from collections import namedtuple
import os, os.path
import pkg_resources
+import random
import re
+import shutil
from sqlalchemy.sql import func
import whoosh
import whoosh.filedb.fileindex
import whoosh.index
from whoosh.qparser import QueryParser
+import whoosh.scoring
import whoosh.spelling
from pokedex.db import connect
import pokedex.db.tables as tables
from pokedex.roomaji import romanize
+__all__ = ['open_index', 'lookup', 'random_lookup']
+
+INTERMEDIATE_LOOKUP_RESULTS = 25
+MAX_LOOKUP_RESULTS = 10
+
# Dictionary of table name => table class.
# Need the table name so we can get the class from the table name after we
# retrieve something from the index
]:
indexed_tables[cls.__tablename__] = cls
-# Dictionary of extra keys to file types of objects under, e.g. Pokémon can
-# also be looked up purely by number
-extra_keys = {
- tables.Move: [
- lambda row: u"move %d" % row.id,
- ],
- tables.Pokemon: [
- lambda row: unicode(row.id),
- ],
-}
-
def open_index(directory=None, session=None, recreate=False):
"""Opens the whoosh index stored in the named directory and returns (index,
speller). If the index doesn't already exist, it will be created.
# Defaults
if not directory:
directory = pkg_resources.resource_filename('pokedex',
- 'data/whoosh_index')
+ 'data/whoosh-index')
if not session:
session = connect()
# Apparently not a real index. Fall out of the if and create it
pass
+ # Delete and start over if we're going to bail anyway.
+ if directory_exists and recreate:
+ # Be safe and only delete if it looks like a whoosh index, i.e.,
+ # everything starts with _
+ if all(f[0] == '_' for f in os.listdir(directory)):
+ shutil.rmtree(directory)
+ directory_exists = False
+
if not directory_exists:
os.mkdir(directory)
- # Create index
+ ### Create index
schema = whoosh.fields.Schema(
name=whoosh.fields.ID(stored=True),
- table=whoosh.fields.STORED,
- row_id=whoosh.fields.STORED,
+ table=whoosh.fields.ID(stored=True),
+ row_id=whoosh.fields.ID(stored=True),
language=whoosh.fields.STORED,
+ display_name=whoosh.fields.STORED, # non-lowercased name
+ forme_name=whoosh.fields.ID,
)
index = whoosh.index.create_in(directory, schema=schema, indexname='MAIN')
for cls in indexed_tables.values():
q = session.query(cls)
- # Only index base Pokémon formes
- if hasattr(cls, 'forme_base_pokemon_id'):
- q = q.filter_by(forme_base_pokemon_id=None)
-
for row in q.yield_per(5):
- row_key = dict(table=cls.__tablename__, row_id=row.id)
+ # XXX need to give forme_name a dummy value because I can't search
+ # for explicitly empty fields. boo.
+ row_key = dict(table=unicode(cls.__tablename__),
+ row_id=unicode(row.id),
+ forme_name=u'XXX')
+
+ def add(name, language, score):
+ writer.add_document(name=name.lower(), display_name=name,
+ language=language,
+ **row_key)
+ speller_entries.append((name.lower(), score))
- name = row.name.lower()
- writer.add_document(name=name, **row_key)
- speller_entries.append((name, 1))
+ # If this is a form, mark it as such
+ if getattr(row, 'forme_base_pokemon_id', None):
+ row_key['forme_name'] = row.forme_name
- for extra_key_func in extra_keys.get(cls, []):
- extra_key = extra_key_func(row)
- writer.add_document(name=extra_key, **row_key)
+ name = row.name
+ add(name, None, 1)
# Pokemon also get other languages
for foreign_name in getattr(row, 'foreign_names', []):
- moonspeak = foreign_name.name.lower()
+ moonspeak = foreign_name.name
if name == moonspeak:
# Don't add the English name again as a different language;
# no point and it makes spell results confusing
continue
- writer.add_document(name=moonspeak,
- language=foreign_name.language.name,
- **row_key)
- speller_entries.append((moonspeak, 3))
+ add(moonspeak, foreign_name.language.name, 3)
# Add Roomaji too
if foreign_name.language.name == 'Japanese':
- roomaji = romanize(foreign_name.name).lower()
- writer.add_document(name=roomaji, language='Roomaji',
- **row_key)
- speller_entries.append((roomaji, 8))
-
+ roomaji = romanize(foreign_name.name)
+ add(roomaji, u'Roomaji', 8)
writer.commit()
return index, speller
+class LanguageWeighting(whoosh.scoring.Weighting):
+ """A scoring class that forces otherwise-equal English results to come
+ before foreign results.
+ """
+
+ def score(self, searcher, fieldnum, text, docnum, weight, QTF=1):
+ doc = searcher.stored_fields(docnum)
+ if doc['language'] == None:
+ # English (well, "default"); leave it at 1
+ return weight
+ elif doc['language'] == u'Roomaji':
+ # Give Roomaji a bit of a boost, as it's most likely to be searched
+ return weight * 0.95
+ else:
+ # Everything else can drop down the totem pole
+ return weight * 0.9
+
+rx_is_number = re.compile('^\d+$')
+
LookupResult = namedtuple('LookupResult',
['object', 'name', 'language', 'exact'])
-def lookup(name, session=None, indices=None, exact_only=False):
+
+def _parse_table_name(name):
+ """Takes a singular table name, table name, or table object and returns the
+ table name.
+
+ Returns None for a bogus name.
+ """
+ if hasattr(name, '__tablename__'):
+ return getattr(name, '__tablename__')
+ elif name in indexed_tables:
+ return name
+ elif name + 's' in indexed_tables:
+ return name + 's'
+ else:
+ # Bogus. Be nice and return dummy
+ return None
+
+
+def lookup(input, valid_types=[], session=None, indices=None, exact_only=False):
"""Attempts to find some sort of object, given a database session and name.
Returns a list of named (object, name, language, exact) tuples. `object`
This function currently ONLY does fuzzy matching if there are no exact
matches.
- Formes are not returned; "Shaymin" will return only grass Shaymin.
+ Formes are not returned unless requested; "Shaymin" will return only grass
+ Shaymin.
- Recognizes:
- - Pokémon names: "Eevee"
+ Extraneous whitespace is removed with extreme prejudice.
- `name`
+ Recognizes:
+ - Names: "Eevee", "Surf", "Run Away", "Payapa Berry", etc.
+ - Foreign names: "Iibui", "Eivui"
+ - Fuzzy names in whatever language: "Evee", "Ibui"
+ - IDs: "133", "192", "250"
+ Also:
+ - Type restrictions. "type:psychic" will only return the type. This is
+ how to make ID lookup useful. Multiple type specs can be entered with
+ commas, as "move,item:1". If `valid_types` are provided, any type prefix
+ will be ignored.
+ - Alternate formes can be specified merely like "wash rotom".
+
+ `input`
Name of the thing to look for.
+ `valid_types`
+ A list of table objects or names, e.g., `['pokemon', 'moves']`. If
+ this is provided, only results in one of the given tables will be
+ returned.
+
`session`
A database session to use for retrieving objects. As with get_index,
if this is not provided, a connection to the default database will be
else:
index, speller = open_index()
- name = unicode(name)
-
+ name = unicode(input).strip().lower()
exact = True
+ form = None
+
+ # Remove any type prefix (pokemon:133) before constructing a query
+ if ':' in name:
+ prefix_chunk, name = name.split(':', 1)
+ name = name.strip()
+
+ if not valid_types:
+ # Only use types from the query string if none were explicitly
+ # provided
+ prefixes = prefix_chunk.split(',')
+ valid_types = [_.strip() for _ in prefixes]
+
+ # Random lookup
+ if name == 'random':
+ return random_lookup(indices=(index, speller),
+ session=session,
+ valid_types=valid_types)
+
+ # Do different things depending what the query looks like
+ # Note: Term objects do an exact match, so we don't have to worry about a
+ # query parser tripping on weird characters in the input
+ if '*' in name or '?' in name:
+ exact_only = True
+ query = whoosh.query.Wildcard(u'name', name)
+ elif rx_is_number.match(name):
+ # Don't spell-check numbers!
+ exact_only = True
+ query = whoosh.query.Term(u'row_id', name)
+ else:
+ # Not an integer
+ query = whoosh.query.Term(u'name', name) \
+ & whoosh.query.Term(u'forme_name', u'XXX')
+
+ # If there's a space in the input, this might be a form
+ if ' ' in name:
+ form, formless_name = name.split(' ', 1)
+ form_query = whoosh.query.Term(u'name', formless_name) \
+ & whoosh.query.Term(u'forme_name', form)
+ query = query | form_query
- # Look for exact name. A Term object does an exact match, so we don't have
- # to worry about a query parser tripping on weird characters in the input
+ ### Filter by type of object
+ type_terms = []
+ for valid_type in valid_types:
+ table_name = _parse_table_name(valid_type)
+ type_terms.append(whoosh.query.Term(u'table', table_name))
+
+ if type_terms:
+ query = query & whoosh.query.Or(type_terms)
+
+
+ ### Actual searching
searcher = index.searcher()
- query = whoosh.query.Term('name', name.lower())
- results = searcher.search(query)
+ searcher.weighting = LanguageWeighting() # XXX kosher? docs say search()
+ # takes a weighting kw but it
+ # certainly does not
+ results = searcher.search(query, limit=INTERMEDIATE_LOOKUP_RESULTS)
# Look for some fuzzy matches if necessary
if not exact_only and not results:
exact = False
results = []
- for suggestion in speller.suggest(name, 10):
+ for suggestion in speller.suggest(name, INTERMEDIATE_LOOKUP_RESULTS):
query = whoosh.query.Term('name', suggestion)
results.extend(searcher.search(query))
seen = {}
for result in results:
# Skip dupe results
- # Note! The speller prefers English names, but the query does not. So
- # "latias" comes over "ratiasu". "latias" matches only the English
- # row, comes out first, and all is well.
- # However! The speller could then return "foo" which happens to be the
- # name for two different things in different languages, and the
- # non-English one could appear preferred. This is not very likely.
seen_key = result['table'], result['row_id']
if seen_key in seen:
continue
cls = indexed_tables[result['table']]
obj = session.query(cls).get(result['row_id'])
+
objects.append(LookupResult(object=obj,
- name=result['name'],
+ name=result['display_name'],
language=result['language'],
exact=exact))
- return objects[:5]
+ # Only return up to 10 matches; beyond that, something is wrong.
+ # We strip out duplicate entries above, so it's remotely possible that we
+ # should have more than 10 here and lost a few. The speller returns 25 to
+ # give us some padding, and should avoid that problem. Not a big deal if
+ # we lose the 25th-most-likely match anyway.
+ return objects[:MAX_LOOKUP_RESULTS]
+
+
+def random_lookup(valid_types=[], session=None, indices=None):
+ """Takes similar arguments as `lookup()`, but returns a random lookup
+ result from one of the provided `valid_types`.
+ """
+
+ tables = []
+ for valid_type in valid_types:
+ table_name = _parse_table_name(valid_type)
+ if table_name:
+ tables.append(indexed_tables[table_name])
+
+ if not tables:
+ tables = indexed_tables.values()
+
+ # Rather than create an array of many hundred items and pick randomly from
+ # it, just pick a number up to the total number of potential items, then
+ # pick randomly from that, and partition the whole range into chunks
+ total = 0
+ partitions = []
+ for table in tables:
+ count = session.query(table).count()
+ total += count
+ partitions.append((table, count))
+
+ n = random.randint(1, total)
+ while n > partitions[0][1]:
+ n -= partitions[0][1]
+ partitions.pop(0)
+
+ return lookup(unicode(n), valid_types=[ partitions[0][0] ],
+ indices=indices, session=session)