Lounge<C++>

@nneonneo how about bomb the ones with the biggest number? Choose the one with the biggest number and bombing it, knowing if that is reduced to zero then everything around it would be too? Someone gives me the drawback? Like bomb one with the biggest number until it becomes less than some other number then switch to the other number

Mysticial

Fuck, there's an exponentially large number of them depending on the neighboring numbers.

Rapptz

Actually it can be just #

Mysticial

There's 5 different (maximal) places you can nuke. And depending on the rest of the puzzle, how you split them matters. And there's and exponential number of combinations to the size of the neighbors.

Rapptz

# is 0 <= # <= 9 right?

Mysticial

@Telkitty That's not optimal.

user1357851

1:15 AM

@Mysticial why?

Mysticial

@Rapptz I think so.

@Telkitty Fails for 09090

Your algorithm would need 18 bombs.

user1357851

no

user1357851

I said until it becomes smaller than some other number

Mysticial

It would still need 18, since then you switch off between them.

user1357851

while in that case I will re-write the matrix so each entry is the sum of itself and its surrounding numbers

Code-Guru

1:19 AM

in Java, 6 mins ago, by SpicyWeenie

@Code-Guru Are you just collecting code from other users or are you actually trying to help, because I'm weary (and others should be) of users always requesting code to be posted

Mysticial

In the meantime:

-1

Q: Is the universe really 13.7 billion years old?

We know that the sun is approximately 4.5 billion years old, and it still have 4 billion years until it runs out of fuel and die. And we know that the sun is not a first generation star which means that before our sun even started to form, other stars formed, went through their full life cycle an...

discussion

user1357851

then do the same

user1357851

so 09090 will become 9 9 18 9 9

Mysticial

@Telkitty That's one of the existing answers on the question. It's not optimal when you have more complicated patterns of islands.

Xeo

@Mysticial Aside from off-topicness, the OP has a wrong assumption about the lifetime. :s

nneonneo

1:20 AM

pop quiz: what's the solution to
0 3 1 3 0
3 1 6 1 3
1 6 3 6 1
3 1 6 1 3
0 3 1 3 0

is it 12 again? if it's less than 12, I will probably shoot myself

not literally

user1357851

yeah 6 + 3 + 3

nneonneo

if it's more than 12 I will also be mad.

Xeo

12 sounds good, just bomb the enclosed '1's 3 times each

Mysticial

I can't do better than 12.

user1357851

0 3 1 3 0
3 (1 )6 (1) 3
1 6 3 6 1
3 (1) 6 (1) 3
0 3 1 3 0

nneonneo

1:22 AM

@Telkitty: you missed the two threes on either side of row 2

Rapptz

yeah I get 3 x 4

nneonneo

k

Rapptz

not.. 3 + 3 + 6

but same thing

nneonneo

much bigger than 5x5 and I think people are going to start having trouble with them

user1357851

wait need my coffee, obviously I am dumb without it :p ... see what I meant >_<

nneonneo

1:24 AM

...

Mysticial

Perhaps this OP is trying to troll us by saying it's not NP. :)

And not linking us to the actual question.

If it's a troll, it's a pretty good troll... Hat's off to him/her.

Rapptz

lol

CC Inc

anyone have FireFox installed with the default bookamrks still there?

Code-Guru

some people's children...

nneonneo

@Mysticial: ooh, the tinfoil hat. I like this approach.

Mysticial

1:36 AM

@nneonneo hmm?

nneonneo

the troll comment suggests the "tinfoil hat approach" to algorithms programming

:)

but yeah, it might well be someone fishing for an efficient algorithm to something hard

Mysticial

lol

You know what?

user1357851

@Mysticial why? you only need to compute once and update once everytime you bomb something. so the expense of the solution is O(N)

StackedCrooked

I want to perform a move operation on my windows oem edition.

But it doesn't work.

nneonneo

@Mysticial what?

melak47

1:39 AM

@StackedCrooked windows oem? do a trash operation instead :E

Xeo

@Mysticial Not yet, but very soon?

Mysticial

This problem (when all numbers are reduced to 1) is a special case of the Set Covering Problem.

StackedCrooked

It's a move from one VMWare Fusion to Parallels.

Mysticial

That doesn't say much though.

nneonneo

Yeah, it doesn't say much at all

Mysticial

1:40 AM

The "special case" might be enough to reduce it from NP-hard to polynomial.

nneonneo

yeah

technically....every single NP-or-less problem is a special case of that problem :)

(or can be somehow reduced to that problem)

Mysticial

@nneonneo Can we combine multiple bombs to produce "arbitrary" coverage? That would let us reduce it to the Set Covering Problem itself.

Or wait... that's counter productive...

nneonneo

lol

Mysticial

You can tell I'm not an algorithms guy.

:P

nneonneo

what you want to do is reduce the SCP to the bomb problem

if you can do that then you prove it's NP-complete, then you're done

actually

...

Mysticial

1:44 AM

SCP has arbitrary coverage. The bomb problem is only adjacent coverage. That's the key difference.

nneonneo

yes, I know. I feel like there might actually be a reduction somewhere

not necessarily to SCP

Xeo

I feel like I should learn what this P, NP, NP-hard and NP-complete stuff is all about...

Mysticial

@Xeo lol

nneonneo

P: easy problems. NP: easy and hard problems. NP-hard: hard and very hard problems. NP-complete: hard problems.

Mysticial

@nneonneo not quite

nneonneo

1:46 AM

yeah, I know

absolute gross oversimplification

Mysticial

P: easy problems
NP: easy and hard
NP-complete: hard to find, easy to verify:
NP-hard: hard to find, hard to verify

nneonneo

uh?

Rapptz

o.o

Mysticial

At least that's what I was taught in school. Might be worded differently though.

nneonneo

noo.

Mysticial

1:48 AM

so they lied?

nneonneo

NP-complete is the intersection of NP and NP-hard

you can reduce any problem in NP to a problem in NP-hard

Mysticial

Then where does the categorization of of NP problems that are easy/hard to verify?

nneonneo

NP-hard includes every NP-complete problem, but also includes silly things like the halting problem

Mysticial

Oh your right...

nneonneo

this easy hard thing is silly

let me be a bit more specific

Mysticial

1:49 AM

yes it is

nneonneo

@Xeo, pay attention :)

StackedCrooked

If you're not so bright then they're all hard.

nneonneo

there are two parts to a problem: finding the solution and checking the solution

P, NP, etc. deal with how hard it is to both find and check the solution

P means there is some way to find the solution in polynomial time

NP means there's some way to check the solution in polynomial time

every P problem is NP because you can "check" the solution by simply looking for it

(s/a/the/g because P and NP deal with binary decision problems)

Xeo

So far I'm with you.

nneonneo

now, there's this notion of "reducing" a problem

that is, problem A can be "reduced" to problem B

Mysticial

1:53 AM

Wait, SCP optimization is "hard" to verify isn't it?

nneonneo

if you can use a solution for problem B to solve problem A, through a reduction

"The decision version of set covering is NP-complete, and the optimization version of set cover is NP-hard."

so what's a reduction? basically, if you have some instance of problem A, you can turn it into an equivalent instance of problem B, in polynomial time

StackedCrooked

What is polynomial time?

nneonneo

it means, given some notion of the "size" of the problem, your algorithm runs in time proportional to some fixed polynomial in the input size

so, quadratic, cubic, quartic, etc.

but the exponent has to be fixed

Xeo

@StackedCrooked I've been keeping the instances of that word in my head as "expand later", I first want to understand the P,NP, etc stuff. :)

Mysticial

Exponential time would not be polynomial time.

P = Polynomial
NP = non-Polynomial

doesn't get any easier to memorize that