Kadane Algorithm O(n) Not working for all negative number arrays
其实解决方案也很简单,把maxSum定为Integer.MIN_VALUE,或者maxSum=A[0]
public class Solution {
public int maxSubArray(int[] A) {
// Start typing your Java solution below
// DO NOT write main() function
if(A.length == 0)
return 0;
int maxSum = A[0];
int endSum = 0;
for(int i = 0; i < A.length; i++){
if(endSum >= 0)
endSum += A[i];
else
endSum = A[i];
if(maxSum < endSum)
maxSum = endSum;
}
return maxSum;
}
}Divide and Conquer O(nlogn)
public class Solution {
public int maxSubArray(int[] A) {
// Start typing your Java solution below
// DO NOT write main() function
return find_max_subarray(A, 0, A.length - 1);
}
public int find_max_subarray(int[] A, int low, int high){
if(low == high)
return A[low];
else{
int mid = (low + high) / 2;
int left_sum = find_max_subarray(A, low, mid);
int right_sum = find_max_subarray(A, mid + 1, high);
int cross_sum = find_max_crossing_subarray(A, low, mid, high);
if(left_sum >= right_sum && left_sum >= cross_sum)
return left_sum;
else if(right_sum >= left_sum && right_sum >= cross_sum)
return right_sum;
else
return cross_sum;
}
}
public int find_max_crossing_subarray(int[] A, int low, int mid, int high){
int left_sum = Integer.MIN_VALUE;
int sum = 0;
for(int i = mid; i >= low; i--){
sum += A[i];
left_sum = sum > left_sum ? sum : left_sum;
}
int right_sum = Integer.MIN_VALUE;
sum = 0;
for(int i = mid + 1; i <= high; i++){
sum += A[i];
right_sum = sum > right_sum ? sum : right_sum;
}
return left_sum + right_sum;
}
}
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