def runTest(directory,file,solver,objType): path = join(directory, file) if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(path) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") startTime = datetime.now() if solver == SolverType.CDRU: search_problem = SearchProblem(tpnu,FeasibilityType.DYNAMIC_CONTROLLABILITY,objType) search_problem.initialize() solution = search_problem.next_solution() elif solver == SolverType.MIP: mip_solver = MipEncode(tpnu,objType) solution = mip_solver.mip_solver() else: raise Exception('Unknown solver type') runtime = datetime.now() - startTime print("----------------------------------------") if solution is not None: print(file + " solved in " + str(runtime)) else: print(file + " not solved in " + str(runtime)) return solution.json_description(file,BenchmarkRCPSP.getSolveName(solver),runtime.total_seconds(),search_problem.candidates_dequeued)
def assert_dc_result(self, example_file, expected_result): for solver in DynamicControllability.SOLVERS: path = join(self.examples_dir, example_file) if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(join(self.examples_dir, example_file)) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") # for tc in tpnu.temporal_constraints: # tpnu.temporal_constraints[tc].pretty_print() conflict = DynamicControllability.check(tpnu, solver=solver) # if conflict is not None: # kirk_conflict = Conflict() # kirk_conflict.add_negative_cycles(conflict,tpnu) # kirk_conflict.pretty_print() is_dynamically_controllable = conflict is None self.assertEqual(is_dynamically_controllable, expected_result)
def runTest(directory, file, solver, objType, feaType, ccType): path = join(directory, file) print("----------------------------------------") print("Solving: " + file) if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(path) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") startTime = datetime.now() manager = Manager() container = manager.SolutionContainer() p = Process(target=BenchmarkAUV.solve, name="Solve", args=( tpnu, solver, objType, feaType, ccType, startTime, file, container, )) p.start() p.join(30) if p.is_alive(): print("Solver is running... No solution found in time limit...") # Terminate foo p.terminate() p.join() solution = container.get_value() runtime = datetime.now() - startTime if solution is not None: print(file + " solved in " + str(runtime)) else: print(file + " not solved in " + str(runtime)) if solution is not None: return solution else: result = {} result["TestName"] = file result["Solver"] = BenchmarkAUV.getSolveName(solver) result["Runtime"] = runtime.total_seconds() result["Error"] = "No Solution Found" return result
def assert_tpn_result(self, example_file, expected_result): tpn_obj = Tpn.parseTPN(join(self.examples_dir, example_file)) tpnu_obj = Tpnu.from_tpn_autogen(tpn_obj) if tpnu_obj is not None: self.assertEqual(expected_result, True) if tpnu_obj is None: self.assertEqual(expected_result, False)
def getProblemFromFile(self, path): if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(path) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") return tpnu
def runTest(directory,file,solver,objType,feaType,ccType): path = join(directory, file) print("----------------------------------------") print("Solving: " + file) if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(path) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") startTime = datetime.now() manager = Manager() container = manager.SolutionContainer() p = Process(target=BenchmarkAUV.solve, name="Solve", args=(tpnu,solver,objType,feaType,ccType,startTime,file,container,)) p.start() p.join(30) if p.is_alive(): print("Solver is running... No solution found in time limit...") # Terminate foo p.terminate() p.join() solution = container.get_value() runtime = datetime.now() - startTime if solution is not None: print(file + " solved in " + str(runtime)) else: print(file + " not solved in " + str(runtime)) if solution is not None: return solution else: result = {} result["TestName"] = file result["Solver"] = BenchmarkAUV.getSolveName(solver) result["Runtime"] = runtime.total_seconds() result["Error"] = "No Solution Found" return result
def runTest(directory, file, solver, objType): path = join(directory, file) if Tpnu.isCCTP(path): tpnu = Tpnu.parseCCTP(path) elif Tpnu.isTPN(path): obj = Tpn.parseTPN(path) tpnu = Tpnu.from_tpn_autogen(obj) else: raise Exception("Input file " + path + " is neither a CCTP nor a TPN") startTime = datetime.now() if solver == SolverType.CDRU: search_problem = SearchProblem( tpnu, FeasibilityType.DYNAMIC_CONTROLLABILITY, objType) search_problem.initialize() solution = search_problem.next_solution() elif solver == SolverType.MIP: mip_solver = MipEncode(tpnu, objType) solution = mip_solver.mip_solver() else: raise Exception('Unknown solver type') runtime = datetime.now() - startTime print("----------------------------------------") if solution is not None: print(file + " solved in " + str(runtime)) else: print(file + " not solved in " + str(runtime)) return solution.json_description(file, BenchmarkRCPSP.getSolveName(solver), runtime.total_seconds(), search_problem.candidates_dequeued)
__author__ = 'yupeng' from tpn import Tpn if __name__ == '__main__': # Load the tpn from file obj = Tpn.parseTPN(r'C:\Users\yupeng\Downloads\document.tpn') print("TPN parsed successfully") Tpn.writeTPN(obj, r'C:\Users\yupeng\Downloads\document_out.tpn')
__author__ = "yupeng" from tpn import Tpn if __name__ == "__main__": # Load the tpn from file obj = Tpn.parseTPN(r"C:\Users\yupeng\Downloads\document.tpn") print("TPN parsed successfully") Tpn.writeTPN(obj, r"C:\Users\yupeng\Downloads\document_out.tpn")