Lounge<C++>

Tony The Lion

14:01

in The Nth Monitor on The Stack Exchange Network Chat, 6 mins ago, by Quill

I ran before the pings came

lol

Ethan Bierlein

Then there were no pings

Jefery

@SarvagyaAgarwal Honestly I'm not sure

Mr. kbok

@TonyTheLion It did, thanks a bunch :)

Tony The Lion

@Mr.kbok :D :)

Jefery

Memoization would only help by xoring a certain number of subsets of the original list of filters in advance.

Mr. kbok

14:02

Funnily you get more privileges on the local machine by implicitely logging in. I'm not sure they're necessary though.

user406009

@Jefery No, it actually gives you an O(n * 2^m) solution.

Jefery

The number of bits is fixed

orlp

0

Q: Number of solutions to linear system of equations over GF(2)

Linear systems of equations over the reals have either 0, 1 or infinitely many solutions. However, when applied to finite fields (specifically GF(2)), infinitely many is not an option. Is there a fast general method to calculate the number of distinct solutions to a linear system of equations ov...

Jefery

@Lalaland What's that 2^m for?

user406009

@Jefery m is the number of "pixels" or bits in the image.

Jefery

14:04

Why would that be relevant if fixed?

orlp

@Jefery because it very quickly becomes infeasible

Jefery

The number of bits is pretty much irrelevant to the algorithm complexity.

user406009

It's useful to know even if the number of bits is fixed.

orlp

10 pixels is feasible

100 pixels is unfeasible

my method still works for thousands of pixels

Jefery

It's not part of the algorithmic complexity

It's a constant cost

orlp

14:05

and your 'constant' cost is exponential as the problem size grows

this problem's complexity is a two-parameter function

number of filters, number of bits

Jefery

When the problem size grows, more filters are added, not bits

No, the number of bits is fixed

Again

orlp

@Jefery in this particular instance

not in this problem in general

Jefery

No, it's described in the problem

orlp

and I've generalized the problem

Jefery

That's useless

Khaled A Khunaifer

14:07

what is the number of bits ?

Jefery

Like 10 or 8, I don't remember

user406009

@Jefery It's useful because it tells you whether or not your "solution" can ever work.

Sarvagya Agarwal

10

user406009

Like if it's 100 bits, it won't work at all.

user406009

And you have to use orlp's one.

Jefery

14:07

I get it, but it's never 100 bits

Considering the growth of bits is useless here

user406009

The problem statement could easily say 100 bits.

Jefery

The size considered in the complexity is dependent on N which is the number of filters

user406009

In fact for a lot of programming contests, they have two parameters for an algorithm, and then they vary both of them in different test cases.

Jefery

@Lalaland Even then it would be a constant amount

user406009

@Jefery In the long run, everything's a constant cost with a high enough constant.

user406009

14:09

There's only so much time in the universe.

Jefery

wat

orlp

@Jefery only 1267650600228229401496703205376 times slower

who cares, amiright?

Jefery

Algorithmic complexity has a very clear definition

Khaled A Khunaifer

so it's 10 x 10

user406009

@KhaledAKhunaifer It's 1d. 10 sequential bits.

Jefery

14:10

It has nothing to do with the time in the universe or whatever you are talking about

user406009

12 hours ago, by Sarvagya Agarwal

@ElimGarak : I have a photo(black and white) given in form of 10 pixels(1-D array of characters 'b' and 'w' b means black and w means white).
I also have N filters. Each filter is a 1-D array(size 10) consisting of '+' and ' - ' . You can pick any subset of these N filters and apply them on the photo .
applyting a filter : if the ith character of the filter is '+' invert the ith pixel in the photo else nothing happens. We need to output the number of different subsets of filters we can choose to convert the photo into all black . How to do this better than exponential complexity ?

Khaled A Khunaifer

wow .. 1D graphical processing .. never thought of that

user406009

@KhaledAKhunaifer The problem doesn't really have anything to do with graphics.

user406009

Lot's of these programming contest problems are really derived and strange.

Bartek Banachewicz

see those idiotic programming competitions only make people angry

user406009

14:11

@BartekBanachewicz They can fun at times.

orlp

@Lalaland I figured it out

Jefery

Anyway, as I was saying you can compress certain xored subsets into a single bitset and have that kind of memoization

user406009

And you sometimes learn something.

orlp

you can take any subset of the free variables

Sarvagya Agarwal

They are a very cool way to learn

orlp

14:11

and then 'correct' using the fixed variables

Jefery

If space complexity is not a problem, I guess it could save time.

Maybe.

Depends on the number of Ns and the additional algorithmic cost introduced by the memoization logic

Khaled A Khunaifer

why not tackle the problem from the side of the filters, instead of applying every filter to the bits

Jefery

What?

Bits are irrelevant

user406009

@KhaledAKhunaifer That's orlp's solution. It's quite cool.

user406009

@orlp So 2^(free variables) as each free variable can be either 0 or 1?

Sarvagya Agarwal

14:13

gtg now . @Lalaland : I'll tell if you if it works :)

Jefery

People, if it makes it easier for you to reason about you can think of the filters and photos as an opaque type T for which a generic function op : T -> T -> T is defined

orlp

@SarvagyaAgarwal noo

I just solved your problem

Sarvagya Agarwal

you did ?!

orlp

Turn your filters into a system of linear equations in GF(2) with your image as the solution. Perform Gaussian elimination. Then the number of solutions is two to the power of the number of free variables.

Sarvagya Agarwal

hmm I'll definitely read up on that .

orlp

14:17

can you give me a list of filters and an image?

that you know the answer of

(but don't tell me the answer)

Sarvagya Agarwal

sure

wbwbwbwbwb
3
+-+-+-+-+-
+-+-------
----+-+-+-

Khaled A Khunaifer

I just thought of a good way to solve this

orlp

@SarvagyaAgarwal and you want all black, right?

Sarvagya Agarwal

yes

orlp

I transformed your filters/image to this

filters = [
    [1, 0, 1, 0, 1, 0, 1, 0, 1, 0],
    [1, 0, 1, 0, 0, 0, 0, 0, 0, 0],
    [0, 0, 0, 0, 1, 0, 1, 0, 1, 0]
]

image = [1, 0, 1, 0, 1, 0, 1, 0, 1, 0]

Khaled A Khunaifer

14:21

what if we put filters in Map<int, List<Filter>> where the List has all filters that has black in that position, ordered by number of blacks

orlp

just + to 1

- to 0

w to 1, b to 0

Khaled A Khunaifer

for one, you can know if there exist no solution in O(10)

also you can solve it in O(10)

Sarvagya Agarwal

you can solve it in O(10) :O

Khaled A Khunaifer

and it require O(N) pre processing, N is number of filters

orlp

@SarvagyaAgarwal is the answer 256?

I get that

oh wait

no, I did something wrong

1 sec

Khaled A Khunaifer

14:28

@SarvagyaAgarwal I just gave you the algorithm, you can program it and see if it works .. I'm just lazy

Jefery

@orlp Dude

Borgleader

@TonyTheLion 50% more lovable than the last (didnt know such a thing was possible) <3

Jefery

A filter like +-++ would you convert it to an equation in the form 1x1 + 0x2 + 1x3 + 1x4 = 0?

orlp

@Jefery nope

Jefery

So what would be the equation?

orlp

14:32

1a ^ <other filters> = 0
0a ^ <other filters> = 0
1a ^ <other filters> = 0
1a ^ <other filters> = 0

Jefery

What's "a"?

orlp

excuse me

that's correct

Sarvagya Agarwal

How can the answer be 256 for 3 filters?!

orlp

@Jefery a binary variable on whether or not to include the first filter

@SarvagyaAgarwal no, I did something wrong

user406009

The answer for that one should be 2.

orlp

14:33

yes, it is 2

with my function

I just have to finish up the details on no solutions

Jefery

@orlp And how would the filters in <other filters> be laid out?

orlp

@Jefery in the exact same fashion

you get a matrix

where each filter is a column

the first row is the first bit

the second row is the second bit

etc

the first bit of each filter you choose must add up to the first bit of the image

Jefery

You mean that it must XOR to the first bit of the image?

orlp

@SarvagyaAgarwal here's my solution

gist.github.com/orlp/1b4ae4f043fe9b131c9f

@Jefery addition in GF(2) is xor

since it's modulo 2 arithmetic

0 + 0 = 0, 0 + 1 = 1, 1 + 0 = 1, 1 + 1 = 0

user406009

@SarvagyaAgarwal orlp's algorithm will take too much time on your specific input of m=10, n=10^5 though.

Jefery

14:39

@orlp I see

Interesting

orlp

@Lalaland well

user406009

@Jefery The basic idea is that you can represent applying the filters as a matrix multiplication.

Sarvagya Agarwal

I see, I am trying the DP solution first .

orlp

if you can find a solution

you already know the answer

user406009

Ax = b, where A is the filters, x is which filters are used, b is the target.

Jefery

14:40

Yes, I got it, thanks

user406009

It's quite a cool trick.

orlp

since n = 10

ScarletAmaranth

a system of linear equations

much coolness

orlp

my algorithm is m^2

Tony The Lion

@Borgleader <3 <3 <3

orlp

14:41

@Lalaland however, his 10^5 has a simple trick

if you know that there is a solution

you know that 10^5 - 10 are free variables

thus the answer is 2^(10^5 - 10)

user406009

@orlp Not quite.

user406009

You know at least 10^5 -10 are free variables.

orlp

right

user406009

But you are correct that you could stop once you determine the 10 fixed variables.

fredoverflow

Let's write a recursive-descent parser in C (Part 1)

►

3

ScarletAmaranth

14:43

@fredoverflow you must be a fairly bored person ^^

Angelus Mortis

lol

orlp

@fredoverflow I assume this is to illustrate recursion, not parsing?

ScarletAmaranth

well unless youre interested in LL(1) languages, hopefully yes

Angelus Mortis

@fredoverflow Thanks for the link sir :)

orlp

@ScarletAmaranth recursive descent is usually done GLL(1)

fredoverflow

14:44

@orlp I dunno, recursive descent is just awesome :)

orlp

@fredoverflow if you are attempting to illustrate parsing you should really start with grammars, FIRST/FOLLOW sets, etc though :)

fredoverflow

omg no I hate formal parsing theory :)

ScarletAmaranth

why not write a parser generator!

for LR languages!

user406009

Technically, recursive descent can parse any CFG.

user406009

Just don't expect speed on every one.

user703016

14:46

How about INI

orlp

@fredoverflow then you won't ever get further than ad-hoc recursive descent

Angelus Mortis

Do one really needs to learn parsing to code?

orlp

first/follow is nontrivial, and you can't really write parsers without it

Mr. kbok

@user703016 how about OHNO

user406009

@AngelusMortis No. But it's somewhat useful to know.

fredoverflow

14:48

@orlp Aren't most real world parsers straight-forward recursive-descent?

ScarletAmaranth

it's worth learning everything

user703016

@fredoverflow yes

ScarletAmaranth

@fredoverflow no

user406009

Sorta like you don't need to know about WW2 to watch Saving Private Ryan. But it's useful context.

orlp

@fredoverflow nope

fredoverflow

14:48

clang is recursive-descent, isn't it?

ScarletAmaranth

recursive descent is rubbish; it's beautiful but rubbish

the speediest solutions use lookup tables for pre-constructed paths in a table

and LR

user703016

io

user406009

> Clang is the "C Language Family Front-end", which means we intend to support the most popular members of the C family. We are convinced that the right parsing technology for this class of languages is a hand-built recursive-descent parser.

user406009

Clang is recursive descent.

user406009

So is GCC supposedly.

orlp

14:49

@fredoverflow most C / C++ compilers use recursive descent

because C / C++ are not context free

ScarletAmaranth

C is context free and single pass o_O

fredoverflow

@ScarletAmaranth Oh, that's probably more efficient for deeply nested operator precedences.

orlp

@ScarletAmaranth really now?

what is foo * bar;

a declaration, or an expression?

Andy Prowl

an expration

ScarletAmaranth

they do that in a semantic check

orlp

14:50

the vast majority of real-world parsing is context free, and uses parser generation

Angelus Mortis

@orlp expression

Andy Prowl

a declaression

fredoverflow

Please let's not dive into this "context-free" discussion again. People simply cannot agree what "context-free" means.

Martin James

The only things more difficult to understand than recursive-descent parsers are table-driven parsers.

orlp

@fredoverflow the hell?

ScarletAmaranth

14:51

@fredoverflow there's a very precise meaning of context free

Andy Prowl

^

user406009

@fredoverflow Doesn't it just mean that it can be parsed by a CFG?

fredoverflow

310

Q: Is C++ context-free or context-sensitive?

I often hear claims that C++ is a context-sensitive language. Take the following example: a b(c); Is this a variable definition or a function declaration? That depends on the meaning of the symbol c. If c is a variable, then a b(c); defines a variable named b of type a. It is directly initiali...

c++ syntax grammar context-free-grammar context-sensitive-grammar

user406009

And a context free grammar has a very precise definition.

orlp

@fredoverflow CFG has a formal definition

fredoverflow

14:52

> If you look up the definition of context-free languages, it will basically tell you that all grammar rules must have left-hand sides that consist of exactly one non-terminal symbol. Context-sensitive grammars, on the other hand, allow arbitrary strings of terminal and non-terminal symbols on the left-hand side.

@orlp Indeed, but nobody seems to use that definition.

Andy Prowl

C is not a context-free language

orlp

@fredoverflow the accepted answer to the question you linked does

Andy Prowl

nor is C++

orlp

@fredoverflow he goes to show that C++ is not only not context-free, it's not context-sensitive either, it's a complexity class above that

fredoverflow

I'm not going to discuss this again.

orlp

14:52

there is no discussion

ScarletAmaranth

@AndyProwl C is context free, wth; the disambiguation for foo * bar happens in semantic analysis, parser doesn't give a fuck

Andy Prowl

The problem is that what we usually call the 'grammar' is not the whole language here

ScarletAmaranth

@orlp above that in chomsky is just unrestricted vOv

Andy Prowl

@ScarletAmaranth Parser and semantic analysis are irrelevant from a theoretical perspective

ScarletAmaranth

you can parse C with a single pass compiler, using declaration before definition strict rules

Andy Prowl

14:54

It's just languages

ScarletAmaranth

ok; C is CSL that can be parsed with a parser for CFLs... well that's fun

Sarvagya Agarwal

did anyone know about `strtol` ?
You can just do `strtol("10100110",NULL,2)` and you get the corresponding number in base 10 .

Andy Prowl

@ScarletAmaranth "parsed" is not the whole thing

IIRC the answers linked by Fred expand on that

Bartek Banachewicz

this is GLad cc @Borgleader @melak47 @thecoshman

ScarletAmaranth

@AndyProwl well you need to create an AST so there may be transformations required thereafter... but you can make do with an extended PDA, no need for linearly bound TM

user406009

14:57

@BartekBanachewicz Isn't cosh still banned?

orlp

@BartekBanachewicz glad.dav1d.de/generated/tmpNZJZw_

user406009

Actually NVM, his ban expires in like 5 hours.

user406009

And then only Scott will be banned.

ScarletAmaranth

@BartekBanachewicz what is a loader-generator?

Bartek Banachewicz

@ScarletAmaranth it's something that makes a loader for you

ScarletAmaranth

14:58

@BartekBanachewicz is that an acronym?

Cat Plus Plus

No

ScarletAmaranth

@BartekBanachewicz oh; what's a loader ^^?

Bartek Banachewicz

inb4 what's a loader

Cat Plus Plus

It's a thing that loads

orlp

@ScarletAmaranth grabs opengl functions

Bartek Banachewicz

14:59

@ScarletAmaranth it's something that gathers pointers to OpenGL functions, which are available at runtime.

Morwenn

typename BufferProvider::template buffer<T> cache(size);

orlp

you can't statically nor simply dynamically link to opengl

Bartek Banachewicz

@orlp fire an issue

orlp

you have to get function pointers at runtime

Morwenn

Because it isn't as cool without the extra typename and the extra template.

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