"bcabc""abc""cbacdcbc""acdb"counts[i] is the number of smaller elements to the right of nums[i].Given nums = [5, 2, 6, 1] To the right of 5 there are 2 smaller elements (2 and 1). To the right of 2 there is only 1 smaller element (1). To the right of 6 there is 1 smaller element (1). To the right of 1 there is 0 smaller element.
[2, 1, 1, 0].primes of size k. For example, [1, 2, 4, 7, 8, 13, 14, 16, 19, 26, 28, 32]is the sequence of the first 12 super ugly numbers given primes = [2, 7, 13, 19] of size 4.1 is a super ugly number for any given primes.primes are in ascending order.k ≤ 100, 0 < n ≤ 106, 0 < primes[i] < 1000.n balloons, indexed from 0 to n-1. Each balloon is painted with a number on it represented by array nums. You are asked to burst all the balloons. If the you burst balloon i you will get nums[left] * nums[i] * nums[right] coins. Here left and right are adjacent indices of i. After the burst, the left and right then becomes adjacent.nums[-1] = nums[n] = 1. They are not real therefore you can not burst them.n ≤ 500, 0 ≤ nums[i] ≤ 100[3, 1, 5, 8]167nums = [3,1,5,8] --> [3,5,8] --> [3,8] --> [8] --> [] coins = 3*1*5 + 3*5*8 + 1*3*8 + 1*8*1 = 167
n nodes which are labeled from 0 to n - 1. You will be given the number n and a list of undirected edges (each edge is a pair of labels).edges. Since all edges are undirected, [0, 1] is the same as [1, 0] and thus will not appear together in edges.n = 4, edges = [[1, 0], [1, 2], [1, 3]] 0
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[1]n = 6, edges = [[0, 3], [1, 3], [2, 3], [4, 3], [5, 4]] 0 1 2
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[3, 4]prices = [1, 2, 3, 0, 2] maxProfit = 3 transactions = [buy, sell, cooldown, buy, sell]Java Code:
Given nums = [1, 3, 5] sumRange(0, 2) -> 9 update(1, 2) sumRange(0, 2) -> 8
"112358" is an additive number because the digits can form an additive sequence: 1, 1, 2, 3, 5, 8.1 + 1 = 2, 1 + 2 = 3, 2 + 3 = 5, 3 + 5 = 8
"199100199" is also an additive number, the additive sequence is: 1, 99, 100, 199.1 + 99 = 100, 99 + 100 = 199
1, 2, 03 or 1, 02, 3 is invalid.'0'-'9', write a function to determine if it's an additive number.
Given matrix = [ [3, 0, 1, 4, 2], [5, 6, 3, 2, 1], [1, 2, 0, 1, 5], [4, 1, 0, 1, 7], [1, 0, 3, 0, 5] ] sumRegion(2, 1, 4, 3) -> 8 sumRegion(1, 1, 2, 2) -> 11 sumRegion(1, 2, 2, 4) -> 12
Given nums = [-2, 0, 3, -5, 2, -1] sumRange(0, 2) -> 1 sumRange(2, 5) -> -1 sumRange(0, 5) -> -3
( and )."()())()" -> ["()()()", "(())()"]
"(a)())()" -> ["(a)()()", "(a())()"]
")(" -> [""]
Java Code:
[10, 9, 2, 5, 3, 7, 101, 18],[2, 3, 7, 101], therefore the length is 4. Note that there may be more than one LIS combination, it is only necessary for you to return the length.Secret number: "1807" Friend's guess: "7810"Hint:
1 bull and 3 cows. (The bull is 8, the cows are 0, 1 and 7.)A to indicate the bulls and B to indicate the cows. In the above example, your function should return "1A3B".Secret number: "1123" Friend's guess: "0111"In this case, the 1st
1 in friend's guess is a bull, the 2nd or 3rd 1 is a cow, and your function should return "1A1B".[2,3,4] , the median is 3[2,3], the median is (2 + 3) / 2 = 2.5add(1) add(2) findMedian() -> 1.5 add(3) findMedian() -> 2
pattern and a string str, find if str follows the same pattern.pattern and a non-empty word in str."abba", str = "dog cat cat dog" should return true."abba", str = "dog cat cat fish" should return false."aaaa", str = "dog cat cat dog" should return false."abba", str = "dog dog dog dog" should return false.pattern contains only lowercase letters, and str contains lowercase letters separated by a single space.O(n2).next() and hasNext(), design and implement a PeekingIterator that support the peek() operation -- it essentially peek() at the element that will be returned by the next call to next().[1, 2, 3].next() gets you 1, the first element in the list.peek() and it returns 2, the next element. Calling next() after that still return 2.next() the final time and it returns 3, the last element. Calling hasNext() after that should return false.peek() before next() vs next() before peek().0-9 and a target value, return all possibilities to add binary operators (not unary) +, -, or * between the digits so they evaluate to the target value."123", 6 -> ["1+2+3", "1*2*3"] "232", 8 -> ["2*3+2", "2+3*2"] "105", 5 -> ["1*0+5","10-5"] "00", 0 -> ["0+0", "0-0", "0*0"] "3456237490", 9191 -> []Java Code:
1, 4, 9, 16, ...) which sum to n.12, return 3 because 12 = 4 + 4 + 4; given n = 13, return 2 because 13 = 4 + 9.citations array is sorted in ascending order? Could you optimize your algorithm?citations = [3, 0, 6, 1, 5], which means the researcher has 5 papers in total and each of them had received 3, 0, 6, 1, 5 citations respectively. Since the researcher has 3 papers with at least 3 citations each and the remaining two with no more than 3 citations each, his h-index is 3.h, the maximum one is taken as the h-index.123 -> "One Hundred Twenty Three" 12345 -> "Twelve Thousand Three Hundred Forty Five" 1234567 -> "One Million Two Hundred Thirty Four Thousand Five Hundred Sixty Seven"
n-th ugly number.2, 3, 5. For example, 1, 2, 3, 4, 5, 6, 8, 9, 10, 12 is the sequence of the first 10 ugly numbers.1 is typically treated as an ugly number.isUgly for every number until you reach the nth one. Most numbers are not ugly. Try to focus your effort on generating only the ugly ones.nums, in which exactly two elements appear only once and all the other elements appear exactly twice. Find the two elements that appear only once.nums = [1, 2, 1, 3, 2, 5], return [3, 5].[5, 3] is also correct.1 / \ 2 3 \ 5
["1->2->5", "1->3"]
+, - and *."2-1-1".((2-1)-1) = 0 (2-(1-1)) = 2
[0, 2]"2*3-4*5"(2*(3-(4*5))) = -34 ((2*3)-(4*5)) = -14 ((2*(3-4))*5) = -10 (2*((3-4)*5)) = -10 (((2*3)-4)*5) = 10
[-34, -14, -10, -10, 10]