How to access "D" notation for symbolic derivatives

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This question involves how to access certain dervatives of arbitrary (i.e., unknown) functions using the symbolic toolbox. This is an issue that arises when you try to take derivatives of a composite function, where both functions that make up the composite one are arbitrary/unknown. I'm using R2018b.
My question is best illustrated with an example:
syms f(x) g(x)
dgfx = diff(g(f(x)),x)
returns
dgfx =
D(g)(f(x))*diff(f(x), x)
This expression has two different notations for derivatives. diff(f(x), x) is just the representation of the derivative of f, which is fine. This is the format I expect, and I can "access" this derivative representation and, for example, replace it with a variable using subs, such as:
syms a
subs(dgfx,diff(f(x), x),a)
which returns
ans =
a*D(g)(f(x))
dgfx also includes the derivative notation D(g)(f(x)), which captures the derivative of the g function. The problem I'm having is that I cannot figure out how to access this representation in the same way as with the diff notation in order to replace this derivative with a variable. For example,
subs(dgfx,D,a)
subs(dgfx,D(g),a)
both return the error, "Undefined function or variable 'D'." So it seems neither D nor D(g) are functions I can access. However, Matlab does seem to recognize D as a function of some kind, since, for example, taking derivatives again:
diff(dgfx,x)
yields
ans =
D(D(g))(f(x))*diff(f(x), x)^2 + D(g)(f(x))*diff(f(x), x, x)
We now have a term involving D(D(g))(f(x)), which captures the second-order derivative of g. So clearly Matlab recognizes D(g) as a function whose derivative can be taken. The question I have is, how can I access this in a way that will allow me to replace D with a variable?

Accepted Answer

Dana
Dana on 17 May 2019
I seem to have found a solution to this problem on my own. I'll post it here in case it's of help to anyone else. The key discovery was that there is a MuPAD function called rewrite that will do the trick.
Suppose I want to replace the derivative of f with a and the derivative of g with b. So in the end, I'd like to have d[g(f(x))]/dx = a*b. Here's how you can do this:
syms f(x) g(x) a b
dgfx = diff(g(f(x)),x);
dgfx = subs(dgfx,diff(f(x),x),a); % replace f' with a
dgfx = subs(dgfx,f,x); % replace the symfun f with the symvar x
dgfx = feval(symengine,'rewrite',dgfx,'diff'); % replace D notation with diff
dgfx = subs(dgfx,diff(g(x),x),b);
The final result is
dgfx =
a*b
as desired.
A couple of notes:
  • Importantly, while rewrite can also be called directly from the command line (i.e., without using feval with symengine), the command-line version is not able to perform the required task. In particular, 'diff' is only a valid argument when using the feval approach.
  • The step of first replacing the symfun f with the symvar x before using rewrite is necessary in order to turn the derivative of the composite function (i.e., D(g)(f(x))) into the derivative of a non-composite function (i.e., D(g)(x)), so that it can be cast in diff(g(x),x) form (diff(g(f(x)),f) is not a valid Matlab expression, since you can't take a derivative w.r.t. a function).

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