Main function
Lesson 27 of 29 in Coddy's Calculator project using Python course.
After having the coordinate function what left is to add the option to take input from the user and calling coordinate.
Try making it inside the "main function" in python (read more),
if __name__ == '__main__':
...Challenge
EasyAsk for input from the user and print the result of the calculation.
Try it yourself
def calc(op, n1, n2=None):
if not isinstance(n1, int) and not isinstance(n1, float):
raise Exception('Invalid number "' + str(n1) + '"')
if n2 is None:
if op == '+' or op == 'add':
return n1
if op == '-' or op == 'sub':
return -n1
raise Exception('Invalid operator "' + op + '"')
if not isinstance(n2, int) and not isinstance(n2, float):
raise Exception('Invalid number "' + str(n2) + '"')
if op == '+' or op == 'add':
return n1 + n2
if op == '-' or op == 'sub':
return n1 - n2
if op == '*' or op == 'mul':
return n1 * n2
if op == '/' or op == 'div':
if n2 == 0:
raise Exception("Division by zero")
return n1 / n2
if op == '%' or op == 'mod':
if n2 == 0:
raise Exception("Division by zero")
return n1 % n2
if op == '^' or op == 'pow':
return n1 ** n2
raise Exception('Invalid operator "' + op + '"')
def eval(lst):
if not isinstance(lst, list):
raise Exception('Failed to evaluate "' + str(lst) + '"')
if len(lst) == 2:
op = lst[0]
n = lst[1]
if not isinstance(n, list):
return calc(op, n)
if isinstance(n, list):
n = eval(n)
return calc(op, n)
elif len(lst) == 3:
op = lst[0]
n1 = lst[1]
n2 = lst[2]
if not isinstance(n1, list) and not isinstance(n2, list):
return calc(op, n1, n2)
if isinstance(n1, list):
n1 = eval(n1)
if isinstance(n2, list):
n2 = eval(n2)
return calc(op, n1, n2)
else:
raise Exception('Failed to evaluate "' + str(lst) + '"')
LEVEL_TWO_OPERATORS = ['+', '-', 'add', 'sub']
LEVEL_ONE_OPERATORS = ['*', '/', '%', 'mul', 'div', 'mod']
FUNCTIONS_OPERATORS = ['^', 'pow']
def struct(lst):
if not isinstance(lst, list) or len(lst) <= 1:
raise Exception('Failed to structure "' + str(lst) + '"')
if len(lst) == 2:
return lst
lst_cpy = lst
operators_groups = [FUNCTIONS_OPERATORS, LEVEL_ONE_OPERATORS, LEVEL_TWO_OPERATORS, 'all']
for operators_group in operators_groups:
i = 0
while i < len(lst):
if (not isinstance(lst[i], int) and not isinstance(lst[i], float)) if operators_group == 'all' else (lst[i] in operators_group):
if len(lst) - 1 == i:
raise Exception('Failed to structure "' + str(lst_cpy) + '"')
if len(lst) == 3:
return [lst[i], lst[i - 1], lst[i + 1]]
temp = lst[:i - 1]
temp.append([lst[i], lst[i - 1], lst[i + 1]])
temp += lst[i + 2:]
lst = temp
else:
i += 1
return lst
NUMBERS = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']
PARENTHESIS = ['(', ')']
def get_next(s, i):
if i >= len(s):
raise Exception('End of string')
res = ''
if s[i] in NUMBERS or s[i] == '.':
is_float = False
while i < len(s) and (s[i] in NUMBERS or s[i] == '.'):
res += s[i]
if s[i] == '.':
is_float = True
i += 1
if is_float:
return float(res)
return int(res)
else:
while i < len(s) and not (s[i] in NUMBERS or s[i] == '.' or s[i] in PARENTHESIS):
res += s[i]
i += 1
return res
def parse(s):
s = s.replace(' ', '')
i = 0
res = []
while i < len(s):
if s[i] in PARENTHESIS:
if s[i] == ')':
return struct(res), i
elif s[i] == '(':
temp = parse(s[i + 1:])
i += temp[1] + 2
res.append(temp[0])
else:
temp = get_next(s, i)
res.append(temp)
i += len(str(temp))
return struct(res)
def pre_parse(s):
if s.count('(') != s.count(')'):
raise Exception('Not matching parenthesis')
def coordinate(s):
try:
pre_parse(s)
parsed_s = parse(s)
return eval(parsed_s)
except Exception as e:
return 'Error: ' + str(e)