mtg/analyze.py

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Python
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2010-06-30 06:23:32 +00:00
import sys
import math
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from mtg import *
import database
def combinations(total, n):
return math.factorial(total) / (math.factorial(n) * math.factorial(total - n))
def h(n, z, x, y):
return (combinations(x, n) * combinations(y - x, z - n)) / float(combinations(y, z))
def draw_probability(available, deck, count=1, turn=1, used=0):
if count == 0:
return h(0, 7 + turn - 1 - used, available, len(deck))
total = sum([h(n, 7 + turn - 1 - used, available, len(deck)) for n in range(count)])
return 1 - total
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def graph(data, title, hideEmpty=True):
categories = sorted(data.keys())
cjust = sorted([len(str(k)) for k in data.keys()]).pop()
vjust = sorted([len(str(v)) for v in data.values()]).pop()
max = sorted(data.values()).pop()
print title
print '-' * 80
for category in categories:
if hideEmpty and not data[category]:
continue
heading = str(category).ljust(cjust)
value = str(data[category]).rjust(vjust)
bar = '*' * int(data[category] * (80 - cjust - vjust - 6) / float(max))
print '{0} [{1}] | {2}'.format(heading, value, bar)
if hideEmpty and not max:
print ' *** Nothing to display ***'
def mana_curve(deck):
costs = [c.cost.converted() for c in deck if c.cost.converted() > 0]
data = {}
for i in range(1, sorted(costs).pop() + 1):
data[i] = 0
for c in costs:
data[c] += 1
return data
def rampup(deck, type=None):
print '{0} Rampup'.format((type if type else 'spell').title())
print '-' * 80
land = [c for c in deck if 'land' in c.type.split(' ')]
cards = [c for c in deck if c.cost.converted() > 0]
if type:
cards = [c for c in cards if type in c.type.split(' ')]
avgCost = sum([c.cost.converted() for c in cards]) / float(len(cards))
maxCost = sorted([c.cost.converted() for c in cards]).pop()
print 'Average {0} cost: {1:.3f}'.format(type if type else 'spell', avgCost)
avgCost = int(round(avgCost))
for turn in range(avgCost, maxCost + 1):
castable = [c for c in cards if c.cost.converted() <= turn]
pm = 1 - draw_probability(len(land), deck, avgCost, turn)
pc = 1 - draw_probability(len(castable), deck, 1, turn, avgCost)
p = 1 - pm - pc
print 'Probability of drawing {0} mana in {1} turns with a castable {3}: {2:.3f}'.format(avgCost, turn, p * 100, type if type else 'spell')
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def types(deck):
return {
'Lands': len([c for c in deck if 'land' in c.type.split(' ')]),
'Creatures': len([c for c in deck if 'creature' in c.type.split(' ')]),
'Artifacts': len([c for c in deck if 'artifact' in c.type.split(' ')]),
'Enchantments': len([c for c in deck if 'enchantment' in c.type.split(' ')]),
'Sorceries': len([c for c in deck if 'sorcery' in c.type.split(' ')]),
'Instants': len([c for c in deck if 'instant' in c.type.split(' ')]),
}
def colors(deck):
data = {}
for color in Mana.types.values():
data[color] = 0
for card in deck:
if 'land' in card.type.split(' '):
if 'swamp' in card.attributes: data[Mana.types['B']] += 1
if 'island' in card.attributes: data[Mana.types['U']] += 1
if 'mountain' in card.attributes: data[Mana.types['R']] += 1
if 'forest' in card.attributes: data[Mana.types['G']] += 1
if 'plains' in card.attributes: data[Mana.types['W']] += 1
else:
for color, value in card.cost.mana.mana.iteritems():
data[Mana.types[color]] += 1 if value > 0 else 0
return data
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def rarities(deck):
data = {}
for rarity in Card.rarities.values():
data[rarity] = 0
for card in deck:
if not card.rarity: continue
data[Card.rarities[card.rarity]] += 1
return data
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if __name__ == '__main__':
db = database.TextDB('db.txt')
if len(sys.argv) < 2:
print 'No decks specified.'
sys.exit(1)
for filename in sys.argv[1:]:
print 'Loading deck in "{0}"...'.format(filename)
deck = Deck()
"""
with open(filename, 'r') as f:
for line in f:
line = line.strip()
if not re.match('^\d+ .+$', line):
continue
line = line.split(' ')
count = int(line.pop(0))
name = ' '.join(line)
card = db.getCard(name)
if not card:
print 'Invalid card: ', name
continue
deck.extend(card * count)
"""
deck.load(filename, db)
print 'Loaded', len(deck), 'cards.'
graph(mana_curve(deck), '\nMana Curve', hideEmpty=False)
graph(types(deck), '\nCard Types')
graph(colors(deck), '\nColors')
graph(rarities(deck), '\nRarities')
print
rampup(deck)
print
rampup(deck, 'creature');