605. Can Place Flowers
Suppose you have a long flowerbed in which some of the plots are planted and some are not. However, flowers cannot be planted in adjacent plots - they would compete for water and both would die. Given a flowerbed (represented as an array containing 0 and 1, where 0 means empty and 1 means not empty), and a number n, return if n new flowers can be planted in it without violating the no-adjacent-flowers rule.
Example 1: Input: flowerbed = [1,0,0,0,1], n = 1 Output: True Example 2: Input: flowerbed = [1,0,0,0,1], n = 2 Output: False Note: The input array won't violate no-adjacent-flowers rule. The input array size is in the range of [1, 20000]. n is a non-negative integer which won't exceed the input array size.
/*
比较当前位置左右两边的数是否为0且当前位置是0,是count++;
但最重要的是处理好首尾两端,eg:[0,0,1,0,0];以及当len<=3的情况
*/
class Solution {
public boolean canPlaceFlowers(int[] flowerbed, int n) {
int count=0,len=flowerbed.length;
//处理len<=3 and 首尾两端 的情况
if (len==1 && flowerbed[0]==0) {
return 1>=n;
}
if (len==1 && flowerbed[0]==1) {
return 0>=n;
}
if (flowerbed[0]==0 && flowerbed[1]==0)
{
count++;
flowerbed[0]=1;
}
if (flowerbed[len-1]==0 && flowerbed[len-2]==0)
{
count++;
flowerbed[len-1]=1;
}
//len>=3 的情况
for (int i =1; i < len-1 && len>=3; i++) {
if(flowerbed[i-1]==0 && flowerbed[i+1]==0 && flowerbed[i]==0)
{
flowerbed[i]=1;
count++;
}
}
return count>=n;
}
}