#
import datetime as DT
import string
-import netsvc
import sys
import warnings
-
+import xmlrpclib
from psycopg2 import Binary
+import osv
+import netsvc
import tools
from tools.translate import _
_symbol_set = (_symbol_c, _symbol_f)
_symbol_get = None
- def __init__(self, string='unknown', required=False, readonly=False, domain=None, context={}, states=None, priority=0, change_default=False, size=None, ondelete="set null", translate=False, select=False, **args):
- if not context:
+ def __init__(self, string='unknown', required=False, readonly=False, domain=None, context=None, states=None, priority=0, change_default=False, size=None, ondelete="set null", translate=False, select=False, manual=False, **args):
+ """
+
+ The 'manual' keyword argument specifies if the field is a custom one.
+ It corresponds to the 'state' column in ir_model_fields.
+
+ """
+ if domain is None:
+ domain = []
+ if context is None:
context = {}
self.states = states or {}
self.string = string
self.change_default = change_default
self.ondelete = ondelete
self.translate = translate
- self._domain = domain or []
+ self._domain = domain
self._context = context
self.write = False
self.read = False
self.view_load = 0
self.select = select
+ self.manual = manual
self.selectable = True
self.group_operator = args.get('group_operator', False)
for a in args:
_symbol_f = lambda x: x and 'True' or 'False'
_symbol_set = (_symbol_c, _symbol_f)
-class integer_big(_column):
- _type = 'integer_big'
+class integer(_column):
+ _type = 'integer'
_symbol_c = '%s'
_symbol_f = lambda x: int(x or 0)
_symbol_set = (_symbol_c, _symbol_f)
_symbol_get = lambda self,x: x or 0
-class integer(_column):
- _type = 'integer'
+class integer_big(_column):
+ _type = 'integer_big'
+ # do not reference the _symbol_* of integer class, as that would possibly
+ # unbind the lambda functions
_symbol_c = '%s'
_symbol_f = lambda x: int(x or 0)
_symbol_set = (_symbol_c, _symbol_f)
_symbol_get = lambda self,x: x or 0
-
class reference(_column):
_type = 'reference'
+ _classic_read = False
def __init__(self, string, selection, size, **args):
_column.__init__(self, string=string, size=size, selection=selection, **args)
+ def get(self, cr, obj, ids, name, uid=None, context=None, values=None):
+ result = {}
+ # copy initial values fetched previously.
+ for value in values:
+ result[value['id']] = value[name]
+ if value[name]:
+ model, res_id = value[name].split(',')
+ if not obj.pool.get(model).exists(cr, uid, [int(res_id)], context=context):
+ result[value['id']] = False
+ return result
+
class char(_column):
_type = 'char'
# content if it's needed at some point.
# TODO: after 6.0 we should consider returning a dict with size and content instead of
# having an implicit convention for the value
- import pdb
- pdb.set_trace()
if val and context.get('bin_size_%s' % name, context.get('bin_size')):
res[i] = tools.human_size(long(val))
else:
return result
def get(self, cr, obj, ids, name, user=None, context=None, values=None):
- context = context or {}
- values = values or {}
+ if context is None:
+ context = {}
+ if values is None:
+ values = {}
res = {}
for r in values:
# build a dictionary of the form {'id_of_distant_resource': name_of_distant_resource}
# we use uid=1 because the visibility of a many2one field value (just id and name)
# must be the access right of the parent form and not the linked object itself.
- records = dict(obj.name_get(cr, 1, list(set(filter(None, res.values()))), context=context))
+ records = dict(obj.name_get(cr, 1,
+ list(set([x for x in res.values() if isinstance(x, (int,long))])),
+ context=context))
for id in res:
if res[id] in records:
res[id] = (res[id], records[res[id]])
assert(self.change_default != True)
def get_memory(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
- if not context:
+ if context is None:
context = {}
if self._context:
context = context.copy()
elif act[0] == 3:
obj.datas[act[1]][self._fields_id] = False
elif act[0] == 4:
- obj.datas[act[1]] = id
+ obj.datas[act[1]][self._fields_id] = id
elif act[0] == 5:
for o in obj.datas.values():
if o[self._fields_id] == id:
raise _('Not Implemented')
def get(self, cr, obj, ids, name, user=None, offset=0, context=None, values=None):
- if not context:
+ if context is None:
context = {}
if self._context:
context = context.copy()
context.update(self._context)
- if not values:
+ if values is None:
values = {}
res = {}
DeprecationWarning, stacklevel=2)
obj = obj.pool.get(self._obj)
- # static domains are lists, and are evaluated both here and on client-side, while string
+ # static domains are lists, and are evaluated both here and on client-side, while string
# domains supposed by dynamic and evaluated on client-side only (thus ignored here)
# FIXME: make this distinction explicit in API!
domain = isinstance(self._domain, list) and self._domain or []
elif act[0] == 3:
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 (%s,%s)', (id, act[1]))
+ # following queries are in the same transaction - so should be relatively safe
+ cr.execute('SELECT 1 FROM '+self._rel+' WHERE '+self._id1+' = %s and '+self._id2+' = %s', (id, act[1]))
+ if not cr.fetchone():
+ 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+'=%s', (id,))
+ cr.execute('delete from '+self._rel+' where ' + self._id1 + ' = %s', (id,))
elif act[0] == 6:
d1, d2,tables = obj.pool.get('ir.rule').domain_get(cr, user, obj._name, context=context)
size = 0
return (x, tools.human_size(size))
+def sanitize_binary_value(dict_item):
+ # binary fields should be 7-bit ASCII base64-encoded data,
+ # but we do additional sanity checks to make sure the values
+ # are not something else that won't pass via xmlrpc
+ index, value = dict_item
+ if isinstance(value, (xmlrpclib.Binary, tuple, list, dict)):
+ # these builtin types are meant to pass untouched
+ return index, value
+
+ # For all other cases, handle the value as a binary string:
+ # it could be a 7-bit ASCII string (e.g base64 data), but also
+ # any 8-bit content from files, with byte values that cannot
+ # be passed inside XML!
+ # See for more info:
+ # - http://bugs.python.org/issue10066
+ # - http://www.w3.org/TR/2000/REC-xml-20001006#NT-Char
+ #
+ # One solution is to convert the byte-string to unicode,
+ # so it gets serialized as utf-8 encoded data (always valid XML)
+ # If invalid XML byte values were present, tools.ustr() uses
+ # the Latin-1 codec as fallback, which converts any 8-bit
+ # byte value, resulting in valid utf-8-encoded bytes
+ # in the end:
+ # >>> unicode('\xe1','latin1').encode('utf8') == '\xc3\xa1'
+ # Note: when this happens, decoding on the other endpoint
+ # is not likely to produce the expected output, but this is
+ # just a safety mechanism (in these cases base64 data or
+ # xmlrpc.Binary values should be used instead)
+ return index, tools.ustr(value)
+
+
# ---------------------------------------------------------
# Function fields
# ---------------------------------------------------------
self._symbol_f = boolean._symbol_f
self._symbol_set = boolean._symbol_set
+ if type in ['integer','integer_big']:
+ self._symbol_c = integer._symbol_c
+ self._symbol_f = integer._symbol_f
+ self._symbol_set = integer._symbol_set
+
def digits_change(self, cr):
if self.digits_compute:
t = self.digits_compute(cr)
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:
+ if context is None:
context = {}
- if not values:
+ if values is None:
values = {}
res = {}
if self._method:
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( get_nice_size, res.items()))
+ if self._type == 'binary':
+ if context.get('bin_size', False):
+ # client requests only the size of binary fields
+ res = dict(map(get_nice_size, res.items()))
+ else:
+ res = dict(map(sanitize_binary_value, res.items()))
+
if self._type == "integer":
for r in res.keys():
# Converting value into string so that it does not affect XML-RPC Limits
class related(function):
- def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context={}):
+ def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context=None):
self._field_get2(cr, uid, obj, context)
i = len(self._arg)-1
sarg = name
return [(self._arg[0], 'in', sarg)]
def _fnct_write(self,obj,cr, uid, ids, field_name, values, args, context=None):
- self._field_get2(cr, uid, obj, context)
+ self._field_get2(cr, uid, obj, context=context)
if type(ids) != type([]):
ids=[ids]
objlst = obj.browse(cr, uid, ids)
# TODO: improve here to change self.store = {...} according to related objects
pass
- def _field_get2(self, cr, uid, obj, context={}):
+ def _field_get2(self, cr, uid, obj, context=None):
if self._relations:
return
obj_name = obj._name
# ---------------------------------------------------------
class dummy(function):
- def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context={}):
+ def _fnct_search(self, tobj, cr, uid, obj=None, name=None, domain=None, context=None):
return []
- def _fnct_write(self,obj,cr, uid, ids, field_name, values, args, context=None):
+ 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):
cr.execute('DELETE FROM ir_property WHERE id IN %s', (tuple(nids),))
default_val = self._get_default(obj, cr, uid, prop_name, context)
-
- if id_val is not default_val:
+ property_create = False
+ if isinstance(default_val, osv.orm.browse_record):
+ if default_val.id != id_val:
+ property_create = True
+ elif default_val != id_val:
+ property_create = True
+
+ if property_create:
def_id = self._field_get(cr, uid, obj._name, prop_name)
company = obj.pool.get('res.company')
cid = company._company_default_get(cr, uid, obj._name, def_id,
value = properties.get_by_record(cr, uid, prop, context=context)
res[prop.res_id.id][prop.fields_id.name] = value or False
if value and (prop.type == 'many2one'):
- replaces.setdefault(value._name, {})
- replaces[value._name][value.id] = True
+ record_exists = obj.pool.get(value._name).exists(cr, uid, value.id)
+ if record_exists:
+ replaces.setdefault(value._name, {})
+ replaces[value._name][value.id] = True
+ else:
+ res[prop.res_id.id][prop.fields_id.name] = False
for rep in replaces:
- replaces[rep] = dict(obj.pool.get(rep).name_get(cr, uid, replaces[rep].keys(), context=context))
+ nids = obj.pool.get(rep).search(cr, uid, [('id','in',replaces[rep].keys())], context=context)
+ replaces[rep] = dict(obj.pool.get(rep).name_get(cr, uid, nids, context=context))
for prop in prop_name:
for id in ids:
self.field_id = {}
+class column_info(object):
+ """Struct containing details about an osv column, either one local to
+ its model, or one inherited via _inherits.
+
+ :attr name: name of the column
+ :attr column: column instance, subclass of osv.fields._column
+ :attr parent_model: if the column is inherited, name of the model
+ that contains it, None for local columns.
+ :attr parent_column: the name of the column containing the m2o
+ relationship to the parent model that contains
+ this column, None for local columns.
+ :attr original_parent: if the column is inherited, name of the original
+ parent model that contains it i.e in case of multilevel
+ inheritence, None for local columns.
+ """
+ def __init__(self, name, column, parent_model=None, parent_column=None, original_parent=None):
+ self.name = name
+ self.column = column
+ self.parent_model = parent_model
+ self.parent_column = parent_column
+ self.original_parent = original_parent
+
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: