def get_information(file_path): # using target_MDG and a benchmark, create result
"""
Execute Each algorithm for given file and return TurboMQ, cohesion, and coupling
:param file_path: A path of dot file
:return: Clustering result - value of TurboMQ, A list of [Cohesion, Coupling], A list of result clusters
"""
targetMDG = make_target_MDG(file_path)
methods = ['WCA', 'HC', 'WCA_HC', 'SA', 'WCA_SA', 'PSO', 'WCA_PSO']
clusters_set = []
TMQ = []
cohe_coup = []
print("====WCA start====\n")
clusters_set.append(WCA(targetMDG))
print("====WCA end====\n\n")
print("====HC start====\n")
clusters_set.append(HC.HC(targetMDG))
print("====HC end====\n\n")
print("====WCA_HC start====\n")
clusters_set.append(HC.WCA_HC(targetMDG, WCA(targetMDG)))
print("====WCA_HC end====\n\n")
print("====SA start====\n")
clusters_set.append(SA.SA(targetMDG))
print("====SA end====\n\n")
print("====WCA_SA start====\n")
clusters_set.append(SA.WCA_SA(targetMDG, WCA(targetMDG)))
print("====WCA_SA end====\n\n")
print("====PSO start====\n\n")
clusters_set.append(PSO.PSO(targetMDG))
print("====PSO end====\n\n")
print("====WCA_PSO start====\n\n")
clusters_set.append(PSO.WCA_PSO(targetMDG, WCA(targetMDG)))
print("====WCA_PSO end====\n\n")
# get TMQ data
for clusters in clusters_set:
TMQ.append(TurboMQ.calculate_fitness(clusters, targetMDG))
cohe_coup.append(TurboMQ.get_cohesion_coupling(clusters, targetMDG))
# write result files
for i in range(len(methods)):
DotParser.write_file(file_path, methods[i], clusters_set[i], targetMDG)
return TMQ, cohe_coup, clusters_set
def main():
parser = argparse.ArgumentParser(description='Modularize given dot file')
parser.add_argument('file_path',
metavar='F',
type=str,
nargs='+',
help='File path for dot file')
parser.add_argument(
'-a',
help=
'Algorithm for modularization. All, WCA, HC, WCA_HC, SA, WCA_SA, PSO, WCA_PSO'
)
args = parser.parse_args()
file_path = args.file_path
if args.a:
modularizeMethod = args.a
else:
modularizeMethod = 'All'
for single_file in file_path:
targetMDG = MakeResult.make_target_MDG(single_file)
clusters = None
if modularizeMethod == 'WCA':
clusters = WCA(targetMDG)
elif modularizeMethod == 'HC':
clusters = HC.HC(targetMDG)
elif modularizeMethod == 'WCA_HC':
clusters = HC.WCA_HC(targetMDG, WCA(targetMDG))
elif modularizeMethod == 'SA':
clusters = SA.SA(targetMDG)
elif modularizeMethod == 'WCA_SA':
clusters = SA.WCA_SA(targetMDG, WCA(targetMDG))
elif modularizeMethod == 'PSO':
clusters = PSO.PSO(targetMDG)
elif modularizeMethod == 'WCA_PSO':
clusters = PSO.WCA_PSO(targetMDG, WCA(targetMDG))
elif modularizeMethod == 'All':
MakeResult.print_result(single_file)
if modularizeMethod != 'All':
DotParser.write_file(single_file, modularizeMethod, clusters,
targetMDG)
