so far I have
def rec(a,b):
stack=[]
stack.append([a,b])
while stack!=[]:
a,b=stack.pop()
r=n//w
c=n%w
if(c==0 and r==h): return 1 #leftover from my recursive algo
because normally it's a recursive counting algorithm where it returns 1 on the stopping condition; but with a stack i don't know how this is handled
user406009
Why can't you just use a table of past values combined with the recursive function?
I have a function whose current signature is f(a,b=0). I want to add another argument c. I want my function in such a way so that I can call f(a,b) which is currently the behavior and f(a,c). One way is to overload the function and duplicate the function code. I do not want to call f(a,b) from f(...
> In 1988, Nintendo released Super Mario Bros. 2 for the NES. According to the first edition manual for the North American release of the game, Birdo is referred to as a male who believes he is female and would rather be called "Birdetta".
The good news is that I again have water in my garden. The bad news: there's another broken pipe in the garden house (dammit!), my drilling machine died (after 20 years), and I overworked my right wrist so badly, I have a hard time wiping my arse (and typing this message).
To think that Friday, 13th, passed by without any calamities at all, just to give me such a shitty Sat, 14th...
@EtiennedeMartel I'm not sure I could hold a bottle of beer in my right hand. And I wouldn't trust my ability to pour alcohol into a glass, let alone holding a glass. Also, it's close to 8am here. Not the time to get drunk.
@EtiennedeMartel Have you ever tried to wipe your butt with your left hand? I did, and I reverted to using the right hand, whimpering, though, due to the pain in the wrist.
> The problem with hobby software projects is that I have no deadlines to restrain my perfectionism.Much code is written;not much is finished. — James McNellis
> Perfectionism should make you write less, rather than lots of code. — sbi
user406009
@JohnSmith, Just downloaded it and it seems to come with 3 files, a header, the library, and a debug version of the library.
I thought playing a round of Quake would be too straining for my right hand, but I tried anyway. The good news: it's ok. It seems I need less of my right hand than for typing. The bad news: now I know that my left wrist is hurt, too. It's not even a tenth as bad as the right wrist, but keeping the AWSD keys busy all the time definitely hurts a lot.
I am so screwed.
@CheersandhthAlf You mean it suddenly wants to set a cookie, needs scripting permissions, and, given the latter, only shows a blank page on FF?
Oh. IE reveals that it's fallen into the hands of a domain hog.
Yeah, AFAIK it's extremely flexible and is basically just a front-end that does expression templates, with a built-in (and relatively speedy!) implementation to make it usable in a default state.
I would add Robert Martin's "Clean Code - The Handbook or Agile Software Craftsmanship" to the beginner list. Even though most of the examples are in Java, the code and concepts are easily grokked by any object oriented programmer. Learning to write clean, easy to maintain easy to test code shoul...
@GManNickG I have a pretty ridiculous self-made bignum library left over from my Pi computing project. Currently it has a usable C-interface. But I've yet to find the time to build a C++ wrapper.
@GManNickG I almost started the C++ wrapper. The problem is that operator overloading restricts the parameters. So I can't pass extra parameters such as the precision, # of threads, scratch memory, etc...
So that's why I've left it as a C interface for now.
@GManNickG I am right now going through the answers and try to form an opinion on each one. Many I have already downvoted. I would appreciate if you guys would follow my lead (start at the bottom), read my comments, add your own if you have an opinion on a book, and vote. There's some really bad stuff there (like a book on Agile Programming in Java). Let's wipe those out.
The biggest problem is that they aren't convinced that it will help. (they obviously haven't seen my library) And it doesn't fit into the interface.
part of the problem is that GMP is like 20 years old? It wasn't initially designed for threading. So now it makes it extremely difficult for them to do so.
Yes, code can be rewritten, but interfaces can't. You'd have to add new functions...
And the algorithms that they use are - should I say - not very well suited to parallelism... eek
@GManNickG It's still the "only" thing around. I don't plan on open-sourcing mine - though I'll probably do a shared-library distribution in the future.
@Mysticial Hopefully the Boost one takes off, then. I hate being forced to use old, crappy libraries.
What magnitude of numbers are you processing where you do primitive operations concurrently? Fries my noodle, I though the algorithms were inherently serial and not worthwhile to thread.
Granted, my own library isn't particularly fast for small numbers. I doesn't beat GMP until at least a few hundred digits - which is larger than what most people would need.
Threading doesn't help until the numbers are a million digits large - too much overhead.
*as in performing a single multiplication with multiple threads.
@GManNickG Large multiplications use divide-and-conquer algorithms. So they're parallelizable, abeit very messy.
addition can be parallelized if you delay carryout.
Though it never actually helps since addition/subtraction is memory bound.
Ah, gotcha. So it's really for those programs, like your pi calculation program, that you know are going to end with tons of digits, and not for general purpose I-need-a-kind-of-big-number programs.
Yeah, for small sizes, it's pretty much a contest of who can write the best hand-written assembly. Something I'm not very good at. But there are still tricks you can use to do, say, multiple operations at the same time to abuse ILP.
> This is still a pretty decent book, IMO, despite it's age and all the pattern hate that has replace the pattern obsession in the 90s, but I don't think it should be included in a C++ book list. — sbi
> I think that both "Exceptional C++" and "More Exceptional C++" are overrated [...]. I also think "Modern C++ design" is very interesting about the ideas, but makes it absolutely evident how template metaprogramming in C++ is close to hand-walking... it may look impressive but [...] it's a terribly stupid way to go around; C++ template machinery is very primitive and insisting on it instead of external code generators is just masochism. — 6502
so you can break the carry dependency, by summing two different parts of the program at the same time, and deal with carry at the end. (which will rarely propagate more than like 1 digit)
if you split an addition into two parts, you're effectively unrolling the loop by 2 iterations without a carry-dependency. So that's double the throughput - but at a startup and ending cost.
@GManNickG IIRC it's around 4 to 8 machine words - and highly dependent on how well the main carry-propagation is implemented. In 64-bit without inline assembly, it can be really slow.
Although the addition function that I'm using doesn't use inline assembly to access the carry flags... it's slow. But it's not a bottleneck... that would be the multiplications of course.
what's even more interesting is to use a "partial" word size where you don't pack as many bits into each machine word
and you leave some space
that lets you do multiple additions without needing to carryout every single time.
I did an experiment on that, addition/subtraction was essentially a memcpy - and vectorizable.
But as soon as it goes out of cache... boom... it backfires...
using a hybrid implementation that picks between "packed" and "partial" seemed way too complicated...
@Mysticial Just read the most-upvoted comments on this one and add your downvote to it. This list deserves to be near the bottom of the pile, not near the top.
How many pointers (*) are allowed in a single variable?
Let's consider the following example.
int a = 10;
int *p = &a;
Similarly we can have
int **q = &p;
int ***r = &q;
and so on.
For example,
int ****************zz;
The verification algorithm only gets you a "few" digits at position N. The main algorithm gets you all the digits from 0 to N.
and because the propagation of errors is chaotic to less significant digits, if the last digits are correct, then with extremely probability, they are all correct.*
*there's a few implementation corner cases where this could fail and are handled separately.
Oh, I understand now. And iterating through the digits with the verification algorithm and trying to combine the results would be totally impractical then.
@JohnSmith In general or for a specific kind of matrix?
@TaylorBioniks It's definitely unique, but it's hard to navigate because I don't know what the icons mean, probably put a single word under them like "Home" and "Lab" (and hover text).
@Mysticial Right, I didn't mean to imply searching. But even just loading the digit at position N requires the server to seek across a file, which might be too expensive if you gets lots of traffic.
If you split into million sized chunks, you can load the right file directly, and not have to process as much.
@Mysticial: I see the program has error correction built into it, does that cost much performance-wise? Or do you verify, say, every 1 thousand digits and back up if it fails?