This program has been disqualified.
Author | PiotrekG |
Submission date | 2018-09-07 12:12:05.255355 |
Rating | 5412 |
Matches played | 1 |
Win rate | 100.0 |
from __future__ import division
import random
import itertools
beat = {'R': 'P', 'P': 'S', 'S': 'R'}
class MarkovChain():
def __init__(self, type, beat, level, memory, score=0, score_mem=0.9):
self.type = type
self.matrix = self.create_matrix(beat, level, memory)
self.memory = memory
self.level = level
self.beat = beat
self.score = score
self.score_mem = score_mem
self.prediction = ''
self.name = 'level: {}, memory: {}'.format(self.level, self.memory)
self.last_updated_key = ''
@staticmethod
def create_matrix(beat, level, memory):
def create_keys(beat, level):
keys = list(beat)
if level > 1:
for i in range(level - 1):
key_len = len(keys)
for i in itertools.product(keys, ''.join(beat)):
keys.append(''.join(i))
keys = keys[key_len:]
return keys
keys = create_keys(beat, level)
matrix = {}
for key in keys:
matrix[key] = {'R': 1 / (1 - memory) / 3,
'P': 1 / (1 - memory) / 3,
'S': 1 / (1 - memory) / 3}
return matrix
def update_matrix(self, key_lagged, response):
for key in self.matrix[key_lagged]:
self.matrix[key_lagged][key] = self.memory * self.matrix[key_lagged][key]
self.matrix[key_lagged][response] += 1
self.last_updated_key = key_lagged
def update_score(self, inp, out):
if self.beat[out] == inp:
self.score = self.score * self.score_mem - 1
elif out == inp:
self.score = self.score * self.score_mem
else:
self.score = self.score * self.score_mem + 1
def predict(self, key_current):
probs = self.matrix[key_current]
if max(probs.values()) == min(probs.values()):
self.prediction = random.choice(list(beat.keys()))
else:
self.prediction = max([(i[1], i[0]) for i in probs.items()])[1]
if self.type == 'input_oriented':
return self.prediction
elif self.type == 'output_oriented':
return self.beat[self.prediction]
class Ensembler():
def __init__(self, type, beat, min_score=-10, score=0, score_mem=0.9):
self.type = type
self.matrix = {i: 0 for i in beat}
self.beat = beat
self.min_score = min_score
self.score = score
self.score_mem = score_mem
self.prediction = ''
def update_score(self, inp, out):
if self.beat[out] == inp:
self.score = self.score * self.score_mem - 1
elif out == inp:
self.score = self.score * self.score_mem
else:
self.score = self.score * self.score_mem + 1
def update_matrix(self, pred_dict, pred_score):
norm_dict = {key: pred_dict[key] / sum(pred_dict.values()) for key in pred_dict}
for key in self.matrix:
if pred_score >= self.min_score:
self.matrix[key] = self.matrix[key] + pred_score * norm_dict[key]
def predict(self):
if max(self.matrix.values()) == min(self.matrix.values()):
self.prediction = random.choice(list(beat.keys()))
else:
self.prediction = max([(i[1], i[0]) for i in self.matrix.items()])[1]
return self.prediction
class HistoryColl():
def __init__(self):
self.history = ''
def hist_collector(self, inp, out):
self.history = self.history + inp
self.history = self.history + out
if len(self.history) > 10:
self.history = self.history[-10:]
def create_keys(self, level):
return self.history[-level:]
def create_keys_hist(self, level):
key_hist = self.history[-level - 2:-2]
inp_latest = self.history[-2]
out_latest = self.history[-1]
return key_hist, inp_latest, out_latest
if input == '':
output = random.choice(list(beat.keys()))
history = HistoryColl()
memory = [0.5, 0.6, 0.7, 0.8, 0.9, 0.93, 0.95, 0.97, 0.99]
level = [1, 2, 3, 4]
ensemble_min_score = [3,4,5]
models_inp = [MarkovChain('input_oriented', beat, i[0], i[1]) for i in itertools.product(level, memory)]
models_out = [MarkovChain('output_oriented', beat, i[0], i[1]) for i in itertools.product(level, memory)]
models_ens = [Ensembler('ensemble', beat, i) for i in ensemble_min_score]
models = models_inp + models_out + models_ens
elif len(history.history) == 10:
history.hist_collector(input, output)
max_score = 0
for model in models:
if model.type in ('input_oriented', 'output_oriented'):
key_hist, inp_latest, out_latest = history.create_keys_hist(model.level)
key_curr = history.create_keys(model.level)
if model.prediction != '':
model.update_score(input, beat[model.prediction])
if model.type == 'input_oriented':
model.update_matrix(key_hist, inp_latest)
elif model.type == 'output_oriented':
model.update_matrix(key_hist, out_latest)
elif model.type == 'ensemble':
for mod in models:
if mod.type in ('input_oriented', 'output_oriented'):
model.update_matrix(mod.matrix[mod.last_updated_key], model.score)
if model.type in ('input_oriented', 'output_oriented'):
predicted_input = model.predict(key_curr)
elif model.type == 'ensemble':
predicted_input = model.predict()
if model.score > max_score:
best_model = model
max_score = model.score
output = beat[predicted_input]
if max_score < 1:
output = random.choice(list(beat.keys()))
else:
history.hist_collector(input, output)
output = random.choice(list(beat.keys()))