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I have a python function with variable number of arguments:

F(x1, x2, ... , xN)

I want to automatically generate N functions representing the derivatives of F with respect to each argument.

F'_1 = dF/dx1
F'_2 = dF/dx2
F'_N = dF/dxN

For example, I be able to give both F(x1) = sin(x1) and F(x1, x2) = sin(x1) * cos(x2) and get all the derivatives automatically.

Edit2: If function F was 2 variable (fixed number of arguments), I could use

   def f(x,y):
      return  sin(x)*cos(y)

   from sympy import *
   x, y = symbols('x y')
   f_1 = lambdify((x,y), f(x,y).diff(x))
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To be clear- the function is something like def F(x): return math.sin(x)? (That is, it's not a symbolic representation of sin(x), but an actual Python function?) –  David Robinson Jan 6 '13 at 0:46
If it be possible that F(x) be non-symbolic, it's better. (i.e. using lambdify to get symbolic expression). –  Hesam Jan 6 '13 at 0:49
Do you already have a method for generating a numerical derivative on a function with one argument? –  David Robinson Jan 6 '13 at 0:54
I need symbolic derivative function. i.e. for sin(x) I want to have cos(x) not numerical derivative in a point. –  Hesam Jan 6 '13 at 0:57
Answer posted- it assumes you want the lambidy version of each function. If you take out the lambdify part, you'll see the result is [cos(x)*cos(y), -sin(x)*sin(y)]. –  David Robinson Jan 6 '13 at 1:22

1 Answer 1

up vote 4 down vote accepted

The trick is to use inspect.getargspec to get the names of all the arguments to the function. After that, it's a simple list comprehension:

import inspect
from sympy import *

def get_derivatives(func):
    arg_symbols = symbols(inspect.getargspec(func).args)
    sym_func = func(*arg_symbols)

    return [lambdify(arg_symbols, sym_func.diff(a)) for a in arg_symbols]

For example:

def f(x, y):
    return sin(x)*cos(y)

all_derivatives = get_derivatives(f)
share|improve this answer
If the OP could work with expressions instead of functions, things become much simpler: {v: expr.diff(v) for v in expr.free_symbols}. –  DSM Jan 6 '13 at 1:20
@DSM: that's very true. –  David Robinson Jan 6 '13 at 1:22
Many Thanks! How I can call the generated derivative. i.e. F_1(0,0) or F_2(0,0) –  Hesam Jan 6 '13 at 1:24
F1 is all_derivatives[0], F2 is all_derivatives[1], so you could call it like all_derivatives[0](0, 0). –  David Robinson Jan 6 '13 at 1:25
@Hesam: OP == Original Poster == asker == you :) –  David Robinson Jan 6 '13 at 1:38

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