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分享大一小白第一次发帖,求教一个数据结C语言构链表的问题
题目是一个一元多项式的合并
我的代码如下
#include<stdio.h>
#include<malloc.h>
#include<stdlib.h>
typedef struct LNode
{
int coe;
int exp;
struct LNode *next;
}LNode,*linklist;
int main()
{
void creat(linklist &L,int n);
void merge(linklist la,linklist lb,linklist lc);
void format(int coe,int exp);
void show(linklist L);
linklist ha,hb,hc;
int Na,Nb;
printf("请输入多项式ha的项数Na:");
scanf("%d",&Na);
printf("请输入多项式ha各项的系数和指数:");
creat(ha,Na);
printf("请输入多项式hb的项数Nb:");
scanf("%d",&Nb);
printf("请输入多项式hb各项的系数和指数:");
creat(hb,Nb);
merge(ha,hb,hc);
printf("合并后的hc为:");
show(hc);
return 0;
}
void creat(linklist &L,int n)
{
int i;
linklist q,p;
L=(linklist)malloc(sizeof(LNode));
L->next=NULL;
q=L;
for(i=1;i<=n;i++)
{
p=(linklist)malloc(sizeof(LNode));
scanf("%d%d",&p->coe,&p->exp);
q->next=p;
q=q->next;
}
p->next=NULL;
}
void merge(linklist la,linklist lb,linklist lc)
{
linklist pa,pb,pc;
pa=la->next;
pb=lb->next;
lc=la;
pc=la;
while(pa->exp!=NULL&&pb->exp!=NULL)
{
if(pa->exp<pb->exp)
{
pc->next=pa;
pc=pa;
pa=pa->next;
}
else if(pa->exp>pb->exp)
{
pc->next=pb;
pc=pb;
pb=pb->next;
}
else
{
pa->coe=pa->coe+pb->coe;
pc->next=pa;
pc=pa;
pa=pa->next;
pb=pb->next;
}
}
if(pa->coe) pc->next=pa;
else pc->next=pb;
}
void format(int coe,int exp)
{
if(coe!=0)
printf("%dX%^d",coe,exp);
}
void show(linklist L)
{
linklist p;
p=L->next;
while(p->next!=NULL)
{
format(p->coe,p->exp);
if(p->next!=NULL) printf("+");
p=p->next;
}
}
程序运行成了这种情况
我的代码如下
#include<stdio.h>
#include<malloc.h>
#include<stdlib.h>
typedef struct LNode
{
int coe;
int exp;
struct LNode *next;
}LNode,*linklist;
int main()
{
void creat(linklist &L,int n);
void merge(linklist la,linklist lb,linklist lc);
void format(int coe,int exp);
void show(linklist L);
linklist ha,hb,hc;
int Na,Nb;
printf("请输入多项式ha的项数Na:");
scanf("%d",&Na);
printf("请输入多项式ha各项的系数和指数:");
creat(ha,Na);
printf("请输入多项式hb的项数Nb:");
scanf("%d",&Nb);
printf("请输入多项式hb各项的系数和指数:");
creat(hb,Nb);
merge(ha,hb,hc);
printf("合并后的hc为:");
show(hc);
return 0;
}
void creat(linklist &L,int n)
{
int i;
linklist q,p;
L=(linklist)malloc(sizeof(LNode));
L->next=NULL;
q=L;
for(i=1;i<=n;i++)
{
p=(linklist)malloc(sizeof(LNode));
scanf("%d%d",&p->coe,&p->exp);
q->next=p;
q=q->next;
}
p->next=NULL;
}
void merge(linklist la,linklist lb,linklist lc)
{
linklist pa,pb,pc;
pa=la->next;
pb=lb->next;
lc=la;
pc=la;
while(pa->exp!=NULL&&pb->exp!=NULL)
{
if(pa->exp<pb->exp)
{
pc->next=pa;
pc=pa;
pa=pa->next;
}
else if(pa->exp>pb->exp)
{
pc->next=pb;
pc=pb;
pb=pb->next;
}
else
{
pa->coe=pa->coe+pb->coe;
pc->next=pa;
pc=pa;
pa=pa->next;
pb=pb->next;
}
}
if(pa->coe) pc->next=pa;
else pc->next=pb;
}
void format(int coe,int exp)
{
if(coe!=0)
printf("%dX%^d",coe,exp);
}
void show(linklist L)
{
linklist p;
p=L->next;
while(p->next!=NULL)
{
format(p->coe,p->exp);
if(p->next!=NULL) printf("+");
p=p->next;
}
}
程序运行成了这种情况
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MHY1249 2018-04-04
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typedef struct linkNode{
int nExp; // 指数
int nCoe; // 系数
struct linkNode *pNext;
}LINKNODE,*PLINKNODE;
void showLink(linkNode *pHead){
if(!pHead){
return ;
}
string strPress = "";
linkNode *pTemp = pHead->pNext;
while(pTemp){
char szTemp[500] ={0};
sprintf(szTemp,"%dX^%d",pTemp->nCoe,pTemp->nExp);
if(strPress.empty()){
strPress = szTemp;
}else{
strPress +=(string)"+"+szTemp;
}
pTemp=pTemp->pNext;
}
printf("%s\n",strPress.c_str());
return ;
}
void createLink(linkNode * &pHead,int nNumber){
if(!pHead){
pHead = (PLINKNODE)malloc(sizeof(LINKNODE));
}
linkNode *pTempNode = pHead;
while(nNumber-->0){
LINKNODE *pNode = (PLINKNODE)malloc(sizeof(LINKNODE));
memset(pNode,0,sizeof(LINKNODE));
printf("请输入指数: \n");
scanf("%d",&pNode->nExp);
printf("请输入系数: \n");
scanf("%d",&pNode->nCoe);
pNode->pNext = NULL;
pTempNode->pNext = pNode;
pTempNode = pTempNode->pNext;
}
showLink(pHead);
}
void mergeLink(linkNode *pLeft,linkNode *pRight,linkNode *pResult){
if(!pResult){
pResult = (PLINKNODE)malloc(sizeof(LINKNODE));
}
if(!pLeft || !pLeft->pNext){
pResult->pNext = pRight;
}
if(!pRight || !pRight->pNext){
pResult->pNext = pLeft;
}
linkNode *pTemp_Left = pLeft->pNext;
linkNode *pTemp_Right= pRight->pNext;
linkNode *pTemp_Result = pResult;
while(pTemp_Left && pTemp_Right)
{
if(pTemp_Left->nExp >pTemp_Right->nExp){
pTemp_Result->pNext = pTemp_Left;
pTemp_Left = pTemp_Left->pNext;
pTemp_Result = pTemp_Result->pNext;
pTemp_Result->pNext = NULL;
}else if(pTemp_Left->nExp < pTemp_Right->nExp){
pTemp_Result->pNext = pTemp_Right;
pTemp_Right = pTemp_Right->pNext;
pTemp_Result = pTemp_Result->pNext;
pTemp_Result->pNext = NULL;
}else{
pTemp_Left->nCoe+= pTemp_Right->nCoe;
pTemp_Result->pNext = pTemp_Left;
pTemp_Left = pTemp_Left->pNext;
pTemp_Result = pTemp_Result->pNext;
pTemp_Result->pNext = NULL;
pTemp_Right=pTemp_Right->pNext;
}
}
if(pTemp_Left){
pTemp_Result->pNext = pTemp_Left;
}
if(pTemp_Right){
pTemp_Result->pNext = pTemp_Right;
}
printf("合并后的表达式:\n");
showLink(pResult);
return ;
}
int _tmain(int argc, _TCHAR* argv[])
{
LINKNODE *pHead_left = NULL;
createLink(pHead_left,4);
LINKNODE *pHead_right = NULL;
createLink(pHead_right,4);
LINKNODE *pHead_result = NULL;
mergeLink(pHead_left,pHead_right,pHead_result);
return 0;
}
写的比较匆忙,内存没有释放,仅供参考
赵4老师 2018-04-04
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仅供参考:
//链表实现一元多项式的加法减法乘法
#include <stdio.h>
#include <stdlib.h>
typedef struct node {
float coef; //系数
int expn; //指数
struct node *next;
}
PolyNode; //多项式节点 polynomial node
typedef PolyNode* Polynomial;
Polynomial createPolynomial() { //创建多项式
PolyNode *p, *q, *head = (PolyNode *)malloc(sizeof(PolyNode)); //头节点
head->next = NULL;
float coef;
int expn;
printf("输入该多项式每一项的系数和指数,每项一行,输入0 0结束!\n");
while (scanf("%f %d", &coef, &expn) && coef) { // 默认,按指数递减排列
if (head->next) {
p = head;
while (p->next && expn < p->next->expn)
p = p->next;
if (p->next) {
if (expn == p->next->expn) { //有相同指数的直接把系数加到原多项式
p->next->coef += coef;
if (p->next->coef > -0.000001 && p->next->coef < 0.000001) { //若是相加后系数为0,则舍弃该节点
q = p->next;
p->next = q->next;
free(q);
}
} else {
q = (PolyNode*)malloc(sizeof(PolyNode));
q->coef = coef;
q->expn = expn;
q->next = p->next;
p->next = q;
}
} else {
p->next = (PolyNode*)malloc(sizeof(PolyNode));
p = p->next;
p->coef = coef;
p->expn = expn;
p->next = NULL;
}
} else {
head->next = (PolyNode*)malloc(sizeof(PolyNode));
head->next->coef = coef;
head->next->expn = expn;
head->next->next = NULL;
}
}
return head;
}
Polynomial multiply(Polynomial poly, float coef, int expn) { //多项式与指定单项式相乘,该单项式为 coefx^expn
PolyNode *p, *q, *Poly = (PolyNode*)malloc(sizeof(PolyNode));
p = Poly;
q = poly->next;
while (q) {
p->next = (PolyNode*)malloc(sizeof(PolyNode));
p = p->next;
p->coef = (q->coef*coef);
p->expn = (q->expn + expn);
q = q->next;
}
p->next = NULL;
return Poly;
}
void add(Polynomial poly1, Polynomial poly2) { //把 poly2 加到 poly1 上
PolyNode *p, *q, *r;
r = poly1;
p = poly1->next; //指向第一个节点
q = poly2->next;
poly2->next = NULL;
while (p && q) {
if (p->expn > q->expn) {
r->next = p;
p = p->next;
r = r->next;
} else if (p->expn < q->expn) {
r->next = q;
q = q->next;
r = r->next;
} else {
PolyNode *t;
p->coef += q->coef;
if (!(p->coef > -0.000001 && p->coef < 0.000001)) //系数不为0
{
r->next = p;
r = r->next;
p = p->next;
} else {
t = p;
p = p->next;
free(t);
}
t = q;
q = q->next;
free(t);
}
}
if (p)
r->next = p;
if (q)
r->next = q;
}
Polynomial polySubtract(Polynomial poly1, Polynomial poly2) { //多项式减法 poly1-poly2形成一个新的多项式
//把poly2的系数取相反数,形成一个新的多项式
Polynomial poly = (PolyNode*)malloc(sizeof(PolyNode)); //构造头节点
PolyNode *p, *q;
p = poly;
q = poly2->next;
while (q) {
p->next = (PolyNode*)malloc(sizeof(PolyNode));
p = p->next;
p->coef = -(q->coef); //系数取反
p->expn = q->expn;
q = q->next;
}
p->next = NULL;
add(poly, poly1); //利用加法
return poly;
}
Polynomial polyAdd(Polynomial poly1, Polynomial poly2) { //多项式相加 poly1+poly2形成一个新的多项式
Polynomial poly = (PolyNode*)malloc(sizeof(PolyNode)); //和多项式的头节点
poly->next = NULL;
PolyNode *p, *q, *r;
r = poly;
p = poly1->next;
q = poly2->next;
while (p&&q) {
if (p->expn > q->expn) {
r->next = (PolyNode*)malloc(sizeof(PolyNode));
r = r->next;
r->coef = p->coef;
r->expn = p->expn;
p = p->next;
} else if (p->expn < q->expn) {
r->next = (PolyNode*)malloc(sizeof(PolyNode));
r = r->next;
r->coef = q->coef;
r->expn = q->expn;
q = q->next;
} else {
float m = p->coef + q->coef;
if (!(m > -0.000001 && m < 0.000001)) {
r->next = (PolyNode*)malloc(sizeof(PolyNode));
r = r->next;
r->coef = m;
r->expn = p->expn;
}
q = q->next;
p = p->next;
}
}
while (p) {
r->next = (PolyNode*)malloc(sizeof(PolyNode));
r = r->next;
r->coef = p->coef;
r->expn = p->expn;
p = p->next;
}
while (q) {
r->next = (PolyNode*)malloc(sizeof(PolyNode));
r = r->next;
r->coef = q->coef;
r->expn = q->expn;
q = q->next;
}
r->next = NULL;
return poly;
}
Polynomial polyMultiply(Polynomial poly1, Polynomial poly2) { //多项式相乘
Polynomial poly = (PolyNode*)malloc(sizeof(PolyNode)); //创建多项式和的头节点
poly->next = NULL;
PolyNode *p;
p = poly2->next;
while (p) {
add(poly, multiply(poly1, p->coef, p->expn));
p = p->next;
}
return poly;
}
void printPoly(Polynomial poly) { //打印多项式
if (poly && poly->next) {
PolyNode *p = poly->next; //p指向第一个节点
while (p->next) {
printf("%gx^%d", p->coef, p->expn);
p = p->next;
if (p && (p->coef > 0))
printf("+");
}
if (p->expn == 0)
printf("%g", p->coef); //打印常数项
else
printf("%gx^%d", p->coef, p->expn);
printf("\n");
}
}
void freePoly(Polynomial poly) { //释放内存
if (poly && poly->next) {
PolyNode *p, *q;
p = poly;
while (p) {
q = p->next;
free(p);
p = q;
}
}
poly = NULL;
}
int main() {
printf("用链表实现多项式的加减法\n");
Polynomial poly1, poly2, poly3;
printf("创建多项式一\n");
poly1 = createPolynomial();
printf("多项式一:\n");
printPoly(poly1);
printf("创建多项式二\n");
poly2 = createPolynomial();
printf("多项式二:\n");
printPoly(poly2);
printf("两多项式相加,和为:\n");
poly3 = polyAdd(poly1, poly2);
printPoly(poly3);
freePoly(poly3);
printf("两个多项式相乘,积为:\n");
poly3 = polyMultiply(poly1, poly2);
printPoly(poly3);
freePoly(poly3);
printf("两多项式相减,差为:\n");
poly3 = polySubtract(poly1, poly2);
printPoly(poly3);
freePoly(poly1);
freePoly(poly2);
freePoly(poly3);
system("pause");
return 0;
}
赵4老师 2018-04-04
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崩溃的时候在弹出的对话框按相应按钮进入调试,按Alt+7键查看Call Stack即“调用堆栈”里面从上到下列出的对应从里层到外层的函数调用历史。双击某一行可将光标定位到此次调用的源代码或汇编指令处,看不懂时双击下一行,直到能看懂为止。
数据结构对单链表进行数据排序 http://bbs.csdn.net/topics/392201633
自信男孩 2018-04-03
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#include<stdio.h>
#include<malloc.h>
#include<stdlib.h>
typedef struct LNode
{
int coe;
int exp;
struct LNode *next;
}LNode,*linklist;
void creat(linklist &L,int n);
void merge(linklist la,linklist lb,linklist &lc);
void format(int coe,int exp);
void show(linklist L);
int main()
{
linklist ha,hb,hc;
int Na,Nb;
printf("请输入多项式ha的项数Na:");
scanf("%d",&Na);
printf("请输入多项式ha各项的系数和指数:");
creat(ha,Na);
show(ha);
printf("请输入多项式hb的项数Nb:");
scanf("%d",&Nb);
printf("请输入多项式hb各项的系数和指数:");
creat(hb, Nb);
show(hb);
merge(ha,hb,hc);
printf("合并后的hc为:");
show(hc);
return 0;
}
void creat(linklist &L,int n)
{
int i;
linklist q,p;
L = (linklist)malloc(sizeof(LNode));
if (!L)
exit(0);
L->next = NULL;
q = L;
for(i=1;i<=n;i++)
{
p = (linklist)malloc(sizeof(LNode));
if (!p)
exit(0);
scanf("%d%d", &p->coe,&p->exp);
q->next = p;
q = q->next;
}
p->next = NULL;
}
void merge(linklist la,linklist lb,linklist &lc)
{
linklist pa, pb, pc, ptmp;
pa = la->next;
pb = lb->next;
lc = la;
pc = la;
while(pa && pb)
{
if(pa->exp < pb->exp)
{
pc->next = pa;
pc = pa;
pa = pa->next;
}
else if(pa->exp > pb->exp)
{
pc->next = pb;
pc = pb;
pb = pb->next;
}
else
{
pa->coe = pa->coe + pb->coe;
pc->next = pa;
pc = pa;
ptmp = pb->next;
free(pb);
pa = pa->next;
pb = ptmp;
}
}
if(pa)
pc->next = pa;
else
pc->next=pb;
}
void format(int coe, int exp)
{
if(coe!=0)
printf("%dX^%d", coe, exp);
}
void show(linklist L)
{
linklist p;
p = L->next;
while (p->next)
{
format(p->coe, p->exp);
if(p->next!=NULL)
printf("+");
p = p->next;
}
format(p->coe,p->exp);
printf("\n");
} 
潘然PR 2018-04-03
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建议不要对象之间来回赋值 这样容易内存泄漏 而且也容易出错 建议用指针
程序问题 可以设几个断点debug一下
AaronChang6 2018-04-03
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一运行就成这样了,请问这是怎么回事
AaronChang6 2018-04-03
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