from decimal import Decimal as D from datetime import datetime, timedelta from regluit.utils.localdatetime import now, date_today from django.test import TestCase from django.test.client import Client from django.utils import unittest from django.db import IntegrityError from django.contrib.auth.models import User from django.conf import settings from django.contrib.comments.models import Comment from django.contrib.contenttypes.models import ContentType from django.contrib.sites.models import Site from regluit.payment.models import Transaction from regluit.core.models import Campaign, Work, UnglueitError, Edition, RightsHolder, Claim, Key from regluit.core import bookloader, models, search, goodreads, librarything from regluit.core import isbn from regluit.payment.parameters import PAYMENT_TYPE_AUTHORIZATION from regluit.core import tasks from celery.task.sets import TaskSet from celery.task import chord from time import sleep from math import factorial from urlparse import parse_qs, urlparse class BookLoaderTests(TestCase): def setUp(self): self.user = User.objects.create_user('core_test', 'test@example.org', 'core_test') self.client = Client() self.client.login(username='core_test', password='core_test') def test_add_by_isbn(self): # edition edition = bookloader.add_by_isbn('0441012035') self.assertEqual(edition.title, 'Neuromancer') self.assertEqual(edition.publication_date, '2004') self.assertEqual(edition.publisher, u'Ace Hardcover') self.assertEqual(edition.isbn_10, '0441012035') self.assertEqual(edition.isbn_13, '9780441012039') self.assertEqual(edition.googlebooks_id, "2NyiPwAACAAJ") # authors self.assertEqual(edition.authors.all().count(), 1) self.assertEqual(edition.authors.all()[0].name, 'William Gibson') # work self.assertTrue(edition.work) # locale in language edition = bookloader.add_by_isbn('9787500676911') self.assertEqual(edition.work.language, 'zh') def test_update_edition(self): w = models.Work(title='silly title', language='xx') w.save() e = models.Edition(title=w.title,work=w) e.save() models.Identifier(type='isbn', value='9780226032030', work=w, edition=e).save() bookloader.update_edition(e) self.assertEqual(e.work.language, 'en') self.assertEqual(e.title, 'Forbidden journeys') def test_double_add(self): bookloader.add_by_isbn('0441012035') bookloader.add_by_isbn('0441012035') self.assertEqual(models.Edition.objects.all().count(), 1) self.assertEqual(models.Author.objects.all().count(), 1) self.assertEqual(models.Work.objects.all().count(), 1) def test_missing_isbn(self): e = bookloader.add_by_isbn_from_google('0139391401') self.assertEqual(e, None) def test_thingisbn(self): isbns = bookloader.thingisbn('0441012035') self.assertTrue(len(isbns) > 20) self.assertTrue('0441012035' in isbns) self.assertTrue('3453313895' in isbns) def test_add_related(self): # add one edition edition = bookloader.add_by_isbn('0441012035') self.assertEqual(models.Edition.objects.count(), 1) self.assertEqual(models.Work.objects.count(), 1) lang=edition.work.language # ask for related editions to be added using the work we just created bookloader.add_related('0441012035') self.assertTrue(models.Edition.objects.count() > 15) self.assertEqual(models.Work.objects.filter(language=lang).count(), 1) self.assertTrue(edition.work.editions.count() > 9) def test_populate_edition(self): edition = bookloader.add_by_googlebooks_id('c_dBPgAACAAJ') edition = tasks.populate_edition.run(edition.isbn_13) self.assertTrue(edition.work.editions.all().count() > 20) self.assertTrue(edition.work.subjects.all().count() > 10) self.assertTrue(edition.work.publication_date) edition.publication_date = None self.assertTrue(edition.work.publication_date) self.assertTrue(len(edition.work.description) > 20) self.assertTrue(edition.work.identifiers.filter(type='oclc')[0]) def test_merge_works_mechanics(self): """Make sure then merge_works is still okay when we try to merge works with themselves and with deleted works""" w1 = Work(title="Work 1") w1.save() w2 = Work(title="Work 2") w2.save() e1 = Edition(work=w1) e1.save() e2 = Edition(work=w2) e2.save() e2a = Edition(work=w2) e2a.save() self.assertTrue(e1) self.assertTrue(e2) self.assertTrue(e2a) self.assertTrue(e1.work) self.assertTrue(e2.work) self.assertEqual(models.Work.objects.count(), 2) w1_id = w1.id w2_id = w2.id # first try to merge work 1 into itself -- should not do anything bookloader.merge_works(w1,w1) self.assertEqual(models.Work.objects.count(), 2) # merge the second work into the first bookloader.merge_works(e1.work, e2.work) self.assertEqual(models.Work.objects.count(),1) self.assertEqual(models.WasWork.objects.count(),1) # getting proper view? anon_client = Client() r = anon_client.get("/work/%s/" % w1_id) self.assertEqual(r.status_code, 200) r = anon_client.get("/work/%s/" % w2_id) self.assertEqual(r.status_code, 200) # try to do it twice -- nothing should happen bookloader.merge_works(e1.work, e2a.work) r = anon_client.get("/work/%s/" % w1_id) self.assertEqual(r.status_code, 200) r = anon_client.get("/work/%s/" % w2_id) self.assertEqual(r.status_code, 200) def test_merge_works(self): # add two editions and see that there are two stub works e1 = bookloader.add_by_isbn('0385722133') e2 = bookloader.add_by_isbn('0385504187') self.assertTrue(e1) self.assertTrue(e2) self.assertTrue(e1.work) self.assertTrue(e2.work) self.assertEqual(models.Work.objects.count(), 2) # add the stub works to a wishlist user = User.objects.create_user('test', 'test@example.com', 'testpass') user.wishlist.add_work(e1.work, 'test') user.wishlist.add_work(e2.work, 'test') # create campaigns for the stub works c1 = models.Campaign.objects.create( name=e1.work.title, work=e2.work, description='Test Campaign 1', deadline=now(), target=D('1000.00'), ) c2 = models.Campaign.objects.create( name=e2.work.title, work=e2.work, description='Test Campaign 2', deadline=now(), target=D('1000.00'), ) # comment on the works site = Site.objects.all()[0] wct = ContentType.objects.get_for_model(models.Work) comment1 = Comment( content_type=wct, object_pk=e1.work.pk, comment="test comment1", user=user, site=site ) comment1.save() comment2 = Comment( content_type=wct, object_pk=e2.work.pk, comment="test comment2", user=user, site=site ) comment2.save() # now add related edition to make sure Works get merged bookloader.add_related('0385722133') self.assertEqual(models.Work.objects.count(), 1) w3 = models.Edition.get_by_isbn('0385722133').work # and that relevant Campaigns and Wishlists are updated self.assertEqual(c1.work, c2.work) self.assertEqual(user.wishlist.works.all().count(), 1) self.assertEqual(Comment.objects.for_model(w3).count(), 2) anon_client = Client() r = anon_client.get("/work/%s/" % w3.pk) self.assertEqual(r.status_code, 200) r = anon_client.get("/work/%s/" % e2.work.pk) self.assertEqual(r.status_code, 200) def test_ebook(self): edition = bookloader.add_by_oclc('1246014') self.assertEqual(edition.ebooks.count(), 2) #ebook_epub = edition.ebooks.all()[0] ebook_epub = edition.ebooks.filter(format='epub')[0] self.assertEqual(ebook_epub.format, 'epub') #self.assertEqual(ebook_epub.url, 'http://books.google.com/books/download/The_Latin_language.epub?id=U3FXAAAAYAAJ&ie=ISO-8859-1&output=epub&source=gbs_api') self.assertEqual(parse_qs(urlparse(ebook_epub.url).query).get("id"), ['U3FXAAAAYAAJ']) self.assertEqual(parse_qs(urlparse(ebook_epub.url).query).get("output"), ['epub']) self.assertEqual(ebook_epub.provider, 'Google Books') self.assertEqual(ebook_epub.set_provider(), 'Google Books') ebook_pdf = edition.ebooks.filter(format='pdf')[0] self.assertEqual(ebook_pdf.format, 'pdf') #self.assertEqual(ebook_pdf.url, 'http://books.google.com/books/download/The_Latin_language.pdf?id=U3FXAAAAYAAJ&ie=ISO-8859-1&output=pdf&sig=ACfU3U2yLt3nmTncB8ozxOWUc4iHKUznCA&source=gbs_api') self.assertEqual(parse_qs(urlparse(ebook_pdf.url).query).get("id"), ['U3FXAAAAYAAJ']) self.assertEqual(parse_qs(urlparse(ebook_pdf.url).query).get("output"), ['pdf']) self.assertEqual(ebook_pdf.provider, 'Google Books') self.assertEqual(edition.public_domain, True) w = edition.work self.assertEqual(w.first_epub().url, ebook_epub.url) self.assertEqual(w.first_pdf().url, ebook_pdf.url) self.assertEqual(w.first_epub_url(), ebook_epub.url) self.assertEqual(w.first_pdf_url(), ebook_pdf.url) ebook_pdf.url='http://en.wikisource.org/wiki/Frankenstein' self.assertEqual(ebook_pdf.set_provider(), 'Wikisource') self.user.wishlist.add_work(w, 'test') tasks.report_new_ebooks(date_today()) r = self.client.get("/notification/" ) self.assertEqual(r.status_code, 200) def test_add_no_ebook(self): # this edition lacks an ebook, but we should still be able to load it e = bookloader.add_by_isbn('0465019358') self.assertTrue(e) def test_one_language(self): # english edition for cat's cradle should only pull in other # english editions work = bookloader.add_by_isbn('079530272X').work self.assertEqual(work.language, 'en') bookloader.add_related('079530272X') for edition in work.editions.all(): self.assertEqual(edition.title.lower(), "cat's cradle") def test_add_openlibrary(self): work = bookloader.add_by_isbn('0441012035').work bookloader.add_related('0441012035') bookloader.add_openlibrary(work) subjects = [s.name for s in work.subjects.all()] self.assertTrue(len(subjects) > 10) self.assertTrue('Science fiction' in subjects) self.assertTrue('/works/OL27258W' in work.identifiers.filter(type='olwk').values_list('value',flat=True) ) self.assertTrue('14770' in work.identifiers.filter(type='gdrd').values_list('value',flat=True)) self.assertTrue('609' in work.identifiers.filter(type='ltwk').values_list('value',flat=True)) def test_load_gutenberg_edition(self): """Let's try this out for Moby Dick""" title = "Moby Dick" ol_work_id = "/works/OL102749W" gutenberg_etext_id = 2701 epub_url = "http://www.gutenberg.org/cache/epub/2701/pg2701.epub" license = 'http://www.gutenberg.org/license' lang = 'en' format = 'epub' publication_date = datetime(2001,7,1) seed_isbn = '9780142000083' # http://www.amazon.com/Moby-Dick-Whale-Penguin-Classics-Deluxe/dp/0142000086 ebook = bookloader.load_gutenberg_edition(title, gutenberg_etext_id, ol_work_id, seed_isbn, epub_url, format, license, lang, publication_date) self.assertEqual(ebook.url, epub_url) class SearchTests(TestCase): def test_basic_search(self): results = search.gluejar_search('melville') self.assertEqual(len(results), 10) r = results[0] self.assertTrue(r.has_key('title')) self.assertTrue(r.has_key('author')) self.assertTrue(r.has_key('description')) self.assertTrue(r.has_key('cover_image_thumbnail')) self.assertTrue(r['cover_image_thumbnail'].startswith('https')) self.assertTrue(r.has_key('publisher')) self.assertTrue(r.has_key('isbn_13')) self.assertTrue(r.has_key('googlebooks_id')) def test_pagination(self): r1 = search.gluejar_search('melville', page=1) r2 = search.gluejar_search('melville', page=2) isbns1 = set([r['isbn_13'] for r in r1]) isbns2 = set([r['isbn_13'] for r in r2]) self.assertTrue(isbns1 != isbns2) def test_googlebooks_search(self): response = search.googlebooks_search('melville', '69.243.24.29', 1) self.assertEqual(len(response['items']), 10) class CampaignTests(TestCase): def test_required_fields(self): # a campaign must have a target, deadline and a work c = Campaign() self.assertRaises(IntegrityError, c.save) c = Campaign(target=D('1000.00')) self.assertRaises(IntegrityError, c.save) c = Campaign(target=D('1000.00'), deadline=datetime(2013, 1, 1)) self.assertRaises(IntegrityError, c.save) w = Work() w.save() c = Campaign(target=D('1000.00'), deadline=datetime(2013, 1, 1), work=w) c.save() def test_campaign_status(self): # need a user to associate with a transaction user = User.objects.create_user('test', 'test@example.com', 'testpass') w = Work() w.save() # INITIALIZED c1 = Campaign(target=D('1000.00'),deadline=datetime(2013,1,1),work=w) c1.save() self.assertEqual(c1.status, 'INITIALIZED') # ACTIVATED c2 = Campaign(target=D('1000.00'),deadline=datetime(2013,1,1),work=w) c2.save() self.assertEqual(c2.status, 'INITIALIZED') u = User.objects.create_user('claimer', 'claimer@example.com', 'claimer') u.save() rh = RightsHolder(owner = u, rights_holder_name = 'rights holder name') rh.save() cl = Claim(rights_holder = rh, work = w, user = u, status = 'active') cl.save() c2.activate() self.assertEqual(c2.status, 'ACTIVE') # SUSPENDED c2.suspend(reason="for testing") self.assertEqual(c2.status, 'SUSPENDED') # RESUMING c2.resume(reason="for testing") #self.assertEqual(c2.suspended, None) self.assertEqual(c2.status,'ACTIVE') # should not let me suspend a campaign that hasn't been initialized self.assertRaises(UnglueitError, c1.suspend, "for testing") # UNSUCCESSFUL c3 = Campaign(target=D('1000.00'),deadline=now() - timedelta(days=1),work=w) c3.save() c3.activate() self.assertEqual(c3.status, 'ACTIVE') # at this point, since the deadline has passed, the status should change and be UNSUCCESSFUL self.assertTrue(c3.update_status()) self.assertEqual(c3.status, 'UNSUCCESSFUL') # SUCCESSFUL c4 = Campaign(target=D('1000.00'),deadline=now() - timedelta(days=1),work=w) c4.save() c4.activate() t = Transaction() t.amount = D('1234.00') t.type = PAYMENT_TYPE_AUTHORIZATION t.status = 'ACTIVE' t.approved = True t.campaign = c4 t.user = user t.save() self.assertTrue(c4.update_status()) self.assertEqual(c4.status, 'SUCCESSFUL') # WITHDRAWN c5 = Campaign(target=D('1000.00'),deadline=datetime(2013,1,1),work=w) c5.save() c5.activate().withdraw('testing') self.assertEqual(c5.status, 'WITHDRAWN') class WishlistTest(TestCase): def test_add_remove(self): # add a work to a user's wishlist user = User.objects.create_user('test', 'test@example.com', 'testpass') edition = bookloader.add_by_isbn('0441012035') work = edition.work num_wishes=work.num_wishes user.wishlist.add_work(work, 'test') self.assertEqual(user.wishlist.works.count(), 1) self.assertEqual(work.num_wishes, num_wishes+1) user.wishlist.remove_work(work) self.assertEqual(user.wishlist.works.count(), 0) self.assertEqual(work.num_wishes, num_wishes) class CeleryTaskTest(TestCase): def test_single_fac(self): n = 10 task = tasks.fac.delay(n) result = task.get(timeout=10) self.assertEqual(result,factorial(n)) def test_subtask(self): n = 30 subtasks = [tasks.fac.subtask(args=(x,)) for x in range(n)] job = TaskSet(tasks=subtasks) result = job.apply_async() while not result.ready(): sleep(0.2) self.assertEqual(result.join(),[factorial(x) for x in range(n)]) class GoodreadsTest(TestCase): def test_goodreads_shelves(self): # test to see whether the core undeletable shelves are on the list gr_uid = "767708" # for Raymond Yee gc = goodreads.GoodreadsClient(key=settings.GOODREADS_API_KEY, secret=settings.GOODREADS_API_SECRET) shelves = gc.shelves_list(gr_uid) shelf_names = [s['name'] for s in shelves['user_shelves']] self.assertTrue('currently-reading' in shelf_names) self.assertTrue('read' in shelf_names) self.assertTrue('to-read' in shelf_names) def test_review_list_unauth(self): gr_uid = "767708" # for Raymond Yee gc = goodreads.GoodreadsClient(key=settings.GOODREADS_API_KEY, secret=settings.GOODREADS_API_SECRET) reviews = gc.review_list_unauth(user_id=gr_uid, shelf='read') # test to see whether there is a book field in each of the review # url for test is http://www.goodreads.com/review/list.xml?id=767708&shelf=read&page=1&per_page=20&order=a&v=2&key=[key] self.assertTrue(all([r.has_key("book") for r in reviews])) class LibraryThingTest(TestCase): def test_scrape_test_lib(self): # account yujx : has one book: 0471925675 lt_username = 'yujx' lt = librarything.LibraryThing(username=lt_username) books = list(lt.parse_user_catalog(view_style=5)) self.assertEqual(len(books),1) self.assertEqual(books[0]['isbn'], '0471925675') self.assertEqual(books[0]['work_id'], '80826') self.assertEqual(books[0]['book_id'], '79883733') class ISBNTest(TestCase): def test_ISBN(self): milosz_10 = '006019667X' milosz_13 = '9780060196677' python_10 = '0-672-32978-6' python_10_wrong = '0-672-32978-7' python_13 = '978-0-672-32978-4' isbn_python_10 = isbn.ISBN(python_10) isbn_python_13 = isbn.ISBN(python_13) # return None for invalid characters self.assertEqual(None, isbn.ISBN("978-0-M72-32978-X").to_string('13')) self.assertEqual(isbn.ISBN("978-0-M72-32978-X").valid, False) # check that only ISBN 13 starting with 978 or 979 are accepted self.assertEqual(None, isbn.ISBN("111-0-M72-32978-X").to_string()) # right type? self.assertEqual(isbn_python_10.type, '10') self.assertEqual(isbn_python_13.type, '13') # valid? self.assertEqual(isbn_python_10.valid, True) self.assertEqual(isbn.ISBN(python_10_wrong).valid, False) # do conversion -- first the outside methods self.assertEqual(isbn.convert_10_to_13(isbn.strip(python_10)),isbn.strip(python_13)) self.assertEqual(isbn.convert_13_to_10(isbn.strip(python_13)),isbn.strip(python_10)) # check formatting self.assertEqual(isbn.ISBN(python_13).to_string(type='13'), '9780672329784') self.assertEqual(isbn.ISBN(python_13).to_string('13',True), '978-0-672-32978-4') self.assertEqual(isbn.ISBN(python_13).to_string(type='10'), '0672329786') self.assertEqual(isbn.ISBN(python_10).to_string(type='13'), '9780672329784') self.assertEqual(isbn.ISBN(python_10).to_string(10,True), '0-672-32978-6') # complain if one tries to get ISBN-10 for a 979 ISBN 13 # making up a 979 ISBN isbn_979 = isbn.ISBN("979-1-234-56789-0").validate() self.assertEqual(isbn_979.to_string('10'), None) # check casting to string -- ISBN 13 self.assertEqual(str(isbn.ISBN(python_10)), '0672329786') # test __eq__ and __ne__ and validate self.assertTrue(isbn.ISBN(milosz_10) == isbn.ISBN(milosz_13)) self.assertTrue(isbn.ISBN(milosz_10) == milosz_13) self.assertFalse(isbn.ISBN(milosz_10) == 'ddds') self.assertFalse(isbn.ISBN(milosz_10) != milosz_10) self.assertTrue(isbn.ISBN(python_10) != python_10_wrong) self.assertEqual(isbn.ISBN(python_10_wrong).validate(), python_10) self.assertEqual(isbn.ISBN(python_13).validate(), python_10) # curious about set membership self.assertEqual(len(set([isbn.ISBN(milosz_10), isbn.ISBN(milosz_13)])),2) self.assertEqual(len(set([str(isbn.ISBN(milosz_10)), str(isbn.ISBN(milosz_13))])),2) self.assertEqual(len(set([isbn.ISBN(milosz_10).to_string(), isbn.ISBN(milosz_13).to_string()])),1) class EncryptedKeyTest(TestCase): def test_create_read_key(self): name = "the great answer" value = "42" key = Key.objects.create(name=name, value=value) key.save() # do we get back the value? self.assertEqual(Key.objects.filter(name=name)[0].value, value) # just checking that the encrypted value is not the same as the value self.assertNotEqual(key.encrypted_value, value) # is this always true?