I have the problem of implementing these programs to find the root of a polynomial (bisection, regular falsi, raphson, secant), I want to make a menu to select the program that I want to execute but when I make the menu I do not get the menu as such only programs are executed.

``````# Defining Function
def f(x):
return x**3-5*x-9

# Implementing Bisection Method
def bisection(x0,x1,e):
step = 1
print('\n\n*** BISECTION METHOD IMPLEMENTATION ***')
condition = True
while condition:
x2 = (x0 + x1)/2
print('Iteration-%d, x2 = %0.6f and f(x2) = %0.6f' % (step, x2, f(x2)))

if f(x0) * f(x2) < 0:
x1 = x2
else:
x0 = x2

step = step + 1
condition = abs(f(x2)) > e

print('\nRequired Root is : %0.8f' % x2)

# Input Section
x0 = input('First Guess: ')
x1 = input('Second Guess: ')
e = input('Tolerable Error: ')

# Converting input to float
x0 = float(x0)
x1 = float(x1)
e = float(e)

#Note: You can combine above two section like this
# x0 = float(input('First Guess: '))
# x1 = float(input('Second Guess: '))
# e = float(input('Tolerable Error: '))

# Checking Correctness of initial guess values and bisecting
if f(x0) * f(x1) > 0.0:
print('Given guess values do not bracket the root.')
print('Try Again with different guess values.')
else:
bisection(x0,x1,e)

#-------------------------
# Defining Function
def g(x):
return x**3-5*x-9

# Implementing False Position Method
def falsePosition(x0,x1,e):
step = 1
print('\n\n*** FALSE POSITION METHOD IMPLEMENTATION ***')
condition = True
while condition:
x2 = x0 - (x1-x0) * g(x0)/( g(x1) - g(x0) )
print('Iteration-%d, x2 = %0.6f and f(x2) = %0.6f' % (step, x2, g(x2)))

if g(x0) * g(x2) < 0:
x1 = x2
else:
x0 = x2

step = step + 1
condition = abs(g(x2)) > e

print('\nRequired root is: %0.8f' % x2)

# Input Section
x0 = input('First Guess: ')
x1 = input('Second Guess: ')
e = input('Tolerable Error: ')

# Converting input to float
x0 = float(x0)
x1 = float(x1)
e = float(e)

#Note: You can combine above two section like this
# x0 = float(input('First Guess: '))
# x1 = float(input('Second Guess: '))
# e = float(input('Tolerable Error: '))

# Checking Correctness of initial guess values and false positioning
if f(x0) * f(x1) > 0.0:
print('Given guess values do not bracket the root.')
print('Try Again with different guess values.')
else:
falsePosition(x0,x1,e)

#---------------------------------------------
# Defining Function
def h(x):
return x**3 - 5*x - 9

# Defining derivative of function
def hp(x):
return 3*x**2 - 5

# Implementing Newton Raphson Method

def newtonRaphson(x0,e,N):
print('\n\n*** NEWTON RAPHSON METHOD IMPLEMENTATION ***')
step = 1
flag = 1
condition = True
while condition:
if g(x0) == 0.0:
print('Divide by zero error!')
break

x1 = x0 - h(x0)/hp(x0)
print('Iteration-%d, x1 = %0.6f and f(x1) = %0.6f' % (step, x1, h(x1)))
x0 = x1
step = step + 1

if step > N:
flag = 0
break

condition = abs(h(x1)) > e

if flag==1:
print('\nRequired root is: %0.8f' % x1)
else:
print('\nNot Convergent.')

# Input Section
x0 = input('Enter Guess: ')
e = input('Tolerable Error: ')
N = input('Maximum Step: ')

# Converting x0 and e to float
x0 = float(x0)
e = float(e)

# Converting N to integer
N = int(N)

#Note: You can combine above three section like this
# x0 = float(input('Enter Guess: '))
# e = float(input('Tolerable Error: '))
# N = int(input('Maximum Step: '))

# Starting Newton Raphson Method
newtonRaphson(x0,e,N)
#---------------------------------------
def i(x):
return x**3 - 5*x - 9

# Implementing Secant Method

def secant(x0,i1,e,N):
print('\n\n*** SECANT METHOD IMPLEMENTATION ***')
step = 1
condition = True
while condition:
if f(x0) == i(x1):
print('Divide by zero error!')
break

x2 = x0 - (x1-x0)*i(x0)/( i(x1) - i(x0) )
print('Iteration-%d, x2 = %0.6f and f(x2) = %0.6f' % (step, x2, i(x2)))
x0 = x1
x1 = x2
step = step + 1

if step > N:
print('Not Convergent!')
break

condition = abs(i(x2)) > e
print('\n Required root is: %0.8f' % x2)

# Input Section
x0 = input('Enter First Guess: ')
x1 = input('Enter Second Guess: ')
e = input('Tolerable Error: ')
N = input('Maximum Step: ')

# Converting x0 and e to float
x0 = float(x0)
x1 = float(x1)
e = float(e)

# Converting N to integer
N = int(N)

#Note: You can combine above three section like this
# x0 = float(input('Enter First Guess: '))
# x1 = float(input('Enter Second Guess: '))
# e = float(input('Tolerable Error: '))
# N = int(input('Maximum Step: '))

# Starting Secant Method
secant(x0,x1,e,N)

opcion = input(" Bienvenido a la calculadora de raices\n Seleccione el metodo a usar:\n 1-Biseccion\n 2-Regla Falsa\n 3-Newton Rapson\n 4-Secante\n")
print("El metodo a usar es: " + str(opcion)) #I use spanish :)
if opcion == 1:
f(x)
elif opcion == 2:
g(x)
elif opcion == 3:
h(x)
elif opcion == 3:
i(x)
``````

I'm just starting in python sorry if I don't know the basics

• All code that is not inside functions is executed when you run the program. So each block starting with comment `# Input Section` will be executed and only at the end, your menu code will. Nov 23, 2022 at 12:46
• The code I extract from codesansar.com/numerical-methods/… Nov 23, 2022 at 13:42

Here is a (high level) solution to your problem:

3. Create a list (or dictionary) of the choices inside the main function e.g. `choices = ['newtonRaphson', 'secant, ...]`. A comprehensive description of data structures here: https://docs.python.org/3/tutorial/datastructures.html and if you are looking for a quick guide on list and dictionaries, check https://www.w3schools.com/python/python_lists.asp and https://www.w3schools.com/python/python_dictionaries.asp.
• I'm going to throw in a suggestion for using `pyinputplus.inputMenu()` to handle menu inputs, unless you want to practice handling user prompts. pyinputplus.readthedocs.io/en/latest Nov 23, 2022 at 13:34