""" Module to parse the Project Gutenberg Catalog and map to various work IDs """ import unittest import os import json from copy import deepcopy from freebase.api.mqlkey import quotekey, unquotekey import freebase import requests from lxml import html import httplib from urlparse import urljoin from urllib import urlencode from pprint import pprint from collections import defaultdict, OrderedDict from itertools import islice, chain, izip, repeat import operator import time import re from itertools import islice, izip import logging import random import json from datetime import datetime from sqlalchemy import create_engine, MetaData, Table, Column, Integer, String, Text, Sequence, Boolean, not_, and_, DateTime from sqlalchemy.dialects.mysql import MEDIUMTEXT from sqlalchemy.orm import mapper, sessionmaker from sqlalchemy.exc import IntegrityError from sqlalchemy.ext.declarative import declarative_base from sqlalchemy.schema import UniqueConstraint from sqlalchemy.sql.expression import ClauseElement from bookdata import WorkMapper, OpenLibrary, FreebaseBooks, GoogleBooks, GOOGLE_BOOKS_KEY, thingisbn try: from regluit.core import isbn as isbn_mod except: import isbn as isbn_mod logging.basicConfig(filename='gutenberg.log', level=logging.DEBUG) logger = logging.getLogger(__name__) def filter_none(d): d2 = {} for (k,v) in d.iteritems(): if v is not None: d2[k] = v return d2 # http://stackoverflow.com/questions/2348317/how-to-write-a-pager-for-python-iterators/2350904#2350904 def grouper(iterable, page_size): page= [] for item in iterable: page.append( item ) if len(page) == page_size: yield page page= [] if len(page): yield page def singleton(cls): instances = {} def getinstance(): if cls not in instances: instances[cls] = cls() return instances[cls] return getinstance # http://stackoverflow.com/a/2587041/7782 def get_or_create(session, model, defaults=None, **kwargs): instance = session.query(model).filter_by(**kwargs).first() if instance: return instance, False else: params = dict((k, v) for k, v in kwargs.iteritems() if not isinstance(v, ClauseElement)) if defaults is None: defaults = {} params.update(defaults) instance = model(**params) session.add(instance) return instance, True Base = declarative_base() class SeedISBN(Base): __tablename__ = 'SeedISBN' __table_args__ = {'mysql_engine':'InnoDB'} #column definitions calculated = Column(u'calculated', DateTime, default=datetime.utcnow()) error = Column(u'error', Text()) gutenberg_etext_id = Column(u'gutenberg_etext_id', Integer(11), index=True) id = Column(u'id', Integer(11), primary_key=True, nullable=False) results = Column(u'results', MEDIUMTEXT()) seed_isbn = Column(u'seed_isbn', String(length=13)) title = Column(u'title', Text()) title_error = Column(u'title_error', Text()) class GutenbergText(object): """ CREATE TABLE `GutenbergText` ( `id` int(11) unsigned NOT NULL AUTO_INCREMENT, `etext_id` int(10) unsigned NOT NULL, `title` varchar(1024) DEFAULT NULL, `friendly_title` varchar(1024) DEFAULT NULL, `lang` char(5) DEFAULT NULL, `rights` varchar(512) DEFAULT NULL, `created` date DEFAULT NULL, `creator` varchar(1024) DEFAULT NULL, PRIMARY KEY (`id`), KEY `etext_id` (`etext_id`) ) ENGINE=MyISAM AUTO_INCREMENT=37874 DEFAULT CHARSET=utf8; """ pass class GutenbergFile(object): """ CREATE TABLE `GutenbergFile` ( `id` int(11) unsigned NOT NULL AUTO_INCREMENT, `about` varchar(300) NOT NULL DEFAULT '', `format` varchar(256) DEFAULT NULL, `extent` int(11) unsigned DEFAULT NULL, `modified` date DEFAULT NULL, `is_format_of` int(11) DEFAULT NULL, PRIMARY KEY (`id`), UNIQUE KEY `about_index` (`about`), KEY `is_format_of` (`is_format_of`) ) ENGINE=MyISAM AUTO_INCREMENT=463211 DEFAULT CHARSET=utf8; """ pass class WikipediaLink(Base): __tablename__ = 'WikipediaLink' __table_args__ = ( UniqueConstraint('gutenberg_etext_id', 'wikipedia_href', name='wikipedia_etext_id'), {'mysql_engine':'MyISAM'} ) id = Column(Integer, primary_key=True) gutenberg_etext_id = Column('gutenberg_etext_id', Integer(11)) wikipedia_href = Column('wikipedia_href', String(255)) wikipedia_title = Column('wikipedia_title', String(255)) class FreebaseEntity(Base): __tablename__ = 'FreebaseEntity' __table_args__ = ( {'mysql_engine':'MyISAM'} ) id = Column('id', String(255), primary_key=True) wikipedia_href = Column('wikipedia_href', String(255)) is_book_book = Column('is_book_book', Boolean) class OpenLibraryWork(Base): __tablename__ = 'OpenLibraryWork' __table_args__ = ( {'mysql_engine':'MyISAM'} ) id = Column('id', String(255), primary_key=True) title = Column('title', String(512), default=None) class MappedWork(Base): __tablename__ = 'MappedWork' __table_args__ = ( {'mysql_engine':'MyISAM'} ) id = Column(Integer, primary_key=True) olid = Column('olid', String(255)) freebase_id = Column('freebase_id', String(255)) gutenberg_etext_id = Column(Integer) class GutenbergIdMapped(Base): __tablename__ = 'GutenbergIdMapped' __table_args__ = ( {'mysql_engine':'MyISAM'} ) id = Column(Integer, primary_key=True, autoincrement=False) class MappingError(Base): __tablename__ = 'MappingError' __table_args__ = ( {'mysql_engine':'MyISAM'} ) id = Column('id', Integer, primary_key=True) created = Column('created', DateTime, default=datetime.utcnow()) message = Column('message', String(1000)) @singleton class GluejarDB(object): def __init__(self, user="gluejar", pw="gluejar", db="Gluejar", host="127.0.0.1", port=3306): self.mysql_connect_path = "mysql+mysqldb://%s:%s@%s:%s/%s?charset=utf8" % (user,pw,host,port,db) self.engine = create_engine(self.mysql_connect_path, echo=False) self.metadata = MetaData(self.engine) Base.metadata.create_all(self.engine) gutenbergtext = Table('GutenbergText', self.metadata, autoload=True) mapper(GutenbergText, gutenbergtext) gutenbergfile = Table('GutenbergFile', self.metadata, autoload=True) mapper(GutenbergFile, gutenbergfile) #seedisbn = Table('SeedISBN', self.metadata, autoload=True) #mapper(SeedISBN, seedisbn) Session = sessionmaker(bind=self.engine) session = Session() self.session = session def _reflect(self): for table in self.metadata.tables.values(): print """ class %s(Base): __table__ = Table(%r, Base.metadata, autoload=True) """ % (table.name, table.name) def _sqlautocode(self): """ spit out some code to help us run sqlautocode """ return "sqlautocode -o model.py %s" % (self.mysql_connect_path) def commit_db(self): self.session.commit() def rollback(self): self.session.rollback() def gutenberg_texts(self): """generator for all records in the GutenbergText table""" items = self.session.query(GutenbergText).all() for item in items: yield item def filtered_wikipedia_links(self): """generate wikipedia links that are in the main Wikipedia namespace""" # eliminate pages in the TO_FILTER namespace TO_FILTER = ['File:%', 'Portal:%', 'Portal talk:%', "Talk:%", 'Template:%', 'Template talk:%', 'User:%','User talk:%', 'Wikipedia:%', 'Wikipedia talk:%'] total_filter = and_(*[not_(WikipediaLink.wikipedia_title.like(f)) for f in TO_FILTER]) items = self.session.query(WikipediaLink).filter(total_filter) for item in items: yield item def parse_project_gutenberg_catalog(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog.rdf'): #URL = http://www.gutenberg.org/feeds/catalog.rdf.zip import re def text(node): node.normalize() return node.childNodes[0].data RDF_NS = 'http://www.w3.org/1999/02/22-rdf-syntax-ns#' DC_NS = 'http://purl.org/dc/elements/1.1/' DCTERMS_NS = 'http://purl.org/dc/terms/' PGTERMS_NS = 'http://www.gutenberg.org/rdfterms/' from xml.dom.pulldom import START_ELEMENT, parse doc = parse(fname) for event, node in doc: if event == START_ELEMENT and node.localName == "etext": doc.expandNode(node) # etext_id id = node.getAttributeNS(RDF_NS,'ID') try: etext_id = int(re.match(r'^etext(\d+)$', id).group(1)) except: etext_id = None # title try: title = text(node.getElementsByTagNameNS(DC_NS,'title')[0]) title = title.replace("\n"," ").replace("\r"," ") except: title = None # friendly_title try: friendly_title = text(node.getElementsByTagNameNS(PGTERMS_NS,'friendlytitle')[0]) friendly_title = friendly_title.replace("\n"," ").replace("\r"," ") except: friendly_title = None # lang try: lang = text(node.getElementsByTagNameNS(DC_NS,'language')[0].getElementsByTagNameNS(DCTERMS_NS,'ISO639-2')[0].getElementsByTagNameNS(RDF_NS,'value')[0]) except Exception, e: logger.debug(e) lang = None # rights try: rights_node = node.getElementsByTagNameNS(DC_NS,'rights')[0] rights = rights_node.getAttributeNS(RDF_NS, 'resource') if rights == '': rights = text(rights_node) except Exception, e: logger.debug(e) right = None # created # 2011-11-02 try: created_str = text(node.getElementsByTagNameNS(DC_NS,'created')[0].getElementsByTagNameNS(DCTERMS_NS,'W3CDTF')[0].getElementsByTagNameNS(RDF_NS,'value')[0]) created = datetime.date(datetime.strptime(created_str, "%Y-%m-%d")) except Exception, e: logger.debug(e) created = None # creator try: creator = text(node.getElementsByTagNameNS(DC_NS,'creator')[0]) except Exception, e: logger.debug(e) creator = None yield {'type':'text', 'etext_id':etext_id, 'title':title, 'friendly_title':friendly_title, 'lang':lang, 'rights':rights, 'created':created, 'creator':creator} if event == START_ELEMENT and node.localName == "file": doc.expandNode(node) # about try: about = node.getAttributeNS(RDF_NS,'about') except Exception, e: logger.debug(e) about = None # isFormatOf try: is_format_of_raw = node.getElementsByTagNameNS(DCTERMS_NS,'isFormatOf')[0].getAttributeNS(RDF_NS,'resource') is_format_of = int(re.match(r'#etext(\d+)$',is_format_of_raw).group(1)) except Exception, e: logger.debug(e) is_format_of = None # format: grab the first one try: format = text(node.getElementsByTagNameNS(DC_NS,'format')[0].getElementsByTagNameNS(DCTERMS_NS,'IMT')[0].getElementsByTagNameNS(RDF_NS,'value')[0]) except Exception, e: logger.debug(e) format = None # modified try: modified_str = text(node.getElementsByTagNameNS(DCTERMS_NS,'modified')[0].getElementsByTagNameNS(DCTERMS_NS,'W3CDTF')[0].getElementsByTagNameNS(RDF_NS,'value')[0]) modified = datetime.date(datetime.strptime(modified_str, "%Y-%m-%d")) except Exception, e: logger.info(e) modified = None # extent try: extent = int(text(node.getElementsByTagNameNS(DCTERMS_NS,'extent')[0])) except Exception, e: raise e logger.info(e) extent = None yield {'type':'file', 'about':about, 'is_format_of':is_format_of, 'format':format, 'modified':modified, 'extent':extent} def walk_through_catalog(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog.rdf',max=100000): for i, item in enumerate(islice(parse_project_gutenberg_catalog(fname),max)): print i, item def load_texts_to_db(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog_texts.rdf', max=None): gluejar_db = GluejarDB() for (i, item) in enumerate(islice(parse_project_gutenberg_catalog(fname),max)): print i, item if item['type'] == 'text': try: book = gluejar_db.session.query(GutenbergText).filter(GutenbergText.etext_id == item['etext_id']).one() except: book = GutenbergText() book.etext_id = item['etext_id'] gluejar_db.session.add(book) book.title = item['title'] book.friendly_title = item['friendly_title'] book.lang = item['lang'] book.rights = item['rights'] book.created = item['created'] book.creator = item['creator'] gluejar_db.commit_db() def load_files_to_db(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog_files.rdf', max=100000): gluejar_db = GluejarDB() for (i, item) in enumerate(islice(parse_project_gutenberg_catalog(fname),max)): print i, item if item['type'] == 'file': # try to write if it's a problem do a query to update -- about is unique try: file = GutenbergFile() file.about = item['about'] gluejar_db.session.add(file) gluejar_db.commit_db() except IntegrityError, e: gluejar_db.session.rollback() file = gluejar_db.session.query(GutenbergFile).filter(GutenbergFile.about== item['about']).one() file.is_format_of = item['is_format_of'] file.format = item['format'] file.modified = item['modified'] file.extent = item['extent'] gluejar_db.commit_db() gluejar_db.commit_db() def external_links_in_wikipedia(target, limit=500, offset=0): # e.g., http://en.wikipedia.org/w/index.php?title=Special:LinkSearch&target=http%3A%2F%2Fwww.gutenberg.org%2Fetext%2F&limit=500&offset=0 base_url = "http://en.wikipedia.org/w/index.php" params = filter_none({"title":"Special:LinkSearch", "target":target, "limit":limit, offset:offset}) url = "%s?%s" % (base_url, urlencode(params)) # page through all the results more_pages = True while more_pages: r = requests.get(url) if r.status_code != httplib.OK: raise Exception("Problem with request on %s %s: %s %s", base_url, params, r.status_code, r.content) etree = html.fromstring(r.content) links = etree.xpath("//ol")[0].xpath("li") for link in links: (target_a, source_a) = link.xpath('a') yield {"target":target_a.attrib["href"], "source_href": source_a.attrib["href"], "source_title":source_a.text} # is there another page following_page = etree.xpath("//a[@class='mw-nextlink']") if len(following_page) > 0: url = urljoin(url, following_page[0].attrib["href"]) else: more_pages = False def load_wikipedia_external_links_into_db(max=None): targets = ["http://www.gutenberg.org/etext", "http://www.gutenberg.org/ebook"] links = chain(*[external_links_in_wikipedia(target) for target in targets]) gluejar_db = GluejarDB() for (i, link) in enumerate(islice(links,max)): link_target = link["target"] try: etext_id = re.search(r'\/(\d+)$', link_target).group(1) except: etext_id = None print i, link["source_href"], link["source_title"], link_target, etext_id if etext_id is not None: wl = WikipediaLink() wl.gutenberg_etext_id = etext_id wl.wikipedia_href = link["source_href"] wl.wikipedia_title = link["source_title"] gluejar_db.session.add(wl) try: gluejar_db.commit_db() except Exception, e: print e gluejar_db.rollback() def map_wikipedia_links_to_freebase_ids(max=None ,page_size=5): fb = FreebaseClient('rdhyee', 'fbkule!') db = GluejarDB() wikipedia_ids = list( (wl.wikipedia_href for wl in islice(db.filtered_wikipedia_links(), max)) ) for id in wikipedia_ids: print id resp = fb.wikipedia_href_to_freebase_id(wikipedia_ids,page_size=page_size) for (i,r) in enumerate(resp): print i, r if len(r): # an actual result print r[0]['id'], r[0]['type'], r[0]['key'][0]['value'] fb_entity = FreebaseEntity() fb_entity.id = r[0]['id'] try: db.session.add(fb_entity) db.commit_db() except IntegrityError, e: db.rollback() fb_entity = db.session.query(FreebaseEntity).filter(FreebaseEntity.id==r[0]['id']).one() fb_entity.wikipedia_href = '/wiki/%s' % (unquotekey(r[0]['key'][0]['value'])) fb_entity.is_book_book = '/book/book' in r[0]['type'] db.commit_db() def map_refine_fb_links_to_openlibrary_work_ids(max=None): from google.refine import refine db = GluejarDB() refine_proj_id = "1884515736058" refine_obj = refine.Refine(refine.RefineServer()) proj = refine_obj.open_project(refine_proj_id) cols_to_extract = ['etext_id', 'title', 'name', 'fb_id', 'fb_id_judgement', 'wikipedia_title'] limit = max if max is not None else 1000000 response = proj.get_rows(limit=limit) # get Gutenberg IDs already done done = set([r.id for r in db.session.query(GutenbergIdMapped).all()]) print "response.total: ", response.total for i, row in enumerate(islice(response.rows,max)): print i, row.index, row['etext_id'], row['title'], row['name'], row['fb_id'], row['fb_id_judgement'], if row['etext_id'] is not None and (int(row['etext_id']) not in done): try: work_ids = list(WorkMapper.freebase_book_to_openlibrary_work(row['fb_id'], complete_search=True)) print work_ids (fb_item, created) = get_or_create(db.session, FreebaseEntity, row['fb_id']) for work_id in work_ids: (ol_item, created) = get_or_create(db.session, OpenLibraryWork, id=work_id) (mapping, created) = get_or_create(db.session, MappedWork, olid=work_id, freebase_id=row['fb_id'], gutenberg_etext_id=int(row['etext_id'])) done.add(int(row['etext_id'])) (done_item, created) = get_or_create(db.session, GutenbergIdMapped, id=int(row['etext_id'])) except Exception, e: message = "Problem with i %d, etext_id %s: %s" % (i, row['etext_id'], e) print message (error_item, created) = get_or_create(db.session, MappingError, message=message) else: print "already done" db.commit_db() def compute_ol_title_from_work_id(max=None): db = GluejarDB() # loop through the OpenLibraryWork with null title for (i,work) in enumerate(islice(db.session.query(OpenLibraryWork).filter(OpenLibraryWork.title==None),max)): print i, work.id, try: title = OpenLibrary.json_for_olid(work.id)["title"] work.title = title print title except Exception, e: message = "Problem with i %d, work.id %s: %s" % (i, work.id, e) print message db.commit_db() def export_gutenberg_to_ol_mapping(max=None,fname=None): output = list(gutenberg_to_ol_mapping(max=max)) if fname is not None: f = open(fname, "wb") f.write(json.dumps(output)) f.close() return output def gutenberg_to_ol_mapping(max=None): SQL = """SELECT mw.gutenberg_etext_id, gt.title as gt_title, mw.olid, olw.title as ol_title, mw.freebase_id, gf.about as 'url', gf.format, gt.rights, gt.lang, DATE_FORMAT(gt.created, "%Y-%m-%d") as 'created' FROM MappedWork mw LEFT JOIN GutenbergText gt ON mw.gutenberg_etext_id = gt.etext_id LEFT JOIN OpenLibraryWork olw ON olw.id=mw.olid LEFT JOIN GutenbergFile gf ON gf.is_format_of = gt.etext_id WHERE gf.format = 'application/epub+zip';""" headers = ("gutenberg_etext_id", "gt_title", "olid", "ol_title", "freebase_id", "url", "format", "rights", "lang", "created") # getting the right fields? # (title, gutenberg_etext_id, ol_work_id, seed_isbn, url, format, license, lang, publication_date) db = GluejarDB() resp = enumerate(islice(db.session.query(*headers).from_statement(SQL).all(),max)) # what choice of serialization at this point? JSON for now, but not the best for a large file for (i,r) in resp: #print r, type(r), dict(izip(headers,r)) yield dict(izip(headers,r)) def import_gutenberg_json(fname): headers = ("gutenberg_etext_id", "gt_title", "olid", "ol_title", "freebase_id", "url", "format", "rights", "lang", "created") f = open(fname) records = json.load(f) for record in records: print [record[h] for h in headers] return records def gutenberg_ol_fb_mappings(gutenberg_ids, max=None): """ For each element of the gutenberg_ids, return an good seed ISBN""" db = GluejarDB() for (i, g_id) in enumerate(islice(gutenberg_ids, max)): mappings = db.session.query(MappedWork).filter_by(gutenberg_etext_id = g_id) for mapping in mappings.all(): yield {'fb': mapping.freebase_id, 'olid': mapping.olid} def seed_isbn(olwk_ids, freebase_ids, lang='en'): random.seed() logger.info("seed_isbn input: olwk_ids, freebase_ids, lang: %s %s %s", olwk_ids, freebase_ids, lang) lt_clusters = [] lt_unrecognized = set() fb = FreebaseBooks() gb = GoogleBooks(key=GOOGLE_BOOKS_KEY) fb_isbn_set = reduce(operator.or_,[set(fb.xisbn(book_id=freebase_id)) for freebase_id in freebase_ids]) if len(freebase_ids) else set() ol_isbn_set = reduce(operator.or_,[set(OpenLibrary.xisbn(work_id=olwk_id)) for olwk_id in olwk_ids]) if len(olwk_ids) else set() #lt_isbn_set = set(map(lambda x: isbn_mod.ISBN(x).to_string('13'), thingisbn(SURFACING_ISBN))) logger.debug("Freebase set: %d %s", len(fb_isbn_set), fb_isbn_set) logger.debug("OpenLibrary set: %d %s", len(ol_isbn_set), ol_isbn_set) logger.debug("in both fb and ol: %d %s", len(fb_isbn_set & ol_isbn_set), fb_isbn_set & ol_isbn_set) logger.debug("in fb but not ol: %d %s", len(fb_isbn_set - ol_isbn_set), fb_isbn_set - ol_isbn_set) logger.debug("in ol but not fb: %d %s", len(ol_isbn_set - fb_isbn_set), ol_isbn_set - fb_isbn_set) # loop through union set and ask thingisbn to cluster to_cluster = (fb_isbn_set | ol_isbn_set) logger.debug("to cluster: %s, %d", to_cluster, len(to_cluster)) while len (to_cluster): seed = to_cluster.pop() cluster = set(filter(None, map(lambda x: isbn_mod.ISBN(x).to_string('13'), thingisbn(seed)))) # is there anything in the cluster if len(cluster) == 0: lt_unrecognized.add(seed) else: # check that seed is in the cluster assert seed in cluster lt_clusters.append(cluster) to_cluster -= cluster # print out the clusters logger.debug("clusters") for (i, lt_cluster) in enumerate(lt_clusters): logger.debug("%d %s %d", i, lt_cluster, len(lt_cluster)) logger.debug("unrecognized by LT %s %d", lt_unrecognized, len(lt_unrecognized)) # figure out new ISBNs found by LT new_isbns = ((reduce(operator.or_,lt_clusters) if len(lt_clusters) else set())| lt_unrecognized) - (fb_isbn_set | ol_isbn_set) logger.debug( "new isbns from LT %s %d", new_isbns, len(new_isbns)) gbooks_data = {} # then pass to Google books to get info, including language all_isbns = ((reduce(operator.or_,lt_clusters) if len(lt_clusters) else set()) | lt_unrecognized) for (i, isbn) in enumerate(all_isbns): gbooks_data[isbn] = gb.isbn(isbn) logger.debug("%d %s %s", i, isbn, gbooks_data[isbn]) # subcluster the lt_clusters by language lt_clusters_by_lang = [] for lt_cluster in lt_clusters: lang_map = defaultdict(list) for id in lt_cluster: lang_of_id = gbooks_data.get(id).get('language') if gbooks_data.get(id) is not None else None lang_map[lang_of_id].append((id)) lt_clusters_by_lang.append(lang_map) # boil the candidate down to a single ISBN: take a random ISBN from the list of all ISBNs in the requested # language subcluster within the largest cluster that has such a language subcluster. # Return None if there is no matching sub-language # cluster in the largest cluster candidate_subclusters = filter(lambda x: x[0] is not None, [(c.get(lang), len(reduce(operator.add,c.values()))) for c in lt_clusters_by_lang] ) logger.debug("candidate_subclusters: %s", candidate_subclusters) if len(candidate_subclusters): candidate_seed_isbn = random.sample( max(candidate_subclusters, key=lambda x:x[1])[0], 1)[0] else: candidate_seed_isbn = None # return a dict with elements that are easy to turn into json logger.info("seed_isbn output: olwk_ids, freebase_ids, lang, candidate_seed: %s %s %s %s", olwk_ids, freebase_ids, lang, candidate_seed_isbn) details = {'olwk_ids':olwk_ids, 'freebase_ids':freebase_ids, 'lang':lang, 'candidate_seed_isbn': candidate_seed_isbn, 'gbooks_data':gbooks_data, 'lt_clusters':map(tuple,lt_clusters), 'lt_unrecognized':tuple(lt_unrecognized), 'fb_isbns':tuple(fb_isbn_set), 'ol_isbns':tuple(ol_isbn_set), 'lt_clusters_by_lang':lt_clusters_by_lang, 'len_all_isbns': len(all_isbns)} return (candidate_seed_isbn, details) def candidate_subcluster_from_lt_clusters_by_lang(lang, lt_clusters_by_lang): """ Boil the candidate down to a single ISBN: take a random ISBN from the list of all ISBNs in the requested language subcluster within the largest cluster that has such a language subcluster. Return None if there is no matching sub-language Try to find an ISBN that has good overlap with Freebase and OpenLibrary """ candidate_subclusters = filter(lambda x: x[0] is not None, [(c.get(lang), len(reduce(operator.add,c.values()))) for c in lt_clusters_by_lang] ) if len(candidate_subclusters): candidate_subcluster = max(candidate_subclusters, key=lambda x:x[1]) else: candidate_subcluster = [] return candidate_seed_isbn def report_on_seed_isbn(seed_isbn_result): """ return a dictionary interpreting the output of the seed isbn calculation """ s = seed_isbn_result # what proportion of all the ISBNS does the largest cluster make of all the ISBNs # x is an iterable of cluster lengths dominance = lambda x: float(max(x))/float(sum(x)) if len(x) else None report = OrderedDict([ ("seed isbn", s[0]), ("the Google info we have on the seed isbn", s[1]['gbooks_data'].get(s[0])), ("lang", s[1]['lang']), ("Freebase ids", s[1]['freebase_ids']), ("number of OL ids", len(s[1]['olwk_ids'])), ("total number of ISBNs from pooling FB + OL + LT", s[1]['len_all_isbns']), ("number of FB isbns", len(s[1]['fb_isbns'])), ("number of OL isbns", len(s[1]['ol_isbns'])), ("number of LT isbns", sum(map(len, s[1]['lt_clusters']))), ("number of isbns not recognized by LT", len(s[1]['lt_unrecognized'])), ("number of Google Books isbns", len(s[1]['gbooks_data'])), ("number of Google Books isbns not recognized", len(filter(lambda x: x is None,s[1]['gbooks_data'].values()))), ("size of clusters and their respective subclusters", [(len(reduce(operator.add, c.values())), [(lang,len(isbns)) for (lang, isbns) in c.items()]) for c in s[1]['lt_clusters_by_lang']]), ("size of the sub-cluster including the seed isbn", len(filter(lambda x: s[0] in x, reduce(operator.add , [c.values() for c in s[1]['lt_clusters_by_lang']]))[0]) \ if s[0] is not None else None), ("dominance of largest cluster", dominance([len(cluster) for cluster in s[1]['lt_clusters']])) ]) return report def surfacing_seed_isbn(): SURFACING_WORK_OLID = 'OL675829W' surfacing_fb_id = '/m/05p_vg' book_isbn = '9780446311076' return seed_isbn(olwk_ids=(SURFACING_WORK_OLID,), freebase_ids=(surfacing_fb_id,), lang='en') def ry_mashups_seed_isbn(): olid = "OL10306321W" fb_id = "/en/pro_web_2_0_mashups_remixing_data_and_web_services" return seed_isbn(olwk_ids=(olid,), freebase_ids=(fb_id,), lang='en') def moby_dick_seed_isbn(): return seed_isbn(olwk_ids=('OL102749W',), freebase_ids=('/en/moby-dick',), lang='en') def calc_seed_isbns(ids=None, max=None, override=False, max_consecutive_error=3): # if ids specified, work through them # loop through all Gutenberg ids, see whethether the seed_isbn has been calculated -- and if not, do so. current_error_count = 0 gluejar_db = GluejarDB() # pull out a set of Gutenberg text ids that already in the SeedISBN table so that we have the option of # not recalculating those Gutenberg texts gutenberg_done = set(map(lambda x: x[0], gluejar_db.session.query(SeedISBN.gutenberg_etext_id).all())) logger.debug("gutenberg_done %s", gutenberg_done ) # collate all the ol work ids and Freebase ids for a given gutenberg id if ids is None: g_ids = set() ol_ids = defaultdict(set) fb_ids = defaultdict(set) lang = {} for mapping in gutenberg_to_ol_mapping(): g_id = mapping["gutenberg_etext_id"] g_ids.add(g_id) ol_ids[g_id].add(mapping["olid"]) fb_ids[g_id].add(mapping["freebase_id"]) lang[g_id] = mapping["lang"] logger.debug("len(g_ids): %d", len(g_ids)) # turn the mapping into a series of tuples that can be fed to seed_isbn if not override: logger.debug("len(g_ids) before subtracting gutenberg_done: %d", len(g_ids)) logger.debug("len(gutenberg_done): %d", len(gutenberg_done)) g_ids -= gutenberg_done logger.debug("len(g_ids) after subtracting gutenberg_done: %d", len(g_ids)) ids = [(g_id, tuple(ol_ids[g_id]), tuple(fb_ids[g_id]), lang[g_id]) for g_id in g_ids] logger.debug("len(ids): %d", len(ids)) for (i, work_id) in enumerate(islice(ids, max)): if current_error_count >= max_consecutive_error: break (g_id, args) = (work_id[0], work_id[1:]) logger.info("i, g_id, args: %d %s %s", i, g_id, args) (seed, created) = get_or_create(gluejar_db.session, SeedISBN, gutenberg_etext_id=g_id) try: s = seed_isbn(*args) seed.calculated = datetime.utcnow() seed.seed_isbn = s[0] seed.error = None seed.results = json.dumps(s) current_error_count = 0 yield (g_id, s) except Exception, e: current_error_count += 1 seed.seed_isbn = None seed.calculated = datetime.utcnow() seed.error = str(e) seed.results = None logger.warning(str(e)) yield (g_id, e) finally: gluejar_db.commit_db() def reports_in_db(max=None): """ a generator of all the Gutenberg seed isbn calculations """ gluejar_db = GluejarDB() gutenberg_done = gluejar_db.session.query(SeedISBN).all() for s in islice(gutenberg_done, max): yield report_on_seed_isbn(json.loads(s.results)) def results_in_db(max=None): gluejar_db = GluejarDB() gutenberg_done = gluejar_db.session.query(SeedISBN).all() for s in islice(gutenberg_done, max): yield json.loads(s.results) def calc_and_report_seed_isbn_calc(): for (i,s) in enumerate(calc_seed_isbns(max=1000)): try: print i, report_on_seed_isbn(s[1]) except Exception, e: print i, e def gutenberg_and_seed_isbn(max=None, include_olid=False): SQL = """SELECT mw.gutenberg_etext_id, gt.title as gt_title, mw.olid, olw.title as ol_title, mw.freebase_id, gf.about as 'url', gf.format, gt.rights, gt.lang, si.seed_isbn, DATE_FORMAT(gt.created, "%Y-%m-%d") as 'created' FROM MappedWork mw LEFT JOIN GutenbergText gt ON mw.gutenberg_etext_id = gt.etext_id LEFT JOIN OpenLibraryWork olw ON olw.id=mw.olid LEFT JOIN GutenbergFile gf ON gf.is_format_of = gt.etext_id LEFT JOIN seedisbn si ON si.gutenberg_etext_id = gt.etext_id WHERE gf.format = 'application/epub+zip';""" headers = ("gutenberg_etext_id", "gt_title", "olid", "ol_title", "freebase_id", "url", "format", "rights", "lang", "seed_isbn", "created") # title, gutenberg_etext_id, ol_work_id, seed_isbn, url, format, license, lang, publication_date db = GluejarDB() ebook_data = set() resp = enumerate(islice(db.session.query(*headers).from_statement(SQL).all(),max)) # writing None for olid for now for (i, r) in resp: mapping = dict(izip(headers,r)) olid = mapping["olid"] if include_olid else None ebook_datum = {'title':mapping["gt_title"], 'gutenberg_etext_id':mapping["gutenberg_etext_id"], 'ol_work_id':olid, 'seed_isbn':mapping["seed_isbn"], 'url':mapping["url"], 'format':mapping["format"], 'license':mapping["rights"], 'lang':mapping["lang"], 'publication_date':mapping["created"]} if tuple(ebook_datum.items()) not in ebook_data: ebook_data.add(tuple(ebook_datum.items())) yield ebook_datum def export_to_json(obj, max=None,fname=None): if fname is not None: f = open(fname, "wb") f.write(json.dumps(obj)) f.close() return json.dumps(obj) def calc_titles_for_seed_isbns(max_num=None, do=False): """ For the seedisbns, calculate the titles """ db = GluejarDB() # title is Null and title_error is Null #titles_to_calc = db.session.query(SeedISBN).filter(and_(SeedISBN.title==None, SeedISBN.title_error==None)).all() titles_to_calc = db.session.query(SeedISBN, GutenbergText.lang, GutenbergText.title). \ join(GutenbergText, SeedISBN.gutenberg_etext_id==GutenbergText.etext_id). \ filter(and_(SeedISBN.title==None, SeedISBN.title_error==None)).all() page_size = 5 for page in grouper(islice(titles_to_calc, max_num), page_size): query = list(izip([edition.seed_isbn for (edition, lang, gt_title) in page], repeat('isbn'))) try: res = OpenLibrary.read(query) except Exception, e: print e for (edition, lang, gt_title) in page: title_error = None try: title = res.get('isbn:{0}'.format(edition.seed_isbn))['records'].values()[0]['data']['title'] except Exception, e: title = None title_error = str(e) if do and title is not None: edition.title = title edition.title_error = title_error db.commit_db() yield (edition.seed_isbn, title) def repick_seed_isbn(max_num=None, do=False, print_progress=False): """ Let's try to get ISBNs in the cluster that are in OpenLibrary, Freebase, and Librarything if possible """ gluejar_db = GluejarDB() gutenberg_done = gluejar_db.session.query(SeedISBN, GutenbergText.lang, GutenbergText.title).join(GutenbergText, SeedISBN.gutenberg_etext_id==GutenbergText.etext_id).all() # need to join with GutenbergText table to get lang and Gutenberg title for (i, (s, lang, gt_title)) in enumerate(islice(gutenberg_done, max_num)): # calculate the dominant cluster results = json.loads(s.results) candidate_subclusters = filter(lambda x: x[0] is not None, [(c.get(lang), len(reduce(operator.add,c.values()))) for c in results[1]['lt_clusters_by_lang']] ) # remember that the cluster is the first element in the tuple and a length in the 2nd element if len(candidate_subclusters): candidate_subcluster = set(max(candidate_subclusters, key=lambda x:x[1])[0]) else: candidate_subcluster = set([]) # confirm that the current seed isbn is in the candidate subcluster current_seed_ok = s.seed_isbn in candidate_subcluster # see whether we can get a seed isbn that, in addition to LibraryThing, # is recognized by OpenLibrary and Freebase too...2nd priority # is just OL, 3rd is Freebase and the 4th) just LT fb_isbns = set(results[1]['fb_isbns']) ol_isbns = set(results[1]['ol_isbns']) seeds = (candidate_subcluster & fb_isbns & ol_isbns) or (candidate_subcluster & ol_isbns) or \ (candidate_subcluster & fb_isbns) or candidate_subcluster new_seed_isbn = None if do and len(seeds): new_seed_isbn = seeds.pop() s.seed_isbn = new_seed_isbn gluejar_db.commit_db() if print_progress: print i, s.gutenberg_etext_id, s.seed_isbn, lang, gt_title, seeds, current_seed_ok, new_seed_isbn yield (s.gutenberg_etext_id, s.seed_isbn, lang, gt_title, seeds, current_seed_ok, new_seed_isbn) def compute_similarity_measures_for_seed_isbns(max_num=None): """ Output the current seedisbn calculations with some measures to help spot errors in mapping, including the Levenshtein distance/ratio between the Gutenberg title and the title of the edition corresponding to the ISBN -- and a dominance factor (the ratio of the size of the largest cluster of ISBNs divided by all the number of ISBNs in all the clusters). Idea: editions whose titles have big distances and low dominance factors should be looked at more closely. """ from Levenshtein import distance, ratio # what proportion of all the ISBNs does the largest cluster make of all the ISBNs # x is an iterable of cluster lengths dominance = lambda x: float(max(x))/float(sum(x)) if len(x) else None gluejar_db = GluejarDB() seed_isbns = gluejar_db.session.query(SeedISBN, GutenbergText.lang, GutenbergText.title).join(GutenbergText, SeedISBN.gutenberg_etext_id==GutenbergText.etext_id).all() for (i, (seed_isbn, lang, gt_title)) in enumerate(islice(seed_isbns, max_num)): res = json.loads(seed_isbn.results) yield OrderedDict([('etext_id', seed_isbn.gutenberg_etext_id), ('seed_isbn_title',seed_isbn.title), ('gt_title', gt_title), ('dominance', dominance([len(cluster) for cluster in res[1]['lt_clusters']])), ('title_l_ratio', ratio(seed_isbn.title, gt_title) if (seed_isbn.title is not None and gt_title is not None) else None)]) def output_to_csv(f, headers, rows, write_header=True, convert_values_to_unicode=True): """ take rows, an iterable of dicts (and corresponding headers) and output as a CSV file to f """ from unicode_csv import UnicodeDictWriter cw = UnicodeDictWriter(f, headers) if write_header: cw.writerow(dict([(h,h) for h in headers])) for row in rows: if convert_values_to_unicode: row = dict([(k, unicode(v)) for (k,v) in row.items()]) cw.writerow(row) return f def filtered_gutenberg_and_seed_isbn(min_l_ratio=None, min_dominance=None, max_num=None, include_olid=False): # compute the similarity measures and pass through only the Gutenberg records that meet the minimum lt_ratio and dominance measures = compute_similarity_measures_for_seed_isbns() measures_map = dict() for measure in measures: measures_map[measure['etext_id']] = measure for item in gutenberg_and_seed_isbn(max=max_num, include_olid=include_olid): g_id = item['gutenberg_etext_id'] accept = True if min_dominance is not None and measures_map[g_id]['dominance'] is not None and measures_map[g_id]['dominance'] < min_dominance: accept = False if min_l_ratio is not None and measures_map[g_id]['title_l_ratio'] is not None and measures_map[g_id]['title_l_ratio'] < min_l_ratio: accept = False if accept: yield item class FreebaseClient(object): def __init__(self, username=None, password=None, main_or_sandbox='main'): if main_or_sandbox == 'main': self.freebase = freebase else: self.freebase = freebase.sandbox if username is not None and password is not None: self.freebase.login(username,password) def wikipedia_href_to_freebase_id (self, hrefs, page_size = 10, chop_wiki=True): MQL = u"""[{ "type": [], "id": null, "key": [{ "namespace": "/wikipedia/en", "type": "/type/key", "value": null }] }] """.replace("\n"," ") for (page_num, page) in enumerate(grouper(hrefs, page_size)): queries = [] for (href_num, href) in enumerate(page): query = json.loads(MQL) if chop_wiki: href = href[6:] if href.startswith('/wiki/') else href query[0]['key'][0]['value'] = quotekey(href) print "%d, %d %s " % (page_num, href_num, href) queries.append(query) if len(queries): try: resp = self.freebase.mqlreadmulti(queries) #print "fb resp, len(resp): %s %d" % (resp, len(resp)) for r in resp: yield r except Exception, e: # for now, write out the stuff in the queries and then move on -- better to try on smaller pieces print "Metaweb Error: %s for page %s" % (e, page) class WikipediaLinksTest(unittest.TestCase): def test_external_links(self): target = "http://www.gutenberg.org/etext" max = 10 links = [] for (i, link) in enumerate(islice(external_links_in_wikipedia(target), max)): print i, link links.append((link["source_href"],link["target"])) self.assertEqual(len(links), max) class DatabaseTest(unittest.TestCase): def test_insert_1_wikipedia_link(self): gluejar_db = GluejarDB() wl = WikipediaLink() wl.gutenberg_etext_id = 13920 wl.wikipedia_href = "/wiki/stuffffdsfsf" wl.wikipedia_title = "stuffffdsfsf" # add one, read it back, and then delete it gluejar_db.session.add(wl) gluejar_db.commit_db() query = gluejar_db.session.query(WikipediaLink).filter(WikipediaLink.wikipedia_href == "/wiki/stuffffdsfsf") obj = query.first() self.assertEqual(obj.wikipedia_href, "/wiki/stuffffdsfsf") gluejar_db.session.delete(obj) gluejar_db.commit_db() def test_integrity_constraint_wikipedia_link(self): gluejar_db = GluejarDB() wl = WikipediaLink() wl.gutenberg_etext_id = 13920 wl.wikipedia_href = "/wiki/stuffffdsfsf" wl.wikipedia_title = "stuffffdsfsf" wl2 = WikipediaLink() wl2.gutenberg_etext_id = 13920 wl2.wikipedia_href = "/wiki/stuffffdsfsf" wl2.wikipedia_title = "stuffffdsfsf2" # try to add links with the same value twice gluejar_db.session.add(wl) gluejar_db.session.add(wl2) self.assertRaises(Exception, gluejar_db.commit_db) gluejar_db.rollback() # delete the first item query = gluejar_db.session.query(WikipediaLink).filter(WikipediaLink.wikipedia_href == "/wiki/stuffffdsfsf") obj = query.first() self.assertEqual(obj.wikipedia_href, "/wiki/stuffffdsfsf") gluejar_db.session.delete(obj) gluejar_db.commit_db() def test_filtered_wikipedia_links(self): db = GluejarDB() for item in islice(db.filtered_wikipedia_links(),100): print item.wikipedia_title, item.wikipedia_href self.assertTrue(True) def test_insert_1_fb_ol_link(self): db = GluejarDB() # in sqlalchemy...is there an equiv to Django get_one_or_new # /en/the_hunting_of_the_snark -> OL151447W for etext_id of 12 (fb_item, created) = get_or_create(db.session, FreebaseEntity, id="/en/the_hunting_of_the_snark") (ol_item, created) = get_or_create(db.session, OpenLibraryWork, id="OL151447W") (mapping, created) = get_or_create(db.session, MappedWork, olid="OL151447W", freebase_id="/en/the_hunting_of_the_snark", gutenberg_etext_id=12) get_or_create(db.session, GutenbergIdMapped, id=12) db.commit_db() def test_mapping_error(self): db = GluejarDB() (error_item, created) = get_or_create(db.session, MappingError, message="testing") db.commit_db() class ChainTest(unittest.TestCase): def test_chain(self): """ Make sure that I (RY) understoo that itertools.ichain worked by actually chaining together a series of iterators into 1 """ self.assertTrue(True) max = None sizes = [5, 8, 9] numbers = chain(*(xrange(size) for size in sizes)) for (i, num) in enumerate(islice(numbers,max)): pass self.assertEqual(i+1,sum(sizes)) class FreebaseTest(unittest.TestCase): def test_query(self): fb = FreebaseClient() resp = list(fb.wikipedia_href_to_freebase_id(['Peter_and_Wendy', 'King_Lear'])) for r in resp: #print r #print r[0]['id'], r[0]['type'] self.assertTrue('/book/book' in r[0]['type']) def test_query_and_db_insert(self): fb = FreebaseClient() db = GluejarDB() resp = list(fb.wikipedia_href_to_freebase_id(['Peter_and_Wendy', 'King_Lear', 'Hamlet'])) for r in resp: print r print r[0]['id'], r[0]['type'], r[0]['key'][0]['value'] self.assertTrue('/book/book' in r[0]['type']) fb_entity = FreebaseEntity() fb_entity.id = r[0]['id'] try: db.session.add(fb_entity) db.commit_db() except IntegrityError, e: db.rollback() fb_entity = db.session.query(FreebaseEntity).filter(FreebaseEntity.id==r[0]['id']).one() fb_entity.wikipedia_href = '/wiki/%s' % (r[0]['key'][0]['value']) fb_entity.is_book_book = '/book/book' in r[0]['type'] db.commit_db() # return True if no crashing self.assertTrue(True) class RefineTest(unittest.TestCase): def setUp(self): from google.refine import refine self.refine_obj = refine.Refine(refine.RefineServer()) def test_project_listing(self): # https://raw.github.com/PaulMakepeace/refine-client-py/master/refine.py projects = self.refine_obj.list_projects().items() def date_to_epoch(json_dt): "Convert a JSON date time into seconds-since-epoch." return time.mktime(time.strptime(json_dt, '%Y-%m-%dT%H:%M:%SZ')) projects.sort(key=lambda v: date_to_epoch(v[1]['modified']), reverse=True) for project_id, project_info in projects: print('{0:>14}: {1}'.format(project_id, project_info['name'])) id = int(project_id) # check to see whether there will be a non-int def test_project_name(self): id = "1884515736058" print self.refine_obj.get_project_name(id) def test_columns(self): id = "1884515736058" proj = self.refine_obj.open_project(id) models = proj.get_models() cols = proj.columns pprint(models) print models.keys() print cols def test_iterate_rows(self): id = "1884515736058" proj = self.refine_obj.open_project(id) cols_to_extract = ['etext_id', 'title', 'name', 'fb_id', 'fb_id_judgement', 'wikipedia_title'] response = proj.get_rows(limit=10) print "response.total: ", response.total for i, row in enumerate(islice(response.rows,10)): print i, row.flagged, row.starred, row.index, print i, [row[c] for c in cols_to_extract] class FreebaseToOpenLibraryMappingTest(unittest.TestCase): def setUp(self): pass def test_OpenLib_setup(self): pass class ISBNSeedTest(unittest.TestCase): def test_isbnseed(self): gutenberg_ids = ['2701'] for (g_id, val) in izip(gutenberg_ids, gutenberg_ol_fb_mappings(gutenberg_ids)): print g_id, val def suite(): testcases = [] suites = unittest.TestSuite([unittest.TestLoader().loadTestsFromTestCase(testcase) for testcase in testcases]) suites.addTest(ISBNSeedTest('test_isbnseed')) #suites.addTest(SettingsTest('test_dev_me_alignment')) # give option to test this alignment return suites if __name__ == '__main__': #walk through and parse catalogs #walk_through_catalog(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog_texts.rdf',max=100) #walk_through_catalog(fname='/Users/raymondyee/D/Document/Gluejar/gutenberg/catalog_files.rdf',max=1000) #load_texts_to_db(max=10) #load_files_to_db(max=None) #load_wikipedia_external_links_into_db(None) #map_wikipedia_links_to_freebase_ids(None, page_size=10) # in between: here we have to do some manual work in Google Refine #map_refine_fb_links_to_openlibrary_work_ids(max=None) #compute_ol_title_from_work_id(max=1000) #export_gutenberg_to_ol_mapping(fname="gutenberg_openlibrary.json") #import_gutenberg_json(fname="gutenberg_openlibrary.json") #print surfacing_seed_isbn() #unittest.main() #print list(gutenberg_and_seed_isbn(max=10)) #print list(repick_seed_isbn(10)) # output a filtered gutenberg list # 0.56 and 0.7 I got by eye-balling the results in Google Refine y = list(filtered_gutenberg_and_seed_isbn(min_l_ratio=0.56, min_dominance=0.7)) export_to_json(y,fname="g_seed_isbn.json") #suites = suite() #suites = unittest.defaultTestLoader.loadTestsFromModule(__import__('__main__')) #unittest.TextTestRunner().run(suites)