isl_union_map_card: rename "dim" variable to "space"
[barvinok.git] / barvinok_enumerate_e.cc
blob31f9ae7701d007ba4d8cf59713d7c0ca66a5a382
1 #include <ctype.h>
2 #include <unistd.h>
3 #include <stdlib.h>
4 #include <assert.h>
5 #include <barvinok/polylib.h>
6 #include <barvinok/util.h>
7 #include <barvinok/barvinok.h>
8 #include "config.h"
9 #ifdef HAVE_OMEGA
10 #include "omega_interface/convert.h"
11 #include "omega_interface/count.h"
12 #endif
13 #include "skewed_genfun.h"
14 #include "verify.h"
15 #include "verif_ehrhart.h"
16 #include "verify_series.h"
17 #include "evalue_convert.h"
18 #include "barvinok_enumerate_e_options.h"
20 /* The input of this example program is a polytope in combined
21 * data and parameter space followed by two lines indicating
22 * the number of existential variables and parameters respectively.
23 * The first lines starts with "E ", followed by a number.
24 * The second lines starts with "P ", followed by a number.
25 * These two lines are (optionally) followed by the names of the parameters.
26 * The polytope is in PolyLib notation.
29 #ifdef HAVE_OMEGA
31 Polyhedron *Omega_simplify(Polyhedron *P,
32 unsigned exist, unsigned nparam, const char **parms,
33 unsigned MaxRays)
35 varvector varv;
36 varvector paramv;
37 Relation r = Polyhedron2relation(P, exist, nparam, parms);
38 Polyhedron_Free(P);
39 return relation2Domain(r, varv, paramv, MaxRays);
41 #else
42 Polyhedron *Omega_simplify(Polyhedron *P,
43 unsigned exist, unsigned nparam, const char **parms,
44 unsigned MaxRays)
46 return P;
49 evalue *barvinok_enumerate_parker(Polyhedron *P,
50 unsigned exist, unsigned nparam,
51 unsigned MaxRays)
53 assert(0);
54 return NULL;
56 #endif
58 static void verify_results(Polyhedron *P, evalue *EP, gen_fun *gf,
59 int exist, int nparam,
60 enumerate_e_options *options);
62 static char *next_line(FILE *input, char *line, unsigned len)
64 char *p;
66 do {
67 if (!(p = fgets(line, len, input)))
68 return NULL;
69 while (isspace(*p) && *p != '\n')
70 ++p;
71 } while (*p == '#' || *p == '\n');
73 return p;
76 int main(int argc, char **argv)
78 Polyhedron *A;
79 Matrix *MA;
80 const char **param_name;
81 int exist, nparam, nvar;
82 char s[128];
83 evalue *EP = NULL;
84 gen_fun *gf = NULL;
85 int print_solution = 1;
86 struct enumerate_e_options *options = enumerate_e_options_new_with_defaults();
88 argc = enumerate_e_options_parse(options, argc, argv, ISL_ARG_ALL);
90 MA = Matrix_Read();
91 A = Constraints2Polyhedron(MA, options->verify->barvinok->MaxRays);
92 Matrix_Free(MA);
94 exist = -1;
95 while (next_line(stdin, s, sizeof(s)))
96 if (sscanf(s, "E %d", &exist) == 1)
97 break;
98 assert(exist >= 0);
100 nparam = -1;
101 while (next_line(stdin, s, sizeof(s)))
102 if (sscanf(s, "P %d", &nparam) == 1)
103 break;
104 assert(nparam >= 0);
106 if (options->verify->verify) {
107 verify_options_set_range(options->verify, A->Dimension);
108 if (!options->verify->barvinok->verbose)
109 print_solution = 0;
112 if (print_solution && options->verify->barvinok->verbose) {
113 Polyhedron_Print(stdout, P_VALUE_FMT, A);
114 printf("exist: %d, nparam: %d\n", exist, nparam);
116 param_name = Read_ParamNames(stdin, nparam);
117 nvar = A->Dimension - exist - nparam;
118 if (options->omega) {
119 A = Omega_simplify(A, exist, nparam, param_name,
120 options->verify->barvinok->MaxRays);
121 assert(!A->next);
122 exist = A->Dimension - nvar - nparam;
124 if (options->series) {
125 if (exist == 2 && options->scarf)
126 gf = barvinok_enumerate_scarf_series(A, exist, nparam,
127 options->verify->barvinok);
128 else
129 gf = barvinok_enumerate_e_series(A, exist, nparam,
130 options->verify->barvinok);
131 if (print_solution) {
132 gf->print(std::cout, nparam, param_name);
133 puts("");
135 if (options->function) {
136 EP = *gf;
137 if (print_solution)
138 print_evalue(stdout, EP, param_name);
140 } else {
141 if (options->parker)
142 EP = barvinok_enumerate_parker(A, A->Dimension-nparam-exist, nparam,
143 options->verify->barvinok->MaxRays);
144 else if (exist == 2 && options->scarf)
145 EP = barvinok_enumerate_scarf(A, exist, nparam,
146 options->verify->barvinok);
147 else if (options->isl && exist > 0)
148 EP = barvinok_enumerate_isl(A, exist, nparam,
149 options->verify->barvinok);
150 else
151 EP = barvinok_enumerate_e_with_options(A, exist, nparam,
152 options->verify->barvinok);
153 reduce_evalue(EP);
154 if (evalue_convert(EP, options->convert,
155 options->verify->barvinok->verbose, nparam, param_name))
156 print_solution = 0;
157 if (print_solution)
158 print_evalue(stdout, EP, param_name);
160 if (options->verify->verify) {
161 options->verify->params = param_name;
162 verify_results(A, EP, gf, exist, nparam, options);
164 if (gf)
165 delete gf;
166 if (EP)
167 evalue_free(EP);
169 if (options->verify->barvinok->print_stats)
170 barvinok_stats_print(options->verify->barvinok->stats, stdout);
172 Free_ParamNames(param_name, nparam);
173 Polyhedron_Free(A);
174 enumerate_e_options_free(options);
175 return 0;
178 void verify_results(Polyhedron *P, evalue *EP, gen_fun *gf,
179 int exist, int nparam,
180 enumerate_e_options *options)
182 int res = 0;
183 Vector *p;
184 Value tmp;
185 Polyhedron *S, *CS;
186 unsigned MaxRays = options->verify->barvinok->MaxRays;
187 Polyhedron *C = NULL;
188 value_init(tmp);
190 p = Vector_Alloc(P->Dimension+2);
191 value_set_si(p->p[P->Dimension+1], 1);
193 CS = check_poly_context_scan(P, &C, nparam, options->verify);
194 if (!C)
195 C = Universe_Polyhedron(nparam);
197 /* S = scanning list of polyhedra */
198 S = Polyhedron_Scan(P, C, MaxRays & POL_NO_DUAL ? 0 : MaxRays);
200 check_poly_init(C, options->verify);
202 /******* CHECK NOW *********/
203 if (S) {
204 if (!options->series || options->function) {
205 if (!check_poly_EP(S, CS, EP, exist, nparam, 0, p->p,
206 options->verify))
207 res = -1;
208 } else {
209 skewed_gen_fun *sgf = new skewed_gen_fun(new gen_fun(gf));
210 if (!check_poly_gf(S, CS, sgf, exist, nparam, 0, p->p,
211 options->verify))
212 res = -1;
213 delete sgf;
217 if (!options->verify->print_all)
218 printf( "\n" );
220 Vector_Free(p);
221 value_clear(tmp);
222 Domain_Free(S);
223 Polyhedron_Free(C);
224 if (CS)
225 Domain_Free(CS);