# Copyright: Ankitects Pty Ltd and contributors # License: GNU AGPL, version 3 or later; http://www.gnu.org/licenses/agpl.html # coding: utf-8 import os import tempfile from typing import Any from anki.collection import Collection as aopen from anki.dbproxy import emulate_named_args from anki.lang import TR, without_unicode_isolation from anki.stdmodels import _legacy_add_basic_model, get_stock_notetypes from anki.utils import is_win from tests.shared import assertException, getEmptyCol def test_create_open(): (fd, path) = tempfile.mkstemp(suffix=".anki2", prefix="test_attachNew") try: os.close(fd) os.unlink(path) except OSError: pass col = aopen(path) # for open() newPath = col.path newMod = col.mod col.close() del col # reopen col = aopen(newPath) assert col.mod == newMod col.close() # non-writeable dir if is_win: dir = "c:\root.anki2" else: dir = "/attachroot.anki2" assertException(Exception, lambda: aopen(dir)) # reuse tmp file from before, test non-writeable file os.chmod(newPath, 0) assertException(Exception, lambda: aopen(newPath)) os.chmod(newPath, 0o666) os.unlink(newPath) def test_noteAddDelete(): col = getEmptyCol() # add a note note = col.newNote() note["Front"] = "one" note["Back"] = "two" n = col.addNote(note) assert n == 1 # test multiple cards - add another template m = col.models.current() mm = col.models t = mm.new_template("Reverse") t["qfmt"] = "{{Back}}" t["afmt"] = "{{Front}}" mm.add_template(m, t) mm.save(m) assert col.card_count() == 2 # creating new notes should use both cards note = col.newNote() note["Front"] = "three" note["Back"] = "four" n = col.addNote(note) assert n == 2 assert col.card_count() == 4 # check q/a generation c0 = note.cards()[0] assert "three" in c0.question() # it should not be a duplicate assert not note.fields_check() # now let's make a duplicate note2 = col.newNote() note2["Front"] = "one" note2["Back"] = "" assert note2.fields_check() # empty first field should not be permitted either note2["Front"] = " " assert note2.fields_check() def test_fieldChecksum(): col = getEmptyCol() note = col.newNote() note["Front"] = "new" note["Back"] = "new2" col.addNote(note) assert col.db.scalar("select csum from notes") == int("c2a6b03f", 16) # changing the val should change the checksum note["Front"] = "newx" note.flush() assert col.db.scalar("select csum from notes") == int("302811ae", 16) def test_addDelTags(): col = getEmptyCol() note = col.newNote() note["Front"] = "1" col.addNote(note) note2 = col.newNote() note2["Front"] = "2" col.addNote(note2) # adding for a given id col.tags.bulk_add([note.id], "foo") note.load() note2.load() assert "foo" in note.tags assert "foo" not in note2.tags # should be canonified col.tags.bulk_add([note.id], "foo aaa") note.load() assert note.tags[0] == "aaa" assert len(note.tags) == 2 def test_timestamps(): col = getEmptyCol() assert len(col.models.all_names_and_ids()) == len(get_stock_notetypes(col)) for i in range(100): _legacy_add_basic_model(col) assert len(col.models.all_names_and_ids()) == 100 + len(get_stock_notetypes(col)) def test_furigana(): col = getEmptyCol() mm = col.models m = mm.current() # filter should work m["tmpls"][0]["qfmt"] = "{{kana:Front}}" mm.save(m) n = col.newNote() n["Front"] = "foo[abc]" col.addNote(n) c = n.cards()[0] assert c.question().endswith("abc") # and should avoid sound n["Front"] = "foo[sound:abc.mp3]" n.flush() assert "anki:play" in c.question(reload=True) # it shouldn't throw an error while people are editing m["tmpls"][0]["qfmt"] = "{{kana:}}" mm.save(m) c.question(reload=True) def test_translate(): col = getEmptyCol() no_uni = without_unicode_isolation assert ( col.tr.card_template_rendering_front_side_problem() == "Front template has a problem:" ) assert no_uni(col.tr.statistics_reviews(reviews=1)) == "1 review" assert no_uni(col.tr.statistics_reviews(reviews=2)) == "2 reviews" def test_db_named_args(capsys): sql = "select a, 2+:test5 from b where arg =:foo and x = :test5" args: tuple = tuple() kwargs = dict(test5=5, foo="blah") s, a = emulate_named_args(sql, args, kwargs) assert s == "select a, 2+?1 from b where arg =?2 and x = ?1" assert a == [5, "blah"] # swallow the warning _ = capsys.readouterr()