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/*
* Reads a polyhedron file on stdin with rationals and outputs an equivalent
* system with integer coefficents.
*
* David Bremner. bremner@unb.ca
*
*/
#include <stdlib.h>
#include <stdio.h>
#include "process_args.h"
#include "ine_io.h"
#ifndef LRSMP
#error This file only compiles with LRSMP
#endif
#include "lrsmp.h"
#include "rat2int.h"
static int m,n,type;
#define MP_DIGITS 1000L
static void lcm3(lrs_mp a,lrs_mp b,lrs_mp c);
static void mul_row(lrs_mp *N, lrs_mp *D, lrs_mp l, int offset);
static void div_row(lrs_mp *N, lrs_mp *D, lrs_mp g, int offset);
int
main(int argc, char **argv)
{
int i,j;
lrs_mp l,g,scratch;
char *type;
lrs_mp *D, *N;
char *ok[]={ "integer", "rational"};
process_args(argc,argv,DOCSTRING);
lrs_mp_init (MP_DIGITS,stdin,stdout);
scan_for_begin(&m,&n,&type);
check_type(type, ok , 2);
printf("%d %d integer\n",m,n);
D=calloc(n,sizeof(lrs_mp));
N=calloc(n,sizeof(lrs_mp));
for (i=0;i<m;i++) {
for (j=0; j<n; j++){
readrat(N[j],D[j]);
}
lcm3(D[0],D[1],l);
for(j=2;j<n;j++){
lcm3(l,D[j],l);
}
mul_row(N,D,l,0);
/* reinitialize gcd */
copy(g,N[0]);
copy(scratch,N[1]);
gcd(g,scratch);
for (j=2; j<n ; j++){
copy(scratch,N[j]);
gcd(g,scratch);
}
if (negative(g))
storesign(g,POS);
div_row(N,D,g,0);
for (j=0; j< n; j++){
pmp("",N[j]);
}
fputs("\n",stdout);
}
printf("end\n");
}
/* c<- lcm(a,b) */
static void lcm3(lrs_mp a,lrs_mp b,lrs_mp c)
{
lrs_mp gc,ab,scratch;
copy(gc,a);
copy(scratch,b);
gcd(gc,scratch);
mulint(a,b,ab);
divint(ab,gc,c);
}
static void
mul_row(lrs_mp *N, lrs_mp *D, lrs_mp l, int offset)
{
lrs_mp factor,scratch;
int j;
for (j=offset;j<n; j++) {
/*
* Now multiply each numerator n_i by lcm/d_i.
* Implicitly, each denominator is now lcm
*/
copy(scratch,l);
divint(scratch,D[j],factor);
mulint(N[j],factor,N[j]);
}
}
static void
div_row(lrs_mp *N, lrs_mp *D, lrs_mp g, int offset)
{
lrs_mp scratch;
int j;
for (j=0;j<n; j++)
{
copy(scratch,N[j]);
divint(scratch,g,N[j]);
}
}
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