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mtgencode/lib/datalib.py
Bill Zorn 2a0e014c41 Changed things to use the python module system better and have argparse. 
Encode now supports multiple formats, still working on decoding them nicely.
2015-07-15 23:40:15 -07:00

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import re
import utils
from cardlib import Card
# Format a list of rows of data into nice columns.
# Note that it's the columns that are nice, not this code.
def padrows(l):
# get length for each field
lens = []
for ll in l:
for i, field in enumerate(ll):
if i < len(lens):
lens[i] = max(len(str(field)), lens[i])
else:
lens += [len(str(field))]
# now pad out to that length
padded = []
for ll in l:
padded += ['']
for i, field in enumerate(ll):
s = str(field)
pad = ' ' * (lens[i] - len(s))
padded[-1] += (s + pad + ' ')
return padded
def printrows(l):
for row in l:
print row
# index management helpers
def index_size(d):
return sum(map(lambda k: len(d[k]), d))
def inc(d, k, obj):
if k or k == 0:
if k in d:
d[k] += obj
else:
d[k] = obj
# thanks gleemax
def plimit(s, mlen = 1000):
if len(s) > mlen:
return s[:1000] + '[...]'
else:
return s
class Datamine:
# build the global indices
def __init__(self, card_srcs):
# global card pools
self.unparsed_cards = []
self.invalid_cards = []
self.cards = []
self.allcards = []
# global indices
self.by_name = {}
self.by_type = {}
self.by_type_inclusive = {}
self.by_supertype = {}
self.by_supertype_inclusive = {}
self.by_subtype = {}
self.by_subtype_inclusive = {}
self.by_color = {}
self.by_color_inclusive = {}
self.by_color_count = {}
self.by_cmc = {}
self.by_cost = {}
self.by_power = {}
self.by_toughness = {}
self.by_pt = {}
self.by_loyalty = {}
self.by_textlines = {}
self.by_textlen = {}
self.indices = {
'by_name' : self.by_name,
'by_type' : self.by_type,
'by_type_inclusive' : self.by_type_inclusive,
'by_supertype' : self.by_supertype,
'by_supertype_inclusive' : self.by_supertype_inclusive,
'by_subtype' : self.by_subtype,
'by_subtype_inclusive' : self.by_subtype_inclusive,
'by_color' : self.by_color,
'by_color_inclusive' : self.by_color_inclusive,
'by_color_count' : self.by_color_count,
'by_cmc' : self.by_cmc,
'by_cost' : self.by_cost,
'by_power' : self.by_power,
'by_toughness' : self.by_toughness,
'by_pt' : self.by_pt,
'by_loyalty' : self.by_loyalty,
'by_textlines' : self.by_textlines,
'by_textlen' : self.by_textlen,
}
for card_src in card_srcs:
# the empty card is not interesting
if not card_src:
continue
card = Card(card_src)
if card.valid:
self.cards += [card]
self.allcards += [card]
elif card.parsed:
self.invalid_cards += [card]
self.allcards += [card]
else:
self.unparsed_cards += [card]
if card.parsed:
inc(self.by_name, card.name, [card])
inc(self.by_type, ' '.join(card.types), [card])
for t in card.types:
inc(self.by_type_inclusive, t, [card])
inc(self.by_supertype, ' '.join(card.supertypes), [card])
for t in card.supertypes:
inc(self.by_supertype_inclusive, t, [card])
inc(self.by_subtype, ' '.join(card.subtypes), [card])
for t in card.subtypes:
inc(self.by_subtype_inclusive, t, [card])
if card.cost.colors:
inc(self.by_color, card.cost.colors, [card])
for c in card.cost.colors:
inc(self.by_color_inclusive, c, [card])
inc(self.by_color_count, len(card.cost.colors), [card])
else:
# colorless, still want to include in these tables
inc(self.by_color, 'A', [card])
inc(self.by_color_inclusive, 'A', [card])
inc(self.by_color_count, 0, [card])
inc(self.by_cmc, card.cost.cmc, [card])
inc(self.by_cost, card.cost.encode() if card.cost.encode() else 'none', [card])
inc(self.by_power, card.pt_p, [card])
inc(self.by_toughness, card.pt_t, [card])
inc(self.by_pt, card.pt, [card])
inc(self.by_loyalty, card.loyalty, [card])
inc(self.by_textlines, len(card.text_lines), [card])
inc(self.by_textlen, len(card.text.encode()), [card])
# summarize the indices
# Yes, this printing code is pretty terrible.
def summarize(self, hsize = 10, vsize = 10, cmcsize = 20):
print '===================='
print str(len(self.cards)) + ' valid cards, ' + str(len(self.invalid_cards)) + ' invalid cards.'
print str(len(self.allcards)) + ' cards parsed, ' + str(len(self.unparsed_cards)) + ' failed to parse'
print '--------------------'
print str(len(self.by_name)) + ' unique card names'
print '--------------------'
print (str(len(self.by_color_inclusive)) + ' represented colors (including colorless as \'A\'), '
+ str(len(self.by_color)) + ' combinations')
print 'Breakdown by color:'
rows = [self.by_color_inclusive.keys()]
rows += [[len(self.by_color_inclusive[k]) for k in rows[0]]]
printrows(padrows(rows))
print 'Breakdown by number of colors:'
rows = [self.by_color_count.keys()]
rows += [[len(self.by_color_count[k]) for k in rows[0]]]
printrows(padrows(rows))
print '--------------------'
print str(len(self.by_type_inclusive)) + ' unique card types, ' + str(len(self.by_type)) + ' combinations'
print 'Breakdown by type:'
d = sorted(self.by_type_inclusive,
lambda x,y: cmp(len(self.by_type_inclusive[x]), len(self.by_type_inclusive[y])),
reverse = True)
rows = [[k for k in d[:hsize]]]
rows += [[len(self.by_type_inclusive[k]) for k in rows[0]]]
printrows(padrows(rows))
print '--------------------'
print (str(len(self.by_subtype_inclusive)) + ' unique subtypes, '
+ str(len(self.by_subtype)) + ' combinations')
print '-- Popular subtypes: --'
d = sorted(self.by_subtype_inclusive,
lambda x,y: cmp(len(self.by_subtype_inclusive[x]), len(self.by_subtype_inclusive[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[k, len(self.by_subtype_inclusive[k])]]
printrows(padrows(rows))
print '-- Top combinations: --'
d = sorted(self.by_subtype,
lambda x,y: cmp(len(self.by_subtype[x]), len(self.by_subtype[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[k, len(self.by_subtype[k])]]
printrows(padrows(rows))
print '--------------------'
print (str(len(self.by_supertype_inclusive)) + ' unique supertypes, '
+ str(len(self.by_supertype)) + ' combinations')
print 'Breakdown by supertype:'
d = sorted(self.by_supertype_inclusive,
lambda x,y: cmp(len(self.by_supertype_inclusive[x]),len(self.by_supertype_inclusive[y])),
reverse = True)
rows = [[k for k in d[:hsize]]]
rows += [[len(self.by_supertype_inclusive[k]) for k in rows[0]]]
printrows(padrows(rows))
print '--------------------'
print str(len(self.by_cmc)) + ' different CMCs, ' + str(len(self.by_cost)) + ' unique mana costs'
print 'Breakdown by CMC:'
d = sorted(self.by_cmc, reverse = False)
rows = [[k for k in d[:cmcsize]]]
rows += [[len(self.by_cmc[k]) for k in rows[0]]]
printrows(padrows(rows))
print '-- Popular mana costs: --'
d = sorted(self.by_cost,
lambda x,y: cmp(len(self.by_cost[x]), len(self.by_cost[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[utils.from_mana(k), len(self.by_cost[k])]]
printrows(padrows(rows))
print '--------------------'
print str(len(self.by_pt)) + ' unique p/t combinations'
if len(self.by_power) > 0 and len(self.by_toughness) > 0:
print ('Largest power: ' + str(max(map(len, self.by_power)) - 1) +
', largest toughness: ' + str(max(map(len, self.by_toughness)) - 1))
print '-- Popular p/t values: --'
d = sorted(self.by_pt,
lambda x,y: cmp(len(self.by_pt[x]), len(self.by_pt[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[utils.from_unary(k), len(self.by_pt[k])]]
printrows(padrows(rows))
print '--------------------'
print 'Loyalty values:'
d = sorted(self.by_loyalty,
lambda x,y: cmp(len(self.by_loyalty[x]), len(self.by_loyalty[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[utils.from_unary(k), len(self.by_loyalty[k])]]
printrows(padrows(rows))
print '--------------------'
if len(self.by_textlen) > 0 and len(self.by_textlines) > 0:
print('Card text ranges from ' + str(min(self.by_textlen)) + ' to '
+ str(max(self.by_textlen)) + ' characters in length')
print('Card text ranges from ' + str(min(self.by_textlines)) + ' to '
+ str(max(self.by_textlines)) + ' lines')
print '-- Line counts by frequency: --'
d = sorted(self.by_textlines,
lambda x,y: cmp(len(self.by_textlines[x]), len(self.by_textlines[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
rows += [[k, len(self.by_textlines[k])]]
printrows(padrows(rows))
print '===================='
# describe outliers in the indices
def outliers(self, hsize = 10, vsize = 10, dump_invalid = False):
print '********************'
print 'Overview of indices:'
rows = [['Index Name', 'Keys', 'Total Members']]
for index in self.indices:
rows += [[index, len(self.indices[index]), index_size(self.indices[index])]]
printrows(padrows(rows))
print '********************'
if len(self.by_name) > 0:
scardname = sorted(self.by_name,
lambda x,y: cmp(len(x), len(y)),
reverse = False)[0]
print 'Shortest Cardname: (' + str(len(scardname)) + ')'
print ' ' + scardname
lcardname = sorted(self.by_name,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Longest Cardname: (' + str(len(lcardname)) + ')'
print ' ' + lcardname
d = sorted(self.by_name,
lambda x,y: cmp(len(self.by_name[x]), len(self.by_name[y])),
reverse = True)
rows = []
for k in d[0:vsize]:
if len(self.by_name[k]) > 1:
rows += [[k, len(self.by_name[k])]]
if rows == []:
print('No duplicated cardnames')
else:
print '-- Most duplicated names: --'
printrows(padrows(rows))
else:
print 'No cards indexed by name?'
print '--------------------'
if len(self.by_type) > 0:
ltypes = sorted(self.by_type,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Longest card type: (' + str(len(ltypes)) + ')'
print ' ' + ltypes
else:
print 'No cards indexed by type?'
if len(self.by_subtype) > 0:
lsubtypes = sorted(self.by_subtype,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Longest subtype: (' + str(len(lsubtypes)) + ')'
print ' ' + lsubtypes
else:
print 'No cards indexed by subtype?'
if len(self.by_supertype) > 0:
lsupertypes = sorted(self.by_supertype,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Longest supertype: (' + str(len(lsupertypes)) + ')'
print ' ' + lsupertypes
else:
print 'No cards indexed by supertype?'
print '--------------------'
if len(self.by_cost) > 0:
lcost = sorted(self.by_cost,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Longest mana cost: (' + str(len(lcost)) + ')'
print ' ' + utils.from_mana(lcost)
print '\n' + plimit(self.by_cost[lcost][0].encode()) + '\n'
else:
print 'No cards indexed by cost?'
if len(self.by_cmc) > 0:
lcmc = sorted(self.by_cmc, reverse = True)[0]
print 'Largest cmc: (' + str(lcmc) + ')'
print ' ' + str(self.by_cmc[lcmc][0].cost)
print '\n' + plimit(self.by_cmc[lcmc][0].encode())
else:
print 'No cards indexed by cmc?'
print '--------------------'
if len(self.by_power) > 0:
lpower = sorted(self.by_power,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Largest creature power: ' + utils.from_unary(lpower)
print '\n' + plimit(self.by_power[lpower][0].encode()) + '\n'
else:
print 'No cards indexed by power?'
if len(self.by_toughness) > 0:
ltoughness = sorted(self.by_toughness,
lambda x,y: cmp(len(x), len(y)),
reverse = True)[0]
print 'Largest creature toughness: ' + utils.from_unary(ltoughness)
print '\n' + plimit(self.by_toughness[ltoughness][0].encode())
else:
print 'No cards indexed by toughness?'
print '--------------------'
if len(self.by_textlines) > 0:
llines = sorted(self.by_textlines, reverse = True)[0]
print 'Most lines of text in a card: ' + str(llines)
print '\n' + plimit(self.by_textlines[llines][0].encode()) + '\n'
else:
print 'No cards indexed by line count?'
if len(self.by_textlen) > 0:
ltext = sorted(self.by_textlen, reverse = True)[0]
print 'Most chars in a card text: ' + str(ltext)
print '\n' + plimit(self.by_textlen[ltext][0].encode())
else:
print 'No cards indexed by char count?'
print '--------------------'
print 'There were ' + str(len(self.invalid_cards)) + ' invalid cards.'
if dump_invalid:
for card in self.invalid_cards:
print '\n' + repr(card.fields)
elif len(self.invalid_cards) > 0:
print 'Not summarizing.'
print '--------------------'
print 'There were ' + str(len(self.unparsed_cards)) + ' unparsed cards.'
if dump_invalid:
for card in self.unparsed_cards:
print '\n' + repr(card.fields)
elif len(self.unparsed_cards) > 0:
print 'Not summarizing.'
print '===================='
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