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disk_164
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newton
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io.c
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C/C++ Source or Header
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1992-05-06
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176 lines
/* io.c: Input/Output functions.
*
* Written by Daniel Barrett. 100% PUBLIC DOMAIN. */
#include "decl.h"
PrintComplex(comp)
/* Print a complex number. */
complex comp;
{
double fabs();
if (comp.n[REAL] >= 0)
printf(" ");
printf("%f%c%fi", comp.n[REAL],
(comp.n[IMAG] < 0.0) ? '-' : '+',
fabs(comp.n[IMAG]));
}
PrintPoly(poly, n)
/* Print the polynomial in a nice format. */
complex poly[];
int n;
{
int i;
printf("\nYour polynomial is:\n");
printf("--------------------\n");
for (i=0; i<n-1; i++) {
PrintComplex(poly[i]);
printf(" * X^%d +\n", n-i);
}
PrintComplex(poly[n-1]);
printf(" * X +\n");
PrintComplex(poly[n]);
printf("\n\n");
}
ReadPoly(poly, degree, epsilon)
/* Read all data from the user: the degree of the polynomial, the
* accuracy desired, and the polynomial coefficients. */
complex poly[];
int *degree;
double *epsilon;
{
ReadDegree(degree);
ReadEpsilon(epsilon);
TellUserWhatToDo();
ReadCoefficients(poly, *degree);
}
ReadDegree(degree)
/* Prompt user for the degree of the polynomial. Read it. */
int *degree;
{
char buf[BUFSIZ];
*degree = 0;
do {
printf("Degree of polynomial? (1..%d): ", MAX_DEGREE);
gets(buf);
*degree = atoi(buf);
}while (*degree <= 0 || *degree > MAX_DEGREE);
}
ReadEpsilon(epsilon)
/* Prompt user for epsilon, the desired accuracy. Read it. If no
* data, set epsilon to the default value. */
double *epsilon;
{
char buf[BUFSIZ];
double atof();
do {
*epsilon = EPSILON_DEFAULT;
printf("Accuracy desired? [<RETURN> = %1.7f]: ", *epsilon);
gets(buf);
if (strlen(buf))
*epsilon = atof(buf);
}while (*epsilon <= 0.0);
}
ReadCoefficients(poly, degree)
/* Read in the coefficients of the polynomial "poly". NOTE that
* the array "poly" is backwards... poly[0] is the coefficient
* of X^degree, and so on.
* I use "strtok()", my version of the UNIX function, to get the input. */
complex poly[];
int degree;
{
char buf[BUFSIZ], *tokeReal=NULL, *tokeImag=NULL, *strtok();
static char separators[] = " \t\n\r";
register int i;
double atof();
for (i=0; i <= degree; i++) {
Again: printf("X^%d coefficient: ", degree-i);
gets(buf);
tokeReal = strtok(buf, separators);
if (!tokeReal)
goto Again;
else if (NeedsHelp(tokeReal)) {
Help();
goto Again;
}
tokeImag = strtok((char *)NULL, separators);
AssignComplex(&poly[i], atof(tokeReal),
tokeImag ? atof(tokeImag) : 0.0);
}
}
PrintRoot(root, i)
/* Print the value of root "i" of the polynomial. */
complex root;
int i;
{
printf("Root %d: ", i);
if (i<10)
printf(" ");
PrintComplex(root);
printf("\n");
}
TellUserWhatToDo()
{
printf("Enter the coefficients of your polynomial. ");
printf("Type \"H\" for help.\n");
}
static char *helpMessage[] = {
"",
"Enter the coefficients of your polynomial, one coefficient per line.",
"Note that \"X^n\" means \"X to the nth power\".",
"If the coefficient is REAL, simply enter it and press <RETURN>.",
"If the coefficient is COMPLEX, enter its real and imaginary terms,",
" separated by a space. (Do not use the letter \"i\".)",
"",
NULL
};
Help()
/* Print the above help message. */
{
char **s = helpMessage;
do
puts(*s);
while (*(s++));
}
NeedsHelp(s)
/* Does the user need help? */
char *s;
{
return(EQUAL(s, "H") | EQUAL(s, "h") | EQUAL(s, "?"));
}
Version()
{
printf("
Newton V1.0
");
printf(" by Daniel Barrett. 100%% PUBLIC DOMAIN.\n");
printf("Estimate the roots of a polynomial numerically.\n");
printf("Type ^C <RETURN> to abort this program.\n\n");
}