302488: CF479D. Long Jumps
Memory Limit:256 MB
Time Limit:1 S
Judge Style:Text Compare
Creator:
Submit:0
Solved:0
Description
Long Jumps
题目描述
Valery is a PE teacher at a school in Berland. Soon the students are going to take a test in long jumps, and Valery has lost his favorite ruler! However, there is no reason for disappointment, as Valery has found another ruler, its length is $ l $ centimeters. The ruler already has $ n $ marks, with which he can make measurements. We assume that the marks are numbered from 1 to $ n $ in the order they appear from the beginning of the ruler to its end. The first point coincides with the beginning of the ruler and represents the origin. The last mark coincides with the end of the ruler, at distance $ l $ from the origin. This ruler can be repesented by an increasing sequence $ a_{1},a_{2},...,a_{n} $ , where $ a_{i} $ denotes the distance of the $ i $ -th mark from the origin ( $ a_{1}=0 $ , $ a_{n}=l $ ). Valery believes that with a ruler he can measure the distance of $ d $ centimeters, if there is a pair of integers $ i $ and $ j $ ( $ 1<=i<=j<=n $ ), such that the distance between the $ i $ -th and the $ j $ -th mark is exactly equal to $ d $ (in other words, $ a_{j}-a_{i}=d $ ). Under the rules, the girls should be able to jump at least $ x $ centimeters, and the boys should be able to jump at least $ y $ ( $ x<y $ ) centimeters. To test the children's abilities, Valery needs a ruler to measure each of the distances $ x $ and $ y $ . Your task is to determine what is the minimum number of additional marks you need to add on the ruler so that they can be used to measure the distances $ x $ and $ y $ . Valery can add the marks at any integer non-negative distance from the origin not exceeding the length of the ruler.输入输出格式
输入格式
Valery is a PE teacher at a school in Berland. Soon the students are going to take a test in long jumps, and Valery has lost his favorite ruler! However, there is no reason for disappointment, as Valery has found another ruler, its length is $ l $ centimeters. The ruler already has $ n $ marks, with which he can make measurements. We assume that the marks are numbered from 1 to $ n $ in the order they appear from the beginning of the ruler to its end. The first point coincides with the beginning of the ruler and represents the origin. The last mark coincides with the end of the ruler, at distance $ l $ from the origin. This ruler can be repesented by an increasing sequence $ a_{1},a_{2},...,a_{n} $ , where $ a_{i} $ denotes the distance of the $ i $ -th mark from the origin ( $ a_{1}=0 $ , $ a_{n}=l $ ). Valery believes that with a ruler he can measure the distance of $ d $ centimeters, if there is a pair of integers $ i $ and $ j $ ( $ 1<=i<=j<=n $ ), such that the distance between the $ i $ -th and the $ j $ -th mark is exactly equal to $ d $ (in other words, $ a_{j}-a_{i}=d $ ). Under the rules, the girls should be able to jump at least $ x $ centimeters, and the boys should be able to jump at least $ y $ ( $ x<y $ ) centimeters. To test the children's abilities, Valery needs a ruler to measure each of the distances $ x $ and $ y $ . Your task is to determine what is the minimum number of additional marks you need to add on the ruler so that they can be used to measure the distances $ x $ and $ y $ . Valery can add the marks at any integer non-negative distance from the origin not exceeding the length of the ruler.
输出格式
Valery is a PE teacher at a school in Berland. Soon the students are going to take a test in long jumps, and Valery has lost his favorite ruler! However, there is no reason for disappointment, as Valery has found another ruler, its length is $ l $ centimeters. The ruler already has $ n $ marks, with which he can make measurements. We assume that the marks are numbered from 1 to $ n $ in the order they appear from the beginning of the ruler to its end. The first point coincides with the beginning of the ruler and represents the origin. The last mark coincides with the end of the ruler, at distance $ l $ from the origin. This ruler can be repesented by an increasing sequence $ a_{1},a_{2},...,a_{n} $ , where $ a_{i} $ denotes the distance of the $ i $ -th mark from the origin ( $ a_{1}=0 $ , $ a_{n}=l $ ). Valery believes that with a ruler he can measure the distance of $ d $ centimeters, if there is a pair of integers $ i $ and $ j $ ( $ 1<=i<=j<=n $ ), such that the distance between the $ i $ -th and the $ j $ -th mark is exactly equal to $ d $ (in other words, $ a_{j}-a_{i}=d $ ). Under the rules, the girls should be able to jump at least $ x $ centimeters, and the boys should be able to jump at least $ y $ ( $ x<y $ ) centimeters. To test the children's abilities, Valery needs a ruler to measure each of the distances $ x $ and $ y $ . Your task is to determine what is the minimum number of additional marks you need to add on the ruler so that they can be used to measure the distances $ x $ and $ y $ . Valery can add the marks at any integer non-negative distance from the origin not exceeding the length of the ruler.
输入输出样例
输入样例 #1
3 250 185 230
0 185 250
输出样例 #1
1
230
输入样例 #2
4 250 185 230
0 20 185 250
输出样例 #2
0
输入样例 #3
2 300 185 230
0 300
输出样例 #3
2
185 230