b1a192b384
we can switch to NUMBER() instead in the future, but will need to update all the translations at the same time
1180 lines
31 KiB
Python
1180 lines
31 KiB
Python
# coding: utf-8
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import copy
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import time
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from anki import hooks
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from anki.consts import *
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from anki.lang import without_unicode_isolation
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from anki.utils import intTime
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from tests.shared import getEmptyCol as getEmptyColOrig
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def getEmptyCol():
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col = getEmptyColOrig()
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col.changeSchedulerVer(1)
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return col
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def test_clock():
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d = getEmptyCol()
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if (d.sched.dayCutoff - intTime()) < 10 * 60:
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raise Exception("Unit tests will fail around the day rollover.")
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def checkRevIvl(d, c, targetIvl):
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min, max = d.sched._fuzzIvlRange(targetIvl)
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return min <= c.ivl <= max
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def test_basics():
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d = getEmptyCol()
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d.reset()
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assert not d.sched.getCard()
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def test_new():
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d = getEmptyCol()
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d.reset()
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assert d.sched.newCount == 0
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# add a note
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f = d.newNote()
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f["Front"] = "one"
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f["Back"] = "two"
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d.addNote(f)
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d.reset()
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assert d.sched.newCount == 1
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# fetch it
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c = d.sched.getCard()
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assert c
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assert c.queue == QUEUE_TYPE_NEW
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assert c.type == CARD_TYPE_NEW
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# if we answer it, it should become a learn card
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t = intTime()
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d.sched.answerCard(c, 1)
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assert c.queue == QUEUE_TYPE_LRN
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assert c.type == CARD_TYPE_LRN
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assert c.due >= t
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# disabled for now, as the learn fudging makes this randomly fail
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# # the default order should ensure siblings are not seen together, and
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# # should show all cards
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# m = d.models.current(); mm = d.models
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# t = mm.newTemplate("Reverse")
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# t['qfmt'] = "{{Back}}"
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# t['afmt'] = "{{Front}}"
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# mm.addTemplate(m, t)
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# mm.save(m)
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# f = d.newNote()
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# f['Front'] = u"2"; f['Back'] = u"2"
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# d.addNote(f)
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# f = d.newNote()
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# f['Front'] = u"3"; f['Back'] = u"3"
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# d.addNote(f)
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# d.reset()
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# qs = ("2", "3", "2", "3")
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# for n in range(4):
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# c = d.sched.getCard()
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# assert qs[n] in c.q()
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# d.sched.answerCard(c, 2)
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def test_newLimits():
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d = getEmptyCol()
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# add some notes
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g2 = d.decks.id("Default::foo")
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for i in range(30):
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f = d.newNote()
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f["Front"] = str(i)
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if i > 4:
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f.model()["did"] = g2
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d.addNote(f)
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# give the child deck a different configuration
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c2 = d.decks.confId("new conf")
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d.decks.setConf(d.decks.get(g2), c2)
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d.reset()
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# both confs have defaulted to a limit of 20
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assert d.sched.newCount == 20
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# first card we get comes from parent
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c = d.sched.getCard()
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assert c.did == 1
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# limit the parent to 10 cards, meaning we get 10 in total
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conf1 = d.decks.confForDid(1)
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conf1["new"]["perDay"] = 10
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d.reset()
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assert d.sched.newCount == 10
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# if we limit child to 4, we should get 9
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conf2 = d.decks.confForDid(g2)
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conf2["new"]["perDay"] = 4
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d.reset()
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assert d.sched.newCount == 9
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def test_newBoxes():
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d = getEmptyCol()
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f = d.newNote()
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f["Front"] = "one"
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d.addNote(f)
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d.reset()
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c = d.sched.getCard()
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d.sched._cardConf(c)["new"]["delays"] = [1, 2, 3, 4, 5]
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d.sched.answerCard(c, 2)
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# should handle gracefully
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d.sched._cardConf(c)["new"]["delays"] = [1]
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d.sched.answerCard(c, 2)
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def test_learn():
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d = getEmptyCol()
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# add a note
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f = d.newNote()
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f["Front"] = "one"
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f["Back"] = "two"
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f = d.addNote(f)
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# set as a learn card and rebuild queues
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d.db.execute("update cards set queue=0, type=0")
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d.reset()
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# sched.getCard should return it, since it's due in the past
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c = d.sched.getCard()
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assert c
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d.sched._cardConf(c)["new"]["delays"] = [0.5, 3, 10]
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# fail it
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d.sched.answerCard(c, 1)
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# it should have three reps left to graduation
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assert c.left % 1000 == 3
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assert c.left // 1000 == 3
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# it should by due in 30 seconds
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t = round(c.due - time.time())
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assert t >= 25 and t <= 40
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# pass it once
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d.sched.answerCard(c, 2)
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# it should by due in 3 minutes
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assert round(c.due - time.time()) in (179, 180)
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assert c.left % 1000 == 2
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assert c.left // 1000 == 2
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# check log is accurate
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log = d.db.first("select * from revlog order by id desc")
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assert log[3] == 2
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assert log[4] == -180
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assert log[5] == -30
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# pass again
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d.sched.answerCard(c, 2)
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# it should by due in 10 minutes
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assert round(c.due - time.time()) in (599, 600)
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assert c.left % 1000 == 1
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assert c.left // 1000 == 1
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# the next pass should graduate the card
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assert c.queue == QUEUE_TYPE_LRN
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assert c.type == CARD_TYPE_LRN
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d.sched.answerCard(c, 2)
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assert c.queue == QUEUE_TYPE_REV
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assert c.type == CARD_TYPE_REV
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# should be due tomorrow, with an interval of 1
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assert c.due == d.sched.today + 1
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assert c.ivl == 1
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# or normal removal
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c.type = 0
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c.queue = 1
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d.sched.answerCard(c, 3)
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assert c.type == CARD_TYPE_REV
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assert c.queue == QUEUE_TYPE_REV
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assert checkRevIvl(d, c, 4)
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# revlog should have been updated each time
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assert d.db.scalar("select count() from revlog where type = 0") == 5
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# now failed card handling
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c.type = CARD_TYPE_REV
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c.queue = 1
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c.odue = 123
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d.sched.answerCard(c, 3)
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assert c.due == 123
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assert c.type == CARD_TYPE_REV
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assert c.queue == QUEUE_TYPE_REV
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# we should be able to remove manually, too
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c.type = CARD_TYPE_REV
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c.queue = 1
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c.odue = 321
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c.flush()
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d.sched.removeLrn()
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c.load()
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assert c.queue == QUEUE_TYPE_REV
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assert c.due == 321
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def test_learn_collapsed():
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d = getEmptyCol()
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# add 2 notes
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f = d.newNote()
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f["Front"] = "1"
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f = d.addNote(f)
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f = d.newNote()
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f["Front"] = "2"
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f = d.addNote(f)
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# set as a learn card and rebuild queues
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d.db.execute("update cards set queue=0, type=0")
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d.reset()
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# should get '1' first
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c = d.sched.getCard()
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assert c.q().endswith("1")
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# pass it so it's due in 10 minutes
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d.sched.answerCard(c, 2)
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# get the other card
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c = d.sched.getCard()
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assert c.q().endswith("2")
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# fail it so it's due in 1 minute
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d.sched.answerCard(c, 1)
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# we shouldn't get the same card again
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c = d.sched.getCard()
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assert not c.q().endswith("2")
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def test_learn_day():
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d = getEmptyCol()
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# add a note
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f = d.newNote()
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f["Front"] = "one"
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f = d.addNote(f)
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d.sched.reset()
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c = d.sched.getCard()
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d.sched._cardConf(c)["new"]["delays"] = [1, 10, 1440, 2880]
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# pass it
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d.sched.answerCard(c, 2)
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# two reps to graduate, 1 more today
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assert c.left % 1000 == 3
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assert c.left // 1000 == 1
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assert d.sched.counts() == (0, 1, 0)
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c = d.sched.getCard()
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ni = d.sched.nextIvl
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assert ni(c, 2) == 86400
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# answering it will place it in queue 3
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d.sched.answerCard(c, 2)
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assert c.due == d.sched.today + 1
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assert c.queue == CARD_TYPE_RELEARNING
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assert not d.sched.getCard()
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# for testing, move it back a day
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c.due -= 1
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c.flush()
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d.reset()
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assert d.sched.counts() == (0, 1, 0)
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c = d.sched.getCard()
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# nextIvl should work
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assert ni(c, 2) == 86400 * 2
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# if we fail it, it should be back in the correct queue
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d.sched.answerCard(c, 1)
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assert c.queue == QUEUE_TYPE_LRN
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d.undo()
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d.reset()
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c = d.sched.getCard()
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d.sched.answerCard(c, 2)
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# simulate the passing of another two days
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c.due -= 2
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c.flush()
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d.reset()
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# the last pass should graduate it into a review card
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assert ni(c, 2) == 86400
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d.sched.answerCard(c, 2)
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assert c.queue == CARD_TYPE_REV and c.type == QUEUE_TYPE_REV
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# if the lapse step is tomorrow, failing it should handle the counts
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# correctly
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c.due = 0
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c.flush()
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d.reset()
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assert d.sched.counts() == (0, 0, 1)
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d.sched._cardConf(c)["lapse"]["delays"] = [1440]
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c = d.sched.getCard()
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d.sched.answerCard(c, 1)
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assert c.queue == CARD_TYPE_RELEARNING
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assert d.sched.counts() == (0, 0, 0)
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def test_reviews():
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d = getEmptyCol()
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# add a note
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f = d.newNote()
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f["Front"] = "one"
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f["Back"] = "two"
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d.addNote(f)
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# set the card up as a review card, due 8 days ago
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c = f.cards()[0]
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c.type = CARD_TYPE_REV
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c.queue = QUEUE_TYPE_REV
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c.due = d.sched.today - 8
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c.factor = STARTING_FACTOR
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c.reps = 3
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c.lapses = 1
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c.ivl = 100
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c.startTimer()
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c.flush()
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# save it for later use as well
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cardcopy = copy.copy(c)
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# failing it should put it in the learn queue with the default options
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##################################################
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# different delay to new
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d.reset()
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d.sched._cardConf(c)["lapse"]["delays"] = [2, 20]
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d.sched.answerCard(c, 1)
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assert c.queue == QUEUE_TYPE_LRN
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# it should be due tomorrow, with an interval of 1
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assert c.odue == d.sched.today + 1
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assert c.ivl == 1
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# but because it's in the learn queue, its current due time should be in
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# the future
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assert c.due >= time.time()
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assert (c.due - time.time()) > 119
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# factor should have been decremented
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assert c.factor == 2300
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# check counters
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assert c.lapses == 2
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assert c.reps == 4
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# check ests.
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ni = d.sched.nextIvl
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assert ni(c, 1) == 120
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assert ni(c, 2) == 20 * 60
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# try again with an ease of 2 instead
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##################################################
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c = copy.copy(cardcopy)
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c.flush()
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d.sched.answerCard(c, 2)
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assert c.queue == QUEUE_TYPE_REV
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# the new interval should be (100 + 8/4) * 1.2 = 122
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assert checkRevIvl(d, c, 122)
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assert c.due == d.sched.today + c.ivl
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# factor should have been decremented
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assert c.factor == 2350
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# check counters
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assert c.lapses == 1
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assert c.reps == 4
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# ease 3
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##################################################
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c = copy.copy(cardcopy)
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c.flush()
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d.sched.answerCard(c, 3)
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# the new interval should be (100 + 8/2) * 2.5 = 260
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assert checkRevIvl(d, c, 260)
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assert c.due == d.sched.today + c.ivl
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# factor should have been left alone
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assert c.factor == STARTING_FACTOR
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# ease 4
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##################################################
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c = copy.copy(cardcopy)
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c.flush()
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d.sched.answerCard(c, 4)
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# the new interval should be (100 + 8) * 2.5 * 1.3 = 351
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assert checkRevIvl(d, c, 351)
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assert c.due == d.sched.today + c.ivl
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# factor should have been increased
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assert c.factor == 2650
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# leech handling
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##################################################
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c = copy.copy(cardcopy)
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c.lapses = 7
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c.flush()
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# steup hook
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hooked = []
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def onLeech(card):
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hooked.append(1)
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hooks.card_did_leech.append(onLeech)
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d.sched.answerCard(c, 1)
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assert hooked
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assert c.queue == QUEUE_TYPE_SUSPENDED
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c.load()
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assert c.queue == QUEUE_TYPE_SUSPENDED
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def test_button_spacing():
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d = getEmptyCol()
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f = d.newNote()
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f["Front"] = "one"
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d.addNote(f)
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# 1 day ivl review card due now
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c = f.cards()[0]
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c.type = CARD_TYPE_REV
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c.queue = QUEUE_TYPE_REV
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c.due = d.sched.today
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c.reps = 1
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c.ivl = 1
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c.startTimer()
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c.flush()
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d.reset()
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ni = d.sched.nextIvlStr
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wo = without_unicode_isolation
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assert wo(ni(c, 2)) == "2d"
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assert wo(ni(c, 3)) == "3d"
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assert wo(ni(c, 4)) == "4d"
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def test_overdue_lapse():
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# disabled in commit 3069729776990980f34c25be66410e947e9d51a2
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return
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d = getEmptyCol() # pylint: disable=unreachable
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# add a note
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f = d.newNote()
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f["Front"] = "one"
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d.addNote(f)
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# simulate a review that was lapsed and is now due for its normal review
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c = f.cards()[0]
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c.type = CARD_TYPE_REV
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c.queue = 1
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c.due = -1
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c.odue = -1
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c.factor = STARTING_FACTOR
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c.left = 2002
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c.ivl = 0
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c.flush()
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d.sched._clearOverdue = False
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# checkpoint
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d.save()
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d.sched.reset()
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assert d.sched.counts() == (0, 2, 0)
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c = d.sched.getCard()
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d.sched.answerCard(c, 3)
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# it should be due tomorrow
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assert c.due == d.sched.today + 1
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# revert to before
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d.rollback()
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d.sched._clearOverdue = True
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# with the default settings, the overdue card should be removed from the
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# learning queue
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d.sched.reset()
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assert d.sched.counts() == (0, 0, 1)
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def test_finished():
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d = getEmptyCol()
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# nothing due
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assert "Congratulations" in d.sched.finishedMsg()
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assert "limit" not in d.sched.finishedMsg()
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f = d.newNote()
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f["Front"] = "one"
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f["Back"] = "two"
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d.addNote(f)
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# have a new card
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assert "new cards available" in d.sched.finishedMsg()
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# turn it into a review
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d.reset()
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c = f.cards()[0]
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c.startTimer()
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d.sched.answerCard(c, 3)
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# nothing should be due tomorrow, as it's due in a week
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assert "Congratulations" in d.sched.finishedMsg()
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assert "limit" not in d.sched.finishedMsg()
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def test_nextIvl():
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d = getEmptyCol()
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f = d.newNote()
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f["Front"] = "one"
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f["Back"] = "two"
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d.addNote(f)
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d.reset()
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conf = d.decks.confForDid(1)
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conf["new"]["delays"] = [0.5, 3, 10]
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conf["lapse"]["delays"] = [1, 5, 9]
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c = d.sched.getCard()
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# new cards
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##################################################
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ni = d.sched.nextIvl
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assert ni(c, 1) == 30
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assert ni(c, 2) == 180
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assert ni(c, 3) == 4 * 86400
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d.sched.answerCard(c, 1)
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# cards in learning
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##################################################
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assert ni(c, 1) == 30
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assert ni(c, 2) == 180
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assert ni(c, 3) == 4 * 86400
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d.sched.answerCard(c, 2)
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assert ni(c, 1) == 30
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assert ni(c, 2) == 600
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assert ni(c, 3) == 4 * 86400
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d.sched.answerCard(c, 2)
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# normal graduation is tomorrow
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assert ni(c, 2) == 1 * 86400
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assert ni(c, 3) == 4 * 86400
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# lapsed cards
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##################################################
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c.type = CARD_TYPE_REV
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c.ivl = 100
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c.factor = STARTING_FACTOR
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assert ni(c, 1) == 60
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assert ni(c, 2) == 100 * 86400
|
|
assert ni(c, 3) == 100 * 86400
|
|
# review cards
|
|
##################################################
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.ivl = 100
|
|
c.factor = STARTING_FACTOR
|
|
# failing it should put it at 60s
|
|
assert ni(c, 1) == 60
|
|
# or 1 day if relearn is false
|
|
d.sched._cardConf(c)["lapse"]["delays"] = []
|
|
assert ni(c, 1) == 1 * 86400
|
|
# (* 100 1.2 86400)10368000.0
|
|
assert ni(c, 2) == 10368000
|
|
# (* 100 2.5 86400)21600000.0
|
|
assert ni(c, 3) == 21600000
|
|
# (* 100 2.5 1.3 86400)28080000.0
|
|
assert ni(c, 4) == 28080000
|
|
assert without_unicode_isolation(d.sched.nextIvlStr(c, 4)) == "10.8mo"
|
|
|
|
|
|
def test_misc():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
# burying
|
|
d.sched.buryNote(c.nid)
|
|
d.reset()
|
|
assert not d.sched.getCard()
|
|
d.sched.unburyCards()
|
|
d.reset()
|
|
assert d.sched.getCard()
|
|
|
|
|
|
def test_suspend():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
# suspending
|
|
d.reset()
|
|
assert d.sched.getCard()
|
|
d.sched.suspendCards([c.id])
|
|
d.reset()
|
|
assert not d.sched.getCard()
|
|
# unsuspending
|
|
d.sched.unsuspendCards([c.id])
|
|
d.reset()
|
|
assert d.sched.getCard()
|
|
# should cope with rev cards being relearnt
|
|
c.due = 0
|
|
c.ivl = 100
|
|
c.type = CARD_TYPE_REV
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.flush()
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
assert c.due >= time.time()
|
|
assert c.queue == QUEUE_TYPE_LRN
|
|
assert c.type == CARD_TYPE_REV
|
|
d.sched.suspendCards([c.id])
|
|
d.sched.unsuspendCards([c.id])
|
|
c.load()
|
|
assert c.queue == QUEUE_TYPE_REV
|
|
assert c.type == CARD_TYPE_REV
|
|
assert c.due == 1
|
|
# should cope with cards in cram decks
|
|
c.due = 1
|
|
c.flush()
|
|
cram = d.decks.newDyn("tmp")
|
|
d.sched.rebuildDyn()
|
|
c.load()
|
|
assert c.due != 1
|
|
assert c.did != 1
|
|
d.sched.suspendCards([c.id])
|
|
c.load()
|
|
assert c.due == 1
|
|
assert c.did == 1
|
|
|
|
|
|
def test_cram():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.ivl = 100
|
|
c.queue = CARD_TYPE_REV
|
|
c.type = QUEUE_TYPE_REV
|
|
# due in 25 days, so it's been waiting 75 days
|
|
c.due = d.sched.today + 25
|
|
c.mod = 1
|
|
c.factor = STARTING_FACTOR
|
|
c.startTimer()
|
|
c.flush()
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
cardcopy = copy.copy(c)
|
|
# create a dynamic deck and refresh it
|
|
did = d.decks.newDyn("Cram")
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
# should appear as new in the deck list
|
|
assert sorted(d.sched.deckDueList())[0][4] == 1
|
|
# and should appear in the counts
|
|
assert d.sched.counts() == (1, 0, 0)
|
|
# grab it and check estimates
|
|
c = d.sched.getCard()
|
|
assert d.sched.answerButtons(c) == 2
|
|
assert d.sched.nextIvl(c, 1) == 600
|
|
assert d.sched.nextIvl(c, 2) == 138 * 60 * 60 * 24
|
|
cram = d.decks.get(did)
|
|
cram["delays"] = [1, 10]
|
|
assert d.sched.answerButtons(c) == 3
|
|
assert d.sched.nextIvl(c, 1) == 60
|
|
assert d.sched.nextIvl(c, 2) == 600
|
|
assert d.sched.nextIvl(c, 3) == 138 * 60 * 60 * 24
|
|
d.sched.answerCard(c, 2)
|
|
# elapsed time was 75 days
|
|
# factor = 2.5+1.2/2 = 1.85
|
|
# int(75*1.85) = 138
|
|
assert c.ivl == 138
|
|
assert c.odue == 138
|
|
assert c.queue == QUEUE_TYPE_LRN
|
|
# should be logged as a cram rep
|
|
assert d.db.scalar("select type from revlog order by id desc limit 1") == 3
|
|
# check ivls again
|
|
assert d.sched.nextIvl(c, 1) == 60
|
|
assert d.sched.nextIvl(c, 2) == 138 * 60 * 60 * 24
|
|
assert d.sched.nextIvl(c, 3) == 138 * 60 * 60 * 24
|
|
# when it graduates, due is updated
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 2)
|
|
assert c.ivl == 138
|
|
assert c.due == 138
|
|
assert c.queue == QUEUE_TYPE_REV
|
|
# and it will have moved back to the previous deck
|
|
assert c.did == 1
|
|
# cram the deck again
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
# check ivls again - passing should be idempotent
|
|
assert d.sched.nextIvl(c, 1) == 60
|
|
assert d.sched.nextIvl(c, 2) == 600
|
|
assert d.sched.nextIvl(c, 3) == 138 * 60 * 60 * 24
|
|
d.sched.answerCard(c, 2)
|
|
assert c.ivl == 138
|
|
assert c.odue == 138
|
|
# fail
|
|
d.sched.answerCard(c, 1)
|
|
assert d.sched.nextIvl(c, 1) == 60
|
|
assert d.sched.nextIvl(c, 2) == 600
|
|
assert d.sched.nextIvl(c, 3) == 86400
|
|
# delete the deck, returning the card mid-study
|
|
d.decks.rem(d.decks.selected())
|
|
assert len(d.sched.deckDueList()) == 1
|
|
c.load()
|
|
assert c.ivl == 1
|
|
assert c.due == d.sched.today + 1
|
|
# make it due
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
c.due = -5
|
|
c.ivl = 100
|
|
c.flush()
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 1)
|
|
# cram again
|
|
did = d.decks.newDyn("Cram")
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 1)
|
|
c.load()
|
|
assert d.sched.answerButtons(c) == 4
|
|
# add a sibling so we can test minSpace, etc
|
|
c.col = None
|
|
c2 = copy.deepcopy(c)
|
|
c2.col = c.col = d
|
|
c2.id = 123
|
|
c2.ord = 1
|
|
c2.due = 325
|
|
c2.col = c.col
|
|
c2.flush()
|
|
# should be able to answer it
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 4)
|
|
# it should have been moved back to the original deck
|
|
assert c.did == 1
|
|
|
|
|
|
def test_cram_rem():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
oldDue = f.cards()[0].due
|
|
did = d.decks.newDyn("Cram")
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 2)
|
|
# answering the card will put it in the learning queue
|
|
assert c.type == CARD_TYPE_LRN and c.queue == QUEUE_TYPE_LRN
|
|
assert c.due != oldDue
|
|
# if we terminate cramming prematurely it should be set back to new
|
|
d.sched.emptyDyn(did)
|
|
c.load()
|
|
assert c.type == CARD_TYPE_NEW and c.queue == QUEUE_TYPE_NEW
|
|
assert c.due == oldDue
|
|
|
|
|
|
def test_cram_resched():
|
|
# add card
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
# cram deck
|
|
did = d.decks.newDyn("Cram")
|
|
cram = d.decks.get(did)
|
|
cram["resched"] = False
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
# graduate should return it to new
|
|
c = d.sched.getCard()
|
|
ni = d.sched.nextIvl
|
|
assert ni(c, 1) == 60
|
|
assert ni(c, 2) == 600
|
|
assert ni(c, 3) == 0
|
|
assert d.sched.nextIvlStr(c, 3) == "(end)"
|
|
d.sched.answerCard(c, 3)
|
|
assert c.type == CARD_TYPE_NEW and c.queue == QUEUE_TYPE_NEW
|
|
# undue reviews should also be unaffected
|
|
c.ivl = 100
|
|
c.queue = CARD_TYPE_REV
|
|
c.type = QUEUE_TYPE_REV
|
|
c.due = d.sched.today + 25
|
|
c.factor = STARTING_FACTOR
|
|
c.flush()
|
|
cardcopy = copy.copy(c)
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
assert ni(c, 1) == 600
|
|
assert ni(c, 2) == 0
|
|
assert ni(c, 3) == 0
|
|
d.sched.answerCard(c, 2)
|
|
assert c.ivl == 100
|
|
assert c.due == d.sched.today + 25
|
|
# check failure too
|
|
c = cardcopy
|
|
c.flush()
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
d.sched.emptyDyn(did)
|
|
c.load()
|
|
assert c.ivl == 100
|
|
assert c.due == d.sched.today + 25
|
|
# fail+grad early
|
|
c = cardcopy
|
|
c.flush()
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
d.sched.answerCard(c, 3)
|
|
d.sched.emptyDyn(did)
|
|
c.load()
|
|
assert c.ivl == 100
|
|
assert c.due == d.sched.today + 25
|
|
# due cards - pass
|
|
c = cardcopy
|
|
c.due = -25
|
|
c.flush()
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
d.sched.emptyDyn(did)
|
|
c.load()
|
|
assert c.ivl == 100
|
|
assert c.due == -25
|
|
# fail
|
|
c = cardcopy
|
|
c.due = -25
|
|
c.flush()
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
d.sched.emptyDyn(did)
|
|
c.load()
|
|
assert c.ivl == 100
|
|
assert c.due == -25
|
|
# fail with normal grad
|
|
c = cardcopy
|
|
c.due = -25
|
|
c.flush()
|
|
d.sched.rebuildDyn(did)
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
d.sched.answerCard(c, 3)
|
|
c.load()
|
|
assert c.ivl == 100
|
|
assert c.due == -25
|
|
# lapsed card pulled into cram
|
|
# d.sched._cardConf(c)['lapse']['mult']=0.5
|
|
# d.sched.answerCard(c, 1)
|
|
# d.sched.rebuildDyn(did)
|
|
# d.reset()
|
|
# c = d.sched.getCard()
|
|
# d.sched.answerCard(c, 2)
|
|
# print c.__dict__
|
|
|
|
|
|
def test_ordcycle():
|
|
d = getEmptyCol()
|
|
# add two more templates and set second active
|
|
m = d.models.current()
|
|
mm = d.models
|
|
t = mm.newTemplate("Reverse")
|
|
t["qfmt"] = "{{Back}}"
|
|
t["afmt"] = "{{Front}}"
|
|
mm.addTemplate(m, t)
|
|
t = mm.newTemplate("f2")
|
|
t["qfmt"] = "{{Front}}"
|
|
t["afmt"] = "{{Back}}"
|
|
mm.addTemplate(m, t)
|
|
mm.save(m)
|
|
# create a new note; it should have 3 cards
|
|
f = d.newNote()
|
|
f["Front"] = "1"
|
|
f["Back"] = "1"
|
|
d.addNote(f)
|
|
assert d.cardCount() == 3
|
|
d.reset()
|
|
# ordinals should arrive in order
|
|
assert d.sched.getCard().ord == 0
|
|
assert d.sched.getCard().ord == 1
|
|
assert d.sched.getCard().ord == 2
|
|
|
|
|
|
def test_counts_idx():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
f["Back"] = "two"
|
|
d.addNote(f)
|
|
d.reset()
|
|
assert d.sched.counts() == (1, 0, 0)
|
|
c = d.sched.getCard()
|
|
# counter's been decremented but idx indicates 1
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
assert d.sched.countIdx(c) == 0
|
|
# answer to move to learn queue
|
|
d.sched.answerCard(c, 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
# fetching again will decrement the count
|
|
c = d.sched.getCard()
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
assert d.sched.countIdx(c) == 1
|
|
# answering should add it back again
|
|
d.sched.answerCard(c, 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
|
|
|
|
def test_repCounts():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
d.reset()
|
|
# lrnReps should be accurate on pass/fail
|
|
assert d.sched.counts() == (1, 0, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 2)
|
|
assert d.sched.counts() == (0, 1, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 2)
|
|
assert d.sched.counts() == (0, 1, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 2)
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
f = d.newNote()
|
|
f["Front"] = "two"
|
|
d.addNote(f)
|
|
d.reset()
|
|
# initial pass should be correct too
|
|
d.sched.answerCard(d.sched.getCard(), 2)
|
|
assert d.sched.counts() == (0, 1, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 1)
|
|
assert d.sched.counts() == (0, 2, 0)
|
|
d.sched.answerCard(d.sched.getCard(), 3)
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
# immediate graduate should work
|
|
f = d.newNote()
|
|
f["Front"] = "three"
|
|
d.addNote(f)
|
|
d.reset()
|
|
d.sched.answerCard(d.sched.getCard(), 3)
|
|
assert d.sched.counts() == (0, 0, 0)
|
|
# and failing a review should too
|
|
f = d.newNote()
|
|
f["Front"] = "three"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = CARD_TYPE_REV
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.due = d.sched.today
|
|
c.flush()
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 1)
|
|
d.sched.answerCard(d.sched.getCard(), 1)
|
|
assert d.sched.counts() == (0, 1, 0)
|
|
|
|
|
|
def test_timing():
|
|
d = getEmptyCol()
|
|
# add a few review cards, due today
|
|
for i in range(5):
|
|
f = d.newNote()
|
|
f["Front"] = "num" + str(i)
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = CARD_TYPE_REV
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.due = 0
|
|
c.flush()
|
|
# fail the first one
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
# set a a fail delay of 1 second so we don't have to wait
|
|
d.sched._cardConf(c)["lapse"]["delays"][0] = 1 / 60.0
|
|
d.sched.answerCard(c, 1)
|
|
# the next card should be another review
|
|
c = d.sched.getCard()
|
|
assert c.queue == QUEUE_TYPE_REV
|
|
# but if we wait for a second, the failed card should come back
|
|
orig_time = time.time
|
|
|
|
def adjusted_time():
|
|
return orig_time() + 1
|
|
|
|
time.time = adjusted_time
|
|
c = d.sched.getCard()
|
|
assert c.queue == QUEUE_TYPE_LRN
|
|
time.time = orig_time
|
|
|
|
|
|
def test_collapse():
|
|
d = getEmptyCol()
|
|
# add a note
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
d.reset()
|
|
# test collapsing
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert not d.sched.getCard()
|
|
|
|
|
|
def test_deckDue():
|
|
d = getEmptyCol()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
# and one that's a child
|
|
f = d.newNote()
|
|
f["Front"] = "two"
|
|
default1 = f.model()["did"] = d.decks.id("Default::1")
|
|
d.addNote(f)
|
|
# make it a review card
|
|
c = f.cards()[0]
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.due = 0
|
|
c.flush()
|
|
# add one more with a new deck
|
|
f = d.newNote()
|
|
f["Front"] = "two"
|
|
foobar = f.model()["did"] = d.decks.id("foo::bar")
|
|
d.addNote(f)
|
|
# and one that's a sibling
|
|
f = d.newNote()
|
|
f["Front"] = "three"
|
|
foobaz = f.model()["did"] = d.decks.id("foo::baz")
|
|
d.addNote(f)
|
|
d.reset()
|
|
assert len(d.decks.decks) == 5
|
|
cnts = d.sched.deckDueList()
|
|
assert cnts[0] == ["Default", 1, 0, 0, 1]
|
|
assert cnts[1] == ["Default::1", default1, 1, 0, 0]
|
|
assert cnts[2] == ["foo", d.decks.id("foo"), 0, 0, 0]
|
|
assert cnts[3] == ["foo::bar", foobar, 0, 0, 1]
|
|
assert cnts[4] == ["foo::baz", foobaz, 0, 0, 1]
|
|
tree = d.sched.deckDueTree()
|
|
assert tree[0][0] == "Default"
|
|
# sum of child and parent
|
|
assert tree[0][1] == 1
|
|
assert tree[0][2] == 1
|
|
assert tree[0][4] == 1
|
|
# child count is just review
|
|
assert tree[0][5][0][0] == "1"
|
|
assert tree[0][5][0][1] == default1
|
|
assert tree[0][5][0][2] == 1
|
|
assert tree[0][5][0][4] == 0
|
|
# code should not fail if a card has an invalid deck
|
|
c.did = 12345
|
|
c.flush()
|
|
d.sched.deckDueList()
|
|
d.sched.deckDueTree()
|
|
|
|
|
|
def test_deckTree():
|
|
d = getEmptyCol()
|
|
d.decks.id("new::b::c")
|
|
d.decks.id("new2")
|
|
# new should not appear twice in tree
|
|
names = [x[0] for x in d.sched.deckDueTree()]
|
|
names.remove("new")
|
|
assert "new" not in names
|
|
|
|
|
|
def test_deckFlow():
|
|
d = getEmptyCol()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
# and one that's a child
|
|
f = d.newNote()
|
|
f["Front"] = "two"
|
|
default1 = f.model()["did"] = d.decks.id("Default::2")
|
|
d.addNote(f)
|
|
# and another that's higher up
|
|
f = d.newNote()
|
|
f["Front"] = "three"
|
|
default1 = f.model()["did"] = d.decks.id("Default::1")
|
|
d.addNote(f)
|
|
# should get top level one first, then ::1, then ::2
|
|
d.reset()
|
|
assert d.sched.counts() == (3, 0, 0)
|
|
for i in "one", "three", "two":
|
|
c = d.sched.getCard()
|
|
assert c.note()["Front"] == i
|
|
d.sched.answerCard(c, 2)
|
|
|
|
|
|
def test_reorder():
|
|
d = getEmptyCol()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
f2 = d.newNote()
|
|
f2["Front"] = "two"
|
|
d.addNote(f2)
|
|
assert f2.cards()[0].due == 2
|
|
found = False
|
|
# 50/50 chance of being reordered
|
|
for i in range(20):
|
|
d.sched.randomizeCards(1)
|
|
if f.cards()[0].due != f.id:
|
|
found = True
|
|
break
|
|
assert found
|
|
d.sched.orderCards(1)
|
|
assert f.cards()[0].due == 1
|
|
# shifting
|
|
f3 = d.newNote()
|
|
f3["Front"] = "three"
|
|
d.addNote(f3)
|
|
f4 = d.newNote()
|
|
f4["Front"] = "four"
|
|
d.addNote(f4)
|
|
assert f.cards()[0].due == 1
|
|
assert f2.cards()[0].due == 2
|
|
assert f3.cards()[0].due == 3
|
|
assert f4.cards()[0].due == 4
|
|
d.sched.sortCards([f3.cards()[0].id, f4.cards()[0].id], start=1, shift=True)
|
|
assert f.cards()[0].due == 3
|
|
assert f2.cards()[0].due == 4
|
|
assert f3.cards()[0].due == 1
|
|
assert f4.cards()[0].due == 2
|
|
|
|
|
|
def test_forget():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.type = CARD_TYPE_REV
|
|
c.ivl = 100
|
|
c.due = 0
|
|
c.flush()
|
|
d.reset()
|
|
assert d.sched.counts() == (0, 0, 1)
|
|
d.sched.forgetCards([c.id])
|
|
d.reset()
|
|
assert d.sched.counts() == (1, 0, 0)
|
|
|
|
|
|
def test_resched():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
d.sched.reschedCards([c.id], 0, 0)
|
|
c.load()
|
|
assert c.due == d.sched.today
|
|
assert c.ivl == 1
|
|
assert c.queue == CARD_TYPE_REV and c.type == QUEUE_TYPE_REV
|
|
d.sched.reschedCards([c.id], 1, 1)
|
|
c.load()
|
|
assert c.due == d.sched.today + 1
|
|
assert c.ivl == +1
|
|
|
|
|
|
def test_norelearn():
|
|
d = getEmptyCol()
|
|
# add a note
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = CARD_TYPE_REV
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.due = 0
|
|
c.factor = STARTING_FACTOR
|
|
c.reps = 3
|
|
c.lapses = 1
|
|
c.ivl = 100
|
|
c.startTimer()
|
|
c.flush()
|
|
d.reset()
|
|
d.sched.answerCard(c, 1)
|
|
d.sched._cardConf(c)["lapse"]["delays"] = []
|
|
d.sched.answerCard(c, 1)
|
|
|
|
|
|
def test_failmult():
|
|
d = getEmptyCol()
|
|
f = d.newNote()
|
|
f["Front"] = "one"
|
|
f["Back"] = "two"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = CARD_TYPE_REV
|
|
c.queue = QUEUE_TYPE_REV
|
|
c.ivl = 100
|
|
c.due = d.sched.today - c.ivl
|
|
c.factor = STARTING_FACTOR
|
|
c.reps = 3
|
|
c.lapses = 1
|
|
c.startTimer()
|
|
c.flush()
|
|
d.sched._cardConf(c)["lapse"]["mult"] = 0.5
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
assert c.ivl == 50
|
|
d.sched.answerCard(c, 1)
|
|
assert c.ivl == 25
|