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Nearly finished planeswalkers, fixed lands, added titlecase for capitalization, fixed choices. 

Removed snow mana from land mana cost.
Planeswalkers almost done; need to handle those with loyalty costs above
9.
titlecase.py provides much better capitalization for names and
rulestext.
Choices now have dash and bullet points.
This commit is contained in:
PAK90 2015-08-08 21:19:00 -06:00
parent 1bc3c724a1
commit 29e604cddf
3 changed files with 319 additions and 19 deletions
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2
decode.py
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@ -116,7 +116,7 @@ def main(fname, oname = None, verbose = True,
# have to prepend a massive chunk.
writer.write(utils.mse_prepend)
for card in cards:
writer.write((card.format(gatherer = gatherer, for_forum = for_forum, for_mse = for_mse)).encode('utf-8'))
writer.write((card.format(gatherer = gatherer, for_forum = for_forum, for_mse = for_mse)))
if creativity and not for_mse: # this won't end well if mse mode is enabled.
writer.write('~~ closest cards ~~\n'.encode('utf-8'))
nearest = cbow.nearest(card)

82
lib/cardlib.py
View File

@ -1,10 +1,12 @@
# card representation
# -*- coding: utf-8
import re
import random
import utils
import transforms
from manalib import Manacost, Manatext
from titlecase import titlecase
# Some text prettification stuff that people may not have installed
try:
@ -109,6 +111,21 @@ def fields_check_valid(fields):
else:
return not field_pt in fields
def uppercaseNewLineAndFullstop(string):
# ok, let's capitalize every letter after a full stop and newline.
# first let's find all indices of '.' and '\n'
indices = [0] # initialise with 0, since we always want to capitalise the first letter.
newlineIndices = [0] # also need to keep track of pure newlines (for planeswalkers).
for i in range (len(string)):
if string[i] == '\n':
indices.append(i + 1) # we want the index of the letter after the \n, so add one.
newlineIndices.append(i + 1)
if string[i] == '.' or string[i] == "=": # also handle the choice bullets.
indices.append(i + 2) # we want the index of the letter after the ., so we need to count the space as well.
indexSet = set(indices) # convert it to a set for the next part; the capitalisation.
return "".join(c.upper() if i in indexSet else c for i, c in enumerate(string))
# These functions take a bunch of source data in some format and turn
# it into nicely labeled fields that we know how to initialize a card from.
# Both return a dict that maps field names to lists of possible values,
@ -674,14 +691,9 @@ class Card:
#if not self.valid:
# outstr += ' _INVALID_'
outstr += '\tcasting cost: ' + self.__dict__[field_cost].format(for_forum = for_forum).replace('{','').replace('}','')
outstr += '\n'
if "planeswalker" in str(self.__dict__[field_types]):
#print 'Walker detected! ' + cardname
outstr += '\tstylesheet: m15-planeswalker\n'
if self.__dict__[field_loyalty]:
outstr += '\tloyalty: ' + utils.from_unary(self.__dict__[field_loyalty]) + '\n'
if "land" not in self.__dict__[field_types]:
outstr += '\tcasting cost: ' + self.__dict__[field_cost].format(for_forum = for_forum).replace('{','').replace('}','')
outstr += '\n'
outstr += '\tsuper type: ' + ' '.join(self.__dict__[field_supertypes] + self.__dict__[field_types]).title() + '\n'
#outstr += 'sub type: ' + ' '.join(self.__dict__[field_types])
@ -691,7 +703,7 @@ class Card:
if self.__dict__[field_text].text:
mtext = self.__dict__[field_text].text
mtext = transforms.text_unpass_1_choice(mtext, delimit = True)
mtext = transforms.text_unpass_1_choice(mtext, delimit = False)
mtext = transforms.text_unpass_2_counters(mtext)
mtext = transforms.text_unpass_3_unary(mtext)
mtext = transforms.text_unpass_4_symbols(mtext, for_forum)
@ -701,18 +713,52 @@ class Card:
newtext.text = mtext
newtext.costs = self.__dict__[field_text].costs
newtext = newtext.format(for_forum = for_forum)
newtext = newtext.replace('@',cardname) # first let's put the cardname where all the @s are.
newtext = newtext.replace("uncast","counter") # now replace 'uncast' with 'counter'.
newtext = newtext.replace(utils.this_marker, cardname) # first let's put the cardname where all the @s are.
newtext = newtext.replace(utils.counter_rename + ".", "countered.") # then replace any 'uncast' at the end of a sentence with 'countered'.
newtext = newtext.replace(utils.dash_marker, "") # also replace the ~ with a — for choices.
newtext = newtext.replace(utils.counter_rename, "counter") # then replace all the mid-sentence 'uncast' with 'counter'.
newtext = newtext.replace('{','<sym-auto>').replace('}','</sym-auto>') # now we encase mana/tap symbols with the correct tags for mse.
linecount = newtext.count('\n') + 1 # adding 1 because no newlines means 1 line, 1 newline means 2 lines etc.
# ok, let's capitalize every letter after a \n...
# first let's find all indices of \n.
indices = [0] # initialise with 0, since we always want to capitalise the first letter.
newtext = uppercaseNewLineAndFullstop(newtext) # make all the things uppercase!
# done after uppercasing everything because string[i] == • doesn't work apparently.
newtext = newtext.replace(utils.bullet_marker, "") # replace the = with a •.
newlineIndices = [0] # also need to keep track of pure newlines (for planeswalkers).
for i in range (len(newtext)):
if newtext[i] == '\n':
indices.append(i + 1) # we want the index of the letter after the \n, so add one.
indexSet = set(indices) # convert it to a set for the next part; the capitalisation.
newtext = "".join(c.upper() if i in indexSet else c for i, c in enumerate(newtext))
if newtext[i] == '\n':
newlineIndices.append(i + 1)
# need to do Special Things if it's a planeswalker.
if "planeswalker" in str(self.__dict__[field_types]): # for some reason this is in types, not supertypes...
# can we rely on newlines being the sole indicator of walker ability number?
# I think yes, because all existing WotC walkers have no newlines within abilities.
outstr += '\tstylesheet: m15-planeswalker\n' # set the proper card style for a 3-line walker.
# set up the loyalty cost fields.
# also, remove the costs from the rules text... damn immutable strings means newtext has to be a list for now.
newtextList = list(newtext)
outstr += '\tloyalty cost 1: ' + newtext[newlineIndices[0]:newlineIndices[0]+2] + '\n'
# use regex to find all loyalty costs.
newtextList[newlineIndices[0]:newlineIndices[0]+4] = '' # dang thing won't work with double-wide costs (above 9)...
# check that we won't have out of range indices; this handles partially-built walkers.
if linecount >= 2:
outstr += '\tloyalty cost 2: ' + newtext[newlineIndices[1]:newlineIndices[1]+2] + '\n'
newtextList[newlineIndices[1]-4:newlineIndices[1]] = '' # decrease index count due to removing previous costs.
if linecount >= 3:
outstr += '\tloyalty cost 3: ' + newtext[newlineIndices[2]:newlineIndices[2]+2] + '\n'
newtextList[newlineIndices[2]-8:newlineIndices[2]-4] = ''
if linecount >= 4:
outstr += '\tloyalty cost 4: ' + newtext[newlineIndices[3]:newlineIndices[3]+2] + '\n'
newtextList[newlineIndices[3]-12:newlineIndices[3]-8] = ''
newtext = ''.join(newtextList) # turn list back into string.
newtext = uppercaseNewLineAndFullstop(newtext) # we need to uppercase the rules; previous uppercase call didn't work due to loyalty costs being there.
if self.__dict__[field_loyalty]:
outstr += '\tloyalty: ' + utils.from_unary(self.__dict__[field_loyalty]) + '\n'
# have to do special snowflake stuff for rule text with more than 1 line. 2 or more lines need to be double-indented...
if linecount == 1:

254
lib/titlecase.py Normal file
View File

@ -0,0 +1,254 @@
#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
titlecase.py v0.2
Original Perl version by: John Gruber http://daringfireball.net/ 10 May 2008
Python version by Stuart Colville http://muffinresearch.co.uk
License: http://www.opensource.org/licenses/mit-license.php
"""
import unittest
import sys
import re
SMALL = 'a|an|and|as|at|but|by|en|for|if|in|of|on|or|the|to|v\.?|via|vs\.?'
PUNCT = "[!\"#$%&'()*+,-./:;?@[\\\\\\]_`{|}~]"
SMALL_WORDS = re.compile(r'^(%s)$' % SMALL, re.I)
INLINE_PERIOD = re.compile(r'[a-zA-Z][.][a-zA-Z]')
UC_ELSEWHERE = re.compile(r'%s*?[a-zA-Z]+[A-Z]+?' % PUNCT)
CAPFIRST = re.compile(r"^%s*?([A-Za-z])" % PUNCT)
SMALL_FIRST = re.compile(r'^(%s*)(%s)\b' % (PUNCT, SMALL), re.I)
SMALL_LAST = re.compile(r'\b(%s)%s?$' % (SMALL, PUNCT), re.I)
SUBPHRASE = re.compile(r'([:.;?!][ ])(%s)' % SMALL)
def titlecase(text):
"""
Titlecases input text
This filter changes all words to Title Caps, and attempts to be clever
about *un*capitalizing SMALL words like a/an/the in the input.
The list of "SMALL words" which are not capped comes from
the New York Times Manual of Style, plus 'vs' and 'v'.
"""
words = re.split('\s', text)
line = []
for word in words:
if INLINE_PERIOD.search(word) or UC_ELSEWHERE.match(word):
line.append(word)
continue
if SMALL_WORDS.match(word):
line.append(word.lower())
continue
line.append(CAPFIRST.sub(lambda m: m.group(0).upper(), word))
line = " ".join(line)
line = SMALL_FIRST.sub(lambda m: '%s%s' % (
m.group(1),
m.group(2).capitalize()
), line)
line = SMALL_LAST.sub(lambda m: m.group(0).capitalize(), line)
line = SUBPHRASE.sub(lambda m: '%s%s' % (
m.group(1),
m.group(2).capitalize()
), line)
return line
class TitlecaseTests(unittest.TestCase):
"""Tests to ensure titlecase follows all of the rules"""
def test_q_and_a(self):
"""Testing: Q&A With Steve Jobs: 'That's What Happens In Technology' """
text = titlecase(
"Q&A with steve jobs: 'that's what happens in technology'"
)
result = "Q&A With Steve Jobs: 'That's What Happens in Technology'"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_at_and_t(self):
"""Testing: What Is AT&T's Problem?"""
text = titlecase("What is AT&T's problem?")
result = "What Is AT&T's Problem?"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_apple_deal(self):
"""Testing: Apple Deal With AT&T Falls Through"""
text = titlecase("Apple deal with AT&T falls through")
result = "Apple Deal With AT&T Falls Through"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_this_v_that(self):
"""Testing: this v that"""
text = titlecase("this v that")
result = "This v That"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_this_v_that2(self):
"""Testing: this v. that"""
text = titlecase("this v. that")
result = "This v. That"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_this_vs_that(self):
"""Testing: this vs that"""
text = titlecase("this vs that")
result = "This vs That"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_this_vs_that2(self):
"""Testing: this vs. that"""
text = titlecase("this vs. that")
result = "This vs. That"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_apple_sec(self):
"""Testing: The SEC's Apple Probe: What You Need to Know"""
text = titlecase("The SEC's Apple Probe: What You Need to Know")
result = "The SEC's Apple Probe: What You Need to Know"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_small_word_quoted(self):
"""Testing: 'by the Way, Small word at the start but within quotes.'"""
text = titlecase(
"'by the Way, small word at the start but within quotes.'"
)
result = "'By the Way, Small Word at the Start but Within Quotes.'"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_small_word_end(self):
"""Testing: Small word at end is nothing to be afraid of"""
text = titlecase("Small word at end is nothing to be afraid of")
result = "Small Word at End Is Nothing to Be Afraid Of"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_sub_phrase_small_word(self):
"""Testing: Starting Sub-Phrase With a Small Word: a Trick, Perhaps?"""
text = titlecase(
"Starting Sub-Phrase With a Small Word: a Trick, Perhaps?"
)
result = "Starting Sub-Phrase With a Small Word: A Trick, Perhaps?"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_small_word_quotes(self):
"""Testing: Sub-Phrase With a Small Word in Quotes: 'a Trick..."""
text = titlecase(
"Sub-Phrase With a Small Word in Quotes: 'a Trick, Perhaps?'"
)
result = "Sub-Phrase With a Small Word in Quotes: 'A Trick, Perhaps?'"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_small_word_double_quotes(self):
"""Testing: Sub-Phrase With a Small Word in Quotes: \"a Trick..."""
text = titlecase(
'Sub-Phrase With a Small Word in Quotes: "a Trick, Perhaps?"'
)
result = 'Sub-Phrase With a Small Word in Quotes: "A Trick, Perhaps?"'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_nothing_to_be_afraid_of(self):
"""Testing: \"Nothing to Be Afraid of?\""""
text = titlecase('"Nothing to Be Afraid of?"')
result = '"Nothing to Be Afraid Of?"'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_nothing_to_be_afraid_of2(self):
"""Testing: \"Nothing to Be Afraid Of?\""""
text = titlecase('"Nothing to be Afraid Of?"')
result = '"Nothing to Be Afraid Of?"'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_a_thing(self):
"""Testing: a thing"""
text = titlecase('a thing')
result = 'A Thing'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_vapourware(self):
"""Testing: 2lmc Spool: 'Gruber on OmniFocus and Vapo(u)rware'"""
text = titlecase(
"2lmc Spool: 'gruber on OmniFocus and vapo(u)rware'"
)
result = "2lmc Spool: 'Gruber on OmniFocus and Vapo(u)rware'"
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_domains(self):
"""Testing: this is just an example.com"""
text = titlecase('this is just an example.com')
result = 'This Is Just an example.com'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_domains2(self):
"""Testing: this is something listed on an del.icio.us"""
text = titlecase('this is something listed on del.icio.us')
result = 'This Is Something Listed on del.icio.us'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_itunes(self):
"""Testing: iTunes should be unmolested"""
text = titlecase('iTunes should be unmolested')
result = 'iTunes Should Be Unmolested'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_thoughts_on_music(self):
"""Testing: Reading Between the Lines of Steve Jobss..."""
text = titlecase(
'Reading between the lines of steve jobss thoughts on music'
)
result = 'Reading Between the Lines of Steve Jobss Thoughts on '\
'Music'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_repair_perms(self):
"""Testing: Seriously, Repair Permissions Is Voodoo"""
text = titlecase('seriously, repair permissions is voodoo')
result = 'Seriously, Repair Permissions Is Voodoo'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
def test_generalissimo(self):
"""Testing: Generalissimo Francisco Franco..."""
text = titlecase(
'generalissimo francisco franco: still dead; kieren McCarthy: '\
'still a jackass'
)
result = 'Generalissimo Francisco Franco: Still Dead; Kieren '\
'McCarthy: Still a Jackass'
self.assertEqual(text, result, "%s should be: %s" % (text, result, ))
if __name__ == '__main__':
if not sys.stdin.isatty():
for line in sys.stdin:
print titlecase(line)
else:
suite = unittest.TestLoader().loadTestsFromTestCase(TitlecaseTests)
unittest.TextTestRunner(verbosity=2).run(suite)