• kSum问题总结


    1、2Sum

    题目:

    方法一:两次迭代

    public class TwoSum {
    
        public static int[] twoSum(int[] nums, int target) {
            int[] indices = {-1,-1};
            for(int i=0; i<nums.length-1; i++ ){
                if(target>=nums[i]){
                    for(int k=i+1; k<=nums.length-1; k++){
                        if(nums[k] == (target-nums[i])){
                            indices[0]=i;
                            indices[1]=k;
                            return indices;
                        }
                    }
    
                }
            }
            return indices;
    
        }
    }
    View Code

    方法二:利用HashMap,减少一次迭代

    import java.util.HashMap;
    
    public class Two_Sum1 {
        public static int[] twosum(int[] nums, int target){
            int[] result = new int[2];
            if(nums.length < 2) return result;
    
            HashMap<Integer,Integer> map = new HashMap<Integer,Integer>();
            for(int i=0; i<nums.length; i++){
                if(!map.containsKey(target-nums[i])){
                    map.put(nums[i],i);
                }else{
                    result[0]=map.get(target-nums[i]);
                    result[1]=i;
                    break;
                }
            }
            return result;
        }
    }
    View Code

    2、3Sum

    思路分析:数组排序 + twoPointers

    public class _3Sum {
        public static List<List<Integer>> threeSum(int[] num){
            Arrays.sort(num);
            List<List<Integer>> res = new LinkedList<>();
            for(int i=0; i<num.length-2; i++){
                if(i==0 || (i>0 && num[i]!= num[i-1])){
                    int lo=i+1, hi=num.length-1, sum=0-num[i];
                    while(lo<hi){
                        if(num[lo]+num[hi]==sum){
                            res.add(Arrays.asList(num[i],num[lo],num[hi]));
                            while(lo<hi && num[lo] == num[lo+1]) lo++;
                            while(lo<hi && num[hi] == num[hi-1]) hi--;
                            lo++; hi--;
                        }else if(num[lo]+num[hi]<sum) lo++;
                        else hi--;
                    }
                }
            }
            return res;
        }
    }
    View Code

    3、3Sum Cloest

    思路分析:数组排序 + twoPointers

    public class _3SumClosest {
        public static int threeSumClosest(int[] nums, int target){
            Arrays.sort(nums);
            int diff = Integer.MAX_VALUE, closest=0;
            for(int i=0;i<nums.length-2;i++){
                int lo=i+1, hi=nums.length-1;
                while(lo<hi){
                    int sum = nums[i]+nums[lo]+nums[hi];
                    if(sum == target) return target;
                    else if(sum > target){
                        if(sum-target<diff){
                            diff = sum - target;
                            closest = sum;
                        }
                        hi--;
                    }else{
                        if(target-sum<diff){
                            diff = target - sum;
                            closest = sum;
                        }
                        lo++;
                    }
                }
            }
            return closest;
        }
    }
    View Code

    4、4Sum

    思路分析:数组排序+转化问题为3Sum + 2Sum

    public class FourSum {
        public  static List<List<Integer>> fourSum(int[] nums, int target){
    
            LinkedList<List<Integer>> res = new LinkedList<List<Integer>>();
            if(nums==null || nums.length<4) return res;
    
            Arrays.sort(nums);
            int len = nums.length;
            int max = nums[len-1];
            if(4*nums[0]>target || 4*max<target) return res;
    
            for(int i=0; i<len-3; i++){
                int z=nums[i];
                if(i>0 && z==nums[i-1]) continue;
                if(z+3*max<target) continue;
                if(4*z>target) break;
                if(4*z==target) {
                    if(i+3<len && nums[i+3]==z) res.add(Arrays.asList(z,z,z,z));
                    break;
                }
                threeSum(nums,target-z,i+1,len-1,res,z);
            }
            return res;
        }
    
        public static void threeSum(int[] nums, int target, int lo, int hi, LinkedList<List<Integer>> fourSumList, int z1){
    
            if(lo+1>=hi) return;
    
            int max = nums[hi];
            if(3*nums[lo]>target || 3*max<target) return;
    
            for(int i=lo; i<hi-1; i++){
                int z=nums[i];
                if(i>lo && z==nums[i-1]) continue;
                if(z+2*max<target) continue;
                if(3*z>target) break;
                if(3*z == target){
                    if(i+1<hi && nums[i+2]==z) fourSumList.add(Arrays.asList(z1,z,z,z));
                    break;
                }
                twoSum(nums,target-z,i+1,hi,fourSumList,z1,z);
            }
        }
    
        public static void twoSum(int[] nums, int target, int lo, int hi, LinkedList<List<Integer>> fourSumList, int z1, int z2){
            if(lo>=hi) return;
            if(2*nums[lo]>target || 2*nums[hi]<target) return;
    
            while(lo<hi){
                int sum = nums[lo]+nums[hi];
                if(sum == target){
                    fourSumList.add(Arrays.asList(z1,z2,nums[lo],nums[hi]));
    
                    while(lo<hi && nums[lo]==nums[lo+1]) lo++;
                    while(lo<hi && nums[hi]==nums[hi-1]) hi--;
                    lo++;hi--;
                }
                if(sum<target) lo++;
                if(sum>target) hi--;
            }
            return;
        }
    }
    View Code

    5、kSum

    public class KSum {
        public  ArrayList<List<Integer>> kSum(int[] nums, int target, int k, int index){
            ArrayList<List<Integer>> res = new ArrayList<List<Integer>>();
            if(nums==null || nums.length<k) return res;
            Arrays.sort(nums);
            int len = nums.length;
            int max = nums[len-1];
            if(k*nums[0]>target || k*max<target) {
                return res;
            }
            if(index >= len) {
                return res;
            }
            if(k==2){
                int i=index, j=len-1;
                while(i<j){
                    if(nums[i]+nums[j] == target){
                        res.add(Arrays.asList(nums[i],nums[j]));
                        while(i<j && nums[i]==nums[i+1]) i++;
                        while(i<j && nums[j]==nums[j-1]) j--;
                        i++;j--;
                    } else if(nums[i]+nums[j]<target) i++;
                    else j--;
                } //while循环结束
            }else{
                for (int i = index; i < len - k + 1; i++) {
                    ArrayList<List<Integer>> temp = kSum(nums,target-nums[i],k-1,i+1);
                    if(temp!=null && temp.size()!=0){
                        for(List<Integer> t : temp){
                            t.add(0,nums[i]);
                        }
                        res.addAll(temp);
                    }
                    while(i<len-1 && nums[i] == nums[i+1]){
                        i++;
                    }
                }//for循环结束
            }
            return res;
        }
    }
    View Code
    不要让执行的勤奋掩盖思考的懒惰!
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  • 原文地址:https://www.cnblogs.com/zhiyangjava/p/6725379.html
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