1173 lines
32 KiB
Python
1173 lines
32 KiB
Python
# coding: utf-8
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import time, copy
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from tests.shared import getEmptyDeck
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from anki.utils import intTime
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from anki.hooks import addHook
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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 = getEmptyDeck()
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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 = getEmptyDeck()
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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'] = u"one"; f['Back'] = u"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 == 0
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assert c.type == 0
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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 == 1
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assert c.type == 1
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assert c.due >= t
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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 = getEmptyDeck()
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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 = getEmptyDeck()
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f = d.newNote()
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f['Front'] = u"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 = getEmptyDeck()
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# add a note
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f = d.newNote()
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f['Front'] = u"one"; f['Back'] = u"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 == 1
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assert c.type == 1
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d.sched.answerCard(c, 2)
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assert c.queue == 2
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assert c.type == 2
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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 == 2
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assert c.queue == 2
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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 = 2
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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 == 2
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assert c.queue == 2
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# we should be able to remove manually, too
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c.type = 2
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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 == 2
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assert c.due == 321
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def test_learn_collapsed():
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d = getEmptyDeck()
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# add 2 notes
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f = d.newNote()
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f['Front'] = u"1"
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f = d.addNote(f)
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f = d.newNote()
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f['Front'] = u"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 = getEmptyDeck()
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# add a note
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f = d.newNote()
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f['Front'] = u"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 == 3
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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 == 1
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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 == c.type == 2
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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 == 3
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assert d.sched.counts() == (0, 0, 0)
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def test_reviews():
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d = getEmptyDeck()
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# add a note
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f = d.newNote()
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f['Front'] = u"one"; f['Back'] = u"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 = 2
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c.queue = 2
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c.due = d.sched.today - 8
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c.factor = 2500
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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 == 1
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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 == 2
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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 == 2500
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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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addHook("leech", onLeech)
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d.sched.answerCard(c, 1)
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assert hooked
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assert c.queue == -1
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c.load()
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assert c.queue == -1
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def test_button_spacing():
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d = getEmptyDeck()
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f = d.newNote()
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f['Front'] = u"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 = 2
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c.queue = 2
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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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assert ni(c, 2) == "2 days"
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assert ni(c, 3) == "3 days"
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assert ni(c, 4) == "4 days"
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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 = getEmptyDeck()
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# add a note
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f = d.newNote()
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f['Front'] = u"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 = 2
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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 = 2500
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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 = getEmptyDeck()
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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'] = u"one"; f['Back'] = u"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 = getEmptyDeck()
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f = d.newNote()
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f['Front'] = u"one"; f['Back'] = u"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 = 2
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c.ivl = 100
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c.factor = 2500
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assert ni(c, 1) == 60
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assert ni(c, 2) == 100*86400
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assert ni(c, 3) == 100*86400
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# review cards
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##################################################
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c.queue = 2
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c.ivl = 100
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c.factor = 2500
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# failing it should put it at 60s
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assert ni(c, 1) == 60
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# or 1 day if relearn is false
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d.sched._cardConf(c)['lapse']['delays']=[]
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assert ni(c, 1) == 1*86400
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# (* 100 1.2 86400)10368000.0
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assert ni(c, 2) == 10368000
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# (* 100 2.5 86400)21600000.0
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assert ni(c, 3) == 21600000
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# (* 100 2.5 1.3 86400)28080000.0
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assert ni(c, 4) == 28080000
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assert d.sched.nextIvlStr(c, 4) == "10.8 months"
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def test_misc():
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d = getEmptyDeck()
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f = d.newNote()
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f['Front'] = u"one"
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d.addNote(f)
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c = f.cards()[0]
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# burying
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d.sched.buryNote(c.nid)
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d.reset()
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assert not d.sched.getCard()
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d.sched.unburyCards()
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d.reset()
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assert d.sched.getCard()
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def test_suspend():
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d = getEmptyDeck()
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f = d.newNote()
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f['Front'] = u"one"
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d.addNote(f)
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c = f.cards()[0]
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# suspending
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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 = 2; c.queue = 2; c.flush()
|
|
d.reset()
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 1)
|
|
assert c.due >= time.time()
|
|
assert c.queue == 1
|
|
assert c.type == 2
|
|
d.sched.suspendCards([c.id])
|
|
d.sched.unsuspendCards([c.id])
|
|
c.load()
|
|
assert c.queue == 2
|
|
assert c.type == 2
|
|
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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.ivl = 100
|
|
c.type = c.queue = 2
|
|
# due in 25 days, so it's been waiting 75 days
|
|
c.due = d.sched.today + 25
|
|
c.mod = 1
|
|
c.factor = 2500
|
|
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 == 1
|
|
# 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 == 2
|
|
# 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
|
|
c2 = copy.deepcopy(c)
|
|
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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"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 == c.queue == 1
|
|
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 == c.queue == 0
|
|
assert c.due == oldDue
|
|
|
|
def test_cram_resched():
|
|
# add card
|
|
d = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"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.queue == c.type == 0
|
|
# undue reviews should also be unaffected
|
|
c.ivl = 100
|
|
c.type = c.queue = 2
|
|
c.due = d.sched.today + 25
|
|
c.factor = 2500
|
|
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_adjIvl():
|
|
d = getEmptyDeck()
|
|
d.sched._spreadRev = False
|
|
# 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)
|
|
mm.save(m)
|
|
t = d.models.newTemplate(m)
|
|
t['name'] = "f2"
|
|
t['qfmt'] = "{{Front}}"
|
|
t['afmt'] = "{{Back}}"
|
|
d.models.addTemplate(m, t)
|
|
t = d.models.newTemplate(m)
|
|
t['name'] = "f3"
|
|
t['qfmt'] = "{{Front}}"
|
|
t['afmt'] = "{{Back}}"
|
|
d.models.addTemplate(m, t)
|
|
d.models.save(m)
|
|
# create a new note; it should have 4 cards
|
|
f = d.newNote()
|
|
f['Front'] = "1"; f['Back'] = "1"
|
|
d.addNote(f)
|
|
assert d.cardCount() == 4
|
|
d.reset()
|
|
# immediately remove first; it should get ideal ivl
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 4
|
|
# with the default settings, second card should be -1
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 3
|
|
# and third +1
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 5
|
|
# fourth exceeds default settings, so gets ideal again
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 4
|
|
# try again with another note
|
|
f = d.newNote()
|
|
f['Front'] = "2"; f['Back'] = "2"
|
|
d.addNote(f)
|
|
d.reset()
|
|
# set a minSpacing of 0
|
|
conf = d.sched._cardConf(c)
|
|
conf['rev']['minSpace'] = 0
|
|
# first card gets ideal
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 4
|
|
# and second too, because it's below the threshold
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 4
|
|
# if we increase the ivl minSpace isn't needed
|
|
conf['new']['ints'][1] = 20
|
|
# ideal..
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 20
|
|
# adjusted
|
|
c = d.sched.getCard()
|
|
d.sched.answerCard(c, 3)
|
|
assert c.ivl == 19
|
|
|
|
def test_ordcycle():
|
|
d = getEmptyDeck()
|
|
# 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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"one"; f['Back'] = u"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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"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'] = u"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'] = u"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'] = u"three"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = 2
|
|
c.queue = 2
|
|
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 = getEmptyDeck()
|
|
# 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 = 2
|
|
c.queue = 2
|
|
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 == 2
|
|
# but if we wait for a second, the failed card should come back
|
|
time.sleep(1)
|
|
c = d.sched.getCard()
|
|
assert c.queue == 1
|
|
|
|
def test_collapse():
|
|
d = getEmptyDeck()
|
|
# add a note
|
|
f = d.newNote()
|
|
f['Front'] = u"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 = getEmptyDeck()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
# and one that's a child
|
|
f = d.newNote()
|
|
f['Front'] = u"two"
|
|
default1 = f.model()['did'] = d.decks.id("Default::1")
|
|
d.addNote(f)
|
|
# make it a review card
|
|
c = f.cards()[0]
|
|
c.queue = 2
|
|
c.due = 0
|
|
c.flush()
|
|
# add one more with a new deck
|
|
f = d.newNote()
|
|
f['Front'] = u"two"
|
|
foobar = f.model()['did'] = d.decks.id("foo::bar")
|
|
d.addNote(f)
|
|
# and one that's a sibling
|
|
f = d.newNote()
|
|
f['Front'] = u"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 = getEmptyDeck()
|
|
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 = getEmptyDeck()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
# and one that's a child
|
|
f = d.newNote()
|
|
f['Front'] = u"two"
|
|
default1 = f.model()['did'] = d.decks.id("Default::2")
|
|
d.addNote(f)
|
|
# and another that's higher up
|
|
f = d.newNote()
|
|
f['Front'] = u"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 = getEmptyDeck()
|
|
# add a note with default deck
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
f2 = d.newNote()
|
|
f2['Front'] = u"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'] = u"three"
|
|
d.addNote(f3)
|
|
f4 = d.newNote()
|
|
f4['Front'] = u"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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.queue = 2; c.type = 2; 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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"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 == c.type == 2
|
|
d.sched.reschedCards([c.id], 1, 1)
|
|
c.load()
|
|
assert c.due == d.sched.today+1
|
|
assert c.ivl == +1
|
|
|
|
def test_norelearn():
|
|
d = getEmptyDeck()
|
|
# add a note
|
|
f = d.newNote()
|
|
f['Front'] = u"one"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = 2
|
|
c.queue = 2
|
|
c.due = 0
|
|
c.factor = 2500
|
|
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 = getEmptyDeck()
|
|
f = d.newNote()
|
|
f['Front'] = u"one"; f['Back'] = u"two"
|
|
d.addNote(f)
|
|
c = f.cards()[0]
|
|
c.type = 2
|
|
c.queue = 2
|
|
c.ivl = 100
|
|
c.due = d.sched.today - c.ivl
|
|
c.factor = 2500
|
|
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
|