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graphkit-learn/lang/fr/gklearn/gedlib/test.py

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  1. #export LD_LIBRARY_PATH=.:/export/home/lambertn/Documents/gedlibpy/lib/fann/:/export/home/lambertn/Documents/gedlibpy/lib/libsvm.3.22:/export/home/lambertn/Documents/gedlibpy/lib/nomad

  2. 

  3. #Pour que "import script" trouve les librairies qu'a besoin GedLib

  4. #Equivalent à définir la variable d'environnement LD_LIBRARY_PATH sur un bash

  5. import librariesImport

  6. import gedlibpy

  7. import networkx as nx

  8. 

  9. def init() :

  10.     print("List of Edit Cost Options : ")

  11.     for i in gedlibpy.list_of_edit_cost_options :

  12.         print (i)

  13.     print("")

  14. 

  15.     print("List of Method Options : ")

  16.     for j in gedlibpy.list_of_method_options :

  17.         print (j)

  18.     print("")

  19. 

  20.     print("List of Init Options : ")

  21.     for k in gedlibpy.list_of_init_options :

  22.         print (k)

  23.     print("")

  24.     

  25. init()

  26. 

  27. def afficheMatrix(mat) :

  28.     for i in mat :

  29.         line = ""

  30.         for j in i :

  31.             line+=str(j)

  32.             line+=" "

  33.         print(line)

  34. 

  35. def createNxGraph() :

  36.     G = nx.Graph()

  37.     G.add_node("1", chem = "C")

  38.     G.add_node("2", chem = "0")

  39.     G.add_edge("1", "2", valence = "1")

  40.     G.add_node("3", chem = "N")

  41.     G.add_node("4", chem = "C")

  42.     G.add_edge("3", "4", valence = "1")

  43.     G.add_edge("3", "2", valence = "1")

  44.     return G

  45. 

  46. #G = createNxGraph()

  47. 

  48. def addGraphTest() :

  49.     gedlibpy.restart_env()

  50.     gedlibpy.load_GXL_graphs('include/gedlib-master/data/datasets/Mutagenicity/data/', 'collections/MUTA_10.xml')

  51. 

  52.     currentID = gedlibpy.add_graph()

  53.     print(currentID)

  54.     

  55.     gedlibpy.add_node(currentID, "_1", {"chem" : "C"})

  56.     gedlibpy.add_node(currentID, "_2", {"chem" : "O"})

  57.     gedlibpy.add_edge(currentID,"_1", "_2",  {"valence": "1"} )

  58. 

  59.     listID = gedlibpy.get_all_graph_ids()

  60.     print(listID)

  61.     print(gedlibpy.get_graph_node_labels(10))

  62.     print(gedlibpy.get_graph_edges(10))

  63.     

  64.     for i in listID : 

  65.         print(gedlibpy.get_graph_node_labels(i))

  66.         print(gedlibpy.get_graph_edges(i))

  67. 

  68. #addGraphTest()

  69. 

  70. def shortTest() :

  71.     gedlibpy.restart_env()

  72.     

  73.     print("Here is the mini Python function !")

  74.     

  75.     gedlibpy.load_GXL_graphs("include/gedlib-master/data/datasets/Mutagenicity/data/", "include/gedlib-master/data/collections/Mutagenicity.xml")

  76.     listID = gedlibpy.get_all_graph_ids()

  77.     gedlibpy.set_edit_cost("CHEM_1")

  78. 

  79.     gedlibpy.init()

  80. 

  81.     gedlibpy.set_method("BIPARTITE", "")

  82.     gedlibpy.init_method()

  83. 

  84.     g = listID[0]

  85.     h = listID[1]

  86. 

  87.     gedlibpy.run_method(g,h)

  88. 

  89.     print("Node Map : ", gedlibpy.get_node_map(g,h))

  90.     print("Assignment Matrix : ")

  91.     afficheMatrix(gedlibpy.get_assignment_matrix(g,h))

  92.     print ("Upper Bound = " + str(gedlibpy.get_upper_bound(g,h)) + ", Lower Bound = " + str(gedlibpy.get_lower_bound(g,h)) + ", Runtime = " + str(gedlibpy.get_runtime(g,h)))

  93. 

  94. #shortTest()

  95. 

  96. def classiqueTest() :

  97.     gedlibpy.restart_env()

  98.     

  99.     gedlibpy.load_GXL_graphs('include/gedlib-master/data/datasets/Mutagenicity/data/', 'collections/MUTA_10.xml')

  100.     listID = gedlibpy.get_all_graph_ids()

  101.     

  102.     afficheId = ""

  103.     for i in listID :

  104.         afficheId+=str(i) + " "

  105.     print("Number of graphs = " + str(len(listID)) + ", list of Ids = " + afficheId)

  106. 

  107.     gedlibpy.set_edit_cost("CHEM_1")

  108. 

  109.     gedlibpy.init()

  110. 

  111.     gedlibpy.set_method("IPFP", "")

  112.     gedlibpy.init_method()

  113. 

  114.     g = listID[0]

  115.     h = listID[0]

  116. 

  117.     gedlibpy.run_method(g,h)

  118.     liste = gedlibpy.get_all_map(g,h)

  119.     print("Forward map : " , gedlibpy.get_forward_map(g,h), ", Backward map : ", gedlibpy.get_backward_map(g,h))

  120.     print("Node Map : ", gedlibpy.get_node_map(g,h))

  121.     print ("Upper Bound = " + str(gedlibpy.get_upper_bound(g,h)) + ", Lower Bound = " + str(gedlibpy.get_lower_bound(g,h)) + ", Runtime = " + str(gedlibpy.get_runtime(g,h)))

  122. 

  123. #classiqueTest()

  124. 

  125. def nxTest(dataset) :

  126.     gedlibpy.restart_env()

  127.     

  128.     for graph in dataset :

  129.         gedlibpy.add_nx_graph(graph, "")

  130.         

  131.     listID = gedlibpy.get_all_graph_ids()

  132.     gedlibpy.set_edit_cost("CHEM_1")

  133.     gedlibpy.init()

  134.     gedlibpy.set_method("IPFP", "")

  135.     gedlibpy.init_method()

  136. 

  137.     print(listID)

  138.     g = listID[0]

  139.     h = listID[1]

  140. 

  141.     gedlibpy.run_method(g,h)

  142. 

  143.     print("Node Map : ", gedlibpy.get_node_map(g,h))

  144.     print ("Upper Bound = " + str(gedlibpy.get_upper_bound(g,h)) + ", Lower Bound = " + str(gedlibpy.get_lower_bound(g,h)) + ", Runtime = " + str(gedlibpy.get_runtime(g,h)))

  145. 

  146. #dataset = [createNxGraph(), createNxGraph()]

  147. #nxTest(dataset)

  148. 

  149. def LSAPETest(matrixCost) :

  150.     result = gedlibpy.hungarian_LSAPE(matrixCost)

  151.     print("Rho = ", result[0], " Varrho = ", result[1], " u = ", result[2], " v = ", result[3])

  152. 

  153. #LSAPETest([[2,3,4], [5,1,9], [7,10,3]])

  154. 

  155. def LSAPTest(matrixCost) :

  156.     result = gedlibpy.hungarian_LSAP(matrixCost)

  157.     print("Rho = ", result[0], " Varrho = ", result[1], " u = ", result[2], " v = ", result[3])

  158. 

  159. #LSAPETest([[2,3,4], [5,1,9], [7,10,3]])