MIT-Curricular/DS/C/Lab/Shortcodes/polyadds.c

#include <stdio.h>
#include <stdlib.h>

typedef struct p { int c, e; struct p *n; } *P;

P new_p(int c, int e) {
    P t = malloc(sizeof(struct p));
    t->c = c; t->e = e; t->n = NULL; return t;
}

void insert_end(int c, int e, P *h) {
    P t = new_p(c, e);
    if (!*h) *h = t;
    else { P cur = *h; while (cur->n) cur = cur->n; cur->n = t; }
}

void attach(int c, int e, P *r) {
    (*r)->n = new_p(c, e); *r = (*r)->n;
}

P poly_add(P A, P B) {
    P r = new_p(0, 0), C = r;
    while (A && B) {
        int d = A->e - B->e;
        if (d < 0) { attach(B->c, B->e, &r); B = B->n; }
        else if (d > 0) { attach(A->c, A->e, &r); A = A->n; }
        else { int s = A->c + B->c; if (s) attach(s, A->e, &r); A = A->n; B = B->n; }
    }
    for (; A; A = A->n) attach(A->c, A->e, &r);
    for (; B; B = B->n) attach(B->c, B->e, &r);
    P t = C; C = C->n; free(t); return C;
}

void print_poly(P p) {
    if (!p) return;
    printf("%dx^%d", p->c, p->e);
    for (p = p->n; p; p = p->n) printf(" + %dx^%d", p->c, p->e);
    printf("\n");
}

int main() {
    P A = NULL, B = NULL;
    insert_end(3, 3, &A); insert_end(4, 2, &A); insert_end(1, 0, &A);
    printf("1st Polynomial: "); print_poly(A);
    insert_end(6, 4, &B); insert_end(5, 2, &B); insert_end(4, 1, &B);
    printf("2nd Polynomial: "); print_poly(B);
    P C = poly_add(A, B);
    printf("Added Polynomial: "); print_poly(C);
    return 0;
}
Upload files to "DS/C/Lab/Shortcodes" 2024-10-22 08:48:58 +05:30			`#include <stdio.h>`
			`#include <stdlib.h>`

			`typedef struct p { int c, e; struct p n; } P;`

			`P new_p(int c, int e) {`
			`P t = malloc(sizeof(struct p));`
			`t->c = c; t->e = e; t->n = NULL; return t;`
			`}`

			`void insert_end(int c, int e, P *h) {`
			`P t = new_p(c, e);`
			`if (!h) h = t;`
			`else { P cur = *h; while (cur->n) cur = cur->n; cur->n = t; }`
			`}`

			`void attach(int c, int e, P *r) {`
			`(r)->n = new_p(c, e); r = (*r)->n;`
			`}`

			`P poly_add(P A, P B) {`
			`P r = new_p(0, 0), C = r;`
			`while (A && B) {`
			`int d = A->e - B->e;`
			`if (d < 0) { attach(B->c, B->e, &r); B = B->n; }`
			`else if (d > 0) { attach(A->c, A->e, &r); A = A->n; }`
			`else { int s = A->c + B->c; if (s) attach(s, A->e, &r); A = A->n; B = B->n; }`
			`}`
			`for (; A; A = A->n) attach(A->c, A->e, &r);`
			`for (; B; B = B->n) attach(B->c, B->e, &r);`
			`P t = C; C = C->n; free(t); return C;`
			`}`

			`void print_poly(P p) {`
			`if (!p) return;`
			`printf("%dx^%d", p->c, p->e);`
			`for (p = p->n; p; p = p->n) printf(" + %dx^%d", p->c, p->e);`
			`printf("\n");`
			`}`

			`int main() {`
			`P A = NULL, B = NULL;`
			`insert_end(3, 3, &A); insert_end(4, 2, &A); insert_end(1, 0, &A);`
			`printf("1st Polynomial: "); print_poly(A);`
			`insert_end(6, 4, &B); insert_end(5, 2, &B); insert_end(4, 1, &B);`
			`printf("2nd Polynomial: "); print_poly(B);`
			`P C = poly_add(A, B);`
			`printf("Added Polynomial: "); print_poly(C);`
			`return 0;`
			`}`