# How to make contour plots in matlab for a self-defined function f(x,y) in which x and y cannot take vector values?

We know that the usual way to make a contour plot in Matlab for a function Z(x,y) is
`[X,Y] = meshgrid(-2:.2:2,-2:.2:3);`
`Z = X.*exp(-X.^2-Y.^2);` (for example)
`contour(X,Y,Z);`

However, this way does not work for the following function f(x,y):
Suppose h_{ij}(x,y) is a large (e.g., 100x100) matrix, in which each component is a (self-defined) function of x and y. We define another function

f(x,y)=det(h_{ij}(x,y))

and want to make a contour plot of the function f(x,y).

The determinant in f=det(h) requires each component of the matrix h be a number. So f(x,y) can be calculated by Matlab only if x and y are numbers, not vectors. If we use [X,Y]=meshgrid(...), it means that each component of the matrix h is a vector, and f(X,Y) cannot be calculated.

Is there a way to make a contour plot for the above function f(x,y), in which x and y cannot take vector values?

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I misunderstood what `meshgrid` does when I asked this question. I should modify the question to "How to make contour plots in matlab for a user-defined function f(x,y) in which x and y cannot take MATRIX values?" The answer is to use `arrayfun` as `Z=arrayfun(@f,X,Y)`, which I learned from stackoverflow.com/questions/3784059/…. – renphysics Jul 20 '12 at 3:44
That's exactly what my answer suggests :) Please accept the answer if it's useful. – Ansari Jul 20 '12 at 6:28

Assuming that `h` is pre-defined to be a matrix of functions each of which takes two scalar arguments and outputs a matrix (or any valid input to the `det` function), and the subscripts `i` and `j` refer to the indices in X and Y of the arguments to that function, something like the following code should work (X and Y should be the same size as h):
``````applyh = @(fn, x, y) fn(x, y);
I think you're misunderstanding what `meshgrid` does - the output of meshgrid can be easily fed to a function as above. They are not vectors in each element (just a 2-D matrix). You can then plot `Z` as usual.