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Data.py
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Data.py
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from __future__ import division, with_statement
from itertools import *
import bisect
import sqlite3
import re
from Config import Settings
class Statistic(list):
def __init__(self):
super(Statistic, self).__init__()
self.flawed_ = 0
def append(self, x, flawed=False):
bisect.insort(self, x)
if flawed:
self.flawed_ += 1
def __cmp__(self, other):
return cmp(self.median(), other.median())
def measurement(self):
return self.trimmed_average(len(self), map(lambda x: (x, 1), self))
def median(self):
l = len(self)
if l == 0:
return None
if l & 1:
return self[l // 2]
return (self[l//2] + self[l//2-1])/2.0
def flawed(self):
return self.flawed_
def trimmed_average(self, total, series):
s = 0.0
n = 0
start = 0
cutoff = total // 3
while cutoff > 0:
cutoff -= series[start][1]
start += 1
if cutoff < 0:
s += -cutoff * series[start-1][0]
n += -cutoff
end = len(series)-1
cutoff = total // 3
while cutoff > 0:
cutoff -= series[end][1]
end -= 1
if cutoff < 0:
s += -cutoff * series[end+1][0]
n += -cutoff
while start <= end:
s += series[start][1] * series[start][0]
n += series[start][1]
start += 1
return s/n
class MedianAggregate(Statistic):
def step(self, val):
self.append(val)
def finalize(self):
return self.median()
class MeanAggregate(object):
def __init__(self):
self.sum_ = 0.0
self.count_ = 0
def step(self, value, count):
self.sum_ += value * count
self.count_ += count
def finalize(self):
return self.sum_ / self.count_
class FirstAggregate(object):
def __init__(self):
self.val = None
def step(self, val):
if self.val is not None:
self.val = val
def finalize(self):
return self.val
class AmphDatabase(sqlite3.Connection):
def CreateNewDBIfMissingTables(self):
try:
self.fetchall("select * from result limit 1")
self.fetchall("select * from source limit 1")
self.fetchall("select * from statistic limit 1")
self.fetchall("select * from mistake limit 1")
self.fetchall("select * from text limit 1")
except:
self.newDB()
def __init__(self, *args):
sqlite3.Connection.__init__(self, *args)
self.setRegex("")
self.resetCounter()
self.resetTimeGroup()
sqlite3.Connection.create_function(self, "counter", 0, self.counter)
sqlite3.Connection.create_function(self, "regex_match", 1, self.match)
sqlite3.Connection.create_function(self, "abbreviate", 2, self.abbreviate)
sqlite3.Connection.create_function(self, "time_group", 2, self.time_group)
sqlite3.Connection.create_aggregate(self, "agg_median", 1, MedianAggregate)
sqlite3.Connection.create_aggregate(self, "agg_mean", 2, MeanAggregate)
sqlite3.Connection.create_aggregate(self, "agg_first", 1, FirstAggregate)
sqlite3.Connection.create_function(self, "ifelse", 3, lambda x, y, z: y if x is not None else z)
self._count = None
self.timecnt_ = None
self.regex_ = None
self.lasttime_ = None
self.CreateNewDBIfMissingTables()
def resetTimeGroup(self):
self.lasttime_ = 0.0
self.timecnt_ = 0
def time_group(self, d, x):
if abs(x-self.lasttime_) >= d:
self.timecnt_ += 1
self.lasttime_ = x
return self.timecnt_
def setRegex(self, x):
self.regex_ = re.compile(x)
def abbreviate(self, x, n):
if len(x) <= n:
return x
return x[: n-3] + "..."
def match(self, x):
if self.regex_.search(x):
return 1
return 0
def counter(self):
self._count += 1
return self._count
def resetCounter(self):
self._count = -1
def newDB(self):
sqlite3.Connection.executescript(self, """
create table source (name text, disabled integer, discount integer);
create table text (id text primary key, source integer, text text, disabled integer);
create table result (w real, text_id text, source integer, wpm real, accuracy real, viscosity real);
create table statistic (w real, data text, type integer, time real, count integer, mistakes integer, viscosity real, source integer);
create table mistake (w real, target text, mistake text, count integer);
create view text_source as
select id, s.name, text, coalesce(t.disabled, s.disabled)
from text as t left join source as s on (t.source = s.rowid);
""")
sqlite3.Connection.commit(self)
def executemany_(self, *args):
sqlite3.Connection.executemany(self, *args)
def executemany(self, *args):
sqlite3.Connection.executemany(self, *args)
#self.commit()
def fetchall(self, *args):
return sqlite3.Connection.execute(self, *args).fetchall()
def fetchone(self, sql, default, *args):
x = sqlite3.Connection.execute(self, sql, *args)
g = x.fetchone()
if g is None:
return default
return g
def getSource(self, source, lesson=None):
v = self.fetchall('select rowid from source where name = ? limit 1', (source, ))
if len(v) > 0:
sqlite3.Connection.execute(self, 'update source set disabled = NULL where rowid = ?', v[0])
sqlite3.Connection.commit(self)
return v[0][0]
sqlite3.Connection.execute(self, 'insert into source (name, discount) values (?, ?)', (source, lesson))
return self.getSource(source)
dbname = Settings.get("db_name")
# GLOBAL
DB = sqlite3.connect(dbname, 5, 0, "DEFERRED", False, AmphDatabase)