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I'm trying to make a Point class in python. I already have some of the functions, like __ str__ , or __ getitem__ implemented, and it works great. The only problem I'm facing is that my implementation of the __ setitem__ does not work, the others are doing fine.

Here is my Point class, and the last function is my __ setitem__:

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

    def __str__(self):
        return "point(%s,%s)"%(self.x,self.y)

    def __getitem__(self,item):
        return (self.x, self.y)[item]

    def __setitem__(self,x,y):
        [self.x, self.y][x]=y

it should work like this:

p=point(2,3)
p[0]=1 #sets the x coordinate to 1
p[1]=10 #sets the y coordinate to 10

(Am I even right, should the setitem work like this?) Thanks!

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should it not be self.data.x ? –  karthikr Apr 2 '13 at 21:33
    
Have you tried it? What does it do? –  abarnert Apr 2 '13 at 21:38

6 Answers 6

up vote 1 down vote accepted

Let self.data and only self.data hold the coordinate values. If self.x and self.y were to also store these values there is a chance self.data and self.x or self.y will not get updated consistently.

Instead, make x and y properties that look up their values from self.data.

class Point(object):
    def __init__(self,x=0,y=0):
        self.data=[x, y]

    def __str__(self):
        return "point(%s,%s)"%(self.x,self.y)

    def __getitem__(self,item):
        return self.data[item]

    def __setitem__(self, idx, value):
        self.data[idx] = value

    @property
    def x(self):
        return self.data[0]

    @property
    def y(self):
        return self.data[1]

The statement

[self.x, self.y][x]=y

is interesting but problematic. Let pick it apart:

[self.x, self.y] causes Python to build a new list, with values self.x and self.y.

somelist[x]=y causes Python to assign value y to the xth index of somelist. So this new list somelist gets updated. But this has no effect on self.data, self.x or self.y. That is why your original code was not working.

share|improve this answer

Let's strip this down to the bare minimum:

x, y = 2, 3
[x, y][0] = 1
print(x)

This will print out 2.

Why?

Well, [x, y] is a brand-new list containing two elements. When you do reassign its first member to 1, that just changes the brand-new list, so its first element is now 1 instead of 2. It doesn't turn the number 2 into the number 1.

Since your code is essentially identical to this, it has the same problem. As long as your variables have immutable values, you can't mutate the variables.


You could fix it by doing something like this:

x, y = [2], [3]
[x, y][0][0] = 1
print(x[0])

Now you'll get 1.

Why? Well, [x, y] is a new list with two elements, each of which is a list. You're not replacing its first element with something else, you're replacing the first element of its first element with something else. But its first element is the same list as x, so you're also replacing x's first element with something else.


If this is a bit hard to keep straight in your head… well, that's usually a sign that you're doing something you probably shouldn't be. (Also, the fact that you're using x for a parameter that means "select x or y" and y for a parameter that means "new value" makes it a whole lot more confusing…)

There are many simpler ways to do the same thing:

  • Use an if/else statement instead of trying to get fancy.
  • Use a single list instead of two integer values: self.values[x] = y. (That's unutbu's answer.)
  • Use a dict instead of two integer values: self.values['xy'[x]] = y.
  • Use setattr(self, 'xy'[x], y).
  • Use a namedtuple instead of trying to build the same thing yourself.
share|improve this answer

This works in python 2.6 i guess it works for 2.7 as well

The __setitem__ method accept 3 arguments (self, index, value)

in this case we want to use index as int for retrive the name of the coordinate from __slots__ tuple (check the documentation of __slots__ is really usefull for performance)

remember with __slots__ only x and y attributes are allowed! so:

p = Point()
p.x = 2
print(p.x)  # 2.0

p.z = 4  # AttributeError
print(p.z)  # AttributeError

This way is faster respect using @property decorator (when you start to have 10000+ instances)

class Point(object):
    @property
    def x(self):
        return self._data[0]  # where self._data = [x, y]
...

so this is my tip for you :)

class Point(object):

    __slots__ = ('x', 'y')  # Coordinates

    def __init__(self, x=0, y=0):
        '''
        You can use the constructor in many ways:
        Point() - void arguments
        Point(0, 1) - passing two arguments
        Point(x=0, y=1) - passing keywords arguments
        Point(**{'x': 0, 'y': 1}) - unpacking a dictionary
        Point(*[0, 1]) - unpacking a list or a tuple (or a generic iterable)
        Point(*Point(0, 1)) - copy constructor (unpack the point itself)
        '''
        self.x = x
        self.y = y

    def __setattr__(self, attr, value):
        object.__setattr__(self, attr, float(value))

    def __getitem__(self, index):
            '''
            p = Point()
            p[0]  # is the same as self.x
            p[1]  # is the same as self.y
            '''
        return self.__getattribute__(self.__slots__[index])

    def __setitem__(self, index, value):
            '''
            p = Point()
            p[0] = 1
            p[1] = -1
            print(repr(p))  # <Point (1.000000, -1.000000)>
            '''
        self.__setattr__(self.__slots__[index], value)  # converted to float automatically by __setattr__

    def __len__(self):
        '''
        p = Point()
        print(len(p))  # 2
        '''
        return 2

    def __iter__(self):
        '''
        allow you to iterate
        p = Point()
        for coord in p:
            print(coord)

        for i in range(len(p)):
            print(p[i])
        '''
        return iter([self.x, self.y])

    def __str__(self):
        return "(%f, %f)" % (self.x, self.y)

    def __repr__(self):
        return "<Point %s>" % self
share|improve this answer

What's happening in setitem is it builds a temporary list, sets the value, then throws away this list without changing self.x or self.y. Try this for __setitem__:

def __setitem__(self,coord,val):
    if coord == 0:
        self.x = val
    else:
        self.y = val

This is quite an abuse of __setitem__, however... I'd advise figuring out a different way of setting the x/y coordinates if possible. Using p.x and p.y is going to be much faster than p[0] and p[1] pretty much no matter how you implement it.

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Your may find it a lot easier to use namedtuple for this:

 from collections import namedtuple
 Point= namedtuple('Point', ['x','y'])

 fred = Point (1.0, -1.0)
 #Result: Point(x=1.0, y=-1.0)

The main drawback is that you can't poke values into a namedtuple - it's immutable. In most applications that's a feature, not a bug

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This is pretty old post, but the solution for your problem is very simple:

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

def __str__(self):
    return "point(%s,%s)"%(self.x,self.y)

def __getitem__(self,item):
    return self.__dict__[item]

def __setitem__(self,item,value):
    self.__dict__[item] = value

Each class has his own dictionary with all properties and methods created inside the class. So with this you can call:

In [26]: p=point(1,1)
In [27]: print p
point(1,1)
In [28]: p['x']=2
In [29]: print p
point(2,1)
In [30]: p['y']=5
In [31]: print p
point(2,5)

It is more readable then your "index" like reference.

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