python-gluon 1.99.7-1 / usr / share / pyshared / gluon / contrib / memdb.py

#!/usr/bin/env python
# -*- coding: utf-8 -*-

"""
This file is part of web2py Web Framework (Copyrighted, 2007-2009).
Developed by Massimo Di Pierro <mdipierro@cs.depaul.edu> and
Robin B <robi123@gmail.com>.
License: GPL v2
"""

__all__ = ['MEMDB', 'Field']

import re
import sys
import os
import types
import datetime
import thread
import cStringIO
import csv
import copy
import gluon.validators as validators
from gluon.storage import Storage
from gluon import SQLTABLE
import random

SQL_DIALECTS = {'memcache': {
    'boolean': bool,
    'string': unicode,
    'text': unicode,
    'password': unicode,
    'blob': unicode,
    'upload': unicode,
    'integer': long,
    'double': float,
    'date': datetime.date,
    'time': datetime.time,
    'datetime': datetime.datetime,
    'id': int,
    'reference': int,
    'lower': None,
    'upper': None,
    'is null': 'IS NULL',
    'is not null': 'IS NOT NULL',
    'extract': None,
    'left join': None,
    }}


def cleanup(text):
    if re.compile('[^0-9a-zA-Z_]').findall(text):
        raise SyntaxError, \
            'Can\'t cleanup \'%s\': only [0-9a-zA-Z_] allowed in table and field names' % text
    return text


def assert_filter_fields(*fields):
    for field in fields:
        if isinstance(field, (Field, Expression)) and field.type\
             in ['text', 'blob']:
            raise SyntaxError, 'AppEngine does not index by: %s'\
                 % field.type


def dateobj_to_datetime(object):

    # convert dates,times to datetimes for AppEngine

    if isinstance(object, datetime.date):
        object = datetime.datetime(object.year, object.month,
                                   object.day)
    if isinstance(object, datetime.time):
        object = datetime.datetime(
            1970,
            1,
            1,
            object.hour,
            object.minute,
            object.second,
            object.microsecond,
            )
    return object


def sqlhtml_validators(field_type, length):
    v = {
        'boolean': [],
        'string': validators.IS_LENGTH(length),
        'text': [],
        'password': validators.IS_LENGTH(length),
        'blob': [],
        'upload': [],
        'double': validators.IS_FLOAT_IN_RANGE(-1e100, 1e100),
        'integer': validators.IS_INT_IN_RANGE(-1e100, 1e100),
        'date': validators.IS_DATE(),
        'time': validators.IS_TIME(),
        'datetime': validators.IS_DATETIME(),
        'reference': validators.IS_INT_IN_RANGE(0, 1e100),
        }
    try:
        return v[field_type[:9]]
    except KeyError:
        return []


class DALStorage(dict):

    """
    a dictionary that let you do d['a'] as well as d.a
    """

    def __getattr__(self, key):
        return self[key]

    def __setattr__(self, key, value):
        if key in self:
            raise SyntaxError, 'Object \'%s\'exists and cannot be redefined' % key
        self[key] = value

    def __repr__(self):
        return '<DALStorage ' + dict.__repr__(self) + '>'


class SQLCallableList(list):

    def __call__(self):
        return copy.copy(self)


class MEMDB(DALStorage):

    """
    an instance of this class represents a database connection

    Example::

       db=MEMDB(Client())
       db.define_table('tablename',Field('fieldname1'),
                                   Field('fieldname2'))
    """

    def __init__(self, client):
        self._dbname = 'memdb'
        self['_lastsql'] = ''
        self.tables = SQLCallableList()
        self._translator = SQL_DIALECTS['memcache']
        self.client = client

    def define_table(
        self,
        tablename,
        *fields,
        **args
        ):
        tablename = cleanup(tablename)
        if tablename in dir(self) or tablename[0] == '_':
            raise SyntaxError, 'invalid table name: %s' % tablename
        if not tablename in self.tables:
            self.tables.append(tablename)
        else:
            raise SyntaxError, 'table already defined: %s' % tablename
        t = self[tablename] = Table(self, tablename, *fields)
        t._create()
        return t

    def __call__(self, where=''):
        return Set(self, where)


class SQLALL(object):

    def __init__(self, table):
        self.table = table


class Table(DALStorage):

    """
    an instance of this class represents a database table

    Example::

        db=MEMDB(Client())
        db.define_table('users',Field('name'))
        db.users.insert(name='me')
    """

    def __init__(
        self,
        db,
        tablename,
        *fields
        ):
        self._db = db
        self._tablename = tablename
        self.fields = SQLCallableList()
        self._referenced_by = []
        fields = list(fields)
        fields.insert(0, Field('id', 'id'))
        for field in fields:
            self.fields.append(field.name)
            self[field.name] = field
            field._tablename = self._tablename
            field._table = self
            field._db = self._db
        self.ALL = SQLALL(self)

    def _create(self):
        fields = []
        myfields = {}
        for k in self.fields:
            field = self[k]
            attr = {}
            if not field.type[:9] in ['id', 'reference']:
                if field.notnull:
                    attr = dict(required=True)
            if field.type[:2] == 'id':
                continue
            if field.type[:9] == 'reference':
                referenced = field.type[10:].strip()
                if not referenced:
                    raise SyntaxError, \
                        'Table %s: reference \'%s\' to nothing!' % (self._tablename, k)
                if not referenced in self._db:
                    raise SyntaxError, \
                        'Table: table %s does not exist' % referenced
                referee = self._db[referenced]
                ftype = \
                    self._db._translator[field.type[:9]](
                        self._db[referenced]._tableobj)
                if self._tablename in referee.fields:  # ## THIS IS OK
                    raise SyntaxError, \
                        'Field: table \'%s\' has same name as a field ' \
                        'in referenced table \'%s\'' % (self._tablename, referenced)
                self._db[referenced]._referenced_by.append((self._tablename,
                        field.name))
            elif not field.type in self._db._translator\
                 or not self._db._translator[field.type]:
                raise SyntaxError, 'Field: unkown field type %s' % field.type
        self._tableobj = self._db.client
        return None

    def create(self):

        # nothing to do, here for backward compatility

        pass

    def drop(self):

        # nothing to do, here for backward compatibility

        self._db(self.id > 0).delete()

    def insert(self, **fields):
        id = self._create_id()
        if self.update(id, **fields):
            return long(id)
        else:
            return None

    def get(self, id):
        val = self._tableobj.get(self._id_to_key(id))
        if val:
            return Storage(val)
        else:
            return None

    def update(self, id, **fields):
        for field in fields:
            if not field in fields and self[field].default\
                 != None:
                fields[field] = self[field].default
            if field in fields:
                fields[field] = obj_represent(fields[field],
                        self[field].type, self._db)
        return self._tableobj.set(self._id_to_key(id), fields)

    def delete(self, id):
        return self._tableobj.delete(self._id_to_key(id))

    def _shard_key(self, shard):
        return self._id_to_key('s/%s' % shard)

    def _id_to_key(self, id):
        return '__memdb__/t/%s/k/%s' % (self._tablename, str(id))

    def _create_id(self):
        shard = random.randint(10, 99)
        shard_id = self._shard_key(shard)
        id = self._tableobj.incr(shard_id)
        if not id:
            if self._tableobj.set(shard_id, '0'):
                id = 0
            else:
                raise Exception, 'cannot set memcache'
        return long(str(shard) + str(id))

    def __str__(self):
        return self._tablename


class Expression(object):

    def __init__(
        self,
        name,
        type='string',
        db=None,
        ):
        (self.name, self.type, self._db) = (name, type, db)

    def __str__(self):
        return self.name

    def __or__(self, other):  # for use in sortby
        assert_filter_fields(self, other)
        return Expression(self.name + '|' + other.name, None, None)

    def __invert__(self):
        assert_filter_fields(self)
        return Expression('-' + self.name, self.type, None)

    # for use in Query

    def __eq__(self, value):
        return Query(self, '=', value)

    def __ne__(self, value):
        return Query(self, '!=', value)

    def __lt__(self, value):
        return Query(self, '<', value)

    def __le__(self, value):
        return Query(self, '<=', value)

    def __gt__(self, value):
        return Query(self, '>', value)

    def __ge__(self, value):
        return Query(self, '>=', value)

    # def like(self,value): return Query(self,' LIKE ',value)
    # def belongs(self,value): return Query(self,' IN ',value)
    # for use in both Query and sortby

    def __add__(self, other):
        return Expression('%s+%s' % (self, other), 'float', None)

    def __sub__(self, other):
        return Expression('%s-%s' % (self, other), 'float', None)

    def __mul__(self, other):
        return Expression('%s*%s' % (self, other), 'float', None)

    def __div__(self, other):
        return Expression('%s/%s' % (self, other), 'float', None)


class Field(Expression):

    """
    an instance of this class represents a database field

    example::

        a = Field(name, 'string', length=32, required=False,
                     default=None, requires=IS_NOT_EMPTY(), notnull=False,
                     unique=False, uploadfield=True)

    to be used as argument of GQLDB.define_table

    allowed field types:
    string, boolean, integer, double, text, blob,
    date, time, datetime, upload, password

    strings must have a length or 512 by default.
    fields should have a default or they will be required in SQLFORMs
    the requires argument are used to validate the field input in SQLFORMs

    """

    def __init__(
        self,
        fieldname,
        type='string',
        length=None,
        default=None,
        required=False,
        requires=sqlhtml_validators,
        ondelete='CASCADE',
        notnull=False,
        unique=False,
        uploadfield=True,
        ):

        self.name = cleanup(fieldname)
        if fieldname in dir(Table) or fieldname[0] == '_':
            raise SyntaxError, 'Field: invalid field name: %s' % fieldname
        if isinstance(type, Table):
            type = 'reference ' + type._tablename
        if not length:
            length = 512
        self.type = type  # 'string', 'integer'
        self.length = length  # the length of the string
        self.default = default  # default value for field
        self.required = required  # is this field required
        self.ondelete = ondelete.upper()  # this is for reference fields only
        self.notnull = notnull
        self.unique = unique
        self.uploadfield = uploadfield
        if requires == sqlhtml_validators:
            requires = sqlhtml_validators(type, length)
        elif requires is None:
            requires = []
        self.requires = requires  # list of validators

    def formatter(self, value):
        if value is None or not self.requires:
            return value
        if not isinstance(self.requires, (list, tuple)):
            requires = [self.requires]
        else:
            requires = copy.copy(self.requires)
        requires.reverse()
        for item in requires:
            if hasattr(item, 'formatter'):
                value = item.formatter(value)
        return value

    def __str__(self):
        return '%s.%s' % (self._tablename, self.name)


MEMDB.Field = Field  # ## required by gluon/globals.py session.connect


def obj_represent(object, fieldtype, db):
    if object != None:
        if fieldtype == 'date' and not isinstance(object,
                datetime.date):
            (y, m, d) = [int(x) for x in str(object).strip().split('-')]
            object = datetime.date(y, m, d)
        elif fieldtype == 'time' and not isinstance(object, datetime.time):
            time_items = [int(x) for x in str(object).strip().split(':')[:3]]
            if len(time_items) == 3:
                (h, mi, s) = time_items
            else:
                (h, mi, s) = time_items + [0]
            object = datetime.time(h, mi, s)
        elif fieldtype == 'datetime' and not isinstance(object,
                datetime.datetime):
            (y, m, d) = [int(x) for x in
                         str(object)[:10].strip().split('-')]
            time_items = [int(x) for x in
                          str(object)[11:].strip().split(':')[:3]]
            if len(time_items) == 3:
                (h, mi, s) = time_items
            else:
                (h, mi, s) = time_items + [0]
            object = datetime.datetime(
                y,
                m,
                d,
                h,
                mi,
                s,
                )
        elif fieldtype == 'integer' and not isinstance(object, long):
            object = long(object)

    return object


class QueryException:

    def __init__(self, **a):
        self.__dict__ = a


class Query(object):

    """
    A query object necessary to define a set.
    It can be stored or can be passed to GQLDB.__call__() to obtain a Set

    Example:
    query=db.users.name=='Max'
    set=db(query)
    records=set.select()
    """

    def __init__(
        self,
        left,
        op=None,
        right=None,
        ):
        if isinstance(right, (Field, Expression)):
            raise SyntaxError, \
                'Query: right side of filter must be a value or entity'
        if isinstance(left, Field) and left.name == 'id':
            if op == '=':
                self.get_one = \
                    QueryException(tablename=left._tablename,
                                   id=long(right))
                return
            else:
                raise SyntaxError, 'only equality by id is supported'
        raise SyntaxError, 'not supported'

    def __str__(self):
        return str(self.left)


class Set(object):

    """
    As Set represents a set of records in the database,
    the records are identified by the where=Query(...) object.
    normally the Set is generated by GQLDB.__call__(Query(...))

    given a set, for example
       set=db(db.users.name=='Max')
    you can:
       set.update(db.users.name='Massimo')
       set.delete() # all elements in the set
       set.select(orderby=db.users.id,groupby=db.users.name,limitby=(0,10))
    and take subsets:
       subset=set(db.users.id<5)
    """

    def __init__(self, db, where=None):
        self._db = db
        self._tables = []
        self.filters = []
        if hasattr(where, 'get_all'):
            self.where = where
            self._tables.insert(0, where.get_all)
        elif hasattr(where, 'get_one') and isinstance(where.get_one,
                QueryException):
            self.where = where.get_one
        else:

            # find out which tables are involved

            if isinstance(where, Query):
                self.filters = where.left
            self.where = where
            self._tables = [field._tablename for (field, op, val) in
                            self.filters]

    def __call__(self, where):
        if isinstance(self.where, QueryException) or isinstance(where,
                QueryException):
            raise SyntaxError, \
                'neither self.where nor where can be a QueryException instance'
        if self.where:
            return Set(self._db, self.where & where)
        else:
            return Set(self._db, where)

    def _get_table_or_raise(self):
        tablenames = list(set(self._tables))  # unique
        if len(tablenames) < 1:
            raise SyntaxError, 'Set: no tables selected'
        if len(tablenames) > 1:
            raise SyntaxError, 'Set: no join in appengine'
        return self._db[tablenames[0]]._tableobj

    def _getitem_exception(self):
        (tablename, id) = (self.where.tablename, self.where.id)
        fields = self._db[tablename].fields
        self.colnames = ['%s.%s' % (tablename, t) for t in fields]
        item = self._db[tablename].get(id)
        return (item, fields, tablename, id)

    def _select_except(self):
        (item, fields, tablename, id) = self._getitem_exception()
        if not item:
            return []
        new_item = []
        for t in fields:
            if t == 'id':
                new_item.append(long(id))
            else:
                new_item.append(getattr(item, t))
        r = [new_item]
        return Rows(self._db, r, *self.colnames)

    def select(self, *fields, **attributes):
        """
        Always returns a Rows object, even if it may be empty
        """

        if isinstance(self.where, QueryException):
            return self._select_except()
        else:
            raise SyntaxError, 'select arguments not supported'

    def count(self):
        return len(self.select())

    def delete(self):
        if isinstance(self.where, QueryException):
            (item, fields, tablename, id) = self._getitem_exception()
            if not item:
                return
            self._db[tablename].delete(id)
        else:
            raise Exception, 'deletion not implemented'

    def update(self, **update_fields):
        if isinstance(self.where, QueryException):
            (item, fields, tablename, id) = self._getitem_exception()
            if not item:
                return
            for (key, value) in update_fields.items():
                setattr(item, key, value)
            self._db[tablename].update(id, **item)
        else:
            raise Exception, 'update not implemented'


def update_record(
    t,
    s,
    id,
    a,
    ):
    item = s.get(id)
    for (key, value) in a.items():
        t[key] = value
        setattr(item, key, value)
    s.update(id, **item)


class Rows(object):

    """
    A wrapper for the return value of a select. It basically represents a table.
    It has an iterator and each row is represented as a dictionary.
    """

    # ## this class still needs some work to care for ID/OID

    def __init__(
        self,
        db,
        response,
        *colnames
        ):
        self._db = db
        self.colnames = colnames
        self.response = response

    def __len__(self):
        return len(self.response)

    def __getitem__(self, i):
        if i >= len(self.response) or i < 0:
            raise SyntaxError, 'Rows: no such row: %i' % i
        if len(self.response[0]) != len(self.colnames):
            raise SyntaxError, 'Rows: internal error'
        row = DALStorage()
        for j in xrange(len(self.colnames)):
            value = self.response[i][j]
            if isinstance(value, unicode):
                value = value.encode('utf-8')
            packed = self.colnames[j].split('.')
            try:
                (tablename, fieldname) = packed
            except:
                if not '_extra' in row:
                    row['_extra'] = DALStorage()
                row['_extra'][self.colnames[j]] = value
                continue
            table = self._db[tablename]
            field = table[fieldname]
            if not tablename in row:
                row[tablename] = DALStorage()
            if field.type[:9] == 'reference':
                referee = field.type[10:].strip()
                rid = value
                row[tablename][fieldname] = rid
            elif field.type == 'boolean' and value != None:

                # row[tablename][fieldname]=Set(self._db[referee].id==rid)

                if value == True or value == 'T':
                    row[tablename][fieldname] = True
                else:
                    row[tablename][fieldname] = False
            elif field.type == 'date' and value != None\
                 and not isinstance(value, datetime.date):
                (y, m, d) = [int(x) for x in
                             str(value).strip().split('-')]
                row[tablename][fieldname] = datetime.date(y, m, d)
            elif field.type == 'time' and value != None\
                 and not isinstance(value, datetime.time):
                time_items = [int(x) for x in
                              str(value).strip().split(':')[:3]]
                if len(time_items) == 3:
                    (h, mi, s) = time_items
                else:
                    (h, mi, s) = time_items + [0]
                row[tablename][fieldname] = datetime.time(h, mi, s)
            elif field.type == 'datetime' and value != None\
                 and not isinstance(value, datetime.datetime):
                (y, m, d) = [int(x) for x in
                             str(value)[:10].strip().split('-')]
                time_items = [int(x) for x in
                              str(value)[11:].strip().split(':')[:3]]
                if len(time_items) == 3:
                    (h, mi, s) = time_items
                else:
                    (h, mi, s) = time_items + [0]
                row[tablename][fieldname] = datetime.datetime(
                    y,
                    m,
                    d,
                    h,
                    mi,
                    s,
                    )
            else:
                row[tablename][fieldname] = value
            if fieldname == 'id':
                id = row[tablename].id
                row[tablename].update_record = lambda t = row[tablename], \
                    s = self._db[tablename], id = id, **a: update_record(t,
                        s, id, a)
                for (referee_table, referee_name) in \
                    table._referenced_by:
                    s = self._db[referee_table][referee_name]
                    row[tablename][referee_table] = Set(self._db, s
                             == id)
        if len(row.keys()) == 1:
            return row[row.keys()[0]]
        return row

    def __iter__(self):
        """
        iterator over records
        """

        for i in xrange(len(self)):
            yield self[i]

    def __str__(self):
        """
        serializes the table into a csv file
        """

        s = cStringIO.StringIO()
        writer = csv.writer(s)
        writer.writerow(self.colnames)
        c = len(self.colnames)
        for i in xrange(len(self)):
            row = [self.response[i][j] for j in xrange(c)]
            for k in xrange(c):
                if isinstance(row[k], unicode):
                    row[k] = row[k].encode('utf-8')
            writer.writerow(row)
        return s.getvalue()

    def xml(self):
        """
        serializes the table using SQLTABLE (if present)
        """

        return SQLTABLE(self).xml()


def test_all():
    """
    How to run from web2py dir:
     export PYTHONPATH=.:YOUR_PLATFORMS_APPENGINE_PATH
     python gluon/contrib/memdb.py

    Setup the UTC timezone and database stubs

    >>> import os
    >>> os.environ['TZ'] = 'UTC'
    >>> import time
    >>> if hasattr(time, 'tzset'):
    ...   time.tzset()
    >>>
    >>> from google.appengine.api import apiproxy_stub_map
    >>> from google.appengine.api.memcache import memcache_stub
    >>> apiproxy_stub_map.apiproxy = apiproxy_stub_map.APIProxyStubMap()
    >>> apiproxy_stub_map.apiproxy.RegisterStub('memcache', memcache_stub.MemcacheServiceStub())

        Create a table with all possible field types
    >>> from google.appengine.api.memcache import Client
    >>> db=MEMDB(Client())
    >>> tmp=db.define_table('users',              Field('stringf','string',length=32,required=True),              Field('booleanf','boolean',default=False),              Field('passwordf','password',notnull=True),              Field('blobf','blob'),              Field('uploadf','upload'),              Field('integerf','integer',unique=True),              Field('doublef','double',unique=True,notnull=True),              Field('datef','date',default=datetime.date.today()),              Field('timef','time'),              Field('datetimef','datetime'),              migrate='test_user.table')

   Insert a field

    >>> user_id = db.users.insert(stringf='a',booleanf=True,passwordf='p',blobf='0A',                       uploadf=None, integerf=5,doublef=3.14,                       datef=datetime.date(2001,1,1),                       timef=datetime.time(12,30,15),                       datetimef=datetime.datetime(2002,2,2,12,30,15))
    >>> user_id != None
    True

    Select all

    # >>> all = db().select(db.users.ALL)

    Drop the table

    # >>> db.users.drop()

    Select many entities

    >>> tmp = db.define_table(\"posts\",              Field('body','text'),              Field('total','integer'),              Field('created_at','datetime'))
    >>> many = 20   #2010 # more than 1000 single fetch limit (it can be slow)
    >>> few = 5
    >>> most = many - few
    >>> 0 < few < most < many
    True
    >>> for i in range(many):
    ...     f=db.posts.insert(body='',                total=i,created_at=datetime.datetime(2008, 7, 6, 14, 15, 42, i))
    >>>

    # test timezones
    >>> class TZOffset(datetime.tzinfo):
    ...   def __init__(self,offset=0):
    ...     self.offset = offset
    ...   def utcoffset(self, dt): return datetime.timedelta(hours=self.offset)
    ...   def dst(self, dt): return datetime.timedelta(0)
    ...   def tzname(self, dt): return 'UTC' + str(self.offset)
    ...
    >>> SERVER_OFFSET = -8
    >>>
    >>> stamp = datetime.datetime(2008, 7, 6, 14, 15, 42, 828201)
    >>> post_id = db.posts.insert(created_at=stamp,body='body1')
    >>> naive_stamp = db(db.posts.id==post_id).select()[0].created_at
    >>> utc_stamp=naive_stamp.replace(tzinfo=TZOffset())
    >>> server_stamp = utc_stamp.astimezone(TZOffset(SERVER_OFFSET))
    >>> stamp == naive_stamp
    True
    >>> utc_stamp == server_stamp
    True
    >>> rows = db(db.posts.id==post_id).select()
    >>> len(rows) == 1
    True
    >>> rows[0].body == 'body1'
    True
    >>> db(db.posts.id==post_id).delete()
    >>> rows = db(db.posts.id==post_id).select()
    >>> len(rows) == 0
    True

    >>> id = db.posts.insert(total='0')   # coerce str to integer
    >>> rows = db(db.posts.id==id).select()
    >>> len(rows) == 1
    True
    >>> rows[0].total == 0
    True

    Examples of insert, select, update, delete

    >>> tmp=db.define_table('person', Field('name'), Field('birth','date'), migrate='test_person.table')
    >>> marco_id=db.person.insert(name=\"Marco\",birth='2005-06-22')
    >>> person_id=db.person.insert(name=\"Massimo\",birth='1971-12-21')
    >>> me=db(db.person.id==person_id).select()[0] # test select
    >>> me.name
    'Massimo'
    >>> db(db.person.id==person_id).update(name='massimo') # test update
    >>> me = db(db.person.id==person_id).select()[0]
    >>> me.name
    'massimo'
    >>> str(me.birth)
    '1971-12-21'

    # resave date to ensure it comes back the same
    >>> me=db(db.person.id==person_id).update(birth=me.birth) # test update
    >>> me = db(db.person.id==person_id).select()[0]
    >>> me.birth
    datetime.date(1971, 12, 21)
    >>> db(db.person.id==marco_id).delete() # test delete
    >>> len(db(db.person.id==marco_id).select())
    0

    Update a single record

    >>> me.update_record(name=\"Max\")
    >>> me.name
    'Max'
    >>> me = db(db.person.id == person_id).select()[0]
    >>> me.name
    'Max'

    """

SQLField = Field
SQLTable = Table
SQLXorable = Expression
SQLQuery = Query
SQLSet = Set
SQLRows = Rows
SQLStorage = DALStorage

if __name__ == '__main__':
    import doctest
    doctest.testmod()