/* * Revision Control Information * * $Source$ * $Author$ * $Revision$ * $Date$ * */ #include "espresso.h" ABC_NAMESPACE_IMPL_START void find_equiv_outputs(PLA) pPLA PLA; { int i, j, ipart, jpart, some_equiv; pcover *R, *F; some_equiv = FALSE; makeup_labels(PLA); F = ALLOC(pcover, cube.part_size[cube.output]); R = ALLOC(pcover, cube.part_size[cube.output]); for(i = 0; i < cube.part_size[cube.output]; i++) { ipart = cube.first_part[cube.output] + i; R[i] = cof_output(PLA->R, ipart); F[i] = complement(cube1list(R[i])); } for(i = 0; i < cube.part_size[cube.output]-1; i++) { for(j = i+1; j < cube.part_size[cube.output]; j++) { ipart = cube.first_part[cube.output] + i; jpart = cube.first_part[cube.output] + j; if (check_equiv(F[i], F[j])) { (void) printf("# Outputs %d and %d (%s and %s) are equivalent\n", i, j, PLA->label[ipart], PLA->label[jpart]); some_equiv = TRUE; } else if (check_equiv(F[i], R[j])) { (void) printf("# Outputs %d and NOT %d (%s and %s) are equivalent\n", i, j, PLA->label[ipart], PLA->label[jpart]); some_equiv = TRUE; } else if (check_equiv(R[i], F[j])) { (void) printf("# Outputs NOT %d and %d (%s and %s) are equivalent\n", i, j, PLA->label[ipart], PLA->label[jpart]); some_equiv = TRUE; } else if (check_equiv(R[i], R[j])) { (void) printf("# Outputs NOT %d and NOT %d (%s and %s) are equivalent\n", i, j, PLA->label[ipart], PLA->label[jpart]); some_equiv = TRUE; } } } if (! some_equiv) { (void) printf("# No outputs are equivalent\n"); } for(i = 0; i < cube.part_size[cube.output]; i++) { free_cover(F[i]); free_cover(R[i]); } FREE(F); FREE(R); } int check_equiv(f1, f2) pcover f1, f2; { register pcube *f1list, *f2list; register pcube p, last; f1list = cube1list(f1); foreach_set(f2, last, p) { if (! cube_is_covered(f1list, p)) { return FALSE; } } free_cubelist(f1list); f2list = cube1list(f2); foreach_set(f1, last, p) { if (! cube_is_covered(f2list, p)) { return FALSE; } } free_cubelist(f2list); return TRUE; } ABC_NAMESPACE_IMPL_END