# Polynomial multiplication using linked list in c

Iam working on a program to perform addition,subtraction,multiplication and differentiation operations on a polynomial using linked list in c. The other operations are working fine except multiplication one. here is the code

``````#include<stdio.h>
#include<malloc.h>
#include<conio.h>
int coeff;
int pow;
};
{
char ch;
do
{
printf("\n\nenter coeff:");
scanf("%d",&node->coeff);
printf("\nenter power:");
scanf("%d",&node->pow);
node=node->next;
node->next=NULL;
printf("\ncontinue(y/n):");
ch=getch();
}
while(ch=='y' || ch=='Y');
}
{
while(node->next!=NULL)
{

printf("%dx^%d",node->coeff,node->pow);
node=node->next;
if(node->next!=NULL)
printf(" + ");

}
}
{
while(poly1->next &&  poly2->next)
{
if(poly1->pow>poly2->pow)
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff;
poly1=poly1->next;
}
else if(poly1->pow<poly2->pow)
{
poly->pow=poly2->pow;
poly->coeff=poly2->coeff;
poly2=poly2->next;
}
else
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff+poly2->coeff;
poly1=poly1->next;
poly2=poly2->next;
}
poly=poly->next;
poly->next=NULL;
}
while(poly1->next || poly2->next)
{
if(poly1->next)
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff;
poly1=poly1->next;
}
if(poly2->next)
{
poly->pow=poly2->pow;
poly->coeff=poly2->coeff;
poly2=poly2->next;
}
poly=poly->next;
poly->next=NULL;
}
``````

}

``````void polysub(struct link *poly1,struct link *poly2,struct link *poly)
{
while(poly1->next &&  poly2->next)
{
if(poly1->pow>poly2->pow)
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff;
poly1=poly1->next;
}
else if(poly1->pow<poly2->pow)
{
poly->pow=poly2->pow;
poly->coeff=poly2->coeff;
poly2=poly2->next;
}
else
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff-poly2->coeff;
poly1=poly1->next;
poly2=poly2->next;
}
poly=poly->next;
poly->next=NULL;
}
while(poly1->next || poly2->next)
{
if(poly1->next)
{
poly->pow=poly1->pow;
poly->coeff=poly1->coeff;
poly1=poly1->next;
}
if(poly2->next)
{
poly->pow=poly2->pow;
poly->coeff=poly2->coeff;
poly2=poly2->next;
}
poly=poly->next;
poly->next=NULL;
}
``````

}

``````void polymul(struct link *n1, struct link *n2, struct link *n)
{

while (n1)
{
temp->next=NULL;
n2=n2beg;
while (n2)
{
temp->coeff = n1->coeff * n2->coeff;

temp->pow = n1->pow + n2->pow;

n2 = n2->next;
temp=temp->next;
temp->next=NULL;

}

n1 = n1->next;
free(temp);
}
``````

}

``````void diff(struct link* p1,struct link* p2)
{

while(p1->next!=NULL)
{
p2->coeff=p1->coeff*p1->pow;
p2->pow=p1->pow-1;
p2->next=NULL;
p2=p2->next;
p2->next=NULL;
p1=p1->next;
}

}
main()
{
int op;
char ch;
do{
printf("\n\nWhat do you want to do?\n1.Addition\n2.Subtraction
\n3.Multiplication\n4.Differentiation\n0.Exit
scanf("%d",&op);
switch(op)
{
case 1:
printf("\n\nenter 1st polynomial:");
create(poly1);
printf("\n\nenter 2nd polynomial:");
create(poly2);
printf("\n1st Polynomial:\t");
show(poly1);
printf("\n2nd Polynomial:\t");
show(poly2);
show(poly);
break;
case 2:
printf("\n\nenter 1st polynomial:\t");
create(poly1);
printf("\n\nenter 2nd polynomial:\t");
create(poly2);
printf("\n\n1st Polynomial:\t");
show(poly1);
printf("\n\n2nd Polynomial:\t");
show(poly2);
polysub(poly1,poly2,poly);
printf("\n\nSubtracted polynomial:\t");
show(poly);
break;
case 3:
printf("\n\nenter 1st polynomial:");
create(poly1);
printf("\n\nenter 2nd polynomial:");
create(poly2);
printf("\n\n1st Polynomial:\t");
show(poly1);
printf("\n\n2nd Polynomial:\t");
show(poly2);
polymul(poly1,poly2,poly);
printf("\n\nMultiplied polynomial:\t");
show(poly);
break;
case 4:
printf("\n\nenter polynomial:");
create(poly1);
printf("\n\nPolynomial:\t");
show(poly1);
diff(poly1,poly2);
printf("\n\nDifferentiated Polynomial:\t");
show(poly2);
break;
}

/* printf("\n Want to continue? Y/N:");
ch=getch();*/
}
while(op);
``````

}

• (What did "Community" change in this post?) Instead of implementing `polysub()` in addition to `polyadd()`, do a `polyscale()` for scalar multiplication. (In `polyadd()` it is possible to code copy "unpaired" node to result once - from eight times over as presented.) Feb 4, 2018 at 12:37

`polyadd(temp,n,n)` as used in `polymul()` has trouble coping with using `n` as a source polynomial and as the sum destination polynomial.

Either re-work `polyadd()` to cope with parameters that point to the same polynomial or re-work the call of `polyadd()` in `polymul()` to use distinct polynomials. Suggest the first.

I did not go through your full code, as I found an error in your `create()` function. Note that you have passed `poly1` to the function `create()` as argument.

This not correct as C follows call by value. What happens is only the value of `poly1` (which is still un-initialised) is passed and `*node` stores that value. It's better to pass the address of `poly1` as argument and catch that value in the function using pointer to pointer.

``````#include<stdio.h>
#include <conio.h>
struct node
{
int c,e;
}*start1=NULL,*start2=NULL,*start3=NULL,*temp1,*temp2,*temp3,*new_node;
int delete_dup(int h)
{
struct node *cr,*prev,*run,*tmp;

prev = start3;

while(cr != NULL){

run = start3;

while(run != cr)
{
if(run->e == cr->e)
{
run->c+=cr->c;
tmp = cr;
remove(tmp);h--;
break;
}

}

if(run == cr){
}
}
return h;

}

void main()
{
int n,m,i,j,k;
puts("Enter the number of terms in first polynomial");
scanf("%d",&n);
for(i=0;i<n;i++)
{
new_node=(struct node*)malloc(sizeof(struct node));
puts("C=");
scanf("%d",&new_node->c);
puts("E=");
scanf("%d",&new_node->e);
start1=new_node;

}
puts("Enter the number of terms in first polynomial");
scanf("%d",&m);
for(i=0;i<m;i++)
{
new_node=(struct node*)malloc(sizeof(struct node));
puts("C=");
scanf("%d",&new_node->c);
puts("E=");
scanf("%d",&new_node->e);
start2=new_node;

}
temp1=start1;
temp2=start2;
i=0; j=0;
while(i<m)
{
j=0; temp1=start1;
while(j<n)
{
new_node=(struct node*)malloc(sizeof(struct node));
new_node->c=temp1->c*temp2->c;
new_node->e=temp1->e+temp2->e;
start3=new_node;
j++;
}
i++;
}
i=0;
k=delete_dup(m*n);
temp3=start3;
while(i<k-1)

{
printf("(%dx^%d)+",temp3->c,temp3->e);
i++;
}
printf("(%dx^%d)",temp3->c,temp3->e);

}
``````
• Please add some explanation as well. :) Mar 20, 2014 at 16:35
``````#include<stdio.h>
#include<conio.h>
#include<stdlib.h>
struct node{
int coef,pow;
struct node *next;
};

struct node* create()
{
int c;
struct node *new_node=NULL;

do{
new_node=(struct node*)malloc(sizeof(struct node));
printf("\nEnter coef :");
scanf("%d",&new_node->coef);
printf("\nEnter power : ");
scanf("%d",&new_node->pow);

{
temp=new_node;
}
else
{
temp->next=new_node;
temp=temp->next;
temp->next=NULL;
}
printf("\nDo you want to continue :");
scanf("%d",&c);
}while(c==1);
}

void print(struct node *p)
{
while(p!=NULL)
{
printf("|%d|%d|->",p->coef,p->pow);
p=p->next;
}
}

struct node* create_new(int p, int q)
{

struct node *nn=(struct node*)malloc(sizeof(struct node));
nn->coef=p;
nn->pow=q;
nn->next=NULL;
return nn;
}
struct node* add(struct node *poly1,struct node *poly2)
{
struct node *temp1=poly1;
while(temp1!=NULL && temp2!=NULL)
{
if(temp1->pow==temp2->pow)
{
temp1=temp1->next;
temp2=temp2->next;
}
else if(temp1->pow<temp2->pow)
{
temp2=temp2->next;
}
else
{
temp1=temp1->next;
}
{
}
else
{
temp=temp->next;
}

}
if(temp1!=NULL)
{
while(temp1!=NULL)
{
temp1=temp1->next;
temp=temp->next;
}
}
else if(temp2!=NULL)
{
while(temp2!=NULL)
{
temp2=temp2->next;
temp=temp->next;
}
}

}

void main()
{
printf("\n");
printf("\n");
printf("\n\nResult : ");
getch();
}
``````
• While this code snippet might provide some limited, immediate help, a proper explanation would greatly improve its long-term value by showing why this is a good solution to the problem and would make it more useful to future readers with other, similar questions. Please edit your answer to add some explanation, including the assumptions you’ve made. Feb 18, 2018 at 17:38
``````#include<stdio.h>
#include<stdlib.h>
#include<malloc.h>
typedef struct node {
struct node *previous;
int coef;
int pow;
struct node *next;
}poly;
poly *locate(int,poly *);
void display(poly *);
poly *mult(poly *,poly *,poly *);
void display2(poly *);
void main()
{
char ch;
s1=(poly *)malloc(sizeof(poly));
s1->previous=NULL;
s2=(poly *)malloc(sizeof(poly));
s2->previous=NULL;
printf("Enter first polynomial :\n");
do{                                           //Input for polynomial-1
printf("Enter co-efficient : ");
scanf("%d",&s1->coef);
printf("Enter exponent : ");
scanf("%d",&s1->pow);
printf("Do you want to enter more terms(Y/N) : ");
scanf(" %c",&ch);
if(ch=='Y'){
s1->next=(poly*)malloc(sizeof(poly));
s1->next->previous=s1;
s1=s1->next;
}
else {
s1->next=NULL;
break;
}
}while(1);
printf("Enter second polynomial : \n");
do{                                     //input for polynomial-2
printf("Enter co-efficient : ");
scanf("%d",&s2->coef);
printf("Enter exponent : ");
scanf("%d",&s2->pow);
printf("Do you want to enter more terms(Y/N) : ");
scanf(" %c",&ch);
if(ch=='Y'){
s2->next=(poly*)malloc(sizeof(poly));
s2->next->previous=s2;
s2=s2->next;
}
else {
s2->next=NULL;
break;
}
}while(1);
printf("Entered polynomials are : \n");
display(s1);
printf("\n");
display(s2);
s3=NULL;
s4=mult(s1,s2,s3);
printf("Resultant Polynomial after multiplication :\n");
display(s4);
}
void display(poly *a)
{
while(a!=NULL)
{
printf("%dx^%d",a->coef,a->pow);
if(a->previous!=NULL)
printf(" + ");
a=a->previous;
}
}
poly *mult(poly *s1,poly *s2,poly *s3)
{
while(s1->previous!=NULL)
s1=s1->previous;
while(s2->previous!=NULL)
s2=s2->previous;
while(s1)
{
while(s2->previous!=NULL)
s2=s2->previous;
while(1)
{
if(s2->next!=NULL)
{
poly *s4;
if(s3==NULL)
{
s3=(poly *)malloc(sizeof(poly));
s3->pow=s1->pow+s2->pow;
s3->coef=s1->coef*s2->coef;
s3->previous==NULL;
s3->next==NULL;
}
else
{
s4=locate(s1->pow+s2->pow,s3);
if(s4==NULL)
{
s3->next=(poly *)malloc(sizeof(poly));
s3->next->previous=s3;
s3=s3->next;
s3->pow=s1->pow+s2->pow;
s3->coef=s1->coef*s2->coef;
s3->next==NULL;
}
else
{
s4->coef=(s4->coef)+(s1->coef*s2->coef);
}
}
s2=s2->next;
}
else
{
poly *s4;
if(s3==NULL)
{
s3=(poly *)malloc(sizeof(poly));
s3->pow=s1->pow+s2->pow;
s3->coef=s1->coef*s2->coef;
s3->previous==NULL;
s3->next==NULL;
}
else{
s4=locate(s1->pow+s2->pow,s3);
if(s4==NULL)
{
s3->next=(poly *)malloc(sizeof(poly));
s3->next->previous=s3;
s3=s3->next;
s3->pow=s1->pow+s2->pow;
s3->coef=s1->coef*s2->coef;
s3->next==NULL;
}
else
{
s4->coef=s4->coef+s1->coef*s2->coef;
}
}
break;
};
}s1=s1->next;
}return s3;

}
poly *locate(int exp,poly *s3)
{
if(s3==NULL)
{
return NULL;
}
else if(s3->pow==exp)
{
return s3;
}
else{
return locate(exp,s3->previous);
}
}
``````

I considered the first term of first polynomial and multiplied with all the terms of second polynomial thereby creating a primary linked list of multiplied polynomial. As next piece of code I considered next term of first polynomial and then multiplied and searched in the multiplied polynomial for the same index and added the result to it, If it is not present I created a new node in the multiplied polynomial. Happy Coding