Python MySQLdb-Konverter funktionieren nicht

Ich versuche, ein ETL-Skript mit Python und MySQLdb auszuführen, aber ich bleibe bei den Ergebnissen meiner anfänglichen Extraktabfrage. Die zurückgegebenen Typen sind alle Long und Decimal, wenn Int und Float gewünscht werden. Ich habe ein paar Stunden lang nach Antworten gesucht, ohne Erfolg.

database = MySQLdb.connect(host='db',user='user',
                       passwd='password', db='db123')

database_cursor = database.cursor()

database_query = ("SELECT id, siteId, campaignId, hour, sum(impressions) AS impressions, "
"sum(clicks) AS clicks, sum(conversions) AS conversions, sum(costs/1000000) AS revenue "
"FROM database.DM_PublisherFact_Hourly WHERE time = '%s' GROUP BY siteId, campaignId;") %(today)

print database_query

database_cursor.execute(database_query)
result = database_cursor.fetchone()

database.close()

Der Rückgabewert ist ein Tupel von Longs und Decimals. Ich habe versucht, das Konvertierungswörterbuch explizit an das Connect-Objekt zu übergeben, aber kein Glück. Irgendeine Hilfe?

Hier ist der Konvertierungscode

"""MySQLdb type conversion module

This module handles all the type conversions for MySQL. If the default
type conversions aren't what you need, you can make your own. The
dictionary conversions maps some kind of type to a conversion function
which returns the corresponding value:

Key: FIELD_TYPE.* (from MySQLdb.constants)

Conversion function:

Arguments: string

Returns: Python object

Key: Python type object (from types) or class

Conversion function:

Arguments: Python object of indicated type or class AND 
           conversion dictionary

Returns: SQL literal value

Notes: Most conversion functions can ignore the dictionary, but
       it is a required parameter. It is necessary for converting
       things like sequences and instances.

Don't modify conversions if you can avoid it. Instead, make copies
(with the copy() method), modify the copies, and then pass them to
MySQL.connect().

"""

from _mysql import string_literal, escape_sequence, escape_dict, escape, NULL
from constants import FIELD_TYPE, FLAG
from times import *
import types
import array

try:
set
except NameError:
from sets import Set as set

def Bool2Str(s, d): return str(int(s))

def Str2Set(s):
values = s.split(',')
return map(str, tuple(values))

def Set2Str(s, d):
return string_literal(','.join(s), d)

def Thing2Str(s, d):
"""Convert something into a string via str()."""
return str(s)

def Unicode2Str(s, d):
"""Convert a unicode object to a string using the default encoding.
This is only used as a placeholder for the real function, which
is connection-dependent."""
return s.encode()

Long2Int = Thing2Str

def Float2Str(o, d):
return '%.15g' % o

def None2NULL(o, d):
"""Convert None to NULL."""
return NULL # duh

def Thing2Literal(o, d):

"""Convert something into a SQL string literal.  If using
MySQL-3.23 or newer, string_literal() is a method of the
_mysql.MYSQL object, and this function will be overridden with
that method when the connection is created."""

return string_literal(o, d)


def Instance2Str(o, d):

"""

Convert an Instance to a string representation.  If the __str__()
method produces acceptable output, then you don't need to add the
class to conversions; it will be handled by the default
converter. If the exact class is not found in d, it will use the
first class it can find for which o is an instance.

"""

if d.has_key(o.__class__):
    return d[o.__class__](o, d)
cl = filter(lambda x,o=o:
            type(x) is types.ClassType
            and isinstance(o, x), d.keys())
if not cl and hasattr(types, 'ObjectType'):
    cl = filter(lambda x,o=o:
                type(x) is types.TypeType
                and isinstance(o, x)
                and d[x] is not Instance2Str,
                d.keys())
if not cl:
    return d[types.StringType](o,d)
d[o.__class__] = d[cl[0]]
return d[cl[0]](o, d)

def char_array(s):
return array.array('c', s)

def array2Str(o, d):
return Thing2Literal(o.tostring(), d)

conversions = {
types.IntType: Thing2Str,
types.LongType: Long2Int,
types.FloatType: Float2Str,
types.NoneType: None2NULL,
types.TupleType: escape_sequence,
types.ListType: escape_sequence,
types.DictType: escape_dict,
types.InstanceType: Instance2Str,
array.ArrayType: array2Str,
types.StringType: Thing2Literal, # default
types.UnicodeType: Unicode2Str,
types.ObjectType: Instance2Str,
types.BooleanType: Bool2Str,
DateTimeType: DateTime2literal,
DateTimeDeltaType: DateTimeDelta2literal,
set: Set2Str,
FIELD_TYPE.TINY: int,
FIELD_TYPE.SHORT: int,
FIELD_TYPE.LONG: long,
FIELD_TYPE.FLOAT: float,
FIELD_TYPE.DOUBLE: float,
FIELD_TYPE.DECIMAL: float,
FIELD_TYPE.NEWDECIMAL: float,
FIELD_TYPE.LONGLONG: long,
FIELD_TYPE.INT24: int,
FIELD_TYPE.YEAR: int,
FIELD_TYPE.SET: Str2Set,
FIELD_TYPE.TIMESTAMP: mysql_timestamp_converter,
FIELD_TYPE.DATETIME: DateTime_or_None,
FIELD_TYPE.TIME: TimeDelta_or_None,
FIELD_TYPE.DATE: Date_or_None,
FIELD_TYPE.BLOB: [
    (FLAG.BINARY, str),
    ],
FIELD_TYPE.STRING: [
    (FLAG.BINARY, str),
    ],
FIELD_TYPE.VAR_STRING: [
    (FLAG.BINARY, str),
    ],
FIELD_TYPE.VARCHAR: [
    (FLAG.BINARY, str),
    ],
}

try:
from decimal import Decimal
conversions[FIELD_TYPE.DECIMAL] = Decimal
conversions[FIELD_TYPE.NEWDECIMAL] = Decimal
except ImportError:
pass

try:
from types import BooleanType
def Bool2Str(s, d): return str(int(s))
conversions[BooleanType] = Bool2Str
except ImportError:
pass

Antworten auf die Frage(2)

Ihre Antwort auf die Frage