def find_and_save_path(name, seed): edges, perfs = validate_file(name) graph = make_weighted_graph(edges, perfs) caller = supress_stdout(find_cover) random.seed(seed) res = caller(deepcopy(graph), find_sets) outname = "%s_path_%s.txt" % (name.replace(".in", ""), str(seed).zfill(4)) save_path(res, outname)
def gen_scores(filename, r=20): fpath = "final_inputs/%s" % filename graph = make_weighted_graph(*validate_file(fpath)) # random.seed(10) # find_sets(graph) scores = repeat_find_cover(graph, find_sets, r) outname = "output/%s_level.txt" % filename.split(".in")[0] save_scores(scores, outname)
def find_and_save_path(filename, seed): fpath = "final_inputs/%s" % filename graph = make_weighted_graph(*validate_file(fpath)) random.seed(seed) caller = supress_stdout(find_cover) res = caller(deepcopy(graph), find_sets) outname = "paths/%s_%s_hail.txt" % (filename.replace(".in", ""), str(seed).zfill(4)) save_path(res, outname)
def main(): # filename = "generated1.in" # "sample3.in" # "generated3.in" # path = "data/%s" % filename # filename = "02_01_00.in" #"3.in" #"0037.in" # path = "proposals/%s" % filename filename = "1.in" #"3.in" #"0037.in" path = "final_inputs/%s" % filename # """ edges, perfs = validate_file(path) graph = make_weighted_graph(edges, perfs) scores = repeat_find_cover(graph, find_sets, 20)
def compute_score(filename, paths): fpath = "final_inputs/%s" % filename graph = make_weighted_graph(*validate_file(fpath)) def calc_score(vertices): return len(vertices) * sum(graph[v].value for v in vertices) if type(paths[0]) == list: score = sum(calc_score(p) for p in paths) else: score = sum(paths) return score
def main(): # filename = "data/sample2.in" filename = "data/generated1.in" edges, perfs = validate_file(filename) graph = make_graph(edges, perfs) graph.display()