In MATLAB R2020b I have the following code:

f=@(x) x.^2;
g=@(x) f(x).*y

and the output is

g = function_handle with value: @(x)f(x).*y

But y = 2, so I would expect the output to be @(x)f.*2. Is this how its supposed to work or a bug? And can I display it as f.*2 rather than f.*y?

  • 1
    I'd say that that's how it's supposed to work, but only The MathWorks themselves can tell you why. As to chaging the display: you'd need to overload the default disp() method for function handle classes, i.e. you'd need to modify the MATLAB source code for this class directly. It might be impossible, e.g. if the code is pre-compiled and/or obfuscated, and even if possible, I'd recommend against modifying MATLAB source files. You might be able to write a wrapper function that's called instead on disp() calls for function handles.
    – Adriaan
    Jun 24, 2021 at 12:07
  • 1
    Just to verify what happens to the y: what happens if you do y = 3;h=@(x) f.*y and then compare the output with that of g? and of course: what happens then for g(2) and h(2)? Are the outputs the same, i.e. did the value of y inside g change, or are they different?
    – Adriaan
    Jun 24, 2021 at 12:19
  • Actually I meant to type g(x)=@(x)f(x).*y, as is edited. Then g(2) gives me 8 and h(2) gives 12. So it works when I put in the argument. But I need to create an array of Legendre polynomials (by recursion), P_=cell(1,N+1); P_{1}=@(u_) 1; P_{2}=@(u_) u_; for n=1:N, P_{n+2}=@(u_)((n+1)*@(u_)P_{n+1}(u_)-n*@(u_)P_{n}(u_))/(2*n+1); end and it never progresses because each cell has n but not its value in the loop. Any ideas on this?
    – Matt Majic
    Jun 24, 2021 at 12:31
  • 3
    “it never progresses because each cell has n but not its value in the loop” — I think that does work, you just can’t see it from the displayed function. Evaluate them to verify. But anyway it’s much easier to represent polynomials using a vector with the constant factors, see here. Jun 24, 2021 at 12:45
  • 2
    Yes, much more efficiently. Evaluating that polynomial representation is just a dot product, compared to calling an anonymous function that calls two anonymous functions, which call four more anonymous functions... Jun 24, 2021 at 13:40

1 Answer 1


When you create the function handle g = @(x) f(x).*y, the current values of the variables f and y get "frozen" into g's definition, as discussed in the documentation.

To inspect the actual values of f and y that g uses, you can call functions as follows:

>> info = functions(g); disp(info)
            function: '@(x)f(x).*y'
                type: 'anonymous'
                file: ''
           workspace: {[1×1 struct]}
    within_file_path: '__base_function'

Specifically, see the workspace field:

>> disp(info.workspace{1})
    f: @(x)x.^2
    y: 2
  • 2
    Nice. And as Andras commented in chat: "It makes sense that a closed variable that's a 5000-sized matrix will not be substituted". Copying the variable into the function handle allows for lazy copying. Jun 24, 2021 at 15:28

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