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I have been trying out the following code to find the gradient of a function at a particular point where the input is a vector and the function returns a scalar.

The following is the function for which I am trying to compute gradient.

%fun.m    
function [result] = fun(x, y)
     result = x^2 + y^2;

This is how I call gradient.

f = @(x, y)fun(x, y);
grad = gradient(f, [1 2])

But I get the following error

octave:23> gradient(f, [1 2])
error: `y' undefined near line 22 column 22
error: evaluating argument list element number 2
error: called from:
error:    at line -1, column -1
error:   /usr/share/octave/3.6.2/m/general/gradient.m at line 213, column 11
error:   /usr/share/octave/3.6.2/m/general/gradient.m at line 77, column 38

How do I solve this error?

share|improve this question
    
f = %(x, y)fun(x, y); That % should be an @, no? –  nibot Oct 30 '12 at 10:32
    
yeah sorry, it should be @. Have made the edit. –  Hashken Oct 30 '12 at 14:29
    
can't you do : f = @(x,y) [x^2 + y^2]; grad = gradient(f(1, 2)) –  zeffii Oct 30 '12 at 17:29
1  
@zeffii, I guess that would give the 0 vector (derivative of a constant). –  Acorbe Oct 31 '12 at 16:37

1 Answer 1

My guess is that gradient can't work on 2D function handles, thus I made this. Consider the following lambda-flavoring solution:

Let fz be a function handle to some function of yours

fz = @(x,y)foo(x,y);

then consider this code

%% definition part:
only_x = @(f,yv) @(x) f(x,yv);  %lambda-like stuff, 
only_y = @(f,xv) @(y) f(xv,y);  %only_x(f,yv) and only_y(f,xv) are
                                %themselves function handles

%Here you are:
gradient2 =@(f,x,y) [gradient(only_x(f,y),x),gradient(only_y(f,x),y)];  

which you use as

gradient2(fz,x,y);   

Finally a little test:

fz = @(x,y) x.^2+y.^2
gradient2(f,1,2);

result

octave:17> gradient2(fz,1,2)
ans =

    2   4
share|improve this answer
    
informative answer, I've only just started to use Octave. loving all this vectorized stuff :) –  zeffii Oct 31 '12 at 18:52
    
@zeffii, indeed this is more kind of lambda (functional programming) stuff. But you can do a lot of vectorization either ;). –  Acorbe Oct 31 '12 at 19:05
    
Thanks for the answer. I know we can write a separate script for computing gradient. But considering the fact that Octave is considered as an Open-Source alternative to MATLAB, I hoped that there should be an in-built way to compute Gradient for multi-dimensions. –  Hashken Nov 2 '12 at 1:12
    
@Karthik; W: How can you achieve that using matlab without additional toolboxes (optimization)? –  Acorbe Nov 2 '12 at 10:56
    
@Acorbe: I just safely assumed that MATLAB has this functionality in-built. If not, both MATLAB and Octave need to seriously think about adding this functionality. –  Hashken Nov 2 '12 at 11:24

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