alex/anki-connect
1
Fork 0
Code Releases 5 Activity
3892481cea
anki-connect/plugin/__init__.py
ant 3892481cea change param format for answerCards
2023-06-15 12:49:02 +01:00

1966 lines
60 KiB
Python
Raw Blame History

# Copyright 2016-2021 Alex Yatskov
#
# 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 aqt
anki_version = tuple(int(segment) for segment in aqt.appVersion.split("."))
if anki_version < (2, 1, 45):
raise Exception("Minimum Anki version supported: 2.1.45")
import base64
import glob
import hashlib
import inspect
import json
import os
import os.path
import platform
import re
import time
import unicodedata
import anki
import anki.exporting
import anki.storage
from anki.cards import Card
from anki.consts import MODEL_CLOZE
from anki.exporting import AnkiPackageExporter
from anki.importing import AnkiPackageImporter
from anki.notes import Note
from anki.errors import NotFoundError
from aqt.qt import Qt, QTimer, QMessageBox, QCheckBox
from .web import format_exception_reply, format_success_reply
from .edit import Edit
from . import web, util
#
# AnkiConnect
#
class AnkiConnect:
def __init__(self):
self.log = None
self.timer = None
self.server = web.WebServer(self.handler)
def initLogging(self):
logPath = util.setting('apiLogPath')
if logPath is not None:
self.log = open(logPath, 'w')
def startWebServer(self):
try:
self.server.listen()
# only keep reference to prevent garbage collection
self.timer = QTimer()
self.timer.timeout.connect(self.advance)
self.timer.start(util.setting('apiPollInterval'))
except:
QMessageBox.critical(
self.window(),
'AnkiConnect',
'Failed to listen on port {}.\nMake sure it is available and is not in use.'.format(util.setting('webBindPort'))
)
def save_model(self, models, ankiModel):
models.update_dict(ankiModel)
def logEvent(self, name, data):
if self.log is not None:
self.log.write('[{}]\n'.format(name))
json.dump(data, self.log, indent=4, sort_keys=True)
self.log.write('\n\n')
self.log.flush()
def advance(self):
self.server.advance()
def handler(self, request):
self.logEvent('request', request)
name = request.get('action', '')
version = request.get('version', 4)
params = request.get('params', {})
key = request.get('key')
try:
if key != util.setting('apiKey') and name != 'requestPermission':
raise Exception('valid api key must be provided')
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')
api_return_value = methodInst(**params)
reply = format_success_reply(version, api_return_value)
except Exception as e:
reply = format_exception_reply(version, e)
self.logEvent('reply', reply)
return reply
def window(self):
return aqt.mw
def reviewer(self):
reviewer = self.window().reviewer
if reviewer is None:
raise Exception('reviewer is not available')
return reviewer
def collection(self):
collection = self.window().col
if collection is None:
raise Exception('collection is not available')
return collection
def decks(self):
decks = self.collection().decks
if decks is None:
raise Exception('decks are not available')
return decks
def scheduler(self):
scheduler = self.collection().sched
if scheduler is None:
raise Exception('scheduler is not available')
return scheduler
def database(self):
database = self.collection().db
if database is None:
raise Exception('database is not available')
return database
def media(self):
media = self.collection().media
if media is None:
raise Exception('media is not available')
return media
def getModel(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
return model
def getField(self, model, fieldName):
fieldMap = self.collection().models.fieldMap(model)
if fieldName not in fieldMap:
raise Exception('field was not found in {}: {}'.format(model['name'], fieldName))
return fieldMap[fieldName][1]
def getTemplate(self, model, templateName):
for ankiTemplate in model['tmpls']:
if ankiTemplate['name'] == templateName:
return ankiTemplate
raise Exception('template was not found in {}: {}'.format(model['name'], templateName))
def startEditing(self):
self.window().requireReset()
def stopEditing(self):
if self.collection() is not None:
self.window().maybeReset()
def createNote(self, note):
collection = self.collection()
model = collection.models.byName(note['modelName'])
if model is None:
raise Exception('model was not found: {}'.format(note['modelName']))
deck = collection.decks.byName(note['deckName'])
if deck is None:
raise Exception('deck was not found: {}'.format(note['deckName']))
ankiNote = anki.notes.Note(collection, model)
ankiNote.model()['did'] = deck['id']
if 'tags' in note:
ankiNote.tags = note['tags']
for name, value in note['fields'].items():
for ankiName in ankiNote.keys():
if name.lower() == ankiName.lower():
ankiNote[ankiName] = value
break
self.addMediaFromNote(ankiNote, note)
allowDuplicate = False
duplicateScope = None
duplicateScopeDeckName = None
duplicateScopeCheckChildren = False
duplicateScopeCheckAllModels = False
if 'options' in note:
options = note['options']
if 'allowDuplicate' in options:
allowDuplicate = options['allowDuplicate']
if type(allowDuplicate) is not bool:
raise Exception('option parameter "allowDuplicate" must be boolean')
if 'duplicateScope' in options:
duplicateScope = options['duplicateScope']
if 'duplicateScopeOptions' in options:
duplicateScopeOptions = options['duplicateScopeOptions']
if 'deckName' in duplicateScopeOptions:
duplicateScopeDeckName = duplicateScopeOptions['deckName']
if 'checkChildren' in duplicateScopeOptions:
duplicateScopeCheckChildren = duplicateScopeOptions['checkChildren']
if type(duplicateScopeCheckChildren) is not bool:
raise Exception('option parameter "duplicateScopeOptions.checkChildren" must be boolean')
if 'checkAllModels' in duplicateScopeOptions:
duplicateScopeCheckAllModels = duplicateScopeOptions['checkAllModels']
if type(duplicateScopeCheckAllModels) is not bool:
raise Exception('option parameter "duplicateScopeOptions.checkAllModels" must be boolean')
duplicateOrEmpty = self.isNoteDuplicateOrEmptyInScope(
ankiNote,
deck,
collection,
duplicateScope,
duplicateScopeDeckName,
duplicateScopeCheckChildren,
duplicateScopeCheckAllModels
)
if duplicateOrEmpty == 1:
raise Exception('cannot create note because it is empty')
elif duplicateOrEmpty == 2:
if allowDuplicate:
return ankiNote
raise Exception('cannot create note because it is a duplicate')
elif duplicateOrEmpty == 0:
return ankiNote
else:
raise Exception('cannot create note for unknown reason')
def isNoteDuplicateOrEmptyInScope(
self,
note,
deck,
collection,
duplicateScope,
duplicateScopeDeckName,
duplicateScopeCheckChildren,
duplicateScopeCheckAllModels
):
# Returns: 1 if first is empty, 2 if first is a duplicate, 0 otherwise.
# note.dupeOrEmpty returns if a note is a global duplicate with the specific model.
# This is used as the default check, and the rest of this function is manually
# checking if the note is a duplicate with additional options.
if duplicateScope != 'deck' and not duplicateScopeCheckAllModels:
return note.dupeOrEmpty() or 0
# Primary field for uniqueness
val = note.fields[0]
if not val.strip():
return 1
csum = anki.utils.fieldChecksum(val)
# Create dictionary of deck ids
dids = None
if duplicateScope == 'deck':
did = deck['id']
if duplicateScopeDeckName is not None:
deck2 = collection.decks.byName(duplicateScopeDeckName)
if deck2 is None:
# Invalid deck, so cannot be duplicate
return 0
did = deck2['id']
dids = {did: True}
if duplicateScopeCheckChildren:
for kv in collection.decks.children(did):
dids[kv[1]] = True
# Build query
query = 'select id from notes where csum=?'
queryArgs = [csum]
if note.id:
query += ' and id!=?'
queryArgs.append(note.id)
if not duplicateScopeCheckAllModels:
query += ' and mid=?'
queryArgs.append(note.mid)
# Search
for noteId in note.col.db.list(query, *queryArgs):
if dids is None:
# Duplicate note exists in the collection
return 2
# Validate that a card exists in one of the specified decks
for cardDeckId in note.col.db.list('select did from cards where nid=?', noteId):
if cardDeckId in dids:
return 2
# Not a duplicate
return 0
def raiseNotFoundError(self, errorMsg):
if anki_version < (2, 1, 55):
raise NotFoundError(errorMsg)
raise NotFoundError(errorMsg, None, None, None)
def getCard(self, card_id: int) -> Card:
try:
return self.collection().getCard(card_id)
except NotFoundError:
self.raiseNotFoundError('Card was not found: {}'.format(card_id))
def getNote(self, note_id: int) -> Note:
try:
return self.collection().getNote(note_id)
except NotFoundError:
self.raiseNotFoundError('Note was not found: {}'.format(note_id))
def deckStatsToJson(self, due_tree):
deckStats = {'deck_id': due_tree.deck_id,
'name': due_tree.name,
'new_count': due_tree.new_count,
'learn_count': due_tree.learn_count,
'review_count': due_tree.review_count}
if anki_version > (2, 1, 46):
# total_in_deck is not supported on lower Anki versions
deckStats['total_in_deck'] = due_tree.total_in_deck
return deckStats
def collectDeckTreeChildren(self, parent_node):
allNodes = {parent_node.deck_id: parent_node}
for child in parent_node.children:
for deckId, childNode in self.collectDeckTreeChildren(child).items():
allNodes[deckId] = childNode
return allNodes
#
# Miscellaneous
#
@util.api()
def version(self):
return util.setting('apiVersion')
@util.api()
def requestPermission(self, origin, allowed):
results = {
"permission": "denied",
}
if allowed:
results = {
"permission": "granted",
"requireApikey": bool(util.setting('apiKey')),
"version": util.setting('apiVersion')
}
elif origin in util.setting('ignoreOriginList'):
pass # defaults to denied
else: # prompt the user
msg = QMessageBox(None)
msg.setWindowTitle("A website wants to access to Anki")
msg.setText('"{}" requests permission to use Anki through AnkiConnect. Do you want to give it access?'.format(origin))
msg.setInformativeText("By granting permission, you'll allow the website to modify your collection on your behalf, including the execution of destructive actions such as deck deletion.")
msg.setWindowIcon(self.window().windowIcon())
msg.setIcon(QMessageBox.Question)
msg.setStandardButtons(QMessageBox.Yes|QMessageBox.No)
msg.setDefaultButton(QMessageBox.No)
msg.setCheckBox(QCheckBox(text='Ignore further requests from "{}"'.format(origin), parent=msg))
msg.setWindowFlags(Qt.WindowStaysOnTopHint)
pressedButton = msg.exec_()
if pressedButton == QMessageBox.Yes:
config = aqt.mw.addonManager.getConfig(__name__)
config["webCorsOriginList"] = util.setting('webCorsOriginList')
config["webCorsOriginList"].append(origin)
aqt.mw.addonManager.writeConfig(__name__, config)
results = {
"permission": "granted",
"requireApikey": bool(util.setting('apiKey')),
"version": util.setting('apiVersion')
}
# if the origin isn't an empty string, the user clicks "No", and the ignore box is checked
elif origin and pressedButton == QMessageBox.No and msg.checkBox().isChecked():
config = aqt.mw.addonManager.getConfig(__name__)
config["ignoreOriginList"] = util.setting('ignoreOriginList')
config["ignoreOriginList"].append(origin)
aqt.mw.addonManager.writeConfig(__name__, config)
# else defaults to denied
return results
@util.api()
def getProfiles(self):
return self.window().pm.profiles()
@util.api()
def loadProfile(self, name):
if name not in self.window().pm.profiles():
return False
if self.window().isVisible():
cur_profile = self.window().pm.name
if cur_profile != name:
self.window().unloadProfileAndShowProfileManager()
def waiter():
# This function waits until main window is closed
# It's needed cause sync can take quite some time
# And if we call loadProfile until sync is ended things will go wrong
if self.window().isVisible():
QTimer.singleShot(1000, waiter)
else:
self.loadProfile(name)
waiter()
else:
self.window().pm.load(name)
self.window().loadProfile()
self.window().profileDiag.closeWithoutQuitting()
return True
@util.api()
def sync(self):
self.window().onSync()
@util.api()
def multi(self, actions):
return list(map(self.handler, actions))
@util.api()
def getNumCardsReviewedToday(self):
return self.database().scalar('select count() from revlog where id > ?', (self.scheduler().dayCutoff - 86400) * 1000)
@util.api()
def getNumCardsReviewedByDay(self):
return self.database().all('select date(id/1000 - ?, "unixepoch", "localtime") as day, count() from revlog group by day order by day desc',
int(time.strftime("%H", time.localtime(self.scheduler().dayCutoff))) * 3600)
@util.api()
def getCollectionStatsHTML(self, wholeCollection=True):
stats = self.collection().stats()
stats.wholeCollection = wholeCollection
return stats.report()
#
# Decks
#
@util.api()
def deckNames(self):
return self.decks().allNames()
@util.api()
def deckNamesAndIds(self):
decks = {}
for deck in self.deckNames():
decks[deck] = self.decks().id(deck)
return decks
@util.api()
def getDecks(self, cards):
decks = {}
for card in cards:
did = self.database().scalar('select did from cards where id=?', card)
deck = self.decks().get(did)['name']
if deck in decks:
decks[deck].append(card)
else:
decks[deck] = [card]
return decks
@util.api()
def createDeck(self, deck):
try:
self.startEditing()
did = self.decks().id(deck)
finally:
self.stopEditing()
return did
@util.api()
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()
@util.api()
def deleteDecks(self, decks, cardsToo=False):
if not cardsToo:
# since f592672fa952260655881a75a2e3c921b2e23857 (2.1.28)
# (see anki$ git log "-Gassert cardsToo")
# you can't delete decks without deleting cards as well.
# however, since 62c23c6816adf912776b9378c008a52bb50b2e8d (2.1.45)
# passing cardsToo to `rem` (long deprecated) won't raise an error!
# this is dangerous, so let's raise our own exception
raise Exception("Since Anki 2.1.28 it's not possible "
"to delete decks without deleting cards as well")
try:
self.startEditing()
decks = filter(lambda d: d in self.deckNames(), decks)
for deck in decks:
did = self.decks().id(deck)
self.decks().rem(did, cardsToo=cardsToo)
finally:
self.stopEditing()
@util.api()
def getDeckConfig(self, deck):
if deck not in self.deckNames():
return False
collection = self.collection()
did = collection.decks.id(deck)
return collection.decks.confForDid(did)
@util.api()
def saveDeckConfig(self, config):
collection = self.collection()
config['id'] = str(config['id'])
config['mod'] = anki.utils.intTime()
config['usn'] = collection.usn()
if int(config['id']) not in [c['id'] for c in collection.decks.all_config()]:
return False
try:
collection.decks.save(config)
collection.decks.updateConf(config)
except:
return False
return True
@util.api()
def setDeckConfigId(self, decks, configId):
configId = int(configId)
for deck in decks:
if not deck in self.deckNames():
return False
collection = self.collection()
for deck in decks:
try:
did = str(collection.decks.id(deck))
deck_dict = aqt.mw.col.decks.decks[did]
deck_dict['conf'] = configId
collection.decks.save(deck_dict)
except:
return False
return True
@util.api()
def cloneDeckConfigId(self, name, cloneFrom='1'):
configId = int(cloneFrom)
collection = self.collection()
if configId not in [c['id'] for c in collection.decks.all_config()]:
return False
config = collection.decks.getConf(configId)
return collection.decks.confId(name, config)
@util.api()
def removeDeckConfigId(self, configId):
collection = self.collection()
if int(configId) not in [c['id'] for c in collection.decks.all_config()]:
return False
collection.decks.remConf(configId)
return True
@util.api()
def getDeckStats(self, decks):
collection = self.collection()
scheduler = self.scheduler()
responseDict = {}
deckIds = list(map(lambda d: collection.decks.id(d), decks))
allDeckNodes = self.collectDeckTreeChildren(scheduler.deck_due_tree())
for deckId, deckNode in allDeckNodes.items():
if deckId in deckIds:
responseDict[deckId] = self.deckStatsToJson(deckNode)
return responseDict
@util.api()
def storeMediaFile(self, filename, data=None, path=None, url=None, skipHash=None, deleteExisting=True):
if not (data or path or url):
raise Exception('You must provide a "data", "path", or "url" field.')
if data:
mediaData = base64.b64decode(data)
elif path:
with open(path, 'rb') as f:
mediaData = f.read()
elif url:
mediaData = util.download(url)
if skipHash is None:
skip = False
else:
m = hashlib.md5()
m.update(mediaData)
skip = skipHash == m.hexdigest()
if skip:
return None
if deleteExisting:
self.deleteMediaFile(filename)
return self.media().writeData(filename, mediaData)
@util.api()
def retrieveMediaFile(self, filename):
filename = os.path.basename(filename)
filename = unicodedata.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
@util.api()
def getMediaFilesNames(self, pattern='*'):
path = os.path.join(self.media().dir(), pattern)
return [os.path.basename(p) for p in glob.glob(path)]
@util.api()
def deleteMediaFile(self, filename):
try:
self.media().syncDelete(filename)
except AttributeError:
self.media().trash_files([filename])
@util.api()
def getMediaDirPath(self):
return os.path.abspath(self.media().dir())
@util.api()
def addNote(self, note):
ankiNote = self.createNote(note)
collection = self.collection()
self.startEditing()
nCardsAdded = collection.addNote(ankiNote)
if nCardsAdded < 1:
raise Exception('The field values you have provided would make an empty question on all cards.')
collection.autosave()
self.stopEditing()
return ankiNote.id
def addMediaFromNote(self, ankiNote, note):
audioObjectOrList = note.get('audio')
self.addMedia(ankiNote, audioObjectOrList, util.MediaType.Audio)
videoObjectOrList = note.get('video')
self.addMedia(ankiNote, videoObjectOrList, util.MediaType.Video)
pictureObjectOrList = note.get('picture')
self.addMedia(ankiNote, pictureObjectOrList, util.MediaType.Picture)
def addMedia(self, ankiNote, mediaObjectOrList, mediaType):
if mediaObjectOrList is None:
return
if isinstance(mediaObjectOrList, list):
mediaList = mediaObjectOrList
else:
mediaList = [mediaObjectOrList]
for media in mediaList:
if media is not None and len(media['fields']) > 0:
try:
mediaFilename = self.storeMediaFile(media['filename'],
data=media.get('data'),
path=media.get('path'),
url=media.get('url'),
skipHash=media.get('skipHash'),
deleteExisting=media.get('deleteExisting'))
if mediaFilename is not None:
for field in media['fields']:
if field in ankiNote:
if mediaType is util.MediaType.Picture:
ankiNote[field] += u'<img src="{}">'.format(mediaFilename)
elif mediaType is util.MediaType.Audio or mediaType is util.MediaType.Video:
ankiNote[field] += u'[sound:{}]'.format(mediaFilename)
except Exception as e:
errorMessage = str(e).replace('&', '&amp;').replace('<', '&lt;').replace('>', '&gt;')
for field in media['fields']:
if field in ankiNote:
ankiNote[field] += errorMessage
@util.api()
def canAddNote(self, note):
try:
return bool(self.createNote(note))
except:
return False
@util.api()
def updateNoteFields(self, note):
ankiNote = self.getNote(note['id'])
self.startEditing()
for name, value in note['fields'].items():
if name in ankiNote:
ankiNote[name] = value
audioObjectOrList = note.get('audio')
self.addMedia(ankiNote, audioObjectOrList, util.MediaType.Audio)
videoObjectOrList = note.get('video')
self.addMedia(ankiNote, videoObjectOrList, util.MediaType.Video)
pictureObjectOrList = note.get('picture')
self.addMedia(ankiNote, pictureObjectOrList, util.MediaType.Picture)
ankiNote.flush()
self.collection().autosave()
self.stopEditing()
@util.api()
def updateNote(self, note):
updated = False
if 'fields' in note.keys():
self.updateNoteFields(note)
updated = True
if 'tags' in note.keys():
self.updateNoteTags(note['id'], note['tags'])
updated = True
if not updated:
raise Exception('Must provide a "fields" or "tags" property.')
@util.api()
def updateNoteTags(self, note, tags):
if type(tags) == str:
tags = [tags]
if type(tags) != list or not all([type(t) == str for t in tags]):
raise Exception('Must provide tags as a list of strings')
for old_tag in self.getNoteTags(note):
self.removeTags([note], old_tag)
for new_tag in tags:
self.addTags([note], new_tag)
@util.api()
def getNoteTags(self, note):
return self.getNote(note).tags
@util.api()
def addTags(self, notes, tags, add=True):
self.startEditing()
self.collection().tags.bulkAdd(notes, tags, add)
self.stopEditing()
@util.api()
def removeTags(self, notes, tags):
return self.addTags(notes, tags, False)
@util.api()
def getTags(self):
return self.collection().tags.all()
@util.api()
def clearUnusedTags(self):
self.collection().tags.registerNotes()
@util.api()
def replaceTags(self, notes, tag_to_replace, replace_with_tag):
self.window().progress.start()
for nid in notes:
try:
note = self.getNote(nid)
except NotFoundError:
continue
if note.hasTag(tag_to_replace):
note.delTag(tag_to_replace)
note.addTag(replace_with_tag)
note.flush()
self.window().requireReset()
self.window().progress.finish()
self.window().reset()
@util.api()
def replaceTagsInAllNotes(self, tag_to_replace, replace_with_tag):
self.window().progress.start()
collection = self.collection()
for nid in collection.db.list('select id from notes'):
note = self.getNote(nid)
if note.hasTag(tag_to_replace):
note.delTag(tag_to_replace)
note.addTag(replace_with_tag)
note.flush()
self.window().requireReset()
self.window().progress.finish()
self.window().reset()
@util.api()
def setEaseFactors(self, cards, easeFactors):
couldSetEaseFactors = []
for i, card in enumerate(cards):
try:
ankiCard = self.getCard(card)
except NotFoundError:
couldSetEaseFactors.append(False)
continue
couldSetEaseFactors.append(True)
ankiCard.factor = easeFactors[i]
ankiCard.flush()
return couldSetEaseFactors
@util.api()
def setSpecificValueOfCard(self, card, keys,
newValues, warning_check=False):
if isinstance(card, list):
print("card has to be int, not list")
return False
if not isinstance(keys, list) or not isinstance(newValues, list):
print("keys and newValues have to be lists.")
return False
if len(newValues) != len(keys):
print("Invalid list lengths.")
return False
for key in keys:
if key in ["did", "id", "ivl", "lapses", "left", "mod", "nid",
"odid", "odue", "ord", "queue", "reps", "type", "usn"]:
if warning_check is False:
return False
result = []
try:
ankiCard = self.getCard(card)
for i, key in enumerate(keys):
setattr(ankiCard, key, newValues[i])
ankiCard.flush()
result.append(True)
except Exception as e:
result.append([False, str(e)])
return result
@util.api()
def getEaseFactors(self, cards):
easeFactors = []
for card in cards:
try:
ankiCard = self.getCard(card)
except NotFoundError:
easeFactors.append(None)
continue
easeFactors.append(ankiCard.factor)
return easeFactors
@util.api()
def suspend(self, cards, suspend=True):
for card in cards:
if self.suspended(card) == suspend:
cards.remove(card)
if len(cards) == 0:
return False
scheduler = self.scheduler()
self.startEditing()
if suspend:
scheduler.suspendCards(cards)
else:
scheduler.unsuspendCards(cards)
self.stopEditing()
return True
@util.api()
def unsuspend(self, cards):
self.suspend(cards, False)
@util.api()
def suspended(self, card):
card = self.getCard(card)
return card.queue == -1
@util.api()
def areSuspended(self, cards):
suspended = []
for card in cards:
try:
suspended.append(self.suspended(card))
except NotFoundError:
suspended.append(None)
return suspended
@util.api()
def areDue(self, cards):
due = []
for card in cards:
if self.findCards('cid:{} is:new'.format(card)):
due.append(True)
else:
date, ivl = self.collection().db.all('select id/1000.0, ivl from revlog where cid = ?', card)[-1]
if ivl >= -1200:
due.append(bool(self.findCards('cid:{} is:due'.format(card))))
else:
due.append(date - ivl <= time.time())
return due
@util.api()
def getIntervals(self, cards, complete=False):
intervals = []
for card in cards:
if self.findCards('cid:{} is:new'.format(card)):
intervals.append(0)
else:
interval = self.collection().db.list('select ivl from revlog where cid = ?', card)
if not complete:
interval = interval[-1]
intervals.append(interval)
return intervals
@util.api()
def modelNames(self):
return self.collection().models.allNames()
@util.api()
def createModel(self, modelName, inOrderFields, cardTemplates, css = None, isCloze = False):
# https://github.com/dae/anki/blob/b06b70f7214fb1f2ce33ba06d2b095384b81f874/anki/stdmodels.py
if len(inOrderFields) == 0:
raise Exception('Must provide at least one field for inOrderFields')
if len(cardTemplates) == 0:
raise Exception('Must provide at least one card for cardTemplates')
if modelName in self.collection().models.allNames():
raise Exception('Model name already exists')
collection = self.collection()
mm = collection.models
# Generate new Note
m = mm.new(modelName)
if isCloze:
m['type'] = MODEL_CLOZE
# Create fields and add them to Note
for field in inOrderFields:
fm = mm.newField(field)
mm.addField(m, fm)
# Add shared css to model if exists. Use default otherwise
if (css is not None):
m['css'] = css
# Generate new card template(s)
cardCount = 1
for card in cardTemplates:
cardName = 'Card ' + str(cardCount)
if 'Name' in card:
cardName = card['Name']
t = mm.newTemplate(cardName)
cardCount += 1
t['qfmt'] = card['Front']
t['afmt'] = card['Back']
mm.addTemplate(m, t)
mm.add(m)
return m
@util.api()
def modelNamesAndIds(self):
models = {}
for model in self.modelNames():
models[model] = int(self.collection().models.byName(model)['id'])
return models
@util.api()
def modelNameFromId(self, modelId):
model = self.collection().models.get(modelId)
if model is None:
raise Exception('model was not found: {}'.format(modelId))
else:
return model['name']
@util.api()
def modelFieldNames(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
else:
return [field['name'] for field in model['flds']]
@util.api()
def modelFieldDescriptions(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
else:
try:
return [field['description'] for field in model['flds']]
except KeyError:
# older versions of Anki don't have field descriptions
return ['' for field in model['flds']]
@util.api()
def modelFieldFonts(self, modelName):
model = self.getModel(modelName)
fonts = {}
for field in model['flds']:
fonts[field['name']] = {
'font': field['font'],
'size': field['size'],
}
return fonts
@util.api()
def modelFieldsOnTemplates(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
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
@util.api()
def modelTemplates(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
templates = {}
for template in model['tmpls']:
templates[template['name']] = {'Front': template['qfmt'], 'Back': template['afmt']}
return templates
@util.api()
def modelStyling(self, modelName):
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
return {'css': model['css']}
@util.api()
def updateModelTemplates(self, model):
models = self.collection().models
ankiModel = models.byName(model['name'])
if ankiModel is None:
raise Exception('model was not found: {}'.format(model['name']))
templates = model['templates']
for ankiTemplate in ankiModel['tmpls']:
template = templates.get(ankiTemplate['name'])
if template:
qfmt = template.get('Front')
if qfmt:
ankiTemplate['qfmt'] = qfmt
afmt = template.get('Back')
if afmt:
ankiTemplate['afmt'] = afmt
self.save_model(models, ankiModel)
@util.api()
def updateModelStyling(self, model):
models = self.collection().models
ankiModel = models.byName(model['name'])
if ankiModel is None:
raise Exception('model was not found: {}'.format(model['name']))
ankiModel['css'] = model['css']
self.save_model(models, ankiModel)
@util.api()
def findAndReplaceInModels(self, modelName, findText, replaceText, front=True, back=True, css=True):
if not modelName:
ankiModel = self.collection().models.allNames()
else:
model = self.collection().models.byName(modelName)
if model is None:
raise Exception('model was not found: {}'.format(modelName))
ankiModel = [modelName]
updatedModels = 0
for model in ankiModel:
model = self.collection().models.byName(model)
checkForText = False
if css and findText in model['css']:
checkForText = True
model['css'] = model['css'].replace(findText, replaceText)
for tmpls in model.get('tmpls'):
if front and findText in tmpls['qfmt']:
checkForText = True
tmpls['qfmt'] = tmpls['qfmt'].replace(findText, replaceText)
if back and findText in tmpls['afmt']:
checkForText = True
tmpls['afmt'] = tmpls['afmt'].replace(findText, replaceText)
self.save_model(self.collection().models, model)
if checkForText:
updatedModels += 1
return updatedModels
@util.api()
def modelTemplateRename(self, modelName, oldTemplateName, newTemplateName):
mm = self.collection().models
model = self.getModel(modelName)
ankiTemplate = self.getTemplate(model, oldTemplateName)
ankiTemplate['name'] = newTemplateName
self.save_model(mm, model)
@util.api()
def modelTemplateReposition(self, modelName, templateName, index):
mm = self.collection().models
model = self.getModel(modelName)
ankiTemplate = self.getTemplate(model, templateName)
mm.reposition_template(model, ankiTemplate, index)
self.save_model(mm, model)
@util.api()
def modelTemplateAdd(self, modelName, template):
# "Name", "Front", "Back" borrows from `createModel`
mm = self.collection().models
model = self.getModel(modelName)
name = template['Name']
qfmt = template['Front']
afmt = template['Back']
# updates the template if it already exists
for ankiTemplate in model['tmpls']:
if ankiTemplate['name'] == name:
ankiTemplate['qfmt'] = qfmt
ankiTemplate['afmt'] = afmt
return
ankiTemplate = mm.new_template(name)
ankiTemplate['qfmt'] = qfmt
ankiTemplate['afmt'] = afmt
mm.add_template(model, ankiTemplate)
self.save_model(mm, model)
@util.api()
def modelTemplateRemove(self, modelName, templateName):
mm = self.collection().models
model = self.getModel(modelName)
ankiTemplate = self.getTemplate(model, templateName)
mm.remove_template(model, ankiTemplate)
self.save_model(mm, model)
@util.api()
def modelFieldRename(self, modelName, oldFieldName, newFieldName):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, oldFieldName)
mm.renameField(model, field, newFieldName)
self.save_model(mm, model)
@util.api()
def modelFieldReposition(self, modelName, fieldName, index):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, fieldName)
mm.repositionField(model, field, index)
self.save_model(mm, model)
@util.api()
def modelFieldAdd(self, modelName, fieldName, index=None):
mm = self.collection().models
model = self.getModel(modelName)
# only adds the field if it doesn't already exist
fieldMap = mm.fieldMap(model)
if fieldName not in fieldMap:
field = mm.newField(fieldName)
mm.addField(model, field)
# repositions, even if the field already exists
if index is not None:
fieldMap = mm.fieldMap(model)
newField = fieldMap[fieldName][1]
mm.repositionField(model, newField, index)
self.save_model(mm, model)
@util.api()
def modelFieldRemove(self, modelName, fieldName):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, fieldName)
mm.removeField(model, field)
self.save_model(mm, model)
@util.api()
def modelFieldSetFont(self, modelName, fieldName, font):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, fieldName)
if not isinstance(font, str):
raise Exception('font should be a string: {}'.format(font))
field['font'] = font
self.save_model(mm, model)
@util.api()
def modelFieldSetFontSize(self, modelName, fieldName, fontSize):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, fieldName)
if not isinstance(fontSize, int):
raise Exception('fontSize should be an integer: {}'.format(fontSize))
field['size'] = fontSize
self.save_model(mm, model)
@util.api()
def modelFieldSetDescription(self, modelName, fieldName, description):
mm = self.collection().models
model = self.getModel(modelName)
field = self.getField(model, fieldName)
if not isinstance(description, str):
raise Exception('description should be a string: {}'.format(description))
if 'description' in field: # older versions do not have the 'description' key
field['description'] = description
self.save_model(mm, model)
return True
return False
@util.api()
def deckNameFromId(self, deckId):
deck = self.collection().decks.get(deckId)
if deck is None:
raise Exception('deck was not found: {}'.format(deckId))
return deck['name']
@util.api()
def findNotes(self, query=None):
if query is None:
return []
return list(map(int, self.collection().findNotes(query)))
@util.api()
def findCards(self, query=None):
if query is None:
return []
return list(map(int, self.collection().findCards(query)))
@util.api()
def cardsInfo(self, cards):
result = []
for cid in cards:
try:
card = self.getCard(cid)
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}
result.append({
'cardId': card.id,
'fields': fields,
'fieldOrder': card.ord,
'question': util.cardQuestion(card),
'answer': util.cardAnswer(card),
'modelName': model['name'],
'ord': card.ord,
'deckName': self.deckNameFromId(card.did),
'css': model['css'],
'factor': card.factor,
#This factor is 10 times the ease percentage,
# so an ease of 310% would be reported as 3100
'interval': card.ivl,
'note': card.nid,
'type': card.type,
'queue': card.queue,
'due': card.due,
'reps': card.reps,
'lapses': card.lapses,
'left': card.left,
'mod': card.mod,
})
except NotFoundError:
# Anki will give a NotFoundError if the card ID does not exist.
# Best behavior is probably to add an 'empty card' to the
# returned result, so that the items of the input and return
# lists correspond.
result.append({})
return result
@util.api()
def cardsModTime(self, cards):
result = []
for cid in cards:
try:
card = self.getCard(cid)
result.append({
'cardId': card.id,
'mod': card.mod,
})
except NotFoundError:
# Anki will give a NotFoundError if the card ID does not exist.
# Best behavior is probably to add an 'empty card' to the
# returned result, so that the items of the input and return
# lists correspond.
result.append({})
return result
@util.api()
def forgetCards(self, cards):
self.startEditing()
scids = anki.utils.ids2str(cards)
self.collection().db.execute('update cards set type=0, queue=0, left=0, ivl=0, due=0, odue=0, factor=0 where id in ' + scids)
self.stopEditing()
@util.api()
def relearnCards(self, cards):
self.startEditing()
scids = anki.utils.ids2str(cards)
self.collection().db.execute('update cards set type=3, queue=1 where id in ' + scids)
self.stopEditing()
@util.api()
def answerCards(self, answers):
scheduler = self.scheduler()
success = []
for answer in answers:
try:
cid = answer['cardId']
ease = answer['ease']
card = self.getCard(cid)
card.start_timer()
scheduler.answerCard(card, ease)
success.append(True)
except NotFoundError:
success.append(False)
return success
@util.api()
def cardReviews(self, deck, startID):
return self.database().all(
'select id, cid, usn, ease, ivl, lastIvl, factor, time, type from revlog ''where id>? and cid in (select id from cards where did=?)',
startID,
self.decks().id(deck)
)
@util.api()
def getReviewsOfCards(self, cards):
COLUMNS = ['id', 'usn', 'ease', 'ivl', 'lastIvl', 'factor', 'time', 'type']
QUERY = 'select {} from revlog where cid = ?'.format(', '.join(COLUMNS))
result = {}
for card in cards:
query_result = self.database().all(QUERY, card)
result[card] = [dict(zip(COLUMNS, row)) for row in query_result]
return result
@util.api()
def reloadCollection(self):
self.collection().reset()
@util.api()
def getLatestReviewID(self, deck):
return self.database().scalar(
'select max(id) from revlog where cid in (select id from cards where did=?)',
self.decks().id(deck)
) or 0
@util.api()
def insertReviews(self, reviews):
if len(reviews) > 0:
sql = 'insert into revlog(id,cid,usn,ease,ivl,lastIvl,factor,time,type) values '
for row in reviews:
sql += '(%s),' % ','.join(map(str, row))
sql = sql[:-1]
self.database().execute(sql)
@util.api()
def notesInfo(self, notes):
result = []
for nid in notes:
try:
note = self.getNote(nid)
model = note.model()
fields = {}
for info in model['flds']:
order = info['ord']
name = info['name']
fields[name] = {'value': note.fields[order], 'order': order}
result.append({
'noteId': note.id,
'tags' : note.tags,
'fields': fields,
'modelName': model['name'],
'cards': self.collection().db.list('select id from cards where nid = ? order by ord', note.id)
})
except NotFoundError:
# Anki will give a NotFoundError if the note ID does not exist.
# Best behavior is probably to add an 'empty card' to the
# returned result, so that the items of the input and return
# lists correspond.
result.append({})
return result
@util.api()
def deleteNotes(self, notes):
try:
self.collection().remNotes(notes)
finally:
self.stopEditing()
@util.api()
def removeEmptyNotes(self):
for model in self.collection().models.all():
if self.collection().models.useCount(model) == 0:
self.collection().models.rem(model)
self.window().requireReset()
@util.api()
def cardsToNotes(self, cards):
return self.collection().db.list('select distinct nid from cards where id in ' + anki.utils.ids2str(cards))
@util.api()
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 self.findCards(query)
@util.api()
def guiEditNote(self, note):
Edit.open_dialog_and_show_note_with_id(note)
@util.api()
def guiSelectedNotes(self):
(creator, instance) = aqt.dialogs._dialogs['Browser']
if instance is None:
return []
return instance.selectedNotes()
@util.api()
def guiAddCards(self, note=None):
if note is not None:
collection = self.collection()
deck = collection.decks.byName(note['deckName'])
if deck is None:
raise Exception('deck was not found: {}'.format(note['deckName']))
collection.decks.select(deck['id'])
savedMid = deck.pop('mid', None)
model = collection.models.byName(note['modelName'])
if model is None:
raise Exception('model was not found: {}'.format(note['modelName']))
collection.models.setCurrent(model)
collection.models.update(model)
ankiNote = anki.notes.Note(collection, model)
# fill out card beforehand, so we can be sure of the note id
if 'fields' in note:
for name, value in note['fields'].items():
if name in ankiNote:
ankiNote[name] = value
self.addMediaFromNote(ankiNote, note)
if 'tags' in note:
ankiNote.tags = note['tags']
def openNewWindow():
nonlocal ankiNote
addCards = aqt.dialogs.open('AddCards', self.window())
if savedMid:
deck['mid'] = savedMid
addCards.editor.set_note(ankiNote)
addCards.activateWindow()
aqt.dialogs.open('AddCards', self.window())
addCards.setAndFocusNote(addCards.editor.note)
currentWindow = aqt.dialogs._dialogs['AddCards'][1]
if currentWindow is not None:
currentWindow.closeWithCallback(openNewWindow)
else:
openNewWindow()
return ankiNote.id
else:
addCards = aqt.dialogs.open('AddCards', self.window())
addCards.activateWindow()
return addCards.editor.note.id
@util.api()
def guiReviewActive(self):
return self.reviewer().card is not None and self.window().state == 'review'
@util.api()
def guiCurrentCard(self):
if not self.guiReviewActive():
raise Exception('Gui review is not currently active.')
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}
buttonList = reviewer._answerButtonList()
return {
'cardId': card.id,
'fields': fields,
'fieldOrder': card.ord,
'question': util.cardQuestion(card),
'answer': util.cardAnswer(card),
'buttons': [b[0] for b in buttonList],
'nextReviews': [reviewer.mw.col.sched.nextIvlStr(reviewer.card, b[0], True) for b in buttonList],
'modelName': model['name'],
'deckName': self.deckNameFromId(card.did),
'css': model['css'],
'template': card.template()['name']
}
@util.api()
def guiStartCardTimer(self):
if not self.guiReviewActive():
return False
card = self.reviewer().card
if card is not None:
card.startTimer()
return True
return False
@util.api()
def guiShowQuestion(self):
if self.guiReviewActive():
self.reviewer()._showQuestion()
return True
return False
@util.api()
def guiShowAnswer(self):
if self.guiReviewActive():
self.window().reviewer._showAnswer()
return True
return False
@util.api()
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
@util.api()
def guiUndo(self):
self.window().undo()
return True
@util.api()
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
@util.api()
def guiDeckBrowser(self):
self.window().moveToState('deckBrowser')
@util.api()
def guiDeckReview(self, name):
if self.guiDeckOverview(name):
self.window().moveToState('review')
return True
return False
@util.api()
def guiExitAnki(self):
timer = QTimer()
timer.timeout.connect(self.window().close)
timer.start(1000) # 1s should be enough to allow the response to be sent.
@util.api()
def guiCheckDatabase(self):
self.window().onCheckDB()
return True
@util.api()
def addNotes(self, notes):
results = []
for note in notes:
try:
results.append(self.addNote(note))
except:
results.append(None)
return results
@util.api()
def canAddNotes(self, notes):
results = []
for note in notes:
results.append(self.canAddNote(note))
return results
@util.api()
def exportPackage(self, deck, path, includeSched=False):
collection = self.collection()
if collection is not None:
deck = collection.decks.byName(deck)
if deck is not None:
exporter = AnkiPackageExporter(collection)
exporter.did = deck['id']
exporter.includeSched = includeSched
exporter.exportInto(path)
return True
return False
@util.api()
def importPackage(self, path):
collection = self.collection()
if collection is not None:
try:
self.startEditing()
importer = AnkiPackageImporter(collection, path)
importer.run()
except:
self.stopEditing()
raise
else:
self.stopEditing()
return True
return False
@util.api()
def apiReflect(self, scopes=None, actions=None):
if not isinstance(scopes, list):
raise Exception('scopes has invalid value')
if not (actions is None or isinstance(actions, list)):
raise Exception('actions has invalid value')
cls = type(self)
scopes2 = []
result = {'scopes': scopes2}
if 'actions' in scopes:
if actions is None:
actions = dir(cls)
methodNames = []
for methodName in actions:
if not isinstance(methodName, str):
pass
method = getattr(cls, methodName, None)
if method is not None and getattr(method, 'api', False):
methodNames.append(methodName)
scopes2.append('actions')
result['actions'] = methodNames
return result
#
# Entry
#
# when run inside Anki, `__name__` would be either numeric,
# or, if installed via `link.sh`, `AnkiConnectDev`
if __name__ != "plugin":
if platform.system() == "Windows" and anki_version == (2, 1, 50):
util.patch_anki_2_1_50_having_null_stdout_on_windows()
Edit.register_with_anki()
ac = AnkiConnect()
ac.initLogging()
ac.startWebServer()
View Git Blame Copy Permalink