573. Squirrel Simulation(1st).java

6/28/2017 - 11:33 PM

573. Squirrel Simulation(1st).java

public class Solution {
    private int getDistance(int[] pos1, int[] pos2) {
        return Math.abs(pos1[0] - pos2[0]) + Math.abs(pos1[1] - pos2[1]);
    }
    public int minDistance(int height, int width, int[] tree, int[] squirrel, int[][] nuts) {
        int sumNuts2Tree = 0;
        int numOfNuts = nuts.length;
        int[] Nuts2Tree = new int[numOfNuts];
        int minNuts2Squirrel = Integer.MAX_VALUE;
        for (int i = 0; i < numOfNuts; i++) {
            int d = getDistance(nuts[i], tree);
            sumNuts2Tree += d * 2;
            Nuts2Tree[i] = d;
        }
        
        for (int i = 0; i < numOfNuts; i++) {
            minNuts2Squirrel = Math.min(minNuts2Squirrel, getDistance(nuts[i], squirrel) - Nuts2Tree[i]);
        }
        return sumNuts2Tree + minNuts2Squirrel;
    }
}

public class Solution {
   
    public int minDistance(int height, int width, int[] tree, int[] squirrel, int[][] nuts) {
        int diff = Integer.MAX_VALUE;
        int dist = 0;
        for (int i = 0; i < nuts.length; i++) {
            int val = distance(nuts[i], squirrel);
            int val1 = distance(nuts[i], tree);
            if (val - val1 <= diff) 
                diff = val-val1;
            dist += 2 * val1;
        }
        dist += diff;
        return dist;
    }

    private int distance(int[] nut, int[] squirrel) {
        return Math.abs(nut[0] - squirrel[0]) + Math.abs(nut[1] - squirrel[1]);
    }
}

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573. Squirrel Simulation(1st).java