code風景區(code scenic)
http://codingsimplifylife.blogspot.tw
No matter you are Taiwanese, Chinese, or anyone who understand English, are all welcome!
歡迎隨時問問題或發言!
Welcome to ask questions or comment anytime!
If you discuss with me or ask questions in English, I'll try to make the solutions English (If I'm able to solve it) , and tag it with "English".
I love solving problems! <3<3<3
p.s. I don't know how to insert new lines, so headings were used.
Auto comment: topic has been updated by fsps60312 (previous revision, new revision, compare).
Could you explain this one : Round 345, Div2 E
See->http://codingsimplifylife.blogspot.tw/2016/03/codeforces-651etable-compression.html
Thanks! Interesting problem :)
Wow! The official editorial gives the exactly same solution! Happy~
Thanks. It's better than the editorial. To me at least.
BTW you can insert new line by typing < br > (without spaces).
Thank you~ ^_^
If you have any problem wants to share with me, you can also post here or message me.
Looking forward to interesting problems~<3
p.s. YA! Now I am able to insert new lines!
Your blog become filtered in my country :\
Well... I'm afraid I can't help. (It says your internet access is restricted by the government?)
I'm just a high school student.
Sorry...
(I found a software, "UltraSurf". Maybe it can help you get access to google websites?)
can you please discuss the topic about combinator,it will help a hot???
Excuse me, what contaminator? I don't know what you mean, sorry...
Contaminator contaminates. Also, it has nothing to do with programming.
Please help with this problem (dp solution)
http://codeforces.me/contest/618/problem/D
fsps60312 gave me the problem earlier today. I solved it just now and finished the tutorial of dp solution. You can view it here
Thanks a lot. This problem is inspiring.
Thanks a lot to you and fsps60312 , I solved it :) .
You're welcome~ ^_^
Here is my solution for problem 631E: http://codingsimplifylife.blogspot.tw/2016/03/codeforces-631eproduct-sum.html
Enjoy~ :)
can you help me with this question:
http://codeforces.me/blog/entry/43738
I really need to sleep now, sorry...
It's midnight in our time zone...
BTW, could you provide the online judge for your problem?
Without this, I won't be able to test my code and solve problem...
https://www.codechef.com/problems/XORSACK
I solved it!
Interesting problem! :D
http://codingsimplifylife.blogspot.tw/2016/03/codechef-xorsackhououin-kyouma-and_12.html
Interesting
bit i is a number, or a number equals to 0 ⊕ all of the elements of a number set, its i-th bit (⊕ is the sign of XOR) Xi is number X's bit i (X's i-th bit). Can you explain this i think the translator is not working fine.
He is now editing. It should take few minute.
Well... Sorry for that.
I've described it in another way.
Please just refresh the page and then you can see the updated page.
Could you understand it now?
concept of maintaining number sets is not clear to me? Can you explain what help is it doing?
A number set means a set of numbers. We can choose some numbers (number set) from the origin array. Then our goal is make the XOR of these numbers choosen equals to K. But we can't do it directly. So we slowly maintain which number sets satisfy that after XOR, the first i bits equals to the first i bits of K.
corrct me if i am wrong. i think you are building the number set by bits and then if a particular bit int K is 0, and the current set contains number v1,v2,v3..vn then you are leaving numbers containing bitk( k'th bit 0) unchanged while those numbers having kth bit 1 you are combining them even numbers at a time like v1 XOR v2, v2 XOR v3 ... and probably removing the v1,v2.. . BUT how it takes care of cases like v1 XOR v2 XOR v3 XOR v4
For v1 XOR v2 XOR v3 XOR v4
You can choose (v1 XOR v2) and (v3 XOR v4)
Both ((v1 XOR v2) and (v3 XOR v4)) are (s')'s elements.
We use a set of numbers, s, to represent a exponential number of number sets.
We can restore these 2^N number sets by either to choose and not to choose each element in s.
For example, if s={1,2,3}, it represent the following number sets:
{},{1},{2},{3},{1,2},{1,3},{2,3},{1,2,3}
So, s is not the 2^N number sets itself, we just try to represent and store it in this way.
BTW, would you mind if I copy our Q&A as comments on my blog, code scenic?
I think these would help others understand what I mean.
not at all.
Thanks!
And could you understand it now? :)
still on way.