I use GTK2+ for GUI stuff. I guess tkinter's ok, and these days it's kind of the defacto standard for new GUI programmers, since it's often distributed with the standard libraries, but apparently it does have various short-comings. Ask Kevin about the details.
I wholehearedly abhor support this move to recursive graph plotting. If we follow it deeply enough, we will reach enlightenment
re-cbg by the way
@PM2Ring Hmm - I think the "Is there a canonical correct way of writing this?" at the end helps it sneak under the "primarily opinion" bar. But I'm notoriously soft on such things when there's obviously a decent level of understanding behind the question.
I think it's the name space stuff that gets me. I have to say the debugger was very good and allowed me to work out what the hell a fairly complex module was doing in a special case. But everything just seems accesible in hard to predict places
@RomanLuštrik I am. I suspect that the whole module is not written in "canonical style", shall we say
I've produced enough spaghetti code in my time to realise you can't lay all that at the door of the language
By the way - I'm open to critique of that answer from all angles - stats, R interpretation or python style (which I know is bad in some bits - it was late - probably should have properly vectorized / used pandas etc)
you just infer that because when they say "I understand", they possibly wouldn't mean a that they're giraffes because they do not particularly look like one.
Native Esperanto speakers (Esperanto: denaskuloj or denaskaj esperantistoj) are people who have acquired Esperanto as one of their native languages. As of 1996, there were 350 or so attested cases of families with native Esperanto speakers. Estimates from associations indicate that there are currently around 1,000 Esperanto-speaking families, involving perhaps 2,000 children. In all known cases, speakers are natively bilingual, raised in both Esperanto and either the local national language or the native language of their parents. In all but a handful of cases, it was the father who used Esperanto...
@AnttiHaapala So when we want to communicate (relatively) unambiguously we co-operate by using compatible internal rule sets. Robert Grant's not implying that natural languages must have (or require) a set of definitive prescriptive rules enforced from on high... although the French have the Académie française...
I can even imagine that there are people who'd say this word and "disconnection" are separate, as "disconnection" is an act of "disconnecting", and "disconnect" (n) is something similar to "discontinuity"
it is not important to write your code now so that it will be reusable tomorrow for possibly something else, but it is worthwhile to not write some code twice if you could reuse 1 for the 2 cases right now
@Ffisegydd Yeah. I did the necessary algebra, assuming they could give the slope and a point on the line in rational form, but when they couldn't even do that I gave up. :) As I mentioned in the comments, they could convert those floats to rationals using continued fractions, but the denominators tend to get huge if you want good approximations on your floats, so exact lattice point intersections are far & few between.
@Kevin Sure. Of course, Python floats can't be irrational, but if you do convert them to fractions with 15 decimal digits of precision you're likely to get outrageously large denominators, so you're unlikely to get many lattice point intersections.
But I bet we have a bit of an XY problem here, and they'd actually be happy with lattice points that are close to the line, so we could use (relatively) small denominators in the approximations of those floats. But I've gotten sick of the game of a zillion questions trying to get the OP question sufficiently well-specified to be able to answer it. :)
If OP defines "not rational" as "a fraction with a really big denominator", then I am bothered by his imprecise language and no longer wish to work on his problem. If he defined "not rational" as "not expressible as the ratio of integers", then my comment has already answered his problem. Either way, I'm done.
@Kevin After the OP's latest comment I suspect that his desired line is the perpendicular bisector of the line AB, where A & B are both lattice points.
I wonder why he said the slope was probably not rational, then... Because the perpendicular bisector of a line segment that passes through lattice points, will have a provably rational slope
Your comment is perceptive @Kevin. I suspect he has not thought of that. I suspect also that, in fact, his statement that "the slope may not be rational" is because he couldn't prove that it would be rational, but in fact I bet it is. I further suspect this is a problem from some coding puzzle site - anyone looked at the latest Euler...
Can he make the leap from the slope of the original line being rational due to integer co-ordinate intersection and the project being -1 to the slope of the perpendicular being rational? I'm not sure...
The 3D cube lattice point PE question where you stand at the origin and how many points can you see is my favourite solve so far. I think the lattice had side 10**9 if memory serves.
true that - they are hard to conceptualise. I think that's why I gravitate towards them. There's a certain way to look at them that Euler encourages, I think.
Ye Gods, that sounds pompous on re-reading. Apologies.
not python related at all, (except that this would save me from writing python), but how do I make a CMD/wscript in Windows that would open an URL in the browser that I want as opposed to what the default happens to be, obviously this should consult the registry to see what browsers are installed and where... :/
If you're going to say, "no, the negative integer representation of an already negative number should be negative too", then have you tried multiplying the absolute value by negative one?
Talking about lattice points & irrationals, I learned a cute thing earlier today on SE.mathematics. 163*(pi - e) ~= 69. To be a little more precise, its a little over 68.99966, and 69/(pi - e) is a little over 163.00079. But 163 has a much cooler expression that's almost an integer: exp(pi*sqrt(163)) ~= 262537412640768743.999999999999250
A friend who's been working with Python just got a job with Ruby. He's completely new to it. I looked at his code. I asked him what was up with all the ends. He sputtered!
@martijn, I've been there. Usually when I give 25% of a solution in a comment, and the remaining 75% is a huge logical leap, and the OP responds right away saying "thanks that fixed it"
@MartijnPieters Wow! My theory: the OP's only ever seen examples of str.split() being used for splitting lines in CSV files, and doesn't realise that it can take other args apart from a comma.
@AnttiHaapala I think you are stuck if you can't guarantee that either the programs you want to run are in their "default" locations on the file system so you can use the path, or that they are correctly in the users PATH environment variable so you can invoke directly (i.e. chrome.exe http://sopython.com). I mean - you could search the whole filesystem for each browser, but that seems excessive.
OPs that post weird roundabout solutions are kind of endearing to me... I definitely like them better than the members of the 1 rep horde that don't post any prior efforts at all.
@Kevin I call that sort of thing "interface superstitions". It mostly applies to regular users, not coders, but coders can acquire such weird notions, too. Some interface superstitions are only partially conscious, eg, fiddling with the mouse to make the computer go faster while you're waiting for something. Of course, throwing thousands of mouse events into the input stream doesn't actually speed things up, but the average user doesn't know that.
I suspect that mouse wiggling (in non-scrolling contexts) causes more window-painting events to trigger, which at least makes animation look less choppy, even if it's not faster per se
I do remember that in certain cases causing interrupts caused the system to check for changes more often and you'd get feedback faster. Using mouse movements to trigger those interrupts was a proven method.
Can't remember where that was used, too long ago to remember details like that.
Hi, @MorganThrapp. Yesterday you asked about defining functions inside other functions. After I logged off I remembered another common use case.
When doing GUI stuff it's common to create the GUI as a class that gets instantiated once. All the stuff needed to lay out & set up the GUI widgets gets done in the __init__ method. It can be convenient to define helper functions inside the __init__ method, since those functions have access to __init__'s local variables.
A potential downside to nested function definitions is that the work of defining the inner function has to be done every time the outer function is called, but that's irrelevant when the outer function is only going to be called once. And in other cases, when you're using nesting to create a closure you want the inner function to be redefined so that it gets "connected" to the current local vars of the outer function.
@MorganThrapp That sounds fine to me. But be aware that many people dislike using mutable default parameters, and consider them a bug waiting to happen. But I see them as a perfectly valid Python feature, although I guess it's a good idea to comment them when you use them, so that people reading your code realise that you know what you're doing.
If we're talking specifically about writing a memoization decorator, the inner function won't be redefined every time you call the memoized function; it only gets redefined each time you use the @memoize statement.