Hey guys...this is my first time here...so how exactly do I use this chat room?I mean what purpose? I can ask questions on forum itself if I have any..!
so, anyone know how to search google on how to calculate the number of events per (timeframe) just as an approximation, by counting the exact delta-t between newest 2 consecutive events...
I haven't been totally idle. I got nerd-sniped by a question on XKCD: Possible "Spot it!"-like decks, and spent some time learning about finite projective geometry and writing code. I've also done some related SVG & POV-Ray images.
Thanks. The black ball is the origin; x, y, z are mapped to red, green, blue, respectively. The black and the light balls are finite points, the dark coloured balls on the opposite face to the black are the points at infinity. I use lowercase for finite points & uppercase for points at infinity. So the light blue ball is z, the dark blue is Z, bright yellow is xy, dark magenta is XZ, white is xyz, grey is XYZ. Etc.
Annoying people that delete their question immediately after responding to my helpful comment just because the question was closed… LET ME HELP YOU Q_Q
We have 4 normal Fano planes on the faces of the tetrahedron, and 6 slightly squashed ones that have their base on one edge of the tetrahedron with their apex on the opposite edge. Then there are 4 conical Fano planes with a vertex of the tetrahedron as the apex, and the circular ring on the opposite face as the base of the cone. The final plane consists of the 4 circular rings and the white ball.
Saw a turtle question... thought I'd pop by because for some reason I thought aha "Kevin will probably like that!" and lo' and behold - he's already answered it... I've been Kevin'd trying to get @Kevin to Kevin something...
Here's a version of the Fano plane I haven't seen before. I assume other people discovered it before me, but who knows... gist.github.com/PM2Ring/16f76a2021b48196be21d4447b7af90b There's really only one ball of each colour, the others are like mirror images in a kaleidoscope.
@poke Well, it's an alternative visualization of the Fano plane. Imagine there's a mirror on the vertical axis, and a mirror on the horizontal axis. So we have 7 points and 7 lines, with 3 points on each line, and 3 lines passing through each point. The red lines are all parallel to each other, with a slope of X, so they meet at the X point at infinity on the outer circle. Similarly, all the purple lines are parallel and meet at the XY point at infinity.
But I understood the Fano plane’s special characteristics being that on every line, there are 3 nodes. So even if you expanded this to more, you have 5 on most of the lines, 4 on the XY-x-y-XY line, and 8 on the outer circle.
No, as I said earlier, those are just "mirror images". Eg, the 2 bright red points labelled "x" are actually the same point, the 4 bright purple points labelled "xy" are really just 1 point.
Originally I wanted to add translucent planes to the 3D version, with the plane colour indicating the point-plane duality, but when I tried adding translucent planes the image got really confusing.
Thanks Paul. I've been familiar with projective geometry & homogeneous coordinates for years, since it's a sensible way to do 3D rendering stuff. But I've never really played with finite geometry before.
In the process of doing that ray-traced Fano tetrahedron, I ran into the problem of fitting an ellipse into an isoceles triangle such that the ellipse touches the midpoint of the base of the triangle and also touches the equal sides at a specified location. After a day or so of algebra I stumbled across the simple solution, which is illustrated in this Tkinter program: gist.github.com/PM2Ring/c5cceea0115b593148758174b8472153
I have come across this Fano Plane concept without ever really looking into what it is, and my first impression is that it's a real pity that despite probably being a triumph of insight and ingenuity on the part of the discoverers, the end result is a circle inside a triangle, which is rather less visually impressive than pretty much any other Neat Geometry Thing ever made
This has been my vapid opinion, thanks for listening
Well, it is the simplest finite projective plane, so it's reasonable that its diagram is reasonably simple. ;) However, you need to bear in mind that that circle is really a line, and no different to the other 6 lines, it only looks different due to the limitations of trying to illustrate the Fano plane on a Euclidean plane.
Yeah I got far enough through the introductory paragraph on the Projective Plane wikipedia article to understand that it has something to do with rendering the intersection of parallel lines at infinity in a sensible manner, which strikes me as similar to how human vision works. So I'm sort of conceptualizing the circle as a straight line viewed through a fisheye lens
@Kevin That's true for general projective geometry. But the Fano plane is a finite projective space. It only contains 7 points and 7 lines, anything else you see in the diagrams is an artifact of the representation.
:) If you want to know some of the applications of the Fano plane, take a look at "The Many Names of (7,3,1)" by Ezra Brown, and the follow-up article "Many More Names of (7, 3, 1)".
ah, nothing like coming back from uni and having 2 responses waiting in your inbox - one of which is "I can't provide an mcve because I can't reproduce the problem"
oh, I did. But the nice person in me stuck around and gave the OP tips on how to improve the question, and kept copying 4 tiny fragments of code together to try and reproduce the OP's problem, and kept asking for a proper mcve because the OP kept making (small) improvements to the question
I'm starting to think SO should try harder to inform newbies what SO is all about... people come here with the idea "this website is here to solve my problem" all the time, when in reality it's all about future readers who come here from google
And also all those people who post answers on obvious duplicates - I'm sure a large portion of them think it's all about helping the OP solve their problem
I am creating random numbers for my code and I am using the seeding method for the purpose of debugging. What I want to do is to store the return value of time(NULL) function which will be used by the srand() function. The value is to be stored in a log text file so that it can be used to analyze...
Imagine there was a giant popup for new users that said something like this:
"The goal of SO is to provide high quality answers to specific programming questions, to serve as a resource for programmers who come to SO from a search engine like google. Its aim is not to solve your problem alone, but also that of other programmers who read your question in the future. As such, we expect users to 1) make sure the same question hasn't been asked already and 2) compose a clear, answerable question that is helpful for other people"
Nobody reads under any circumstances, so you may as well make your sentences as long as you like :-P
Hmm, I must be misreading the definition of finite projective planes because I don't see why a complete graph of four nodes doesn't qualify, since wikipedia says that seven points are necessary
Oh, oops, a fully connected graph with four nodes violates "The intersection of any two distinct lines contains exactly one point", ex. lines AB and CD don't intersect
If we have a bracket balancing parser, we have to choose between 1. incorrectly rejecting code like `print("(")` 2. Writing individual parsers for every language that has different rules about how string literals work
But the effectiveness of a popup aside, the point is that SO should do a better of communicating "SO is different from normal programming forums" to newbies. How exactly it should do that is debatable
Hmm, there's a syntactical problem in using Unicode music notes to indicate that a phrase is from a song, when that song is actually more of an atonal spoken word thing.
@Rawing sorry not to bring you down or anything. I just feel like people don't read enough already. Forcing them to read is not going to turn out well enough... :\ It would help since some would read it, and I guess that in itself is a victory, but I don't see it as the solution to end all (I don't think there is).
I feel like I remember seeing an article or podcast or something where a SO bigwig discussed why they don't try harder to stop newbies from submitting junk. I think the bottom line was "they're real good at circumventing any obstacle we put up without learning anything in the process"
See also: posts with titles like "problem in Python? words to make the 'enter a better title' box go away"
I have a nice "Toggle Animated Gifs" extension, which can pause gifs and rewind them to frame 0. So it's also good for the common use case of wanting to view an extremely long gif, so you go make a cup of tea, and when you come back it's fully loaded but you have no idea where in the loop you are, and want to start from the beginning, without reloading the page and risking the chance of having to redownload the gif from scratch thanks to poor caching choices
Ok, I now understand what a Fano Plane is, and am now trying to determine whether the circular line is drawn as a circle because of artistic liberty, or because there's no way to draw seven points and seven straight lines containing three points each and each point containing three lines each
Yeah they seem to use a definition of line like "a finite set of 2+ points"
Which incidentally means that you can't capture all of the information about the plane using an ordinary graph, because you can't tell from a graph whether three points are all part of one line or not.
Here's a Fano plane drawn with 4 circles & 3 straight lines. This one's in my raytraced stuff I posted earlier, but it's easier to see here without all the additional clutter.
@Kevin Traditional geometry doesn't define what points or lines really are, it just uses a hand-wavey appeal to intuition. Around the time that non-Euclidean geometries were being discovered / invented it was realised that a collection of mathematical axioms can apply to multiple different models, and those models may appear to be quite different on the surface.
So (for example) if we get the 4 main axioms of Euclidean geometry (ignoring the one about parallels) we can apply it to the geometry of a sphere by defining "line" to mean a great circle and "point" to mean an antipodean pair of points on the sphere.
I did a little bit of work with spherical geometry a while back when I really really wanted the accept on a question regarding the behavior of the point-in-polygon algorithm used on the surface of a globe
And so in finite projective geometry, we're free to do a similar thing. The points and lines of finite projective geometry obey the first 4 axioms of Euclid, but they aren't exactly like the points & lines of plain Euclidean geometry.
@Kevin Yeah, I remember that. Curiously, some spherical trig formulas were discovered before the equivalent plane trig formulas. That's because spherical geometry & trigonometry were of great interest to navigators, and also to astronomers dealing with the celestial sphere. And of course, having good star maps is pretty useful when you want to navigate by the stars.
PiP works well enough on a sphere but it's harder to choose an arbitrary reference point for the "outside" of the polygon. In regular geometry you can just pick a point a million units away from the shape. But on a sphere there's nowhere to run.
Hmm this is somewhat complicated by the fact that for any two points on a torus, there's more than one way to draw a line that contains them
I've half unconvinced myself that it's possible now, because the first couple of times I found a torus-line that connects 3, 5, and 6, it also contained some of the other points.
hello all i asked this stackoverflow.com/questions/45035554/… question on SO was wondering if any one can help me with a pseudo code or any pointer how to solve it?
I mean, the sample output you showed is one single line containing everything from "sample" to "metainfo_file90" and I wanted to know if that's what you wanted or if you made a mistake while writing the post and didn't notice that you didn't have a new line in between each metainfo entry
or a transpose of it will work to if that is easier, in which case there will be three columns header first with all the meta-info followed by john and adam
write_header_to_output_file()
for master_row in master_file:
results = [master_row["sample"]]
for i in range(1, 91):
for colname in ("metainfo_1", "metainfo_2"):
match = None
filename = "file{}.tsv".format(i)
with open_tsv(filename) as tsv_file:
for tsv_row in tsv_file:
if master_row["sample"] == tsv_row["sample"] and master_row[colname] == tsv_file[colname]:
match = filename
break
Something like that.
Obviously this isn't going to work straight out of the box because I skipped all the bits where you take a tsv and turn it into an object that can be iterated over and indexed using column names. Maybe there's already a built-in module that does that? idk
Eh, I haven't subjected this to the scrutiny that I usually require of posts that I make on the main site. I've been burned by my own slapdash work before
Already I see a typo: I wrote tsv_file[colname] when I meant tsv_row[colname]
Hah! I just got an accept on a silly answer I wrote to a "Print an arrow of asterisks" question. But I guess my answer's kinda Pythonic because it doesn't loop using indices. stackoverflow.com/q/46515311/4014959
@AndrasDeak I wasn't able to come up with anything on that Quantum tunnelling question, apart from "something about the electrons passing through a barrier eg air/surface(and dirt/oxidation thereon) between electrical connectors that classical physics says they shouldn't to the degree that they do"
@AndrasDeak I guess when that tunneling is only explained due to quantum effects it's called quantum tunneling? I'm surprised I can't find anything at least denying this, as I've heard it claimed before.
whoever starred that message: thank you, but it's needless to star messages as a way of saying thanks. It's preferred if only such messages are starred which are interesting to a broader readership
@toonarmycaptain classical tunnelling is nonexistent
@AndrasDeak BTW, you can make multi-line triple-quoted strings a little neater by starting them with `'''\` and starting the actual data on the next line. The backslash escapes the following newline, so you don't get an unwanted blank line at the start of the data
Tunnelling is when you have finite transition probability across a potential wall that's larger than your kinetic energy. The probability of this in classical mechanics is exactly 0.
My point is that each file will be discarded when you rebind df to the next loaded file in each iteration. You can do this, but then you need to put all the logic concerning a given file within the loop
it's not a bit more efficient to "load them all then process them all" rather than "load one, process one, do the next one" (in case the latter is logistically feasible of course)
unless you can make use of vectorization in the former case
I didn't closely read your problem, but it looks like you wanting to test equality of dataframes, or at least rows therein
@PM2Ring I'm half-tempted to post print("\n".join("".join("*" if (x==y if y < n else x+y==2*n-2) else " " for x in range(n)) for y in range(2*n-1))) to see if I can snatch some upvotes from readers who think alphabet soup is Pythonic
@AndrasDeak ...what is mining or digging tunnels into rock if not classical tunneling? Apologies if I made an American(?) reference you weren't familiar with. I wasn't before a couple of years ago, through a Disney animation short on Netflix..
>>> df
sample metainfo1 metainfo2
0 John 10 20
1 Adam 30 40
>>> df2
sample metainfo1 metainfo2
0 Adam 100 200
1 James -100 -200
>>> df.merge(df2, how='inner', on='sample', left_index=False, right_index=False, suffixes=('', '_file1'))
sample metainfo1 metainfo2 metainfo1_file1 metainfo2_file1
0 Adam 30 40 100 200
@novicebioinforesearcher ^
you can probably do this accumulated merging looping all of your files. It will probably not be efficient (it will have to reallocate memory 100 times), but you can probably live with that
I'm pretty noobish with pandas so I don't know of a better way
[trying to synthesize joke about spiders (who can walk on ceilings) being the dominant species of Australia (a country often humorously depicted to be upside down)... Joke failed]
A couple of days ago I saw a (now-deleted) question which I think was about implementing a Bloom filter. I first learned about them a year or so ago, but I never got around to playing with them. Anyway, that question inspired me to write some code: bloom_filter_test.py.
Python isn't a great language for bit-twiddling, and I guess it's a bit pointless doing this in Python, since one of their benefits is speed. But I guess the other benefit is the small amount of RAM they consume.
whoever starred that message: thank you, but it's needless to star messages as a way of saying thanks. It's preferred if only such messages are starred which are interesting to a broader readership
@MooingRawr Ah, right. I suppose I could make the balls "orbit" along the gold ellipses. It may look cute. But then it wouldn't be a diagram of the Fano plane anymore.