// ==================== 4ft-hypoteza ================================ public static string fFE4fthyp(int index) { string resultString = ""; // vysledny XML string // nacteni DTD do resultStringu try { resultString = XMLHelper.loadDTD(); } catch (Exception e) { MessageBox.Show("Chyba pri nacitani DTD: " + e.Message); return(resultString); } // korenovy element resultString += "<active_list>"; string PropName = "Hypotheses"; // nazev Property, ktera obsahuje seznam hypotez // nalezeni vsech krabicek 4FT-uloh IBoxModule[] FFTTaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.FFTTask"); // zpracovani kazde krabicky - ziskani z ni vsechny 4ft-hypotezy string ErrStr = ""; // zaznam o chybach string matrix_name = ""; // jmeno analyzovane matice string db_name = ""; // jmeno analyzovane databaze string task_name = ""; // jmeno ulohy - dano uzivatelskym nazvem krabicky FFTTast #region Cyklus - zpracovani vsech 4ft-Tasku z pole FFTTaskBoxes foreach (IBoxModule box in FFTTaskBoxes) { try { // nalezeni jmena datoveho zdroje (databaze) IBoxModule[] db_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.Database"); if (db_names.GetLength(0) != 1) // byl nalezen pocet datovych zdroju ruzny od jedne { throw new System.Exception("bylo nalezeno " + db_names.GetLength(0).ToString() + " databazi"); } db_name = (db_names[0].GetPropertyOther("DatabaseName") as StringT).stringValue; // nalezeni jmena datove matice IBoxModule[] matrix_names = BoxesHelper.ListAncestBoxesWithID(box, "DataMiningCommon.DataMatrix"); if (matrix_names.GetLength(0) != 1) // byl nalezen pocet datovych matic ruzny od jedne { throw new System.Exception("bylo nalezeno " + matrix_names.GetLength(0).ToString() + " datovych matic"); } matrix_name = (matrix_names[0].GetPropertyOther("Name") as StringT).stringValue; // nalezeni jmena ulohy task_name = box.UserName; // nalezeni seznamu vsech hypotez v tomto Tasku HypothesesT HypT = box.GetPropertyOther(PropName) as HypothesesT; HypothesisStruct[] HypList = HypT.hypothesesValue.Clone() as HypothesisStruct[]; // recordy pro ukladani vysledku Rec_hyp_4ft rHyp = new Rec_hyp_4ft(); // hypoteza 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 #region Cyklus - zpracovani vsech hypotez jedne krabicky FFTTask // cyklus pres vsechny hypotezy for (int i = 0; i < HypList.GetLength(0); i++) { #region element hyp_4ft rHyp.id = "hyp4ft" + 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; FourFoldContingencyTable FFT = new FourFoldContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows); rHyp.a = FFT.A; rHyp.b = FFT.B; rHyp.c = FFT.C; rHyp.d = FFT.D; // hodnoty kvantifikatoru rHyp.conf = FourFoldContingencyTable.FoundedImplicationValue(FFT); // Founded implication (a/a+b) rHyp.d_conf = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT); // Double Founded implication (a/a+b+c) rHyp.e_conf = FourFoldContingencyTable.FoundedEquivalenceValue(FFT); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi rHyp.support = FourFoldContingencyTable.BaseCeilValue(FFT); //??? Support (a/a+b+c+d) rHyp.avg_diff = FourFoldContingencyTable.AboveAverageImplicationValue(FFT) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1) // tyto hodnoty se vypocitavaji (mozna zbytecne?) rHyp.fisher = FFT.FisherValue(); rHyp.chi_sq = FFT.ChiSquareValue(); #endregion // TODO - dodelat vypocty, ostatni ciselne polozky (hodnoty nekterych kvantifikatoru atd.) #region element ti_cedent (Antecedent) rAnt.id = "ant" + rHyp.id; rAnt.type = "Antecedent"; // literaly int litCounter = 0; // pocitadlo literalu teto hypotezy ArrayList ARLit_a = new ArrayList(); 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; foreach (string s in lit.categoriesNames) { l.value += s; } ARLit_a.Add(l); } } Rec_ti_literal[] ALit_a = (Rec_ti_literal[])ARLit_a.ToArray(typeof(Rec_ti_literal)); // pole literalu daneho cedentu #endregion #region element ti_cedent (Succedent) rSuc.id = "suc" + rHyp.id; rSuc.type = "Succedent"; // literaly ArrayList ARLit_s = new ArrayList(); 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; foreach (string s in lit.categoriesNames) { l.value += s; } ARLit_s.Add(l); } } Rec_ti_literal[] ALit_s = (Rec_ti_literal[])ARLit_s.ToArray(typeof(Rec_ti_literal)); // pole literalu daneho cedentu #endregion #region element ti_cedent (Condition) rCon.id = "con" + rHyp.id; rCon.type = "Condition"; // literaly ArrayList ARLit_c = new ArrayList(); 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; foreach (string s in lit.categoriesNames) { l.value += s; } ARLit_s.Add(l); } } Rec_ti_literal[] ALit_c = (Rec_ti_literal[])ARLit_c.ToArray(typeof(Rec_ti_literal)); // pole literalu daneho cedentu #endregion #region Vypsani jedne hypotezy do XML stringu string oneHypString = ""; // vypsani hypotezy do XML oneHypString += rHyp.ToXML(); // vypsani Antecedentu do XML oneHypString += rAnt.ToXML(ALit_a); // vypsani Succedentu do XML oneHypString += rSuc.ToXML(ALit_s); // vypsani Condition do XML oneHypString += rCon.ToXML(ALit_c); resultString += oneHypString; #endregion } #endregion } catch (System.Exception e) { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": " + e.Message + "\n"; } } #endregion // vypsani pripadne chybove hlasky: if (!String.IsNullOrEmpty(ErrStr)) { MessageBox.Show("Pri nacitani hypotez doslo k chybam:\n" + ErrStr, "Chyba", MessageBoxButtons.OK, MessageBoxIcon.Error); } // korenovy element resultString += "</active_list>"; // Kody - ulozeni vystupu do souboru "XML4fthypExample.xml" v adresari XMLHelper.saveXMLexample(resultString, "../XML/XML4fthypExample.xml"); return(resultString); }
/// <summary> /// Returns XML string with all occurences of Active element "KL 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 KL-uloh IBoxModule[] TaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.KLTask"); // processing of each box - searching all KL-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 #region Loop - processing of each KL-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_KL rHyp = new Rec_hyp_KL(); // KL hypothesis Rec_ti_attribute rAnt = new Rec_ti_attribute(); // Antecedent (Row attributes) Rec_ti_attribute rSuc = new Rec_ti_attribute(); // Succedent (Column attributes) Rec_ti_cedent rCon = new Rec_ti_cedent(); // condition #region Loop - processing of each hypotheses jedne krabicky KLTask // Loop over all hypotheses for (int i = 0; i < HypList.GetLength(0); i++) { #region element hyp_KL rHyp.id = "hypKL" + box.ProjectIdentifier.ToString() + "_" + i.ToString(); rHyp.db_name = db_name; rHyp.matrix_name = matrix_name; rHyp.task_name = task_name; rHyp.row_attributes = "r_attr" + rHyp.id; rHyp.column_attributes = "c_attr" + rHyp.id; rHyp.condition = "con" + rHyp.id; TwoDimensionalContingencyTable CT = new TwoDimensionalContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows); // Contingency Table rHyp.Tab = HypList[i].quantifierSetting.firstContingencyTableRows; // values of quantifiers - first set try { rHyp.sum = CT.SumOfValues.ToString(); rHyp.min = CT.MinValue.ToString(); rHyp.max = CT.MaxValue.ToString(); rHyp.chi_sq = TwoDimensionalContingencyTable.ChiSquare(CT).ToString(); rHyp.fnc_s = TwoDimensionalContingencyTable.SumOfRowMaximumsValue(CT).ToString(); rHyp.fnc_r = TwoDimensionalContingencyTable.MinOfRowMaximumsValue(CT).ToString(); rHyp.h_c = CT.MarginalColumnEntropy.ToString(); rHyp.h_r = CT.MarginalRowEntropy.ToString(); rHyp.h_c_r = TwoDimensionalContingencyTable.ConditionalCREntropyValue(CT).ToString(); rHyp.mi = CT.MutualInformation.ToString(); //rHyp.aic = CT.???; TODO rHyp.kend = TwoDimensionalContingencyTable.KendalValue(CT).ToString(); } catch (System.Exception e) // There are some errors in Ferda quantifier values! { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": chyba pri vypoctu kvantifikatoru: " + e.Message + "\n"; } #endregion #region element ti_attribute Row attributes (Antecedent) rAnt.id = rHyp.row_attributes; rAnt.type = "Row attributes"; rAnt.quant = ""; // deleting previous value // category List <Rec_ti_category> Cat_a = new List <Rec_ti_category>(); foreach (LiteralStruct lit in HypList[i].literals) { if (lit.cedentType == CedentEnum.Antecedent) { rAnt.quant += lit.literalName; foreach (string s in lit.categoriesNames) { Rec_ti_category C = new Rec_ti_category(); C.value = s; Cat_a.Add(C); } // ??? k cemu je polozka LitralStruct.categoriesValues ? } } #endregion #region element ti_attribute Column attributes (Succedent) rSuc.id = rHyp.column_attributes; rSuc.type = "Column attributes"; rSuc.quant = ""; // deleting previous value // category List <Rec_ti_category> Cat_s = new List <Rec_ti_category>(); foreach (LiteralStruct lit in HypList[i].literals) { if (lit.cedentType == CedentEnum.Succedent) { rSuc.quant += lit.literalName; foreach (string s in lit.categoriesNames) { Rec_ti_category C = new Rec_ti_category(); C.value = s; Cat_s.Add(C); } // ??? k cemu je polozka LitralStruct.categoriesValues ? } } #endregion #region element ti_cedent (Condition) rCon.id = "con" + rHyp.id; rCon.type = "Condition"; // literals int litCounter = 0; // counter of literals of this hypotheses 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 Generating of one hypotheses to XML string string oneHypString = ""; // generating hypotheses to XML oneHypString += rHyp.ToXML(); // generating Row attributes (Antecedent) to XML oneHypString += rAnt.ToXML(Cat_a); // generating Column attributes (Succedent) to XML oneHypString += rSuc.ToXML(Cat_s); // generating Condition to XML oneHypString += rCon.ToXML(Lit_c); 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 KL 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/XMLKLhypExample.xml"); #endif return(resultString); }
/// <summary> /// Returns XML string with all occurences of Active element "SD-KL 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-KL-tasks IBoxModule[] TaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.SDKLTask"); // processing of each box - searching all KL-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 // creatind delegates for functions of quantifiers // "sum of values" ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable> sum_delegat = new ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable>(TwoDimensionalContingencyTable.GetSumOfValues); // "min value" ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable> min_delegat = new ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable>(TwoDimensionalContingencyTable.GetMinValue); // "max value" ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable> max_delegat = new ContingencyTable.QuantifierValue <TwoDimensionalContingencyTable>(TwoDimensionalContingencyTable.GetMaxValue); #region Loop - processing of each KL-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_SDKL rHyp = new Rec_hyp_SDKL(); // SD-KL hypothesis Rec_ti_attribute rAnt = new Rec_ti_attribute(); // Antecedent (Row attributes) Rec_ti_attribute rSuc = new Rec_ti_attribute(); // Succedent (Column attributes) 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 jedne krabicky SDKLTask // Loop over all hypotheses for (int i = 0; i < HypList.GetLength(0); i++) { #region element hyp_SDKL rHyp.id = "hypSDKL" + box.ProjectIdentifier.ToString() + "_" + i.ToString(); rHyp.db_name = db_name; rHyp.matrix_name = matrix_name; rHyp.task_name = task_name; rHyp.row_attributes = "r_attr" + rHyp.id; rHyp.column_attributes = "c_attr" + rHyp.id; rHyp.condition = "con" + rHyp.id; rHyp.set1 = "set1" + rHyp.id; rHyp.set2 = "set2" + rHyp.id; TwoDimensionalContingencyTable CT1 = new TwoDimensionalContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows); // Contingency Table 1 TwoDimensionalContingencyTable CT2 = new TwoDimensionalContingencyTable(HypList[i].quantifierSetting.secondContingencyTableRows); // Contingency Table 2 rHyp.Tab1 = HypList[i].quantifierSetting.firstContingencyTableRows; rHyp.Tab2 = HypList[i].quantifierSetting.secondContingencyTableRows; // values of quantifiers - set1 try { rHyp.sum1 = CT1.SumOfValues.ToString(); rHyp.min1 = CT1.MinValue.ToString(); rHyp.max1 = CT1.MaxValue.ToString(); rHyp.chi_sq1 = TwoDimensionalContingencyTable.ChiSquare(CT1).ToString(); rHyp.fnc_s1 = TwoDimensionalContingencyTable.SumOfRowMaximumsValue(CT1).ToString(); rHyp.fnc_r1 = TwoDimensionalContingencyTable.MinOfRowMaximumsValue(CT1).ToString(); rHyp.h_c1 = CT1.MarginalColumnEntropy.ToString(); rHyp.h_r1 = CT1.MarginalRowEntropy.ToString(); rHyp.h_c_r1 = TwoDimensionalContingencyTable.ConditionalCREntropyValue(CT1).ToString(); rHyp.mi1 = CT1.MutualInformation.ToString(); //rHyp.aic = CT.???; TODO rHyp.kend1 = TwoDimensionalContingencyTable.KendalValue(CT1).ToString(); } catch (System.Exception e) // TODO: Ferda ma chyby ve vypoctech -> opravit! { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": chyba pri vypoctu quantifier: " + e.Message + "\n"; } // values of quantifiers - set2 try { rHyp.sum2 = CT2.SumOfValues.ToString(); rHyp.min2 = CT2.MinValue.ToString(); rHyp.max2 = CT2.MaxValue.ToString(); rHyp.chi_sq2 = TwoDimensionalContingencyTable.ChiSquare(CT2).ToString(); rHyp.fnc_s2 = TwoDimensionalContingencyTable.SumOfRowMaximumsValue(CT2).ToString(); rHyp.fnc_r2 = TwoDimensionalContingencyTable.MinOfRowMaximumsValue(CT2).ToString(); rHyp.h_c2 = CT2.MarginalColumnEntropy.ToString(); rHyp.h_r2 = CT2.MarginalRowEntropy.ToString(); rHyp.h_c_r2 = TwoDimensionalContingencyTable.ConditionalCREntropyValue(CT2).ToString(); rHyp.mi2 = CT2.MutualInformation.ToString(); //rHyp.aic = CT.???; TODO rHyp.kend2 = TwoDimensionalContingencyTable.KendalValue(CT2).ToString(); } catch (System.Exception e) // Ferda ma chyby ve vypoctech! { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": chyba pri vypoctu quantifier: " + e.Message + "\n"; } // values of quantifiers - diffrent of set1 a set2 try { rHyp.da_sum = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(sum_delegat, CT1, CT2, OperationModeEnum.DifferencesOfAbsoluteFrequencies).ToString(); rHyp.da_min = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(min_delegat, CT1, CT2, OperationModeEnum.DifferencesOfAbsoluteFrequencies).ToString(); rHyp.da_max = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(max_delegat, CT1, CT2, OperationModeEnum.DifferencesOfAbsoluteFrequencies).ToString(); rHyp.dr_sum = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(sum_delegat, CT1, CT2, OperationModeEnum.DifferencesOfRelativeFrequencies).ToString(); rHyp.dr_min = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(min_delegat, CT1, CT2, OperationModeEnum.DifferencesOfRelativeFrequencies).ToString(); rHyp.dr_max = TwoDimensionalContingencyTable.Value <TwoDimensionalContingencyTable>(max_delegat, CT1, CT2, OperationModeEnum.DifferencesOfRelativeFrequencies).ToString(); } catch (System.Exception e) // Ferda ma chyby ve vypoctech! { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": chyba pri vypoctu quantifier: " + e.Message + "\n"; } #endregion #region element ti_attribute Row attributes (Antecedent) rAnt.id = rHyp.row_attributes; rAnt.type = "Row attributes"; rAnt.quant = ""; // deleting previous value // category List <Rec_ti_category> Cat_a = new List <Rec_ti_category>(); foreach (LiteralStruct lit in HypList[i].literals) { if (lit.cedentType == CedentEnum.Antecedent) { rAnt.quant += lit.literalName; foreach (string s in lit.categoriesNames) { Rec_ti_category C = new Rec_ti_category(); C.value = s; Cat_a.Add(C); } } } #endregion #region element ti_attribute Column attributes (Succedent) rSuc.id = rHyp.column_attributes; rSuc.type = "Column attributes"; rSuc.quant = ""; // deleting previous value // category List <Rec_ti_category> Cat_s = new List <Rec_ti_category>(); foreach (LiteralStruct lit in HypList[i].literals) { if (lit.cedentType == CedentEnum.Succedent) { rSuc.quant += lit.literalName; foreach (string s in lit.categoriesNames) { Rec_ti_category C = new Rec_ti_category(); C.value = s; Cat_s.Add(C); } } } #endregion #region element ti_cedent (Condition) rCon.id = "con" + rHyp.id; rCon.type = "Condition"; // literals int litCounter = 0; // counter of literals of this hypothesis 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 (Set1) 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 (Set2) 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 hypothesis to XML string string oneHypString = ""; // generating hypotheses to XML oneHypString += rHyp.ToXML(); // generating Row attributes (Antecedent) to XML oneHypString += rAnt.ToXML(Cat_a); // generating Column attributes (Succedent) to XML oneHypString += rSuc.ToXML(Cat_s); // generating Condition to XML oneHypString += rCon.ToXML(Lit_c); // generating Set1 to XML oneHypString += rSet1.ToXML(Lit_s1); // generating Set2 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 SD-KL 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/XMLsdKLhypExample.xml"); #endif return(resultString); }
/// <summary> /// Implementation of Active element "CF hypothesis" /// </summary> /// <param name="index">index of data source in data sources tab </param> /// <returns>Returns XML string with all occurences of Active element type "CF hypothesis" from data source with given index</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 CF-task IBoxModule[] TaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.CFTask"); // processing of each box - searching all CF-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 by user name of box FFTTast #region Loop - processing of each CF-Tasku 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_cf rHyp = new Rec_hyp_cf(); // CF hypothesis Rec_ti_attribute rAnt = new Rec_ti_attribute(); // Antecedent (Attributes) Rec_ti_cedent rCon = new Rec_ti_cedent(); // condition #region Loop - processing of each hypotheses jedne krabicky CFTask // Loop over all hypotheses for (int i = 0; i < HypList.GetLength(0); i++) { #region element hyp_cf rHyp.id = "hypcf" + box.ProjectIdentifier.ToString() + "_" + i.ToString(); rHyp.db_name = db_name; rHyp.matrix_name = matrix_name; rHyp.task_name = task_name; rHyp.attributes = "attr" + rHyp.id; rHyp.condition = "con" + rHyp.id; OneDimensionalContingencyTable CT = new OneDimensionalContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows); // Contingency Table rHyp.Tab = HypList[i].quantifierSetting.firstContingencyTableRows[0]; // values of quantifiers try { rHyp.sum = CT.SumOfValues.ToString(); rHyp.min = CT.MinValue.ToString(); rHyp.max = CT.MaxValue.ToString(); rHyp.v = CT.VariationRatio.ToString(); rHyp.nom_var = CT.NominalVariation.ToString(); rHyp.dor_var = CT.DiscreteOrdinaryVariation.ToString(); rHyp.avg_a = CT.ArithmeticAverage.ToString(); rHyp.avg_g = CT.GeometricAverage.ToString(); rHyp.var = CT.Variance.ToString(); rHyp.st_dev = CT.StandardDeviation.ToString(); rHyp.skew = CT.Skewness.ToString(); rHyp.asym = CT.Asymentry.ToString(); } catch (System.Exception e) // !!There are some errors in Ferda quantifier values! ! { ErrStr += "Box ProjectIdentifier=" + box.ProjectIdentifier.ToString() + ": chyba pri vypoctu kvantifikatoru: " + e.Message + "\n"; } #endregion #region element ti_attribute Attributes (Antecedent) rAnt.id = rHyp.attributes; rAnt.type = "Attributes"; rAnt.quant = ""; // deleting previous value // category List <Rec_ti_category> Cat_a = new List <Rec_ti_category>(); foreach (LiteralStruct lit in HypList[i].literals) { if (lit.cedentType == CedentEnum.Antecedent) { rAnt.quant += lit.literalName; foreach (string s in lit.categoriesNames) { Rec_ti_category C = new Rec_ti_category(); C.value = s; Cat_a.Add(C); } } } #endregion #region element ti_cedent (Condition) int litCounter = 0; // counter of literals of this cedent rCon.id = "con" + rHyp.id; 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 Generating of one hypotheses to XML string string oneHypString = ""; // generating hypotheses to XML oneHypString += rHyp.ToXML(); // generating Attributes (Antecedent) to XML oneHypString += rAnt.ToXML(Cat_a); // generating Condition to XML oneHypString += rCon.ToXML(Lit_c); 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 CF 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/XMLcfhypExample.xml"); #endif return(resultString); }
/// <summary> /// Returns XML string with all occurences of Active element "4FT 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 list of hypotheses // searching all boxes with type "4FT-task" IBoxModule[] FFTTaskBoxes = BoxesHelper.ListBoxesWithID(CFEsourcesTab.Sources[index] as CFEsource, "LISpMinerTasks.FFTTask"); // loop over all boxes - getting all 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 #region Loop - processing of each 4ft-Task from array FFTTaskBoxes foreach (IBoxModule box in FFTTaskBoxes) { 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_4ft rHyp = new Rec_hyp_4ft(); // 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 #region Loop - processing of each hypotez jedne krabicky FFTTask // Loop over all hypotheses for (int i = 0; i < HypList.GetLength(0); i++) { #region element hyp_4ft rHyp.id = "hyp4ft" + 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; FourFoldContingencyTable FFT = new FourFoldContingencyTable(HypList[i].quantifierSetting.firstContingencyTableRows); rHyp.a = FFT.A.ToString(); rHyp.b = FFT.B.ToString(); rHyp.c = FFT.C.ToString(); rHyp.d = FFT.D.ToString(); // values of quantifiers rHyp.conf = FourFoldContingencyTable.FoundedImplicationValue(FFT).ToString(); // Founded implication (a/a+b) rHyp.d_conf = FourFoldContingencyTable.DoubleFoundedImplicationValue(FFT).ToString(); // Double Founded implication (a/a+b+c) rHyp.e_conf = FourFoldContingencyTable.FoundedEquivalenceValue(FFT).ToString(); // Founded Equivalence (a+d)/(a+b+c+d) ??? BUG ve Ferdovi rHyp.support = FourFoldContingencyTable.BaseCeilValue(FFT).ToString(); //??? Support (a/a+b+c+d) // helping variable double avg_diff = FourFoldContingencyTable.AboveAverageImplicationValue(FFT) - 1; // Averafe difference ((a*(a+b+c+d))/((a+b)*(a+c)) -1) rHyp.avg_diff = avg_diff.ToString(); rHyp.fisher = FFT.FisherValue().ToString(); rHyp.chi_sq = FFT.ChiSquareValue().ToString(); #endregion #region element ti_cedent (Antecedent) rAnt.id = "ant" + rHyp.id; 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 = "suc" + rHyp.id; 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 = "con" + rHyp.id; 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 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); 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)) { MessageBox.Show("Pri nacitani hypotez doslo k chybam:\n" + ErrStr, "Chyba", MessageBoxButtons.OK, MessageBoxIcon.Error); } // Kody - storing output to file "XML4fthypExample.xml" in directory XMLHelper.saveXMLexample(resultString, "../XML/XML4fthypExample.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); }