/// <summary>
/// Returns XML string with all occurences of Active element "SD-4FFT hypothesis".
/// </summary>
/// <param name="index">index of data source in FEplugin data sources table</param>
/// <returns>XML string</returns>
public static string getList(int index)
{
string resultString = ""; // result XML string
// loading DTD to resultString
try { resultString = XMLHelper.loadDTD(); }
catch (Exception e)
{
#if (LADENI)
MessageBox.Show("error while loading DTD: " + e.Message);
#endif
return resultString;
}
// root element
resultString += "<active_list>";
string PropName = "Hypotheses"; // name of property which contain a list of hypotheses
// searching all boxes SD-4FT-uloh
IBoxModule[] TaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.SDFFTTask");
// processing of each box - searching all 4ft-hypotheses
string ErrStr = ""; // error report
string matrix_name = "unknown"; // analyzed data matrix name
string db_name="unknown"; // analyzed database name
string task_name = "unknown"; // task name - given with user name of box FFTTast
// creating delegate of quantifier function - "sum of value"
ContingencyTable.QuantifierValue<FourFoldContingencyTable> sum_delegat = new ContingencyTable.QuantifierValue<FourFoldContingencyTable>(FourFoldContingencyTable.GetSumOfValues);
#region Loop - processing of each SD-4ft-Task from array TaskBoxes
foreach (IBoxModule box in TaskBoxes)
{
try
{
// searching data source name (database)
IBoxModule[] db_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.Database");
if (db_names.GetLength(0) != 1) // searched more than one data source or neither one
throw new System.Exception("found " + db_names.GetLength(0).ToString() + " databases");
db_name = (db_names[0].GetPropertyOther("DatabaseName") as StringT).stringValue;
// searching data matrix name
IBoxModule[] matrix_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.DataMatrix");
if (matrix_names.GetLength(0) != 1) // searched more than one data source or neither one
throw new System.Exception("found " + matrix_names.GetLength(0).ToString() + " data matrixes");
matrix_name = (matrix_names[0].GetPropertyOther("Name") as StringT).stringValue;
// searching task name
task_name = box.UserName;
// searching the list of all hypotheses in this task
HypothesesT HypT = box.GetPropertyOther(PropName) as HypothesesT;
HypothesisStruct[] HypList = HypT.hypothesesValue.Clone() as HypothesisStruct[];
// records for storing the results
Rec_hyp_sd4ft rHyp = new Rec_hyp_sd4ft(); // hypothesis
Rec_ti_cedent rAnt = new Rec_ti_cedent(); // antecedent
Rec_ti_cedent rSuc = new Rec_ti_cedent(); // succedent
Rec_ti_cedent rCon = new Rec_ti_cedent(); // condition
Rec_ti_cedent rSet1 = new Rec_ti_cedent(); // set 1
Rec_ti_cedent rSet2 = new Rec_ti_cedent(); // set 2
#region Loop - processing of each hypotheses of one SDFFTTask box
// Loop over all hypotheses
for (int i = 0; i < HypList.GetLength(0); i++)
{
#region element hyp_sd4ft
rHyp.id = "hypsd4ft" + box.ProjectIdentifier.ToString() + "_" + i.ToString();
rHyp.db_name = db_name;
rHyp.matrix_name = matrix_name;
rHyp.task_name = task_name;
rHyp.antecedent = "ant" + rHyp.id;
rHyp.succedent = "suc" + rHyp.id;
rHyp.condition = "con" + rHyp.id;
rHyp.set1 = "set1" + rHyp.id;
rHyp.set2 = "set2" + rHyp.id;
FourFoldContingencyTable FFT1 = new FourFoldContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows);
FourFoldContingencyTable FFT2 = new FourFoldContingencyTable(HypList[i].quantifierSetting.secondContingencyTableRows);
rHyp.a = FFT1.A.ToString();
rHyp.b = FFT1.B.ToString();
rHyp.c = FFT1.C.ToString();
rHyp.d = FFT1.D.ToString();
rHyp.e = FFT2.A.ToString();
rHyp.f = FFT2.B.ToString();
rHyp.g = FFT2.C.ToString();
rHyp.h = FFT2.D.ToString();
// values of quantifiers - first set
double conf1 = FourFoldContingencyTable.FoundedImplicationValue(FFT1); // Founded implication (a/a+b)
rHyp.conf1 = conf1.ToString();
double d_conf1 = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT1); // Double Founded implication (a/a+b+c)
rHyp.d_conf1 = d_conf1.ToString();
double e_conf1 = FourFoldContingencyTable.FoundedEquivalenceValue(FFT1); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi
rHyp.e_conf1 = e_conf1.ToString();
rHyp.support1 = FourFoldContingencyTable.BaseCeilValue(FFT1).ToString(); //??? Support (a/a+b+c+d)
// helping variable
double avg_diff1 = FourFoldContingencyTable.AboveAverageImplicationValue(FFT1) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1)
rHyp.avg_diff1 = avg_diff1.ToString();
rHyp.fisher1 = FFT1.FisherValue().ToString();
rHyp.chi_sq1 = FFT1.ChiSquareValue().ToString();
// values of quantifiers - second set
double conf2 = FourFoldContingencyTable.FoundedImplicationValue(FFT2); // Founded implication (a/a+b)
rHyp.conf2 = conf2.ToString();
double d_conf2 = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT2); // Double Founded implication (a/a+b+c)
rHyp.d_conf2 = d_conf2.ToString();
double e_conf2 = FourFoldContingencyTable.FoundedEquivalenceValue(FFT2); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi
rHyp.e_conf2 = e_conf2.ToString();
rHyp.support2 = FourFoldContingencyTable.BaseCeilValue(FFT2).ToString(); //??? Support (a/a+b+c+d)
// helping variable
double avg_diff2 = FourFoldContingencyTable.AboveAverageImplicationValue(FFT2) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1)
rHyp.avg_diff2 = avg_diff2.ToString();
rHyp.fisher2 = FFT2.FisherValue().ToString();
rHyp.chi_sq2 = FFT2.ChiSquareValue().ToString();
// values of quantifiers - diffrent of first and second set
rHyp.dr_sum = FourFoldContingencyTable.Value<FourFoldContingencyTable>(sum_delegat, FFT1, FFT2, OperationModeEnum.DifferencesOfRelativeFrequencies).ToString();
double df_conf = FourFoldContingencyTable.Combine(conf1, conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_conf = df_conf.ToString();
double df_dfui = FourFoldContingencyTable.Combine(d_conf1, d_conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_dfui = df_dfui.ToString();
double df_fue = FourFoldContingencyTable.Combine(e_conf1, e_conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_fue = df_fue.ToString();
double df_avg = FourFoldContingencyTable.Combine(avg_diff1, avg_diff2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_avg = df_avg.ToString();
#endregion
#region element ti_cedent (Antecedent)
rAnt.id = rHyp.antecedent;
rAnt.type = "Antecedent";
// literals
int litCounter = 0; // counter of literals of this hypotheses
List<Rec_ti_literal> Lit_a = new List<Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Antecedent)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
l.quant = "¬";
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
l.value += ",";
l.value += s;
counter++;
}
Lit_a.Add(l);
}
}
#endregion
#region element ti_cedent (Succedent)
rSuc.id = rHyp.succedent;
rSuc.type = "Succedent";
// literals
List<Rec_ti_literal> Lit_s = new List<Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Succedent)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
l.quant = "¬";
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
l.value += ",";
l.value += s;
counter++;
}
Lit_s.Add(l);
}
}
#endregion
#region element ti_cedent (Condition)
rCon.id = rHyp.condition;
rCon.type = "Condition";
// literals
List<Rec_ti_literal> Lit_c = new List<Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Condition)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
l.quant = "¬";
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
l.value += ",";
l.value += s;
counter++;
}
Lit_c.Add(l);
}
}
#endregion
#region element ti_cedent (First Set)
rSet1.id = rHyp.set1;
rSet1.type = "First Set";
// literals
List<Rec_ti_literal> Lit_s1 = new List<Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.FirstSet)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
l.quant = "¬";
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
l.value += ",";
l.value += s;
counter++;
}
Lit_s1.Add(l);
}
}
#endregion
#region element ti_cedent (Second Set)
rSet2.id = rHyp.set2;
rSet2.type = "Second Set";
// literals
List<Rec_ti_literal> Lit_s2 = new List<Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.SecondSet)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
l.quant = "¬";
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
l.value += ",";
l.value += s;
counter++;
}
Lit_s2.Add(l);
}
}
#endregion
#region Generating of one hypotheses to XML string
string oneHypString = "";
// generating hypotheses to XML
oneHypString += rHyp.ToXML();
// generating Antecedent to XML
oneHypString += rAnt.ToXML(Lit_a);
// generating Succedent to XML
oneHypString += rSuc.ToXML(Lit_s);
// generating Condition to XML
oneHypString += rCon.ToXML(Lit_c);
// generating First Set to XML
oneHypString += rSet1.ToXML(Lit_s1);
// generating Second Set to XML
oneHypString += rSet2.ToXML(Lit_s2);
resultString += oneHypString;
#endregion
}
#endregion
}
catch (System.Exception e)
{
ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": " + e.Message + "\n";
}
}
#endregion
// root element
resultString += "</active_list>";
#if (LADENI)
// generating of error message:
if (!String.IsNullOrEmpty(ErrStr)) // LADICI
MessageBox.Show("Pri nacitani SD4FT hypotheses doslo k chybam:\n" + ErrStr, "Chyba", MessageBoxButtons.OK, MessageBoxIcon.Error);
// LADICI - Kody - storing output to file "XMLsd4fthypExample.xml" in directory
XMLHelper.saveXMLexample(resultString, "../XML/XMLsd4fthypExample.xml");
#endif
return resultString;
}
/// <summary>
/// Returns XML string with all occurences of Active element "SD-4FFT hypothesis".
/// </summary>
/// <param name="index">index of data source in FEplugin data sources table</param>
/// <returns>XML string</returns>
public static string getList(int index)
{
string resultString = ""; // result XML string
// loading DTD to resultString
try { resultString = XMLHelper.loadDTD(); }
catch (Exception e)
{
#if (LADENI)
MessageBox.Show("error while loading DTD: " + e.Message);
#endif
return(resultString);
}
// root element
resultString += "<active_list>";
string PropName = "Hypotheses"; // name of property which contain a list of hypotheses
// searching all boxes SD-4FT-uloh
IBoxModule[] TaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.SDFFTTask");
// processing of each box - searching all 4ft-hypotheses
string ErrStr = ""; // error report
string matrix_name = "unknown"; // analyzed data matrix name
string db_name = "unknown"; // analyzed database name
string task_name = "unknown"; // task name - given with user name of box FFTTast
// creating delegate of quantifier function - "sum of value"
ContingencyTable.QuantifierValue <FourFoldContingencyTable> sum_delegat = new ContingencyTable.QuantifierValue <FourFoldContingencyTable>(FourFoldContingencyTable.GetSumOfValues);
#region Loop - processing of each SD-4ft-Task from array TaskBoxes
foreach (IBoxModule box in TaskBoxes)
{
try
{
// searching data source name (database)
IBoxModule[] db_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.Database");
if (db_names.GetLength(0) != 1) // searched more than one data source or neither one
{
throw new System.Exception("found " + db_names.GetLength(0).ToString() + " databases");
}
db_name = (db_names[0].GetPropertyOther("DatabaseName") as StringT).stringValue;
// searching data matrix name
IBoxModule[] matrix_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.DataMatrix");
if (matrix_names.GetLength(0) != 1) // searched more than one data source or neither one
{
throw new System.Exception("found " + matrix_names.GetLength(0).ToString() + " data matrixes");
}
matrix_name = (matrix_names[0].GetPropertyOther("Name") as StringT).stringValue;
// searching task name
task_name = box.UserName;
// searching the list of all hypotheses in this task
HypothesesT HypT = box.GetPropertyOther(PropName) as HypothesesT;
HypothesisStruct[] HypList = HypT.hypothesesValue.Clone() as HypothesisStruct[];
// records for storing the results
Rec_hyp_sd4ft rHyp = new Rec_hyp_sd4ft(); // hypothesis
Rec_ti_cedent rAnt = new Rec_ti_cedent(); // antecedent
Rec_ti_cedent rSuc = new Rec_ti_cedent(); // succedent
Rec_ti_cedent rCon = new Rec_ti_cedent(); // condition
Rec_ti_cedent rSet1 = new Rec_ti_cedent(); // set 1
Rec_ti_cedent rSet2 = new Rec_ti_cedent(); // set 2
#region Loop - processing of each hypotheses of one SDFFTTask box
// Loop over all hypotheses
for (int i = 0; i < HypList.GetLength(0); i++)
{
#region element hyp_sd4ft
rHyp.id = "hypsd4ft" + box.ProjectIdentifier.ToString() + "_" + i.ToString();
rHyp.db_name = db_name;
rHyp.matrix_name = matrix_name;
rHyp.task_name = task_name;
rHyp.antecedent = "ant" + rHyp.id;
rHyp.succedent = "suc" + rHyp.id;
rHyp.condition = "con" + rHyp.id;
rHyp.set1 = "set1" + rHyp.id;
rHyp.set2 = "set2" + rHyp.id;
FourFoldContingencyTable FFT1 = new FourFoldContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows);
FourFoldContingencyTable FFT2 = new FourFoldContingencyTable(HypList[i].quantifierSetting.secondContingencyTableRows);
rHyp.a = FFT1.A.ToString();
rHyp.b = FFT1.B.ToString();
rHyp.c = FFT1.C.ToString();
rHyp.d = FFT1.D.ToString();
rHyp.e = FFT2.A.ToString();
rHyp.f = FFT2.B.ToString();
rHyp.g = FFT2.C.ToString();
rHyp.h = FFT2.D.ToString();
// values of quantifiers - first set
double conf1 = FourFoldContingencyTable.FoundedImplicationValue(FFT1); // Founded implication (a/a+b)
rHyp.conf1 = conf1.ToString();
double d_conf1 = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT1); // Double Founded implication (a/a+b+c)
rHyp.d_conf1 = d_conf1.ToString();
double e_conf1 = FourFoldContingencyTable.FoundedEquivalenceValue(FFT1); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi
rHyp.e_conf1 = e_conf1.ToString();
rHyp.support1 = FourFoldContingencyTable.BaseCeilValue(FFT1).ToString(); //??? Support (a/a+b+c+d)
// helping variable
double avg_diff1 = FourFoldContingencyTable.AboveAverageImplicationValue(FFT1) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1)
rHyp.avg_diff1 = avg_diff1.ToString();
rHyp.fisher1 = FFT1.FisherValue().ToString();
rHyp.chi_sq1 = FFT1.ChiSquareValue().ToString();
// values of quantifiers - second set
double conf2 = FourFoldContingencyTable.FoundedImplicationValue(FFT2); // Founded implication (a/a+b)
rHyp.conf2 = conf2.ToString();
double d_conf2 = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT2); // Double Founded implication (a/a+b+c)
rHyp.d_conf2 = d_conf2.ToString();
double e_conf2 = FourFoldContingencyTable.FoundedEquivalenceValue(FFT2); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi
rHyp.e_conf2 = e_conf2.ToString();
rHyp.support2 = FourFoldContingencyTable.BaseCeilValue(FFT2).ToString(); //??? Support (a/a+b+c+d)
// helping variable
double avg_diff2 = FourFoldContingencyTable.AboveAverageImplicationValue(FFT2) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1)
rHyp.avg_diff2 = avg_diff2.ToString();
rHyp.fisher2 = FFT2.FisherValue().ToString();
rHyp.chi_sq2 = FFT2.ChiSquareValue().ToString();
// values of quantifiers - diffrent of first and second set
rHyp.dr_sum = FourFoldContingencyTable.Value <FourFoldContingencyTable>(sum_delegat, FFT1, FFT2, OperationModeEnum.DifferencesOfRelativeFrequencies).ToString();
double df_conf = FourFoldContingencyTable.Combine(conf1, conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_conf = df_conf.ToString();
double df_dfui = FourFoldContingencyTable.Combine(d_conf1, d_conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_dfui = df_dfui.ToString();
double df_fue = FourFoldContingencyTable.Combine(e_conf1, e_conf2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_fue = df_fue.ToString();
double df_avg = FourFoldContingencyTable.Combine(avg_diff1, avg_diff2, OperationModeEnum.DifferenceOfQuantifierValues);
rHyp.df_avg = df_avg.ToString();
#endregion
#region element ti_cedent (Antecedent)
rAnt.id = rHyp.antecedent;
rAnt.type = "Antecedent";
// literals
int litCounter = 0; // counter of literals of this hypotheses
List <Rec_ti_literal> Lit_a = new List <Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Antecedent)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
{
l.quant = "¬";
}
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
{
l.value += ",";
}
l.value += s;
counter++;
}
Lit_a.Add(l);
}
}
#endregion
#region element ti_cedent (Succedent)
rSuc.id = rHyp.succedent;
rSuc.type = "Succedent";
// literals
List <Rec_ti_literal> Lit_s = new List <Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Succedent)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
{
l.quant = "¬";
}
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
{
l.value += ",";
}
l.value += s;
counter++;
}
Lit_s.Add(l);
}
}
#endregion
#region element ti_cedent (Condition)
rCon.id = rHyp.condition;
rCon.type = "Condition";
// literals
List <Rec_ti_literal> Lit_c = new List <Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.Condition)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
{
l.quant = "¬";
}
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
{
l.value += ",";
}
l.value += s;
counter++;
}
Lit_c.Add(l);
}
}
#endregion
#region element ti_cedent (First Set)
rSet1.id = rHyp.set1;
rSet1.type = "First Set";
// literals
List <Rec_ti_literal> Lit_s1 = new List <Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.FirstSet)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
{
l.quant = "¬";
}
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
{
l.value += ",";
}
l.value += s;
counter++;
}
Lit_s1.Add(l);
}
}
#endregion
#region element ti_cedent (Second Set)
rSet2.id = rHyp.set2;
rSet2.type = "Second Set";
// literals
List <Rec_ti_literal> Lit_s2 = new List <Rec_ti_literal>();
foreach (BooleanLiteralStruct lit in HypList[i].booleanLiterals)
{
if (lit.cedentType == CedentEnum.SecondSet)
{
Rec_ti_literal l = new Rec_ti_literal();
l.id = "tiLit" + rHyp.id + "_" + litCounter.ToString();
litCounter++;
if (lit.negation)
{
l.quant = "¬";
}
l.quant += lit.literalName;
int counter = 0;
foreach (string s in lit.categoriesNames)
{
if (counter > 0)
{
l.value += ",";
}
l.value += s;
counter++;
}
Lit_s2.Add(l);
}
}
#endregion
#region Generating of one hypotheses to XML string
string oneHypString = "";
// generating hypotheses to XML
oneHypString += rHyp.ToXML();
// generating Antecedent to XML
oneHypString += rAnt.ToXML(Lit_a);
// generating Succedent to XML
oneHypString += rSuc.ToXML(Lit_s);
// generating Condition to XML
oneHypString += rCon.ToXML(Lit_c);
// generating First Set to XML
oneHypString += rSet1.ToXML(Lit_s1);
// generating Second Set to XML
oneHypString += rSet2.ToXML(Lit_s2);
resultString += oneHypString;
#endregion
}
#endregion
}
catch (System.Exception e)
{
ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": " + e.Message + "\n";
}
}
#endregion
// root element
resultString += "</active_list>";
#if (LADENI)
// generating of error message:
if (!String.IsNullOrEmpty(ErrStr)) // LADICI
{
MessageBox.Show("Pri nacitani SD4FT hypotheses doslo k chybam:\n" + ErrStr, "Chyba", MessageBoxButtons.OK, MessageBoxIcon.Error);
}
// LADICI - Kody - storing output to file "XMLsd4fthypExample.xml" in directory
XMLHelper.saveXMLexample(resultString, "../XML/XMLsd4fthypExample.xml");
#endif
return(resultString);
}