and yeah, it's many-to-many on a lot of the stock e.g. washers or nuts, but that's irrelevant in listing a parts list for a single machine, which can be considered like a "master" starting point for the recursion. Once you select a machine, we don't care about what parts can be used elsewhere
We've got something like that in my work DB. Effectively, we have a separate table COMPONENTS just for describing the "x is made out of y" relation between parts, distinct from the PARTS table.
So if you had a death ray that was made out of a nut and a washer, the tables might look like
PARTS
id name
0 nut
1 washer
2 death ray
COMPONENTS
part_id component_id
2 0
2 1
This at least lets you efficiently find the direct components of a part. But you'd need more than one query if you wanted to find the components of those components, and the components of the components of the components, etc.
Pretty much what I said. Once you go through the official docs on indexing, just start following answers from people like MaxU, PiR, Divakar and the other main names
I haven't seen much from MaxU for ages but his answers were more accessible than Divakar's
Divakar has an unusual brain; you know you've found the answer to your problem if one of his answers comes up in your search... the next part is understanding how the hell it works
@Kevin but seriously. If I want to multiply each column by a different number, I can multiply by a list/array or a series/dict. Using the dict saves me the construction of a series and it also guarantees alignment of correct columns to numbers.
You've defined a class Kibbles with __lmul__ and __mul__ and done Kibbles(A) * B The internals of of the class shuffle through various classes until it finds a compatible pair and performs *... amirite? @Kevin
@roganjosh this one is so weird to find and deal with. i haven't really had to use .isin all that much, is the general advice to then avoid it whenever possible?
Today I am annoyed by inspirational messages that are worded like "don't worry if you haven't achieved all your life's goals at 21. Heck, even if you're 22 or 24 or even 29, you're doing fine!"
@ParitoshSingh I'm not an authority for "general advice" on something like this, but I certainly won't stop using it. For my version, it works how I expect it to work
@ParitoshSingh The only thing recently that I've seen that I would like is a mixed column of nan and int. I'll forego such things for the sake of not updating, but it's always going to be case dependent on what you need pandas for, I guess
Actually, that portion surprises and confuses me. I hadn't known about pandas 2.0 till it was linked in chat a couple weeks back. yet pandas 0.24 or whatnot forges on, and are making major api revisions in a setup where apparently it's already tough to make things consistent.
I don't think I have anything that requires a version higher than I already have, and at least basic things like isin behave as I expect... presumably because I've had this version for a while
@piRSquared this i can sorta get. whenever you're dealing with tables, pandas is the defacto go-to. at the same time, i dont put the blame on just users though.
say, for example, i looked at pd.DataFrame arguments a couple times
That's just the absolutely most basic call you can have while making a dataframe, and the first thing you're greeted with is a hodge podge of so many arguments it's hard to take them all in.
@DeveshKumarSingh ha, never seen a real panda up close. they look cute on telly :P
@roganjosh hm, well, i didn't turn to docs when doing this, spyder kinda just plops the function's docstring in a separate tab.
I deffo do not understand half of the code blocks on the page. No matter, I'm still sufficiently awed by the demonstrated difficulty of building an inescapable sandbox.
I've added the three-part builtins deletion challenge to the Riddles page. It is somewhat incomplete since I am a dullard and can't provide commentary on the solutions for the first two, or provide the solution for the third one.
- create dict instances x,y,z such that `x == y` and `y == z` but not `x == z` - create datetime instances x,y,z such that `x == y` and `y == z` but not `x == z`
@ParitoshSingh in 2.7 it is possible with normal dicts. in 3.x the 2.7 trick no longer works, but it's still possible using dict subclass from collections... (big hint)
Moderately stymied by x < y < z < x because I can't remember how view spoiler works in 2.7. The documentation basically says it's implementation-dependent.
@AndrasDeak Yeah, that's what I was looking at. "The default order comparison (<, >, <=, and >=) gives a consistent but arbitrary order." is what I was complaining about being too vague.
It's a lesser miracle we had CN; the Eastern Bloc wasn't famous for foreign-language broadcast and my parents never paid for any extra channels anywhere. Whatever came through the plugs.
I used to really enjoy it. I like how cartoons can get in innocent references for the adults forced to watch kids programs these days. Spongebob is not boring
I am practicing file sizes, however, this question is a little tough as I am unsure of what "K" is the abbreviation of. Is "K" another abbreviation of KB (kilobytes)? Or what is K the abbreviation of in this context?
*"Kevin is entering the JS1K contest, a contest to write an interesting program in just 1K of JavaScript code. He's hoping he can rewrite a program that's currently 1MB and enter that for the contest.
**If he succeeds, how much smaller will his new program be?**"*
personally, I think this power-of-10 standardization is silly and only leads to confusion (and of course sellers will always use the base that gives you larger numbers)
@DeveshKumarSingh Instance equality is what I think I'm referring to. Presently with no use in business logic, but might be better than using the my_class.json_dict method for comparisons.
Which is what I'm using right now, and is fine, but not as elegant as ==
I mean, I thought to use the same method under the hood (in this case a method which transforms the data to a json-compatible dict, or json string) at least until there's a business case for implementing it differently. I haven't written a non-toy __eq__ method before.
class A:
...
def json_dict(self):
# not used in prod code ... yet
...
def __eq__(self, other):
# only used in tests, ever
return self.json_dict() == other.json_dict()
they still shouldn't be equal. you can take attributes on, that go in the instance __dict__, and such details should not be invisible to any reasonable notion of equality
otherwise it makes your objects behave weird when placed into sets/dicts (py2) or prevents you from putting them in sets/dicts (py3)
if it's an immutable type, you have __slots__, and you can sensibly define __hash__, then its defensible. but just for testing purposes, no, keep the code which is only for test in the test code
for example registering a custom assert in pytest, or just define your own compare_myobj(one, two) helper function in the test code
This somewhat non-obviously means that defining an __eq__ has the side-effect that you can't use instances of those objs in a lookup dict. It's not a fair price to pay if you only added the eq method for a testing convenience, IMO.
I reason (and have for a long time and told everyone else to do so as well because I'm opinionated) that since you need __repr__ for decent debugability and reasonable output on the REPL, and since a good (if trivial) __repr__ should have instance == eval(repr(instance)), and you should want decent coverage, then you should implement a __eq__.
hmm, somehow I PlaidML appears only installable in a virtualenv. Trying to install outside of a virtualenv causes piadml-setup to fail with a very generic error message. In addition trying to build from source also fails because 1: There is an incorrect version of llvm listed, and 2. llvm can't find histedit.h (even though I have libedit-dev installed. -_- installation is such a pain sometimes.