1 files changed, 12 insertions, 12 deletions
diff --git a/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py b/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py
index d761ef82..eb9d4ae2 100644
--- a/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py
+++ b/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py
@@ -12,31 +12,31 @@ import DistributionMetrics as metrics
 def main():
    # read models
-    human = GraphCollection('../input/yakindumm/human_output_100/', 500, 'Human')
+    human = GraphCollection('../input/human_30_500_no_xml/', 500, 'human_no_xml')
-    human_na = GraphCollection('../input/yakindumm/human_output_100/na_rep/', 1, 'Human rep')
+    human2 = GraphCollection('../input/human_30_500_xml/', 500, 'human_xml')
-    human_mpc = GraphCollection('../input/yakindumm/human_output_100/mpc_rep/', 1, 'Human rep')
+    # human_na = GraphCollection('../input/human_models_50_500/na_rep/', 1, 'Human rep')
-    human_od = GraphCollection('../input/yakindumm/human_output_100/od_rep/', 1, 'Human rep')
+    # human_mpc = GraphCollection('../input/human_models_50_500/mpc_rep/', 1, 'Human rep')
+    # human_od = GraphCollection('../input/human_models_50_500/od_rep/', 1, 'Human rep')
-    #viatra75 = GraphCollection('../input/viatra_75/', 500, 'Viatra (75 nodes)')
+    # viatra75 = GraphCollection('../input/viatra_75/', 500, 'Viatra (75 nodes)')
    # viatra30 = GraphCollection('../input/viatraOutput30/', 500,'Viatra (30 nodes)')
    # viatra60 = GraphCollection('../input/viatraOutput60/', 500, 'Viatra (60 nodes)')
    # viatra100 = GraphCollection('../input/viatraOutput100/', 500, 'Viatra (100 nodes)')
    # viatra100R = GraphCollection('../input/realisticViatraOutput_newMetric/', 500, 'Realistic Viatra (100 nodes)')
-    viatra100C = GraphCollection('../input/yakindumm/viatraOutput100C/', 500, 'Viatra consistent (100 nodes)')
+    # viatra100C = GraphCollection('../input/yakindumm/viatraOutput100C/', 500, 'Viatra consistent (100 nodes)')
    # viatra100EE = GraphCollection('../input/realisticViatra_excludeExit/', 500, 'Realistic Viatra no Exit (100 nodes)')
    # viatra100EEF = GraphCollection('../input/realisticViatra_excludeExitFinal/', 500, 'Realistic Viatra no Exit Final (100 nodes)')
-    viatra100NT = GraphCollection('../input/yakindumm/realisticVIatraOutput_nodeTypeKS/', 500, 'Realistic Viatra with Node Type KS (100 nodes)')
+    # viatra100NT = GraphCollection('../input/yakindumm/realisticVIatraOutput_nodeTypeKS/', 500, 'Realistic Viatra with Node Type KS (100 nodes)')
    # random = GraphCollection('../input/randomOutput/', 500, 'Random')
    # alloy = GraphCollection('../input/alloy/', 500, 'Alloy (30 nodes)')
    # realistic_viatra = GraphCollection('../input/viatra_output_consistent_100/', 50, 'Realistic Viatra With Some Constraints (100 nodes)')
-    # human100 = GraphCollection('../input/human_output_100/', 304, 'Human')
+    models_to_compare_na = [human, human2]
-    models_to_compare_na = [human, human_na, viatra100C,viatra100NT]
+    models_to_compare_mpc = [human, human2]
-    models_to_compare_mpc = [human, human_mpc ,viatra100C,viatra100NT]
+    models_to_compare_od = [human, human2]
-    models_to_compare_od = [human, human_od, viatra100C,viatra100NT]
    
    # define output folder
-    outputFolder = '../output/Yakindumm/'
+    outputFolder = '../output/'
    #calculate metrics
    metricStat(models_to_compare_na, 'Node Activity', nodeActivity, 0, outputFolder)

diff --git a/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py b/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py index d761ef82..eb9d4ae2 100644 --- a/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py +++ b/Metrics/Metrics-Calculation/metrics_plot/model comparison/src/plot_ks_stats.py
@@ -12,31 +12,31 @@ import DistributionMetrics as metrics
12		12
13	def main():	13	def main():
14	# read models	14	# read models
15	human = GraphCollection('../input/yakindumm/human_output_100/', 500, 'Human')	15	human = GraphCollection('../input/human_30_500_no_xml/', 500, 'human_no_xml')
16	human_na = GraphCollection('../input/yakindumm/human_output_100/na_rep/', 1, 'Human rep')	16	human2 = GraphCollection('../input/human_30_500_xml/', 500, 'human_xml')
17	human_mpc = GraphCollection('../input/yakindumm/human_output_100/mpc_rep/', 1, 'Human rep')	17	# human_na = GraphCollection('../input/human_models_50_500/na_rep/', 1, 'Human rep')
18	human_od = GraphCollection('../input/yakindumm/human_output_100/od_rep/', 1, 'Human rep')	18	# human_mpc = GraphCollection('../input/human_models_50_500/mpc_rep/', 1, 'Human rep')
		19	# human_od = GraphCollection('../input/human_models_50_500/od_rep/', 1, 'Human rep')
19		20
20	#viatra75 = GraphCollection('../input/viatra_75/', 500, 'Viatra (75 nodes)')	21	# viatra75 = GraphCollection('../input/viatra_75/', 500, 'Viatra (75 nodes)')
21	# viatra30 = GraphCollection('../input/viatraOutput30/', 500,'Viatra (30 nodes)')	22	# viatra30 = GraphCollection('../input/viatraOutput30/', 500,'Viatra (30 nodes)')
22	# viatra60 = GraphCollection('../input/viatraOutput60/', 500, 'Viatra (60 nodes)')	23	# viatra60 = GraphCollection('../input/viatraOutput60/', 500, 'Viatra (60 nodes)')
23	# viatra100 = GraphCollection('../input/viatraOutput100/', 500, 'Viatra (100 nodes)')	24	# viatra100 = GraphCollection('../input/viatraOutput100/', 500, 'Viatra (100 nodes)')
24	# viatra100R = GraphCollection('../input/realisticViatraOutput_newMetric/', 500, 'Realistic Viatra (100 nodes)')	25	# viatra100R = GraphCollection('../input/realisticViatraOutput_newMetric/', 500, 'Realistic Viatra (100 nodes)')
25	viatra100C = GraphCollection('../input/yakindumm/viatraOutput100C/', 500, 'Viatra consistent (100 nodes)')	26	# viatra100C = GraphCollection('../input/yakindumm/viatraOutput100C/', 500, 'Viatra consistent (100 nodes)')
26	# viatra100EE = GraphCollection('../input/realisticViatra_excludeExit/', 500, 'Realistic Viatra no Exit (100 nodes)')	27	# viatra100EE = GraphCollection('../input/realisticViatra_excludeExit/', 500, 'Realistic Viatra no Exit (100 nodes)')
27	# viatra100EEF = GraphCollection('../input/realisticViatra_excludeExitFinal/', 500, 'Realistic Viatra no Exit Final (100 nodes)')	28	# viatra100EEF = GraphCollection('../input/realisticViatra_excludeExitFinal/', 500, 'Realistic Viatra no Exit Final (100 nodes)')
28	viatra100NT = GraphCollection('../input/yakindumm/realisticVIatraOutput_nodeTypeKS/', 500, 'Realistic Viatra with Node Type KS (100 nodes)')	29	# viatra100NT = GraphCollection('../input/yakindumm/realisticVIatraOutput_nodeTypeKS/', 500, 'Realistic Viatra with Node Type KS (100 nodes)')
29		30
30	# random = GraphCollection('../input/randomOutput/', 500, 'Random')	31	# random = GraphCollection('../input/randomOutput/', 500, 'Random')
31	# alloy = GraphCollection('../input/alloy/', 500, 'Alloy (30 nodes)')	32	# alloy = GraphCollection('../input/alloy/', 500, 'Alloy (30 nodes)')
32	# realistic_viatra = GraphCollection('../input/viatra_output_consistent_100/', 50, 'Realistic Viatra With Some Constraints (100 nodes)')	33	# realistic_viatra = GraphCollection('../input/viatra_output_consistent_100/', 50, 'Realistic Viatra With Some Constraints (100 nodes)')
33	# human100 = GraphCollection('../input/human_output_100/', 304, 'Human')	34	models_to_compare_na = [human, human2]
34	models_to_compare_na = [human, human_na, viatra100C,viatra100NT]	35	models_to_compare_mpc = [human, human2]
35	models_to_compare_mpc = [human, human_mpc ,viatra100C,viatra100NT]	36	models_to_compare_od = [human, human2]
36	models_to_compare_od = [human, human_od, viatra100C,viatra100NT]
37		37
38	# define output folder	38	# define output folder
39	outputFolder = '../output/Yakindumm/'	39	outputFolder = '../output/'
40		40
41	#calculate metrics	41	#calculate metrics
42	metricStat(models_to_compare_na, 'Node Activity', nodeActivity, 0, outputFolder)	42	metricStat(models_to_compare_na, 'Node Activity', nodeActivity, 0, outputFolder)