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Is there a way to conveniently define a C-like structure in Python? I'm tired of writing stuff like:

class MyStruct():
    def __init__(self, field1, field2, field3):
        self.field1 = field1
        self.field2 = field2
        self.field3 = field3
share|improve this question
2  
Semi-relatedly, algebraic data types would be absolutely wonderful, but to use them well you usually need pattern matching. – Edward Z. Yang Sep 6 '10 at 3:03
21  
Is there anything wrong with this method other than it's tedious to write? – levesque Sep 14 '10 at 21:32
1  
You may find dstruct useful: github.com/dorkitude/dstruct – Kyle Wild Aug 20 '14 at 20:58
4  
@levesque harder to re-factor without typos, harder to read at a glance while skimming code, than MyStruct = namedtuple("MyStruct", "field1 field2 field3") – sam boosalis Sep 2 '14 at 22:05
    
well namedtuple generates a class, so what exactly is the difference? – bx2 Jan 26 '15 at 19:44

11 Answers 11

Use a named tuple, which was added to the collections module in the standard library in Python 2.6. It's also possible to use Raymond Hettinger's named tuple recipe if you need to support Python 2.4.

It's nice for your basic example, but also covers a bunch of edge cases you might run into later as well. Your fragment above would be written as:

from collections import namedtuple
MyStruct = namedtuple("MyStruct", "field1 field2 field3")

The newly created type can be used like this:

m = MyStruct("foo", "bar", "baz")

Or you can use named arguments:

m = MyStruct(field1 = "foo", field2 = "bar", field3 = "baz")
share|improve this answer
70  
...but namedtuple is immutable. The example in the OP is mutable. – mhowison Jan 17 '13 at 17:46
8  
@mhowison - In my case, that's just a plus. – ArtOfWarfare Aug 12 '14 at 11:29
    
Nice solution. How would you loop through an array of these tuples? I would assume that fields 1-3 would have to have the same names across tuple objects. – Michael Smith Jan 13 '15 at 18:57

You can use a tuple for a lot of things where you would use a struct in C (something like x,y coordinates or RGB colors for example).

For everything else you can use dictionary, or a utility class like this one:

>>> class Bunch:
...     def __init__(self, **kwds):
...         self.__dict__.update(kwds)
...
>>> mystruct = Bunch(field1=value1, field2=value2)

I think the "definitive" discussion is here, in the published version of the Python Cookbook.

share|improve this answer
3  
Would a empty class just do the same? – Kurt Liu Jul 20 '11 at 18:01
23  
Note if you are new to python: tuples are read-only once created, unlike C structs – LeBleu Oct 30 '11 at 18:28
1  
@KurtLiu No, it would probably say TypeError: this constructor takes no arguments – Evgeni Sergeev May 23 '15 at 5:15

Perhaps you are looking for Structs without constructors:

class Sample:
  name = ''
  average = 0.0
  values = None # list cannot be initialized here!


s1 = Sample()
s1.name = "sample 1"
s1.values = []
s1.values.append(1)
s1.values.append(2)
s1.values.append(3)

s2 = Sample()
s2.name = "sample 2"
s2.values = []
s2.values.append(4)

for v in s1.values:   # prints 1,2,3 --> OK.
  print v
print "***"
for v in s2.values:   # prints 4 --> OK.
  print v
share|improve this answer
3  
What you're doing here works, technically, but it's probably not immediately apparent to many users why it works. Your declarations under class Sample: don't immediately do anything; they set class attributes. Those can always be accessed as e.g. Sample.name. – Channing Moore Jun 4 '14 at 22:59
10  
What you're actually doing is adding instance properties to the objects s1 and s2 at runtime. Unless otherwise forbidden, you can add or modify the name attribute on any instance of any class at any time, whether or not the class has a name attribute. Probably the biggest functional problem with doing this is that different instances of the same class will behave differently depending on whether you've set name. If you update Sample.name, any objects without an explicitly set name property will return the new name. – Channing Moore Jun 4 '14 at 23:56
    
This is as close as it gets to a struct - short 'class' with no methods, 'fields' (class attributes, I know) with default values. As long as it's not a mutable type (dict, list), you're fine. Of course, you can hit against PEP-8 or "friendly" IDE checks like PyCharm's "class has no init method". – Tomasz Gandor Apr 4 at 23:39

How about a dictionary?

Something like this:

myStruct = {'field1': 'some val', 'field2': 'some val'}

Then you can use this to manipulate values:

print myStruct['field1']
myStruct['field2'] = 'some other values'

And the values don't have to be strings. They can be pretty much any other object.

share|improve this answer
9  
This has been my approach as well, but I feel like it's dangerous precisely because a dictionary can accept anything for a key. There won't be an error if I set myStruct["ffield"] when I meant to set myStruct["field"]. The issue might (or might not) become apparent when I'm using or re-using myStruct["field"] later. I like PabloG's approach. – mobabo Feb 13 '14 at 0:30

dF: that's pretty cool... I didn't know that I could access the fields in a class using dict.

Mark: the situations that I wish I had this are precisely when I want a tuple but nothing as "heavy" as a dictionary.

You can access the fields of a class using a dictionary because the fields of a class, its methods and all its properties are stored internally using dicts (at least in CPython).

...Which leads us to your second comment. Believing that Python dicts are "heavy" is an extremely non-pythonistic concept. And reading such comments kills my Python Zen. That's not good.

You see, when you declare a class you are actually creating a pretty complex wrapper around a dictionary - so, if anything, you are adding more overhead than by using a simple dictionary. An overhead which, by the way, is meaningless in any case. If you are working on performance critical applications, use C or something.

share|improve this answer
9  
+1 just for saying "reading such comments kills my Python Zen. That's not good." – Cody Piersall Sep 11 '13 at 21:57
3  
#1, Cython != CPython. I think you were talking about CPython, the implementation of Python written in C, not Cython, a project to cross compile Python code into C code. I edited your answer to fix that. #2, I think when he said dicts are heavy, he was referring to the syntax. self['member'] is 3 characters longer than self.member, and those characters are all relatively un-wrist-friendly. – ArtOfWarfare Sep 8 '15 at 2:16

You can also pass the init parameters to the instance variables by position

# Abstract struct class       
class Struct:
    def __init__ (self, *argv, **argd):
        if len(argd):
            # Update by dictionary
            self.__dict__.update (argd)
        else:
            # Update by position
            attrs = filter (lambda x: x[0:2] != "__", dir(self))
            for n in range(len(argv)):
                setattr(self, attrs[n], argv[n])

# Specific class
class Point3dStruct (Struct):
    x = 0
    y = 0
    z = 0

pt1 = Point3dStruct()
pt1.x = 10

print pt1.x
print "-"*10

pt2 = Point3dStruct(5, 6)

print pt2.x, pt2.y
print "-"*10

pt3 = Point3dStruct (x=1, y=2, z=3)
print pt3.x, pt3.y, pt3.z
print "-"*10
share|improve this answer
3  
Updating by position ignores attributes' declaration order and uses their alphabetic sorting instead. So if you change the lines order in Point3dStruct declaration, Point3dStruct(5, 6) won't work as expected. It's strange that nobody has written this in all 6 years. – lapis Jun 24 '14 at 21:50

Whenever I need an "instant data object that also behaves like a dictionary" (I don't think of C structs!), I think of this cute hack:

class Map(dict):
    def __init__(self, **kwargs):
        super(Map, self).__init__(**kwargs)
        self.__dict__ = self

Now you can just say:

struct = Map(field1='foo', field2='bar', field3=42)

self.assertEquals('bar', struct.field2)
self.assertEquals(42, struct['field3'])

Perfectly handy for those times when you need a "data bag that's NOT a class", and for when namedtuples are incomprehensible...

share|improve this answer
    
I use pandas.Series(a=42) ;-) – Mark Horvath Mar 5 '15 at 1:39

You access access C-Style struct in python in following way.

class cstruct:
    var_i = 0
    var_f = 0.0
    var_str = ""

if you just want use object of cstruct

obj = cstruct()
obj.var_i = 50
obj.var_f = 50.00
obj.var_str = "fifty"
print "cstruct: obj i=%d f=%f s=%s" %(obj.var_i, obj.var_f, obj.var_str)

if you want to create an array of objects of cstruct

obj_array = [cstruct() for i in range(10)]
obj_array[0].var_i = 10
obj_array[0].var_f = 10.00
obj_array[0].var_str = "ten"

#go ahead and fill rest of array instaces of struct

#print all the value
for i in range(10):
    print "cstruct: obj_array i=%d f=%f s=%s" %(obj_array[i].var_i, obj_array[i].var_f, obj_array[i].var_str)

Note: instead of 'cstruct' name, please use your struct name instead of var_i, var_f, var_str, please define your structure's member variable.

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2  
Is this any different than what is in stackoverflow.com/a/3761729/1877426 ? – lagweezle Feb 10 '15 at 18:56

You can subclass the C structure that is available in the standard library. The ctypes module provides a Structure class. The example from the docs:

>>> from ctypes import *
>>> class POINT(Structure):
...     _fields_ = [("x", c_int),
...                 ("y", c_int)]
...
>>> point = POINT(10, 20)
>>> print point.x, point.y
10 20
>>> point = POINT(y=5)
>>> print point.x, point.y
0 5
>>> POINT(1, 2, 3)
Traceback (most recent call last):
  File "<stdin>", line 1, in ?
ValueError: too many initializers
>>>
>>> class RECT(Structure):
...     _fields_ = [("upperleft", POINT),
...                 ("lowerright", POINT)]
...
>>> rc = RECT(point)
>>> print rc.upperleft.x, rc.upperleft.y
0 5
>>> print rc.lowerright.x, rc.lowerright.y
0 0
>>>
share|improve this answer

This might be a bit late but I made a solution using Python Meta-Classes (decorator version below too).

When __init__ is called during run time, it grabs each of the arguments and their value and assigns them as instance variables to your class. This way you can make a struct-like class without having to assign every value manually.

My example has no error checking so it is easier to follow.

class MyStruct(type):
    def __call__(cls, *args, **kwargs):
        names = cls.__init__.func_code.co_varnames[1:]

        self = type.__call__(cls, *args, **kwargs)

        for name, value in zip(names, args):
            setattr(self , name, value)

        for name, value in kwargs.iteritems():
            setattr(self , name, value)
        return self 

Here it is in action.

>>> class MyClass(object):
    __metaclass__ = MyStruct
    def __init__(self, a, b, c):
        pass


>>> my_instance = MyClass(1, 2, 3)
>>> my_instance.a
1
>>> 

I posted it on reddit and /u/matchu posted a decorator version which is cleaner. I'd encourage you to use it unless you want to expand the metaclass version.

>>> def init_all_args(fn):
    @wraps(fn)
    def wrapped_init(self, *args, **kwargs):
        names = fn.func_code.co_varnames[1:]

        for name, value in zip(names, args):
            setattr(self, name, value)

        for name, value in kwargs.iteritems():
            setattr(self, name, value)

    return wrapped_init

>>> class Test(object):
    @init_all_args
    def __init__(self, a, b):
        pass


>>> a = Test(1, 2)
>>> a.a
1
>>> 
share|improve this answer
    
Damnit - I spent two hours today writing up my own decorator to do this and then I found this. Anyways, posting mine because it handles default values while yours doesn't. stackoverflow.com/a/32448434/901641 – ArtOfWarfare Sep 8 '15 at 2:39
    
+1 for mentioning func_code. Started digging in that direction and found lots of interesting stuff there. – wombatonfire Mar 28 at 19:31

I wrote a decorator which you can use on any method to make it so that all of the arguments passed in, or any defaults, are assigned to the instance.

def argumentsToAttributes(method):
    argumentNames = method.func_code.co_varnames[1:]

    # Generate a dictionary of default values:
    defaultsDict = {}
    defaults = method.func_defaults if method.func_defaults else ()
    for i, default in enumerate(defaults, start = len(argumentNames) - len(defaults)):
        defaultsDict[argumentNames[i]] = default

    def newMethod(self, *args, **kwargs):
        # Use the positional arguments.
        for name, value in zip(argumentNames, args):
            setattr(self, name, value)

        # Add the key word arguments. If anything is missing, use the default.
        for name in argumentNames[len(args):]:
            setattr(self, name, kwargs.get(name, defaultsDict[name]))

        # Run whatever else the method needs to do.
        method(self, *args, **kwargs)

    return newMethod

A quick demonstration. Note that I use a positional argument a, use the default value for b, and a named argument c. I then print all 3 referencing self, to show that they've been properly assigned before the method is entered.

class A(object):
    @argumentsToAttributes
    def __init__(self, a, b = 'Invisible', c = 'Hello'):
        print(self.a)
        print(self.b)
        print(self.c)

A('Why', c = 'Nothing')

Note that my decorator should work with any method, not just __init__.

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