-# -*- encoding: utf-8 -*-
+# -*- coding: utf-8 -*-
##############################################################################
-#
-# OpenERP, Open Source Management Solution
-# Copyright (C) 2004-2008 Tiny SPRL (<http://tiny.be>). All Rights Reserved
-# $Id$
+#
+# OpenERP, Open Source Management Solution
+# Copyright (C) 2004-2009 Tiny SPRL (<http://tiny.be>).
#
# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
+# it under the terms of the GNU Affero General Public License as
+# published by the Free Software Foundation, either version 3 of the
+# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
+# GNU Affero General Public License for more details.
#
-# You should have received a copy of the GNU General Public License
-# along with this program. If not, see <http://www.gnu.org/licenses/>.
+# You should have received a copy of the GNU Affero General Public License
+# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
##############################################################################
#
import string
import netsvc
+import sys
-import psycopg
+from psycopg2 import Binary
import warnings
import tools
class _column(object):
_classic_read = True
_classic_write = True
+ _prefetch = True
_properties = False
_type = 'unknown'
_obj = None
self.read = False
self.view_load = 0
self.select = select
+ self.selectable = True
for a in args:
if args[a]:
setattr(self, a, args[a])
pass
def set(self, cr, obj, id, name, value, user=None, context=None):
- cr.execute('update '+obj._table+' set '+name+'='+self._symbol_set[0]+' where id=%d', (self._symbol_set[1](value), id))
+ cr.execute('update '+obj._table+' set '+name+'='+self._symbol_set[0]+' where id=%s', (self._symbol_set[1](value), id))
def set_memory(self, cr, obj, id, name, value, user=None, context=None):
raise Exception(_('Not implemented set_memory method !'))
def get(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
raise Exception(_('undefined get method !'))
- def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None):
- ids = obj.search(cr, uid, args+self._domain+[(name, 'ilike', value)], offset, limit)
- res = obj.read(cr, uid, ids, [name])
+ def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, context=None):
+ ids = obj.search(cr, uid, args+self._domain+[(name, 'ilike', value)], offset, limit, context=context)
+ res = obj.read(cr, uid, ids, [name], context=context)
return [x[name] for x in res]
def search_memory(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, context=None):
class integer_big(_column):
_type = 'integer_big'
- _symbol_c = '%d'
+ _symbol_c = '%s'
_symbol_f = lambda x: int(x or 0)
_symbol_set = (_symbol_c, _symbol_f)
class integer(_column):
_type = 'integer'
- _symbol_c = '%d'
+ _symbol_c = '%s'
_symbol_f = lambda x: int(x or 0)
_symbol_set = (_symbol_c, _symbol_f)
# we need to convert the string to a unicode object to be able
# to evaluate its length (and possibly truncate it) reliably
- if isinstance(symb, str):
- u_symb = unicode(symb, 'utf8')
- elif isinstance(symb, unicode):
- u_symb = symb
- else:
- u_symb = unicode(symb)
- return u_symb.encode('utf8')[:self.size]
+ u_symb = tools.ustr(symb)
+
+ return u_symb[:self.size].encode('utf8')
class text(_column):
import __builtin__
-
class float(_column):
_type = 'float'
- _symbol_c = '%f'
+ _symbol_c = '%s'
_symbol_f = lambda x: __builtin__.float(x or 0.0)
_symbol_set = (_symbol_c, _symbol_f)
class binary(_column):
_type = 'binary'
_symbol_c = '%s'
- _symbol_f = lambda symb: symb and psycopg.Binary(symb) or None
+ _symbol_f = lambda symb: symb and Binary(symb) or None
_symbol_set = (_symbol_c, _symbol_f)
+ _symbol_get = lambda self, x: x and str(x)
_classic_read = False
+ _prefetch = False
def __init__(self, string='unknown', filters=None, **args):
_column.__init__(self, string=string, **args)
context = {}
if not values:
values = []
-
res = {}
for i in ids:
val = None
if v['id'] == i:
val = v[name]
break
- res.setdefault(i, val)
- if context.get('bin_size', False):
- res[i] = tools.human_size(val)
-
+ if context.get('bin_size', False) and val:
+ res[i] = tools.human_size(long(val))
+ else:
+ res[i] = val
return res
get = get_memory
self._table = obj_src.pool.get(self._obj)._table
if act[0] == 0:
id_new = obj.create(cr, user, act[1])
- cr.execute('update '+obj_src._table+' set '+field+'=%d where id=%d', (id_new, id))
+ cr.execute('update '+obj_src._table+' set '+field+'=%s where id=%s', (id_new, id))
else:
- cr.execute('select '+field+' from '+obj_src._table+' where id=%d', (act[0],))
+ cr.execute('select '+field+' from '+obj_src._table+' where id=%s', (act[0],))
id = cr.fetchone()[0]
obj.write(cr, user, [id], act[1], context=context)
- def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None):
- return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', 'like', value)], offset, limit)
+ def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, context=None):
+ return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', 'like', value)], offset, limit, context=context)
class many2one(_column):
_classic_read = False
_classic_write = True
_type = 'many2one'
+ _symbol_c = '%s'
+ _symbol_f = lambda x: x or None
+ _symbol_set = (_symbol_c, _symbol_f)
def __init__(self, obj, string='unknown', **args):
_column.__init__(self, string=string, **args)
self._obj = obj
- #
- # TODO: speed improvement
- #
- # name is the name of the relation field
+ def set_memory(self, cr, obj, id, field, values, user=None, context=None):
+ obj.datas.setdefault(id, {})
+ obj.datas[id][field] = values
+
def get_memory(self, cr, obj, ids, name, user=None, context=None, values=None):
result = {}
for id in ids:
for id in ids:
res.setdefault(id, '')
obj = obj.pool.get(self._obj)
+
# build a dictionary of the form {'id_of_distant_resource': name_of_distant_resource}
from orm import except_orm
try:
names = dict(obj.name_get(cr, user, filter(None, res.values()), context))
except except_orm:
names = {}
-
iids = filter(None, res.values())
- cr.execute('select id,'+obj._rec_name+' from '+obj._table+' where id in ('+','.join(map(str, iids))+')')
- for res22 in cr.fetchall():
- names[res22[0]] = res22[1]
-
+ for iiid in iids:
+ names[iiid] = '// Access Denied //'
for r in res.keys():
if res[r] and res[r] in names:
res[r] = (res[r], names[res[r]])
for act in values:
if act[0] == 0:
id_new = obj.create(cr, act[2])
- cr.execute('update '+obj_src._table+' set '+field+'=%d where id=%d', (id_new, id))
+ cr.execute('update '+obj_src._table+' set '+field+'=%s where id=%s', (id_new, id))
elif act[0] == 1:
obj.write(cr, [act[1]], act[2], context=context)
elif act[0] == 2:
- cr.execute('delete from '+self._table+' where id=%d', (act[1],))
+ cr.execute('delete from '+self._table+' where id=%s', (act[1],))
elif act[0] == 3 or act[0] == 5:
- cr.execute('update '+obj_src._table+' set '+field+'=null where id=%d', (id,))
+ cr.execute('update '+obj_src._table+' set '+field+'=null where id=%s', (id,))
elif act[0] == 4:
- cr.execute('update '+obj_src._table+' set '+field+'=%d where id=%d', (act[1], id))
+ cr.execute('update '+obj_src._table+' set '+field+'=%s where id=%s', (act[1], id))
else:
if values:
- cr.execute('update '+obj_src._table+' set '+field+'=%d where id=%d', (values, id))
+ cr.execute('update '+obj_src._table+' set '+field+'=%s where id=%s', (values, id))
else:
- cr.execute('update '+obj_src._table+' set '+field+'=null where id=%d', (id,))
+ cr.execute('update '+obj_src._table+' set '+field+'=null where id=%s', (id,))
- def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None):
- return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', 'like', value)], offset, limit)
+ def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, context=None):
+ return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', 'like', value)], offset, limit, context=context)
class one2many(_column):
_classic_read = False
_classic_write = False
+ _prefetch = False
_type = 'one2many'
def __init__(self, obj, fields_id, string='unknown', limit=None, **args):
def get_memory(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
if not context:
context = {}
+ if self._context:
+ context = context.copy()
+ context.update(self._context)
if not values:
values = {}
res = {}
for id in ids:
res[id] = []
- ids2 = obj.pool.get(self._obj).search(cr, user, [(self._fields_id, 'in', ids)], limit=self._limit)
+ ids2 = obj.pool.get(self._obj).search(cr, user, [(self._fields_id, 'in', ids)], limit=self._limit, context=context)
for r in obj.pool.get(self._obj).read(cr, user, ids2, [self._fields_id], context=context, load='_classic_write'):
if r[self._fields_id] in res:
res[r[self._fields_id]].append(r['id'])
def set_memory(self, cr, obj, id, field, values, user=None, context=None):
if not context:
context = {}
+ if self._context:
+ context = context.copy()
+ context.update(self._context)
if not values:
return
obj = obj.pool.get(self._obj)
def get(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
if not context:
context = {}
+ if self._context:
+ context = context.copy()
+ context.update(self._context)
if not values:
values = {}
res = {}
for id in ids:
res[id] = []
- ids2 = obj.pool.get(self._obj).search(cr, user, [(self._fields_id, 'in', ids)], limit=self._limit)
+ ids2 = obj.pool.get(self._obj).search(cr, user, [(self._fields_id, 'in', ids)], limit=self._limit, context=context)
for r in obj.pool.get(self._obj)._read_flat(cr, user, ids2, [self._fields_id], context=context, load='_classic_write'):
res[r[self._fields_id]].append(r['id'])
return res
def set(self, cr, obj, id, field, values, user=None, context=None):
+ result = []
if not context:
context = {}
+ if self._context:
+ context = context.copy()
+ context.update(self._context)
+ context['no_store_function'] = True
if not values:
return
_table = obj.pool.get(self._obj)._table
for act in values:
if act[0] == 0:
act[2][self._fields_id] = id
- print 'CREATE', self._obj, act[2], context
- obj.create(cr, user, act[2], context=context)
+ id_new = obj.create(cr, user, act[2], context=context)
+ result += obj._store_get_values(cr, user, [id_new], act[2].keys(), context)
elif act[0] == 1:
obj.write(cr, user, [act[1]], act[2], context=context)
elif act[0] == 2:
obj.unlink(cr, user, [act[1]], context=context)
elif act[0] == 3:
- cr.execute('update '+_table+' set '+self._fields_id+'=null where id=%d', (act[1],))
+ cr.execute('update '+_table+' set '+self._fields_id+'=null where id=%s', (act[1],))
elif act[0] == 4:
- cr.execute('update '+_table+' set '+self._fields_id+'=%d where id=%d', (id, act[1]))
+ cr.execute('update '+_table+' set '+self._fields_id+'=%s where id=%s', (id, act[1]))
elif act[0] == 5:
- cr.execute('update '+_table+' set '+self._fields_id+'=null where '+self._fields_id+'=%d', (id,))
+ cr.execute('update '+_table+' set '+self._fields_id+'=null where '+self._fields_id+'=%s', (id,))
elif act[0] == 6:
- if not act[2]:
- ids2 = [0]
- else:
- ids2 = act[2]
- cr.execute('update '+_table+' set '+self._fields_id+'=NULL where '+self._fields_id+'=%d and id not in ('+','.join(map(str, ids2))+')', (id,))
- if act[2]:
- cr.execute('update '+_table+' set '+self._fields_id+'=%d where id in ('+','.join(map(str, act[2]))+')', (id,))
+ obj.write(cr, user, act[2], {self._fields_id:id}, context=context or {})
+ ids2 = act[2] or [0]
+ cr.execute('select id from '+_table+' where '+self._fields_id+'=%s and id <> ALL (%s)', (id,ids2))
+ ids3 = map(lambda x:x[0], cr.fetchall())
+ obj.write(cr, user, ids3, {self._fields_id:False}, context=context or {})
+ return result
- def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, operator='like'):
- return obj.pool.get(self._obj).name_search(cr, uid, value, self._domain, offset, limit)
+ def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, operator='like', context=None):
+ return obj.pool.get(self._obj).name_search(cr, uid, value, self._domain, operator, context=context,limit=limit)
#
class many2many(_column):
_classic_read = False
_classic_write = False
+ _prefetch = False
_type = 'many2many'
def __init__(self, obj, rel, id1, id2, string='unknown', limit=None, **args):
return res
for id in ids:
res[id] = []
- ids_s = ','.join(map(str, ids))
limit_str = self._limit is not None and ' limit %d' % self._limit or ''
obj = obj.pool.get(self._obj)
- d1, d2 = obj.pool.get('ir.rule').domain_get(cr, user, obj._name)
+ d1, d2, tables = obj.pool.get('ir.rule').domain_get(cr, user, obj._name, context=context)
if d1:
- d1 = ' and ' + d1
+ d1 = ' and ' + ' and '.join(d1)
+ else: d1 = ''
cr.execute('SELECT '+self._rel+'.'+self._id2+','+self._rel+'.'+self._id1+' \
- FROM '+self._rel+' , '+obj._table+' \
- WHERE '+self._rel+'.'+self._id1+' in ('+ids_s+') \
+ FROM '+self._rel+' , '+(','.join(tables))+' \
+ WHERE '+self._rel+'.'+self._id1+' = ANY (%s) \
AND '+self._rel+'.'+self._id2+' = '+obj._table+'.id '+d1
- +limit_str+' order by '+obj._table+'.'+obj._order+' offset %d',
- d2+[offset])
+ +limit_str+' order by '+obj._table+'.'+obj._order+' offset %s',
+ [ids,]+d2+[offset])
for r in cr.fetchall():
res[r[1]].append(r[0])
return res
return
obj = obj.pool.get(self._obj)
for act in values:
+ if not (isinstance(act, list) or isinstance(act, tuple)) or not act:
+ continue
if act[0] == 0:
idnew = obj.create(cr, user, act[2])
- cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%d,%d)', (id, idnew))
+ cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%s,%s)', (id, idnew))
elif act[0] == 1:
obj.write(cr, user, [act[1]], act[2], context=context)
elif act[0] == 2:
obj.unlink(cr, user, [act[1]], context=context)
elif act[0] == 3:
- cr.execute('delete from '+self._rel+' where ' + self._id1 + '=%d and '+ self._id2 + '=%d', (id, act[1]))
+ cr.execute('delete from '+self._rel+' where ' + self._id1 + '=%s and '+ self._id2 + '=%s', (id, act[1]))
elif act[0] == 4:
- cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%d,%d)', (id, act[1]))
+ cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%s,%s)', (id, act[1]))
elif act[0] == 5:
- cr.execute('update '+self._rel+' set '+self._id2+'=null where '+self._id2+'=%d', (id,))
+ cr.execute('update '+self._rel+' set '+self._id2+'=null where '+self._id2+'=%s', (id,))
elif act[0] == 6:
- d1, d2 = obj.pool.get('ir.rule').domain_get(cr, user, obj._name)
+ d1, d2,tables = obj.pool.get('ir.rule').domain_get(cr, user, obj._name, context=context)
if d1:
- d1 = ' and ' + d1
- cr.execute('delete from '+self._rel+' where '+self._id1+'=%d AND '+self._id2+' IN (SELECT '+self._rel+'.'+self._id2+' FROM '+self._rel+', '+obj._table+' WHERE '+self._rel+'.'+self._id1+'=%d AND '+self._rel+'.'+self._id2+' = '+obj._table+'.id '+ d1 +')', [id, id]+d2)
+ d1 = ' and ' + ' and '.join(d1)
+ else:
+ d1 = ''
+ cr.execute('delete from '+self._rel+' where '+self._id1+'=%s AND '+self._id2+' IN (SELECT '+self._rel+'.'+self._id2+' FROM '+self._rel+', '+','.join(tables)+' WHERE '+self._rel+'.'+self._id1+'=%s AND '+self._rel+'.'+self._id2+' = '+obj._table+'.id '+ d1 +')', [id, id]+d2)
for act_nbr in act[2]:
- cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%d, %d)', (id, act_nbr))
+ cr.execute('insert into '+self._rel+' ('+self._id1+','+self._id2+') values (%s, %s)', (id, act_nbr))
#
# TODO: use a name_search
#
- def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, operator='like'):
- return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', operator, value)], offset, limit)
+ def search(self, cr, obj, args, name, value, offset=0, limit=None, uid=None, operator='like', context=None):
+ return obj.pool.get(self._obj).search(cr, uid, args+self._domain+[('name', operator, value)], offset, limit, context=context)
def get_memory(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
result = {}
obj.datas[id][name] = act[2]
+def get_nice_size(a):
+ (x,y) = a
+ if isinstance(y, (int,long)):
+ size = y
+ elif y:
+ size = len(y)
+ else:
+ size = 0
+ return (x, tools.human_size(size))
+
# ---------------------------------------------------------
# Function fields
# ---------------------------------------------------------
class function(_column):
_classic_read = False
_classic_write = False
+ _prefetch = False
_type = 'function'
_properties = True
self._multi = multi
if 'relation' in args:
self._obj = args['relation']
+
+ if 'digits' in args:
+ self.digits = args['digits']
+ else:
+ self.digits = (16,2)
+
self._fnct_inv_arg = fnct_inv_arg
if not fnct_inv:
self.readonly = 1
self._type = type
self._fnct_search = fnct_search
self.store = store
+
+ if not fnct_search and not store:
+ self.selectable = False
+
+ if store:
+ self._classic_read = True
+ self._classic_write = True
+ if type=='binary':
+ self._symbol_get=lambda x:x and str(x)
+
if type == 'float':
- self._symbol_c = '%f'
- self._symbol_f = lambda x: __builtin__.float(x or 0.0)
- self._symbol_set = (self._symbol_c, self._symbol_f)
+ self._symbol_c = float._symbol_c
+ self._symbol_f = float._symbol_f
+ self._symbol_set = float._symbol_set
- def search(self, cr, uid, obj, name, args):
+ def search(self, cr, uid, obj, name, args, context=None):
if not self._fnct_search:
#CHECKME: should raise an exception
return []
- return self._fnct_search(obj, cr, uid, obj, name, args)
+ return self._fnct_search(obj, cr, uid, obj, name, args, context=context)
def get(self, cr, obj, ids, name, user=None, context=None, values=None):
if not context:
else:
res = self._fnct(cr, obj._table, ids, name, self._arg, context)
+ if self._type == "many2one" :
+ # Filtering only integer/long values if passed
+ res_ids = [x for x in res.values() if x and isinstance(x, (int,long))]
+
+ if res_ids:
+ obj_model = obj.pool.get(self._obj)
+ dict_names = dict(obj_model.name_get(cr, user, res_ids, context))
+ for r in res.keys():
+ if res[r] and res[r] in dict_names:
+ res[r] = (res[r], dict_names[res[r]])
+
if self._type == 'binary' and context.get('bin_size', False):
# convert the data returned by the function with the size of that data...
- res = dict(map(lambda (x, y): (x, tools.human_size(len(y))), res.items()))
+ res = dict(map( get_nice_size, res.items()))
+ if self._type == "integer":
+ for r in res.keys():
+ # Converting value into string so that it does not affect XML-RPC Limits
+ res[r] = str(res[r])
return res
+ get_memory = get
def set(self, cr, obj, id, name, value, user=None, context=None):
if not context:
context = {}
if self._fnct_inv:
self._fnct_inv(obj, cr, user, id, name, value, self._fnct_inv_arg, context)
+ set_memory = set
# ---------------------------------------------------------
# Related fields
class related(function):
- def _fnct_search(self, tobj, cr, uid, obj=None, name=None, context=None):
- where_flag = 0
- where = " where"
- query = "select %s.id from %s" % (obj._table, obj._table)
- relation_child = obj._name
- relation = obj._name
- for i in range(len(self._arg)):
- field_detail = self._field_get(cr, uid, obj, relation, self._arg[i])
- relation = field_detail[0]
- if field_detail[1] in ('one2many', 'many2many'):
- obj_child = obj.pool.get(field_detail[2][self._arg[i]]['relation'])
- field_detail_child = obj_child.fields_get(cr, uid,)
-
- fields_filter = dict(filter(lambda x: x[1].get('relation', False)
- and x[1].get('relation') == relation_child
- and x[1].get('type')=='many2one', field_detail_child.items()))
- query += " inner join %s on %s.id = %s.%s" % (obj_child._table, obj._table, obj_child._table, fields_filter.keys()[0])
- relation_child = relation
- elif field_detail[1] in ('many2one'):
- obj_child = obj.pool.get(field_detail[2][self._arg[i]]['relation'])
- obj_child2 = obj.pool.get(relation_child)
- if obj_child._name == obj_child2._name:
-# select res_partner.id from res_partner where res_partner.parent_id in(select id from res_partner where res_partner.date >= '2008-10-01');
-# where +=" %s.id = %s.%s in (select id from %s where %s.%s %s %s"%(obj_child._table,obj_child2._table,self._arg[i])
- pass
- else:
- query += " inner join %s on %s.id = %s.%s" % (obj_child._table, obj_child._table, obj_child2._table, self._arg[i])
- relation_child = field_detail[0]
- if i == (len(self._arg)-1):
- if obj_child._inherits:
- obj_child_inherits = obj.pool.get(obj_child._inherits.keys()[0])
- query += " inner join %s on %s.id = %s.%s" % (obj_child_inherits._table, obj_child_inherits._table, obj_child._table, obj_child._inherits.values()[0])
- obj_child = obj_child_inherits
- where += " %s.%s %s '%%%s%%' and" % (obj_child._table, obj_child._rec_name, context[0][1], context[0][2])
+ def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context={}):
+ self._field_get2(cr, uid, obj, context)
+ i = len(self._arg)-1
+ sarg = name
+ while i>0:
+ if type(sarg) in [type([]), type( (1,) )]:
+ where = [(self._arg[i], 'in', sarg)]
else:
- obj_child = obj.pool.get(relation_child)
- if field_detail[1] in ('char'):
- where += " %s.%s %s '%%%s%%' and" % (obj_child._table, self._arg[i], context[0][1], context[0][2])
- if field_detail[1] in ('date'):
- where += " %s.%s %s '%s' and" % (obj_child._table, self._arg[i], context[0][1], context[0][2])
- if field_detail[1] in ['integer', 'long', 'float','integer_big']:
- where += " %s.%s %s '%d' and" % (obj_child._table, self._arg[i], context[0][1], context[0][2])
- query += where.rstrip('and')
- cr.execute(query)
- ids = []
- for id in cr.fetchall():
- ids.append(id[0])
- return [('id', 'in', ids)]
-
-# def _fnct_write(self,obj,cr, uid, ids,values, field_name, args, context=None):
-# raise 'Not Implemented Yet'
+ where = [(self._arg[i], '=', sarg)]
+ if domain:
+ where = map(lambda x: (self._arg[i],x[1], x[2]), domain)
+ domain = []
+ sarg = obj.pool.get(self._relations[i]['object']).search(cr, uid, where, context=context)
+ i -= 1
+ return [(self._arg[0], 'in', sarg)]
+
+ def _fnct_write(self,obj,cr, uid, ids, field_name, values, args, context=None):
+ if values and field_name:
+ self._field_get2(cr, uid, obj, context)
+ relation = obj._name
+ res = {}
+ if type(ids) != type([]):
+ ids=[ids]
+ objlst = obj.browse(cr, uid, ids)
+ for data in objlst:
+ t_id=None
+ t_data = data
+ relation = obj._name
+ for i in range(len(self.arg)):
+ field_detail = self._relations[i]
+ relation = field_detail['object']
+ if not t_data[self.arg[i]]:
+ t_data = False
+ break
+ if field_detail['type'] in ('one2many', 'many2many'):
+ if self._type != "many2one":
+ t_id=t_data.id
+ t_data = t_data[self.arg[i]][0]
+ else:
+ t_id=t_data['id']
+ t_data = t_data[self.arg[i]]
+ if t_id:
+ obj.pool.get(field_detail['object']).write(cr,uid,[t_id],{args[-1]:values}, context=context)
def _fnct_read(self, obj, cr, uid, ids, field_name, args, context=None):
+ self._field_get2(cr, uid, obj, context)
if not ids: return {}
relation = obj._name
- res = {}
- objlst = obj.browse(cr, uid, ids)
+ res = {}.fromkeys(ids, False)
+
+ objlst = obj.browse(cr, uid, ids, context=context)
for data in objlst:
+ if not data:
+ continue
t_data = data
relation = obj._name
for i in range(len(self.arg)):
- field_detail = self._field_get(cr, uid, obj, relation, self.arg[i])
- relation = field_detail[0]
- if not t_data[self.arg[i]]:
+ field_detail = self._relations[i]
+ relation = field_detail['object']
+ try:
+ if not t_data[self.arg[i]]:
+ t_data = False
+ break
+ except:
t_data = False
break
- if field_detail[1] in ('one2many', 'many2many'):
+ if field_detail['type'] in ('one2many', 'many2many') and i != len(self.arg) - 1:
t_data = t_data[self.arg[i]][0]
else:
t_data = t_data[self.arg[i]]
res[data.id] = t_data.id
else:
res[data.id] = t_data
+
+ if self._type=='many2one':
+ ids = filter(None, res.values())
+ if ids:
+ ng = dict(obj.pool.get(self._obj).name_get(cr, uid, ids, context=context))
+ for r in res:
+ if res[r]:
+ res[r] = (res[r], ng[res[r]])
+ elif self._type in ('one2many', 'many2many'):
+ for r in res:
+ if res[r]:
+ res[r] = [x.id for x in res[r]]
+
return res
def __init__(self, *arg, **args):
self.arg = arg
- super(related, self).__init__(self._fnct_read, arg, fnct_inv_arg=arg, method=True, fnct_search=self._fnct_search, **args)
+ self._relations = []
+ super(related, self).__init__(self._fnct_read, arg, self._fnct_write, fnct_inv_arg=arg, method=True, fnct_search=self._fnct_search, **args)
+ if self.store is True:
+ # TODO: improve here to change self.store = {...} according to related objects
+ pass
+
+ def _field_get2(self, cr, uid, obj, context={}):
+ if self._relations:
+ return
+ obj_name = obj._name
+ for i in range(len(self._arg)):
+ f = obj.pool.get(obj_name).fields_get(cr, uid, [self._arg[i]], context=context)[self._arg[i]]
+ self._relations.append({
+ 'object': obj_name,
+ 'type': f['type']
- # TODO: call field_get on the object, not in the DB
- def _field_get(self, cr, uid, obj, model_name, prop):
- fields = obj.pool.get(model_name).fields_get(cr, uid,)
- if fields.get(prop, False):
- return(fields[prop].get('relation', False), fields[prop].get('type', False), fields)
- else:
- raise 'Field %s not exist in %s' % (prop, model_name)
+ })
+ if f.get('relation',False):
+ obj_name = f['relation']
+ self._relations[-1]['relation'] = f['relation']
+
+# ---------------------------------------------------------
+# Dummy fields
+# ---------------------------------------------------------
+class dummy(function):
+ def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context={}):
+ return []
+
+ def _fnct_write(self,obj,cr, uid, ids, field_name, values, args, context=None):
+ return False
+
+ def _fnct_read(self, obj, cr, uid, ids, field_name, args, context=None):
+ return {}
+
+ def __init__(self, *arg, **args):
+ self.arg = arg
+ self._relations = []
+ super(dummy, self).__init__(self._fnct_read, arg, self._fnct_write, fnct_inv_arg=arg, method=True, fnct_search=None, **args)
# ---------------------------------------------------------
# Serialized fields
nid = property.search(cr, uid, [('fields_id', '=', definition_id),
('res_id', '=', obj._name+','+str(id))])
while len(nid):
- cr.execute('DELETE FROM ir_property WHERE id=%d', (nid.pop(),))
+ cr.execute('DELETE FROM ir_property WHERE id=%s', (nid.pop(),))
nid = property.search(cr, uid, [('fields_id', '=', definition_id),
('res_id', '=', False)])
if nid:
default_val = property.browse(cr, uid, nid[0], context).value
- company_id = obj.pool.get('res.users').company_get(cr, uid, uid)
+ company_id = obj.pool.get('res.company')._company_default_get(cr, uid, obj._name, prop, context=context)
res = False
- newval = (id_val and obj_dest+','+str(id_val)) or False
+ if val[0]:
+ newval = (id_val and obj_dest+','+str(id_val)) or False
+ else:
+ newval = id_val or False
if (newval != default_val) and newval:
propdef = obj.pool.get('ir.model.fields').browse(cr, uid,
definition_id, context=context)
for id in ids:
res[id] = default_val
for prop in property.browse(cr, uid, nids):
- res[int(prop.res_id.split(',')[1])] = (prop.value and \
- int(prop.value.split(',')[1])) or False
-
- obj = obj.pool.get(self._obj)
- names = dict(obj.name_get(cr, uid, filter(None, res.values()), context))
- for r in res.keys():
- if res[r] and res[r] in names:
- res[r] = (res[r], names[res[r]])
+ if prop.value.find(',') >= 0:
+ res[int(prop.res_id.split(',')[1])] = (prop.value and \
+ int(prop.value.split(',')[1])) or False
else:
- res[r] = False
+ res[int(prop.res_id.split(',')[1])] = prop.value or ''
+
+ if self._obj:
+ obj = obj.pool.get(self._obj)
+ to_check = res.values()
+ if default_val and default_val not in to_check:
+ to_check += [default_val]
+ existing_ids = obj.search(cr, uid, [('id', 'in', to_check)])
+ for id, res_id in res.items():
+ if res_id not in existing_ids:
+ cr.execute('DELETE FROM ir_property WHERE value=%s', ((obj._name+','+str(res_id)),))
+ res[id] = default_val
+ names = dict(obj.name_get(cr, uid, existing_ids, context))
+ for r in res.keys():
+ if res[r] and res[r] in names:
+ res[r] = (res[r], names[res[r]])
+ else:
+ res[r] = False
return res
def _field_get(self, cr, uid, model_name, prop):