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2022
06-29

C++实现堆排序示例

堆的实现

Heap.h 堆的管理及接口

#include<stdio.h>
#include<stdlib.h>
#include<assert.h>

typedef int HPDataType;
typedef struct Heap
{
	HPDataType* a;
	int size;
	int capacity;
}Heap;

//堆的向下调整算法
void AdjustDown(HPDataType* a, int n, int root);
//堆的向上调整算法
void AdjustUp(HPDataType* a, int child);
//堆的初始化
void HeapInit(Heap* php, HPDataType* a,int n);
//堆的销毁
void HeapDestroy(Heap* php);
//堆的插入
void HeapPush(Heap* php, HPDataType x);
//堆的删除
void HeapPop(Heap* php);
//堆里的数据个数
int HeapSize(Heap* php);
//判断堆是否为空
int HeapEmpty(Heap* php);
//取堆顶数据
HPDataType HeapTop(Heap* php);

Heap.c 堆各个接口功能的实现

• 堆的插入:将x插入下标为size的位置,++size然后使用向上调整算法调整
• 堆的删除(删栈顶数据):将栈顶数据和下标为size-1位置的数据交换,然后–size,使用向下调整算法调整

#include "Heap.h"

//堆向下调整算法
//建小堆
void AdjustDown(HPDataType* a, int n, int root)
{
	int parent = root;
	int child = parent * 2 + 1;
	//孩子超过数组下标结束
	while (child < n)
	{
		//child始终左右孩子中小的那个
		if (a[child + 1] < a[child] && child + 1 <n)//防止没有右孩子
		{
			++child;
		}
		//小的往上浮,大的往下沉
		if (a[child] < a[parent])
		{
			int tem = a[parent];
			a[parent] = a[child];
			a[child] = tem;
			parent = child;
			child = parent * 2 + 1;
		}
		//中途child>parent则已满足小堆,直接break
		else
		{
			break;
		}
	}
}
//堆的向上调整算法
//建小堆
void AdjustUp(HPDataType* a, int child)
{
	int parent = (child - 1) / 2;
	while (child > 0)
	{
		if (a[child] < a[parent])
		{
			int tem = a[parent];
			a[parent] = a[child];
			a[child] = tem;
			child = parent;
			parent = (child - 1) / 2;
		}
		else
		{
			break;
		}
	}
}
//堆的初始化
void HeapInit(Heap* php, HPDataType* a, int n)
{
	assert(php);
	assert(a);
	php->a = (HPDataType*)malloc(n * sizeof(HPDataType));
	if (php->a == NULL)
	{
		printf("malloc fail\n");
		exit(-1);
	}
	for (int i = 0; i < n; i++)
	{
		php->a[i] = a[i];
	}
	//建堆
	for (int i = (n - 2) / 2; i >= 0; --i)
	{
		AdjustDown(php->a, n, i);
	}
	php->capacity = n;
	php->size = n;
}
//堆的销毁
void HeapDestroy(Heap* php)
{
	assert(php);
	free(php->a);
	php->a = NULL;
	php->capacity = 0;
	php->size = 0;
}
//堆的插入
void HeapPush(Heap* php, HPDataType x)
{
	assert(php);
	if (php->size == php->capacity)
	{
		HPDataType* tem = (HPDataType*)realloc(php->a,php->capacity * 2 * sizeof(HPDataType));
		if (tem == NULL)
		{
			printf("realloc fail\n");
			exit(-1);
		}
		php->a = tem;
		php->capacity *= 2;
	}
	php->a[php->size] = x;
	++php->size;
	AdjustUp(php->a,php->size - 1);
}
//堆的删除
void HeapPop(Heap* php)
{
	assert(php);
	assert(php->size > 0);
	HPDataType tem = php->a[php->size - 1];
	php->a[php->size - 1] = php->a[0];
	php->a[0] = tem;
	--php->size;
	AdjustDown(php->a, php->size, 0);
}
//堆里的数据个数
int HeapSize(Heap* php)
{
	assert(php);
	return php->size;
}
//判断堆是否为空
//为空返回1,不为空返回0
int HeapEmpty(Heap* php)
{
	assert(php);
	return php->size == 0 ? 1 : 0;
}
//取堆顶数据
HPDataType HeapTop(Heap* php)
{
	assert(php);
	assert(php->size > 0);
	return php->a[0];
}

test.c测试

#include "Heap.h"

void TestHeap()
{
	int arr[] = { 27, 28, 65, 25, 15, 34, 19, 49, 18, 37 };
	Heap hp;
	HeapInit(&hp, arr, sizeof(arr)/sizeof(int));
	while (!HeapEmpty(&hp))
	{
		printf("%d ", HeapTop(&hp));
		HeapPop(&hp);

	}
	printf("\n");
	HeapDestroy(&hp);
}
int main()
{
	TestHeap();
	return 0;
}

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