/* lrsgmp.h (lrs long integer arithmetic library based on gmp */
/* Copyright: David Avis 2000, avis@cs.mcgill.ca */
/* Version 4.0, April 13, 2000 */
/* This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/******************************************************************************/
/* See http://cgm.cs.mcgill.ca/~avis/C/lrs.html for lrs usage instructions */
/******************************************************************************/
/* This package contains the extended precision routines used by lrs
and some other miscellaneous routines. It is based on gmp
and this file is derived from lrsmp.h and lrslong.h
*/
#include "gmp.h"
/***********/
/* defines */
/***********/
/*
this is number of longwords. Increasing this won't cost you that much
since only variables other than the A matrix are allocated this size.
Changing affects running time in small but not very predictable ways.
*/
#define MAX_DIGITS 255L
/*
this is in decimal digits, you pay in memory if you increase this,
unless you override by a line with
digits n
before the begin line of your file.
*/
#define DEFAULT_DIGITS 100L
#ifndef B64
/*32 bit machines */
#define FORMAT "%4.4u"
#define MAXD 2147483647L
#define BASE 10000L
#define BASE_DIG 4
#define INTSIZE 8L
#define BIT "32bit"
#else
/* 64 bit machines */
#define MAXD 9223372036854775807L
#define BASE 1000000000L
#define FORMAT "%9.9u"
#define BASE_DIG 9
#define INTSIZE 16L
#define BIT "64bit"
#endif
#define MAXINPUT 1000 /*max length of any input rational */
#define POS 1L
#define NEG -1L
#ifndef TRUE
#define TRUE 1L
#endif
#ifndef FALSE
#define FALSE 0L
#endif
#define ONE 1L
#define TWO 2L
#define ZERO 0L
/**********************************/
/* MACROS */
/* dependent on mp implementation */
/**********************************/
#define addint(a, b, c) mpz_add((c),(a),(b))
#define changesign(a) mpz_neg((a),(a))
#define copy(a, b) mpz_set(a,b)
#define decint(a, b) mpz_sub((a),(a),(b))
#define divint(a, b, c) mpz_tdiv_qr((c),(a),(a),(b))
#define exactdivint(a, b, c) mpz_divexact((c),(a),(b)) /*known there is no remainder */
#define getfactorial(a, b) mpz_fac_ui( (a), (b))
#define greater(a, b) (mpz_cmp((a),(b))>0 ? ONE : ZERO)
#define gcd(a,b) mpz_gcd((a),(a),(b))
#define itomp(in, a) mpz_set_si( (a) , (in) )
#define mptoi(a) mpz_get_si( (a) )
#define mptodouble(a) mpz_get_d ( (a) )
#define mulint(a, b, c) mpz_mul((c),(a),(b))
#define one(a) (mpz_cmp_si((a),ONE) == 0 ? ONE : ZERO)
#define negative(a) (mpz_sgn(a) < 0 ? ONE : ZERO)
#define normalize(a) (void) 0
#define positive(a) (mpz_sgn(a) > 0 ? ONE : ZERO)
#define sign(a) (mpz_sgn(a) < 0 ? NEG : POS)
#define subint(a, b, c) mpz_sub((c),(a),(b))
#define zero(a) (mpz_sgn(a) == 0 ? ONE : ZERO)
/*
* convert between decimal and machine (longword digits). Notice lovely
* implementation of ceiling function :-)
*/
#define DEC2DIG(d) ( (d) % BASE_DIG ? (d)/BASE_DIG+1 : (d)/BASE_DIG)
#define DIG2DEC(d) ((d)*BASE_DIG)
#ifndef OMIT_SIGNALS
#include <signal.h>
#include <stdlib.h> /* labs */
#include <unistd.h>
#define errcheck(s,e) if ((long)(e)==-1L){ perror(s);exit(1);}
#endif
#ifndef OMIT_TIMES
void ptimes ();
#endif
#define CALLOC(n,s) xcalloc(n,s,__LINE__,__FILE__)
/*************/
/* typedefs */
/*************/
typedef mpz_t lrs_mp; /* type lrs_mp holds one long integer */
typedef mpz_t lrs_mp_t; /* for GMP same as lrs_mp for MP *lrs_mp */
typedef mpz_t *lrs_mp_vector;
typedef mpz_t **lrs_mp_matrix;
/*********************/
/*global variables */
/*********************/
extern long lrs_digits; /* max permitted no. of digits */
extern long lrs_record_digits; /* this is the biggest acheived so far. */
#include <stdio.h>
extern FILE *lrs_ifp; /* input file pointer */
extern FILE *lrs_ofp; /* output file pointer */
/*********************************************************/
/* Initialization and allocation procedures - must use! */
/******************************************************* */
long lrs_mp_init (long dec_digits, FILE * lrs_ifp, FILE * lrs_ofp); /* max number of decimal digits, fps */
void lrs_mp_close ();
#define lrs_alloc_mp(a) (mpz_init (a) )
#define lrs_clear_mp(a) (mpz_clear (a) )
lrs_mp_vector lrs_alloc_mp_vector (long n); /* allocate lrs_mp_vector for n+1 lrs_mp numbers */
lrs_mp_matrix lrs_alloc_mp_matrix (long m, long n); /* allocate lrs_mp_matrix for m+1 x n+1 lrs_mp */
void lrs_clear_mp_vector (lrs_mp_vector p, long n); /* clear lrs_mp_vector for n+1 lrs_mp numbers */
void lrs_clear_mp_matrix (lrs_mp_matrix p, long m, long n); /* clear m by n lrs_mp_matrix */
/*********************************************************/
/* Core library functions - depend on mp implementation */
/******************************************************* */
void atomp (const char s[], lrs_mp a); /* convert string to lrs_mp integer */
long compare (lrs_mp a, lrs_mp b); /* a ? b and returns -1,0,1 for <,=,> */
void linint (lrs_mp a, long ka, lrs_mp b, long kb); /* compute a*ka+b*kb --> a */
void pmp (char name[], lrs_mp a); /* print the long precision integer a */
void prat (char name[], lrs_mp Nt, lrs_mp Dt); /* reduce and print Nt/Dt */
void readmp (lrs_mp a); /* read an integer and convert to lrs_mp */
long readrat (lrs_mp Na, lrs_mp Da); /* read a rational or int and convert to lrs_mp */
void reduce (lrs_mp Na, lrs_mp Da); /* reduces Na Da by gcd(Na,Da) */
void storesign(lrs_mp Na, long sa); /* change sign of Na to sa=POS/NEG */
/*********************************************************/
/* Standard arithmetic & misc. functions */
/* should be independent of mp implementation */
/******************************************************* */
void atoaa (const char in[], char num[], char den[]); /* convert rational string in to num/den strings */
long atos (char s[]); /* convert s to integer */
long comprod (lrs_mp Na, lrs_mp Nb, lrs_mp Nc, lrs_mp Nd); /* +1 if Na*Nb > Nc*Nd,-1 if Na*Nb > Nc*Nd else 0 */
void divrat (lrs_mp Na, lrs_mp Da, lrs_mp Nb, lrs_mp Db, lrs_mp Nc, lrs_mp Dc);
/* computes Nc/Dc = (Na/Da) /( Nb/Db ) and reduce */
void linrat (lrs_mp Na, lrs_mp Da, long ka, lrs_mp Nb, lrs_mp Db, long kb, lrs_mp Nc, lrs_mp Dc);
void lcm (lrs_mp a, lrs_mp b); /* a = least common multiple of a, b; b is saved */
void mulrat (lrs_mp Na, lrs_mp Da, lrs_mp Nb, lrs_mp Db, lrs_mp Nc, lrs_mp Dc);
/* computes Nc/Dc=(Na/Da)*(Nb/Db) and reduce */
long myrandom (long num, long nrange); /* return a random number in range 0..nrange-1 */
void notimpl (char s[]); /* bail out - help! */
void rattodouble (lrs_mp a, lrs_mp b, double *x); /* convert lrs_mp rational to double */
void reduceint (lrs_mp Na, lrs_mp Da); /* divide Na by Da and return it */
void reducearray (lrs_mp_vector p, long n); /* find gcd of p[0]..p[n-1] and divide through by */
void scalerat (lrs_mp Na, lrs_mp Da, long ka); /* scales rational by ka */
/**********************************/
/* Miscellaneous functions */
/******************************** */
void lrs_getdigits (long *a, long *b); /* send digit information to user */
void stringcpy (char *s, char *t); /* copy t to s pointer version */
#ifndef __STDC__
void *calloc ();
void *malloc ();
#endif
void *xcalloc (long n, long s, long l, char *f);
void lrs_default_digits_overflow ();
/* end of lrs_mp.h (vertex enumeration using lexicographic reverse search) */
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