# A Demo for computing Polynomial. # (C) 2004, The Seeker # ------------ poly.h ----------------------- #ifndef POLYNOM_H #define POLYNOM_H #define MAX_POLYNOM_ELEMENTS 250 typedef struct { int coef; int pow_x; int pow_y; } PType; typedef struct { int n; PType *poly; //POLYNOM *next; } POLYNOM; typedef struct { POLYNOM *prev; POLYNOM polynom; POLYNOM *next; } POLYNOMLIST; #endif # ------------------ end of poly.h ---------------------------- #------- poly.c ------------------ #include#include #include #include "poly.h" const char *delim = " "; int Polynom_GetInput(POLYNOM *plnm) { char buf[1024]; int i,j,n; div_t divr; char *p; int a[3*MAX_POLYNOM_ELEMENTS]; //printf("Enter your polynomial variables (it is sequence of triples: c pow_x pow_y)\n"); printf("Enter Polynoms = "); gets(buf); if (strlen(buf) == 0) { plnm->n = 0; plnm->poly = NULL; return 0; } n = 0; if ((p=strtok(buf, delim)) != NULL) { // found the first input n=1; a[0] = atoi(p); } while ((p=strtok(NULL, delim)) != NULL && n<3*max_polynom_elements)> 0) { /* that's all the input. Now, ensure the input is repetition of triplets */ divr = div(n,3); if (divr.rem == 0) { // yes, it is a sequence of triplet plnm->poly = (PType*)malloc(n/3 * sizeof(PType)); if (plnm->poly == NULL) exit(1); plnm->n = n/3; for(i=0; i poly[j].coef = a[i]; plnm->poly[j].pow_x = a[i+1]; plnm->poly[j].pow_y = a[i+2]; } } return 1; } } return 0; } int Polynom_Copy(const POLYNOM *src, POLYNOM *dest) { // destination polynom should not NULL if (src==NULL || dest==NULL) return 0; dest->poly = (PType *)malloc(src->n * sizeof(PType)); if (dest->poly) { memcpy(dest->poly, src->poly, src->n * sizeof(PType)); return 1; } return 0; } void Polynom_Free(POLYNOM *p) { if (!p) return; if (p->poly) { free(p->poly); p->n = 0; p->poly = NULL; } } void Polynom_Print(const POLYNOM *p) { int i; char strc[50], strx[50], stry[50]; short sign; char strsign[5]; short first_time=1; int coef; if (!p) return; strx[0] = '\0'; stry[0] = '\0'; for(i=0; i n; i++) { coef = p->poly[i].coef; // ignore coef=0 // using temporary var for sign is slightly faster than accessing structure of pointer p if (coef != 0) { sign = ( coef < first_time =" 0;">poly[i].pow_x !=0 || p->poly[i].pow_y !=0)) strcpy(strc, strsign); else sprintf(strc, "%s%0d", strsign, abs(coef)); if (p->poly[i].pow_x == 0) strcpy(strx, ""); else if (p->poly[i].pow_x == 1) strcpy(strx, "x"); else sprintf(strx, "x^%-d", p->poly[i].pow_x); if (p->poly[i].pow_y == 0) strcpy(stry, ""); else if (p->poly[i].pow_y == 1) strcpy(stry, "y"); else sprintf(stry, "y^%-d", p->poly[i].pow_y); //sprintf("%u%s%s"); printf("%s%s%s", strc, strx, stry); } } printf("\n"); } int Polynom_Add(PType *result, const PType P1, const PType P2) { if (result == NULL) return 0; if ((P1.pow_x == P2.pow_x) && (P1.pow_y == P2.pow_y)) { // p1 & p2 have the same order of x,y result->coef = P1.coef + P2.coef; return 1; } else { return 0; } } void Polynom_Simplify(POLYNOM *p1, POLYNOM *p2) { int i,j,k; } int main(int argc, char *argv[]) { POLYNOM p1; int i=0; while (Polynom_GetInput(&p1)) { //for(i=0; i
Sunday, August 1, 2004
Friday, May 28, 2004
Linux on the PS2 by John Littler -- As consoles increase in power and alternate operating systems increase in functionality and flexibility, it's ever more attractive to port your favorite free operating system. In the case of Sony's PlayStation 2, the company even encourages it. John Littler explores Linux on the PS2, including hardware, installation, upgrades, alternatives, and game programming.
coLinux: Linux for Windows Without Rebooting by KIVILCIM Hindistan -- Trying Linux just keeps getting easier. Knoppix and other live CDs let you take Linux with you on CD and USB keys, but you have to reboot to run your software. What about Windows users who want to use Linux in conjunction with their existing systems? KIVILCIM Hindistan explores the world of coLinux -- cooperative Linux.
Build Strings with { } by Jerry Peek -- Save typing by expanding strings at the shell prompt. Learn hot to use the {} pattern-expansion characters in this excerpt from Unix Power Tools, 2nd Edition.
Using and Customizing Knoppix by Robert Bernier -- Several Linux distributions boot directly from CD-ROMs. How many are usable in that state? How many are customizable in that state? Klaus Knopper's Knoppix is perhaps the best known of these distributions. Robert Bernier explains how to use Knoppix and how to customize your own self-booting distribution CD.
Variable Manipulation and Output by John Coggeshall -- John Coggeshall covers basic variable manipulation and output, including math operators and strings.