Permitting 1 and 0 as letters quadruples the number of valid hex codes. Along with the aforementioned #C0FFEE, #F00D1E and #B0D1ED are good ones.
Yeah, pretty much. The reference count of the value returned by i.split() drops down to zero after the first print function executes, so it becomes inaccessible. — Kevin1 min ago
I don't like talking about reference counts because that's very CPython-specific, and I don't like talking about accessibility because you can get references to things in weird places (last object in _ at the console, e.g.)..
The official docs teach you all sorts of interesting things about Python's guts, but there's little discoverability. You have to go in with an idea of what you want to find out.
I think the ways I need things explained now are different from the ways I needed things explained when I hadn't yet reached my current intermediate level of Python.
Agreed. When I was reading about yield from yesterday, I thought "this wouldn't make any sense if I started with no idea how yield from approximately works"
Right now when I'm learning something new I want to know (roughly) the objects and the relationships and the structures before I learn any syntax (except as needed to give examples). When I had to learn the webby stuff the other year, looking things up in the flask docs wasn't hard. Learning JS syntax wasn't hard. Learning the stuff no one ever mentioned about where you're supposed to put stuff, and how the whole thing is supposed to hold together, was frustrating.
Yeah, that's exactly my feelings. I've been working on some PHP for a freelancing project, and the PHP itself isn't hard, it's learning how web frameworks work. How the controller talks to the model talks to the view.
When we worked with FPGAs in college, the hard part was getting everything set up so your two line assembly program would blink the LED. Everything that followed was fairly smooth sailing.
I think I've finally arrived at a model/view-model/view approach which makes sense to me, but I had to ask davidism whether I was going off track because it felt like I was duplicating information about user state, and I didn't know if my reflexes made sense in this strange new world.
I need to rewrite my 1 line SQL INSERT into a copy-paste-search-replaced 32-line SQL script where I repeat the value 6 times. "Because it's the standard"
Kind of hating my coworkers right now. I don't mind if they want to make things complicated but at least have the decency to realize it's awful and put it in a procedure.
Is there a way to convert a variable width string to float with a fixed point? Eg, I know that the first 3 characters will always be on the left of the decimal point, but I have no idea how many points of precision I'll have.
s = [_ for _ in l] <- Good example of someone who's done enough Python to know he needs to make a copy, but hasn't read enough of other people's to know the idiomatic way to do it.
I'm never too clear on how close two things need to be before the one is just an application of the other, if you know what I mean. Which is why I tend just to add "maybe relevant: (some link)"..
I used to get a kick out of posting how things behaved under pypy, ironpython, and jython when somebody said something about how "Python" behaves. The excitement faded.. :-)
I vaguely recall reading about a heap allocation strategy where you store blocks of varying powers of two, and how it's subsequently likely that freeing one block and mallocing a block of the same size will give you the same address you just freed.
vim wizards (who are hopefully more magical than yours truly): how would I apply an action to every line in a file? In this case I used a macro and just did @@ a bunch of times, but it's appending text to the end of every line
Yeah I thought about repeating action using ., but then it's j.j.j.j.j.j.j. instead of recording the "down line" action in the macro and just doing @@@@@@@@@@@@
I'm going to bring up one of Kevin's earlier hints: the problem is much easier if you think of it in 2D instead of one. If you define a function which specified two things about the nature of the partitions, it's much easier to see how the recursion should go. (There are other ways to do it, but this is the canonical one.)
I'm probably dumber than I look because I don't really understand the hint. The method I'm trying to use right now is to recurse with a function header f(n: "remaining total", pending: "list of numbers left to try") -> int
so f(5) will build pending as [2, 3, 4, 5], pop the last pending into current and recurse on f(n-current, pending)
default case is pending being the empty list (meaning there's no numbers to try other than 1 and there's only one way that a set of 1s adds up to n) or n<2