This program has been disqualified.
| Author | ffenliv |
| Submission date | 2019-01-23 16:12:12.691145 |
| Rating | 4319 |
| Matches played | 4 |
| Win rate | 25.0 |
import random
from random import randint
import re
import math
MOVES = ["R","P","S"]
BEATS = {"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}}
SINGLE_WEIGHT = 3
MY_SINGLE_WEIGHT = 3
DOUBLE_WEIGHT = 3
MY_DOUBLE_WEIGHT = 2
TRIPLE_WEIGHT = 4
def their_single_history(THEIR_HISTORY, input, SINGLE_THROW):
THEIR_LAST_THROW = input # pointless variable, just because I didn't want to find-replace all
for i, val in enumerate(THEIR_HISTORY, start=1):
if i < (len(THEIR_HISTORY) - 1):
if val == THEIR_LAST_THROW:
if THEIR_HISTORY[i+1] == 'R':
SINGLE_THROW[0] += 1
elif THEIR_HISTORY[i+1] == 'P':
SINGLE_THROW[1] += 1
elif THEIR_HISTORY[i+1] == 'S':
SINGLE_THROW[2] += 1
TOTAL_SINGLE = sum(SINGLE_THROW) # sum of all throws, just in case it somehow differs from the round number, because I suck at this
SINGLE_ROLLS = [0,0,0]
for count, i in enumerate(SINGLE_THROW): # generate a random roll between 0 and the number of times a result was thrown, gives chance for lesser-thrown result to be accounted for
SINGLE_ROLLS[count] = randint(0, (i*100)/TOTAL_SINGLE)
SINGLE_ROLL_MAX = max(SINGLE_ROLLS) # gets the max roll
MAX_ROLL_INDEX = SINGLE_ROLLS.index(SINGLE_ROLL_MAX) # gets the index of the max roll
SINGLE_GUESS = MOVES[MAX_ROLL_INDEX] # get the associated move from the guess
SINGLE_RESPONSE = BEATS[SINGLE_GUESS] # get the move that beats the guess
return SINGLE_RESPONSE
def their_double_history(THEIR_HISTORY, inupt, DOUBLE_THROW):
THEIR_LAST_THROW = input
THEIR_LAST_2_THROWS = THEIR_HISTORY[-2]
THEIR_HISTORY_JOIN = ''.join(THEIR_HISTORY)
for match in re.finditer(THEIR_HISTORY_JOIN[-2:], THEIR_HISTORY_JOIN):
if match.end() < len(THEIR_HISTORY_JOIN):
common_response = THEIR_HISTORY_JOIN[match.end()]
if common_response == 'R':
DOUBLE_THROW[0] += 1
elif common_response == 'P':
DOUBLE_THROW[1] += 1
elif common_response == 'S':
DOUBLE_THROW[2] += 1
TOTAL_DOUBLE = sum(DOUBLE_THROW) # sum of all throws, just in case it somehow differs from the round number, because I suck at this
DOUBLE_ROLLS = [0,0,0]
for count, i in enumerate(DOUBLE_THROW): # generate a random roll between 0 and the number of times a result was thrown, gives chance for lesser-thrown result to be accounted for
DOUBLE_ROLLS[count] = randint(0, (i*100)/TOTAL_DOUBLE)
DOUBLE_ROLL_MAX = max(DOUBLE_ROLLS) # gets the max roll
MAX_ROLL_INDEX = DOUBLE_ROLLS.index(DOUBLE_ROLL_MAX) # gets the index of the max roll
DOUBLE_GUESS = MOVES[MAX_ROLL_INDEX] # get the associated move from the guess
DOUBLE_RESPONSE = BEATS[DOUBLE_GUESS] # get the move that beats the guess
return DOUBLE_RESPONSE
def my_single_history(MY_HISTORY, MY_SINGLE_THROW):
MY_LAST_THROW = MY_HISTORY[-1]
for i, val in enumerate(MY_HISTORY, start=1):
if i < (len(MY_HISTORY)-1):
if MY_HISTORY[i+1] == 'R':
MY_SINGLE_THROW[0] += 1
elif MY_HISTORY[i+1] == 'P':
MY_SINGLE_THROW[1] += 1
elif MY_HISTORY[i+1] == 'S':
MY_SINGLE_THROW[2] += 1
MY_TOTAL_SINGLE = sum(MY_SINGLE_THROW) # sum of all throws, just in case it somehow differs from the round number, because I suck at this
MY_SINGLE_ROLLS = [0,0,0]
for count, i in enumerate(MY_SINGLE_THROW): # generate a random roll between 0 and the number of times a result was thrown, gives chance for lesser-thrown result to be accounted for
MY_SINGLE_ROLLS[count] = randint(0, (i*100)/MY_TOTAL_SINGLE)
MY_SINGLE_ROLL_MAX = max(MY_SINGLE_ROLLS) # gets the max roll
MAX_ROLL_INDEX = MY_SINGLE_ROLLS.index(MY_SINGLE_ROLL_MAX) # gets the index of the max roll
MY_SINGLE_GUESS = MOVES[MAX_ROLL_INDEX] # get the associated move from the guess
MY_SINGLE_RESPONSE = BEATS[MY_SINGLE_GUESS] # get the move that beats the guess
return MY_SINGLE_RESPONSE
def my_double_history(MY_HISTORY, inupt, MY_DOUBLE_THROW):
MY_LAST_THROW = input
MY_LAST_2_THROWS = MY_HISTORY[-2]
MY_HISTORY_JOIN = ''.join(MY_HISTORY)
for match in re.finditer(MY_HISTORY_JOIN[-2:], MY_HISTORY_JOIN):
if match.end() < len(MY_HISTORY_JOIN):
common_response = MY_HISTORY_JOIN[match.end()]
if common_response == 'R':
MY_DOUBLE_THROW[0] += 1
elif common_response == 'P':
MY_DOUBLE_THROW[1] += 1
elif common_response == 'S':
MY_DOUBLE_THROW[2] += 1
response = MY_DOUBLE_THROW.index(max(MY_DOUBLE_THROW))
MY_DOUBLE_GUESS = MOVES[response]
MY_DOUBLE_RESPONSE = BEATS[MY_DOUBLE_GUESS]
return MY_DOUBLE_RESPONSE
def get_output(SINGLE_RESPONSE, DOUBLE_RESPONSE, MY_SINGLE_RESPONSE, MY_DOUBLE_RESPONSE):
CHOICES = [SINGLE_RESPONSE, DOUBLE_RESPONSE, MY_DOUBLE_RESPONSE, MY_SINGLE_RESPONSE]
SINGLE_ROLL = randint(0,SINGLE_WEIGHT)
DOUBLE_ROLL = randint(0, DOUBLE_WEIGHT)
MY_SINGLE_ROLL = randint(0, MY_SINGLE_WEIGHT)
MY_DOUBLE_ROLL = randint(0, MY_DOUBLE_WEIGHT)
ROLLS_LIST=[SINGLE_ROLL, DOUBLE_ROLL, MY_SINGLE_ROLL, MY_DOUBLE_ROLL]
MAX_ROLL = max(ROLLS_LIST)
MAX_INDEX = ROLLS_LIST.index(MAX_ROLL)
FINAL_GUESS = CHOICES[MAX_INDEX]
FINAL_RESPONSE = BEATS[FINAL_GUESS]
return FINAL_RESPONSE
if(1):
if input == "": # no input means first round, initialize variables that will hold things long-term
THEIR_HISTORY = []
MY_HISTORY = []
SINGLE_THROW = [0,0,0]
DOUBLE_THROW = [0,0,0]
MY_SINGLE_THROW = [0,0,0]
MY_DOUBLE_THROW = [0,0,0]
TRIPLE_THROW = [0,0,0]
round = 0
output = random.choice(MOVES)
MY_HISTORY.append(output)
round += 1
else:
THEIR_HISTORY.append(input)
if round < 10: # relatively new game, just throw random output
output = random.choice(MOVES)
MY_HISTORY.append(output)
round += 1
else:
SINGLE_RESPONSE = their_single_history(THEIR_HISTORY, input, SINGLE_THROW)
DOUBLE_RESPONSE = their_double_history(THEIR_HISTORY, input, DOUBLE_THROW)
MY_SINGLE_RESPONSE = my_single_history(MY_HISTORY, MY_SINGLE_THROW)
MY_DOUBLE_RESPONSE = my_single_history(MY_HISTORY, MY_DOUBLE_THROW)
output = get_output(SINGLE_RESPONSE, DOUBLE_RESPONSE, MY_SINGLE_RESPONSE, MY_DOUBLE_RESPONSE)
MY_HISTORY.append(output)