本代码基于无操作系统的STM32单片机开发,功能强大,可申请到地址空间连续的不同大小的内存空间,且用户接口简单,使用方便。直接贴代码:
memory.h:
#ifndef __MEMORY_H__
#define __MEMORY_H__
#include "stdio.h"
#include "string.h"
#include "includes.h"
//用户使用
typedef struct
{
void *addr; //申请到的内存的起始地址
uint32_t size; //申请到的内存的大小,按照块大小分配,大于等于申请大小
uint16_t tb; //申请表序号,申请内存时分配,释放内存时使用,用户不使用
}DMEM;
//若返回空,则申请失败
DMEM *DynMemGet(uint32_t size);
void DynMemPut(DMEM *pDmem);
#endif //__MEMORY_H__
memory.c:
#include "memory.h"
#define DMEM_BLOCK_SIZE 256 //内存块大小为128字节
#define DMEM_BLOCK_NUM 20 //内存块个数为40个
#define DMEM_TOTAL_SIZE (DMEM_BLOCK_SIZE*DMEM_BLOCK_NUM) //内存总大小
typedef enum
{
DMEM_FREE = 0,
DMEM_USED = 1,
}DMEM_USED_ITEM;
typedef struct
{
DMEM_USED_ITEM used; //使用状态
uint16_t blk_s; //起始块序号
uint16_t blk_num; //块个数
}DMEM_APPLY;
typedef struct
{
DMEM_USED_ITEM tb_blk[DMEM_BLOCK_NUM];
DMEM tb_user[DMEM_BLOCK_NUM]; //用户申请内存信息
DMEM_APPLY tb_apply[DMEM_BLOCK_NUM]; //系统分配内存信息
uint16_t apply_num; //内存申请表占用数目
uint16_t blk_num; //内存块占用数目
}DMEM_STATE;
static uint8_t DMEMORY[DMEM_TOTAL_SIZE];
static DMEM_STATE DMEMS = {0};
DMEM *DynMemGet(uint32_t size)
{
uint16_t loop = 0;
uint16_t find = 0;
uint16_t blk_num_want = 0;
DMEM * user = NULL;
DMEM_APPLY *apply = NULL;
//申请内存大小不能为0
if(size == 0) { return NULL; }
//申请内存不可超过总内存大小
if(size > DMEM_TOTAL_SIZE) { return NULL; }
//申请内存不可超过剩余内存大小
if(size > (DMEM_BLOCK_NUM - DMEMS.blk_num) * DMEM_BLOCK_SIZE) { return NULL; }
//申请表必须有空余
if(DMEMS.apply_num >= DMEM_BLOCK_NUM) { return NULL; }
//计算所需连续块的个数
blk_num_want = (size + DMEM_BLOCK_SIZE - 1) / DMEM_BLOCK_SIZE;
//寻找申请表
for(loop = 0; loop < DMEM_BLOCK_NUM; loop++)
{
if(DMEMS.tb_apply[loop].used == DMEM_FREE)
{
apply = &DMEMS.tb_apply[loop]; //申请表已找到
user = &DMEMS.tb_user[loop]; //用户表对应找到
user->tb = loop; //申请表编号记录
user->size = blk_num_want * DMEM_BLOCK_SIZE; //分配大小计算
break;
}
}
//没有找到可用申请表,理论上是不会出现此现象的,申请表剩余已在上面校验
if(loop == DMEM_BLOCK_NUM) { return NULL; }
//寻找连续内存块
for(loop = 0; loop < DMEM_BLOCK_NUM; loop++)
{
if(DMEMS.tb_blk[loop] == DMEM_FREE)
{//找到第一个空闲内存块
for(find = 1; (find < blk_num_want) && (loop + find < DMEM_BLOCK_NUM); find ++)
{//找到下一个空闲内存块
if(DMEMS.tb_blk[loop + find] != DMEM_FREE)
{//发现已使用内存块
break;
}
}
if(find >= blk_num_want)
{//寻找到的空闲内存块数目已经够用
user->addr = DMEMORY + loop * DMEM_BLOCK_SIZE; //计算申请到的内存的地址
apply->blk_s = loop; //记录申请到的内存块首序号
apply->blk_num = blk_num_want; //记录申请到的内存块数目
for(find = 0 ; find < apply->blk_num; find++)
{
DMEMS.tb_blk[loop + find] = DMEM_USED;
}
apply->used = DMEM_USED; //标记申请表已使用
DMEMS.apply_num += 1;
DMEMS.blk_num += blk_num_want;
return user;
}
else
{//寻找到的空闲内存块不够用,从下一个开始找
loop += find;
}
}
}
//搜索整个内存块,未找到大小适合的空间
return NULL;
}
void DynMemPut(DMEM *user)
{
uint16_t loop = 0;
//若参数为空,直接返回
if(NULL == user) { return; }
//释放内存空间
for(loop = DMEMS.tb_apply[user->tb].blk_s; loop < DMEMS.tb_apply[user->tb].blk_s + DMEMS.tb_apply[user->tb].blk_num; loop++)
{
DMEMS.tb_blk[loop] = DMEM_FREE;
DMEMS.blk_num -= 1;
}
//释放申请表
DMEMS.tb_apply[user->tb].used = DMEM_FREE;
DMEMS.apply_num -= 1;
}
来源:嵌入式大杂烩
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