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C/C++ 記憶池[嵌入式系統有限度的使用動態配置記憶體] – jashliao部落格

C/C++ 記憶池[嵌入式系統有限度的使用動態配置記憶體]


資料來源: https://blog.csdn.net/xinghun_4/article/details/5967840

http://tjpm.blog.chinaunix.net/uid-23969156-id-1743561.html

https://blog.csdn.net/weixin_40203143/article/details/85217972


GITHUB: https://github.com/jash-git/C_Memory-_Pool_Project


01.

/*
* fpool.h (fixed memory pool)
* author: xinghun_4
*/
#ifndef _FPOOL_H
#define _FPOOL_H
	int mem_pool_init(int base_size, int links);
	void mem_pool_destroy(void);
	void print_mem_pool_info(void);
	void *mem_malloc(int size);
	void mem_free(void *ptr);
#endif

/*
* fpool.c (fixed memory pool)
* author: xinghun_4
*/
#include 
#include 
#include 
#include "fpool.h"

#define MEM_POOL_DEBUG
#define DEFAULT_BASE_SIZE 4
#define DEFAULT_LINKS 4
#define DEFAULT_BLOCKS 4
#define DEFAULT_INCREMENT_LINKS 4
#define DEFAULT_INCREMENT_BLOCKS 4
#define ALIGN(ADD, SIZE) (((ADD) + ((SIZE) - 1)) & ~((SIZE) - 1))

/* 声明内存块, 前向引用 */
typedef struct _mem_block mem_block_t;

/* 内存节点指针 */
typedef union _mem_node
{
	mem_block_t *b_next; /* 指向下一块内存节点 */
	char data[1]; /* 内存节点首地址 */
}mem_node_t;

/* 内存块 */
struct _mem_block
{
	short index; /* 内存链索引, mem_free 的时候有用 */
	mem_node_t n_node; /* 内存节点 */
	char pad[2];
};

/* 内存链 */
typedef struct _mem_link
{
	struct _mem_link *l_next; /* 指向下一条内存链 */
	short index; /* 内存链索引 */
	short blocks; /* 内存链内存块数 */
	short free_blocks; /* 内存链空闲内存块数 */
	char pad[2];
	mem_block_t *b_head; /* 内存链首内存块 */
}mem_link_t;

/* 内存池 */
typedef struct _mem_pool
{
	short links; /* 内存链数 */
	short base_size; /* 内存节点为base_size的倍数 */
	mem_link_t *l_head; /* 首内存链 */
	mem_link_t *l_tail; /* 尾内存链 */
}mem_pool_t;
static mem_pool_t mem_pool;

/* add new memory links to our memory pool */
static int add_mem_link(int links);

/* add new memory blocks to our memory link */
static int add_mem_block(mem_link_t *link, int blocks);

/*
* @base_size: 节点大小单位
* @links: 内存链条数
*/
int mem_pool_init(int base_size, int links)
{
	if(base_size <= 0)
	{
		base_size = DEFAULT_BASE_SIZE;
	}
	else
	{
		/* base_size 为 4 的倍数 */
		base_size = ALIGN(base_size, DEFAULT_BASE_SIZE);
	}
	if(links <= 0)
	{
		links = DEFAULT_LINKS;
	}
	/* initiate mem_pool */
	memset(&mem_pool, 0, sizeof(mem_pool));
	mem_pool.base_size = base_size;
	/* add links into the memory pool */
	if(!add_mem_link(links))
	{
		fprintf(stderr, "mem_pool_init::add_mem_link error\n");
		return 0;
	}
	return 1;
}

void mem_pool_destroy(void)
{
	mem_link_t *cur_l;
	mem_block_t *cur_b;

	cur_l = mem_pool.l_head;
	while(cur_l)
	{/* 释放内存链 */
		mem_pool.l_head = mem_pool.l_head->l_next; /* 指向下一条内存链 */
		cur_b = cur_l->b_head;
		while(cur_b)
		{/* 释放所有内存块 */
			cur_l->b_head = cur_l->b_head->n_node.b_next; /* 指向下个内存块 */
			free(cur_b);
			cur_b = cur_l->b_head;
		}
		cur_l = mem_pool.l_head;
	}
	memset(&mem_pool, 0, sizeof(mem_pool_t));
}

void print_mem_pool_info(void)
{
	int i;
	mem_link_t *cur_l = NULL;
	mem_block_t *cur_b = NULL;

	cur_l = mem_pool.l_head;
	if(NULL == cur_l)
	{
		printf("/nmemory pool is not exist!\n");
		return;
	}
	/* memory pool info */
	printf("/n/************** Memory pool information **************/\n");
	#ifdef MEM_POOL_DEBUG
	printf("sizeof(mem_node_t)        : %d\n", sizeof(mem_node_t));
	printf("sizeof(mem_block_t)       : %d\n", sizeof(mem_block_t));
	printf("sizeof(mem_link_t)        : %d\n", sizeof(mem_link_t));
	printf("sizeof(mem_pool_t)        : %d\n", sizeof(mem_pool_t));
	#endif
	printf("links                     : %d\n", mem_pool.links);
	printf("base_size                 : %d\n", mem_pool.base_size);
	printf("link head pointer         : %x(%d)\n", (int)mem_pool.l_head, (int)mem_pool.l_head);
	printf("link tail pointer         : %x(%d)\n", (int)mem_pool.l_tail, (int)mem_pool.l_tail);
	while(cur_l)
	{/* 打印内存链 */
		printf("/n#### memory link %d ####\n", cur_l->index);
		printf("blocks                    : %d\n", cur_l->blocks);
		printf("free blocks               : %d\n", cur_l->free_blocks);
		printf("block size                : %d\n", cur_l->index * mem_pool.base_size);
		printf("block head pointer        : %x(%d)\n", (int)cur_l->b_head, (int)cur_l->b_head);
		cur_b = cur_l->b_head;
		i = 0;
		while(cur_b)
		{
			printf("memory block %d            : %x(%d)\n", i++, (int)cur_b, (int)cur_b);
			cur_b = cur_b->n_node.b_next;
		}
		cur_l = cur_l->l_next;
	}
	printf("/*****************************************************/\n");
}

void *mem_malloc(int size)
{
	int align_size = ALIGN(size, mem_pool.base_size);
	int index = align_size / mem_pool.base_size - 1;
	mem_link_t *cur_l = mem_pool.l_head;
	mem_block_t *cur_b = NULL;
	mem_node_t *cur_n = NULL;
	int i;
	short *p_index;

	if(index >= mem_pool.links)
	{
		printf("no such size(%d) memory block!\n", align_size);
		return NULL;
	}
	/* go to the right link */
	for(i = 0; i < index; ++i)
	{
		cur_l = cur_l->l_next;
	}
	if(0 >= cur_l->free_blocks)
	{/* no free blocks, expand memory link */
		if(!add_mem_block(cur_l, DEFAULT_INCREMENT_BLOCKS))
		{
			fprintf(stderr, "mem_malloc::add_mem_block error\n");
			return NULL;
		}
	}
	/* get free block from block head pointer */
	cur_b = cur_l->b_head;
	cur_l->free_blocks--;
	/* modify memory link node head pointer */
	cur_l->b_head = cur_l->b_head->n_node.b_next;
	p_index = (short *)cur_b;
	/* 记录索引, 便于 mem_free 找到正确的内存链 */
	*p_index = cur_l->index;
	++p_index;
	cur_n = (mem_node_t *)p_index;

	return (void *)&(cur_n->data[0]);
}

void mem_free(void *ptr)
{
	short *p_index = (short *)ptr;
	mem_link_t *cur_l = mem_pool.l_head;
	mem_block_t *cur_b = NULL;
	int i;

	--p_index;
	/* go to the right link */
	for(i = 0; i < *p_index; ++i)
	{
		cur_l = cur_l->l_next;
	}
	cur_b = (mem_block_t *)p_index;
	/* 内存链头部插入空闲内存块 */
	cur_b->n_node.b_next = cur_l->b_head;
	cur_l->b_head = cur_b;
	cur_l->free_blocks++;
}

/* 返回成功添加的内存链条数 */
static int add_mem_link(int links)
{
	mem_link_t *new_l = NULL;
	int index = 0;
	int i = links;
	int cnt = 0;

	/* 求得新添加链的索引 */
	if(NULL == mem_pool.l_head)
	{
		index = 0;
	}
	else
	{
		index = mem_pool.l_tail->index + 1;
	}
	while(i--)
	{
		if(NULL == (new_l = (mem_link_t *)malloc(sizeof(mem_link_t))))
		{
			fprintf(stderr, "add_mem_link::malloc mem_link_t error\n");
			continue;
		}
		/* 初始化新内存链 */
		memset(new_l, 0, sizeof(mem_link_t));
		new_l->index = index++;
		/* 新内存链加入内存池 */
		if(NULL == mem_pool.l_head)
		{
			mem_pool.l_head = new_l;
			mem_pool.l_tail = new_l;
		}
		else
		{
			mem_pool.l_tail->l_next = new_l;
			mem_pool.l_tail = new_l;
		}
		mem_pool.links++;
		++cnt;
		if(!add_mem_block(new_l, DEFAULT_INCREMENT_BLOCKS))
		{
			fprintf(stderr, "add_mem_link::add_mem_block error\n");
		}
	}

	return cnt;
}

static int add_mem_block(mem_link_t *link, int blocks)
{
	mem_block_t *new_b = NULL;
	int i = blocks;
	int cnt = 0;

	if(NULL == link)
	{
		fprintf(stderr, "memory link is NULL!\n");
		return 0;
	}
	#ifdef MEM_POOL_DEBUG
	printf("add_mem_block::block_size: %d\n", sizeof(short) + mem_pool.base_size * (link->index + 1));
	#endif
	while(i--)
	{
		if(NULL == (new_b = (mem_block_t *)malloc(sizeof(short) + mem_pool.base_size * (link->index + 1))))
		{
			fprintf(stderr, "add_mem_block::malloc mem_block_t error\n");
			continue;
		}
		/* 初始化新内存块 */
		memset(new_b, 0, sizeof(mem_block_t));
		new_b->index = link->index;
		/* 新内存块加入内存链 */
		if(NULL == link->b_head)
		{
			link->b_head = new_b;
		}
		else
		{
			new_b->n_node.b_next = link->b_head;
			link->b_head = new_b;
		}
		link->blocks++;
		link->free_blocks++;
		++cnt;
	}
	return cnt;
}

#include 
#include 
#include "fpool.h"

void mempool_test_index0(void)
{
     int *t1 = (int *)mem_malloc(sizeof(int));
     int *t2 = NULL;
     int value = 3;

     if(NULL == t1)
     {
		printf("mempool_test_index0:: mem_malloc t1 NULL\n");
        return;
     }
     print_mem_pool_info();

     if(NULL == (t2 = (int *)mem_malloc(sizeof(int))))
     {
		printf("mempool_test_index0:: mem_malloc t2 NULL\n");
		return;
     }

     print_mem_pool_info();

     *t1 = value;
     printf("mempool_test01:: t1: %d\n", *t1);
     *t1 *= *t1;
     *t2 = *t1;
     (*t2)++;
     printf("mempool_test01:: t1: %d\n", *t1);
     printf("mempool_test01:: t2: %d\n", *t2);

     mem_free(t1);
     t1 = NULL; /* 不要忘了, 否则若两指针同时指向一块内存会出问题 */
     print_mem_pool_info();
     mem_free(t2);
     t2 = NULL;
     print_mem_pool_info();
}

int main()
{
	if(!mem_pool_init(0, 0))
	{
		return -1;
	}
	print_mem_pool_info();

	mempool_test_index0();

	mem_pool_destroy();

	print_mem_pool_info();
    return 0;
}


02.

/***********************mem_pool.h************************
 *
 * * author:bripengandre
 * * modified by: LaoLiulaoliu
 * * TODO: thread_safe, different model
 *
 * *********************************************************/

#ifndef _MEM_POOL_H_
#define _MEM_POOL_H_

#define BUF_SIZE 100
#define BASE_COUNT 10000
#define STEP_COUNT 1000


typedef union _mem_node
{
    char buf[BUF_SIZE];
    union _mem_node *next;
} mem_node_t, *pmem_node_t;

/* consider of the efficiency, node_cnt can be annotated */
/* used to store block information */
typedef struct _mem_block
{
    mem_node_t *node_head;
    mem_node_t *node_tail;
    int node_cnt; /* node count */
    struct _mem_block *next;
} mem_block_t, *pmem_block_t;

/* consider of the efficiency, block_cnt can be annotated */
/* used to store the pool information */
typedef struct _mem_pool
{
    mem_block_t *block_head;
    // mem_block_t *block_tail;

    mem_node_t *free_head;
    int block_cnt; /* block count */
    int free_cnt; /* free node count; */
    int base;
    int step;
} mem_pool_t, *pmem_pool_t;


/* mem_pool will have at least base blocks, and will increase steps a time if needed */
int mem_pool_init(int base, int step);
void mem_pool_destroy(void);
void print_mem_pool_info(void);

/* since the block size is constant, this function need no input parameter */
void *mem_alloc(void);
void mem_free(void *ptr);


#endif /* _MEM_POOL_H */

/***********************mem_pool.c************************
 *
 * * author:bripengandre
 * * modified by: LaoLiulaoliu
 *
 * *********************************************************/

#include 
#include 
#include 
#include "mem_pool.h"


/* static functions are the mainly expense of cpu in memory pool */
/* add new memory block to our memory pool */
static int add_mem_block(int cnt);
/* init the new block */
static int mem_block_init(int cnt, mem_block_t *block);
/* init free_list of the new block */
static int free_list_init(const mem_block_t *block);

static mem_pool_t mem_pool;

int mem_pool_init(int base, int step)
{
    if(base <= 0)
    {
        base = BASE_COUNT;
    }
    if(step <= 0)
    {
        step = STEP_COUNT;
    }

    /* initiate mem_pool */
    memset( &mem_pool, 0, sizeof(mem_pool) );
    mem_pool.base = base;
    mem_pool.step = step;

    /* add the base block(node of base count) into the memory pool */
    if( !add_mem_block(base) )
    {
        fprintf(stderr, "mem_pool_init::add_mem_block error\n");
        return 0;
    }

    return 1;
}


void mem_pool_destroy(void)
{
    mem_block_t *prev_block, *cur_block;

    prev_block = NULL;
    cur_block = mem_pool.block_head;
    while(cur_block != NULL)
    {
        prev_block = cur_block;
        cur_block = cur_block->next;
        /* mem_block_init() malloc once,so just free once of the head pointer */
        free(prev_block->node_head);
        free(prev_block);
    }

    memset( &mem_pool, 0, sizeof(mem_pool_t) );
}


void print_mem_pool_info(void)
{
    int i;
    mem_block_t *p;

    if(mem_pool.block_head == NULL)
    {
        fprintf(stderr, "memory pool has not been created!\n");
        return;
    }
    printf("***************memory pool information start*******************\n");
    printf("base block size: %d\n", mem_pool.base);
    printf("increasing block size: %d\n", mem_pool.step);
    printf("block count: %d\n", mem_pool.block_cnt);
    printf("current free node count: %d\n", mem_pool.free_cnt);
    printf("the first block: %#x\n", mem_pool.block_head);
    //printf("the last block: %#x\n", mem_pool.block_tail);

    printf("the first free node: %#x\n\n", mem_pool.free_head);
    for(p = mem_pool.block_head, i = 0; p != NULL; p = p->next, i++)
    {
        printf("-----------------block %d-----------------------\n", i+1);
        printf("node count: %d\n", p->node_cnt);
        printf("the first node: %#x\n", p->node_head);
        printf("-------------------------------------------------\n");
    }
    printf("***************memory pool information end*********************\n\n");
}


void *mem_alloc(void)
{
    mem_node_t *p;

    /* no free node ready, attempt to allocate new free node */
    if(mem_pool.free_head == NULL)
    {
        if( !add_mem_block(mem_pool.step) )
        {
            fprintf(stderr, "mem_alloc::add_mem_block error\n");
            return NULL;
        }
    }

    /* get free node from free_list */
    p = mem_pool.free_head;
    mem_pool.free_head = p->next;

    /* decrease the free node count */
    mem_pool.free_cnt--;

    return p;
}


void mem_free(void *ptr)
{
    if(ptr == NULL)
    {
        return;
    }

    /* return the node to free_list */
    ((mem_node_t *)ptr)->next = mem_pool.free_head;
    mem_pool.free_head = ptr;

    /* increase the free node count */
    mem_pool.free_cnt++;
}


static int add_mem_block(int cnt)
{
    mem_block_t *block;

    if( (block = malloc(sizeof(mem_block_t))) == NULL )
    {
        fprintf(stderr, "mem_pool_init::malloc block error\n");
        return 0;
    }

    if( !mem_block_init(cnt, block) )
    {
        fprintf(stderr, "mem_pool_init::mem_block_init error\n");
        return 0;
    }

    /* insert the new block in the head */
    /* for the first time, block->next == NULL */
    block->next = mem_pool.block_head;
    mem_pool.block_head = block;
    // if(mem_pool.block_tail == NULL)
    // {
    //     mem_pool.block_tail = block;
    // }

    /* insert the new block into the free list */
    /* block->node_tail->next == NULL in these two situations of add_mem_block() */
    block->node_tail->next = mem_pool.free_head;
    mem_pool.free_head = block->node_head;
    mem_pool.free_cnt += cnt;

    /* increase the block count */
    mem_pool.block_cnt++;

    return 1;
}


static int mem_block_init(int cnt, mem_block_t *block)
{
    size_t size;
    mem_node_t *p;

    if(block == NULL)
    {
        return 0;
    }

    size = cnt * sizeof(mem_node_t);
    if( (p = malloc(size)) == NULL )
    {
        fprintf(stderr, "mem_pool_init::malloc node error\n");
        return 0;
    }
    memset(p, 0, size);
    memset(block, 0, sizeof(mem_block_t));
    block->node_cnt = cnt;
    block->node_head = p;
    block->node_tail = p+cnt-1;
    free_list_init(block);

    return 1;
}


static int free_list_init(const mem_block_t *block)
{
    mem_node_t *p, *end;

    if(block == NULL)
    {
        return 0;
    }

    /* start initiating free list */
    end = block->node_tail; /* block_cnt > 0 */
    for(p = block->node_head; p < end; p++)
    {
        p->next = (p+1);
    }
    p->next = NULL; /* end->next = NULL */

    return 1;
}

#include 
#include 
#include "mem_pool.h"

#define ALLOC_COUNT 10

void alloc_test(char *ptr[])
{
    int i, j;

    for(i = 0; i < ALLOC_COUNT; i++)
    {
        if( (ptr[i] = mem_alloc()) == NULL )
        {
            fprintf(stderr, "mem_alloc error\n");
            return;
        }
        for(j = 0; j < ALLOC_COUNT; j++)
        {
            ptr[i][j] = 'a' + j;
        }
    }
    for(i = 0; i < ALLOC_COUNT; i++)
    {
        for(j = 0; j < ALLOC_COUNT; j++)
        {
            printf("ptr[%d][%d]=%c ", i, j, ptr[i][j]);
        }
        fputc('\n', stdout);
    }
}

int main(int argc, char *argv[])
{
    int base, step;
    char *ptr1[ALLOC_COUNT], *ptr2[ALLOC_COUNT];

    switch(argc)
    {
        case 1:
            base = 0; /* default count */
            step = 0; /* default count */
            break;
        case 2:
            base = atoi(argv[1]);
            step = 0;
            break;
        case 3:
            base = atoi(argv[1]);
            step = atoi(argv[2]);
            break;
        default:
            fprintf(stderr, "Usage: %s [ [step]]\n", argv[0]);
            break;
    }

    if( !mem_pool_init(base, step) )
    {
        fprintf(stderr, "mem_pool_init error\n");
        return 1;
    }
    print_mem_pool_info();
    alloc_test(ptr1);
    print_mem_pool_info();

    //mem_free(ptr1[5]);

    print_mem_pool_info();

    alloc_test(ptr2);
    print_mem_pool_info();

    mem_pool_destroy();


    /* once again */
    if( !mem_pool_init(base, step) )
    {
        fprintf(stderr, "mem_pool_init error\n");
        return 1;
    }
    print_mem_pool_info();
    alloc_test(ptr1);
    print_mem_pool_info();

    mem_free(ptr1[5]);
    print_mem_pool_info();

    alloc_test(ptr2);
    print_mem_pool_info();

    mem_pool_destroy();

    return 0;
}


03.

#ifndef MEMORYPOOL_H_INCLUDED
#define MEMORYPOOL_H_INCLUDED
#include 
#include 
#include 
typedef struct Memorypool
{
    int mempool_size;
    int memory_size;//block_size + sizeof(manager information) = mem_size
    int block_size;
    int total_memory_cnt;
    int used_memory_cnt;
    int auto_extend;
    struct Memory* free_list;
    struct Memory* used_list;
}memorypool;

typedef struct Memory
{
    int memory_size;
    int block_size;
    struct Memory* prev;
    struct Memory* next;
    struct Memorypool* mp;
    char* block;
}memory;

memorypool* memorypool_create(int block_request_size, int memory_init_quantity, _Bool memory_extend);
char* memory_malloc(memorypool* mp,int data_size);
int memorypool_info_get(memorypool* mp);
int memory_free(char** p_bk);
int memorypool_destroy(memorypool* mp);
memory* memory_creat(int memory_size, memorypool* mp);

#endif // MEMORYPOOL_H_INCLUDED

#include "memorypool.h"

memorypool* memorypool_create(int block_request_size, int memory_init_quantity, _Bool memory_extend)
{//請求最大極限,記憶池數量=>記憶池大小(基底*數量),

    memorypool* mp = NULL;
    mp = (memorypool*)malloc(sizeof(memorypool));
    memset(mp, 0, sizeof(memorypool));
    mp->block_size = block_request_size;
    mp->memory_size = block_request_size + sizeof(memory);
    mp->auto_extend = memory_extend;

    for (int i = memory_init_quantity; i > 0; i--)
    {
        memory* mm = NULL;
        mm = memory_creat(mp->memory_size , mp);
    }
    return mp;
}


char* memory_malloc(memorypool* mp, int data_size)
{
    memory* p_memory = NULL;
    if (mp->block_size < data_size)
    {
        return NULL;
    }

    if (NULL == mp->free_list)
    {
        if (mp->auto_extend == 1)
            memory_creat(mp->memory_size, mp);
        else
            return NULL;
    }

    p_memory = mp->free_list;
    mp->free_list = mp->free_list->next;
    p_memory->next = NULL;
    if (mp->used_list)
    {
        mp->used_list->prev->next = p_memory;
        p_memory->prev = mp->used_list->prev;
    }
    else
    {
        mp->used_list = p_memory;
    }

    p_memory->next = mp->used_list;
    mp->used_list->prev = p_memory;
    mp->used_list = p_memory;
    mp->used_memory_cnt += 1;
    return p_memory->block;
}

int memorypool_info_get(memorypool* mp)
{
    printf("current mempool_size:%d\n\
           current memory_size:%d\n\
           current block_size:%d\n\
           total_memory_cnt:%d\nused_memory_cnt:%d\n",mp->mempool_size,mp->memory_size,mp->block_size, \
    mp->total_memory_cnt,mp->used_memory_cnt);
    return 0;
}

int memory_free(char** p_bk)
{
    memory* p_memory = (memory* )(*p_bk - sizeof(memory)/(sizeof(char)));//正确
    p_memory->next->prev = p_memory->prev;
    p_memory->prev->next = p_memory->next;
    p_memory->next = NULL;
    p_memory->prev = NULL;
    if (p_memory->mp->used_memory_cnt == 1)
    {
        p_memory->mp->used_list = NULL;
    }
    p_memory->next = p_memory->mp->free_list;
    p_memory->mp->free_list = p_memory;
    p_memory->mp->used_memory_cnt -= 1;
    *p_bk = NULL;
    return 0;
}

int memorypool_destroy(memorypool* mp)
{
    memory* mm = NULL;
    if (mp->free_list)
    {
        mm = mp->free_list;
        mp->free_list = mp->free_list->next;
        free(mm);
        mm = NULL;
    }
    if (mp->used_list)
    {
        mp->used_list->prev->next = NULL;
        mm = mp->used_list;
        mp->used_list = mp->used_list->next;
        free(mm);
        mm = NULL;
    }
    free(mp);

return 0;

}

memory* memory_creat(int memory_size, memorypool* mp)
{
    memory* mm = NULL;
    char* bk = NULL;
    char* memory_start = (char*)malloc(memory_size);
    memset(memory_start, 0, memory_size);
    mm = (memory*)memory_start;
    memset(mm, 0, sizeof(memory));
    bk = memory_start - sizeof(memory);//错误
    bk =memory_start +sizeof(memory)/(sizeof(char));//正确
    mm->memory_size = memory_size;
    mm->block_size = memory_size - sizeof(memory);
    mm->mp = mp;
    mm->block = bk;
    mm->next = mp->free_list;
    mp->free_list = mm;
    mp->total_memory_cnt += 1;
    mp->mempool_size += mp->memory_size;

    return mm;
}

#include 
#include 
#include 
#include "memorypool.h"

void print_info_line(char *data)
{
	printf("%s---%d\t%s\n",__FILE__, __LINE__,data);
}
int main()
{
    memorypool* mp = NULL;

    int memory_init_quantity = 5;
    _Bool memory_extend = 1;
    int block_request_size =1024;

    time_t start = 0;
    time_t end = 0;
    int count = 0;

    mp = memorypool_create(block_request_size, memory_init_quantity, memory_extend);//1024,5,1
    print_info_line("memorypool_create");
    memorypool_info_get(mp);

    struct test
    {
        int a;
        int b;
    };
    struct test* p_data;

    /*
    start = time(NULL);
    int i=10;
    while (i>0)
    {
        p_data = (struct test*)memory_malloc(mp, sizeof(struct test));
        //p_data = (struct test*)malloc(sizeof(struct test));
        memorypool_info_get(mp);
        p_data->a = 100;
        memory_free((char**)&p_data);
        memorypool_info_get(mp);
        //free(p_data);
        end = time(NULL);
        count += 1;
        if (end == (start + 300))
        {
            printf("%d", count);
            break;
        }
        i--;
    }
    */

    p_data = (struct test*)memory_malloc(mp, sizeof(struct test));
    p_data->a = 100;
    p_data->b = 200;
    int Sum = p_data->a + p_data->b;
    printf("Sum=%d\n",Sum);
    print_info_line("memory_malloc");
    memorypool_info_get(mp);

    memory_free((char**)&p_data);
    print_info_line("memory_free");
    memorypool_info_get(mp);

    memorypool_destroy(mp);
    print_info_line("memorypool_destroy");

    return 0;
}



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