If you really want to indicate that something is private and not meant to be touched, convention is to use a single underscore prefix. It doesn't do anything (well, except for some import stuff), but everybody recognizes it. Double underscore prefixes don't make things private either, they just name mangle to make it a little harder to do for inheritance purposes, and it uglifies your code immensely.
@Matiss I recall many instances of users being quite confused by the name-mangling invoked by double-underscores. If I recall correctly, PEP 8 used to discourage using it, but now it is ambivalent. I would suggest that you know what it does but otherwise avoid it, unless it solves some problem very elegantly (and don't go looking for it).
Welcome, be sure to read the room rules to avoid avoidable avoidables.
@Matiss and let me point out that you can still have name collisions if you subclass an object of the same name, so it doesn't guarantee against name collisions.
@RobertGrant woof. reed.co.uk/average-salary if this is to be believed, it seems as if "recruitment" vastly out-pays engineering, with engineering being below sales and marketing.
@Matiss In Python we have a saying: "We're all consenting adults here". So rather than the language making it impossible for private attributes to be accessed directly we just use the leading underscore to indicate that an attribute is private and that you should only touch it directly if you know exactly what you're doing.
As for verbosity, it's not just the lack of a private keyword. Python's attitude means that we don't normally write getter or setter methods in Python: we just access the attributes directly. But if you do need special behaviour when getting or setting attributes, then Python lets you write getters & setters that do their job invisibly, so the caller can still treat them as simple attribute accesses.
user559633
@khajvah how is it terrible? why would you want a dynamic language to nanny you?
I can understand that you find Python's lack of privacy concerning, but please try to see it as a feature rather than as a flaw. Guido left privacy out of Python as an intentional part of the language design, not because he was too lazy to implement it, or because he wanted to reduce the overheads that would be incurred.
rbrb
user559633
7:56 AM
@khajvah you want a language that assumes you know what you're doing, but also makes you protect yourself from yourself?
user559633
if you wouldn't want a language that's dynamic and not enforcing of privacy, i'm not really sure why you'd like python
user559633
first one wasn't meant to be rude -- i'm just not sure why you'd like python if you don't like what's basically why people use it
There's no harm in making constructive criticism of a language. Who knows, it may lead you to create your own language that behaves how you want it to. And if other people feel the same way they'll use your language too.
OTOH, complaining about aspects of Python that most of its user consider to be positive features is probably not very fruitful in a Python chat room. :)
Is there a standard lib function that efficiently converts a string to \x escape sequences? The following is pretty simple, but I guess it'd be faster if the conversion loop happened at C speed.
''.join([r'\x%02x' % ord(u) for u in some_string])
A less readable option:
s = iter(some_string.encode('hex'))
a = ''.join([r'\x%s%s'%t for t in zip(s,s)])
@AnttiHaapala Nice. Sorry for my Python2isms. ;) I don't need it to escape everything, but I kinda do need it to escape things like forward slashes. I thought it might be a useful way to handle this U&L question
In my small project I had to identify the type of files in the directory. So I went with python-magic module and did the following:
from Tkinter import Tk
from tkFileDialog import askdirectory
def getDirInput():
root = Tk()
root.withdraw()
return askdirectory()
di = getDirInput()
pr...
You can use Perl instead of sed with -p (assume loop over input) and -e (give program on command line). With Perl you can access environment variables without interpolating these in shell. Note that the variable needs to be exported:
export VAR='hi/'
perl -p -e 's/KEYWORD/$ENV{VAR}/g' somefile
...
If this program is invoked with the name s2p it will act as a sed-to-Perl translator. After option processing (all other arguments are ignored), a Perl program is printed on standard output, which will process the input stream (as read from all arguments) in the way defined by the sed script and the option setting used for the translation.
Hey, I'm wondering if some advice in a certain question is actually good....
stackoverflow.com/questions/674304/pythons-use-of-new-and-init < I have a problem very similar to this (also a class-scope-dictionary-variable, to which objects are added during __init__(self, name, **kwargs), I then need to make sure I don't add -or create- the "same (=same name)" object twice.
The question remarks that using __new()__ is NOT the right tool, instead a factory method/pattern should be used. Is that really the case for python? I've used factory methods a lot in JAVA but not seen them in python yet?
@Rishav Multiple python runs each run on a separate process (and can thus be divided as your OS wants) - but python by itself is single threaded - except of course for specific libraries (threading)
@paul23 It might be worth a question if you can't find what you want in the existing questions about __new__; OTOH, it might get closed as "primarily opinion-based".
My personal opinion: I think that's a suitable job for __new__, although I'd be inclined to use a simple factory function to handle it, since I don't like messing with __new__ unless I'm deriving from a built-in type.
Also, there may be a way to do it with metaclass, but that's not my forte.
@PM2Ring Hmm just reading an official python blog - __new__() may return an existing object, and then __init__() is called again upon that existing object.. Sounds exactly what I wish to do. I'm already using a metaclass to actually make the class iterable, so I might also overload __call__() - which can prevent __new__() and __init__()` altogether and directly modify the variables in the existing object.
I wonder however how many people will get terribly confused (myself included) by doing that latter option though.
@paul23 Yeah, ok. Note that's defining __call__ on a class that derives from type rather than object, i.e., it's a metaclass. Defining __call__ on a normal class is relatively innocuous: it just allows you to call a method on an (initialized) instance of your class.
Remember Kernighan's maxim: "Everyone knows that debugging is twice as hard as writing a program in the first place. So if you're as clever as you can be when you write it, how will you ever debug it?" — The Elements of Programming Style , 2nd edition, chapter 2.
There's a classic website written by a guy who was sick of people doing dumb things with pointers in C. His solution: train programmers on an OS that detonates a nuke if your program segfaults. :) Unfortunately, I can no longer find the site. :(
I used to think of myself as a reasonably competent C programmer, but I'm a bit rusty these days. Most of my C coding was done on the Amiga, but I tried to stick with ANSI/ISO C unless I was doing stuff with Amiga system calls. It used to annoy me reading C code that was needlessly littered with Microsoft crap.
FWIW, my ancient Amiga C CLI code tends to compile fine on Linux with minimal or no changes required.
I've done a tiny bit of GUI C programming on Linux: I wrote a moderately simple Mandelbrot generator. It uses X windows directly, rather than a sane GUI library. But my program doesn't have a proper GUI - just a window for showing the Mandelbrot image or the help text; all user input is via hotkeys and mouse clicks on the image itself. I got the relevant X windows code by cargo-culting a simple example program, and by poring over the relevant sections of the X windows docs.
(Ab)using exceptions to create recursive lookup. Well true to the pythonic EAFP..
def __getitem__(cls, item):
try:
v = cls._registry[item]
return v
except KeyError:
for subcls in cls.__subclasses__():
try:
v = subcls.__getitem__(item)
return v
except KeyError:
pass
raise
Note that try:...except is faster than the equivalent if only when the exception isn't raised, otherwise it's much slower. So if you expect the KeyError to be raised less than (say) 5% of the time the above code is ok, otherwise you probably should rewrite it.
@PM2Ring Hmm I tried testing before using: (cls._registry.__contains__(item) or any(c.__contains__(item) for c in cls.__subclasses__())), but profiler shows that much slower (25%)
Well in ANY field I've worked with I've yet to see a point where not at least 2 people (can) do the same thing, working together.
I'm loving the explanation on the obfuscator posted btw.
"This open source obfuscator hopes to obfuscate python scripts and make the scripts unreadable / hard to decipher, since you can somehow retrieve the source code from de-compiling the Python bytecode."
I have a question regarding the Pelican static site generator, not sure if that's okay here, but I'll ask anyway: I want to do something like {% if lang == 'nl' %} in the index.html template, but how would I go about this?
I spent a lot of time today and yesterday working on a friend's spreadsheet parser. It was pretty cool. Did you know that the pandas DataFrame has a to_json method and the regular JSON parser doesn't know to use it, but you can subclass the JSON parser with a single method and make it work?