A peak element is an element that is greater than its neighbors.
Given an input array where num[i] ≠ num[i+1]
, find a peak element and return its index.
The array may contain multiple peaks, in that case return the index to any one of the peaks is fine.
You may imagine that num[-1] = num[n] = -∞
.
For example, in array [1, 2, 3, 1]
, 3 is a peak element and your function should return the index number 2.
Note:
Your solution should be in logarithmic complexity.
C++实现代码:
#include<iostream> #include<vector> #include<climits> using namespace std; class Solution { public: int findPeakElement(const vector<int> &num) { if(num.empty()) return -1; if(num.size()==1||num[0]>num[1]) return 0; int i=1; int n=num.size(); while(i<n-1) { if(num[i]>num[i-1]&&num[i]>num[i+1]) return i; i++; } if(i==n-1&&num[i]>num[i-1]) return i; return -1; } }; int main() { Solution s; vector<int> vec={1,2}; cout<<s.findPeakElement(vec)<<endl; }
方法2:二分查找
思路:如果中间元素大于其相邻后续元素,则中间元素左侧(包含该中间元素)必包含一个局部最大值。如果中间元素小于其相邻后续元素,则中间元素右侧必包含一个局部最大值。
class Solution { public: int findPeakElement(vector<int>& nums) { if(nums.empty()) return -1; int left=0; int right=nums.size()-1; while(left<=right) { int mid=left+((right-left)>>1); if(left==right) return left; if(nums[mid]<nums[mid+1]) left=mid+1; else right=mid; } return -1; } };