数据结构之单链表的顺序存储实现
闲来无事,回顾下以前学过的数据结构,写个玩玩,理论的东西就不多说了,网上一搜一大堆;
重要的是需要掌握这种数据结构的思想,整个数据结构这门课最重要的也是思想!
下面是代码:
//====================================================================== // // Copyright (C) 2014-2015 SCOTT // All rights reserved // // filename: SeqList.c // description: a demo to display SeqList // // created by SCOTT at 01/26/2015 // http://blog.csdn.net/scottly1 // //====================================================================== #include <stdio.h> #include <stdlib.h> #include <malloc.h> #include <string.h> #define TRUE 1 #define FALSE 0 #define MAX_SIZE 1000 typedef int Type; typedef int Bool; typedef struct _tag_list { Type *elem; int length; // current length int size; // max length }LIST,*PLIST; Bool createList(LIST *list,int len) { if(len > MAX_SIZE || len <= 0 ) { printf("### OVER MAX_LEN!\n"); return FALSE; } list->elem = (Type *)malloc(len * sizeof(Type)); if(NULL == list) { printf("### createList Create Error!\n"); return FALSE; } else { list->length = 0; list->size = MAX_SIZE; } printf("### createList Create list Success!\n"); return TRUE; } Bool clearList(LIST *list) { if(NULL == list) { printf("### clearList List Error!\n"); return FALSE; } Type *p = list->elem; for(; p < list->elem + list->size; ++p) { memset(p,sizeof(*p)); } return TRUE; } Bool displayList(LIST *list) { if(NULL == list) { printf("### displayList List Error!\n"); return FALSE; } int i = 0; Type *p = list->elem; for(; p < list->elem + list->length; ++p,i++) { printf("list->elem[%d] = %d\n",i,*p); } return TRUE; } Bool insertList(LIST *list,int flag,Type elem) { int i = 0; if(NULL == list || flag < 0 || flag >= list->size) { printf("### insertList List Error!\n"); return FALSE; } if(list->length + 1 > list->size) { printf("### List Full!\n"); return FALSE; } flag = flag>list->length?list->length:flag; for(i=list->length; i>flag; --i) { list->elem[i] = list->elem[i-1]; } list->elem[i] = elem; ++list->length; return TRUE; } Bool deleteList(LIST *list,Type *elem) { int i = 0; if(NULL == list || flag < 0 || flag >= list->size) { printf("### deleteList List Error!\n"); return FALSE; } if(list->length - 1 < 0 ) { printf("### List Empty!\n"); return FALSE; } flag = flag>list->length?list->length:flag; *elem = list->elem[flag]; for(i=flag; i<list->length; ++i) { list->elem[i] = list->elem[i+1]; } --list->length; return TRUE; } Bool mergeList(LIST *src1,LIST *src2,LIST *dst) { int i = 0; Type *pA,*pB,*pC; Type *pA_last,*pB_last,*pC_last; if(NULL == src1 || NULL == src2 || NULL == dst) { printf("### displayList List Error!\n"); return FALSE; } pA = src1->elem; pA_last = src1->elem + src1->length; pB = src2->elem; pB_last = src2->elem + src2->length; pC = dst->elem; while(pA < pA_last && pB < pB_last) { if(*pA >= *pB) *pC++ = *pB++; else *pC++ = *pA++; ++dst->length; } while(pA < pA_last) { *pC++ = *pA++; ++dst->length; } while(pB < pB_last) { *pC++ = *pB++; ++dst->length; } return TRUE; } int main(int argc,char *argv[]) { LIST list1; LIST list2; LIST dst; Type elem1 = 10; Type elem2 = 30; createList(&list1,5); createList(&list2,5); createList(&dst,10); printf("===================\n"); insertList(&list1,elem1); insertList(&list1,1,elem1+1); insertList(&list1,2,elem1+2); insertList(&list1,3,elem1+4); insertList(&list1,4,100); displayList(&list1); printf("===================\n"); insertList(&list2,elem2+3); insertList(&list2,elem2+4); insertList(&list2,elem2+5); insertList(&list2,elem2+6); insertList(&list2,elem2+7); displayList(&list2); printf("===================\n"); mergeList(&list1,&list2,&dst); displayList(&dst); printf("\n\n"); return 0; }
注:原创文章,转载请注明出处:http://blog.csdn.net/scottly1/article/details/43154589
原文链接:https://www.f2er.com/datastructure/382716.html