def __init__(self, **kwargs): configure_glpk() # # Call base constructor # kwargs['type'] = 'glpk' SystemCallSolver.__init__(self, **kwargs) self._rawfile = None # # Valid problem formats, and valid results for each format # self._valid_problem_formats = [ ProblemFormat.cpxlp, ProblemFormat.mps, ProblemFormat.mod ] self._valid_result_formats = { ProblemFormat.mod: ResultsFormat.soln, ProblemFormat.cpxlp: ResultsFormat.soln, ProblemFormat.mps: ResultsFormat.soln, } self.set_problem_format(ProblemFormat.cpxlp) # Note: Undefined capabilities default to 'None' self._capabilities = Options() self._capabilities.linear = True self._capabilities.integer = True
def __init__(self, **kwds): # # Call base constructor # if not 'type' in kwds: kwds["type"] = "asl" SystemCallSolver.__init__(self, **kwds) self._metasolver = True # # Setup valid problem formats, and valid results for each problem format. # Also set the default problem and results formats. # self._valid_problem_formats = [ProblemFormat.nl] self._valid_result_formats = {} self._valid_result_formats[ProblemFormat.nl] = [ResultsFormat.sol] self.set_problem_format(ProblemFormat.nl) # # Note: Undefined capabilities default to 'None' # self._capabilities = Bunch() self._capabilities.linear = True self._capabilities.integer = True self._capabilities.quadratic_objective = True self._capabilities.quadratic_constraint = True self._capabilities.sos1 = True self._capabilities.sos2 = True
def __init__ (self, **kwargs): configure_glpk() # # Call base constructor # kwargs['type'] = 'glpk' SystemCallSolver.__init__(self, **kwargs) self._rawfile = None # # Valid problem formats, and valid results for each format # self._valid_problem_formats = [ProblemFormat.cpxlp, ProblemFormat.mps, ProblemFormat.mod] self._valid_result_formats = { ProblemFormat.mod: ResultsFormat.soln, ProblemFormat.cpxlp: ResultsFormat.soln, ProblemFormat.mps: ResultsFormat.soln, } self.set_problem_format(ProblemFormat.cpxlp) # Note: Undefined capabilities default to 'None' self._capabilities = Options() self._capabilities.linear = True self._capabilities.integer = True
def __init__(self, **kwds): # # Call base class constructor # kwds['type'] = 'baron' SystemCallSolver.__init__(self, **kwds) self._tim_file = None self._valid_problem_formats = [ProblemFormat.bar] self._valid_result_formats = {} self._valid_result_formats[ProblemFormat.bar] = [ResultsFormat.soln] self.set_problem_format(ProblemFormat.bar) self._capabilities = Options() self._capabilities.linear = True self._capabilities.quadratic_objective = True self._capabilities.quadratic_constraint = True self._capabilities.integer = True self._capabilities.sos1 = False self._capabilities.sos2 = False # CLH: Coppied from cpxlp.py, the cplex file writer. # Keven Hunter made a nice point about using %.16g in his attachment # to ticket #4319. I am adjusting this to %.17g as this mocks the # behavior of using %r (i.e., float('%r'%<number>) == <number>) with # the added benefit of outputting (+/-). The only case where this # fails to mock the behavior of %r is for large (long) integers (L), # which is a rare case to run into and is probably indicative of # other issues with the model. # *** NOTE ***: If you use 'r' or 's' here, it will break code that # relies on using '%+' before the formatting character # and you will need to go add extra logic to output # the number's sign. self._precision_string = '.17g'
def __init__(self, **kwds): kwds["type"] = "neos" SystemCallSolver.__init__(self, **kwds) self._valid_problem_formats = [ProblemFormat.nl] self._valid_result_formats = {} self._valid_result_formats[ProblemFormat.nl] = [ResultsFormat.sol] self._problem_format = ProblemFormat.nl self._results_format = ResultsFormat.sol
def __init__(self, **kwds): # # Call base constructor # kwds["type"] = "pico" SystemCallSolver.__init__(self, **kwds) # # Setup valid problem formats, and valid results for each problem format # self._valid_problem_formats=[ProblemFormat.cpxlp, ProblemFormat.nl, ProblemFormat.mps] self._valid_result_formats = {} self._valid_result_formats[ProblemFormat.cpxlp] = [ResultsFormat.soln] self._valid_result_formats[ProblemFormat.nl] = [ResultsFormat.sol] self._valid_result_formats[ProblemFormat.mps] = [ResultsFormat.soln] self.set_problem_format(ProblemFormat.cpxlp) # Note: Undefined capabilities default to 'None' self._capabilities = Options() self._capabilities.linear = True self._capabilities.integer = True