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水题,就是一个暴力。大力出奇迹。
Problem Statement |
| | There is a narrow passage. Inside the passage there are some wolves. You are given a vector size that contains the sizes of those wolves, from left to right.
The passage is so narrow that some pairs of wolves cannot pass by each other. More precisely, two adjacent wolves may swap places if and only if the sum of their sizes is maxSizeSum or less. Assuming that no wolves leave the passage, what is the number of different permutations of wolves in the passage? Note that two wolves are considered different even if they have the same size.
Compute and return the number of permutations of wolves that can be obtained from their initial order by swapping a pair of wolves zero or more times.
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Definition |
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| Class: | NarrowPassage2Easy |
| Method: | count |
| Parameters: | vector , int
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| Returns: | int |
| Method signature: | int count(vector size, int maxSizeSum)
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| (be sure your method is public) |
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Limits |
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| Time limit (s): | 2.000 |
| Memory limit (MB): | 256 |
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Constraints |
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size will contain between 1 and 6 elements, inclusive. |
| - | Each element in size will be between 1 and 1,000, inclusive. |
| - |
maxSizeSum will be between 1 and 1,000, inclusive. |
Examples |
| 0) | |
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Returns: 2 |
| From {1, 2, 3}, you can swap 1 and 2 to get {2, 1, 3}. But you can't get other permutations. |
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| 1) | |
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Returns: 6 |
| Here you can swap any two adjacent wolves. Thus, all 3! = 6 permutations are possible. |
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| 2) | |
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Returns: 3 |
| You can get {1, 2, 3}, {2, 1, 3} and {2, 3, 1}. |
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| 3) | |
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Returns: 720 |
| All of these wolves are different, even though their sizes are the same. Thus, there are 6! different permutations possible. |
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| 4) | |
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| 5) | |
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