class ExternalXCSPSolver(ExternalSolver):
def __init__(self):
super(ExternalXCSPSolver, self).__init__()
def set_model(self, model, solver_id, solver_name, solver):
self.model = model
self.output_model()
for nj_var, i in sorted(self.out_object.njvar_mapping.iteritems(), key=lambda (k, v): v):
my_var = ExternalXCSPIntVariable(nj_var)
nj_var.setVar(solver_id, solver_name, my_var, new_solver=solver)
nj_var.solver = solver
self.variables.append(my_var)
def output_model(self):
from XCSPOut import XCSPOutput
self.out_object = XCSPOutput(self.model)
self.out_object.output(self.filename)
def parse_output(self, output):
"""
Parses the solver output, which should conform to the output of the
CSP Solver competitions. http://cpai.ucc.ie/09/
"""
values = []
for line in output.split("\n"):
line = line.strip()
first_two = line[:2]
if len(line) == 0:
continue
if first_two == "s ":
print line
if "UNSATISFIABLE" in line or "UNSAT" in line:
self.sat = Numberjack.UNSAT
elif "SATISFIABLE" in line or "SAT" in line:
self.sat = Numberjack.SAT
elif first_two == "v ":
values.extend(map(int, line[2:].split()))
elif first_two == "d " or first_two == "c ":
self.parse_solver_info_line(line[2:])
if self.sat == Numberjack.SAT:
for i, variable in enumerate(self.variables):
variable.value = values[i]
class ExternalXCSPSolver(ExternalSolver):
def __init__(self):
super(ExternalXCSPSolver, self).__init__()
def set_model(self, model, solver_id, solver_name, solver):
self.model = model
self.output_model()
for nj_var, i in sorted(self.out_object.njvar_mapping.iteritems(),
key=lambda (k, v): v):
my_var = ExternalXCSPIntVariable(nj_var)
nj_var.setVar(solver_id, solver_name, my_var, new_solver=solver)
nj_var.solver = solver
self.variables.append(my_var)
def output_model(self):
from XCSPOut import XCSPOutput
self.out_object = XCSPOutput(self.model)
self.out_object.output(self.filename)
def parse_output(self, output):
"""
Parses the solver output, which should conform to the output of the
CSP Solver competitions. http://cpai.ucc.ie/09/
"""
values = []
for line in output.split("\n"):
line = line.strip()
first_two = line[:2]
if len(line) == 0:
continue
if first_two == "s ":
print line
if "UNSATISFIABLE" in line or "UNSAT" in line:
self.sat = Numberjack.UNSAT
elif "SATISFIABLE" in line or "SAT" in line:
self.sat = Numberjack.SAT
elif first_two == "v ":
values.extend(map(int, line[2:].split()))
elif first_two == "d " or first_two == "c ":
self.parse_solver_info_line(line[2:])
if self.sat == Numberjack.SAT:
for i, variable in enumerate(self.variables):
variable.value = values[i]
def output_model(self):
from XCSPOut import XCSPOutput
self.out_object = XCSPOutput(self.model)
self.out_object.output(self.filename)
def output_model(self):
from XCSPOut import XCSPOutput
self.out_object = XCSPOutput(self.model)
self.out_object.output(self.filename)
