barvinok_count: use argp parser
[barvinok.git] / verif_ehrhart.c
blob2374ed04bc18c1f67221f60a452a8cb72e344e7b
1 /*************************************************/
2 /* verif_ehrhart.c */
3 /* program to compare effective number of points */
4 /* in a polytope with the corresponding */
5 /* evaluation of the Ehrhart polynomial. */
6 /* Parameters vary in range -RANGE to RANGE */
7 /* (define below) by default. */
8 /* Can be overridden by specifying */
9 /* -r<RANGE>, or -m<min> and -M<max> */
10 /* */
11 /* written by Vincent Loechner (c) 2000. */
12 /* loechner@icps.u-strasbg.fr */
13 /*************************************************/
15 #include <stdio.h>
16 #include <string.h>
17 #include <stdlib.h>
19 #include <barvinok/evalue.h>
20 #include <barvinok/barvinok.h>
21 #include "verif_ehrhart.h"
23 #include "config.h"
24 #ifndef HAVE_COUNT_POINTS4
25 #define count_points(a,b,c,d) { \
26 int cc = count_points(a,b,c); \
27 value_set_si(*d,cc); \
29 #endif
31 char **params;
33 int st;
35 /****************************************************/
36 /* function check_poly : */
37 /* scans the parameter space from Min to Max (all */
38 /* directions). Computes the number of points in */
39 /* the polytope using both methods, and compare them*/
40 /* returns 1 on success */
41 /****************************************************/
43 int check_poly(Polyhedron *S,Polyhedron *CS,Enumeration *en,
44 int nparam, int pos, Value *z, int print_all)
46 int k;
47 Value c,tmp,*ctmp;
48 Value LB, UB;
50 value_init(c); value_init(tmp);
51 value_init(LB);
52 value_init(UB);
54 if(pos == nparam) {
56 /* Computes the ehrhart polynomial */
57 value_assign(c,*(ctmp=compute_poly(en,&z[S->Dimension-nparam+1])));
58 value_clear(*ctmp);
59 free(ctmp);
60 /* if c=0 we may be out of context. */
61 /* scanning is useless in this case*/
63 if (print_all) {
64 printf("EP( ");
65 value_print(stdout,VALUE_FMT,z[S->Dimension-nparam+1]);
66 for(k=S->Dimension-nparam+2;k<=S->Dimension;++k) {
67 printf(", ");
68 value_print(stdout,VALUE_FMT,z[k]);
70 printf(" ) = ");
71 value_print(stdout,VALUE_FMT,c);
72 printf(" ");
75 /* Manually count the number of points */
76 count_points(1,S,z,&tmp);
77 if (print_all) {
78 printf(", count = ");
79 value_print(stdout, P_VALUE_FMT, tmp);
80 printf(". ");
83 if(value_ne(tmp,c)) {
84 printf("\n");
85 fflush(stdout);
86 fprintf(stderr,"Error !\n");
87 fprintf(stderr,"EP( ");
88 value_print(stderr,VALUE_FMT,z[S->Dimension-nparam+1]);
89 for(k=S->Dimension-nparam+2;k<=S->Dimension;++k) {
90 fprintf(stderr,", ");
91 value_print(stderr,VALUE_FMT,z[k]);
93 fprintf(stderr," ) should be ");
94 value_print(stderr,VALUE_FMT,tmp);
95 fprintf(stderr,", while EP eval gives ");
96 value_print(stderr,VALUE_FMT,c);
97 fprintf(stderr,".\n");
99 Enumeration *ee;
100 Enumeration_Print(stderr, en, params);
101 ee = en;
102 while (ee) {
103 if (in_domain(ee->ValidityDomain,&z[S->Dimension-nparam+1])) {
104 Print_Domain(stderr, ee->ValidityDomain, params);
105 print_evalue(stderr, &ee->EP, params);
107 ee = ee->next;
110 #ifndef DONT_BREAK_ON_ERROR
111 value_clear(c); value_clear(tmp);
112 value_clear(LB);
113 value_clear(UB);
114 return(0);
115 #endif
116 } else if (print_all)
117 printf("OK.\n");
119 else {
120 int ok =
121 !(lower_upper_bounds(1+pos, CS, &z[S->Dimension-nparam], &LB, &UB));
122 assert(ok);
123 for(value_assign(tmp,LB); value_le(tmp,UB); value_increment(tmp,tmp)) {
125 if (!print_all) {
126 k = VALUE_TO_INT(tmp);
127 if(!pos && !(k%st)) {
128 printf("o");
129 fflush(stdout);
133 value_assign(z[pos+S->Dimension-nparam+1],tmp);
134 if (!check_poly(S, CS->next, en, nparam, pos+1, z, print_all)) {
135 value_clear(c); value_clear(tmp);
136 value_clear(LB);
137 value_clear(UB);
138 return(0);
141 value_set_si(z[pos+S->Dimension-nparam+1],0);
143 value_clear(c); value_clear(tmp);
144 value_clear(LB);
145 value_clear(UB);
146 return(1);
147 } /* check_poly */