Ejemplo n.º 1
0
    def __init__(self,state,draw_graph,quit_on_first,debug_info):
        Thread.__init__(self)
        self.t = time.time()
        self.draw_graph = draw_graph

        from src.solve.solver import Solver
        self.solver = Solver(debug_info=debug_info,quit_on_first=quit_on_first)
        self.solver.set_state(state)
Ejemplo n.º 2
0
def _process(json_data, use_cloud, quit_on_first=True, ignore_pickle=False, debug_info=None):
    slv = Solver(quit_on_first=quit_on_first, use_cloud=use_cloud, ignore_pickle=ignore_pickle, debug_info=debug_info)
    st = State()

    st.load_from_json(json_data)
    slv.set_state(st)

    filelist = []
    if use_cloud:
        # fetch remote pickle if exists
        filelist = cloud.files.list()
        pf = '%s.pickle' % st.__hash__()
        pffull = os.path.join('var', 'graphs', pf)
        if pf in filelist:
            cloud.files.get(pf, pffull)

    slv.solve()

    if use_cloud:  # upload solution
        cloud.files.put(pffull, pf)

    # the image, save it to cloud
    png = '%s.png' % st.__hash__()
    pngfull = os.path.join('var', 'graphs', png)
    if png not in filelist:  # irrelevent? FIXME , pngfull does not exist, since we never synced it.
        slv.draw_graph(filename=pngfull)
        if use_cloud:
            cloud.files.put(pngfull, png)
    else:
        print "Graph Image %s already exists" % pngfull

    ret = (slv.l_shortest)
    return ret
Ejemplo n.º 3
0
class _SolverThread(Thread):
    def __init__(self,state,draw_graph,quit_on_first,debug_info):
        Thread.__init__(self)
        self.t = time.time()
        self.draw_graph = draw_graph

        from src.solve.solver import Solver
        self.solver = Solver(debug_info=debug_info,quit_on_first=quit_on_first)
        self.solver.set_state(state)

    def run(self):
        self.solver.solve()
        if self.draw_graph:
            self.solver.draw_graph("data/graphs/graph-%s.png" % self.solver.state.__hash__()) #FIXME remove graph- prefix for consistency
        print "Took %d seconds" % int(time.time() - self.t)