# coding: utf-8 import os from tests.shared import getUpgradeDeckPath, getEmptyDeck from anki.upgrade import Upgrader from anki.utils import ids2str from anki.importing import Anki1Importer, Anki2Importer, TextImporter, \ SupermemoXmlImporter, MnemosyneImporter, AnkiPackageImporter testDir = os.path.dirname(__file__) srcNotes=None srcCards=None def test_anki2(): global srcNotes, srcCards # get the deck to import tmp = getUpgradeDeckPath() u = Upgrader() u.check(tmp) src = u.upgrade() srcpath = src.path srcNotes = src.noteCount() srcCards = src.cardCount() srcRev = src.db.scalar("select count() from revlog") # add a media file for testing open(os.path.join(src.media.dir(), "_foo.jpg"), "w").write("foo") src.close() # create a new empty deck dst = getEmptyDeck() # import src into dst imp = Anki2Importer(dst, srcpath) imp.run() def check(): assert dst.noteCount() == srcNotes assert dst.cardCount() == srcCards assert srcRev == dst.db.scalar("select count() from revlog") mids = [int(x) for x in dst.models.models.keys()] assert not dst.db.scalar( "select count() from notes where mid not in "+ids2str(mids)) assert not dst.db.scalar( "select count() from cards where nid not in (select id from notes)") assert not dst.db.scalar( "select count() from revlog where cid not in (select id from cards)") assert dst.fixIntegrity()[0].startswith("Database rebuilt") check() # importing should be idempotent imp.run() check() assert len(os.listdir(dst.media.dir())) == 1 def test_anki2_mediadupes(): tmp = getEmptyDeck() # add a note that references a sound n = tmp.newNote() n['Front'] = "[sound:foo.mp3]" mid = n.model()['id'] tmp.addNote(n) # add that sound to media folder open(os.path.join(tmp.media.dir(), "foo.mp3"), "w").write("foo") tmp.close() # it should be imported correctly into an empty deck empty = getEmptyDeck() imp = Anki2Importer(empty, tmp.path) imp.run() assert os.listdir(empty.media.dir()) == ["foo.mp3"] # and importing again will not duplicate, as the file content matches empty.remCards(empty.db.list("select id from cards")) imp = Anki2Importer(empty, tmp.path) imp.run() assert os.listdir(empty.media.dir()) == ["foo.mp3"] n = empty.getNote(empty.db.scalar("select id from notes")) assert "foo.mp3" in n.fields[0] # if the local file content is different, and import should trigger a # rename empty.remCards(empty.db.list("select id from cards")) open(os.path.join(empty.media.dir(), "foo.mp3"), "w").write("bar") imp = Anki2Importer(empty, tmp.path) imp.run() assert sorted(os.listdir(empty.media.dir())) == [ "foo.mp3", "foo_%s.mp3" % mid] n = empty.getNote(empty.db.scalar("select id from notes")) assert "_" in n.fields[0] # if the localized media file already exists, we rewrite the note and # media empty.remCards(empty.db.list("select id from cards")) open(os.path.join(empty.media.dir(), "foo.mp3"), "w").write("bar") imp = Anki2Importer(empty, tmp.path) imp.run() assert sorted(os.listdir(empty.media.dir())) == [ "foo.mp3", "foo_%s.mp3" % mid] assert sorted(os.listdir(empty.media.dir())) == [ "foo.mp3", "foo_%s.mp3" % mid] n = empty.getNote(empty.db.scalar("select id from notes")) assert "_" in n.fields[0] def test_apkg(): tmp = getEmptyDeck() apkg = unicode(os.path.join(testDir, "support/media.apkg")) imp = AnkiPackageImporter(tmp, apkg) assert os.listdir(tmp.media.dir()) == [] imp.run() assert os.listdir(tmp.media.dir()) == ['foo.wav'] # importing again should be idempotent in terms of media tmp.remCards(tmp.db.list("select id from cards")) imp = AnkiPackageImporter(tmp, apkg) imp.run() assert os.listdir(tmp.media.dir()) == ['foo.wav'] # but if the local file has different data, it will rename tmp.remCards(tmp.db.list("select id from cards")) open(os.path.join(tmp.media.dir(), "foo.wav"), "w").write("xyz") imp = AnkiPackageImporter(tmp, apkg) imp.run() assert len(os.listdir(tmp.media.dir())) == 2 def test_anki1(): # get the deck path to import tmp = getUpgradeDeckPath() # make sure media is imported properly through the upgrade mdir = tmp.replace(".anki2", ".media") if not os.path.exists(mdir): os.mkdir(mdir) open(os.path.join(mdir, "_foo.jpg"), "w").write("foo") # create a new empty deck dst = getEmptyDeck() # import src into dst imp = Anki1Importer(dst, tmp) imp.run() def check(): assert dst.noteCount() == srcNotes assert dst.cardCount() == srcCards assert len(os.listdir(dst.media.dir())) == 1 check() # importing should be idempotent imp = Anki1Importer(dst, tmp) imp.run() check() def test_anki1_diffmodels(): # create a new empty deck dst = getEmptyDeck() # import the 1 card version of the model tmp = getUpgradeDeckPath("diffmodels1.anki") imp = Anki1Importer(dst, tmp) imp.run() before = dst.noteCount() # repeating the process should do nothing imp = Anki1Importer(dst, tmp) imp.run() assert before == dst.noteCount() # then the 2 card version tmp = getUpgradeDeckPath("diffmodels2.anki") imp = Anki1Importer(dst, tmp) imp.run() after = dst.noteCount() # as the model schemas differ, should have been imported as new model assert after == before + 1 # repeating the process should do nothing beforeModels = len(dst.models.all()) imp = Anki1Importer(dst, tmp) imp.run() after = dst.noteCount() assert after == before + 1 assert beforeModels == len(dst.models.all()) def test_suspended(): # create a new empty deck dst = getEmptyDeck() # import the 1 card version of the model tmp = getUpgradeDeckPath("suspended12.anki") imp = Anki1Importer(dst, tmp) imp.run() assert dst.db.scalar("select due from cards") < 0 def test_anki2_diffmodels(): # create a new empty deck dst = getEmptyDeck() # import the 1 card version of the model tmp = getUpgradeDeckPath("diffmodels2-1.apkg") imp = AnkiPackageImporter(dst, tmp) imp.run() before = dst.noteCount() # repeating the process should do nothing imp = AnkiPackageImporter(dst, tmp) imp.run() assert before == dst.noteCount() # then the 2 card version tmp = getUpgradeDeckPath("diffmodels2-2.apkg") imp = AnkiPackageImporter(dst, tmp) imp.run() after = dst.noteCount() # as the model schemas differ, should have been imported as new model assert after == before + 1 # and the new model should have both cards assert dst.cardCount() == 3 # repeating the process should do nothing imp = AnkiPackageImporter(dst, tmp) imp.run() after = dst.noteCount() assert after == before + 1 assert dst.cardCount() == 3 def test_csv(): deck = getEmptyDeck() file = unicode(os.path.join(testDir, "support/text-2fields.txt")) i = TextImporter(deck, file) i.initMapping() i.run() # four problems - too many & too few fields, a missing front, and a # duplicate entry assert len(i.log) == 5 assert i.total == 5 # if we run the import again, it should update instead i.run() assert len(i.log) == 5 assert i.total == 5 # but importing should not clobber tags if they're unmapped n = deck.getNote(deck.db.scalar("select id from notes")) n.addTag("test") n.flush() i.run() n.load() assert n.tags == ['test'] # if add-only mode, count will be 0 i.importMode = 1 i.run() assert i.total == 0 # and if dupes mode, will reimport everything assert deck.cardCount() == 5 i.importMode = 2 i.run() # includes repeated field assert i.total == 6 assert deck.cardCount() == 11 deck.close() def test_csv2(): deck = getEmptyDeck() mm = deck.models m = mm.current() f = mm.newField("Three") mm.addField(m, f) mm.save(m) n = deck.newNote() n['Front'] = "1" n['Back'] = "2" n['Three'] = "3" deck.addNote(n) # an update with unmapped fields should not clobber those fields file = unicode(os.path.join(testDir, "support/text-update.txt")) i = TextImporter(deck, file) i.initMapping() i.run() n.load() assert n['Front'] == "1" assert n['Back'] == "x" assert n['Three'] == "3" deck.close() def test_supermemo_xml_01_unicode(): deck = getEmptyDeck() file = unicode(os.path.join(testDir, "support/supermemo1.xml")) i = SupermemoXmlImporter(deck, file) #i.META.logToStdOutput = True i.run() assert i.total == 1 cid = deck.db.scalar("select id from cards") c = deck.getCard(cid) assert c.factor == 5701 assert c.reps == 7 deck.close() def test_mnemo(): deck = getEmptyDeck() file = unicode(os.path.join(testDir, "support/mnemo.db")) i = MnemosyneImporter(deck, file) i.run() assert deck.cardCount() == 7 assert "a_longer_tag" in deck.tags.all() assert deck.db.scalar("select count() from cards where type = 0") == 1 deck.close()