the surface mesh plot syntax: I want the variables inside the `meshgrid`

to be done using `inputdlg`

and the equation in the `z`

variable.

```
[x,y] = meshgrid(-2:0.1:2);
z = x.*exp(-((x-y.^2).^2 + y.^2));
mesh(x,y,z)
```

One solution that might be interesting is to use anonymous functions. A function can be parsed from a string using the function `str2func()`

. The character arrays within the dialogue boxes can be parsed to integers using `str2double()`

. Depending on how important it is to have the data points for the Z-function and to be able to set the plotting density/interval this may be an option to opt-in for.

**Summary:**

• Use anonymous functions → independent variables defined within `@()`

.

• Grab input variables from dialogue boxes.

• Plot on the specified domain using `fmesh()`

.

```
%Setting the prompts/field names%
Prompts = {'Axis Minimum','Axis Maximum','Function Equation'};
%Setting the dialog modal title%
Dialog_Title = 'Dialog Title: Change Me';
%Setting the dimensions of each input field%
Field_Dimensions = [1 50];
%Default Inputs/Placeholders%
Default_Inputs = {'-2','2','@(x,y)x.*exp(-((x-y.^2).^2 + y.^2))'};
%Grabbing the answers from the input dialog%
Answers = inputdlg(Prompts,Dialog_Title,Field_Dimensions,Default_Inputs);
%Grabbing the answers from the "Answers" array%
Axis_Minimum = str2double(Answers{1});
Axis_Maximum = str2double(Answers{2});
Z_Function = str2func(Answers{3});
%Plotting the function given the axis boundaries%
fmesh(Z_Function,[Axis_Minimum Axis_Maximum Axis_Minimum Axis_Maximum]);
```

**Using MATLAB version: R2019b**

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or
`0.1`

for you? Is using a function plot sufficient?