C语言实现ArrayList(线性表顺序存储结构)-创新互联
在Java中动态数组为ArrayList, C++ STL中为Vector. JAVA,C++中均采用泛型来实现,实现了数据结构与存储类型的分离。在C语言中没有泛型。故采用void 指针来实现泛型的效果。
arraylist.h
#ifndef ARRAY_LIST_H
#define ARRAY_LIST_H
#include
#include
#include
typedef void MyArrayListNode;
typedef struct _ArrayList {
int length; //当前长度
int capacity; //容量
unsigned int* data;//数组指针
}MyArrayList;
//创建并且返回一个空的ArrayList
MyArrayList* ArrayList_Create(int cap);
//销毁一个线性表ArrayList
void ArrayList_Destroy(MyArrayList* list);
//将一个线性表ArrayList中的所有元素清空
void ArrayList_Clear(MyArrayList* list);
//返回一个线性表ArrayList中的所有元素个数
int ArrayList_Length(MyArrayList* list);
//向一个线性表ArrayList的pos位置处插入新元素node
int ArrayList_Insert(MyArrayList* list, MyArrayListNode* node, int pos);
//获取一个线性表ArrayList的pos位置处的元素
MyArrayListNode* ArrayList_Get(MyArrayList* list, int pos);
//删除一个线性表ArrayList的pos位置处的元素 返回值为被删除的元素,NULL表示删除失败
MyArrayListNode* ArrayList_Delete(MyArrayList* list, int pos);
//增加ArrayList 空间大小,返回新空间大小
int grow(MyArrayList* list, int size);
#endif // !ARRAY_LIST_H arraylist.c
#include"arraylist.h"
MyArrayList* ArrayList_Create(int capacity) {
MyArrayList *list = NULL;
list = (MyArrayList *)malloc(sizeof(MyArrayList));
if (list == NULL) {
fprintf(stderr,"create ArrayList failed.\n");
return NULL;
}
memset(list, 0, sizeof(list));
list->data = (unsigned int*)malloc(sizeof(unsigned int*) * capacity);
if (list->data == NULL) {
fprintf(stderr, "malloc data space failed.\n");
return NULL;
}
list->capacity = capacity;
list->length = 0;
return list;
}
void ArrayList_Destroy(MyArrayList* list) {
if (list == NULL) {
return;
}
if (list->data) {
free(list->data);
}
free(list);
}
void ArrayList_Clear(MyArrayList* list) {
if (list == NULL) {
return;
}
list->length = 0;
}
int ArrayList_Length(MyArrayList* list) {
MyArrayList* arrayList = (MyArrayList* )list;
return arrayList->length;
}
int ArrayList_Insert(MyArrayList* list, MyArrayListNode* node, int pos) {
if (list == NULL) {
return -1;
fprintf(stderr,"the ArrayList is Null\n");
}
if (pos < 0) {
return -2;
fprintf(stderr, "the ArrayList is Null\n");
}
if (list->length == list->capacity) {
fprintf(stdout, "the ArrayList is Full,Grow Capacity\n");
int ret = grow(list,list->capacity * 2);
if (ret == -1) {
return -3;
}
}
for (int i = list->length; i > pos; i--) {
list->data[i] = list->data[i - 1];
}
list->data[pos] = (unsigned int)node;
list->length += 1;
return 0;
}
MyArrayListNode* ArrayList_Get(MyArrayList* list, int pos) {
if (list == NULL || pos < 0 || pos > list->length) {
fprintf(stderr,"wrong arguments\n");
return NULL;
}
return (MyArrayListNode*)list->data[pos];
}
MyArrayListNode* ArrayList_Delete(MyArrayList* list, int pos){
if (list == NULL || pos < 0 || pos > list->length) {
fprintf(stderr, "wrong arguments\n");
return NULL;
}
MyArrayListNode* node = (MyArrayListNode*)list->data[pos];
for (int i = pos + 1; i < list->length; i++) {
list->data[i-1] = list->data[i];
}
list->length--;
return node;
}
int grow(MyArrayList* list, int size) {
if (list == NULL || size < list->capacity) {
fprintf(stderr, "wrong argument.\n");
return -1;
}
int newSize = size;
if (size > 2 * list->capacity) {
newSize = 2 * list->capacity;
}
unsigned int* oldData = list->data;
unsigned int* newData = malloc(newSize * sizeof(unsigned int*));
if (newData == NULL) {
fprintf(stderr,"grow capacity failed.\n");
return -1;
}
list->data = newData;
memset(list->data,0,sizeof(list->data));
memcpy(list->data, oldData, sizeof(oldData)*list->length);
list->capacity = newSize;
free(oldData);
return newSize;
}
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