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Enums have been added to Python 3.4 as described in PEP 435. It has also been backported to 3.3, 3.2, 3.1, 2.7, 2.6, 2.5, and 2.4 on pypi. To use backports, do $ pip install enum34, installing enum (no numbers) will install a completely different and incompatible version. from enum import Enum Animal = Enum('Animal', 'ant bee cat dog') or equivalently: ...


Before PEP-435, Python didn't have an equivalent but you could implement your own. Myself, I like keeping it simple (I've seen some horribly complex examples on the net), something like this ... class Animal: DOG = 1 CAT = 2 x = Animal.DOG In Python 3.4 (PEP 435), you can make Enum the base class. This gets you a little bit of extra ...


You need to decode the bytes object to produce a string: >>> b"abcde" b'abcde' >>> b"abcde".decode("utf-8") 'abcde'


From the docs: The SimpleHTTPServer module has been merged into http.server in Python 3.0. The 2to3 tool will automatically adapt imports when converting your sources to 3.0. So, your command is python3 -m http.server.


Here is what I use: class Enum(set): def __getattr__(self, name): if name in self: return name raise AttributeError Here is its implementation: Animals = Enum(["DOG", "CAT", "HORSE"]) print(Animals.DOG)


raw_input() was renamed to input() From http://docs.python.org/dev/py3k/whatsnew/3.0.html


Ubuntu 12.10+ and Fedora 13+ have a package called python3-pip which will install pip-3.2 (or pip-3.3, pip-3.4 or pip3 for newer versions) without needing this jumping through hoops. I came across this and fixed this without needing the likes of wget or virtualenvs (assuming Ubuntu 12.04): Install package python3-setuptools: run sudo aptitude install ...


In Python 3, print became a function. This means that you need to include parenthesis now. print("Hello World") http://docs.python.org/3.0/whatsnew/3.0.html#print-is-a-function


As I mentioned to David Wolever, there's more to this than meets the eye; both methods dispatch to is; you can prove this by doing min(Timer("x == x", setup="x = 'a' * 1000000").repeat(10, 10000)) #>>> 0.00045456900261342525 min(Timer("x == y", setup="x = 'a' * 1000000; y = 'a' * 1000000").repeat(10, 10000)) #>>> 0.5256857610074803 The ...


There are three factors at play here which, combined, produce this surprising behavior. First: the in operator takes a shortcut and checks identity (x is y) before it checks equality (x == y): >>> n = float('nan') >>> n in (n, ) True >>> n == n False >>> n is n True Second: because of Python's string interning, both ...


print("Hello, World!") You are probably using Python 3.0, where print is now a function (hence the parenthesis) instead of a statement.


In python "else if" is spelled "elif". Also, you need a colon after the elif and the else. Simple answer to a simple question. I had the same problem, when I first started (in the last couple of weeks). So your code should read: def function(a): if a == '1': print('1a') elif a == '2': print('2a') else: print('3a') ...


The shebang line in any script determines the script's ability to be executed like an standalone executable without typing python beforehand in the terminal or when double clicking it in a file manager(when configured properly). It isn't necessary but generally put there so when someone sees the file opened in an editor, they immediately know what they're ...


The difference is that raw_input() does not exist in Python 3.x, while input() does. Actually, the old raw_input() has been renamed to input(), and the old input() is gone (but can easily be simulated by using eval(input())).


If you need the numeric values, here's the quickest way: dog, cat, rabbit = range(3)


How about this: import unicodedata def strip_accents(s): return ''.join(c for c in unicodedata.normalize('NFD', s) if unicodedata.category(c) != 'Mn') This works on greek letters, too: >>> strip_accents(u"A \u00c0 \u0394 \u038E") u'A A \u0394 \u03a5' >>> Update: The character category "Mn" stands for ...


Python never implicitly copies objects. When you set dict2 = dict1, you are making them refer to the same exact dict object, so when you mutate it, all references to it keep referring to the object in its current state. If you want to copy the dict (which is rare), you have to do so explicitly with dict2 = dict(dict1) or dict2 = dict1.copy()


@ is the matrix multiplication operator introduced in Python 3.5. @= is matrix multiplication followed by assignment. They map to __matmul__, __rmatmul__ or __imatmul__ similar to how + and += map to __add__, __radd__ or __iadd__. From the documentation: The @ (at) operator is intended to be used for matrix multiplication. No builtin Python types ...


The Pythonic approach would be to use any(): if any(s in x for s in (a,b,c,d,e,f,g)): From the linked documentation: any(iterable) Return True if any element of the iterable is true. If the iterable is empty, return False. Equivalent to: def any(iterable): for element in iterable: if element: return True return False ...


Pass it as a tuple: print("Total score for %s is %s " % (name, score)) Or use the new-style string formatting: print("Total score for {} is {}".format(name, score)) Or pass the values as parameters and print will do it: print("Total score for", name, "is", score) If you don't want spaces to be inserted automatically by print, change the sep ...


Do this: list(map(chr,[66,53,0,94])) In Python 3+, many processes that iterate over iterables return iterators themselves. In most cases, this ends up saving memory, and should make things go faster. If all you're going to do is iterate over this list eventually, there's no need to even convert it to a list, because you can still iterate over the map ...


'%s' % 100000 is evaluated by the compiler and is equivalent to a constant at run-time. >>> import dis >>> dis.dis(lambda: str(100000)) 8 0 LOAD_GLOBAL 0 (str) 3 LOAD_CONST 1 (100000) 6 CALL_FUNCTION 1 9 RETURN_VALUE >>> ...


Unidecode is the correct answer for this. It transliterates any unicode string into the closest possible representation in ascii text.


How about: import copy d = { ... } d2 = copy.deepcopy(d) Python 2 or 3: Python 3.2 (r32:88445, Feb 20 2011, 21:30:00) [MSC v.1500 64 bit (AMD64)] on win32 Type "help", "copyright", "credits" or "license" for more information. >>> import copy >>> my_dict = {'a': [1, 2, 3], 'b': [4, 5, 6]} >>> my_copy = copy.deepcopy(my_dict) ...


The simplest way to accomplish this would be to put the input method in a while loop. Use continue when you get bad input, and break out of the loop when you're satisfied. When Your Input Might Raise an Exception Use try and catch to detect when the user enters data that can't be parsed. while True: try: # Note: Python 2.x users should use ...


Unfortunately the xkcd comic isn't completely up to date anymore. Since Python 3.0 you have to write: print("Hello world!") And someone still has to write that antigravity library :(


Here's a quick and dirty ctypes tutorial. First, write your C library. Here's a simple Hello world example: testlib.c #include <stdio.h> void myprint(void); void myprint() { printf("hello world\n"); } Now compile it as a shared library (mac fix found here): $ gcc -shared -Wl,-soname,testlib -o testlib.so -fPIC testlib.c # or... for Mac OS ...


I was able to install pip for python 3 on Ubuntu just by running sudo apt-get install python3-pip.


Using complex numbers z = [1, 2, 4, 5, 6] y = sum(x + 1j for x in z) sum_z, count_z = y.real, int(y.imag) print sum_z, count_z 18.0 5


Correct, g.next() has been renamed to g.__next__(). The reason for this is to have consistence. Special methods like __init__() and __del__ all have double underscores (or "dunder" as it is getting popular to call them now), and .next() is one of the few exceptions to that rule. Python 3.0 fixes that. [*] But instead of calling g.__next__(), as Paolo says, ...

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