# How to find symbolic derivative using python without sympy? [closed]

I need to make a program which will differentiate a function, but I have no idea how to do this. I've only made a part which transforms the regular expression(x ^ 2 + 2 for example ) into reverse polish notation. Can anybody help me with creating a program which will a find symbolic derivatives of expression with + * / - ^

• You're on the right track. But you'll have to keep thinking about it and trying things. Come back when you have a specific question on a programming problem. May 19, 2018 at 10:48
• They wrote "without sympy". Sounds to me like a homework problem or something. May 19, 2018 at 10:49
• Expressions with with + * / - ^ are polynomials, maybe look for the rules on "Symbolic Differentiation of Polynomials" and post a new question if you get stuck (but have some code to show). May 19, 2018 at 10:59
• @Iguananaut, sorry, I misread the title. I'll remove that comment. May 19, 2018 at 11:06
• It's OK. It's still an overly broad question off topic for SO, unfortunately. May 19, 2018 at 11:07

Hint: Use a recursive routine. If an operation is unary plus or minus, leave the plus or minus sign alone and continue with the operand. (That means, recursively call the derivative routine on the operand.) If an operation is addition or subtraction, leave the plus or minus sign alone and recursively find the derivative of each operand. If the operation is multiplication, use the product rule. If the operation is division, use the quotient rule. If the operation is exponentiation, use the generalized power rule. (Do you know that rule, for `u ^ v`? It is not given in most first-year calculus books but is easy to find using logarithmic differentiation.) (Now that you have clarified in a comment that there will be no variable in the exponent, you can use the regular power rule `(u^n)' = n * u^(n-1) * u'` where `n` is a constant.) And at the base of the recursion, the derivative of `x` is `1` and the derivative of a constant is zero.