#ifndef ARRAY_INCLUDED #include #include #include /*带有assert的安全分配内存*/ void *malloc_s(int _size){ assert(_size > 0); void *malloc_ptr = malloc(_size); assert(malloc_ptr != NULL); return malloc_ptr; } /*字符串变量的创建与复制*/ char *malloc_s_strcpy(const char *const src){ //申请char[]时需要多分配几个位置用于存放'\0'结束符 char *dst = malloc_s(strlen(src)+2); strcpy(dst, src); return dst; } /*MARCO:根据类型安全分配内存*/ #define MALLOC_S(TypeName) (TypeName *)(malloc_s(sizeof(TypeName))) /*链表单元*/ struct Array_{ void *p; struct Array_ *next; }; /*通过单向链表实现的动态数组*/ struct Array{ struct Array_ *front, *back; int TypeSize; int size; }; /*链表初始化*/ void Array_create(struct Array *a, int ts) { assert("Array_create" && ts > 0); a->TypeSize = ts; a->size = 0; a->back = a->front = NULL; } void Array_release_(struct Array_ *a, struct Array_ *back, void (*rel)(void *)){ if(a == back) return ; Array_release_(a->next, back, rel); rel(a->p); free(a->p); free(a); } /*释放动态分配的内存,需要指定释放内部动态成员的方法*/ void Array_release(struct Array *a, void (*rel)(void *)){ Array_release_(a->front, a->back, rel); a->size = 0; a->back = a->front = NULL; } /*返回指定位置的Array_*指针 配合PAT宏获取内部数据*/ struct Array_ *Array(struct Array *a, int pos){ assert("Array[pos]" && pos >= 0 && pos < a->size); struct Array_ *node = a->front; for(int i = 0; i < pos; i ++) node = node->next; return node; } /*在pos前插入*/ void Array_insert(struct Array *a, void *p, int pos) { assert("Array_insert" && pos >= 0 && pos <= a->size); struct Array_ *newNode, *node = a->front; newNode = MALLOC_S(struct Array_); newNode->p = malloc_s(a->TypeSize); memcpy(newNode->p, p, a->TypeSize); if(a->size == 0){ a->front = newNode; newNode->next = a->back; }else { for(int i = 0; i < pos-1; i ++) node = node->next; newNode->next = node->next; node->next = newNode; } a->size += 1; } /*删除pos*/ void Array_delete(struct Array *a, int pos){ assert("Array_delete" && pos >= 0 && pos < a->size && a->size != 0); struct Array_ *node = a->front, *freeNode; if(pos == 0){ freeNode = a->front; a->front = a->front->next; free(freeNode->p); free(freeNode); }else{ for(int i = 0; i < pos-1; i ++) node = node->next; freeNode = node->next; node->next = node->next->next; free(freeNode->p); free(freeNode); } a->size--; } /*交换内容,即p指针*/ void Array__swap(struct Array_ *a, struct Array_ *b){ void *t = b->p; b->p = a->p; a->p = t; } /* 带有reverse选项的冒泡排序,默认(reverse == 0)是升序 func(a,b)为排序所依据的比较函数 a>b:>0 a==b:0 a < b:<0 */ void Array_sort(struct Array *a, int (*func)(void *, void *), int reverse){ reverse = reverse ? -1 : 1; struct Array_ *sorted = a->back, *p; while(a->front->next != sorted){ for(p = a->front; p->next != sorted; p = p->next) if(reverse*func(p->p,p->next->p) > 0) Array__swap(p, p->next); sorted = p; } } /*指定类型 转换(void)Array.p中的内容*/ #define PAT(TypeName, Array_Pointer) ((TypeName *)Array_Pointer->p) /*链表的遍历*/ #define Range(arr) for(struct Array_ *p = arr.front; p != arr.back; p = p->next) #endif #define ARRAY_INCLUDED