func main() { glob.Init() if *glob.Ver { fmt.Println(`Bule CNF Grounder: Tag 0.97 Pseudo Booleans Copyright (C) Data61 and Valentin Mayer-Eichberger License GPLv2+: GNU GPL version 2 or later <http://gnu.org/licenses/gpl.html> There is NO WARRANTY, to the extent permitted by law.`) return } if len(flag.Args()) >= 2 { fmt.Println("Command line flags not recognized", flag.Args()) return } if len(flag.Args()) == 1 { *glob.Filename_flag = flag.Args()[0] } if *glob.Debug_filename != "" { var err error glob.Debug_file, err = os.Create(*glob.Debug_filename) if err != nil { panic(err) } defer glob.Debug_file.Close() } glob.D("Running Debug Mode...") problem := parser.New(*glob.Filename_flag) if *glob.Pbo_flag { problem.PrintPBO() return } if *glob.Gringo_flag { problem.PrintGringo() return } if *glob.Gurobi_flag { problem.PrintGurobi() return } pbs := problem.Pbs[1:] // opt is just a pointer to first in pbs. opt := problem.Opt primaryVars := make(map[string]bool, 0) for i, _ := range pbs { for _, x := range pbs[i].Entries { primaryVars[x.Literal.A.Id()] = true } } var clauses sat.ClauseSet // Categorize Version 1 (deprecated) switch *glob.Cat_flag { case 1: { for _, pb := range pbs { pb.Print10() pb.CategorizeTranslate1() clauses.AddClauseSet(pb.Clauses) } } case 2: { constraints.CategorizeTranslate2(pbs) for _, pb := range pbs { clauses.AddClauseSet(pb.Clauses) } } default: panic("Category not implemented") } if *glob.Dimacs_flag { clauses.PrintDebug() } if *glob.Solve_flag { g := sat.IdGenerator(clauses.Size()*7 + 1) g.PrimaryVars = primaryVars opt.NormalizePositiveCoefficients() opt.Offset = opt.K glob.A(opt.Positive(), "opt only has positive coefficients") g.Solve(clauses, opt, *glob.Opt_bound_flag, -opt.Offset) //fmt.Println() } }
func main() { glob.Init() input, err2 := os.Open(*glob.Filename_flag) defer input.Close() if err2 != nil { panic("Could not read file") return } scanner := bufio.NewScanner(input) buf := make([]byte, 0, 64*1024) scanner.Buffer(buf, 1024*1024) state := 0 // 0: read size, 1: read graph 1, 2: read graph 2 vars := 0 orig_vars := 0 size := 0 i := 0 var entries []entry for scanner.Scan() { l := strings.Trim(scanner.Text(), " ") if l == "" || strings.HasPrefix(l, "%") || strings.HasPrefix(l, "*") { continue } elements := strings.Fields(l) var b error switch state { case 0: // deprecated: for parsing the "header" of pb files, now parser is flexible { vars, b = strconv.Atoi(elements[0]) if b != nil { panic("bad conversion of numbers") } orig_vars = vars size, b = strconv.Atoi(elements[1]) if b != nil { panic("bad conversion of numbers") } entries = make([]entry, size) state = 1 } case 1: { entries[i].id1, b = strconv.Atoi(elements[0]) if b != nil { panic("bad conversion of numbers") } entries[i].id2, b = strconv.Atoi(elements[1]) if b != nil { panic("bad conversion of numbers") } var f float64 f, b = strconv.ParseFloat(elements[2], 64) if b != nil { panic("bad conversion of numbers") } entries[i].c = int64(f) if entries[i].id1 != entries[i].id2 { vars++ entries[i].and = vars } i++ } } } var clauses sat.ClauseSet var opt constraints.Threshold opt.Typ = constraints.OPT lits := make([]sat.Literal, vars+1) primaryVars := make(map[string]bool, 0) for i := 0; i <= vars; i++ { primaryVars[sat.NewAtomP1(sat.Pred("x"), i).Id()] = true } for i, _ := range lits { lits[i] = sat.Literal{true, sat.NewAtomP1(sat.Pred("x"), i)} } for _, e := range entries { if e.id1 == e.id2 { opt.Entries = append(opt.Entries, constraints.Entry{lits[e.id1], int64(e.c)}) } else { clauses.AddClause(sat.Neg(lits[e.id1]), sat.Neg(lits[e.id2]), lits[e.and]) clauses.AddClause(lits[e.id1], sat.Neg(lits[e.and])) clauses.AddClause(lits[e.id2], sat.Neg(lits[e.and])) opt.Entries = append(opt.Entries, constraints.Entry{lits[e.and], int64(e.c)}) } } if *glob.Gringo_flag { for i := 0; i <= orig_vars; i++ { fmt.Println("{x(", i, ")}.") } for _, e := range entries { if e.id1 != e.id2 { fmt.Println(lits[e.and].ToTxt(), ":-", lits[e.id1].ToTxt(), ",", lits[e.id2].ToTxt(), ".") } } opt.PrintGringo() return } g := sat.IdGenerator(clauses.Size()*7 + 1) g.PrimaryVars = primaryVars opt.NormalizePositiveCoefficients() opt.Offset = opt.K // opt.PrintGringo() // clauses.PrintDebug() glob.D("offset", opt.Offset) glob.A(opt.Positive(), "opt only has positive coefficients") g.Solve(clauses, &opt, *glob.Opt_bound_flag, -opt.Offset) }