Author | locutus |
Submission date | 2018-09-15 04:55:24.616227 |
Rating | 7723 |
Matches played | 287 |
Win rate | 75.26 |
Use rpsrunner.py to play unranked matches on your computer.
import random
def selectBest(s):
return random.choice([i for i in range(len(s)) if max(s) == s[i]])
def selectBestDict(s):
ew = {i:s[beatedBy[beatedBy[i]]] - s[beatedBy[i]] for i in s.keys()};
return random.choice([i for i in ew.keys() if max(ew.values()) == ew[i]])
if not input:
debug = 0
USE_RANDOM = 1
USE_HENNY = 0
USE_MARKOW = 1
LAST_ROUND = 1000
ROUND = 1
history = []
moves = ["R","P","S"]
beatedBy = {"R":"P", "P":"S", "S":"R"}
result = {"R":{"R":0, "P":-1, "S":1}, "P":{"R":1, "P":0, "S":-1}, "S":{"R":-1, "P":1, "S":0}}
M = 0
if USE_RANDOM == 1:
M += 1
if USE_HENNY == 1:
M += 6
if USE_MARKOW == 1:
markov_orders = [0,1,2,3,4,5,6]
historyCount = {}
M += 6 * len(markov_orders)
weight = [1] * M
decay = [0.85] * M
score = [0] * M
selected = [0] * M
move = [random.choice(moves) for i in range(M)]
else:
ROUND += 1
history += [(last,input)]
score = [ decay[i] * score[i] + weight[i] * result[move[i]][input] for i in range(M)]
index = 0
# random optimal
if USE_RANDOM == 1:
move[index] = random.choice(moves)
# adjust random optimal score to zero
score[index] = 0
index += 1
first_meta_index = index
if USE_HENNY == 1:
# henny with meta strategies
k = random.choice(range(len(history)))
move[index] = history[k][0]
move[index+3] = history[k][1]
index += 6
if USE_MARKOW == 1:
# markow with meta strategies
for m in markov_orders:
if len(history) > m:
key = tuple(history[-m-1:-1])
if not (key in historyCount):
historyCount[key] = [{"R":0,"P":0,"S":0},{"R":0,"P":0,"S":0}]
historyCount[key][0][history[-1][0]] += 1
historyCount[key][1][history[-1][1]] += 1
for m in markov_orders:
if len(history) >= m:
key = tuple(history[-m:])
if key in historyCount:
move[index] = selectBestDict(historyCount[key][0])
move[index+3] = selectBestDict(historyCount[key][1])
else:
move[index] = random.choice(moves)
move[index+3] = random.choice(moves)
else:
move[index] = random.choice(moves)
move[index+3] = random.choice(moves)
index += 6
# set other meta strategies
for i in range(first_meta_index, M, 3):
move[i+1] = beatedBy[move[i]]
move[i+2] = beatedBy[move[i+1]]
if max(score) <= 3.0:
output = random.choice(moves)
else:
best = selectBest(score)
selected[best] += 1
output = move[best]
last = output
if debug == 1:
if ROUND == LAST_ROUND:
print "score =", score
print "selected =", selected