Ejemplo n.º 1
0
    def _upgradeSchema(self):
        "Alter tables prior to ORM initialization."
        db = self.db
        # speed up the upgrade
        db.execute("pragma temp_store = memory")
        db.execute("pragma cache_size = 10000")
        db.execute("pragma synchronous = off")
        # these weren't always correctly set
        db.execute("pragma page_size = 4096")
        db.execute("pragma legacy_file_format = 0")

        for mid in db.list("select id from models"):
            # ensure the ordinals are correct for each cardModel
            for c, cmid in enumerate(
                    db.list(
                        """select id from cardModels
where modelId = ? order by ordinal""", mid)):
                db.execute("update cardModels set ordinal = ? where id = ?", c,
                           cmid)
            # and fieldModel
            for c, fmid in enumerate(
                    db.list(
                        """select id from fieldModels
where modelId = ? order by ordinal""", mid)):
                db.execute("update fieldModels set ordinal = ? where id = ?",
                           c, fmid)
        # then fix ordinals numbers on cards & fields
        db.execute("""update cards set ordinal = (select ordinal from
cardModels where cardModels.id = cardModelId)""")
        db.execute("""update fields set ordinal = (select ordinal from
fieldModels where id = fieldModelId)""")

        # notes
        ###########
        # tags should have a leading and trailing space if not empty, and not
        # use commas
        db.execute("""
update facts set tags = (case
when trim(tags) == "" then ""
else " " || replace(replace(trim(tags), ",", " "), "  ", " ") || " "
end)
""")
        # pull facts into memory, so we can merge them with fields efficiently
        facts = db.all("""
select id, id, modelId, cast(created*1000 as int), cast(modified as int),
0, tags from facts order by created""")
        # build field hash
        fields = {}
        for (fid, ord, val) in db.execute("""select factId, ordinal, value
 from fields order by factId, ordinal"""):
            if fid not in fields:
                fields[fid] = []
            val = self._mungeField(val)
            fields[fid].append((ord, val))
        # build insert data and transform ids, and minimize qt's
        # bold/italics/underline cruft.
        map = {}
        data = []
        factidmap = {}
        from anki.utils import minimizeHTML
        highest = 0
        for c, row in enumerate(facts):
            oldid = row[0]
            row = list(row)
            if row[3] <= highest:
                highest = max(highest, row[3]) + 1
                row[3] = highest
            else:
                highest = row[3]
            factidmap[row[0]] = row[3]
            row[0] = row[3]
            del row[3]
            map[oldid] = row[0]
            # convert old 64bit id into a string, discarding sign bit
            row[1] = base91(abs(row[1]))
            row.append(
                minimizeHTML("\x1f".join([x[1]
                                          for x in sorted(fields[oldid])])))
            data.append(row)
        # and put the facts into the new table
        db.execute("drop table facts")
        _addSchema(db, False)
        db.executemany("insert into notes values (?,?,?,?,?,?,?,'','',0,'')",
                       data)
        db.execute("drop table fields")

        # cards
        ###########
        # we need to pull this into memory, to rewrite the creation time if
        # it's not unique and update the fact id
        rows = []
        cardidmap = {}
        highest = 0
        for row in db.execute("""
select id, cast(created*1000 as int), factId, ordinal,
cast(modified as int), 0,
(case relativeDelay
when 0 then 1
when 1 then 2
when 2 then 0 end),
(case type
when 0 then 1
when 1 then 2
when 2 then 0
else type end),
cast(due as int), cast(interval as int),
cast(factor*1000 as int), reps, noCount from cards
order by created"""):
            # find an unused time
            row = list(row)
            if row[1] <= highest:
                highest = max(highest, row[1]) + 1
                row[1] = highest
            else:
                highest = row[1]
            # rewrite fact id
            row[2] = factidmap[row[2]]
            # note id change and save all but old id
            cardidmap[row[0]] = row[1]
            rows.append(row[1:])
        # drop old table and rewrite
        db.execute("drop table cards")
        _addSchema(db, False)
        db.executemany(
            """
insert into cards values (?,?,1,?,?,?,?,?,?,?,?,?,?,0,0,0,0,"")""", rows)

        # reviewHistory -> revlog
        ###########
        # fetch the data so we can rewrite ids quickly
        r = []
        for row in db.execute("""
select
cast(time*1000 as int), cardId, 0, ease,
cast(nextInterval as int), cast(lastInterval as int),
cast(nextFactor*1000 as int), cast(min(thinkingTime, 60)*1000 as int),
yesCount from reviewHistory"""):
            row = list(row)
            # new card ids
            try:
                row[1] = cardidmap[row[1]]
            except:
                # id doesn't exist
                continue
            # no ease 0 anymore
            row[3] = row[3] or 1
            # determine type, overwriting yesCount
            # newInt = row[4]
            oldInt = row[5]
            yesCnt = row[8]
            # yesCnt included the current answer
            if row[3] > 1:
                yesCnt -= 1
            if oldInt < 1:
                # new or failed
                if yesCnt:
                    # type=relrn
                    row[8] = 2
                else:
                    # type=lrn
                    row[8] = 0
            else:
                # type=rev
                row[8] = 1
            r.append(row)
        db.executemany(
            "insert or ignore into revlog values (?,?,?,?,?,?,?,?,?)", r)
        db.execute("drop table reviewHistory")

        # deck
        ###########
        self._migrateDeckTbl()

        # tags
        ###########
        tags = {}
        for t in db.list("select tag from tags"):
            tags[t] = intTime()
        db.execute("update col set tags = ?", json.dumps(tags))
        db.execute("drop table tags")
        db.execute("drop table cardTags")

        # the rest
        ###########
        db.execute("drop table media")
        db.execute("drop table sources")
        self._migrateModels()
        _updateIndices(db)
Ejemplo n.º 2
0
    def _upgradeSchema(self):
        "Alter tables prior to ORM initialization."
        db = self.db
        # speed up the upgrade
        db.execute("pragma temp_store = memory")
        db.execute("pragma cache_size = 10000")
        db.execute("pragma synchronous = off")
        # these weren't always correctly set
        db.execute("pragma page_size = 4096")
        db.execute("pragma legacy_file_format = 0")

        # previous versions sometimes had cards with incorrect ordinals and
        # the db check didn't fix that. so we fix it here:
        db.execute("""
update cards set ordinal = (select ordinal from cardModels
where id = cards.cardModelId)""")

        # notes
        ###########
        # tags should have a leading and trailing space if not empty, and not
        # use commas
        db.execute("""
update facts set tags = (case
when trim(tags) == "" then ""
else " " || replace(replace(trim(tags), ",", " "), "  ", " ") || " "
end)
""")
        # pull facts into memory, so we can merge them with fields efficiently
        facts = db.all("""
select id, id, modelId, 1, cast(created*1000 as int), cast(modified as int),
0, tags from facts order by created""")
        # build field hash
        fields = {}
        for (fid, ord, val) in db.execute(
            "select factId, ordinal, value from fields order by factId, ordinal"):
            if fid not in fields:
                fields[fid] = []
            val = self._mungeField(val)
            fields[fid].append((ord, val))
        # build insert data and transform ids, and minimize qt's
        # bold/italics/underline cruft.
        map = {}
        data = []
        factidmap = {}
        from anki.utils import minimizeHTML
        highest = 0
        for c, row in enumerate(facts):
            oldid = row[0]
            row = list(row)
            if row[4] <= highest:
                highest = max(highest, row[4]) + 1
                row[4] = highest
            else:
                highest = row[4]
            factidmap[row[0]] = row[4]
            row[0] = row[4]
            del row[4]
            map[oldid] = row[0]
            # convert old 64bit id into a string, discarding sign bit
            row[1] = base91(abs(row[1]))
            row.append(minimizeHTML("\x1f".join([x[1] for x in sorted(fields[oldid])])))
            data.append(row)
        # and put the facts into the new table
        db.execute("drop table facts")
        _addSchema(db, False)
        db.executemany("insert into notes values (?,?,?,?,?,?,?,?,'','',0,'')", data)
        db.execute("drop table fields")

        # cards
        ###########
        # we need to pull this into memory, to rewrite the creation time if
        # it's not unique and update the fact id
        rows = []
        cardidmap = {}
        highest = 0
        for row in db.execute("""
select id, cast(created*1000 as int), factId, ordinal,
cast(modified as int), 0,
(case relativeDelay
when 0 then 1
when 1 then 2
when 2 then 0 end),
(case type
when 0 then 1
when 1 then 2
when 2 then 0
else type end),
cast(due as int), cast(interval as int),
cast(factor*1000 as int), reps, noCount from cards
order by created"""):
            # find an unused time
            row = list(row)
            if row[1] <= highest:
                highest = max(highest, row[1]) + 1
                row[1] = highest
            else:
                highest = row[1]
            # rewrite fact id
            row[2] = factidmap[row[2]]
            # note id change and save all but old id
            cardidmap[row[0]] = row[1]
            rows.append(row[1:])
        # drop old table and rewrite
        db.execute("drop table cards")
        _addSchema(db, False)
        db.executemany("""
insert into cards values (?,?,1,?,?,?,?,?,?,?,?,?,?,0,0,0,"")""",
                       rows)

        # reviewHistory -> revlog
        ###########
        # fetch the data so we can rewrite ids quickly
        r = []
        for row in db.execute("""
select
cast(time*1000 as int), cardId, 0, ease,
cast(nextInterval as int), cast(lastInterval as int),
cast(nextFactor*1000 as int), cast(min(thinkingTime, 60)*1000 as int),
yesCount from reviewHistory"""):
            row = list(row)
            # new card ids
            try:
                row[1] = cardidmap[row[1]]
            except:
                # id doesn't exist
                continue
            # no ease 0 anymore
            row[3] = row[3] or 1
            # determine type, overwriting yesCount
            newInt = row[4]
            oldInt = row[5]
            yesCnt = row[8]
            # yesCnt included the current answer
            if row[3] > 1:
                yesCnt -= 1
            if oldInt < 1:
                # new or failed
                if yesCnt:
                    # type=relrn
                    row[8] = 2
                else:
                    # type=lrn
                    row[8] = 0
            else:
                # type=rev
                row[8] = 1
            r.append(row)
        db.executemany(
            "insert or ignore into revlog values (?,?,?,?,?,?,?,?,?)", r)
        db.execute("drop table reviewHistory")

        # deck
        ###########
        self._migrateDeckTbl()

        # tags
        ###########
        tags = {}
        for t in db.list("select tag from tags"):
            tags[t] = intTime()
        db.execute("update col set tags = ?", simplejson.dumps(tags))
        db.execute("drop table tags")
        db.execute("drop table cardTags")

        # the rest
        ###########
        db.execute("drop table media")
        db.execute("drop table sources")
        self._migrateModels()
        _updateIndices(db)