def run(self):
     # Always use the basic/reversed model, regardless of the current model.
     mm = self.col.models
     basicReversedModel = mm.byName("Basic (and reversed card)")
     self.model = basicReversedModel
     self.initMapping()
     TextImporter.run(self)
 def run(self):
     # Always use the basic/reversed model, regardless of the current model.
     mm = self.col.models
     basicReversedModel = mm.byName("Basic (and reversed card)")
     self.model = basicReversedModel
     self.initMapping()
     TextImporter.run(self)
    def __init__(self, *args):
        TextImporter.__init__(self, *args)
        self.log = []
        self.lines = None
        self.fileobj = None
        self.delimiter = "\t"
        self.tagsToAdd = ["~import::FCD"]

        # specific to FlashcardsDeluxeImporter
        self.cardStats = {}
        self.startedAt = datetime.now()
        self.newNoteIds = []
        self.clozeNoteIds = []
        self.newTags = set([])

        # set up renaming tags map
        self.renameTags = {}
        renameTagsFilename = os.path.join(self.col.media.dir(),
                                          RENAME_TAGS_FILENAME)
        if os.path.exists(renameTagsFilename):
            with open(renameTagsFilename, "rb") as renameTagsFile:
                reader = csv.reader(renameTagsFile,
                                    delimiter="\t",
                                    doublequote=True)
                for row in reader:
                    self.renameTags[row[0]] = row[1]
Esempio n. 4
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  def importDeckFromCSV(self, filename, name):
    #file = r"C:\Users\aarun\OneDrive\Documents\Anki\addons\import.txt"
   
    # select deck
    did = mw.col.decks.id(name)
    #model = self.addNewModel()

    mw.col.decks.select(did)
    # set note type for deck
    model = mw.col.models.byName("Basic")
    deck = mw.col.decks.get(did)
    deck['mid'] = model['id']
    mw.col.decks.save(deck)

    # Assign new deck to model
    mw.col.models.setCurrent(model)
    model['did'] = did
    mw.col.models.save(model)

    # import into the collection
    ti = TextImporter(mw.col, filename)
    ti.initMapping()
    ti.run()

    mw.col.reset()
    mw.reset()
Esempio n. 5
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 def setupImporter(self, temp_file_path):
     self.importer = TextImporter(self.mw.col, str(temp_file_path))
     self.importer.initMapping()
     self.importer.allowHTML = True
     self.importer.importMode = self.frm.importMode.currentIndex()
     self.mw.pm.profile['importMode'] = self.importer.importMode
     self.importer.delimiter = ';'
    def importNotes(self, notes):
        TextImporter.importNotes(self, notes)

        # Update any cloze cards.
        mm = self.col.models
        basicReversedModel = mm.byName("Basic (and reversed card)")
        clozeModel = mm.byName("Cloze")
        fmap = {0: 0, 1: 2, 2: 1, 3: 3}
        cmap = {0: None, 1: 0}
        mm.change(basicReversedModel, self.clozeNoteIds, clozeModel, fmap, cmap)
    def importNotes(self, notes):
        TextImporter.importNotes(self, notes)

        # Update any cloze cards.
        mm = self.col.models
        basicReversedModel = mm.byName("Basic (and reversed card)")
        clozeModel = mm.byName("Cloze")
        fmap = {0: 0, 1: 2, 2: 1, 3: 3}
        cmap = {0: None, 1: 0}
        mm.change(basicReversedModel, self.clozeNoteIds, clozeModel, fmap,
                  cmap)
Esempio n. 8
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def vocabulous():

    words_list, words_dict = get_entries()
    wordswritten = write_definitions("vocabulous.csv", words_list, words_dict)

    file = "vocabulous.csv"
    # select deck
    did = mw.col.decks.id("Default")
    mw.col.decks.select(did)
    # set note type for deck
    m = mw.col.models.byName("Basic")
    deck = mw.col.decks.get(did)
    deck['mid'] = m['id']
    mw.col.decks.save(deck)
    # import into the collection
    ti = TextImporter(mw.col, file)
    ti.allowHTML = True
    ti.importMode = 1
    ti.initMapping()
    ti.run()

    # get the number of cards in the current collection, which is stored in
    # the main window
    cardCount = mw.col.cardCount()
    # show a message box
    showInfo("Added %d new words. Now %d words in total." %
             (wordswritten, cardCount))
    def newData(self, n):
        # [id, guid64(), self.model['id'],
        #  intTime(), self.col.usn(), self.col.tags.join(n.tags),
        #  n.fieldsStr, "", "", 0, ""]
        superData = TextImporter.newData(self, n)

        id, guid, mid, time, usn, tags, fieldsStr, a, b, c, d = superData
        fields = fieldsStr.split("\x1f")
        if len(fields) >= 4:
            noteId = fields[0]
            front = fields[1]
            back = fields[2]
            citation = fields[3]
        else:
            self.log.append(u"Could not import: {0}".format(fields))
            return None

        self.newNoteIds.append(id)

        # change to the actual note ID, now that it's assigned
        if noteId in self.cardStats:
            self.cardStats[id] = self.cardStats[noteId]
            del self.cardStats[noteId]
        if noteId in self.clozeNoteIds:
            ndx = self.clozeNoteIds.index(noteId)
            self.clozeNoteIds[ndx] = id
        fieldsStr = "\x1f".join([str(id), front, back, citation])

        return [id, guid, mid, time, usn, tags, fieldsStr, a, b, c, d]
Esempio n. 10
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def import_csv(csvFile, lang, book, chapter):
    try:
        deck = getEmptyDeck()
    except pysqlite2.dbapi2.OperationalError as e:
        print e, "you probably have Anki open while you are running this; run this as a plugin from within Anki or close Anki and run this."
        sys.exit(1)
    m = deck.models.byName("Basic")
    deck.models.setCurrent(m)
    # set 'Import' as the target deck
    m['did'] = deck.decks.id(lang + "::" + book + "::" + chapter)
    deck.models.save(m)
    i = TextImporter(deck, csvFile)
    i.initMapping()
    i.run()
    deck.save()
    deck.close()
    def newData(self, n):
        # [id, guid64(), self.model['id'],
        #  intTime(), self.col.usn(), self.col.tags.join(n.tags),
        #  n.fieldsStr, "", "", 0, ""]
        superData = TextImporter.newData(self, n)

        id, guid, mid, time, usn, tags, fieldsStr, a, b, c, d = superData
        fields = fieldsStr.split("\x1f")
        if len(fields) >= 4:
            noteId   = fields[0]
            front    = fields[1]
            back     = fields[2]
            citation = fields[3]
        else:
            self.log.append(u"Could not import: {0}".format(fields))
            return None

        self.newNoteIds.append(id)

        # change to the actual note ID, now that it's assigned
        if noteId in self.cardStats:
            self.cardStats[id] = self.cardStats[noteId]
            del self.cardStats[noteId]
        if noteId in self.clozeNoteIds:
            ndx = self.clozeNoteIds.index(noteId)
            self.clozeNoteIds[ndx] = id
        fieldsStr = "\x1f".join([str(id), front, back, citation])

        return [id, guid, mid, time, usn, tags, fieldsStr, a, b, c, d]
    def updateCards(self):
        suspendIds = set([])

        for nid in self.newNoteIds:
            note = mw.col.getNote(nid)
            if not nid in self.cardStats:
                continue
            stats = self.cardStats[nid]

            # Use the same statistics for both directions.
            for card in note.cards():
                self._updateStatistics(card, stats, suspendIds)
                card.flush()
                self._cards.append((nid, card.ord, card))

        TextImporter.updateCards(self)
        mw.col.sched.suspendCards(suspendIds)
    def updateCards(self):
        suspendIds = set([])

        for nid in self.newNoteIds:
            note = mw.col.getNote(nid)
            if not nid in self.cardStats:
                continue
            stats = self.cardStats[nid]

            # Use the same statistics for both directions.
            for card in note.cards():
                self._updateStatistics(card, stats, suspendIds)
                card.flush()
                self._cards.append((nid, card.ord, card))

        TextImporter.updateCards(self)
        mw.col.sched.suspendCards(suspendIds)
Esempio n. 14
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def test_tsv_tag_modified():
    col = getEmptyCol()
    mm = col.models
    m = mm.current()
    note = mm.newField("Top")
    mm.addField(m, note)
    mm.save(m)
    n = col.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Top"] = "3"
    n.add_tag("four")
    col.addNote(n)

    # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file
    with NamedTemporaryFile(mode="w", delete=False) as tf:
        tf.write("1\tb\tc\n")
        tf.flush()
        i = TextImporter(col, tf.name)
        i.initMapping()
        i.tagModified = "boom"
        i.run()
        clear_tempfile(tf)

    n.load()
    assert n["Front"] == "1"
    assert n["Back"] == "b"
    assert n["Top"] == "c"
    assert "four" in n.tags
    assert "boom" in n.tags
    assert len(n.tags) == 2
    assert i.updateCount == 1

    col.close()
Esempio n. 15
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def test_tsv_tag_modified():
    deck = getEmptyCol()
    mm = deck.models
    m = mm.current()
    f = mm.newField("Top")
    mm.addField(m, f)
    mm.save(m)
    n = deck.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Top"] = "3"
    n.addTag("four")
    deck.addNote(n)

    with NamedTemporaryFile(mode="w") as tf:
        tf.write("1\tb\tc\n")
        tf.flush()
        i = TextImporter(deck, tf.name)
        i.initMapping()
        i.tagModified = "boom"
        i.run()

    n.load()
    assert n["Front"] == "1"
    assert n["Back"] == "b"
    assert n["Top"] == "c"
    assert "four" in n.tags
    assert "boom" in n.tags
    assert len(n.tags) == 2
    assert i.updateCount == 1

    deck.close()
Esempio n. 16
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def test_tsv_tag_multiple_tags():
    deck = getEmptyCol()
    mm = deck.models
    m = mm.current()
    f = mm.newField("Top")
    mm.addField(m, f)
    mm.save(m)
    n = deck.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Top"] = "3"
    n.addTag("four")
    n.addTag("five")
    deck.addNote(n)

    with NamedTemporaryFile(mode="w") as tf:
        tf.write("1\tb\tc\n")
        tf.flush()
        i = TextImporter(deck, tf.name)
        i.initMapping()
        i.tagModified = "five six"
        i.run()

    n.load()
    assert n["Front"] == "1"
    assert n["Back"] == "b"
    assert n["Top"] == "c"
    assert list(sorted(n.tags)) == list(sorted(["four", "five", "six"]))

    deck.close()
Esempio n. 17
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def test_csv_tag_only_if_modified():
    deck = getEmptyCol()
    mm = deck.models
    m = mm.current()
    f = mm.newField("Left")
    mm.addField(m, f)
    mm.save(m)
    n = deck.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Left"] = "3"
    deck.addNote(n)

    with NamedTemporaryFile(mode="w") as tf:
        tf.write("1,2,3\n")
        tf.flush()
        i = TextImporter(deck, tf.name)
        i.initMapping()
        i.tagModified = "right"
        i.run()

    n.load()
    assert n.tags == []
    assert i.updateCount == 0

    deck.close()
Esempio n. 18
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def test_tsv_tag_multiple_tags():
    deck = getEmptyCol()
    mm = deck.models
    m = mm.current()
    f = mm.newField("Top")
    mm.addField(m, f)
    mm.save(m)
    n = deck.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Top"] = "3"
    n.addTag("four")
    n.addTag("five")
    deck.addNote(n)

    # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file
    with NamedTemporaryFile(mode="w", delete=False) as tf:
        tf.write("1\tb\tc\n")
        tf.flush()
        i = TextImporter(deck, tf.name)
        i.initMapping()
        i.tagModified = "five six"
        i.run()
        clear_tempfile(tf)

    n.load()
    assert n["Front"] == "1"
    assert n["Back"] == "b"
    assert n["Top"] == "c"
    assert list(sorted(n.tags)) == list(sorted(["four", "five", "six"]))

    deck.close()
Esempio n. 19
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def test_csv_tag_only_if_modified():
    deck = getEmptyCol()
    mm = deck.models
    m = mm.current()
    f = mm.newField("Left")
    mm.addField(m, f)
    mm.save(m)
    n = deck.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Left"] = "3"
    deck.addNote(n)

    # https://stackoverflow.com/questions/23212435/permission-denied-to-write-to-my-temporary-file
    with NamedTemporaryFile(mode="w", delete=False) as tf:
        tf.write("1,2,3\n")
        tf.flush()
        i = TextImporter(deck, tf.name)
        i.initMapping()
        i.tagModified = "right"
        i.run()
        clear_tempfile(tf)

    n.load()
    assert n.tags == []
    assert i.updateCount == 0

    deck.close()
Esempio n. 20
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 def __init__(self, file):
     super(DeckChooser, self).__init__(mw)
     self.setupUi(self)
     self.importer = TextImporter(mw.col, file)
     self.importer.delimiter = "\t"
     self.importer.importMode = 0
     self.importer.allowHTML = True
     self.setup_decks()
     self.exec_()
Esempio n. 21
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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
    # if updating is disabled, count will be 0
    i.update = False
    i.run()
    assert i.total == 0
    deck.close()
Esempio n. 22
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def ImportToAnki(model_name, import_to_deck, *args, **kwargs):
    # get file
    file = kwargs.get("file", None)
    if not file:
        file = getFile(mw,
                       _("Import"),
                       None,
                       key="import",
                       filter=Importers[0][0])
    if not file:
        return
    file = str(file)

    # check default model
    try:
        model = mw.col.models.byName(model_name)
        if not model:
            raise Exception("没有找到【{}】".format(model_name))
    except:
        importFile(mw, settings.deck_template_file)
        try:
            model = mw.col.models.byName(model_name)
        except:
            model = None

    importer = TextImporter(mw.col, file)
    importer.delimiter = "\t"
    importer.importMode = 0
    importer.allowHTML = True
    importer.model = model

    did = mw.col.decks.id(import_to_deck)
    mw.col.conf['curDeck'] = did
    importer.model['did'] = did
    mw.col.decks.select(did)
    importer.mapping = [kwargs.get("first")]
    importer.run()
    mw.reset()
    txt = _("Importing complete.") + "\n"
    if importer.log:
        txt += "\n".join(importer.log)
    showText(txt)
Esempio n. 23
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def add_dictionary_to_anki(collection_path, deck_name = 'Import'):
    # See:
    # http://ankisrs.net/docs/addons.html#the-collection

    dictionary = unicode(os.path.abspath('data/dictionary.txt'))
    col = Collection(collection_path)

    # Change to the basic note type
    m = col.models.byName('Basic')
    col.models.setCurrent(m)

    # Set 'Import' as the target deck
    m['did'] = col.decks.id(deck_name)
    col.models.save(m)

    # Import into the collection
    ti = TextImporter(col, dictionary)
    ti.allowHTML = True
    ti.initMapping()
    ti.run()
    
    col.close()

    print("Imported dictionary into collection.")

    return 0
Esempio n. 24
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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 __init__(self, *args):
        TextImporter.__init__(self, *args)
        self.log = []
        self.lines = None
        self.fileobj = None
        self.delimiter = "\t"
        self.tagsToAdd = ["~import::FCD"]

        # specific to FlashcardsDeluxeImporter
        self.cardStats = {}
        self.startedAt = datetime.now()
        self.newNoteIds = []
        self.clozeNoteIds = []
        self.newTags = set([])

        # set up renaming tags map
        self.renameTags = {}
        renameTagsFilename = os.path.join(self.col.media.dir(), RENAME_TAGS_FILENAME)
        if os.path.exists(renameTagsFilename):
            with open(renameTagsFilename, "rb") as renameTagsFile:
                reader = csv.reader(renameTagsFile, delimiter="\t", doublequote=True)
                for row in reader:
                    self.renameTags[row[0]] = row[1]
Esempio n. 26
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File: q.py Progetto: yousong/gists
def drv(col):
    cwd = os.getcwd()
    flist = glob.glob('????.txt')
    for inf in flist:
        textf = 'economist.words.' + inf
        deckname = textf.rstrip('.txt')
        textf = os.path.join(cwd, textf)
        print(textf)
        deckid = col.decks.id(deckname)

        ti = TextImporter(col, textf)
        ti.model['did'] = deckid
        col.decks.select(deckid)

        ti.delimiter = '\t'
        ti.initMapping()
        ti.run()
Esempio n. 27
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	def importCourse(self):
		courseUrl = self.courseUrlLineEdit.text()
		# make sure the url given actually looks like a course home url
		if re.match('http://www.memrise.com/course/\d+/.+/', courseUrl) == None:
			self.courseUrlLineEdit.setText("Import failed. Does your URL look like the sample URL above?")
			return
			
		courseTitle, levelTitles = self.getCourseInfo(courseUrl)
		levelCount = len(levelTitles)
		
		# build list of urls for each level in the course
		levelUrls = map(lambda levelNum: format("%s%i" % (courseUrl, levelNum)), range(1, levelCount+1))
		
		# fetch notes data for each level
		memriseNotesByLevel = map(lambda levelUrl: self.getLevelNotes(levelUrl), levelUrls)
		# zip the notes data for a level together with its level title.
		levelData = zip(memriseNotesByLevel, levelTitles)
		
		
		# This looks ridiculous, sorry. Figure out how many zeroes we need
		# to order the subdecks alphabetically, e.g. if there are 100+ levels
		# we'll need to write "Level 001", "Level 002" etc.
		zeroCount = len(str(len(levelData)))
		levelNumber = 1
		
		# For each level, create an import file and import it as a deck
		for level in levelData:
			notes = level[0]
			levelTitle = level[1]
			
			if len(notes) == 0:
				continue
			
			importFilePath = self.createImportFile(notes)
			
			# import our file into Anki
			noteModel = mw.col.models.byName("Basic")
			mw.col.models.setCurrent(noteModel)
			deckTitle = format("%s::Level %s: %s" % (courseTitle, str(levelNumber).zfill(zeroCount), levelTitle))
			noteModel['did'] = mw.col.decks.id(deckTitle)
			mw.col.models.save(noteModel)
			importer = TextImporter(mw.col, importFilePath)
			importer.allowHTML = True
			importer.initMapping()
			importer.run()
			
			os.remove(importFilePath)
			levelNumber += 1
		
		# refresh deck browser so user can see the newly imported deck
		mw.deckBrowser.refresh()
		
		# bye!
		self.hide()
Esempio n. 28
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    def _importFileToCards(file, model_name):
        deck_id = mw.col.decks.id(":Expressions")
        mw.col.decks.select(deck_id)

        m = mw.col.models.byName(model_name)
        deck = mw.col.decks.get(deck_id)

        deck['mid'] = m['id']
        mw.col.decks.save(deck)
        m['did'] = deck_id

        importer = TextImporter(mw.col, file)
        importer.allowHTML = True
        importer.initMapping()
        importer.run()
Esempio n. 29
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def run_importer(file_path, tag_name, deck_name, collection):
    if not os.stat(file_path).st_size > 0:
        print "Nothing to import!"
        sys.exit()
    ti = TextImporter(collection, file_path)
    ti.delimiter = get_delimiter()
    ti.allowHTML = True
    ti.tagsToAdd = [tag_name]
    ti.initMapping()
    ti.run()

    # BUGFIX: anki doesn't add to selected deck
    did = collection.decks.id(deck_name)
    num_cards_added = ti.total
    ids = get_card_ids(collection, tag_name)
    ids = sorted(ids, reverse=True)
    for id in ids[:num_cards_added]:
        collection.db.execute("update cards set did = ? where id = ?",
                              did, id)
Esempio n. 30
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def importfile(filename, deck, type):
	try:
		file = join(dirname(realpath(__file__)), filename)
		did = mw.col.decks.id(deck)
		mw.col.decks.select(did)
		m = mw.col.models.byName(type)
		deck = mw.col.decks.get(did)
		deck['mid'] = m['id']
		mw.col.decks.save(deck)
		m['did'] = did
		ti = TextImporter(mw.col, file)
		ti.initMapping()
		ti.run()
		tooltip('Successfully imported results.')
	except:
		showWarning('<b>Import error</b><br>Make sure that the notetype and deck exist and that you have enough fields.')
Esempio n. 31
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def import_csv(csvFile, lang, book, chapter):
    try:
        deck = getEmptyDeck()
    except pysqlite2.dbapi2.OperationalError as e:
        print e, "you probably have Anki open while you are running this; run this as a plugin from within Anki or close Anki and run this."
        sys.exit(1)
    m = deck.models.byName("Basic")
    deck.models.setCurrent(m)
    # set 'Import' as the target deck
    m['did'] = deck.decks.id(lang + "::" + book + "::" + chapter)
    deck.models.save(m)
    i = TextImporter(deck, csvFile)
    i.initMapping()
    i.run()
    deck.save()
    deck.close()
Esempio n. 32
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def main():
    parser = argparser()
    args = parser.parse_args()

    csv_filename = args.csv_filename
    deck_name = args.deck_name
    apkg_filename = args.apkg_filename
    media_directory = args.media_directory
    model_name = args.model_name

    # this is removed at the end of the program
    TMPDIR = tempfile.mkdtemp()

    collection = anki.Collection(os.path.join(TMPDIR, 'collection.anki2'))

    deck_id = collection.decks.id(deck_name)
    deck = collection.decks.get(deck_id)

    if model_name == 'Image Occlusion Enhanced':
        model = add_io_model(collection)
    else:
        model = collection.models.byName(model_name).copy()

    model['did'] = deck_id

    collection.models.update(model)
    collection.models.setCurrent(model)
    collection.models.save(model)

    importer = TextImporter(collection, csv_filename)
    importer.allowHTML = True
    importer.initMapping()
    importer.run()

    for media_file in os.listdir(media_directory):
        os.symlink(os.path.join(media_directory, media_file),
                   os.path.join(TMPDIR, 'collection.media', media_file))

    export = AnkiPackageExporter(collection)
    export.exportInto(apkg_filename)

    shutil.rmtree(TMPDIR)
Esempio n. 33
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def importFile(filename):
    name = filename.rsplit('/', 1)[-1].rsplit('.', 1)[0]
    # select deck
    did = mw.col.decks.id(name)
    mw.col.decks.select(did)
    # anki defaults to the last note type used in the selected deck
    m = mw.col.models.byName("Basic")
    deck = mw.col.decks.get(did)
    deck['mid'] = m['id']
    mw.col.decks.save(deck)
    # and puts cards in the last deck used by the note type
    m['did'] = did
    # import into the collection
    ti = TextImporter(mw.col, filename)
    ti.initMapping()
    ti.run()
    mw.col.reset()
    mw.reset()
Esempio n. 34
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def txtImporter():
	##select deck     
	# Modify to your own destination deck                               
	did = mw.col.decks.id("Test")                   
	mw.col.decks.select(did)                        
	# set note type for deck                        
	m = mw.col.models.byName("Basic")               
	deck = mw.col.decks.get(did)                    
	#deck['mid'] = m['id']                           
	mw.col.decks.save(deck)  
	# import into the collection
	oriCardCount = mw.col.cardCount()
	ti = TextImporter(mw.col, txtConvertor())
	ti.initMapping()                                
	ti.run()       
	mw.reset()
	CardCount = mw.col.cardCount()
	# show a message box
	showInfo("Cards imported:" + str(CardCount-oriCardCount) + "\n\nCards Count:" + str(CardCount))
Esempio n. 35
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def importFile(deckId, notes, noteType):
    if len(notes) == 0:
        return


    with open(u"tmp.txt", "w") as f:
        for item in notes:
            f.write("%s\n" % item)

    m = mw.col.models.byName(noteType)
    deck = mw.col.decks.get(deckId)
    deck['mid'] = m['id']
    m['did'] = deckId
    mw.col.decks.save(deck)
    mw.col.models.save(m)


    ti = TextImporter(mw.col, u"tmp.txt")
    ti.delimiter = ","
    ti.initMapping()
    ti.run()

    os.remove(u"tmp.txt")
Esempio n. 36
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def importFileOutsideGUI(filename):
    pickle_list = loadFromPickle()
    profile_name = pickle_list[1]
    anki_dir = os.path.dirname(os.path.realpath(__file__).rsplit('\\', 2)[0])
    anki_collection = anki_dir + '\\' + profile_name + '\collection.anki2'
    col = Collection(anki_collection)
    name = filename.rsplit('/', 1)[-1].rsplit('.', 1)[0]
    did = col.decks.id(name)
    col.decks.select(did)
    m = col.models.byName("Basic")
    deck = col.decks.get(did)
    deck['mid'] = m['id']
    col.decks.save(deck)
    m['did'] = did
    ti = TextImporter(col, filename)
    ti.initMapping()
    ti.run()
    col.reset()
    mw.reset()
    col.close()
Esempio n. 37
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def importFlashcards():

    # Import cards
    for notetype in ['Basic', 'Cloze', 'Definition']:

        filename = os.path.expanduser("~/tmp/" + notetype.lower() + ".csv")
        linecount = sum(1 for line in open(filename))
        if linecount > 1:
            # Select deck
            did = mw.col.decks.id(currentDeck)
            mw.col.decks.select(did)
            # Set note type
            m = mw.col.models.byName(notetype)
            # Set note type for deck
            deck = mw.col.decks.get(did)
            deck['mid'] = m['id']
            mw.col.decks.save(deck)
            # Import into the collection
            ti = TextImporter(mw.col, filename)
            ti.allowHTML = True
            ti.initMapping()
            ti.run()

    showInfo("Import complete")
Esempio n. 38
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def testFunction():
    file = u"/home/hollisma/.local/share/Anki2/addons21/myaddon/cards.txt"

    # Select deck
    did = mw.col.decks.id("Vocab")
    mw.col.decks.select(did)

    # Settings for cards
    m = mw.col.models.byName("Cloze")
    deck = mw.col.decks.get(did)
    deck['mid'] = m['id']
    mw.col.decks.save(deck)
    m['did'] = did
    mw.col.models.save(m)

    # Import cards
    ti = TextImporter(mw.col, file)
    ti.initMapping()
    ti.run()

    showInfo('Done!')
Esempio n. 39
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def importMHT():
    # Ask for the .mht file.
    file_path = getFile(mw, _("Import mht file"), None, key="import")
    if not file_path:
        return
    file_path = unicode(file_path)

    # Convert mht
    parser = Parser(file_path)
    output = parser.run()

    # Creates a temp dir instead of file since windows
    # won't allow subprocesses to access it otherwise.
    # https://stackoverflow.com/questions/15169101/how-to-create-a-temporary-file-that-can-be-read-by-a-subprocess
    try:
        temp_dir = mkdtemp()
        path = os.path.join(temp_dir, 'import.html')

        with open(path, 'w+') as html:
            html.write(output)
            # Move temp images to collection.media
            media_dir = os.path.join(mw.pm.profileFolder(), "collection.media")

            for meta in parser.file_map.values():
                temp_path = meta.get('path')
                new_path = os.path.join(media_dir, meta.get('filename'))
                shutil.move(temp_path, new_path)

        # import into the collection
        ti = TextImporter(mw.col, path)
        ti.delimiter = '\t'
        ti.allowHTML = True
        ti.initMapping()
        MHTImportDialog(mw, ti)

        # Remove file
        os.remove(path)
    finally:
        os.rmdir(temp_dir)
Esempio n. 40
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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()
Esempio n. 41
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def test_csv2():
    col = getEmptyCol()
    mm = col.models
    m = mm.current()
    note = mm.newField("Three")
    mm.addField(m, note)
    mm.save(m)
    n = col.newNote()
    n["Front"] = "1"
    n["Back"] = "2"
    n["Three"] = "3"
    col.addNote(n)
    # an update with unmapped fields should not clobber those fields
    file = str(os.path.join(testDir, "support", "text-update.txt"))
    i = TextImporter(col, file)
    i.initMapping()
    i.run()
    n.load()
    assert n["Front"] == "1"
    assert n["Back"] == "x"
    assert n["Three"] == "3"
    col.close()
Esempio n. 42
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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()
Esempio n. 43
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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) == 10
    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()
Esempio n. 44
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def advimport():
    Log('-'*80)

    filename = getFile(mw, "Select file to import", None, key="import")
    
    if len(filename) == 0:
        showText("invalid filename", mw, type="text", run=True)
        return 
    
    lines = []
    n = 0
    
    with open(filename) as f:
        reader = unicode_csv_reader(f)
        
        for i in range(N_HEADER_LINES):
            n += 1
            reader.next()
            
        for row in reader:
            #print row
            n += 1
            lines.append((n, row))


    for n, line in lines:
        
        #Log("--"*5)

        data = []
        
        _chapt = line[0]
        _sect = line[1]
        _keywords = line[2]
        _question = line[3]
        _solution = line[4]
        
        _type = line[5]
        _subtype = line[6]
        _symb = SYMBOLS.get(_type, "")
        
        _rests = line[7:]
        
        print "L%03i:"%n,
        
        if not _type:
            print "!!! No type, skipping"
            continue


        elif _type == u"rule":
            print "   Rule        ",
            
            model = "Rule"
            key = _question
            
            data = [key, _question, _solution, _chapt, _sect, _type, _symb]


        elif _type == u"pron":
            print "   Pronoun     ",
            
            model = "Simple"
            key = _solution
            
            data = [key, _question, _solution, _chapt, _sect, _type, _symb]


        elif _type == u"wend":
            print "   Sentence    ",
            
            model = "Simple"
            key = _solution
            
            data = [key, _question, _solution, _chapt, _sect, _type, _symb]
            

        elif _type == u"prep":
            print "   Prepos      ",
            
            model = "Simple"
            key = _solution
            
            data = [key, _question, _solution, _chapt, _sect, _type, _symb]


        elif _type == u"adv":
            print "   Adverb      ",
            
            model = "Simple"
            key = _solution
            
            data = [key, _question, _solution, _chapt, _sect, _type, _symb]


        elif _type == u"nom": # Noun
            print "   Noun        ",
            
            model = "Noun"
            
            key = _solution
            
            lst = _solution.split(' ')
            
            art = lst.pop(0)
            noun = " ".join(lst)
            
            
            if not _subtype or _subtype == u"":
                if   art == "el":    _subtype = u"♂"
                elif art == "la":    _subtype = u"♀"
                elif art == "los":   _subtype = u"♂♂/♂♀"
                elif art == "las":   _subtype = u"♀♀"
                elif art == "el/la": _subtype = u"♂/♀"
            elif _subtype[0] in ["F", "f"]: _subtype = u"♀"
            elif _subtype[0] in ["M", "m"]: _subtype = u"♂"
            
            data = [key, _question, _solution, _chapt, _sect, _type, _subtype, _symb]

            
        elif _type == u"verb":
            print "   Verb        ", 
            
            modus = _rests[0]
            temp = _rests[1]
            forms = _rests[2:]
            
            for ii, f in enumerate(forms):
                _ = f.split('|')
                if len(_)==2:
                    for i, (c, e) in enumerate(zip(["stem", "ext"], _)):
                        _[i] = '<span class="%s">%s</span>' % (c, e)
                
                for i, x in enumerate(_):
                    _[i] = _[i].replace("[", '<span class="irr">')
                    _[i] = _[i].replace("]", '</span>')
                    
                forms[ii] = "".join(_)
            
            model = "Verb"
            key = "%s (%s; %s)" % (_solution, modus, temp)
            jsforms = '''{'sg1':'%s','sg2':'%s','sg3':'%s','pl1':'%s','pl2':'%s','pl3':'%s'}''' % tuple(forms)
            #Log("JSF", jsforms)

            _question = _question.replace("[", '<span class="prp">')
            _question = _question.replace("]", '</span>')
            _solution = _solution.replace("[", '<span class="prp">')
            _solution = _solution.replace("]", '</span>')
            
            #print _question

            data = [key, _question, _solution, _chapt, _sect, _type, _subtype, _symb, modus, temp, jsforms]
          
          
        elif _type == u"adj":
            print "   Adjective   ",
            
            s = _solution
            
            def decline(stem, exts=['_o', '_a', '_os', '_as'], wrap=('<b>', '</b>')):
                return [stem+wrap[0]+_+wrap[1] for _ in exts]
            
            if '[' in s:
                _subtype = 'IRR'
                i = s.find('[')
                stem = s[:i]
                exts = s[i+1:s.find(']')].split('|')
                #Log("ir1: ", i, stem, exts, len(exts))
                
                if len(exts)==4:
                    pass
                elif len(exts)==2:
                    exts = [exts[0], exts[0], exts[1], exts[1]]
                elif len(exts)==3:
                    exts = [exts[0], exts[1], exts[2], exts[2]]
                else:
                    #TODO
                    exts = ['???']*4
                    
            elif '|' in s:
                _subtype = 'IRR'
                stem = ''
                exts = s.split('|')

                if len(exts)==4:
                    pass
                elif len(exts)==2:
                    exts = [exts[0], exts[0], exts[1], exts[1]]
                elif len(exts)==3:
                    exts = [exts[0], exts[1], exts[2], exts[2]]
                else:
                    exts = ['???']*4
                
            elif s[-1]=='o':
                _subtype = '-o'
                stem = s[:-1]
                exts = ['_o', '_a', '_os', '_as']

            elif s[-1]=='e':
                _subtype = '-e'
                stem = s[:-1]
                exts = ['e', 'e', '_es', '_es']
                
            elif s[-4:]=='ista':
                _subtype = '-ista'
                stem = s[:-4]
                exts = ['ist_a', 'ist_a', 'ist_as', 'ist_as']
            
            elif s[-2:] == u'ón':
                _subtype = u'-ón'
                stem = s[:-2]
                exts = [u'*ón_', '*on_a', '*on_es', '*on_as']

            elif s[-5:] == 'erior':
                _subtype = '-erior'
                stem = s[:-5]
                exts = [u'erior', 'erior', 'erior_s', 'erior_s']

            elif s[-2:] == u'or':
                _subtype = '-or'
                stem = s[:-2]
                exts = [u'or', 'or_a', 'or_es', 'or_as']
                
            elif s[-1] == 'z':
                _subtype = '-z'
                stem = s[:-1]
                exts = [u'*z', '*z', '*c_es', '*c_es']
                
            else: # consonant at end:
                _subtype = '-CONS'
                stem = s
                exts = ['', '', '_es', '_es']
                print '!!!! >> check this:', stem, exts ,"\n                     ",
                
                
            #decl = decline(stem, exts, wrap=('<span class="ext">', '</span>'))
            decl = decline(stem, exts, wrap=('', ''))
            #decl = [_.replace('_', '') for _ in decl]
            
            for i, d in enumerate(decl):
                while d.find('*')>=0:
                    fi = d.find('*')
                    #print fi, d
                    d = d[:fi] + '<span class="irr">' + d[fi+1] + '</span>' + d[fi+2:]
                if '_' in d:
                    d = d.replace('_', '<span class="ext">') + '</span>'
                decl[i] = d
            #print decl
            
            #Log(stem, exts, decl)
                
            model = "Adjectiv"
            key = stem + exts[0] # use masculine form sg as key
            key = key.replace('*', '').replace('_','')
            jsforms = '''{'MSg':'%s','FSg':'%s','MPl':'%s','FPl':'%s'}''' % tuple(decl)
            
            data = [key, _question, key, _chapt, _sect, _type, _subtype, _symb, jsforms]
        
        
        else:
            print "!!! Unknown type, skipping"
            continue
        
        
        
        if len(data) > 0:
            print data[1], " | ", data[2]
            with codecs.open('multiimport.tsv', 'w', encoding='utf-8') as f:
                #data = [_.encode("utf8") for _ in data]
                s = "\t".join(data)
                #f.write(s.decode("utf8"))
                f.write(s)
                #print s
            
            did = mw.col.decks.byName(deck_name)['id']
            mw.col.decks.select(did)

            m = mw.col.models.byName(model)
            mw.col.conf['curModel'] = m['id']
            cdeck = mw.col.decks.current()
            cdeck['mid'] = m['id']
            mw.col.decks.save(cdeck)
            mw.col.models.setCurrent(m)
            m['did'] = did
            mw.col.models.save(m)
            mw.reset()
            
            ti = TextImporter(mw.col,'multiimport.tsv')
            ti.delimiter = '\t'
            ti.allowHTML = True
            ti.initMapping()
            ti.run()
            #os.remove('multiimport.tsv')

      
    print('-'*80)
Esempio n. 45
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        def makeDeck(parent,prefix,deck):
            name = deck.csvname
            csvfile = "%s%s%s.csv" % (tmpPath,prefix,name)

            if not os.path.exists(csvfile) and deck.cardType != None:
                print('Skipping deck "%s" because no file "%s" was found.' % (name, csvfile))
                return
                # raise Exception('No csv file "' + csvfile + '" found.')

            did = tcol.decks.id(parent + deck.name)
            d = tcol.decks.get(did)
            tcol.decks.select(did)

            confId = tcol.decks.confId(parent + deck.name, cloneFrom=deck.conf)

            if not deck.cardType:
                conf = tcol.decks.getConf(confId)
                conf['new']['perDay'] = 999
                tcol.decks.updateConf(conf)
            elif deck.perDay:
                conf = tcol.decks.getConf(confId)
                conf['new']['perDay'] = deck.perDay
                tcol.decks.updateConf(conf)

            tcol.decks.setConf(d,confId)

            if deck.cardType:
                ct = deck.cardType

                if not tcol.models.byName(ct.name):
                    m = tcol.models.new(ct.name)
                    m['req'] = [[0, 'all', [0]]]
                    m['css'] = ct.css()
                    m['tmpls'] = [
                        {
                            'name': 'Card 1',
                            'qfmt': ct.front(),
                            'afmt': ct.back(),
                            'bfont': 'Lucida Sans Unicode',
                            'bamft': '',
                            'bqmft': '',
                            'ord': 0,
                            'did': None,
                            'bsize': 12
                        }
                    ]
                    tcol.models.add(m)

                    for i,field in enumerate(ct.fields):
                        f = tcol.models.newField(field.anki_name)
                        f['ord'] = i
                        tcol.models.addField(m,f)
                else:
                    m = tcol.models.byName(ct.name)

                # So that we can reuse already-present models
                # todo: this doesn't actually work but would be a big part of
                # updating
                # if m['id'] != ct.mid:
                # 	m = tcol.models.get(m['id'])
                # 	m['id'] = ct.mid
                # 	m.save(m)

                tcol.save()

                m['did'] = did
                tcol.decks.select(did)
                ti = TextImporter(tcol,csvfile)
                ti.model = m
                ti.allowHTML = True
                ti.initMapping()
                ti.delimiter = "\t"
                ti.updateDelimiter()

                ti.run()
                tcol.save()

            for sd in deck.subdecks:
                makeDeck(parent + deck.name + '::',prefix + name + '-', sd)