public override Formula Negate()
 {
     CompoundFormula cfNegate = new ParametrizedFormula(this);
     foreach (Formula fOperand in Operands)
         cfNegate.AddOperand(fOperand.Negate());
     return cfNegate;
 }
        public override Formula Negate()
        {
            CompoundFormula cfNegate = new ParametrizedFormula(this);

            foreach (Formula fOperand in Operands)
            {
                cfNegate.AddOperand(fOperand.Negate());
            }
            return(cfNegate);
        }
        public override Formula PartiallyGround(Dictionary <string, Constant> dBindings)
        {
            ParametrizedFormula cfGrounded = new ParametrizedFormula(this);

            foreach (Formula fSub in Operands)
            {
                Formula fGrounded = fSub.PartiallyGround(dBindings);
                cfGrounded.AddOperand(fGrounded);
            }
            return(cfGrounded);
        }
        public override Formula Simplify()
        {
            if (Simplified)
            {
                return(this);
            }
            ParametrizedFormula pf = new ParametrizedFormula(this);

            foreach (Formula f in Operands)
            {
                pf.AddOperand(f.Simplify());
            }
            return(pf);
        }
        private Formula ReadGroundedFormula(CompoundExpression exp, Domain d)
        {
            bool bPredicate = true;

            if (IsUniversalQuantifier(exp))
            {
                CompoundExpression          eParameter           = (CompoundExpression)exp.SubExpressions[0];
                CompoundExpression          eBody                = (CompoundExpression)exp.SubExpressions[1];
                string                      sParameter           = eParameter.Type;
                string                      sType                = eParameter.SubExpressions[1].ToString();
                Dictionary <string, string> dParameterNameToType = new Dictionary <string, string>();
                dParameterNameToType[sParameter] = sType;
                ParametrizedFormula cfQuantified = new ParametrizedFormula(exp.Type);
                cfQuantified.Parameters[sParameter] = sType;
                Formula fBody = ReadFormula(eBody, dParameterNameToType, true, d);
                cfQuantified.AddOperand(fBody);
                return(cfQuantified);
            }
            foreach (Expression eSub in exp.SubExpressions)
            {
                if (eSub is CompoundExpression)
                {
                    bPredicate = false;
                    break;
                }
            }
            if (bPredicate)
            {
                return(new PredicateFormula(ReadGroundedPredicate(exp, d)));
            }
            else
            {
                CompoundFormula cf          = new CompoundFormula(exp.Type);
                int             iExpression = 0;
                for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression++)
                {
                    Formula f = ReadGroundedFormula((CompoundExpression)exp.SubExpressions[iExpression], d);
                    cf.AddOperand(f);
                }
                if (cf.Operator == "not" && cf.Operands[0] is PredicateFormula)
                {
                    return(new PredicateFormula(((PredicateFormula)cf.Operands[0]).Predicate.Negate()));
                }
                return(cf);
            }
        }
        private Formula ReadFormula(CompoundExpression exp, Dictionary <string, string> dParameterNameToType, bool bParamterized, Domain d)
        {
            bool bPredicate = true;

            //Console.WriteLine(exp);
            if (d != null && d.IsFunctionExpression(exp.Type))
            {
                Predicate p = ReadFunctionExpression(exp, dParameterNameToType, d);
                return(new PredicateFormula(p));
            }
            else if (IsUniversalQuantifier(exp))
            {
                CompoundExpression eParameter = (CompoundExpression)exp.SubExpressions[0];
                CompoundExpression eBody      = (CompoundExpression)exp.SubExpressions[1];
                string             sParameter = eParameter.Type;
                string             sType      = eParameter.SubExpressions[1].ToString();
                dParameterNameToType[sParameter] = sType;
                ParametrizedFormula cfQuantified = new ParametrizedFormula(exp.Type);
                cfQuantified.Parameters[sParameter] = sType;
                Formula fBody = ReadFormula(eBody, dParameterNameToType, true, d);
                cfQuantified.AddOperand(fBody);
                return(cfQuantified);
            }
            else if (exp.Type == "probabilistic")
            {
                ProbabilisticFormula pf = new ProbabilisticFormula();
                int iExpression         = 0;
                for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression += 2)
                {
                    //if (exp.SubExpressions[iExpression] is StringExpression)
                    //    throw new InvalidDataException();
                    string sProb = exp.SubExpressions[iExpression].ToString();
                    double dProb = 0.0;
                    if (sProb.Contains("/"))
                    {
                        string[] a = sProb.Split('/');
                        dProb = double.Parse(a[0]) / double.Parse(a[1]);
                    }
                    else
                    {
                        dProb = double.Parse(sProb);
                    }
                    Formula f = ReadFormula((CompoundExpression)exp.SubExpressions[iExpression + 1], dParameterNameToType, bParamterized, d);
                    pf.AddOption(f, dProb);
                }
                return(pf);
            }
            else
            {
                foreach (Expression eSub in exp.SubExpressions)
                {
                    if (eSub is CompoundExpression)
                    {
                        bPredicate = false;
                        break;
                    }
                }
                if (bPredicate)
                {
                    return(ReadPredicate(exp, dParameterNameToType, bParamterized, d));
                }
                else
                {
                    CompoundFormula cf          = new CompoundFormula(exp.Type);
                    int             iExpression = 0;
                    for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression++)
                    {
                        if (exp.SubExpressions[iExpression] is StringExpression)
                        {
                            throw new InvalidDataException();
                        }
                        Formula f = ReadFormula((CompoundExpression)exp.SubExpressions[iExpression], dParameterNameToType, bParamterized, d);
                        cf.SimpleAddOperand(f);
                    }
                    if (cf.Operator == "not" && cf.Operands[0] is PredicateFormula)
                    {
                        PredicateFormula fNegate = new PredicateFormula(((PredicateFormula)cf.Operands[0]).Predicate.Negate());
                        return(fNegate);
                    }
                    return(cf);
                }
            }
        }
 public override Formula PartiallyGround(Dictionary<string, Constant> dBindings)
 {
     ParametrizedFormula cfGrounded = new ParametrizedFormula(this);
     foreach (Formula fSub in Operands)
     {
         Formula fGrounded = fSub.PartiallyGround(dBindings);
         cfGrounded.AddOperand(fGrounded);
     }
     return cfGrounded;
 }
 public override Formula Simplify()
 {
     if (Simplified)
         return this;
     ParametrizedFormula pf = new ParametrizedFormula(this);
     foreach (Formula f in Operands)
         pf.AddOperand(f.Simplify());
     return pf;
 }
 private Formula ReadGroundedFormula(CompoundExpression exp, Domain d)
 {
     bool bPredicate = true;
     if (IsUniversalQuantifier(exp))
     {
         CompoundExpression eParameter = (CompoundExpression)exp.SubExpressions[0];
         CompoundExpression eBody = (CompoundExpression)exp.SubExpressions[1];
         string sParameter = eParameter.Type;
         string sType = eParameter.SubExpressions[1].ToString();
         Dictionary<string, string> dParameterNameToType = new Dictionary<string, string>();
         dParameterNameToType[sParameter] = sType;
         ParametrizedFormula cfQuantified = new ParametrizedFormula(exp.Type);
         cfQuantified.Parameters[sParameter] = sType;
         Formula fBody = ReadFormula(eBody, dParameterNameToType, true, d);
         cfQuantified.AddOperand(fBody);
         return cfQuantified;
     }
     foreach (Expression eSub in exp.SubExpressions)
     {
         if (eSub is CompoundExpression)
         {
             bPredicate = false;
             break;
         }
     }
     if (bPredicate)
         return new PredicateFormula(ReadGroundedPredicate(exp, d));
     else
     {
         CompoundFormula cf = new CompoundFormula(exp.Type);
         int iExpression = 0;
         for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression++)
         {
             Formula f = ReadGroundedFormula((CompoundExpression)exp.SubExpressions[iExpression], d);
             cf.AddOperand(f);
         }
         if (cf.Operator == "not" && cf.Operands[0] is PredicateFormula)
         {
             return new PredicateFormula(((PredicateFormula)cf.Operands[0]).Predicate.Negate());
         }
         return cf;
     }
 }
示例#10
0
 private Formula ReadFormula(CompoundExpression exp, Dictionary<string, string> dParameterNameToType, bool bParamterized, Domain d)
 {
     bool bPredicate = true;
     //Console.WriteLine(exp);
     if (d!= null && d.IsFunctionExpression(exp.Type))
     {
         Predicate p = ReadFunctionExpression(exp, dParameterNameToType, d);
         return new PredicateFormula(p);
     }
     else if (IsUniversalQuantifier(exp))
     {
         CompoundExpression eParameter = (CompoundExpression)exp.SubExpressions[0];
         CompoundExpression eBody = (CompoundExpression)exp.SubExpressions[1];
         string sParameter = eParameter.Type;
         string sType = eParameter.SubExpressions[1].ToString();
         dParameterNameToType[sParameter] = sType;
         ParametrizedFormula cfQuantified = new ParametrizedFormula(exp.Type);
         cfQuantified.Parameters[sParameter] = sType;
         Formula fBody = ReadFormula(eBody, dParameterNameToType, true, d);
         cfQuantified.AddOperand(fBody);
         return cfQuantified;
     }
     else if (exp.Type == "probabilistic")
     {
         ProbabilisticFormula pf = new ProbabilisticFormula();
         int iExpression = 0;
         for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression+=2)
         {
             //if (exp.SubExpressions[iExpression] is StringExpression)
             //    throw new InvalidDataException();
             string sProb = exp.SubExpressions[iExpression].ToString();
             double dProb = 0.0;
             if (sProb.Contains("/"))
             {
                 string[] a = sProb.Split('/');
                 dProb = double.Parse(a[0]) / double.Parse(a[1]);
             }
             else
             {
                 dProb = double.Parse(sProb);
             }
             Formula f = ReadFormula((CompoundExpression)exp.SubExpressions[iExpression + 1], dParameterNameToType, bParamterized, d);
             pf.AddOption(f, dProb);
         }
         return pf;
     }
     else
     {
         foreach (Expression eSub in exp.SubExpressions)
         {
             if (eSub is CompoundExpression)
             {
                 bPredicate = false;
                 break;
             }
         }
         if (bPredicate)
             return ReadPredicate(exp, dParameterNameToType, bParamterized, d);
         else
         {
             CompoundFormula cf = new CompoundFormula(exp.Type);
             int iExpression = 0;
             for (iExpression = 0; iExpression < exp.SubExpressions.Count; iExpression++)
             {
                 if (exp.SubExpressions[iExpression] is StringExpression)
                     throw new InvalidDataException();
                 Formula f = ReadFormula((CompoundExpression)exp.SubExpressions[iExpression], dParameterNameToType, bParamterized, d);
                 cf.SimpleAddOperand(f);
             }
             if (cf.Operator == "not" && cf.Operands[0] is PredicateFormula)
             {
                 PredicateFormula fNegate = new PredicateFormula(((PredicateFormula)cf.Operands[0]).Predicate.Negate());
                 return fNegate;
             }
             return cf;
         }
     }
 }