AnkiConnect.py

# Copyright (C) 2016 Alex Yatskov <alex@foosoft.net>
# Author: Alex Yatskov <alex@foosoft.net>
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.


import anki
import aqt
import base64
import hashlib
import inspect
import json
import os
import os.path
import re
import select
import socket
import sys
from time import time
from unicodedata import normalize


#
# Constants
#

API_VERSION = 2
TICK_INTERVAL = 25
URL_TIMEOUT = 10
URL_UPGRADE = 'https://raw.githubusercontent.com/FooSoft/anki-connect/master/AnkiConnect.py'
NET_ADDRESS = os.getenv('ANKICONNECT_BIND_ADDRESS', '127.0.0.1')
NET_BACKLOG = 5
NET_PORT = 8765


#
# General helpers
#

if sys.version_info[0] < 3:
    import urllib2
    web = urllib2

    from PyQt4.QtCore import QTimer
    from PyQt4.QtGui import QMessageBox
else:
    unicode = str

    from urllib import request
    web = request

    from PyQt5.QtCore import QTimer
    from PyQt5.QtWidgets import QMessageBox


#
# Helpers
#

def webApi(*versions):
    def decorator(func):
        method = lambda *args, **kwargs: func(*args, **kwargs)
        setattr(method, 'versions', versions)
        setattr(method, 'api', True)
        return method
    return decorator


def makeBytes(data):
    return data.encode('utf-8')


def makeStr(data):
    return data.decode('utf-8')


def download(url):
    try:
        resp = web.urlopen(url, timeout=URL_TIMEOUT)
    except web.URLError:
        return None

    if resp.code != 200:
        return None

    return resp.read()


def audioInject(note, fields, filename):
    for field in fields:
        if field in note:
            note[field] += u'[sound:{}]'.format(filename)


def verifyString(string):
    t = type(string)
    return t == str or t == unicode


def verifyStringList(strings):
    for s in strings:
        if not verifyString(s):
            return False

    return True



#
# AjaxRequest
#

class AjaxRequest:
    def __init__(self, headers, body):
        self.headers = headers
        self.body = body


#
# AjaxClient
#

class AjaxClient:
    def __init__(self, sock, handler):
        self.sock = sock
        self.handler = handler
        self.readBuff = bytes()
        self.writeBuff = bytes()


    def advance(self, recvSize=1024):
        if self.sock is None:
            return False

        rlist, wlist = select.select([self.sock], [self.sock], [], 0)[:2]

        if rlist:
            msg = self.sock.recv(recvSize)
            if not msg:
                self.close()
                return False

            self.readBuff += msg

            req, length = self.parseRequest(self.readBuff)
            if req is not None:
                self.readBuff = self.readBuff[length:]
                self.writeBuff += self.handler(req)

        if wlist and self.writeBuff:
            length = self.sock.send(self.writeBuff)
            self.writeBuff = self.writeBuff[length:]
            if not self.writeBuff:
                self.close()
                return False

        return True


    def close(self):
        if self.sock is not None:
            self.sock.close()
            self.sock = None

        self.readBuff = bytes()
        self.writeBuff = bytes()


    def parseRequest(self, data):
        parts = data.split(makeBytes('\r\n\r\n'), 1)
        if len(parts) == 1:
            return None, 0

        headers = {}
        for line in parts[0].split(makeBytes('\r\n')):
            pair = line.split(makeBytes(': '))
            headers[pair[0].lower()] = pair[1] if len(pair) > 1 else None

        headerLength = len(parts[0]) + 4
        bodyLength = int(headers.get(makeBytes('content-length'), 0))
        totalLength = headerLength + bodyLength

        if totalLength > len(data):
            return None, 0

        body = data[headerLength : totalLength]
        return AjaxRequest(headers, body), totalLength


#
# AjaxServer
#

class AjaxServer:
    def __init__(self, handler):
        self.handler = handler
        self.clients = []
        self.sock = None
        self.resetHeaders()


    def setHeader(self, name, value):
        self.extraHeaders[name] = value


    def resetHeaders(self):
        self.headers = [
            ['HTTP/1.1 200 OK', None],
            ['Content-Type', 'text/json'],
            ['Access-Control-Allow-Origin', '*']
        ]
        self.extraHeaders = {}


    def getHeaders(self):
        headers = self.headers[:]
        for name in self.extraHeaders:
            headers.append([name, self.extraHeaders[name]])
        return headers


    def advance(self):
        if self.sock is not None:
            self.acceptClients()
            self.advanceClients()


    def acceptClients(self):
        rlist = select.select([self.sock], [], [], 0)[0]
        if not rlist:
            return

        clientSock = self.sock.accept()[0]
        if clientSock is not None:
            clientSock.setblocking(False)
            self.clients.append(AjaxClient(clientSock, self.handlerWrapper))


    def advanceClients(self):
        self.clients = list(filter(lambda c: c.advance(), self.clients))


    def listen(self):
        self.close()

        self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
        self.sock.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.sock.setblocking(False)
        self.sock.bind((NET_ADDRESS, NET_PORT))
        self.sock.listen(NET_BACKLOG)


    def handlerWrapper(self, req):
        if len(req.body) == 0:
            body = makeBytes('AnkiConnect v.{}'.format(API_VERSION))
        else:
            try:
                params = json.loads(makeStr(req.body))
                body = makeBytes(json.dumps(self.handler(params)))
            except ValueError:
                body = makeBytes(json.dumps(None))

        resp = bytes()

        self.setHeader('Content-Length', str(len(body)))
        headers = self.getHeaders()

        for key, value in headers:
            if value is None:
                resp += makeBytes('{}\r\n'.format(key))
            else:
                resp += makeBytes('{}: {}\r\n'.format(key, value))

        resp += makeBytes('\r\n')
        resp += body

        return resp


    def close(self):
        if self.sock is not None:
            self.sock.close()
            self.sock = None

        for client in self.clients:
            client.close()

        self.clients = []


#
# AnkiNoteParams
#

class AnkiNoteParams:
    def __init__(self, params):
        self.deckName = params.get('deckName')
        self.modelName = params.get('modelName')
        self.fields = params.get('fields', {})
        self.tags = params.get('tags', [])

        class Audio:
            def __init__(self, params):
                self.url = params.get('url')
                self.filename = params.get('filename')
                self.skipHash = params.get('skipHash')
                self.fields = params.get('fields', [])

            def validate(self):
                return (
                    verifyString(self.url) and
                    verifyString(self.filename) and os.path.dirname(self.filename) == '' and
                    verifyStringList(self.fields) and
                    (verifyString(self.skipHash) or self.skipHash is None)
                )

        audio = Audio(params.get('audio', {}))
        self.audio = audio if audio.validate() else None


    def validate(self):
        return (
            verifyString(self.deckName) and
            verifyString(self.modelName) and
            type(self.fields) == dict and verifyStringList(list(self.fields.keys())) and verifyStringList(list(self.fields.values())) and
            type(self.tags) == list and verifyStringList(self.tags)
        )


#
# AnkiBridge
#

class AnkiBridge:
    def storeMediaFile(self, filename, data):
        self.deleteMediaFile(filename)
        self.media().writeData(filename, base64.b64decode(data))


    def retrieveMediaFile(self, filename):
        # based on writeData from anki/media.py
        filename = os.path.basename(filename)
        filename = normalize("NFC", filename)
        filename = self.media().stripIllegal(filename)

        path = os.path.join(self.media().dir(), filename)
        if os.path.exists(path):
            with open(path, 'rb') as file:
                return base64.b64encode(file.read()).decode('ascii')

        return False


    def deleteMediaFile(self, filename):
        self.media().syncDelete(filename)


    def addNote(self, params):
        collection = self.collection()
        if collection is None:
            return

        note = self.createNote(params)
        if note is None:
            return

        if params.audio is not None and len(params.audio.fields) > 0:
            data = download(params.audio.url)
            if data is not None:
                if params.audio.skipHash is None:
                    skip = False
                else:
                    m = hashlib.md5()
                    m.update(data)
                    skip = params.audio.skipHash == m.hexdigest()

                if not skip:
                    audioInject(note, params.audio.fields, params.audio.filename)
                    self.media().writeData(params.audio.filename, data)

        self.startEditing()
        collection.addNote(note)
        collection.autosave()
        self.stopEditing()

        return note.id


    def canAddNote(self, note):
        return bool(self.createNote(note))


    def createNote(self, params):
        collection = self.collection()
        if collection is None:
            return

        model = collection.models.byName(params.modelName)
        if model is None:
            return

        deck = collection.decks.byName(params.deckName)
        if deck is None:
            return

        note = anki.notes.Note(collection, model)
        note.model()['did'] = deck['id']
        note.tags = params.tags

        for name, value in params.fields.items():
            if name in note:
                note[name] = value

#        if not note.dupeOrEmpty():
        return note


    def addTags(self, notes, tags, add=True):
        self.startEditing()
        self.collection().tags.bulkAdd(notes, tags, add)
        self.stopEditing()


    def suspend(self, cards, suspend=True):
        for card in cards:
            isSuspended = self.isSuspended(card)
            if suspend and isSuspended:
                cards.remove(card)
            elif not suspend and not isSuspended:
                cards.remove(card)

        if cards:
            self.startEditing()
            if suspend:
                self.collection().sched.suspendCards(cards)
            else:
                self.collection().sched.unsuspendCards(cards)
            self.stopEditing()
            return True

        return False


    def areSuspended(self, cards):
        suspended = []
        for card in cards:
            card = self.collection().getCard(card)
            if card.queue == -1:
                suspended.append(True)
            else:
                suspended.append(False)
        return suspended


    def areDue(self, cards):
        due = []
        for card in cards:
            if self.findCards('cid:%s is:new' % card):
                due.append(True)
                continue

            date, ivl = self.collection().db.all('select id/1000.0, ivl from revlog where cid = ?', card)[-1]
            if (ivl >= -1200):
                if self.findCards('cid:%s is:due' % card):
                    due.append(True)
                else:
                    due.append(False)
            else:
                if date - ivl <= time():
                    due.append(True)
                else:
                    due.append(False)

        return due


    def getIntervals(self, cards, complete=False):
        intervals = []
        for card in cards:
            if self.findCards('cid:%s is:new' % card):
                intervals.append(0)
                continue

            interval = self.collection().db.list('select ivl from revlog where cid = ?', card)
            if not complete:
                interval = interval[-1]
            intervals.append(interval)
        return intervals


    def startEditing(self):
        self.window().requireReset()


    def stopEditing(self):
        if self.collection() is not None:
            self.window().maybeReset()


    def window(self):
        return aqt.mw


    def reviewer(self):
        return self.window().reviewer


    def collection(self):
        return self.window().col


    def scheduler(self):
        return self.collection().sched


    def multi(self, actions):
        response = []
        for item in actions:
            response.append(AnkiConnect.handler(ac, item))
        return response


    def media(self):
        collection = self.collection()
        if collection is not None:
            return collection.media


    def modelNames(self):
        collection = self.collection()
        if collection is not None:
            return collection.models.allNames()


    def modelNamesAndIds(self):
        models = {}

        modelNames = self.modelNames()
        for model in modelNames:
            mid = self.collection().models.byName(model)['id']
            mid = int(mid)  # sometimes Anki stores the ID as a string
            models[model] = mid

        return models


    def modelNameFromId(self, modelId):
        collection = self.collection()
        if collection is not None:
            model = collection.models.get(modelId)
            if model is not None:
                return model['name']


    def modelFieldNames(self, modelName):
        collection = self.collection()
        if collection is not None:
            model = collection.models.byName(modelName)
            if model is not None:
                return [field['name'] for field in model['flds']]


    def modelFieldsOnTemplates(self, modelName):
        model = self.collection().models.byName(modelName)

        if model is not None:
            templates = {}
            for template in model['tmpls']:
                fields = []

                for side in ['qfmt', 'afmt']:
                    fieldsForSide = []

                    # based on _fieldsOnTemplate from aqt/clayout.py
                    matches = re.findall('{{[^#/}]+?}}', template[side])
                    for match in matches:
                        # remove braces and modifiers
                        match = re.sub(r'[{}]', '', match)
                        match = match.split(":")[-1]

                        # for the answer side, ignore fields present on the question side + the FrontSide field
                        if match == 'FrontSide' or side == 'afmt' and match in fields[0]:
                            continue
                        fieldsForSide.append(match)


                    fields.append(fieldsForSide)

                templates[template['name']] = fields

            return templates


    def getDeckConfig(self, deck):
        if not deck in self.deckNames():
            return False

        did = self.collection().decks.id(deck)
        return self.collection().decks.confForDid(did)


    def saveDeckConfig(self, config):
        configId = str(config['id'])
        if not configId in self.collection().decks.dconf:
            return False

        mod = anki.utils.intTime()
        usn = self.collection().usn()

        config['mod'] = mod
        config['usn'] = usn

        self.collection().decks.dconf[configId] = config
        self.collection().decks.changed = True
        return True


    def setDeckConfigId(self, decks, configId):
        for deck in decks:
            if not deck in self.deckNames():
                return False

        if not str(configId) in self.collection().decks.dconf:
            return False

        for deck in decks:
            did = str(self.collection().decks.id(deck))
            aqt.mw.col.decks.decks[did]['conf'] = configId

        return True


    def cloneDeckConfigId(self, name, cloneFrom=1):
        if not str(cloneFrom) in self.collection().decks.dconf:
            return False

        cloneFrom = self.collection().decks.getConf(cloneFrom)
        return self.collection().decks.confId(name, cloneFrom)


    def removeDeckConfigId(self, configId):
        if configId == 1 or not str(configId) in self.collection().decks.dconf:
            return False

        self.collection().decks.remConf(configId)
        return True


    def deckNames(self):
        collection = self.collection()
        if collection is not None:
            return collection.decks.allNames()


    def deckNamesAndIds(self):
        decks = {}

        deckNames = self.deckNames()
        for deck in deckNames:
            did = self.collection().decks.id(deck)
            decks[deck] = did

        return decks


    def deckNameFromId(self, deckId):
        collection = self.collection()
        if collection is not None:
            deck = collection.decks.get(deckId)
            if deck is not None:
                return deck['name']


    def findNotes(self, query=None):
        if query is not None:
            return self.collection().findNotes(query)
        else:
            return []


    def findCards(self, query=None):
        if query is not None:
            return self.collection().findCards(query)
        else:
            return []


    def getDecks(self, cards):
        decks = {}
        for card in cards:
            did = self.collection().db.scalar('select did from cards where id = ?', card)
            deck = self.collection().decks.get(did)['name']

            if deck in decks:
                decks[deck].append(card)
            else:
                decks[deck] = [card]

        return decks


    def changeDeck(self, cards, deck):
        self.startEditing()

        did = self.collection().decks.id(deck)
        mod = anki.utils.intTime()
        usn = self.collection().usn()

        # normal cards
        scids = anki.utils.ids2str(cards)
        # remove any cards from filtered deck first
        self.collection().sched.remFromDyn(cards)

        # then move into new deck
        self.collection().db.execute('update cards set usn=?, mod=?, did=? where id in ' + scids, usn, mod, did)
        self.stopEditing()


    def deleteDecks(self, decks, cardsToo=False):
        self.startEditing()
        for deck in decks:
            did = self.collection().decks.id(deck)
            self.collection().decks.rem(did, cardsToo)
        self.stopEditing()


    def cardsToNotes(self, cards):
        return self.collection().db.list('select distinct nid from cards where id in ' + anki.utils.ids2str(cards))


    def guiBrowse(self, query=None):
        browser = aqt.dialogs.open('Browser', self.window())
        browser.activateWindow()

        if query is not None:
            browser.form.searchEdit.lineEdit().setText(query)
            if hasattr(browser, 'onSearch'):
                browser.onSearch()
            else:
                browser.onSearchActivated()

        return browser.model.cards


    def guiAddCards(self):
        addCards = aqt.dialogs.open('AddCards', self.window())
        addCards.activateWindow()


    def guiReviewActive(self):
        return self.reviewer().card is not None and self.window().state == 'review'


    def guiCurrentCard(self):
        if not self.guiReviewActive():
            return

        reviewer = self.reviewer()
        card = reviewer.card
        model = card.model()
        note = card.note()

        fields = {}
        for info in model['flds']:
            order = info['ord']
            name = info['name']
            fields[name] = {'value': note.fields[order], 'order': order}

        if card is not None:
            return {
                'cardId': card.id,
                'fields': fields,
                'fieldOrder': card.ord,
                'question': card._getQA()['q'],
                'answer': card._getQA()['a'],
                'buttons': [b[0] for b in reviewer._answerButtonList()],
                'modelName': model['name'],
                'deckName': self.deckNameFromId(card.did),
                'css': model['css']
            }


    def guiStartCardTimer(self):
        if not self.guiReviewActive():
            return False

        card = self.reviewer().card

        if card is not None:
            card.startTimer()
            return True
        else:
            return False

    def guiShowQuestion(self):
        if self.guiReviewActive():
            self.reviewer()._showQuestion()
            return True
        else:
            return False


    def guiShowAnswer(self):
        if self.guiReviewActive():
            self.window().reviewer._showAnswer()
            return True
        else:
            return False


    def guiAnswerCard(self, ease):
        if not self.guiReviewActive():
            return False

        reviewer = self.reviewer()
        if reviewer.state != 'answer':
            return False
        if ease <= 0 or ease > self.scheduler().answerButtons(reviewer.card):
            return False

        reviewer._answerCard(ease)
        return True


    def guiDeckOverview(self, name):
        collection = self.collection()
        if collection is not None:
            deck = collection.decks.byName(name)
            if deck is not None:
                collection.decks.select(deck['id'])
                self.window().onOverview()
                return True

        return False


    def guiDeckBrowser(self):
        self.window().moveToState('deckBrowser')


    def guiDeckReview(self, name):
        if self.guiDeckOverview(name):
            self.window().moveToState('review')
            return True
        else:
            return False

    def guiExitAnki(self):
        timer = QTimer()
        def exitAnki():
            timer.stop()
            self.window().close()
        timer.timeout.connect(exitAnki)
        timer.start(1000) # 1s should be enough to allow the response to be sent.

#
# AnkiConnect
#

class AnkiConnect:
    def __init__(self):
        self.anki = AnkiBridge()
        self.server = AjaxServer(self.handler)

        try:
            self.server.listen()

            self.timer = QTimer()
            self.timer.timeout.connect(self.advance)
            self.timer.start(TICK_INTERVAL)
        except:
            QMessageBox.critical(
                self.anki.window(),
                'AnkiConnect',
                'Failed to listen on port {}.\nMake sure it is available and is not in use.'.format(NET_PORT)
            )


    def advance(self):
        self.server.advance()


    def handler(self, request):
        name = request.get('action', '')
        version = request.get('version', 4)
        params = request.get('params', {})
        reply = {'result': None, 'error': None}

        try:
            method = None

            for methodName, methodInst in inspect.getmembers(self, predicate=inspect.ismethod):
                apiVersionLast = 0
                apiNameLast = None

                if getattr(methodInst, 'api', False):
                    for apiVersion, apiName in getattr(methodInst, 'versions', []):
                        if apiVersionLast < apiVersion <= version:
                            apiVersionLast = apiVersion
                            apiNameLast = apiName

                    if apiNameLast is None and apiVersionLast == 0:
                        apiNameLast = methodName

                    if apiNameLast is not None and apiNameLast == name:
                        method = methodInst
                        break

            if method is None:
                raise Exception('unsupported action')
            else:
                reply['result'] = methodInst(**params)
        except Exception as e:
            reply['error'] = str(e)

        if version > 4:
            return reply
        else:
            return reply['result']


    @webApi()
    def multi(self, actions):
        return self.anki.multi(actions)


    @webApi()
    def storeMediaFile(self, filename, data):
        return self.anki.storeMediaFile(filename, data)


    @webApi()
    def retrieveMediaFile(self, filename):
        return self.anki.retrieveMediaFile(filename)


    @webApi()
    def deleteMediaFile(self, filename):
        return self.anki.deleteMediaFile(filename)


    @webApi()
    def deckNames(self):
        return self.anki.deckNames()


    @webApi()
    def deckNamesAndIds(self):
        return self.anki.deckNamesAndIds()


    @webApi()
    def modelNames(self):
        return self.anki.modelNames()


    @webApi()
    def modelNamesAndIds(self):
        return self.anki.modelNamesAndIds()


    @webApi()
    def modelFieldNames(self, modelName):
        return self.anki.modelFieldNames(modelName)


    @webApi()
    def modelFieldsOnTemplates(self, modelName):
        return self.anki.modelFieldsOnTemplates(modelName)


    @webApi()
    def getDeckConfig(self, deck):
        return self.anki.getDeckConfig(deck)


    @webApi()
    def saveDeckConfig(self, config):
        return self.anki.saveDeckConfig(config)


    @webApi()
    def setDeckConfigId(self, decks, configId):
        return self.anki.setDeckConfigId(decks, configId)


    @webApi()
    def cloneDeckConfigId(self, name, cloneFrom=1):
        return self.anki.cloneDeckConfigId(name, cloneFrom)


    @webApi()
    def removeDeckConfigId(self, configId):
        return self.anki.removeDeckConfigId(configId)


    @webApi()
    def addNote(self, note):
        params = AnkiNoteParams(note)
        if params.validate():
            return self.anki.addNote(params)


    @webApi()
    def addNotes(self, notes):
        results = []
        for note in notes:
            params = AnkiNoteParams(note)
            if params.validate():
                results.append(self.anki.addNote(params))
            else:
                results.append(None)

        return results


    @webApi()
    def canAddNotes(self, notes):
        results = []
        for note in notes:
            params = AnkiNoteParams(note)
            results.append(params.validate() and self.anki.canAddNote(params))

        return results


    @webApi()
    def addTags(self, notes, tags, add=True):
        return self.anki.addTags(notes, tags, add)


    @webApi()
    def removeTags(self, notes, tags):
        return self.anki.addTags(notes, tags, False)


    @webApi()
    def suspend(self, cards, suspend=True):
        return self.anki.suspend(cards, suspend)


    @webApi()
    def unsuspend(self, cards):
        return self.anki.suspend(cards, False)


    @webApi()
    def areSuspended(self, cards):
        return self.anki.areSuspended(cards)


    @webApi()
    def areDue(self, cards):
        return self.anki.areDue(cards)


    @webApi()
    def getIntervals(self, cards, complete=False):
        return self.anki.getIntervals(cards, complete)


    @webApi()
    def upgrade(self):
        response = QMessageBox.question(
            self.anki.window(),
            'AnkiConnect',
            'Upgrade to the latest version?',
            QMessageBox.Yes | QMessageBox.No
        )

        if response == QMessageBox.Yes:
            data = download(URL_UPGRADE)
            if data is None:
                QMessageBox.critical(self.anki.window(), 'AnkiConnect', 'Failed to download latest version.')
            else:
                path = os.path.splitext(__file__)[0] + '.py'
                with open(path, 'w') as fp:
                    fp.write(makeStr(data))
                QMessageBox.information(self.anki.window(), 'AnkiConnect', 'Upgraded to the latest version, please restart Anki.')
                return True

        return False


    @webApi()
    def version(self):
        return API_VERSION


    @webApi()
    def findNotes(self, query=None):
        return self.anki.findNotes(query)


    @webApi()
    def findCards(self, query=None):
        return self.anki.findCards(query)


    @webApi()
    def getDecks(self, cards):
        return self.anki.getDecks(cards)


    @webApi()
    def changeDeck(self, cards, deck):
        return self.anki.changeDeck(cards, deck)


    @webApi()
    def deleteDecks(self, decks, cardsToo=False):
        return self.anki.deleteDecks(decks, cardsToo)


    @webApi()
    def cardsToNotes(self, cards):
        return self.anki.cardsToNotes(cards)


    @webApi()
    def guiBrowse(self, query=None):
        return self.anki.guiBrowse(query)


    @webApi()
    def guiAddCards(self):
        return self.anki.guiAddCards()


    @webApi()
    def guiCurrentCard(self):
        return self.anki.guiCurrentCard()


    @webApi()
    def guiStartCardTimer(self):
        return self.anki.guiStartCardTimer()


    @webApi()
    def guiAnswerCard(self, ease):
        return self.anki.guiAnswerCard(ease)


    @webApi()
    def guiShowQuestion(self):
        return self.anki.guiShowQuestion()


    @webApi()
    def guiShowAnswer(self):
        return self.anki.guiShowAnswer()


    @webApi()
    def guiDeckOverview(self, name):
        return self.anki.guiDeckOverview(name)


    @webApi()
    def guiDeckBrowser(self):
        return self.anki.guiDeckBrowser()


    @webApi()
    def guiDeckReview(self, name):
        return self.anki.guiDeckReview(name)


    @webApi()
    def guiExitAnki(self):
        return self.anki.guiExitAnki()


#
#   Entry
#

ac = AnkiConnect()