動態順序表的基本操作的實現
阿新 • • 發佈:2018-11-11
順序表是用一段實體地址連續的儲存單元依次儲存資料元素的線性結構,一般情況下采用陣列儲存。在陣列上完成資料的增刪查改。
順序表一般可以分為:
- 靜態順序表:使用定長陣列儲存。
- 動態順序表:使用動態開闢的陣列儲存。
SeqList.h
#ifndef __SeqList_H__ #define __SeqList_H__ //動態順序表 #include<stdio.h> #include<stdlib.h> #include<malloc.h> #include<assert.h> typedef int SLDataType; typedef struct SeqList { SLDataType* _a;//陣列 int _size;//資料個數 int _capacity;//容量 }SeqList; void CheckCapacity(SeqList* psl); void SeqListInit(SeqList* psl, int capacity); void SeqListDestory(SeqList* psl); void SeqListPushBack(SeqList* psl, SLDataType x); void SeqListPopBack(SeqList* psl); void SeqListPushFront(SeqList* psl, SLDataType x); void SeqListPopFront(SeqList* psl); int SeqListFind(SeqList* psl, SLDataType x); void SeqListInsert(SeqList* psl,int pos, SLDataType x); void SeqListErase(SeqList* psl, int pos); void SeqListRemove(SeqList* psl, SLDataType x); void SeqLsitModify(SeqList* psl, int pos, SLDataType x); void SeqListPrint(SeqList* psl); void Test(); //面試題 void SeqListBubbleSort(SeqList* psl); int SeqListBinaryFind(SeqList* psl, SLDataType x); //時間複雜度O(N), 空間複雜度 O(1) void SeqListRemoveAll(SeqList* psl, SLDataType x); #endif //__SeqList_H__
SeqList.c
#include "SeqList.h" void SeqListInit(SeqList* psl, int capacity) { assert(psl); if(capacity == 0) { psl->_a = NULL; psl->_capacity = 0; psl->_size = 0; } else { psl->_capacity = capacity; psl->_size = 0; psl->_a = (SLDataType*)malloc(sizeof(SLDataType)*capacity); assert(psl->_a); } } void SeqListDestory(SeqList* psl) { assert(psl); free(psl->_a); psl->_a = NULL; psl->_capacity = psl->_size = 0; } void CheckCapacity(SeqList* psl) { if(psl->_capacity == psl->_size) { SLDataType* tmp = NULL; if(psl->_capacity == 0) { psl->_capacity = 2; } tmp = realloc(psl->_a, sizeof(SLDataType)*psl->_capacity*2); assert(tmp); psl->_a = tmp; psl->_capacity *= 2; } } void SeqListPushBack(SeqList* psl, SLDataType x) { assert(psl); CheckCapacity(psl); psl->_a[psl->_size] = x; psl->_size++; } void SeqListPopBack(SeqList* psl) { assert(psl); if(psl->_size > 0) { psl->_size--; } } void SeqListPushFront(SeqList* psl, SLDataType x) { int n = 0; assert(psl); n = psl->_size; while(n) { psl->_a[n] = psl->_a[n-1]; n--; } psl->_a[0] = x; psl->_size++; } void SeqListPopFront(SeqList* psl) { int i = 0; int n = psl->_size-1; if(psl->_size == 0) return ; while(n) { psl->_a[i] = psl->_a[i+1]; n--; i++; } psl->_size--; } void SeqListInsert(SeqList* psl, int pos, SLDataType x) { int n = 0; int m = psl->_size; CheckCapacity(psl); assert(psl && pos < psl->_size); n = psl->_size - pos; while(n) { psl->_a[m] = psl->_a[m-1]; n--; } psl->_a[pos] = x; psl->_size++; } void SeqListErase(SeqList* psl, int pos) { int n = 0; int m = pos; assert(psl && pos < psl->_size); n = psl->_size - pos; while(n) { psl->_a[m] = psl->_a[m+1]; n--; m++; } psl->_size--; } int SeqListFind(SeqList* psl, SLDataType x) { int i = 0; assert(psl); for(i=0; i<psl->_size; i++) { if(psl->_a[i] == x) return i; } return -1; } void SeqListRemove(SeqList* psl, SLDataType x) { int pos = 0; assert(psl); pos = SeqListFind(psl, x); if(pos != -1) { SeqListErase(psl, pos); } } void SeqListPrint(SeqList* psl) { int i = 0; assert(psl); for(i=0; i<psl->_size; i++) { printf("%d ", psl->_a[i]); } printf("\n"); } void SeqListModify(SeqList* psl, int pos, SLDataType x) { assert(psl && pos < psl->_size); psl->_a[pos] = x; } void SeqListBubbleSort(SeqList* psl) { int i = 0; int j = 0; int tmp = 0; int flag = 0; int begin = 0; int end = psl->_size; assert(psl); /*for(i=psl->_size; i>0; i--) { flag = 0; for(j=0; j<i-1; j++) { if(psl->_a[j] > psl->_a[j+1]) { flag = 1; tmp = psl->_a[j]; psl->_a[j] = psl->_a[j+1]; psl->_a[j+1] = tmp; } } if(flag == 0) break; }*/ while(end>0) { begin = 1; while(begin < end) { if(psl->_a[begin-1] > psl->_a[begin]) { tmp = psl->_a[begin-1]; psl->_a[begin-1] = psl->_a[begin]; psl->_a[begin] = tmp; } begin++; } end--; } } int SeqListBinaryFind(SeqList* psl, SLDataType x) { /*int left = 0; int right = psl->_size-1; int mid = left + (right - left)/2; while(left <= right) { mid = left + (right-left)/2; if(psl->_a[mid] < x) { left = mid + 1; } else if(psl->_a[mid] > x) { right = mid -1; } else { return mid; } } return -1;*/ //在陣列區間左閉右開時,右邊不減一,否則會導致元素被跳過 int left = 0; int right = psl->_size; int mid = left + (right - left)/2; while(left < right) { mid = left + (right-left)/2; if(psl->_a[mid] < x) { left = mid+1; } else if(psl->_a[mid] > x) { right = mid; } else { return mid; } } return -1; } void SeqListRemoveAll(SeqList* psl, SLDataType x) { int i = 0; int j = 0; assert(psl); for(i=0; i<psl->_size; i++) { if(psl->_a[i] != x) { psl->_a[j] = psl->_a[i]; j++; } } psl->_size = j; } void Test() { int i = 0; SeqList s; SeqListInit(&s, 1); SeqListPushBack(&s, 2); SeqListPushBack(&s, 3); SeqListPushBack(&s, 2); SeqListPushBack(&s, 2); SeqListPushBack(&s, 4); SeqListPushBack(&s, 5); SeqListPushBack(&s, 7); SeqListPushBack(&s, 2); SeqListPushBack(&s, 1); /*SeqListPushFront(&s, 2); SeqListPopFront(&s); SeqListInsert(&s, 2, 2); SeqListErase(&s, 3); SeqListRemove(&s,2 ); SeqListModify(&s, 0, 80);*/ //SeqListBubbleSort(&s); /*i = SeqListBinaryFind(&s, 2); if(i != -1) { printf("找到了\n"); } else { printf("沒找到\n"); }*/ SeqListRemoveAll(&s, 2); SeqListPrint(&s); }