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ANARC05B - The Double HeLiX |
Two finite, strictly increasing, integer sequences are given. Any common integer between the two sequences constitute an intersection point. Take for example the following two sequences where intersection points are
printed in bold:
- First= 3 5 7 9 20 25 30 40 55 56 57 60 62
- Second= 1 4 7 11 14 25 44 47 55 57 100
You can ‘walk” over these two sequences in the following way:
- You may start at the beginning of any of the two sequences. Now start moving forward.
- At each intersection point, you have the choice of either continuing with the same sequence you’re currently on, or switching to the other sequence.
The objective is finding a path that produces the maximum sum of data you walked over. In the above example, the largest possible sum is 450, which is the result of adding 3, 5, 7, 9, 20, 25, 44, 47, 55, 56, 57, 60, and 62
Input
Your program will be tested on a number of test cases. Each test case will be specified on two separate lines. Each line denotes a sequence and is specified using the following format:
n v1 v2 ... vn
Where n is the length of the sequence and vi is the ith element in that sequence. Each sequence will have at least one element but no more than 10,000. All elements are between -10,000 and 10,000 (inclusive).
The last line of the input includes a single zero, which is not part of the test cases.
Output
For each test case, write on a separate line, the largest possible sum that can be produced.
Sample
Input: 13 3 5 7 9 20 25 30 40 55 56 57 60 62 11 1 4 7 11 14 25 44 47 55 57 100 4 -5 100 1000 1005 3 -12 1000 1001 0 Output: 450 2100
Added by: | psetter |
Date: | 2009-07-05 |
Time limit: | 1s |
Source limit: | 50000B |
Memory limit: | 1536MB |
Cluster: | Cube (Intel G860) |
Languages: | All except: ERL JS-RHINO NODEJS PERL6 VB.NET |
Resource: | ANARC 2005 |
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2016-05-13 08:55:06
Another Binary Search implementation with Greedy :) Don't forget the case when there are no intersection points :p |
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2016-04-21 07:32:50
No DP. Just Merge sort kind of traversal, with greedy approach. |
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2016-04-14 08:54:03
Thanks Krishna! your test cases helped! I am posting the testcases again so that you may not have to go previous comments to look for them : [testcases by Krishna] 4 1 2 3 4 4 5 6 7 8 4 1 2 3 4 3 3 7 10 4 -30 -20 -10 10 4 -100 -80 -60 -30 6 1 2 4 6 8 20 6 22 24 26 28 30 40 6 1 4 8 20 100 500 1 1 6 1 4 8 20 100 500 1 1000 6 1 4 8 20 100 500 4 2 3 8 15 6 1 4 8 20 100 500 4 2 6 400 500 6 1 4 8 20 100 500 6 1 4 8 20 100 500 6 1 4 8 20 100 500 4 2 8 20 200 6 1 4 8 20 100 500 4 2 3 80 500 6 100 200 300 400 500 600 4 40 81 99 100 26 23 -30 170 633 1000 633 908 633 633 633 2320 |
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2016-03-23 20:35:18
simple implementation |
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2016-03-22 15:25:41 Dushyant Singh
Tricky case 3 2 4 7 2 2 4 Answer 13 |
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2016-03-16 19:32:37
i'm submitting correct code still it is showing wrong answer! why? |
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2016-03-01 17:33:06
my 6th ac:) |
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2016-02-26 11:50:35
No DP no greedy just simple implementation. AC in 1 go :) |
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2016-02-25 17:04:42
Solved it using vectors.... Feeling awesome :) Thanks krishna for the test cases Last edit: 2016-02-25 17:06:12 |
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2016-02-22 13:45:51 Safayet Islam Anonno
Solved using Binary Search + Greedy |