The story of Bronzemurder is a very nicely illustrated example of the kind of shenanigans you can get up to in the game if you know what you're doing (unlike me)
Partly inspired by a SE.Mathematics question, this afternoon I came up with a slightly odd way to compute pi using tan(x) ~= x for small x, and the identity tan(2x) = 2tan(x)/(1-tan²(x)). Here's a quick implementation.
n = 30
d = 2 ** -32
x = 3
while True:
y = d * x
for i in range(n):
y = 2 * y / (1 - y * y)
dx = 4 * (1 - y) / (1 + y * y)
x += dx
print(x, dx)
if abs(dx) < 1E-15:
break
All methods of approximating pi are fairly magical to me... I tried to do it myself in high school by integrating a half-circle but I couldn't find the proper integration rule for f(x) = sqrt(1 - y^2)
Nor could I derive anything useful from the fundamental theorem of calculus
Here's a condensed description of my algorithm. Hopefully, it's not too cryptic. :)
Let x = pi, m = 2**n (for sufficiently large n). By applying the double angle formula n times to tan((x/4) / m) we get tan(pi/4) = 1. So we let x be an approximation to pi and use Newton's method to improve the approximation. The for loop calculates y = tan(x/4), so the derivative is dy = sec²(x/4)/4 = (1+tan²(x/4))/4.
It's not too hard to replicate Archimedes' method. Start with a pair of squares, one circumscribing the unit circle, the other inscribed in the circle. Then you can use simple Pythagoras' theorem stuff to subdivide the square sides to get the sides of the enclosing & enclosed octagons. Etc. Unfortunately, this method suffers from accumulated errors.
def archipi(n):
d = i = 2
u = 1
for j in range(n):
i = 2 - (4 - i) ** 0.5
u = ((u * u + 1) ** 0.5 - 1) / u
d *= 2
ipi = d * i ** 0.5
opi = 2 * d * u
mpi = (ipi + opi) / 2
print('%2d: %.15f %.15f %.15f' % (j, ipi, opi, mpi))
archipi(12)
:) When I was in high school, I read through a translation of Archimedes' proof for the formula of the volume of a sphere. I tell you, that was pretty heavy going! I think I understood everything in that proof, but I don't guarantee it. :) And I certainly couldn't reproduce it now (using proper calculus to do it is just so much easier).
When I was in high school, I derived the formula for the curvature of a curve (what's the correct term, damnit), that is how many radians per unit travelled it is. I thought it was quite an ingenuous formula, and that no one wouldn't have thought about that exactly like that. Then the following day I found that formula in the standard Finnish high-school book of tables that everyone is allowed to use in exams.
I could get pi by finding the zero of x\ -\ \frac{x^3}{3!}\ +\ \frac{x^5}{5!}\ -\ \frac{x^7}{7!}\ +\ \frac{x^9}{9!}..., but then there's two sources of imprecision
The Bailey–Borwein–Plouffe formula (BBP formula) is a spigot algorithm for computing the nth binary digit of pi (symbol: π) using base 16 math. The formula can directly calculate the value of any given digit of π without calculating the preceding digits. The BBP is a summation-style formula that was discovered in 1995 by Simon Plouffe and was named after the authors of the paper in which the formula was published, David H. Bailey, Peter Borwein, and Simon Plouffe. Before that paper, it had been published by Plouffe on his own site. The formula is
π
=
...
@AnttiHaapala That's no mean feat. It took the world's best mathematicians a couple of centuries of analytic geometry before that formula was discovered.
Since Halloween is coming up I though I might start a fun little code golf challenge!
The challenge is quite simple. You have to write a program that outputs either trick or treat.
"The twist?" you may ask. Well let me explain:
You program has to do the following:
Be compilable / runnable in ...
@AndrasDeak I think approaches using the Zeta function, like your sum(1/n^2)=pi^2/6 are ok too. On a similar note, sum(1/n^4)=pi^4/90, which converges a bit faster.
Lots of digits of e are easy to compute. Using Jensen's algorithm, you can easily do it without any form of bignum support. Here's an example in Python, but it can easily be done in plain C.
"Though the BBP formula can directly calculate the value of any given digit of π with less computational effort than formulas that must calculate all intervening digits, BBP remains linearithmic (O(n*log(n))) whereby successively larger values of n require increasingly more time to calculate; that is, the "further out" a digit is, the longer it takes BBP to calculate it, just like the standard π-computing algorithms.[5]"
I imagine every member species of the Coalition of Worlds will have at least one deep fascination with something that everyone else is totally baffled by.
Humans won't be exceptional in that regard. The only thing interesting about us is our kickass homeworld whose moon just happens to almost perfectly occlude the sun during eclipses.
@AndrasDeak I guess so. I've never been a huge fan of boiled dumpling type things. But I guess the advantage is that you can eat more of them than fried ones. :)
OTOH, maybe it's just that the teacher is rushing through the material and this student got left behind. But I'm not hopeful.
I finally finished my Discworld marathon today. I've read all the novels & the short stories, but I didn't bother re-reading the Science of Discworld books. Maybe next time...
The meat of this close reason is really: "this [question] was resolved in a manner unlikely to help future readers." This applies to mistakes of any nature. Not all cases of PEBKAC are unlikely to help future readers. — BoltClock ♦Jan 3 at 14:19
So basically they removed Too Localized, and the SO community rerouted around the problem by choosing the closest remaining reason and making that Too Localized..
The general consensus on Meta seems to be that if the nature of the problem is such that it would be very unlikely for a future reader with virtually the same problem and excellent Google-fu to find the question, then it probably should be closed under the "typo" reason.
@DSM see also: reinterpreting "too broad" to mean "so narrow that we must have to start at absolute zero to explain it to you" in order to close homework and read the docs questions.
@AndrasDeak Sure, but how likely is some newbie OP going to find that dupe? Unless it comes up as part of some homework assignment and a bunch of people doing the assignment make the same mistake. If the new question is well-written, and it can be hammered to a good dupe target, I'm happy to hammer it. Otherwise, I'd prefer to close it as a typo so it can get Roomba'd.
True, but sometimes you can clean up a half-way decent signpost question that gets closed a dupe. And it doesn't really matter if it gets edited before or after hammering, since the OP is unlikely to want it reopened if the dupe target's good. On that note, I got yet another "thankyou" comment from an OP whose question I hammered a day or 2 ago.
I have a django.TimeField table ... that has times associated to given users... the first time the user uses the software after any of the times it needs to do an action
someone else wrote some code... and its so painful its causing a mental block
i feel like there is an easy solution that is being overlooked
I'll post the yuck if you want.. but it may break the way you think of the problem
@davidism If you want, I can pull stories off my trello board and have you "answer" them
user559633
Sorry, was afk. Yeah, sounds like we need "too localized" and "question shows minimal effort" back (yes, i know SO corp is optimizing for bad questions (and specifically not answerers) to get more users)
Speaking of processing architecture, @tristan I'm reading the RISC-V spec for that game I'm totally eventually going to make (the TIS-100 alternative where you learn real assembly)
user559633
@KevinMGranger I'd be into it. I did some analytics on my sleep/productivity patterns, and decided that I'm going to spend one day a week doing something that I find interesting and/or not in the aim of shipping software, so I can make time to play/try it out.
Today I'm trying to figure out how modern computers prevent poorly-constructed programs from going wild and overwriting their boot sector with all zeroes. I have opened six tabs so far. All I have learned for sure is that movl $1, %eax is the linux kernel command number (system call) for exiting a program.
Four tabs ago they mentioned "paging" which seems promising but first I have to learn assembly.
user559633
I thought paging was pre-allocating a chunk of disk space, then copying contents of registers to a block device on disk
The addresses you have in your programs aren't "real", they're mapped to real memory by the kernel and MMU
And yes, pages can be marked read-only among other things
If you want to learn assembly conceptually more than you care about learning more practical assembly (read: the painful x86) I highly recommend starting with MIPS.
Learning assembly via x86 is like learning programming by learning Perl. It's practical, it'll probably get you a job, but jeez there are simpler alternatives
I haven't done assembly since the 88000. Except for a bit of inlining for high-performance numerical code during the narrow window after people realized you could do inverse-sqrts fast on graphics cards but before libraries for it became ubiquitous.
The only criticism was there were two instructions that were easy to mix up and maybe should have been named the opposite way. I can't remember what, though. Something with la?
It's the only explanation that I can come up with that produces the error he describes while not making listOfIntegers a string or a list of chars or something.
Apparently my boss has been interviewing people and one question they've been asking is "what's the difference between Python and Java?" and they assume anyone that doesn't use the word "scripting" in their answer is a fraud. This upsets me.
A friend's wife once dismissed Python in a conversation with me as merely a scripting language. She's a Java programmer. For the sake of a friendship which lasted since we were kids, I let the matter rest.
I think he thought I was trying to prank him or set up some elaborate pun. Can't blame him. I already tried stealing his desk by putting a sticky note over the last name on the name plate.
Writing prompt: humanity is just now recovering from the zombie apocalypse. A volunteer group roams around the Virginia-DC area looking for zeds dressed in formal military uniforms, and capture them so they can be re-interred in the Arlington National Cemetery.
i = next((
i if dt == start else i - 1
for i, (dt, id) in enumerate(plan_dates) if dt >= start
), None)
if i is not None:
plan_dates = [] if i < 0 else plan_dates[i:]
Obviously this needs to be in a "dead rise from their graves" zombie apocalypse universe rather than a "mysterious plague revives the recently dead" zombie apocalypse universe, but the rest of the details are free to vary.
They put everything in a class, they have one class per module, they litter CONSTANTS everywhere.. and sooner or later, I have to clean up their shit !
@wim Clearly we need a mentor system where veteran ex-java users teach the fresh converts the correct idioms. Keeps us from having to do the dirty work.
That worked.. thank you. Why am I requiring flask-restful when I never asked for it in my packages? Also, why did I not need this before? — micyukcha9 mins ago
@kevin does interpretted vs compiled work as an answer? I feel like this is certainly a concept developers should understand ... and what the "pros" and "cons" of either might be
@JoranBeasley There are lots of answers and that's one of them. I'm just worried that my boss is looking for exactly the answer they already have in mind
They're completely right-- function keys aren't "discoverable" aside from whatever laptop manufacturers decide they also do unless you use their additional modifier key which might replace where Ctrl should be damn it lenovo