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I'm coming from a C# background where this stuff is super easy—trying to translate into Python for Maya.

There's gotta' be a better way to do this. Basically, I'm looking to create a Vector class that will simply have x, y and z coordinates, but it would be ideal if this class returned a tuple with all 3 coordinates and if you could edit the values of this tuple through x, y and z properties, somehow.

This is what I have so far, but there must be a better way to do this than using an exec statement, right? I hate using exec statements.

class Vector(object):
    '''Creates a Maya vector/triple, having x, y and z coordinates as float values'''

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

    def attrsetter(attr):
        def set_float(self, value):
            setattr(self, attr, float(value))
        return set_float

    for xyz in 'xyz':
        exec("%s = property(fget=attrgetter('_%s'), fset=attrsetter('_%s'))" % (xyz, xyz, xyz))
share|improve this question
    
Turns out PyMEL has a pretty elaborate Vector class in pymel.core.datatypes. No need to reinvent the wheel, right? –  mrjedmao Mar 16 '10 at 9:48
    
What exactly do you mean by "it would be ideal if this class returned a tuple with all 3 coordinates"? I.E. returned it what manner? –  martineau Aug 5 '10 at 20:00
    
Never mind. It was a stupid request. I was thinking the constructor could return something other than the object itself. –  mrjedmao Aug 10 '10 at 22:26
2  
There's also the pyeuclid library. –  Daniel Kinsman Jul 3 '12 at 11:40

7 Answers 7

up vote 4 down vote accepted

Edit: I've modified the code with my answer a bit more from @unutbu's original to simplify it and make what is being done clearer. In the latest version, the @staticmethod's have been eliminated altogether and replaced with nested one-liners. The outer function and nested class have been renamed AutoFloatProperties and _AutoFloatProperties to reflect their specialized behavior of converting and storing the values assigned as floats. Despite all this, @unutbu's own revised answer using a class decorator instead of a metaclass is a slightly simpler solution, although the internals and usage are very similar.

def AutoFloatProperties(*props):
    '''metaclass'''
    class _AutoFloatProperties(type):
        # Inspired by autoprop (http://www.python.org/download/releases/2.2.3/descrintro/#metaclass_examples)
        def __init__(cls, name, bases, cdict):
            super(_AutoFloatProperties, cls).__init__(name, bases, cdict)
            for attr in props:
                def fget(self, _attr='_'+attr): return getattr(self, _attr)
                def fset(self, value, _attr='_'+attr): setattr(self, _attr, float(value))
                setattr(cls, attr, property(fget, fset))
    return _AutoFloatProperties

class Vector(object):
    '''Creates a Maya vector/triple, having x, y and z coordinates as float values'''
    __metaclass__ = AutoFloatProperties('x','y','z')
    def __init__(self, x=0, y=0, z=0):
        self.x, self.y, self.z = x, y, z # values converted to float via properties

if __name__=='__main__':
    v=Vector(1,2,3)
    print(v.x)
    # 1.0
    v.x=4
    print(v.x)
    # 4.0
share|improve this answer
    
This is by far the cleanest solution I've seen! Thanks for the wonderful example and also citing your sources. –  mrjedmao Jul 29 '10 at 6:08
    
I think @unutbu's latest edit of his original answer which uses a class decorator instead of a metaclass might be a bit simpler. Actually, after re-reading the question, I wonder what exactly the OP meant by "it would be ideal if this class returned a tuple with all 3 coordinates". I don't think any answer here so far returns a tuple. Perhaps he'd like a method that returned one with the three values in it, or the special method __call__ could be defined to return one. Another possibility would be to give the class an __iter__ method so tuple() could be called on instances... –  martineau Jul 30 '10 at 15:34
    
I like the changes you've made to AutoFloatProperties. That really is much simpler! –  unutbu Aug 4 '10 at 19:58

If I understand your question correctly, you want something like this ?

class Vector(object):

    def __init__(self, x=0, y=0, z=0):
        self._x, self._y, self._z = x, y, z

    def setx(self, x): self._x = float(x)
    def sety(self, y): self._y = float(y)        
    def setz(self, z): self._z = float(z)     

    x = property(lambda self: float(self._x), setx)
    y = property(lambda self: float(self._y), sety)
    z = property(lambda self: float(self._z), setz)

This uses _x, _y and _z to (internally) store the incoming values and exposes them via the use of property (with getters, setters); I abbreviated the 'getters' using a lambda statement.

Note that in Python it would be very common to manipulate these values (say: x, y, z) on the object itself directly (I guess you want ensure the explicit float casts?)

share|improve this answer
1  
FWIW, if you changed __init__() to self.x, self.y, self.z = x, y, z, the last three calls in the Vector class definition for creating properties could be simplified to just x = property(lambda self: self._x, setx), etc since the values stored would always already be floating point. –  martineau Oct 30 '10 at 17:42

I may be misreading your question, but I think what you want is already made for you in collections.namedtuple:

>>> from collections import namedtuple
>>> Vector = namedtuple('Vector', 'x y z')
>>> v = Vector(0, 0, 0)
>>> v
Vector(x=0, y=0, z=0)
>>> v.x = 10
>>> v
Vector(x=10, y=0, z=0)
>>> tuple(v)
(10, 0, 0)
>>> v._asdict()
{'x': 10, 'y': 0, 'z': 0}
>>>

Does that look about right?

For shame, I forgot that tuples are immutable. Curse me for not upgrading from Python 2.5 so I could have actually tested the code I wrote. Anyway, you may want something quite similar to collections.namedtuple, except more like a hypothetical namedlist. Or you may want to discard that idea entirely and use something different. The point is that this answer was wrong, and I would delete it, except I feel obligated to the people who upvoted me to correct my mistake.

share|improve this answer
2  
+1 and I'd like to add that namedtuples can be used in inheritance. See docs.python.org/dev/library/… for more details. –  Frank Mar 8 '10 at 12:46
2  
v.x = 10 gives "AttributeError: can't set attribute" -- tuples, named or not, are immutable! –  Alex Martelli Mar 8 '10 at 16:02
    
-1 OP specified that they would like to be able to edit the properties –  tgray Mar 8 '10 at 19:54
    
namedtuples do a have a _replace method which creates a new instance with specific attributes updated (eg. x = v._replace(x=4, z=6)). This could help you but it probably isn't great in terms of performance. –  Menno Smits Jul 29 '10 at 12:49

Is this what you're looking for?

class vector(object):
    def __init__(self, x,y,z):
        self.x = x
        self.y = y
        self.z = z

    # overload []
    def __getitem__(self, index):
        data = [self.x,self.y,self.z]
        return data[index]

    # overload set []
    def __setitem__(self, key, item):
        if (key == 0):
            self.x = item
        elif (key == 1):
            self.y = item
        elif (key == 2):
            self.z = item
        #TODO: Default should throw excetion

This is the most naive way of doing it. I'm sure some Python guru will come along sneer at my code and replace it with a one-liner.

Examples of this code:

v = vector(1,2,3)
v[1] = 4
v[2] = 5

v.x = 1
v.z= 66
share|improve this answer
    
Not sneering, but I would change the implementation of __getitem__ to just return (self.x, self.y, self.z)[index]. If you really wanted to be sneaky, you could change __setitem__ to setattr(self, chr(ord('x') + key), item). Both of these one-liners ignore error checking, but it's only a serious issue for the __setitem__ implementation (__getitem__ should probably raise that exception anyway). But you get my last upvote for today. –  Chris Lutz Mar 8 '10 at 12:47
    
Points well made. The 'sneering' comment was just tongue in cheek :) –  Il-Bhima Mar 8 '10 at 13:15

Edit: My previous answer tried to make a generalized AutoProperties metaclass which I hoped could be of general use. As @martineau's answer shows a solution specialized to the Vector class can make things simpler.

Here's another idea along those lines (specialized simplicity over generalized complexity). It uses a class decorator (which I think is slightly simpler to understand than a metaclass) and @martineau's idea of simplifying the getters and setters with default values:

def AutoProperties(*props):
    def _AutoProperties(cls):
        for attr in props:
            def getter(self,_attr='_'+attr):
                return getattr(self, _attr)
            def setter(self, value, _attr='_'+attr):
                setattr(self, _attr, float(value))
            setattr(cls,attr,property(getter,setter))
        return cls
    return _AutoProperties

@AutoProperties('x','y','z')
class Vector(object):
    '''Creates a Maya vector/triple, having x, y and z coordinates as float values'''
    def __init__(self, x=0, y=0, z=0):
        self._x, self._y, self._z = map(float,(x, y, z))

Original answer: Here is a way to avoid repeating boiler-plate code when defining many similar properties.

I've tried to make the solution reasonably general, so it might be of use to people in other situations beside this particular one.

To use it you need to do 2 things:

  1. Put

        __metaclass__=AutoProperties(('x','y','z'))
    

    at the beginning of the definition of your class. You can list (as strings) as many attributes (e.g. x,y,z) as you wish. AutoProperties will turn them into properties.

  2. Your class, e.g. Vector, needs to define staticmethods _auto_setter and _auto_getter. They take one argument, the attribute name as a string, and return the setter or getter function, respectively, for that attribute.

The idea of using metaclasses to automatically set up properties comes from Guido Rossum's essay on properties and metaclasses. There he defines an autoprop metaclass similar to what I use below. The main difference is that AutoProperties expects the user to define getter and setter factories instead of manually defined getters and setters.

def AutoProperties(props):
    class _AutoProperties(type):
        # Inspired by autoprop (http://www.python.org/download/releases/2.2.3/descrintro/)
        def __init__(cls, name, bases, cdict):
            super(_AutoProperties, cls).__init__(name, bases, cdict)
            for attr in props:
                fget=cls._auto_getter(attr)
                fset=cls._auto_setter(attr)
                setattr(cls,attr,property(fget,fset))
    return _AutoProperties

class Vector(object):
    '''Creates a Maya vector/triple, having x, y and z coordinates as float values'''
    __metaclass__=AutoProperties(('x','y','z'))
    def __init__(self, x=0, y=0, z=0):
        # I assume you want the initial values to be converted to floats too.
        self._x, self._y, self._z = map(float,(x, y, z))
    @staticmethod
    def _auto_setter(attr):
        def set_float(self, value):
            setattr(self, '_'+attr, float(value))
        return set_float
    @staticmethod   
    def _auto_getter(attr):
        def get_float(self):
            return getattr(self, '_'+attr)
        return get_float

if __name__=='__main__':
    v=Vector(1,2,3)
    print(v.x)
    # 1.0
    v.x=4
    print(v.x)
    # 4.0
share|improve this answer
    
very good! check out @martineau's solution. it's close to yours, but it's taken one step further by putting the _auto_setter and _auto_getter inside the metaclass. –  mrjedmao Jul 29 '10 at 6:10
    
I came up with at slightly more compact, but equivalent way to code the metaclass version (see latest edit) which could also be applied to this decorator version. It's difficult to post code here in a comment, so it'll have to be left as an exercise for the reader. –  martineau Aug 4 '10 at 19:21
    
@unutbu, FWIW, the main reason I added the default argument values wasn't in an effort to simplify things, it was to make their definitions work inside the for attr in props: loop, however the way they were originally written, it was picking up the last value assigned to the attr variable for all three getters and setters inside the loop. Has to do with free variables, closure, and nested functions. –  martineau Aug 6 '10 at 22:23

I don't really understand the question. You have a Vector which describes a point in space with 3 coordinates. Your implementation already allows you to change the values:

v = Vector()
v.x = 10 # now x is 10

why should it return a tuple? What would you use it for? That said, a tuple is immutable so can't be modified, but you could use a list. Changing the numbers in that list will not reflect in Vector though.

If you do need to ensure the type is a float, consider property setters:

class C(object):
    def __init__(self):
        self._x = None

    @property
    def x(self):
        """I'm the 'x' property."""
        return self._x

    @x.setter
    def x(self, value):
        print "x set to ", value
        self._x = value

c = C()
c.x = 10

print c.x, c._x
share|improve this answer

I understand that

  1. you want to have a filter that transform the input values into floats
  2. you don't want to write the property three times

You could use the following code:

class Vector(object):
    def __init__(self, x,y,z):
         self._x = x

def mangle(name):
return '_'+name

for name in ['x','y','z']:
    def set_xyz(self, value):
        self.__setattr__(mangle(name), float(value))
    def get_xyz(self):
        return self.__getattribute__(mangle(name))
    prop = property(get_xyz, set_xyz)
    setattr(Vector,name, prop)
share|improve this answer
    
-1. This code is broken in at least two obvious ways. It presents an interesting way to solve the problem, but it's sloppy and suspect, and below the standards I normally see on SO. –  Jesdisciple Jul 12 '13 at 18:35

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