BayesNet *SimpleCondSoftMaxModel() { BayesNet *net; net = new BayesNet(); net->AddNode("continuous^node0"); net->AddNode("continuous^node1"); net->AddNode("continuous^node2"); net->AddNode("discrete^node3", "True False"); net->AddNode("discrete^node5", "True False");// condsoftmax node net->AddNode("discrete^node6", "True False"); net->AddArc("node0", "node5"); net->AddArc("node1", "node5"); net->AddArc("node2", "node5"); net->AddArc("node3", "node5"); net->AddArc("node5", "node6"); net->SetPGaussian("node0", "0.1", "0.9"); net->SetPGaussian("node1", "0.2", "0.8"); net->SetPGaussian("node2", "0.3", "0.7"); net->SetPTabular("node6^True node6^False", "0.3 0.7", "node5^True"); net->SetPTabular("node6^True node6^False", "0.5 0.5", "node5^False"); net->SetPSoftMax("node5^True node5^False", "0.3 0.4 0.5 0.6 0.7 0.8", "0.1 0.1", "node3^True"); net->SetPSoftMax("node5^True node5^False", "0.23 0.24 0.25 0.26 0.27 0.28", "0.21 0.21", "node3^False"); return net; }
void TestAddArc() { BayesNet *net = SevenNodesModel(); net->AddArc("node2", "node5"); // net->SetPTabular("node6^True node6^False", "0.2 0.8", "node4^True"); // net->SetPTabular("node6^True node6^False", "0.1 0.9", "node4^False"); // all continuous nodes are observed net->EditEvidence("node0^0.3"); net->EditEvidence("node1^0.2"); net->EditEvidence("node5^0.9"); net->EditEvidence("node4^True"); net->SetProperty("Inference", "jtree"); TokArr jpd3 = net->GetJPD("node3"); std::cout<< "jpd node3:\t"<<jpd3 << "\n"; TokArr jpd6 = net->GetJPD("node6"); std::cout<< "jpd node6:\t"<<jpd6 << "\n"; TokArr jpd2 = net->GetJPD("node2"); std::cout<< "jpd node2:\t"<<jpd2 << "\n"; delete net; std::cout << "TestDelArc is completed successfully" << std::endl; }
BayesNet *SimpleSoftMaxModel() { BayesNet *net; net = new BayesNet(); net->AddNode(continuous^"node0 node1 node2"); net->AddNode(discrete^"node5", "True False"); net->AddArc("node0", "node5"); net->AddArc("node1", "node5"); net->AddArc("node2", "node5"); net->SetPGaussian("node0", "0.1", "0.9"); net->SetPGaussian("node1", "0.2", "0.8"); net->SetPGaussian("node2", "0.3", "0.7"); net->SetPSoftMax("node5^True node5^False", "0.3 0.4 0.5 0.6 0.7 0.8", "0.1 0.1"); return net; }
BayesNet *TestsPnlHigh::SimpleCGM1() { //Cont0(3) Tab0(0) // | | // \/ \/ // Cont1(1) // | // \/ // Cont2(2) BayesNet *net = new BayesNet(); net->AddNode(discrete^"Tab0", "State0 State1"); net->AddNode(continuous^"Cont1 Cont2", "Dim0"); net->AddNode(continuous^"Cont0", "Dim0 Dim1"); net->AddArc("Cont0 Tab0", "Cont1"); net->AddArc("Cont1", "Cont2"); return net; };
BayesNet* RPSModel() { BayesNet *net; net = new BayesNet(); TokArr aChoice = "Rock Paper Scissors";// possible values for nodes // build Graph // add nodes to net net->AddNode(discrete ^ "PreviousCompTurn PreviousHumanTurn CurrentHumanTurn", aChoice); // add arcs to create following Bayes net: // // PreviousCompTurn PreviousHumanTurn // | | // V V // CurrentHumanTurn net->AddArc("PreviousCompTurn", "CurrentHumanTurn"); net->AddArc("PreviousHumanTurn", "CurrentHumanTurn"); return net; }
BayesNet *SevenNodesModel() { BayesNet *net; net = new BayesNet(); net->AddNode(continuous^"node0 node1 node5"); net->AddNode(discrete^"node2 node3 node4 node6", "False True"); net->AddArc("node0", "node3"); net->AddArc("node1", "node3"); net->AddArc("node2", "node3"); net->AddArc("node3", "node4"); net->AddArc("node3", "node5"); net->AddArc("node0", "node6"); net->AddArc("node4", "node6"); net->SetPGaussian("node0", "0.5", "1.0"); net->SetPGaussian("node1", "0.5", "1.0"); net->SetPTabular("node2^True node2^False", "0.3 0.7"); net->SetPSoftMax("node3^True node3^False", "0.5 0.4 0.5 0.7", "0.3 0.5", "node2^False"); net->SetPSoftMax("node3^True node3^False", "0.5 0.1 0.5 0.7", "0.3 0.5 ", "node2^True"); net->SetPTabular("node4^True node4^False", "0.8 0.2", "node3^True"); net->SetPTabular("node4^True node4^False", "0.3 0.7", "node3^False"); net->SetPGaussian("node5", "0.5", "0.5", "1.0", "node3^True"); net->SetPGaussian("node5", "1.0", "1.0", "1.0", "node3^False"); net->SetPSoftMax("node6^True node6^False", "0.8 0.2", "0.1 0.9", "node4^True"); net->SetPSoftMax("node6^True node6^False", "0.5 0.9", "0.7 0.3", "node4^False"); return net; }
BayesNet *TestsPnlHigh::CreateCondGaussianModel1() { // Cont1 Tab1 // | | // \/ \/ // Cont2 BayesNet *net; net = new BayesNet(); net->AddNode(continuous^"Cont1 Cont2", "dim1"); net->AddNode(discrete^"Tab1", "dim1 dim2"); net->AddArc("Cont1 Tab1", "Cont2"); return net; }
BayesNet *VerySimpleMultivariateGaussianModel() { // NodeA -> NodeB -> NodeC BayesNet *net; net = new BayesNet(); net->AddNode(continuous^"NodeB NodeA NodeC", "dim1 dim2"); // net->AddNode(continuous^"NodeA NodeB NodeC", "dim1"); net->AddArc("NodeA", "NodeB"); net->AddArc("NodeB", "NodeC"); net->SetPGaussian("NodeA", "1.0 2.0", "10.0 0.1 0.1 10.0"); net->SetPGaussian("NodeB", "0.5 1.5", "7.0 0.0 0.0 7.0", "0.1 0.2 0.3 0.4"); net->SetPGaussian("NodeC", "0.8 1.8", "3.5 0.5 0.5 3.5", "0.5 0.6 0.7 0.8"); return net; }
BayesNet *VerySimpleGaussianModel() { // NodeA -> NodeB -> NodeC BayesNet *net; net = new BayesNet(); net->AddNode(continuous^"NodeB NodeA NodeC", "dim1"); // net->AddNode(continuous^"NodeA NodeB NodeC", "dim1"); net->AddArc("NodeA", "NodeB"); net->AddArc("NodeB", "NodeC"); net->SetPGaussian("NodeA", "1.0", "10.0"); net->SetPGaussian("NodeB", "0.5", "7.0", "0.1"); net->SetPGaussian("NodeC", "0.8", "3.5", "0.4"); return net; }
int main(int arg,char * argv[]) { int a=1,b=2; int c=a+b; cout<<c<<endl; //creating bayes net //BayesNet net; BayesNet net; //adding node net.AddNode("discrete^Cloudy","true false"); net.AddNode(discrete^"Sprinkler Rain WetGrass","true false"); //adding edges net.AddArc("Cloudy","Sprinkler Rain"); net.AddArc("Sprinkler Rain","WetGrass"); //sopecfify the CPD //cloudy net.SetPTabular("Cloudy^true","0.6"); net.SetPTabular("Cloudy^false","0.4"); //spprinkler net.SetPTabular("Sprinkler^true Sprinkler^false","0.1 0.9","Cloudy^true"); net.SetPTabular("Sprinkler^true Sprinkler^false","0.5 0.5","Cloudy^false"); //rain net.SetPTabular("Rain^true Rain^false","0.8 0.2","Cloudy^true"); net.SetPTabular("Rain^true Rain^false","0.2 0.8","Cloudy^false"); //WetGrass net.SetPTabular("WetGrass^true WetGrass^false","0.99 0.01","Sprinkler^true Rain^true"); net.SetPTabular("WetGrass^true WetGrass^false","0.9 0.1","Sprinkler^true Rain^false"); net.SetPTabular("WetGrass^true WetGrass^false","0.9 0.1","Sprinkler^false Rain^true"); net.SetPTabular("WetGrass^true WetGrass^false","0.0 1.0","Sprinkler^false Rain^false"); //get the cpd TokArr PCloudy=net.GetPTabular("Cloudy"); String PCloudyStr=String(PCloudy); float PCloudyTrueF=PCloudy[0].FltValue(); float PCloudyFalseF=PCloudy[1].FltValue(); cout<<endl<<"Cloudy"<<endl; cout<<PCloudyStr<<endl; cout<<PCloudyTrueF<<endl; cout<<PCloudyFalseF<<endl; /* //adding evidence //net.AddEvidToBuf("Rain^true WetGrass^true"); net.EditEvidence("Rain^true WetGrass^true"); net.CurEvidToBuf(); net.LearnParameters(); cout<<endl<<"evidence Rain^true WetGrass^true"<<endl; //get the jpd TokArr WetGrassMarg=net.GetJPD("WetGrass"); String WetGrassMargStr=String(WetGrassMarg); cout<<endl<<"WetGrass JPD"<<endl<<WetGrassMargStr<<endl; TokArr WetGrassAndSprinklerMarg=net.GetJPD("WetGrass Sprinkler Rain"); String WetGrassAndSprinklerMargStr=String(WetGrassAndSprinklerMarg); cout<<endl<<"WetGrass and Sprinkler JPD"<<endl<<WetGrassAndSprinklerMargStr<<endl; TokArr WetGrassMPE=net.GetMPE("WetGrass"); String WetGrassMPEStr=String(WetGrassMPE); cout<<endl<<"WetGrass MPE"<<endl<<WetGrassMPEStr<<endl; TokArr WetGrassAndSprinklerMPE=net.GetMPE("WetGrass Sprinkler Rain"); String WetGrassAndSprinklerMPEStr=String(WetGrassAndSprinklerMPE); cout<<endl<<"WetGrass and Spinkler MPE"<<endl<<WetGrassAndSprinklerMPEStr<<endl; //delete evidence net.ClearEvid(); cout<<"ok"<<endl;*/ //net.AddEvidToBuf("Sprinkler^true WetGrass^true"); net.EditEvidence("Sprinkler^true WetGrass^true"); net.CurEvidToBuf(); net.LearnParameters(); cout<<endl<<"evidence Sprinkler^true WetGrass^true"<<endl; //get jpd TokArr WetGrassMarg=net.GetJPD("WetGrass"); String WetGrassMargStr=String(WetGrassMarg); cout<<endl<<"WetGrass JPD"<<endl<<WetGrassMargStr<<endl; TokArr WetGrassAndSprinklerMarg=net.GetJPD("WetGrass Sprinkler Rain"); String WetGrassAndSprinklerMargStr=String(WetGrassAndSprinklerMarg); cout<<endl<<"WetGrass and Sprinkler JPD"<<endl<<WetGrassAndSprinklerMargStr<<endl; TokArr WetGrassMPE=net.GetMPE("WetGrass"); String WetGrassMPEStr=String(WetGrassMPE); cout<<endl<<"WetGrass MPE"<<endl<<WetGrassMPEStr<<endl; TokArr WetGrassAndSprinklerMPE=net.GetMPE("WetGrass Sprinkler Rain Cloudy"); String WetGrassAndSprinklerMPEStr=String(WetGrassAndSprinklerMPE); cout<<endl<<"WetGrass and Spinkler MPE"<<endl<<WetGrassAndSprinklerMPEStr<<endl; cout<<endl<<"moonsea"<<endl; return 0; }
int main() { BayesNet net; // adding nodes net.AddNode("discrete^Cloudy", "true false"); net.AddNode("discrete^Sprinkler", "true false"); net.AddNode("discrete^Rain", "true false"); net.AddNode("discrete^WetGrass", "true false"); //adding edges net.AddArc("Cloudy", "Sprinkler Rain"); net.AddArc("Sprinkler Rain", "WetGrass"); // specifying the conditional probabilities net.SetPTabular("Cloudy^true Cloudy^false", "0.6 0.4"); net.SetPTabular("Sprinkler^true Sprinkler^false", "0.1 0.9", "Cloudy^true"); net.SetPTabular("Sprinkler^true Sprinkler^false", "0.5 0.5", "Cloudy^false"); net.SetPTabular("Rain^true Rain^false", "0.8 0.2", "Cloudy^true"); net.SetPTabular("Rain^true Rain^false", "0.2 0.8", "Cloudy^false"); // net.SetPTabular("WetGrass^true WetGrass^false", "0.99 0.01", "Rain^true Sprinkler^true "); net.SetPTabular("WetGrass^true WetGrass^false", "0.9 0.1", "Sprinkler^true Rain^false"); net.SetPTabular("WetGrass^true WetGrass^false", "0.9 0.1", "Sprinkler^false Rain^true"); net.SetPTabular("WetGrass^true WetGrass^false", "0.0 1.0", "Sprinkler^false Rain^false"); //To get the probability distribution of the node we must call the GetPTabular method: TokArr PCloudy = net.GetPTabular("Cloudy"); // Now it is possible to represent this distribution as string or as float numbers: String PCloudyStr = String(PCloudy); float PCloudyTrueF = PCloudy[0].FltValue(); float PCloudyFalseF = PCloudy[1].FltValue(); cout << PCloudyStr << std::endl << PCloudyTrueF << "," << PCloudyFalseF << std::endl; TokArr PSprinkler = net.GetPTabular("Sprinkler", "Cloudy^true"); String PSprinklerStr = String(PSprinkler); float PSprinklerTrue = PSprinkler[0].FltValue(); float PSprinklerFalse = PSprinkler[1].FltValue(); cout << PSprinklerStr << std::endl << PSprinklerTrue << "," << PSprinklerFalse << std::endl; // net.EditEvidence("Cloudy^false WetGrass^false"); // if the above line is un commented then after the net line the evidence buffer will have "Sprinkler^true Cloudy^true WetGrass^false" net.EditEvidence("Sprinkler^true Cloudy^true"); TokArr PRain = net.GetJPD("Rain"); // Now it is possible to represent this distribution as string or as float numbers: String PRainStr = String(PRain); float PRainTrueF = PRain[0].FltValue(); float PRainFalseF = PRain[1].FltValue(); cout << PRainStr << std::endl << PRainTrueF << "," << PRainFalseF << std::endl; TokArr PWetGrass = net.GetJPD("WetGrass"); String PWetGrassStr = String(PWetGrass); float PWetGrassTrue = PWetGrass[0].FltValue(); float PWetGrassFalse = PWetGrass[1].FltValue(); cout << PWetGrassStr << std::endl << PWetGrassTrue << "," << PWetGrassFalse << std::endl; return 0; }
BayesNet* CropModel() { // Subsidy(d) Crop(c) // | | // V V // Price(c) // | // V // Buy(d) BayesNet *net; net = new BayesNet(); textcolor(WHITE); net->AddNode(discrete^"Subsidy", "Yes No"); printf("\n net->AddNode(discrete^\"Subsidy\", \"Yes No\");"); textcolor(LIGHTGREEN); printf("\t\t\t\t\t\tAdding of nodes is in process...."); _sleep(2000); textcolor(WHITE); net->AddNode(continuous ^ "Crop"); printf("\n net->AddNode(continuous ^ \"Crop\");"); _sleep(1000); net->AddNode(continuous ^ "Price"); printf("\n net->AddNode(continuous ^ \"Price\");"); _sleep(1000); net->AddNode(discrete^"Buy", "Yes No"); printf("\n net->AddNode(discrete^\"Buy\", \"Yes No\");"); textcolor(LIGHTGREEN); printf("\n ......All nodes are added....\n"); getch(); // arcs textcolor(WHITE); net->AddArc("Subsidy Crop", "Price"); printf("\n net->AddArc(\"Subsidy Crop\", \"Price\");"); textcolor(LIGHTGREEN); printf("\t\t\t\t\t\t\tAdding of arcs is in process...."); _sleep(2000); textcolor(WHITE); net->AddArc("Price", "Buy"); printf("\n net->AddArc(\"Price\", \"Buy\");"); textcolor(LIGHTGREEN); printf("\n ......All arcs are added....\n"); getch(); // distributions textcolor(WHITE); net->SetPTabular("Subsidy^Yes Subsidy^No", "0.3 0.7"); printf("\n net->SetPTabular(\"Subsidy^Yes Subsidy^No\", \"0.3 0.7\");"); textcolor(LIGHTGREEN); printf("\t\t\t\t\tAdding of distributions is in process...."); _sleep(2000); textcolor(WHITE); net->SetPGaussian("Crop", "5.0", "1.0"); printf("\n net->SetPGaussian(\"Crop\", \"5.0\", \"1.0\");"); _sleep(1000); net->SetPGaussian("Price", "10.0", "1.0", "-1.0", "Subsidy^Yes"); printf("\n net->SetPGaussian(\"Price\", \"10.0\", \"1.0\", \"-1.0\", \"Subsidy^Yes\");"); _sleep(1000); net->SetPGaussian("Price", "20.0", "1.0", "-1.0", "Subsidy^No"); printf("\n net->SetPGaussian(\"Price\", \"20.0\", \"1.0\", \"-1.0\", \"Subsidy^No\");"); _sleep(1000); net->SetPSoftMax("Buy^Yes Buy^No", "-1.0 1.0", "5.0 -5.0"); printf("\n net->SetPSoftMax(\"Buy^Yes Buy^No\", \"-1.0 1.0\", \"5.0 -5.0\");"); textcolor(LIGHTGREEN); printf("\n ......All distributions are added....\n"); getch(); textcolor(WHITE); return net; }
BayesNet *WasteModel() { BayesNet *net; net = new BayesNet(); textcolor(WHITE); net->AddNode(discrete^"TypeOfWaste", "industrial household"); net->AddNode(discrete^"FilterState", "intact defective"); net->AddNode(discrete^"BurningRegime", "stable unstable"); printf("\n net->AddNode(discrete^\"TypeOfWaste\", \"industrial household\");"); textcolor(LIGHTGREEN); printf("\t\t\t\tAdding of nodes is in process...."); _sleep(2000); textcolor(WHITE); printf("\n net->AddNode(discrete^\"FilterState\", \"intact defective\");"); _sleep(1000); printf("\n net->AddNode(discrete^\"BurningRegime\", \"stable unstable\");"); _sleep(1000); net->AddNode(continuous^"FilterEfficiency CO2Emission DustEmission", "dim1"); printf("\n net->AddNode(continuous^\"FilterEfficiency CO2Emission DustEmission\", \"dim1\");"); _sleep(1000); net->AddNode(continuous^"MetalInWaste MetalEmission Light", "dim1"); printf("\n net->AddNode(continuous^\"MetalInWaste MetalEmission Light\", \"dim1\");"); textcolor(LIGHTGREEN); printf("\n ......All nodes are added....\n"); getch(); // arcs textcolor(WHITE); net->AddArc("TypeOfWaste FilterState", "FilterEfficiency"); printf("\n net->AddArc(\"TypeOfWaste FilterState\", \"FilterEfficiency\");"); textcolor(LIGHTGREEN); printf("\t\t\t\tAdding of arcs is in process...."); _sleep(2000); textcolor(WHITE); net->AddArc("FilterState FilterEfficiency BurningRegime", "DustEmission") ; printf("\n net->AddArc(\"FilterState FilterEfficiency BurningRegime\", \"DustEmission\") ;"); _sleep(1000); net->AddArc( "FilterState", "MetalInWaste"); printf("\n net->AddArc(\"FilterState\", \"MetalInWaste\");"); _sleep(1000); net->AddArc( "BurningRegime", "CO2Emission"); printf("\n net->AddArc(\"BurningRegime\", \"CO2Emission\");"); _sleep(1000); net->AddArc( "DustEmission MetalInWaste", "MetalEmission"); printf("\n net->AddArc(\"DustEmission MetalInWaste\", \"MetalEmission\");"); _sleep(1000); net->AddArc( "MetalInWaste", "Light"); printf("\n net->AddArc(\"MetalInWaste\", \"Light\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All arcs are added....\n"); getch(); // distributions textcolor(WHITE); net->SetPTabular( "TypeOfWaste^industrial TypeOfWaste^household", "0.95 0.05"); printf("\n net->SetPTabular(\"TypeOfWaste^industrial TypeOfWaste^household\", \"0.95 0.05\");"); textcolor(LIGHTGREEN); printf("\t\tAdding of distributions is in process...."); _sleep(2000); textcolor(WHITE); net->SetPTabular( "FilterState^intact FilterState^defective", "0.285714 0.714286"); printf("\n net->SetPTabular(\"FilterState^intact FilterState^defective\", \"0.285714 0.714286\");"); _sleep(1000); net->SetPTabular( "BurningRegime^stable BurningRegime^unstable", "0.85 0.15"); printf("\n net->SetPTabular(\"BurningRegime^stable BurningRegime^unstable\", \"0.85 0.15\");"); _sleep(1000); net->SetPGaussian( "FilterEfficiency", "-3.2", "0.00002", "", "TypeOfWaste^industrial FilterState^defective"); printf("\n net->SetPGaussian(\"FilterEfficiency\", \"-3.2\", \"0.00002\", \"\", \n\t\t\"TypeOfWaste^industrial FilterState^defective\");"); _sleep(1000); net->SetPGaussian( "FilterEfficiency", "-0.5", "0.0001", "", "TypeOfWaste^industrial FilterState^intact"); printf("\n net->SetPGaussian(\"FilterEfficiency\", \"-0.5\", \"0.0001\", \"\", \n\t\t\"TypeOfWaste^industrial FilterState^intact\");"); _sleep(1000); net->SetPGaussian( "FilterEfficiency", "-3.9", "0.00002", "", "TypeOfWaste^household FilterState^defective"); printf("\n net->SetPGaussian(\"FilterEfficiency\", \"-3.9\", \"0.00002\", \"\", \n\t\t\"TypeOfWaste^household FilterState^defective\");"); _sleep(1000); net->SetPGaussian( "FilterEfficiency", "-0.4", "0.0001", "", "TypeOfWaste^household FilterState^intact"); printf("\n net->SetPGaussian(\"FilterEfficiency\", \"-0.4\", \"0.0001\", \"\", \n\t\t\"TypeOfWaste^household FilterState^intact\");"); _sleep(1000); net->SetPGaussian( "CO2Emission", "-2", "0.1", "", "BurningRegime^stable"); printf("\n net->SetPGaussian(\"CO2Emission\", \"-2\", \"0.1\", \"\", \"BurningRegime^stable\");"); _sleep(1000); net->SetPGaussian( "CO2Emission", "-1", "0.3", "", "BurningRegime^unstable"); printf("\n net->SetPGaussian(\"CO2Emission\", \"-1\", \"0.3\", \"\", \"BurningRegime^unstable\");"); _sleep(1000); net->SetPGaussian( "DustEmission", "6.5", "0.03", "1.0", "FilterState^intact BurningRegime^stable"); printf("\n net->SetPGaussian(\"DustEmission\", \"6.5\", \"0.03\", \"1.0\", \"FilterState^intact \n\t\tBurningRegime^stable\");"); _sleep(1000); net->SetPGaussian( "DustEmission", "7.5", "0.1", "1.0", "FilterState^intact BurningRegime^unstable"); printf("\n net->SetPGaussian(\"DustEmission\", \"7.5\", \"0.1\", \"1.0\", \"FilterState^intact \n\t\tBurningRegime^unstable\");"); _sleep(1000); net->SetPGaussian( "DustEmission", "6.0", "0.04", "1.0", "FilterState^defective BurningRegime^stable"); printf("\n net->SetPGaussian(\"DustEmission\", \"6.0\", \"0.04\", \"1.0\", \"FilterState^defective \n\t\tBurningRegime^stable\");"); _sleep(1000); net->SetPGaussian( "DustEmission", "7.0", "0.01", "1.0", "FilterState^defective BurningRegime^unstable"); printf("\n net->SetPGaussian(\"DustEmission\", \"7.0\", \"0.01\", \"1.0\", \"FilterState^defective \n\t\tBurningRegime^unstable\");"); _sleep(1000); net->SetPGaussian( "MetalInWaste", "0.5", "0.01", "", "FilterState^intact"); printf("\n net->SetPGaussian(\"MetalInWaste\", \"0.5\", \"0.01\", \"\", \"FilterState^intact\");"); _sleep(1000); net->SetPGaussian( "MetalInWaste", "-0.5", "0.005", "", "FilterState^defective"); printf("\n net->SetPGaussian(\"MetalInWaste\", \"-0.5\", \"0.005\", \"\", \"FilterState^defective\");"); _sleep(1000); net->SetPGaussian( "MetalEmission", "0.0", "0.02", "1.0 1.0"); printf("\n net->SetPGaussian(\"MetalEmission\", \"0.0\", \"0.02\", \"1.0 1.0\");"); _sleep(1000); net->SetPGaussian( "Light", "3.0", "0.25", "-0.5"); printf("\n net->SetPGaussian(\"Light\", \"3.0\", \"0.25\", \"-0.5\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All distributions are added....\n"); getch(); textcolor(WHITE); return net; }
BayesNet *ScalarGaussianBNetModel() { // NodeA NodeB // \ / // NodeC // / \ // NodeD NodeE BayesNet *net; net = new BayesNet(); textcolor(WHITE); net->AddNode(continuous^"NodeA NodeB NodeC", "dim1"); printf("\n net->AddNode(continuous^\"NodeA NodeB NodeC\", \"dim1\");"); textcolor(LIGHTGREEN); printf("\t\t\t\tAdding of nodes is in process...."); _sleep(2000); textcolor(WHITE); net->AddNode(continuous^"NodeD NodeE", "dim1"); printf("\n net->AddNode(continuous^\"NodeD NodeE\", \"dim1\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All nodes are added....\n"); getch(); // arcs textcolor(WHITE); net->AddArc("NodeA NodeB", "NodeC"); printf("\n net->AddArc(\"NodeA NodeB\", \"NodeC\");"); textcolor(LIGHTGREEN); printf("\t\t\t\t\t\tAdding of arcs is in process...."); _sleep(2000); textcolor(WHITE); net->AddArc("NodeC", "NodeD NodeE"); printf("\n net->AddArc(\"NodeC\", \"NodeD NodeE\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All arcs are added....\n"); getch(); // distributions textcolor(WHITE); net->SetPGaussian("NodeA", "1.0", "4.0"); printf("\n net->SetPGaussian(\"NodeA\", \"1.0\", \"4.0\");"); textcolor(LIGHTGREEN); printf("\t\t\t\t\tAdding of distributions is in process...."); _sleep(2000); textcolor(WHITE); net->SetPGaussian("NodeB", "1.0", "1.0"); printf("\n net->SetPGaussian(\"NodeB\", \"1.0\", \"1.0\");"); _sleep(1000); net->SetPGaussian("NodeC", "0.0", "2.0", "1.0 2.0"); printf("\n net->SetPGaussian(\"NodeC\", \"0.0\", \"2.0\", \"1.0 2.0\");"); _sleep(1000); net->SetPGaussian("NodeD", "0.0", "4.0", "1.1"); printf("\n net->SetPGaussian(\"NodeD\", \"0.0\", \"4.0\", \"1.1\");"); _sleep(1000); net->SetPGaussian("NodeE", "-0.8", "1.2", "2.0"); printf("\n net->SetPGaussian(\"NodeE\", \"-0.8\", \"1.2\", \"2.0\");"); textcolor(LIGHTGREEN); printf("\n ......All distributions are added....\n"); getch(); textcolor(WHITE); return net; }
PNLW_BEGIN BayesNet *AsiaModel() { BayesNet *net; net = new BayesNet(); // nodes textcolor(WHITE); net->AddNode(discrete^"Smoking", "True False"); printf("\n net->AddNode(discrete^\"Smoking\", \"True False\");"); textcolor(LIGHTGREEN); printf("\t\t\t\tAdding of nodes is in process...."); _sleep(2000); textcolor(WHITE); net->AddNode(discrete^"VisitToAsia", "True False"); printf("\n net->AddNode(discrete^\"VisitToAsia\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"Bronchitis", "True False"); printf("\n net->AddNode(discrete^\"Bronchitis\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"LungCancer", "True False"); printf("\n net->AddNode(discrete^\"LungCancer\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"Tuberculosis", "True False"); printf("\n net->AddNode(discrete^\"Tuberculosis\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"Dyspnoea", "True False"); printf("\n net->AddNode(discrete^\"Dyspnoea\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"CancerOrTuberculosis", "True False"); printf("\n net->AddNode(discrete^\"CancerOrTuberculosis\", \"True False\");"); _sleep(1000); net->AddNode(discrete^"XRayPositive", "True False"); printf("\n net->AddNode(discrete^\"XRayPositive\", \"True False\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All nodes are added....\n"); getch(); // arcs textcolor(WHITE); net->AddArc("Smoking", "Bronchitis LungCancer"); printf("\n net->AddArc(\"Smoking\", \"Bronchitis LungCancer\");"); textcolor(LIGHTGREEN); printf("\t\t\t\tAdding of arcs is in process...."); _sleep(2000); textcolor(WHITE); net->AddArc("VisitToAsia", "Tuberculosis"); printf("\n net->AddArc(\"VisitToAsia\", \"Tuberculosis\");"); _sleep(1000); net->AddArc("LungCancer Tuberculosis", "CancerOrTuberculosis"); printf("\n net->AddArc(\"LungCancer Tuberculosis\", \"CancerOrTuberculosis\");"); _sleep(1000); net->AddArc("Bronchitis", "Dyspnoea"); printf("\n net->AddArc(\"Bronchitis\", \"Dyspnoea\");"); _sleep(1000); net->AddArc("CancerOrTuberculosis", "Dyspnoea XRayPositive"); printf("\n net->AddArc(\"CancerOrTuberculosis\", \"Dyspnoea XRayPositive\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All arcs are added....\n"); getch(); // distributions textcolor(WHITE); net->SetPTabular("Smoking^True Smoking^False", "0.5 0.5"); printf("\n net->SetPTabular(\"Smoking^True Smoking^False\", \"0.5 0.5\");"); textcolor(LIGHTGREEN); printf("\t\t\tAdding of distributions is in process...."); _sleep(2000); textcolor(WHITE); net->SetPTabular("VisitToAsia^True VisitToAsia^False", "0.01 0.99"); printf("\n net->SetPTabular(\"VisitToAsia^True VisitToAsia^False\", \"0.01 0.99\");"); _sleep(1000); net->SetPTabular("Bronchitis^True", "0.3", "Smoking^False"); printf("\n net->SetPTabular(\"Bronchitis^True\", \"0.3\", \"Smoking^False\");"); _sleep(1000); net->SetPTabular("Bronchitis^False", "0.7", "Smoking^False"); printf("\n net->SetPTabular(\"Bronchitis^False\", \"0.7\", \"Smoking^False\");"); _sleep(1000); net->SetPTabular("Bronchitis^True", "0.4", "Smoking^True"); printf("\n net->SetPTabular(\"Bronchitis^True\", \"0.4\", \"Smoking^True\");"); _sleep(1000); net->SetPTabular("Bronchitis^False", "0.6", "Smoking^True"); printf("\n net->SetPTabular(\"Bronchitis^False\", \"0.6\", \"Smoking^True\");"); _sleep(1000); net->SetPTabular("LungCancer^True", "0.01","Smoking^False"); printf("\n net->SetPTabular(\"LungCancer^True\", \"0.01\",\"Smoking^False\");"); _sleep(1000); net->SetPTabular("LungCancer^False", "0.99","Smoking^False"); printf("\n net->SetPTabular(\"LungCancer^False\", \"0.99\",\"Smoking^False\");"); _sleep(1000); net->SetPTabular("LungCancer^True", "0.1","Smoking^True"); printf("\n net->SetPTabular(\"LungCancer^True\", \"0.1\",\"Smoking^True\");"); _sleep(1000); net->SetPTabular("LungCancer^False", "0.9","Smoking^True"); printf("\n net->SetPTabular(\"LungCancer^False\", \"0.9\",\"Smoking^True\");"); _sleep(1000); net->SetPTabular("Tuberculosis^True", "0.01", "VisitToAsia^False"); printf("\n net->SetPTabular(\"Tuberculosis^True\", \"0.01\", \"VisitToAsia^False\");"); _sleep(1000); net->SetPTabular("Tuberculosis^False", "0.99", "VisitToAsia^False"); printf("\n net->SetPTabular(\"Tuberculosis^False\", \"0.99\", \"VisitToAsia^False\");"); _sleep(1000); net->SetPTabular("Tuberculosis^True", "0.05", "VisitToAsia^True" ); printf("\n net->SetPTabular(\"Tuberculosis^True\", \"0.05\", \"VisitToAsia^True\" );"); _sleep(1000); net->SetPTabular("Tuberculosis^False", "0.95", "VisitToAsia^True" ); printf("\n net->SetPTabular(\"Tuberculosis^False\", \"0.95\", \"VisitToAsia^True\" );"); _sleep(1000); net->SetPTabular("CancerOrTuberculosis^True", "0.0", "LungCancer^False Tuberculosis^False"); printf("\n net->SetPTabular(\"CancerOrTuberculosis^True\", \"0.0\", \n \t \"LungCancer^False Tuberculosis^False\");"); _sleep(1000); net->SetPTabular("CancerOrTuberculosis^False", "1.0", "LungCancer^False Tuberculosis^False"); printf("\n net->SetPTabular(\"CancerOrTuberculosis^False\", \"1.0\", \n \t \"LungCancer^False Tuberculosis^False\");"); _sleep(1000); net->SetPTabular("CancerOrTuberculosis^True CancerOrTuberculosis^False", "1.0 0.0", "LungCancer^False Tuberculosis^True"); printf("\n net->SetPTabular(\"CancerOrTuberculosis^True CancerOrTuberculosis^False\",\n \t \"1.0 0.0\", \"LungCancer^False Tuberculosis^True\");"); _sleep(1000); net->SetPTabular("CancerOrTuberculosis^True CancerOrTuberculosis^False", "1.0 0.0", "LungCancer^True Tuberculosis^False"); printf("\n net->SetPTabular(\"CancerOrTuberculosis^True CancerOrTuberculosis^False\", \n \t\"1.0 0.0\", \"LungCancer^True Tuberculosis^False\");"); _sleep(1000); net->SetPTabular("CancerOrTuberculosis^True CancerOrTuberculosis^False", "1.0 0.0", "LungCancer^True Tuberculosis^True"); printf("\n net->SetPTabular(\"CancerOrTuberculosis^True CancerOrTuberculosis^False\", \n \t\"1.0 0.0\", \"LungCancer^True Tuberculosis^True\");"); _sleep(1000); net->SetPTabular("Dyspnoea^True Dyspnoea^False", "0.1 0.9", "Bronchitis^False CancerOrTuberculosis^False"); printf("\n net->SetPTabular(\"Dyspnoea^True Dyspnoea^False\", \"0.1 0.9\", \n \t\"Bronchitis^False CancerOrTuberculosis^False\");"); _sleep(1000); net->SetPTabular("Dyspnoea^True Dyspnoea^False", "0.7 0.3", "Bronchitis^False CancerOrTuberculosis^True"); printf("\n net->SetPTabular(\"Dyspnoea^True Dyspnoea^False\", \"0.7 0.3\", \n \t\"Bronchitis^False CancerOrTuberculosis^True\");"); _sleep(1000); net->SetPTabular("Dyspnoea^True Dyspnoea^False", "0.8 0.2", "Bronchitis^True CancerOrTuberculosis^False"); printf("\n net->SetPTabular(\"Dyspnoea^True Dyspnoea^False\", \"0.8 0.2\", \n \t\"Bronchitis^True CancerOrTuberculosis^False\");"); _sleep(1000); net->SetPTabular("Dyspnoea^True Dyspnoea^False", "0.9 0.1", "Bronchitis^True CancerOrTuberculosis^True"); printf("\n net->SetPTabular(\"Dyspnoea^True Dyspnoea^False\", \"0.9 0.1\", \n \t\"Bronchitis^True CancerOrTuberculosis^True\");"); _sleep(1000); net->SetPTabular("XRayPositive^True XRayPositive^False", "0.05 0.95", "CancerOrTuberculosis^False"); printf("\n net->SetPTabular(\"XRayPositive^True XRayPositive^False\", \"0.05 0.95\", \n \t\"CancerOrTuberculosis^False\");"); _sleep(1000); net->SetPTabular("XRayPositive^True XRayPositive^False", "0.98 0.02", "CancerOrTuberculosis^True"); printf("\n net->SetPTabular(\"XRayPositive^True XRayPositive^False\", \"0.98 0.02\", \n \t\"CancerOrTuberculosis^True\");"); _sleep(1000); textcolor(LIGHTGREEN); printf("\n ......All distributions are added....\n"); textcolor(WHITE); getch(); return net; }