Esempio n. 1
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        // Loads definitions for variables
        private void LoadVariables(Scanner s)
        {
            variables = new Dictionary<string, Definition>();

            while (true)
            {
                Token t = s.peekToken();
                if (t.Type == TokenType.EOF)
                    break;

                if (t.Type == TokenType.Identifier && t.StringValue == "end")
                {
                    // end
                    s.nextToken();
                    break;
                }

                Definition def = ReadDefinition(s);
                if (def.set == null)
                    def.set = defaultSets[def.domain];

                variables.Add(def.name, def);
            }
        }
Esempio n. 2
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        // Reads one definition
        private Definition ReadDefinition(Scanner s)
        {
            // name
            Token t = s.nextToken();
            if (t.Type != TokenType.Identifier)
                throw new Exception("Identifier expected: " + t);

            string name = t.StringValue;

            // :
            t = s.nextToken();
            if (t.Type != TokenType.Colon)
                throw new Exception(": expected: " + t);

            // domain
            t = s.nextToken();
            if (t.Type != TokenType.Identifier)
                throw new Exception("Identifier expected: " + t);

            string domain = t.StringValue;
            string set = null;

            t = s.peekToken();
            if (t.Type == TokenType.Comma)
            {
                // ,
                t = s.nextToken();
                // set
                t = s.nextToken();
                if (t.Type != TokenType.Identifier)
                    throw new Exception("Identifier expected: " + t);

                set = t.StringValue;
            }

            return new Definition(name, domain, set);
        }
Esempio n. 3
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        /// <summary>
        /// Reads all hypermaps from a file
        /// </summary>
        public ListHypManager(TextReader tame_archive, TextReader definitions)
        {
            // Load all hypermaps
            data = new Dictionary<string, ListHyp>();

            while (tame_archive != null)
            {
                string str = tame_archive.ReadLine();
                if (str == null)
                    break;

                if (str.Length < 2)
                    continue;

                if (str[0] != '"')
                    continue;

                str = str.Substring(1, str.Length - 3);
                ListHyp hyp = new ListHyp(str, this);

                data.Add(hyp.Id, hyp);
            }

            // Load definitions
            Scanner s = new Scanner(definitions);
            Token t;

            // DefaultSets
            t = s.nextToken();
            if (t.StringValue != "DefaultSets")
                throw new Exception("DefaultSets expected: " + t);

            LoadDefaultSets(s);

            // Variable
            t = s.nextToken();
            if (t.StringValue != "Variables")
                throw new Exception("Variables expected: " + t);

            LoadVariables(s);

            // Constraints
            t = s.nextToken();
            if (t.StringValue != "Constraints")
                throw new Exception("Constraints expected: " + t);

            LoadConstraints(s);
            GenerateVariableInequalities();
        }
Esempio n. 4
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        // Loads default sets
        private void LoadDefaultSets(Scanner s)
        {
            defaultSets = new Dictionary<string, string>();

            while (true)
            {
                Token t = s.peekToken();
                if (t.Type == TokenType.EOF)
                    break;

                if (t.Type == TokenType.Identifier && t.StringValue == "end")
                {
                    // end
                    s.nextToken();
                    break;
                }

                Definition def = ReadDefinition(s);
                defaultSets.Add(def.name, def.domain);
            }
        }
Esempio n. 5
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        /// <summary>
        /// Creates files for a formal proof for a general linear program
        /// </summary>
        static bool processLPGeneral(string fname, int precision, LpNumber upperBound)
        {
            if (precision > 10)
                throw new Exception("Cannot solve the problem (precision > 10): " + fname);

            LP lp;
            LPSolution sol;

            // Load an LP
            FileStream fs = new FileStream(fname + ".lp", FileMode.Open);
            using (fs)
            {
                StreamReader r = new StreamReader(fs);
                Scanner scanner = new Scanner(r, fname + ".lp");

                lp = LP.ParseLP(scanner);
            }

            // Load solutions
            fs = new FileStream(fname + ".txt", FileMode.Open);
            using (fs)
            {
                sol = LPSolution.LoadSolution(new StreamReader(fs), precision, upperBound);
            }

            if (!lp.SetSolution(sol, precision))
                return false;

            // Create a test file containing all inequalities explicitly
            FileStream test = new FileStream(fname + "_test.hl", FileMode.Create);
            lp.ConvertToHOL(new StreamWriter(test), precision);
            test.Close();

            return true;
        }
Esempio n. 6
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        /// <summary>
        /// Creates files for producing a formal proof for the given linear program
        /// </summary>
        static bool ProcessLP(string fname, LpNumber upperBound, int precision, ListHyp hypermap)
        {
            if (precision > 5)
                throw new Exception("Cannot solve the problem: " + fname);

            LP lp;
            LPSolution sol;

            // Load an LP
            FileStream fs = new FileStream(fname + ".lp", FileMode.Open);
            using (fs)
            {
                StreamReader r = new StreamReader(fs);
                Scanner scanner = new Scanner(r, fname + ".lp");

                lp = LP.ParseLP(scanner);
            }

            // Load solutions
            fs = new FileStream(fname + ".txt", FileMode.Open);
            using (fs)
            {
                sol = LPSolution.LoadSolution(new StreamReader(fs), precision, upperBound);
            }

            if (sol.Optimal.value > upperBound.value)
                throw new Exception("Optimal value is greater than " + upperBound.value + ": " + fname);

            if (!lp.SetSolution(sol, precision))
                return false;

            // Create a test file containing all inequalities explicitly
            FileStream test = new FileStream(fname + "_test.hl", FileMode.Create);
            lp.ConvertToHOL(new StreamWriter(test), precision);
            test.Close();

            // Create a certificate file
            FileStream main = new FileStream(fname + "_out.hl", FileMode.Create);
            lp.PrintCertificate(new StreamWriter(main), precision, hypermap, log);
            main.Close();

            return true;
        }
Esempio n. 7
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        /// <summary>
        /// Parses an inequality
        /// </summary>
        /// <param name="scanner"></param>
        /// <returns></returns>
        public static Inequality ParseInequality(Scanner scanner)
        {
            Token t;
            // Identifier
            Label id = Label.ParseLabel(scanner);

            // :
            t = scanner.nextToken();
            if (t.Type != TokenType.Colon)
                throw new Exception(": expected: " + t);

            // lhs
            LinearFunction lhs = LinearFunction.ParseFunction(scanner);

            // type
            t = scanner.nextToken();
            IneqType type;

            switch (t.Type)
            {
                case TokenType.Le:
                    type = IneqType.Le;
                    break;

                case TokenType.Ge:
                    type = IneqType.Ge;
                    break;

                case TokenType.Eq:
                    type = IneqType.Eq;
                    break;

                default:
                    throw new Exception("<=, =>, or = expected: " + t);
            }

            // rhs
            t = scanner.nextToken();

            if (t.Type != TokenType.Integer && t.Type != TokenType.Double)
                throw new Exception("A number is expected: " + t);

            LpNumber rhs = new LpNumber(decimal.Parse(t.StringValue));

            return new Inequality(id, type, lhs, rhs, false);
        }
Esempio n. 8
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        /// <summary>
        /// Parses a LP
        /// </summary>
        /// <param name="scanner"></param>
        /// <returns></returns>
        public static LP ParseLP(Scanner scanner)
        {
            LP lp = new LP();

            // Maximize
            Token t = scanner.nextToken();
            if (t.Type != TokenType.Identifier && t.StringValue != "Maximize")
                throw new Exception("Maximize expected: " + t);

            // objective
            t = scanner.nextToken();
            if (t.Type != TokenType.Identifier)
                throw new Exception("Identifier expected: " + t);

            // :
            t = scanner.nextToken();
            if (t.Type != TokenType.Colon)
                throw new Exception(": expected: " + t);

            // objective function
            lp.objective = LinearFunction.ParseFunction(scanner);

            // Subject To
            t = scanner.nextToken();
            if (t.Type != TokenType.Identifier && t.StringValue != "Subject")
                throw new Exception("Subject To expected: " + t);

            t = scanner.nextToken();
            if (t.Type != TokenType.Identifier && t.StringValue != "To")
                throw new Exception("Subject To expected: " + t);

            // Constraints
            while (true)
            {
                t = scanner.peekToken();
                if (t.Type == TokenType.Identifier && t.StringValue == "Bounds")
                    break;

                if (t.Type == TokenType.EOF)
                    break;

                Inequality ineq = Inequality.ParseInequality(scanner);
                lp.originalIneqs.Add(ineq);
            }

            // Bounds
            t = scanner.nextToken();
            if (t.Type != TokenType.Identifier && t.StringValue != "Bounds")
                throw new Exception("Bounds expected: " + t);

            // Bounds
            while (true)
            {
                t = scanner.peekToken();
                if (t.Type == TokenType.Identifier && t.StringValue == "End")
                    break;

                if (t.Type == TokenType.EOF)
                    break;

                ParseBound(scanner, lp);
            }

            return lp;
        }
Esempio n. 9
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        /// <summary>
        /// Parses a bound of a variable
        /// </summary>
        /// <param name="scanner"></param>
        /// <param name="lp"></param>
        private static void ParseBound(Scanner scanner, LP lp)
        {
            Label varName;

            // TODO: wrong way of dealing with free variables
            // because the name of a variable could be more complicated
            // than just one identifier
            Token t = scanner.peekToken(1);
            if (t.Type == TokenType.Identifier && t.StringValue == "free")
            {
                // name
                varName = Label.ParseLabel(scanner);
                lp.vars.AddVariable(varName);

                // free
                t = scanner.nextToken();
                return;
            }

            // Lower bound
            t = scanner.nextToken();
            if (t.Type != TokenType.Integer && t.Type != TokenType.Double)
                throw new Exception("A number is expected: " + t);

            decimal low = decimal.Parse(t.StringValue);

            // <=
            t = scanner.nextToken();
            if (t.Type != TokenType.Le)
                throw new Exception("<= expected: " + t);

            // Variable
            varName = Label.ParseLabel(scanner);

            // <=
            t = scanner.nextToken();
            if (t.Type != TokenType.Le)
                throw new Exception("<= expected: " + t);

            // Upper bound
            t = scanner.nextToken();
            if (t.Type != TokenType.Integer && t.Type != TokenType.Double)
                throw new Exception("A number is expected: " + t);

            decimal high = decimal.Parse(t.StringValue);

            lp.vars.AddVariable(varName);
            lp.vars[varName].LBound = low;
            lp.vars[varName].UBound = high;
        }