def testStochasticOutrankingDigraphs(): print('*------ test stochastic bipolar outranking digraphs ----*') from outrankingDigraphs import StochasticBipolarOutrankingDigraph from transitiveDigraphs import RankingByChoosingDigraph t = RandomCBPerformanceTableau(numberOfActions=13,\ numberOfCriteria=13,\ weightDistribution='equiobjectives') t.save('test') t = PerformanceTableau('test') g = BipolarOutrankingDigraph(t) g.recodeValuation(-1, 1) g.showRelationTable() gmc = StochasticBipolarOutrankingDigraph(t,Normalized=False,\ sampleSize=50,\ likelihood=0.05,\ Debug=False,\ samplingSeed=1) gmc.showRelationTable() gmc.showRelationStatistics('medians') gmc.showRelationStatistics('likelihoods') for x in gmc.actions: for y in gmc.actions: print('==>>', x, y) print('Q4', gmc.relationStatistics[x][y]['Q4']) print('Q3', gmc.relationStatistics[x][y]['Q3']) print('probQ3', gmc.computeCDF(x, y, gmc.relationStatistics[x][y]['Q3'])) print('Q2', gmc.relationStatistics[x][y]['median']) print('mean', gmc.relationStatistics[x][y]['mean']) print('Q1', gmc.relationStatistics[x][y]['Q1']) print('probQ1', gmc.computeCDF(x, y, gmc.relationStatistics[x][y]['Q1'])) print('Q0', gmc.relationStatistics[x][y]['Q0']) print('pv', gmc.relationStatistics[x][y]['likelihood']) print('prob0', gmc.computeCDF(x, y, 0.0)) print('sd', gmc.relationStatistics[x][y]['sd']) grbc = RankingByChoosingDigraph(g) grbc.showWeakOrder() gmcrbc = RankingByChoosingDigraph(gmc) gmcrbc.showWeakOrder()
def testStochasticOutrankingDigraphs(): print('*------ test stochastic bipolar outranking digraphs ----*') from outrankingDigraphs import StochasticBipolarOutrankingDigraph from weakOrders import RankingByChoosingDigraph t = RandomCBPerformanceTableau(numberOfActions=13,\ numberOfCriteria=13,\ weightDistribution='equiobjectives') t.save('test') t = PerformanceTableau('test') g = BipolarOutrankingDigraph(t) g.recodeValuation(-1,1) g.showRelationTable() gmc = StochasticBipolarOutrankingDigraph(t,Normalized=False,\ sampleSize=50,\ likelihood=0.05,\ Debug=False,\ samplingSeed=1) gmc.showRelationTable() gmc.showRelationStatistics('medians') gmc.showRelationStatistics('likelihoods') for x in gmc.actions: for y in gmc.actions: print('==>>',x,y) print('Q4',gmc.relationStatistics[x][y]['Q4']) print('Q3',gmc.relationStatistics[x][y]['Q3']) print('probQ3',gmc.computeCDF(x,y,gmc.relationStatistics[x][y]['Q3'])) print('Q2',gmc.relationStatistics[x][y]['median']) print('mean',gmc.relationStatistics[x][y]['mean']) print('Q1',gmc.relationStatistics[x][y]['Q1']) print('probQ1',gmc.computeCDF(x,y,gmc.relationStatistics[x][y]['Q1'])) print('Q0',gmc.relationStatistics[x][y]['Q0']) print('pv',gmc.relationStatistics[x][y]['likelihood']) print('prob0',gmc.computeCDF(x,y,0.0)) print('sd',gmc.relationStatistics[x][y]['sd']) grbc = RankingByChoosingDigraph(g) grbc.showWeakOrder() gmcrbc = RankingByChoosingDigraph(gmc) gmcrbc.showWeakOrder()