def main():
parser = OptionParser()
parser.add_option("-f", "--file", dest="filename",
help="Insturctions file (not yet implemented)")
parser.add_option("-d", "--debug", action="store_true", dest="debug",
default=False, help="Print lots of debug logging")
parser.add_option("-l", "--log-level", dest="log_level", default=logging.WARN)
parser.add_option("-c", "--config", help="Config file to read from (not implemented).")
parser.add_option( "--page-cache", help="Directory to dump pages to (for debugging only).")
parser.add_option("-u", "--username", help="Username for player.")
parser.add_option("-p", "--password", help="Password for player. (can be defined in conf too)")
(options, args) = parser.parse_args()
if(options.debug):
options.log_level = 10
logging.basicConfig(level=int(options.log_level))
logging.basicConfig(level=logging.WARN)
#Actual logic
log.info("Instanciating player")
player = UtopiaRobot()
if(options.page_cache):
player.page_cache = options.page_cache
player.username = options.username
log.info("set username = %s" % player.username)
player.password = options.password
log.info("set password = %s (masked)" % "".join(["*" for c in player.password]))
log.info("Log in player (%s)...", player.username)
log.info("Get five random kds")
islandlist=[]
island=random.randint(0,41)
for _ in range(1,10):
log.info(islandlist)
while island in islandlist:
island = random.randint(1,41)
islandlist.append(island)
for kd in range(1,10):
log.info("Fetching kd:%d, island:%d" % (kd, island))
kd_info = player.get_kd_info(kd,island)
kd_json = json.dumps(kd_info).replace("'",'"')
with open("%d-%d.txt"%(kd,island),'w') as f:
f.write(kd_json)
# post to db
values={"textarea": kd_json}
data = urllib.urlencode(values)
headers={}
log.debug("Posting %s to 127.0.0.1.", kd_json)
req = urllib2.Request("http://127.0.0.1:5006/post_kd/", data, headers)
urllib2.urlopen(req)
time.sleep(random.randint(4,10))
print "DONE"
def main():
parser = OptionParser()
parser.add_option("-f",
"--file",
dest="filename",
help="Insturctions file (not yet implemented)")
parser.add_option("-d",
"--debug",
action="store_true",
dest="debug",
default=False,
help="Print lots of debug logging")
parser.add_option("-l",
"--log-level",
dest="log_level",
default=logging.WARN)
parser.add_option("-c",
"--config",
help="Config file to read from (not implemented).")
parser.add_option("--page-cache",
help="Directory to dump pages to (for debugging only).")
parser.add_option("-u", "--username", help="Username for player.")
parser.add_option("-p",
"--password",
help="Password for player. (can be defined in conf too)")
(options, args) = parser.parse_args()
if (options.debug):
options.log_level = 10
logging.basicConfig(level=int(options.log_level))
logging.basicConfig(level=logging.WARN)
#Actual logic
log.info("Instanciating player")
player = UtopiaRobot()
if (options.page_cache):
player.page_cache = options.page_cache
player.username = options.username
log.info("set username = %s" % player.username)
player.password = options.password
log.info("set password = %s (masked)" %
"".join(["*" for c in player.password]))
log.info("Log in player (%s)...", player.username)
log.info("Get five random kds")
islandlist = []
island = random.randint(0, 41)
for _ in range(1, 10):
log.info(islandlist)
while island in islandlist:
island = random.randint(1, 41)
islandlist.append(island)
for kd in range(1, 10):
log.info("Fetching kd:%d, island:%d" % (kd, island))
kd_info = player.get_kd_info(kd, island)
kd_json = json.dumps(kd_info).replace("'", '"')
with open("%d-%d.txt" % (kd, island), 'w') as f:
f.write(kd_json)
# post to db
values = {"textarea": kd_json}
data = urllib.urlencode(values)
headers = {}
log.debug("Posting %s to 127.0.0.1.", kd_json)
req = urllib2.Request("http://127.0.0.1:5006/post_kd/", data,
headers)
urllib2.urlopen(req)
time.sleep(random.randint(4, 10))
print "DONE"
def main():
parser = OptionParser()
parser.add_option("-f", "--file", dest="filename",
help="Insturctions file (not yet implemented)")
parser.add_option("-d", "--debug", action="store_true", dest="debug",
default=False, help="Print lots of debug logging")
parser.add_option("-l", "--log-level", dest="log_level", default=logging.WARN)
parser.add_option("-c", "--config", help="Config file to read from (not implemented).")
parser.add_option( "--page-cache", help="Directory to dump pages to (for debugging only).")
parser.add_option("-u", "--username", help="Username for player.")
parser.add_option("-p", "--password", help="Password for player. (can be defined in conf too)")
(options, args) = parser.parse_args()
if(options.debug):
options.log_level = 10
logging.basicConfig(level=int(options.log_level))
logging.basicConfig(level=logging.WARN)
#Actual logic
log.info("Instanciating player")
player = UtopiaRobot()
if(options.page_cache):
player.page_cache = options.page_cache
player.username = options.username
log.info("set username = %s" % player.username)
player.password = options.password
log.info("set password = %s (masked)" % "".join(["*" for c in player.password]))
log.info("Log in player (%s)...", player.username)
log.info("Get five random kds")
for _ in range(5):
kd = random.randint(1,10)
island = random.randint(1,40)
log.info("Fetching kd:%d, island:%d" % (kd, island))
kd_info = player.get_kd_info(kd,island)
kd_json = json.dumps(kd_info).replace("'",'"')
with open("%d-%d.txt"%(kd,island),'w') as f:
f.write(kd_json)
# post to db
values={"textarea": kd_json}
data = urllib.urlencode(values)
headers={}
req = urllib2.Request("127.0.0.1:5001/post_kd/", data, headers)
mana = player.get_mana()
available_spells = player.get_available_spells()
log.debug("available_spells: %s" % available_spells)
spells = player.get_active_spells()
resources = player.get_resources()
# First and foremost, Make sure we have Minor Protection
if 'Minor Protection' in available_spells:
if 'Minor Protection' not in spells:
spells['Minor Protection'] = 0
while spells['Minor Protection'] <= 1 and resources['Runes'] > available_spells['Minor Protection'][1] and 20 < player.get_mana():
if player.cast_spell('Minor Protection') is not None:
log.info("Cast Minor Protection: Success")
break
log.info("Cast Minor Protection: Failed")
resources = player.get_resources()
log.info("Cast Minor Protection: Done")
resources = player.get_resources()
# if we got plague, remove it.
# Because we still don't detect plague-removal, we reload the throne page on each iteraton
if "Nature's Blessing" in available_spells:
if "Nature's Blessing" not in spells:
spells["Nature's Blessing"] = 0
while player.get_plague() and spells["Nature's Blessing"] <= 1 and resources['Runes'] > available_spells["Nature's Blessing"][1] and 10 < player.get_mana():
if player.cast_spell("Nature's Blessing") is not None:
log.info("Cast Nature's Blessing: Success")
break
log.info("Cast Nature's Blessing: Failed")
resources = player.get_resources()
log.info("Cast Nature's Blessing: Done")
resources = player.get_resources()
# If we are low on food, make sure we cast Fertile lands.
if 'Fertile Lands' in available_spells:
if 'Fertile Lands' not in spells:
spells['Fertile Lands'] = 0
while spells['Fertile Lands'] <= 1 and resources['Food'] < 30000 and resources['Runes'] > available_spells['Fertile Lands'][1] and 20 < player.get_mana():
if player.cast_spell('Fertile Lands') is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
log.info("Cast Fertile Lands: Done")
# If we are low on food, make sure we cast Fertile lands.
if 'Fountain of Knowledge' in available_spells:
if 'Fountain of Knowledge' not in spells:
spells['Fountain of Knowledge'] = 0
while spells['Fountain of Knowledge'] <= 1 and resources['Runes'] > available_spells['Fountain of Knowledge'][1] and 20 < player.get_mana():
if player.cast_spell('Fountain of Knowledge') is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
log.info("Cast Fontain of Knowledge: Done")
counter = 0
resources = player.get_resources()
while 20 < player.get_mana() and player.get_soldiers() > 0:
counter +=1
if counter > 7:
break
resources = player.get_resources()
leet_count = resources['Money'] / 500
while 1 > leet_count and player.get_mana() >= 20 and player.get_soldiers() > 0:
counter += 1
if counter > 7:
break
player.cast_spell("Tree of Gold")
available_spells = player.get_available_spells()
resources = player.get_resources()
leet_count = resources['Money'] / 500
#spec_count = resources['Money'] / 350
#troops={'o-spec': spec_count}
troops={'elite': leet_count}
trained_troops = player.train_military(troops)
# if 1 > leet_count:
# troops={'o-spec': spec_count}
# if 1 > spec_count:
# break
# else:
# troops={'elite': leet_count}
log.info("train_military(%s): %s" % (troops, trained_troops))
# If we reach this point, and we're out of money. Let's try to spend our spec-credits
resources = player.get_resources()
if (0 < player.get_spec_credits() or 350 > resources['Money']) and 0 < player.get_soldiers():
troops={'o-spec': min(player.get_soldiers(), player.get_spec_credits())}
trained_military = player.train_military(troops)
log.debug("spec-credits: train_military(%s): %s" % (troops, trained_military))
info_msg = ""
if 'Paradise' in available_spells:
if resources['Runes'] > available_spells['Paradise']:
info_msg = "Not enough runes (have: %s, need: %s)" % (resources['Runes'], available_spells['Paradise'])
elif 10 >= player.get_mana():
info_msg = "Not enough mana (%s%)" % player.get_mana()
else:
while resources['Runes'] > available_spells['Paradise'][1] and 20 < player.get_mana():
result = player.cast_spell('Paradise')
log.info("Cast Paradise - Result: %s" % result)
resources = player.get_resources()
else:
info_msg = "Paradise not available to cast."
log.info("Paradise done: %s"% info_msg)
log.info("Prep building.")
build_info = player.get_build_info()
buildings = player.get_buildings()
resources = player.get_resources()
iterations_counter = 0
while 6 < iterations_counter and 0 < build_info['Total Undeveloped land'] and build_info['Construction Cost'] < resources['Money']:
iterations_counter += 1
for k,v in buildings.items():
buildings[k]['total'] = v['built'] + v['incoming']
to_build = {}
# min 8% farms
if 0.08 < buildings['Farms']['total'] / build_info['Total Land']:
to_build['Farms'] = int((0.07 - (buildings['Farms']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Farms'] : %s" % to_build['Farms'])
if 0.15 < buildings['Guilds']['total'] / build_info['Total Land']:
to_build['Guilds'] = int((0.15 - (buildings['Guilds']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Guilds'] : %s" % to_build['Guilds'])
if 0.09 < buildings['Forts']['total'] / build_info['Total Land']:
to_build['Forts'] = int((0.12 - (buildings['Forts']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Forts'] : %s" % to_build['Forts'])
if 0.25 < buildings['Banks']['total'] / build_info['Total Land']:
to_build['Banks'] = int((0.12 - (buildings['Banks']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Banks'] : %s" % to_build['Banks'])
if 0.14 < buildings['Towers']['total'] / build_info['Total Land']:
to_build['Towers'] = int((0.15 - (buildings['Towers']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Towers'] : %s" % to_build['Towers'])
if 0.2 < buildings['Schools']['total'] / build_info['Total Land']:
to_build['Schools'] = int((0.12 - (buildings['Schools']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Schools'] : %s" % to_build['Schools'])
if 0.09 < buildings['Training Grounds']['total'] / build_info['Total Land']:
to_build['Training Grounds'] = int((0.12 - (buildings['Training Grounds']['total'] / build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Training Grounds'] : %s" % to_build['Training Grounds'])
if 0 <= len(to_build):
log.info("No need to build anything.")
break
log.info("Want to build: %s"% to_build)
player.build(to_build)
log.info("build_info: %s" ,player.get_build_info())
log.info("buildings: %s", player.get_buildings())
build_info = player.get_build_info()
resources = player.get_resources()
if 0 < build_info['Total Undeveloped land']:
# If we are low on food, make sure we cast Fertile lands.
while 'Tree of Gold' in available_spells and resources['Runes'] > available_spells['Tree of Gold'][1] and 20 < player.get_mana() and player.cast_spell('Tree of Gold') is not None:
resources = player.get_resources()
# SCIENCE!!!
available_books = player.get_science_info()['Books to Allocate']
if 3 < available_books:
buy_sci = {
"Alchemy": int(round(available_books/4)),
"Tools": int(round(available_books/4)),
"Housing": int(round(available_books/4)+random.randrange(0,10)),
"Food": int(round(available_books/16)),
"Military": int(round(available_books/16)),
"Crime": int(round(available_books/16)),
"Channeling": int(round(available_books/16)),
}
result = player.buy_science(buy_sci)
info_msg="Bought science: %s"%result
else:
info_msg = "Less than 3 books (have: %s)"%available_books
log.info("Buying science DONE: %s", info_msg)
print "DONE"
def main():
parser = OptionParser()
parser.add_option("-f", "--file", dest="filename",
help="Insturctions file (not yet implemented)")
parser.add_option("-d", "--debug", action="store_true", dest="debug",
default=False, help="Print lots of debug logging")
parser.add_option("-l", "--log-level", dest="log_level", default=logging.WARN)
parser.add_option("-c", "--config", help="Config file to read from (not implemented).")
parser.add_option( "--page-cache", help="Directory to dump pages to (for debugging only).")
parser.add_option("-u", "--username", help="Username for player.")
parser.add_option("-p", "--password", help="Password for player. (can be defined in conf too)")
(options, args) = parser.parse_args()
if(options.debug):
options.log_level = 10
logging.basicConfig(level=int(options.log_level))
logging.basicConfig(level=logging.WARN)
#Actual logic
log.info("Instanciating player")
player = UtopiaRobot()
if(options.page_cache):
player.page_cache = options.page_cache
player.username = options.username
log.info("set username = %s" % player.username)
player.password = options.password
log.info("set password = %s (masked)" % "".join(["*" for c in player.password]))
log.info("Log in player (%s)...", player.username)
available_spells = player.get_available_spells()
log.debug("available_spells: %s" % available_spells)
active_spells = player.get_active_spells()
resources = player.get_resources()
def ensure_spells_are_cast(spells, active_spells, player):
log.debug("ensure_spells_are_cast: {0}".format(spells))
resources = player.get_resources()
for spell in spells:
log.info("Trying to cast {0}.".format(spell))
if spell in available_spells:
if spell not in active_spells:
active_spells[spell] = 0
while active_spells[spell] <= 1 and resources['Runes'] > available_spells[spell][1] and 20 < player.get_mana():
if player.cast_spell(spell) is not None:
log.info("Cast {0}: Success".format(spell))
break
log.info("Cast {0}: Failed".format(spell))
resources = player.get_resources()
log.info("Cast {0}: Done".format(spell))
resources = player.get_resources()
spells = ['Minor Protection', 'Fertile Lands', 'Love and Peace', "Patriotism"]
ensure_spells_are_cast(spells, active_spells, player)
if "Nature's Blessing" in available_spells:
while player.get_plague() and resources['Runes'] > available_spells["Nature's Blessing"][1] and 15 < player.get_mana():
if player.cast_spell("Nature's Blessing") is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
if 'Fertile Lands' in available_spells:
if 'Fertile Lands' not in active_spells:
active_spells['Fertile Lands'] = 0
while active_spells['Fertile Lands'] <= 1 and resources['Food'] < 20000 and resources['Runes'] > available_spells['Fertile Lands'][1] and 20 < player.get_mana():
if player.cast_spell('Fertile Lands') is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
log.info("Cast Fertile Lands: Done")
resources = player.get_resources()
# counter = 0
# resources = player.get_resources()
# troops_home = player.get_troops()
# thief_tot = troops_home['thief']['home'] + troops_home['thief']['training']
# thief_target = resources['Land'] * 2
# if thief_target > thief_tot:
# player.train_military({'thief': thief_target-thief_tot})
# resources = player.get_resources()
# while resources['Money'] > 500 and player.get_soldiers() > 0:
# counter +=1
# if counter > 4:
# break
# spec_count = min(player.get_soldiers(), resources['Money'] / 500)
# troops={'elite': (spec_count) }
# trained_troops = player.train_military(troops)
# log.info("train_military(%s): %s" % (troops, trained_troops))
# SCIENCE!!!
available_books = player.get_science_info()['Books to Allocate']
if 3 < available_books:
buy_sci = {
"Alchemy": int(round(available_books)),
#"Tools": int(round(available_books/7)),
#"Housing": int(round(available_books/7)),
#"Food": int(round(available_books/7)),
#"Military": int(round(available_books/7)),
#"Crime": int(round(available_books/7)),
#"Channeling": int(round(available_books/7)),
}
result = player.buy_science(buy_sci)
info_msg="Bought science: %s"%result
else:
info_msg = "Less than 3 books (have: %s)"%available_books
log.info("Buying science DONE: %s", info_msg)
print "DONE"
# Dice cost *2 gives enough margin to cast all spels next cycle.
# So, if we have dice cost *3, spend one dice
if 'Paradise' in available_spells:
while resources['Runes'] > available_spells['Paradise'][1]*3 and 20 < player.get_mana():
if player.cast_spell('Paradise') is not None:
log.info("Cast Paradise: Success")
break
log.info("Cast Paradise: Failed")
resources = player.get_resources()
log.info("Cast Paradise: Done")
#everything is looking good.
# Lets fetch a few KDs and we 'target search'
islandlist=[]
island=random.randint(0,41)
iterations = random.randint(3,10)
for _ in range(iterations+1):
log.info("Islandlist: %s" % islandlist)
while island in islandlist:
island = random.randint(1,41)
islandlist.append(island)
for kd in range(1,10):
log.info("Fetching kd:%d, island:%d" % (kd, island))
kd_info = player.get_kd_info(kd,island)
kd_json = json.dumps(kd_info).replace("'",'"')
with open("%d-%d.txt"%(kd,island),'w') as f:
f.write(kd_json)
# post to db
values={"textarea": kd_json}
data = urllib.urlencode(values)
headers={}
log.debug("Posting %s to 127.0.0.1.", kd_json)
req = urllib2.Request("http://127.0.0.1:5006/post_kd/", data, headers)
urllib2.urlopen(req)
time.sleep(random.randint(4,10))
class player_tests(object):
def setup(self):
self.player = UtopiaRobot()
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_resources(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/throne_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
resources = self.player.get_resources()
print "Resources:", resources
assert(480594 == resources['Money'])
assert(10065 == resources['Peasants'])
assert(78481 == resources['Food'])
assert(13244 == resources['Runes'])
assert(213924 == resources['Net Worth'])
assert(1398 == resources['Land'])
assert(153.021 == resources['Net Worth/Acre'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_plague_false(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/throne_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
plague = self.player.get_plague()
assert(False == plague)
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_plague_true(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/throne_plague.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
plague = self.player.get_plague()
assert(True == plague)
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_mana(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/mystic_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
mana = self.player.get_mana()
print "Mana:", mana
assert(68 == mana)
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_available_spells(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/mystic_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
available_spells = self.player.get_available_spells()
print "Available spells:", available_spells
assert(('FERTILE_LANDS',815) == available_spells['Fertile Lands'])
assert(('PARADISE', 4891) == available_spells['Paradise'])
assert(('LOVE_AND_PEACE', 1141) == available_spells['Love and Peace'])
assert(('SHADOW_LIGHT', 3098) == available_spells['Shadow Light'])
assert(('NATURES_BLESSING', 978) == available_spells["Nature's Blessing"])
assert(('INSPIRE_ARMY', 1793) == available_spells['Inspire Army'])
assert(('FOUNTAIN_OF_KNOWLEDGE', 2527) == available_spells['Fountain of Knowledge'])
assert(('TREE_OF_GOLD', 1304) == available_spells['Tree of Gold'])
assert(('FERTILE_LANDS', 815) == available_spells['Fertile Lands'])
assert(('WAR_SPOILS', 2364) == available_spells['War Spoils'])
assert(('PARADISE', 4891) == available_spells['Paradise'])
assert(('MAGIC_SHIELD', 815) == available_spells['Magic Shield'])
assert(('ANONYMITY', 2119) == available_spells['Anonymity'])
assert(('BUILDERS_BOON', 1630) == available_spells['Builders Boon'])
assert(('MINOR_PROTECTION', 570) == available_spells['Minor Protection'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_active_spells(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/mystic_advisor.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
active_spells = self.player.get_active_spells()
print "Active spells:", active_spells
assert(14 == active_spells['Fountain of Knowledge'])
assert( 3 == active_spells["Nature's Blessing"])
assert(15 == active_spells['Minor Protection'])
assert( 1 == active_spells['Love and Peace'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_cast_paradise_success(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/spell_paradise.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
print ("assert()")
assert(5 == self.player.cast_spell('Paradise'))
mystic_form = self.player.parser.get_mystic_form()
print mystic_form
assert('88e2dabb2a8b615561e743d05668d47d' == mystic_form['inputs']['csrfmiddlewaretoken']['value'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_troops(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/military_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
troops = self.player.get_troops()
print "troops:", troops
assert(1530 == troops['o-spec']['home'])
assert(1530 == troops['o-spec']['home'])
assert(807 == troops['o-spec']['training'])
assert(350 == troops['o-spec']['cost'])
assert(806 == troops['o-spec']['max'])
assert(839 == troops['d-spec']['home'])
assert(165 == troops['d-spec']['training'])
assert(350 == troops['d-spec']['cost'])
assert(806 == troops['d-spec']['max'])
assert(11184 == troops['elite']['home'])
assert(53 == troops['elite']['training'])
assert(500 == troops['elite']['cost'])
assert(564 == troops['elite']['max'])
assert(2222 == troops['thief']['home'])
assert(0 == troops['thief']['training'])
assert(500 == troops['thief']['cost'])
assert(564 == troops['thief']['max'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_soldiers(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/military_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
soldiers = self.player.get_soldiers()
print "soldiers:", soldiers
assert(1293 == soldiers)
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_spec_credits(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/military_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
credits = self.player.get_spec_credits()
print "credits:", credits
assert(123 == credits)
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_train_troops(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/military_trained.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
military={}
military['o-spec'] = 44
military['d-spec'] = 33
military['elite'] = 22
military['thief'] = 11
print "Want to train: %s" % military
military_result = self.player.train_military(military)
print "Militarty result: %s" % military_result
assert(44 == military_result['o-spec'])
assert(33 == military_result['d-spec'])
assert(22 == military_result['elite'])
assert(11 == military_result['thief'])
print "self.player.get_draft_rate():", self.player.get_draft_rate()
print "self.player.get_draft_rate()[1]:", self.player.get_draft_rate()[1]
assert('AGGRESSIVE' == self.player.get_draft_rate()[1])
military_form = self.player.parser.get_military_form()
print military_form
assert('88e2dabb2a8b615561e743d05668d47d' == military_form['inputs']['csrfmiddlewaretoken']['value'])
#train form-data
# csrfmiddlewaretoken:88e2dabb2a8b615561e743d05668d47d
# draft_rate:AGGRESSIVE
# draft_target:66
# wage_rate:200
# unit-quantity_0:1
# unit-quantity_1:2
# unit-quantity_2:3
# unit-quantity_3:4
# train:Train troops
#change recruitlvl
# csrfmiddlewaretoken:88e2dabb2a8b615561e743d05668d47d
# draft_rate:NORMAL
# draft_target:65
# wage_rate:201
# unit-quantity_0:
# unit-quantity_1:
# unit-quantity_2:
# unit-quantity_3:
# train:Train troops
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_buildings(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/growth_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
buildings = self.player.get_buildings()
print "buildings:", buildings
assert(228 == buildings['Homes']['built'])
assert( 36 == buildings['Homes']['incoming'])
assert(167 == buildings['Farms']['built'])
assert( 18 == buildings['Farms']['incoming'])
assert( 0 == buildings['Mills']['built'])
assert( 0 == buildings['Mills']['incoming'])
assert(486 == buildings['Banks']['built'])
assert( 50 == buildings['Banks']['incoming'])
assert(106 == buildings['Training Grounds']['built'])
assert( 0 == buildings['Training Grounds']['incoming'])
assert( 0 == buildings['Armouries']['built'])
assert( 0 == buildings['Armouries']['incoming'])
assert( 0 == buildings['Military Barracks']['built'])
assert( 0 == buildings['Military Barracks']['incoming'])
assert( 98 == buildings['Forts']['built'])
assert( 0 == buildings['Forts']['incoming'])
assert( 0 == buildings['Guard Stations']['built'])
assert( 0 == buildings['Guard Stations']['incoming'])
assert( 0 == buildings['Hospitals']['built'])
assert( 0 == buildings['Hospitals']['incoming'])
assert(248 == buildings['Guilds']['built'])
assert( 15 == buildings['Guilds']['incoming'])
assert(196 == buildings['Towers']['built'])
assert( 32 == buildings['Towers']['incoming'])
assert( 28 == buildings["Thieves' Dens"]['built'])
assert( 0 == buildings["Thieves' Dens"]['incoming'])
assert( 0 == buildings['Watch Towers']['built'])
assert( 0 == buildings['Watch Towers']['incoming'])
assert( 0 == buildings['Libraries']['built'])
assert( 0 == buildings['Libraries']['incoming'])
assert( 0 == buildings['Schools']['built'])
assert( 0 == buildings['Schools']['incoming'])
assert( 96 == buildings['Stables']['built'])
assert( 0 == buildings['Stables']['incoming'])
assert( 0 == buildings['Dungeons']['built'])
assert( 0 == buildings['Dungeons']['incoming'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_build(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/growth_built.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
buildings={
'Homes': 1,
'Farms': 1,
'Banks': 1,
'Guilds': 1,
'Towers': 1,
'Stables': 1,
}
print "Want to build: %s" % buildings
buildings_result = self.player.build(buildings)
print "Build result: %s" % buildings_result
assert(1 == buildings_result['Homes'])
assert(1 == buildings_result['Farms'])
assert(1 == buildings_result['Banks'])
assert(1 == buildings_result['Guilds'])
assert(1 == buildings_result['Towers'])
assert(1 == buildings_result['Stables'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_build_info(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/growth_built.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
buildings={
'Homes': 1,
'Farms': 1,
'Banks': 1,
'Guilds': 1,
'Towers': 1,
'Stables': 1,
}
print "Want to build: %s" % buildings
buildings_result = self.player.build(buildings)
print "Build result: %s" % buildings_result
assert(1 == buildings_result['Homes'])
assert(1 == buildings_result['Farms'])
assert(1 == buildings_result['Banks'])
assert(1 == buildings_result['Guilds'])
assert(1 == buildings_result['Towers'])
assert(1 == buildings_result['Stables'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_build_multiple(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/growth_built_plural.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
buildings={
'Homes': 2,
'Farms': 2,
'Banks': 2,
'Training Grounds': 2,
'Forts': 2,
'Guilds': 2,
'Towers': 2,
'Stables': 2,
}
print "Want to build: %s" % buildings
buildings_result = self.player.build(buildings)
print "Build result: %s" % buildings_result
assert(2 == buildings_result['Homes'])
assert(2 == buildings_result['Farms'])
assert(2 == buildings_result['Banks'])
assert(2 == buildings_result['Training Grounds'])
assert(2 == buildings_result['Forts'])
assert(2 == buildings_result['Guilds'])
assert(2 == buildings_result['Towers'])
assert(2 == buildings_result['Stables'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_build_multiple(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/growth_built_plural.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
buildings={
'Homes': 2,
'Farms': 2,
'Banks': 2,
'Training Grounds': 2,
'Forts': 2,
'Guilds': 2,
'Towers': 2,
'Stables': 2,
}
print "Want to build: %s" % buildings
buildings_result = self.player.build(buildings)
print "Build result: %s" % buildings_result
assert(2 == buildings_result['Homes'])
assert(2 == buildings_result['Farms'])
assert(2 == buildings_result['Banks'])
assert(2 == buildings_result['Training Grounds'])
assert(2 == buildings_result['Forts'])
assert(2 == buildings_result['Guilds'])
assert(2 == buildings_result['Towers'])
assert(2 == buildings_result['Stables'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_science(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/science_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
science = self.player.get_science()
print "Sience:: %s" % science
assert(21132 == science['Alchemy']['points'])
assert(5.5 == science['Alchemy']['effect'])
assert(0 == science['Alchemy']['incomming'])
assert(73226 == science['Tools']['points'])
assert(7.4 == science['Tools']['effect'])
assert(9996 == science['Tools']['incomming'])
assert(32578 == science['Housing']['points'])
assert(3.2 == science['Housing']['effect'])
assert(0 == science['Housing']['incomming'])
assert(4892 == science['Food']['points'])
assert(15.2 == science['Food']['effect'])
assert(0 == science['Food']['incomming'])
assert(4892 == science['Military']['points'])
assert(2.7 == science['Military']['effect'])
assert(0 == science['Military']['incomming'])
assert(21340 == science['Crime']['points'])
assert(23.8 == science['Crime']['effect'])
assert(0 == science['Crime']['incomming'])
assert(20860 == science['Channeling']['points'])
assert(23.6 == science['Channeling']['effect'])
assert(0 == science['Channeling']['incomming'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_get_science(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/science_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
science = self.player.get_science()
print "Sience:: %s" % science
assert(21132 == science['Alchemy']['points'])
assert(5.5 == science['Alchemy']['effect'])
assert(0 == science['Alchemy']['incomming'])
assert(73226 == science['Tools']['points'])
assert(7.4 == science['Tools']['effect'])
assert(9996 == science['Tools']['incomming'])
assert(32578 == science['Housing']['points'])
assert(3.2 == science['Housing']['effect'])
assert(0 == science['Housing']['incomming'])
assert(4892 == science['Food']['points'])
assert(15.2 == science['Food']['effect'])
assert(0 == science['Food']['incomming'])
assert(4892 == science['Military']['points'])
assert(2.7 == science['Military']['effect'])
assert(0 == science['Military']['incomming'])
assert(21340 == science['Crime']['points'])
assert(23.8 == science['Crime']['effect'])
assert(0 == science['Crime']['incomming'])
assert(20860 == science['Channeling']['points'])
assert(23.6 == science['Channeling']['effect'])
assert(0 == science['Channeling']['incomming'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_science_info(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/science_bought.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
info = self.player.get_science_info()
print "Info: %s" % info
assert(45258 == info['Total Money'])
assert((23369, 15) == info['Estimated Research Cost'])
assert(152553 == info['Daily Income'])
assert(2276 == info['Books to Allocate'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_explore_info(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/explore_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
explore_info = self.player.get_explore_info()
print "Explore info: %s" % explore_info
assert( 50 == explore_info['Exploration Costs (Soldiers)'])
assert( 50 == explore_info['soldiers'])
assert(23264 == explore_info['Exploration Costs (Gold)'])
assert(23264 == explore_info['gold'])
assert( 8080 == explore_info['Available Uncharted Acres'])
assert( 8080 == explore_info['available'])
assert( 0 == explore_info['Currently Exploring'])
assert( 5 == explore_info['Maximum Explorable Now'])
@mock.patch('urllib2.urlopen')
@mock.patch('urllib2.Request')
@mock.patch.object(UtopiaRobot,'cache_page')
@mock.patch.object(UtopiaRobot,'_simulate_wait')
def test_kingdom_info(self, mock_simulate_wait, mock_cache_page, mock_request, mock_urlopen):
mock_urlopen.return_value = mock_request
mock_request.read.return_value = open('test/kingdom_page.html').read()
mock_cache_page.return_value = True
mock_simulate_wait.return_value = True
kd = self.player.get_kd_info(1,17)
print "kd: %s" % kd
assert(1 == kd['kd'])
assert(17 == kd['island'])
assert(20 == kd['Total Provinces'])
assert('normal' == kd['Stance'])
assert(3077180 == kd['Total Networth'])
assert(153859 == kd['Average Networth'])
assert(0 == kd['Wars Won'])
assert(2 == kd['Concluded Wars'])
assert(18629 == kd['Total Land'])
assert(103 == kd['Average Opponent Relative Size'])
assert('normal' == kd['Their Attitude To Us'])
assert('normal' == kd['Our Attitude To Them'])
assert(True == kd['provinces']['house 1']['protected'])
assert(False == kd['provinces']['house 1']['online'])
assert(False == kd['provinces']['house 1']['monarch'])
assert(1 == kd['provinces']['house 1']['Slot'])
assert('house 1' == kd['provinces']['house 1']['Province'])
assert('Avian' == kd['provinces']['house 1']['Race'])
assert(354 == kd['provinces']['house 1']['Land'])
assert(19272 == kd['provinces']['house 1']['Net Worth'])
assert(54== kd['provinces']['house 1']['Net Worth/Acre'])
assert('Lord' == kd['provinces']['house 1']['Nobility'])
assert(True == kd['provinces']['house 1']['protected'])
assert(1 == kd['provinces']['house 1']['Slot'])
assert('house 1' == kd['provinces']['house 1']['Province'])
assert('Avian' == kd['provinces']['house 1']['Race'])
assert(354 == kd['provinces']['house 1']['Land'])
assert(19272 == kd['provinces']['house 1']['Net Worth'])
assert(54== kd['provinces']['house 1']['Net Worth/Acre'])
assert('Lord' == kd['provinces']['house 1']['Nobility'])
def main():
parser = OptionParser()
parser.add_option("-f",
"--file",
dest="filename",
help="Insturctions file (not yet implemented)")
parser.add_option("-d",
"--debug",
action="store_true",
dest="debug",
default=False,
help="Print lots of debug logging")
parser.add_option("-l",
"--log-level",
dest="log_level",
default=logging.WARN)
parser.add_option("-c",
"--config",
help="Config file to read from (not implemented).")
parser.add_option("--page-cache",
help="Directory to dump pages to (for debugging only).")
parser.add_option("-u", "--username", help="Username for player.")
parser.add_option("-p",
"--password",
help="Password for player. (can be defined in conf too)")
(options, args) = parser.parse_args()
if (options.debug):
options.log_level = 10
logging.basicConfig(level=int(options.log_level))
logging.basicConfig(level=logging.WARN)
#Actual logic
log.info("Instanciating player")
player = UtopiaRobot()
if (options.page_cache):
player.page_cache = options.page_cache
player.username = options.username
log.info("set username = %s" % player.username)
player.password = options.password
log.info("set password = %s (masked)" %
"".join(["*" for c in player.password]))
log.info("Log in player (%s)...", player.username)
log.info("Get five random kds")
for _ in range(5):
kd = random.randint(1, 10)
island = random.randint(1, 40)
log.info("Fetching kd:%d, island:%d" % (kd, island))
kd_info = player.get_kd_info(kd, island)
kd_json = json.dumps(kd_info).replace("'", '"')
with open("%d-%d.txt" % (kd, island), 'w') as f:
f.write(kd_json)
# post to db
values = {"textarea": kd_json}
data = urllib.urlencode(values)
headers = {}
req = urllib2.Request("127.0.0.1:5001/post_kd/", data, headers)
mana = player.get_mana()
available_spells = player.get_available_spells()
log.debug("available_spells: %s" % available_spells)
spells = player.get_active_spells()
resources = player.get_resources()
# First and foremost, Make sure we have Minor Protection
if 'Minor Protection' in available_spells:
if 'Minor Protection' not in spells:
spells['Minor Protection'] = 0
while spells['Minor Protection'] <= 1 and resources[
'Runes'] > available_spells['Minor Protection'][
1] and 20 < player.get_mana():
if player.cast_spell('Minor Protection') is not None:
log.info("Cast Minor Protection: Success")
break
log.info("Cast Minor Protection: Failed")
resources = player.get_resources()
log.info("Cast Minor Protection: Done")
resources = player.get_resources()
# if we got plague, remove it.
# Because we still don't detect plague-removal, we reload the throne page on each iteraton
if "Nature's Blessing" in available_spells:
if "Nature's Blessing" not in spells:
spells["Nature's Blessing"] = 0
while player.get_plague(
) and spells["Nature's Blessing"] <= 1 and resources[
'Runes'] > available_spells["Nature's Blessing"][
1] and 10 < player.get_mana():
if player.cast_spell("Nature's Blessing") is not None:
log.info("Cast Nature's Blessing: Success")
break
log.info("Cast Nature's Blessing: Failed")
resources = player.get_resources()
log.info("Cast Nature's Blessing: Done")
resources = player.get_resources()
# If we are low on food, make sure we cast Fertile lands.
if 'Fertile Lands' in available_spells:
if 'Fertile Lands' not in spells:
spells['Fertile Lands'] = 0
while spells['Fertile Lands'] <= 1 and resources[
'Food'] < 30000 and resources['Runes'] > available_spells[
'Fertile Lands'][1] and 20 < player.get_mana():
if player.cast_spell('Fertile Lands') is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
log.info("Cast Fertile Lands: Done")
# If we are low on food, make sure we cast Fertile lands.
if 'Fountain of Knowledge' in available_spells:
if 'Fountain of Knowledge' not in spells:
spells['Fountain of Knowledge'] = 0
while spells['Fountain of Knowledge'] <= 1 and resources[
'Runes'] > available_spells['Fountain of Knowledge'][
1] and 20 < player.get_mana():
if player.cast_spell('Fountain of Knowledge') is not None:
log.info("Cast Fertile Lands: Success")
break
log.info("Cast Fertile Lands: Failed")
resources = player.get_resources()
log.info("Cast Fontain of Knowledge: Done")
counter = 0
resources = player.get_resources()
while 20 < player.get_mana() and player.get_soldiers() > 0:
counter += 1
if counter > 7:
break
resources = player.get_resources()
leet_count = resources['Money'] / 500
while 1 > leet_count and player.get_mana(
) >= 20 and player.get_soldiers() > 0:
counter += 1
if counter > 7:
break
player.cast_spell("Tree of Gold")
available_spells = player.get_available_spells()
resources = player.get_resources()
leet_count = resources['Money'] / 500
#spec_count = resources['Money'] / 350
#troops={'o-spec': spec_count}
troops = {'elite': leet_count}
trained_troops = player.train_military(troops)
# if 1 > leet_count:
# troops={'o-spec': spec_count}
# if 1 > spec_count:
# break
# else:
# troops={'elite': leet_count}
log.info("train_military(%s): %s" % (troops, trained_troops))
# If we reach this point, and we're out of money. Let's try to spend our spec-credits
resources = player.get_resources()
if (0 < player.get_spec_credits()
or 350 > resources['Money']) and 0 < player.get_soldiers():
troops = {
'o-spec': min(player.get_soldiers(), player.get_spec_credits())
}
trained_military = player.train_military(troops)
log.debug("spec-credits: train_military(%s): %s" %
(troops, trained_military))
info_msg = ""
if 'Paradise' in available_spells:
if resources['Runes'] > available_spells['Paradise']:
info_msg = "Not enough runes (have: %s, need: %s)" % (
resources['Runes'], available_spells['Paradise'])
elif 10 >= player.get_mana():
info_msg = "Not enough mana (%s%)" % player.get_mana()
else:
while resources['Runes'] > available_spells['Paradise'][
1] and 20 < player.get_mana():
result = player.cast_spell('Paradise')
log.info("Cast Paradise - Result: %s" % result)
resources = player.get_resources()
else:
info_msg = "Paradise not available to cast."
log.info("Paradise done: %s" % info_msg)
log.info("Prep building.")
build_info = player.get_build_info()
buildings = player.get_buildings()
resources = player.get_resources()
iterations_counter = 0
while 6 < iterations_counter and 0 < build_info[
'Total Undeveloped land'] and build_info[
'Construction Cost'] < resources['Money']:
iterations_counter += 1
for k, v in buildings.items():
buildings[k]['total'] = v['built'] + v['incoming']
to_build = {}
# min 8% farms
if 0.08 < buildings['Farms']['total'] / build_info['Total Land']:
to_build['Farms'] = int(
(0.07 -
(buildings['Farms']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Farms'] : %s" % to_build['Farms'])
if 0.15 < buildings['Guilds']['total'] / build_info['Total Land']:
to_build['Guilds'] = int(
(0.15 -
(buildings['Guilds']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Guilds'] : %s" % to_build['Guilds'])
if 0.09 < buildings['Forts']['total'] / build_info['Total Land']:
to_build['Forts'] = int(
(0.12 -
(buildings['Forts']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Forts'] : %s" % to_build['Forts'])
if 0.25 < buildings['Banks']['total'] / build_info['Total Land']:
to_build['Banks'] = int(
(0.12 -
(buildings['Banks']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Banks'] : %s" % to_build['Banks'])
if 0.14 < buildings['Towers']['total'] / build_info['Total Land']:
to_build['Towers'] = int(
(0.15 -
(buildings['Towers']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Towers'] : %s" % to_build['Towers'])
if 0.2 < buildings['Schools']['total'] / build_info['Total Land']:
to_build['Schools'] = int(
(0.12 -
(buildings['Schools']['total'] / build_info['Total Land'])) *
build_info['Total Land'])
log.info("To build['Schools'] : %s" % to_build['Schools'])
if 0.09 < buildings['Training Grounds']['total'] / build_info[
'Total Land']:
to_build['Training Grounds'] = int(
(0.12 - (buildings['Training Grounds']['total'] /
build_info['Total Land'])) * build_info['Total Land'])
log.info("To build['Training Grounds'] : %s" %
to_build['Training Grounds'])
if 0 <= len(to_build):
log.info("No need to build anything.")
break
log.info("Want to build: %s" % to_build)
player.build(to_build)
log.info("build_info: %s", player.get_build_info())
log.info("buildings: %s", player.get_buildings())
build_info = player.get_build_info()
resources = player.get_resources()
if 0 < build_info['Total Undeveloped land']:
# If we are low on food, make sure we cast Fertile lands.
while 'Tree of Gold' in available_spells and resources[
'Runes'] > available_spells['Tree of Gold'][
1] and 20 < player.get_mana() and player.cast_spell(
'Tree of Gold') is not None:
resources = player.get_resources()
# SCIENCE!!!
available_books = player.get_science_info()['Books to Allocate']
if 3 < available_books:
buy_sci = {
"Alchemy": int(round(available_books / 4)),
"Tools": int(round(available_books / 4)),
"Housing":
int(round(available_books / 4) + random.randrange(0, 10)),
"Food": int(round(available_books / 16)),
"Military": int(round(available_books / 16)),
"Crime": int(round(available_books / 16)),
"Channeling": int(round(available_books / 16)),
}
result = player.buy_science(buy_sci)
info_msg = "Bought science: %s" % result
else:
info_msg = "Less than 3 books (have: %s)" % available_books
log.info("Buying science DONE: %s", info_msg)
print "DONE"