快速排序/快速查找(第k个, 前k个问题)

//快速排序:Partition分割函数,三数中值分割
bool g_bInvalidInput = false;
int median3(int* data, int start, int end){
    int middle = (start + end) >> 1;
    if (data[start] > data[middle])
        std::swap(data[start], data[middle]);
    if (data[start] > data[end])
        std::swap(data[start], data[end]);
    if (data[middle] > data[end])
        std::swap(data[middle], data[end]);
    std::swap(data[middle], data[end - 1]);
    return data[end - 1];
}
int Partition(int* data, int length, int start, int end){
    if (data == nullptr || length <=0 ||start < 0 || end > length - 1){
        g_bInvalidInput = true;
        return 0;
    }
    int pivot = median3(data, start, end);
    int i = start;
    int j = end - 1;
    for (;;){
        while (data[++i] < pivot) {;}
        while (data[--j] > pivot) {;}
        if (i < j)
            std::swap(data[i], data[j]);
        else
            break;
    }
    std::swap(data[i], data[end - 1]);
    return i;
}
void QuickSort(int* data, int length, int start, int end){
    if (start == end)
        return;
    int pivotIdx = Partition(data, length, start, end);
    if (pivotIdx > start){
        QuickSort(data, length, start, pivotIdx - 1);
    }
    if (pivotIdx < end){
        QuickSort(data, length, pivotIdx + 1, end);
    }
}
void QuickSortPort(int* data, int length){
    if (data == nullptr || length <= 0)
        return;
    QuickSort(data, length, 0, length - 1);
}
//快速排序:随机选取枢纽元, Partition分割函数
#include <stdlib.h>
#include <time.h>
int randomInRange(int start, int end){
    srand((unsigned int)(time(NULL)));
    if (start == end)
        return start;
    else if (end < start)
        return end + rand() % (start - end + 1);
    else {
        return start + rand() % (end - start + 1);
    }
}
bool g_bInvalidInput = false;
int Partition(int* data, int length, int start, int end){
    if (data == nullptr || length <= 0 || start < 0 || end > length - 1){
        g_bInvalidInput = true;
        return 0;
    }
    int pivotIdx = randomInRange(start, end);
    int pivot = data[pivotIdx];
    std::swap(data[pivotIdx], data[end]);
    int i = start - 1;
    int j = end;
    for (; i <= end && j >= start; ){
        while (++i <= end && data[i] < pivot) {;}
        while (--j >=start && data[j] > pivot) {;}
        if (i < j){
            std::swap(data[i], data[j]);
        }
        else
            break;
    }
    std::swap(data[i], data[end]);
    return i;
}
void QuickSort(int* data, int length, int start, int end){
    if (start == end)
        return;
    int pivotIdx = Partition(data, length, start, end);
    if (pivotIdx > start)
        QuickSort(data, length, start, pivotIdx - 1);
    if (pivotIdx < end)
        QuickSort(data, length, pivotIdx + 1, end);
}
void QuickSortPort(int* data, int length){
    if (data == nullptr || length <= 0)
        return;
    QuickSort(data, length, 0, length - 1);
}
//数组中出现次数超过一次的数字:
// 第一种方法:转化为查找数组中位数的问题,但不一定需要排序,只要使用快速查找第k个元素即可,
// 缺点:会修改输入数组
#include <stdlib.h>
#include <time.h>
int randomInRange(int start, int end){
    srand((unsigned int)(time(NULL)));
    if (start == end)
        return start;
    else if (start > end)
        return end + rand() % (start - end + 1);
    else
        return start + rand() % (end - start + 1);
}
bool g_bIalidInput = false;
int Partition(int* data, int length, int start, int end){
    if (data == nullptr || length<= 0 || start < 0 || end > length - 1){
        g_bInvalidInput = true;
        return 0;
    }
    int pivotIdx = randomInRange(start, end);
    int pivot = data[pivotIdx];
    std::swap(data[pivotIdx], data[end]);
    int i = start - 1;
    int j = end;
    while (i <= end - 1 && j >= start){
        while (data[++i] < pivot) {;}
        while (data[--j] > pivot) {;}
        if (i < j)
            std::swap(data[i], data[j]);
        else
            break;
    }
    std::swap(data[i], data[end]);
    return i;
}
bool CheckMoreThanHalf(int* data, int length, int result){
    bool isConfirmed = true;
    int count = 0;
    for (int i = 0; i < length; ++i){
        if (data[i] == result)
            count++;
    }
    if (count*2 <= length)
        isConfirmed = false;
    return isConfirmed;
}
int FindMoreThanHalf(int* data, int length){
    if (data == nullptr || length <= 0){
        g_bIalidInput = true;
        return 0;
    }
    int start = 0;
    int end = length - 1;
    int pivotIdx = Partition(data, length, start, end);
    int middle = length >> 1;
    while (pivotIdx != middle){
        if (pivotIdx < middle)
            pivotIdx = Partition(data, length, pivotIdx + 1, end);
        else
            pivotIdx = Partition(data, length, start, pivotIdx - 1);
    }
    int result = data[pivotIdx];
    if (CheckMoreThanHalf(data, length, result))
        return result;
    else {
        g_bInvalidInput = true;
        return 0;
    }
}
//数组中出现次数超过一半的数字:
// 第二种方法:出现超过一半的数字出现总次数超过其他所有数字次数,无需修改数组
bool g_bInvalidInput = false;
bool CheckMoreThanHalf(int* data, int length, int result){
    bool isConfirmed = true;
    int count = 0;
    for (int i = 0; i < length; ++i){
        if (data[i] == result)
            count++;
    }
    if (count*2 <= length)
        isConfirmed = false;
    return isConfirmed;
}
int FindMoreThanHalf2(int* data, int length){
    if (data == nullptr || length <= 0){
        g_bInvalidInput = true;
        return 0;
    }
    int number = data[0];
    int count = 1;
    for (int i = 1; i < length; ++i){
        if (data[i] == number)
            count++;
        else if (count != 0)
            count--;
        else {
            number = data[i];
            count = 1;
        }
    }
    if (CheckMoreThanHalf(data, length, number))
        return number;
    else {
        g_bInvalidInput  = true;
        return 0;
    }
}
// 找出最小的k个数:不要求排序
// 第一种方法:快速查找O(n)时间复杂度,利用快速排序思想,Partition函数,
#include <stdlib.h>
#include <time.h>
int randomInRange(int start, int end){
    srand((unsigned int)(time(NULL)));
    if (start == end)
        return start;
    else if (start > end)
        return end + rand() % (start - end + 1);
    else
        return start + rand() % (end - start + 1);
}
bool g_bInvalidInput = false;
int Partition(int* data, int length, int start, int end){
    if (data == nullptr || length<= 0 || start < 0 || end > length - 1){
        g_bInvalidInput = true;
        return 0;
    }
    int pivotIdx = randomInRange(start, end);
    int pivot = data[pivotIdx];
    std::swap(data[pivotIdx], data[end]);
    int i = start - 1;
    int j = end;
    while (i <= end - 1 && j >= start){
        while (data[++i] < pivot) {;}
        while (data[--j] > pivot) {;}
        if (i < j)
            std::swap(data[i], data[j]);
        else
            break;
    }
    std::swap(data[i], data[end]);
    return i;
}
void leastKNumbers(int* data, int length, int k){
    if (data == nullptr || length <= 0 || k <= 0 || k > length)
        return;
    int start = 0;
    int end = length - 1;
    int pivotIdx = Partition(data, length, start, end);
    while (pivotIdx != k - 1){
        if (pivotIdx > k - 1)
            pivotIdx = Partition(data, length, start, pivotIdx - 1);
        else
            pivotIdx = Partition(data, length, pivotIdx + 1, end);
    }
    for (int i = 0; i <= pivotIdx; ++i){
        if (i == pivotIdx)
            cout << data[i] << endl;
        else
            cout << data[i] << ' ';

    }
}
//第二种方法:利用二叉树(红黑树),STL中的set和multiset都是基于红黑树实现的最大/最小堆,支持O(log k)时间的插入c.insert(x)/删除操作c.erase(x), O(1)时间查找最大值c.begin()
//时间复杂度:nlogk,不会修改输入数据, 不要求一次载入所有数据到内存,只要求内存存储k个数字的一个容器,一次读入一个数据;
// 适合海量数据处理,即n很大, k很小的数据
#include <set>
#include <vector>
using namespace std;
typedef std::multiset<int, greater<int>> intSet;
typedef std::multiset<int, greater<int>>::iterator setIterator;
void leastKNumbers(const vector<int>& data, intSet& leastKNumbers, int k){
    leastKNumbers.clear();
    vector<int>::const_iterator iter = data.begin();
    for (; iter != data.end(); ++iter){
        if (leastKNumbers.size() < k){
            leastKNumbers.insert(*iter);
        }
        else {
            setIterator greatestIter = leastKNumbers.begin();
            if ((*iter) < (*greatestIter)){
                leastKNumbers.erase(greatestIter);
                leastKNumbers.insert(*iter);
            }
        }
    }
}
intSet leastKNumbersPort(const vector<int>& data, int k){
    if (data.size() > 0 && k > 0 && k <= data.size()){
        intSet leastKSet;
        leastKNumbers(data, leastKSet, k);
        return leastKSet;
    }
    else
        throw exception();
}
posted @ 2017-08-27 23:13  sold_out  阅读(1098)  评论(0编辑  收藏  举报