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- /* polynf.c
- * polyrf.c
- * Arithmetic operations on polynomials
- *
- * In the following descriptions a, b, c are polynomials of degree
- * na, nb, nc respectively. The degree of a polynomial cannot
- * exceed a run-time value MAXPOLF. An operation that attempts
- * to use or generate a polynomial of higher degree may produce a
- * result that suffers truncation at degree MAXPOL. The value of
- * MAXPOL is set by calling the function
- *
- * polinif( maxpol );
- *
- * where maxpol is the desired maximum degree. This must be
- * done prior to calling any of the other functions in this module.
- * Memory for internal temporary polynomial storage is allocated
- * by polinif().
- *
- * Each polynomial is represented by an array containing its
- * coefficients, together with a separately declared integer equal
- * to the degree of the polynomial. The coefficients appear in
- * ascending order; that is,
- *
- * 2 na
- * a(x) = a[0] + a[1] * x + a[2] * x + ... + a[na] * x .
- *
- *
- *
- * sum = poleva( a, na, x ); Evaluate polynomial a(t) at t = x.
- * polprtf( a, na, D ); Print the coefficients of a to D digits.
- * polclrf( a, na ); Set a identically equal to zero, up to a[na].
- * polmovf( a, na, b ); Set b = a.
- * poladdf( a, na, b, nb, c ); c = b + a, nc = max(na,nb)
- * polsubf( a, na, b, nb, c ); c = b - a, nc = max(na,nb)
- * polmulf( a, na, b, nb, c ); c = b * a, nc = na+nb
- *
- *
- * Division:
- *
- * i = poldivf( a, na, b, nb, c ); c = b / a, nc = MAXPOL
- *
- * returns i = the degree of the first nonzero coefficient of a.
- * The computed quotient c must be divided by x^i. An error message
- * is printed if a is identically zero.
- *
- *
- * Change of variables:
- * If a and b are polynomials, and t = a(x), then
- * c(t) = b(a(x))
- * is a polynomial found by substituting a(x) for t. The
- * subroutine call for this is
- *
- * polsbtf( a, na, b, nb, c );
- *
- *
- * Notes:
- * poldivf() is an integer routine; polevaf() is float.
- * Any of the arguments a, b, c may refer to the same array.
- *
- */
- #ifndef NULL
- #define NULL 0
- #endif
- #include <math.h>
- #ifdef ANSIC
- void printf(), sprintf(), exit();
- void free(void *);
- void *malloc(int);
- #else
- void printf(), sprintf(), free(), exit();
- void *malloc();
- #endif
- /* near pointer version of malloc() */
- /*#define malloc _nmalloc*/
- /*#define free _nfree*/
- /* Pointers to internal arrays. Note poldiv() allocates
- * and deallocates some temporary arrays every time it is called.
- */
- static float *pt1 = 0;
- static float *pt2 = 0;
- static float *pt3 = 0;
- /* Maximum degree of polynomial. */
- int MAXPOLF = 0;
- extern int MAXPOLF;
- /* Number of bytes (chars) in maximum size polynomial. */
- static int psize = 0;
- /* Initialize max degree of polynomials
- * and allocate temporary storage.
- */
- #ifdef ANSIC
- void polinif( int maxdeg )
- #else
- int polinif( maxdeg )
- int maxdeg;
- #endif
- {
- MAXPOLF = maxdeg;
- psize = (maxdeg + 1) * sizeof(float);
- /* Release previously allocated memory, if any. */
- if( pt3 )
- free(pt3);
- if( pt2 )
- free(pt2);
- if( pt1 )
- free(pt1);
- /* Allocate new arrays */
- pt1 = (float * )malloc(psize); /* used by polsbtf */
- pt2 = (float * )malloc(psize); /* used by polsbtf */
- pt3 = (float * )malloc(psize); /* used by polmul */
- /* Report if failure */
- if( (pt1 == NULL) || (pt2 == NULL) || (pt3 == NULL) )
- {
- mtherr( "polinif", ERANGE );
- exit(1);
- }
- #if !ANSIC
- return 0;
- #endif
- }
- /* Print the coefficients of a, with d decimal precision.
- */
- static char *form = "abcdefghijk";
- #ifdef ANSIC
- void polprtf( float *a, int na, int d )
- #else
- int polprtf( a, na, d )
- float a[];
- int na, d;
- #endif
- {
- int i, j, d1;
- char *p;
- /* Create format descriptor string for the printout.
- * Do this partly by hand, since sprintf() may be too
- * bug-ridden to accomplish this feat by itself.
- */
- p = form;
- *p++ = '%';
- d1 = d + 8;
- (void )sprintf( p, "%d ", d1 );
- p += 1;
- if( d1 >= 10 )
- p += 1;
- *p++ = '.';
- (void )sprintf( p, "%d ", d );
- p += 1;
- if( d >= 10 )
- p += 1;
- *p++ = 'e';
- *p++ = ' ';
- *p++ = '\0';
- /* Now do the printing.
- */
- d1 += 1;
- j = 0;
- for( i=0; i<=na; i++ )
- {
- /* Detect end of available line */
- j += d1;
- if( j >= 78 )
- {
- printf( "\n" );
- j = d1;
- }
- printf( form, a[i] );
- }
- printf( "\n" );
- #if !ANSIC
- return 0;
- #endif
- }
- /* Set a = 0.
- */
- #ifdef ANSIC
- void polclrf( register float *a, int n )
- #else
- int polclrf( a, n )
- register float *a;
- int n;
- #endif
- {
- int i;
- if( n > MAXPOLF )
- n = MAXPOLF;
- for( i=0; i<=n; i++ )
- *a++ = 0.0;
- #if !ANSIC
- return 0;
- #endif
- }
- /* Set b = a.
- */
- #ifdef ANSIC
- void polmovf( register float *a, int na, register float *b )
- #else
- int polmovf( a, na, b )
- register float *a, *b;
- int na;
- #endif
- {
- int i;
- if( na > MAXPOLF )
- na = MAXPOLF;
- for( i=0; i<= na; i++ )
- {
- *b++ = *a++;
- }
- #if !ANSIC
- return 0;
- #endif
- }
- /* c = b * a.
- */
- #ifdef ANSIC
- void polmulf( float a[], int na, float b[], int nb, float c[] )
- #else
- int polmulf( a, na, b, nb, c )
- float a[], b[], c[];
- int na, nb;
- #endif
- {
- int i, j, k, nc;
- float x;
- nc = na + nb;
- polclrf( pt3, MAXPOLF );
- for( i=0; i<=na; i++ )
- {
- x = a[i];
- for( j=0; j<=nb; j++ )
- {
- k = i + j;
- if( k > MAXPOLF )
- break;
- pt3[k] += x * b[j];
- }
- }
- if( nc > MAXPOLF )
- nc = MAXPOLF;
- for( i=0; i<=nc; i++ )
- c[i] = pt3[i];
- #if !ANSIC
- return 0;
- #endif
- }
-
- /* c = b + a.
- */
- #ifdef ANSIC
- void poladdf( float a[], int na, float b[], int nb, float c[] )
- #else
- int poladdf( a, na, b, nb, c )
- float a[], b[], c[];
- int na, nb;
- #endif
- {
- int i, n;
- if( na > nb )
- n = na;
- else
- n = nb;
- if( n > MAXPOLF )
- n = MAXPOLF;
- for( i=0; i<=n; i++ )
- {
- if( i > na )
- c[i] = b[i];
- else if( i > nb )
- c[i] = a[i];
- else
- c[i] = b[i] + a[i];
- }
- #if !ANSIC
- return 0;
- #endif
- }
- /* c = b - a.
- */
- #ifdef ANSIC
- void polsubf( float a[], int na, float b[], int nb, float c[] )
- #else
- int polsubf( a, na, b, nb, c )
- float a[], b[], c[];
- int na, nb;
- #endif
- {
- int i, n;
- if( na > nb )
- n = na;
- else
- n = nb;
- if( n > MAXPOLF )
- n = MAXPOLF;
- for( i=0; i<=n; i++ )
- {
- if( i > na )
- c[i] = b[i];
- else if( i > nb )
- c[i] = -a[i];
- else
- c[i] = b[i] - a[i];
- }
- #if !ANSIC
- return 0;
- #endif
- }
- /* c = b/a
- */
- #ifdef ANSIC
- int poldivf( float a[], int na, float b[], int nb, float c[] )
- #else
- int poldivf( a, na, b, nb, c )
- float a[], b[], c[];
- int na, nb;
- #endif
- {
- float quot;
- float *ta, *tb, *tq;
- int i, j, k, sing;
- sing = 0;
- /* Allocate temporary arrays. This would be quicker
- * if done automatically on the stack, but stack space
- * may be hard to obtain on a small computer.
- */
- ta = (float * )malloc( psize );
- polclrf( ta, MAXPOLF );
- polmovf( a, na, ta );
- tb = (float * )malloc( psize );
- polclrf( tb, MAXPOLF );
- polmovf( b, nb, tb );
- tq = (float * )malloc( psize );
- polclrf( tq, MAXPOLF );
- /* What to do if leading (constant) coefficient
- * of denominator is zero.
- */
- if( a[0] == 0.0 )
- {
- for( i=0; i<=na; i++ )
- {
- if( ta[i] != 0.0 )
- goto nzero;
- }
- mtherr( "poldivf", SING );
- goto done;
- nzero:
- /* Reduce the degree of the denominator. */
- for( i=0; i<na; i++ )
- ta[i] = ta[i+1];
- ta[na] = 0.0;
- if( b[0] != 0.0 )
- {
- /* Optional message:
- printf( "poldivf singularity, divide quotient by x\n" );
- */
- sing += 1;
- }
- else
- {
- /* Reduce degree of numerator. */
- for( i=0; i<nb; i++ )
- tb[i] = tb[i+1];
- tb[nb] = 0.0;
- }
- /* Call self, using reduced polynomials. */
- sing += poldivf( ta, na, tb, nb, c );
- goto done;
- }
- /* Long division algorithm. ta[0] is nonzero.
- */
- for( i=0; i<=MAXPOLF; i++ )
- {
- quot = tb[i]/ta[0];
- for( j=0; j<=MAXPOLF; j++ )
- {
- k = j + i;
- if( k > MAXPOLF )
- break;
- tb[k] -= quot * ta[j];
- }
- tq[i] = quot;
- }
- /* Send quotient to output array. */
- polmovf( tq, MAXPOLF, c );
- done:
- /* Restore allocated memory. */
- free(tq);
- free(tb);
- free(ta);
- return( sing );
- }
- /* Change of variables
- * Substitute a(y) for the variable x in b(x).
- * x = a(y)
- * c(x) = b(x) = b(a(y)).
- */
- #ifdef ANSIC
- void polsbtf( float a[], int na, float b[], int nb, float c[] )
- #else
- int polsbtf( a, na, b, nb, c )
- float a[], b[], c[];
- int na, nb;
- #endif
- {
- int i, j, k, n2;
- float x;
- /* 0th degree term:
- */
- polclrf( pt1, MAXPOLF );
- pt1[0] = b[0];
- polclrf( pt2, MAXPOLF );
- pt2[0] = 1.0;
- n2 = 0;
- for( i=1; i<=nb; i++ )
- {
- /* Form ith power of a. */
- polmulf( a, na, pt2, n2, pt2 );
- n2 += na;
- x = b[i];
- /* Add the ith coefficient of b times the ith power of a. */
- for( j=0; j<=n2; j++ )
- {
- if( j > MAXPOLF )
- break;
- pt1[j] += x * pt2[j];
- }
- }
- k = n2 + nb;
- if( k > MAXPOLF )
- k = MAXPOLF;
- for( i=0; i<=k; i++ )
- c[i] = pt1[i];
- #if !ANSIC
- return 0;
- #endif
- }
- /* Evaluate polynomial a(t) at t = x.
- */
- float polevaf( float *a, int na, float xx )
- {
- float x, s;
- int i;
- x = xx;
- s = a[na];
- for( i=na-1; i>=0; i-- )
- {
- s = s * x + a[i];
- }
- return(s);
- }
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