def hanoi(disks=7,towers=4,limit=None): path = os.path.join(latplan.__path__[0],"puzzles","-".join(map(str,["hanoi",disks,towers]))+".npz") import latplan.puzzles.hanoi as p p.setup() pres = p.generate_random_configs(disks,towers, limit) np.random.shuffle(pres) sucs = [ random.choice(p.successors(c1,disks,towers)) for c1 in pres ] np.savez_compressed(path,pres=pres,sucs=sucs)
def lightsout(type='digital', size=4): import importlib p = importlib.import_module('latplan.puzzles.lightsout_{}'.format(type)) p.setup() ics = reservoir_sampling( lightsout_special(np.full(size * size, -1), steps, lambda config: p.successors(config)), instances) gcs = np.full((1, size * size), -1) generate(p, ics, gcs)
def lightsout(type='digital', size=4): import importlib p = importlib.import_module('latplan.puzzles.lightsout_{}'.format(type)) ics = [ random_walk(np.full(size*size,-1), steps, lambda config: p.successors(config)) for i in range(instances) ] gcs = np.full((1,size*size),-1) generate(p, ics, gcs)
def lightsout(type='digital',size=4,limit=None): path = os.path.join(latplan.__path__[0],"puzzles","-".join(map(str,["lightsout",type,size]))+".npz") import importlib p = importlib.import_module('latplan.puzzles.lightsout_{}'.format(type)) p.setup() pres = p.generate_random_configs(size, limit) np.random.shuffle(pres) sucs = [ random.choice(p.successors(c1)) for c1 in pres ] np.savez_compressed(path,pres=pres,sucs=sucs)
def hanoi(disks=5, towers=3): import latplan.puzzles.hanoi as p p.setup() ics = [ np.zeros(disks, dtype=int), *reservoir_sampling( dijkstra(np.full(disks, towers - 1, dtype=int), steps, lambda config: p.successors(config, disks, towers)), instances - 1) ] gcs = np.full((1, disks), towers - 1, dtype=int) generate(p, ics, gcs, disks, towers)
def hanoi(disks=5, towers=3): import latplan.puzzles.hanoi as p ics = [ np.zeros(disks,dtype=int), *[ random_walk(np.full(disks,towers-1,dtype=int), steps, lambda config: p.successors(config,disks,towers)) for i in range(instances-1) ] ] gcs = np.full((1,disks),towers-1,dtype=int) generate(p, ics, gcs, disks, towers)