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OPBIT - Operation Bits |
Operation bits - A new operation conducted by the secret team currently working on a project on security enhancement. Mr. Abay, the team head, has found a new pattern on the perfect squares. This can be used as a outer cover for his project as its securing power is low. So he assign you this problem to find the key based on the given conditions:
"An two adjacent perfect squares have their absolute difference as an odd number except when a and b are equal. Your task is to find the key which is defined as:
key(a, b) where a and b are perfect squares is ( ( AND( absolute difference between every adjacent perfect squares in [a, b]) ) AND ( XOR( absolute difference between every adjacent perfect squares in [a, b]) ) )"
Find the key for the given inputs :)
Input
The input begins with a number T (1 ≤ T ≤ 1000) where T is the number of test cases.
T lines follow
Each line has two numbers a and b (0 < a ≤ b ≤ 106)
It is assured that a and b are perfect squares.
Output
For each test case print the corresponding key.
Example
Input: 2 1 4 25 49 Output: 3 0
for test case 1 we have key=(3)&(3)=3
Added by: | Benkindersophobia |
Date: | 2013-11-30 |
Time limit: | 0.100s |
Source limit: | 40000B |
Memory limit: | 1536MB |
Cluster: | Cube (Intel G860) |
Languages: | All except: ASM64 |
Resource: | My Own |
hide comments
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2013-12-03 17:25:01 Andrey Maksimenko
Perfect squares in case 2 are: 25, 36 and 49. So differences are 11 and 13 and answer is (11 AND 13) AND (11 XOR 13). |
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2013-12-03 08:39:47 [Lakshman]
Can someone explain me the case two, I am unable to understand the problem at all. Thanks |
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2013-12-01 05:05:23 Benkindersophobia
Sorry guys there was a small problem in output file.... All solutions have been rejudged... |
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2013-11-30 21:47:19 Jacob Plachta
The data has issues - for example, EOF is reached before all T cases are read. Please fix! |