How can I use the class Point with 2D for 3D, Python3?

I've got a class about Points with only 2 coordinates (x,y) and I want this same class and all its methods using it with 3 coordinates, too (x,y,z) I've read about *args but i don't know how i can use it with that problem. The code:

``````#/usr/bin/env python3
# -*- coding: utf-8 -*-

from math import sqrt, pow, hypot, atan2, cos, sin

class Point(object):
__slots__ = ['x', 'y']

def __init__(self, x=0, y=0):
self.x = x
self.y = y

def __del__(self):
#del P destroy (delete) a point
class_name = self.__class__.__name__

S = Point(self.x, self.y)
S.x = self.x + P.x
S.y = self.y + P.y
return S

def __sub__(self, P):
R = Point(self.x, self.y)
R.x = self.x - P.x
R.y = self.y - P.y
return R

__rsub__ = __sub__

def __mul__(self, num):
M = Point(self.x, self.y)
M.x = num * self.x
M.y = num * self.y
return M

__rmul__ = __mul__

def __pow__(self, n):
P = Point(self.x, self.y)
P.x = self.x ** n
P.y = self.y ** n
return P

def __neg__(self):
O = Point(self.x, self.y)
O.x = - self.x
O.y = - self.y
return O

def __invert__(self):
I = Point(self.x, self.y)
I.x = 1. / self.x
I.y = 1 / self.y
return I

def dist(self, P):
return sqrt(pow(self.x - P.x, 2) + pow(self.y - P.y, 2))

def pto_medio(self, P):
Q = Point(self.x, self.y)
R = (1. / 2.) * (P + Q)
return R

def traslacion(self, tx, ty):
T = Point(self.x, self.y)
T.x = self.x + tx
T.y = self.y + ty
return T

def incentro(self, B, C):
A = Point(self.x, self.y)
a = B.dist(B)
b = A.dist(C)
c = A.dist(B)
sumd = a + b + c
A = (a / sumd) * A + (b / sumd) * B + (c / sumd) * C
return A

def rect2pol(self):
P = Point(self.x, self.y)
P.x = hypot(self.x, self.y)
P.y = atan2(self.y, self.x)
return(P)

def pol2rect(self):
P = Point(self.x, self.y)
P.x = self.x * cos(self.y)
P.y = self.x * sin(self.y)
return(P)

point = raw_input('Introduce un punto:\n')
point = point.replace('(', '')
point = point.replace(')', '')
l1 = point.rsplit(',')
self.x = float(l1[0])
self.y = float(l1[1])
l1 = []

def __repr__(self):
return('({}, {})'.format(self.x, self.y))

def main():
p = Point()
q = Point()

s = p + q
r = p - q
m = 5 * p

pol = p.rect2pol()
rect = pol.pol2rect()

print(('s = {}'.format(s)))
print(('r = {}'.format(r)))
print(('m = {}'.format(m)))
print(('p ^ 3 = {}'.format(p ** 3)))
print(('opuesto = {}'.format(- p)))
print(('inverso = {}'.format(~ p)))
print(('distancia = {}'.format(p.dist(q))))
print(('Punto Medio = {}'.format(p.pto_medio(q))))
print(('Traslación = {}'.format(p.traslacion(5, -2))))
print(('En Polares = {}'.format(pol)))
print(('En Rectangulares = {}'.format(rect)))

A = Point(0, 0)
B = Point(1, 0)
C = Point(1. / 2., sqrt(3.) / 2.)
I = A.incentro(B, C)
print(('Incentro = {}'.format(I)))

if __name__ == '__main__':
main()
``````

All functions in this class I can reuse them with 3D. I don't want make a new derivative class only for 3D because I should rewrite all methods again, or make a new class for 3D points. Is it possible?

-

Just give your `z` parameter a default value of `None`:

``````class Point(object):
__slots__ = ['x', 'y', 'z']

def __init__(self, x=0, y=0, z=None):
self.x = x
self.y = y
self.z = z
``````

then detect if `z` is not set to `None` where needed for calculations:

``````def __add__(self, P):
S = Point(self.x, self.y, self.z)
S.x = self.x + P.x
S.y = self.y + P.y
if self.z is not None:
if P.z is None:
raise ValueError('Cannot add a 2D point to a 3D point')
S.z = self.z + P.z
return S
``````
-
Thank you very much. It works perfect!!! :-) –  Tobal Jan 14 at 20:07