ORM API¶
Models¶
Model fields are defined as attributes on the model itself:
from odoo import models, fields
class AModel(models.Model):
_name = 'a.model.name'
field1 = fields.Char()
Предупреждение
this means you cannot define a field and a method with the same name, the last one will silently overwrite the former ones.
By default, the field’s label (user-visible name) is a capitalized version of
the field name, this can be overridden with the string
parameter.
field2 = fields.Integer(string="Field Label")
For the list of field types and parameters, see the fields reference.
Default values are defined as parameters on fields, either as a value:
name = fields.Char(default="a value")
or as a function called to compute the default value, which should return that value:
def _default_name(self):
return self.get_value()
name = fields.Char(default=lambda self: self._default_name())
API
AbstractModel¶
Model¶
TransientModel¶
Fields¶
Basic Fields¶
Advanced Fields¶
Date(time) Fields¶
Dates
and Datetimes
are very important fields in any kind of business application.
Their misuse can create invisible yet painful bugs, this section
aims to provide Odoo developers with the knowledge required
to avoid misusing these fields.
When assigning a value to a Date/Datetime field, the following options are valid:
A
date
ordatetime
object.A string in the proper server format:
YYYY-MM-DD
forDate
fields,YYYY-MM-DD HH:MM:SS
forDatetime
fields.
False
orNone
.
The Date and Datetime fields class have helper methods to attempt conversion into a compatible type:
to_date()
will convert to adatetime.date
to_datetime()
will convert to adatetime.datetime
.
Example
To parse date/datetimes coming from external sources:
fields.Date.to_date(self._context.get('date_from'))
Date / Datetime comparison best practices:
Date fields can only be compared to date objects.
Datetime fields can only be compared to datetime objects.
Предупреждение
Strings representing dates and datetimes can be compared between each other, however the result may not be the expected result, as a datetime string will always be greater than a date string, therefore this practice is heavily discouraged.
Common operations with dates and datetimes such as addition, subtraction or
fetching the start/end of a period are exposed through both
Date
and Datetime
.
These helpers are also available by importing odoo.tools.date_utils
.
Примечание
Timezones
Datetime fields are stored as timestamp without timezone
columns in the database and are stored
in the UTC timezone. This is by design, as it makes the Odoo database independent from the timezone
of the hosting server system. Timezone conversion is managed entirely by the client side.
Relational Fields¶
Pseudo-relational fields¶
Computed Fields¶
Fields can be computed (instead of read straight from the database) using the
compute
parameter. It must assign the computed value to the field. If
it uses the values of other fields, it should specify those fields using
depends()
.
from odoo import api
total = fields.Float(compute='_compute_total')
@api.depends('value', 'tax')
def _compute_total(self):
for record in self:
record.total = record.value + record.value * record.tax
dependencies can be dotted paths when using sub-fields:
@api.depends('line_ids.value') def _compute_total(self): for record in self: record.total = sum(line.value for line in record.line_ids)
computed fields are not stored by default, they are computed and returned when requested. Setting
store=True
will store them in the database and automatically enable searching.searching on a computed field can also be enabled by setting the
search
parameter. The value is a method name returning a Search domains.upper_name = field.Char(compute='_compute_upper', search='_search_upper') def _search_upper(self, operator, value): if operator == 'like': operator = 'ilike' return [('name', operator, value)]
The search method is invoked when processing domains before doing an actual search on the model. It must return a domain equivalent to the condition:
field operator value
.
Computed fields are readonly by default. To allow setting values on a computed field, use the
inverse
parameter. It is the name of a function reversing the computation and setting the relevant fields:document = fields.Char(compute='_get_document', inverse='_set_document') def _get_document(self): for record in self: with open(record.get_document_path) as f: record.document = f.read() def _set_document(self): for record in self: if not record.document: continue with open(record.get_document_path()) as f: f.write(record.document)
multiple fields can be computed at the same time by the same method, just use the same method on all fields and set all of them:
discount_value = fields.Float(compute='_apply_discount') total = fields.Float(compute='_apply_discount') @api.depends('value', 'discount') def _apply_discount(self): for record in self: # compute actual discount from discount percentage discount = record.value * record.discount record.discount_value = discount record.total = record.value - discount
Предупреждение
While it is possible to use the same compute method for multiple fields, it is not recommended to do the same for the inverse method.
During the computation of the inverse, all fields that use said inverse are protected, meaning that they can’t be computed, even if their value is not in the cache.
If any of those fields is accessed and its value is not in cache,
the ORM will simply return a default value of False
for these fields.
This means that the value of the inverse fields (other than the one
triggering the inverse method) may not give their correct value and
this will probably break the expected behavior of the inverse method.
Automatic fields¶
-
odoo.fields.
id
¶ Identifier
field
If length of current recordset is 1, return id of unique record in it.
Raise an Error otherwise.
Access Log fields¶
These fields are automatically set and updated if
_log_access
is enabled. It can be
disabled to avoid creating or updating those fields on tables for which they are
not useful.
By default, _log_access
is set to the same value
as _auto
-
odoo.fields.
create_date
¶ Stores when the record was created,
Datetime
-
odoo.fields.
create_uid
¶ Stores who created the record,
Many2one
to ares.users
.
-
odoo.fields.
write_date
¶ Stores when the record was last updated,
Datetime
-
odoo.fields.
write_uid
¶ Stores who last updated the record,
Many2one
to ares.users
.
Предупреждение
_log_access
must be enabled on
TransientModel
.
Reserved Field names¶
A few field names are reserved for pre-defined behaviors beyond that of automated fields. They should be defined on a model when the related behavior is desired:
-
odoo.fields.
name
¶ default value for
_rec_name
, used to display records in context where a representative “naming” is necessary.Char
-
odoo.fields.
active
¶ toggles the global visibility of the record, if
active
is set toFalse
the record is invisible in most searches and listing.Boolean
-
odoo.fields.
state
¶ lifecycle stages of the object, used by the
states
attribute onfields
.Selection
-
odoo.fields.
parent_id
¶ default_value of
_parent_name
, used to organize records in a tree structure and enables thechild_of
andparent_of
operators in domains.Many2one
-
odoo.fields.
parent_path
¶ When
_parent_store
is set to True, used to store a value reflecting the tree structure of_parent_name
, and to optimize the operatorschild_of
andparent_of
in search domains. It must be declared withindex=True
for proper operation.Char
-
odoo.fields.
company_id
¶ Main field name used for Odoo multi-company behavior.
Used by
:meth:~odoo.models._check_company
to check multi company consistency. Defines whether a record is shared between companies (no value) or only accessible by the users of a given company.Many2one
:type:res_company
Recordsets¶
Interactions with models and records are performed through recordsets, an ordered collection of records of the same model.
Предупреждение
Contrary to what the name implies, it is currently possible for recordsets to contain duplicates. This may change in the future.
Methods defined on a model are executed on a recordset, and their self
is
a recordset:
class AModel(models.Model):
_name = 'a.model'
def a_method(self):
# self can be anything between 0 records and all records in the
# database
self.do_operation()
Iterating on a recordset will yield new sets of a single record (“singletons”), much like iterating on a Python string yields strings of a single characters:
def do_operation(self):
print(self) # => a.model(1, 2, 3, 4, 5)
for record in self:
print(record) # => a.model(1), then a.model(2), then a.model(3), ...
Field access¶
Recordsets provide an “Active Record” interface: model fields can be read and written directly from the record as attributes.
Примечание
When accessing non-relational fields on a recordset of potentially multiple
records, use mapped()
:
total_qty = sum(self.mapped('qty'))
Field values can also be accessed like dict items, which is more elegant and
safer than getattr()
for dynamic field names.
Setting a field’s value triggers an update to the database:
>>> record.name
Example Name
>>> record.company_id.name
Company Name
>>> record.name = "Bob"
>>> field = "name"
>>> record[field]
Bob
Предупреждение
Trying to read a field on multiple records will raise an error for non relational fields.
Accessing a relational field (Many2one
,
One2many
, Many2many
)
always returns a recordset, empty if the field is not set.
Record cache and prefetching¶
Odoo maintains a cache for the fields of the records, so that not every field access issues a database request, which would be terrible for performance. The following example queries the database only for the first statement:
record.name # first access reads value from database
record.name # second access gets value from cache
To avoid reading one field on one record at a time, Odoo prefetches records and fields following some heuristics to get good performance. Once a field must be read on a given record, the ORM actually reads that field on a larger recordset, and stores the returned values in cache for later use. The prefetched recordset is usually the recordset from which the record comes by iteration. Moreover, all simple stored fields (boolean, integer, float, char, text, date, datetime, selection, many2one) are fetched altogether; they correspond to the columns of the model’s table, and are fetched efficiently in the same query.
Consider the following example, where partners
is a recordset of 1000
records. Without prefetching, the loop would make 2000 queries to the database.
With prefetching, only one query is made:
for partner in partners:
print partner.name # first pass prefetches 'name' and 'lang'
# (and other fields) on all 'partners'
print partner.lang
The prefetching also works on secondary records: when relational fields are read, their values (which are records) are subscribed for future prefetching. Accessing one of those secondary records prefetches all secondary records from the same model. This makes the following example generate only two queries, one for partners and one for countries:
countries = set()
for partner in partners:
country = partner.country_id # first pass prefetches all partners
countries.add(country.name) # first pass prefetches all countries
Method decorators¶
Environment¶
The Environment
stores various contextual data used by
the ORM: the database cursor (for database queries), the current user
(for access rights checking) and the current context (storing arbitrary
metadata). The environment also stores caches.
All recordsets have an environment, which is immutable, can be accessed
using env
and gives access to:
the current user (
user
)the cursor (
cr
)the superuser flag (
su
)or the context (
context
)
>>> records.env
<Environment object ...>
>>> records.env.user
res.user(3)
>>> records.env.cr
<Cursor object ...)
When creating a recordset from an other recordset, the environment is inherited. The environment can be used to get an empty recordset in an other model, and query that model:
>>> self.env['res.partner']
res.partner()
>>> self.env['res.partner'].search([['is_company', '=', True], ['customer', '=', True]])
res.partner(7, 18, 12, 14, 17, 19, 8, 31, 26, 16, 13, 20, 30, 22, 29, 15, 23, 28, 74)
Altering the environment¶
SQL Execution¶
The cr
attribute on environments is the
cursor for the current database transaction and allows executing SQL directly,
either for queries which are difficult to express using the ORM (e.g. complex
joins) or for performance reasons:
self.env.cr.execute("some_sql", params)
Because models use the same cursor and the Environment
holds various caches, these caches must be invalidated when altering the
database in raw SQL, or further uses of models may become incoherent. It is
necessary to clear caches when using CREATE
, UPDATE
or DELETE
in
SQL, but not SELECT
(which simply reads the database).
Примечание
Clearing caches can be performed using the
invalidate_cache()
method.
Предупреждение
Executing raw SQL bypasses the ORM, and by consequent, Odoo security rules. Please make sure your queries are sanitized when using user input and prefer using ORM utilities if you don’t really need to use SQL queries.
Common ORM methods¶
Create/update¶
Search/Read¶
Fields/Views¶
Search domains¶
A domain is a list of criteria, each criterion being a triple (either a
list
or a tuple
) of (field_name, operator, value)
where:
field_name
(str
)a field name of the current model, or a relationship traversal through a
Many2one
using dot-notation e.g.'street'
or'partner_id.country'
operator
(str
)an operator used to compare the
field_name
with thevalue
. Valid operators are:=
equals to
!=
not equals to
>
greater than
>=
greater than or equal to
<
less than
<=
less than or equal to
=?
unset or equals to (returns true if
value
is eitherNone
orFalse
, otherwise behaves like=
)=like
matches
field_name
against thevalue
pattern. An underscore_
in the pattern stands for (matches) any single character; a percent sign%
matches any string of zero or more characters.like
matches
field_name
against the%value%
pattern. Similar to=like
but wrapsvalue
with ‘%’ before matchingnot like
doesn’t match against the
%value%
patternilike
case insensitive
like
not ilike
case insensitive
not like
=ilike
case insensitive
=like
in
is equal to any of the items from
value
,value
should be a list of itemsnot in
is unequal to all of the items from
value
child_of
is a child (descendant) of a
value
record (value can be either one item or a list of items).Takes the semantics of the model into account (i.e following the relationship field named by
_parent_name
).parent_of
is a parent (ascendant) of a
value
record (value can be either one item or a list of items).Takes the semantics of the model into account (i.e following the relationship field named by
_parent_name
).
value
variable type, must be comparable (through
operator
) to the named field.
Domain criteria can be combined using logical operators in prefix form:
'&'
logical AND, default operation to combine criteria following one another. Arity 2 (uses the next 2 criteria or combinations).
'|'
logical OR, arity 2.
'!'
logical NOT, arity 1.
Примечание
Mostly to negate combinations of criteria Individual criterion generally have a negative form (e.g.
=
->!=
,<
->>=
) which is simpler than negating the positive.
Example
To search for partners named ABC, from belgium or germany, whose language is not english:
[('name','=','ABC'),
('language.code','!=','en_US'),
'|',('country_id.code','=','be'),
('country_id.code','=','de')]
This domain is interpreted as:
(name is 'ABC')
AND (language is NOT english)
AND (country is Belgium OR Germany)
Unlink¶
Record(set) information¶
-
odoo.models.
env
¶ Returns the environment of the given recordset.
- Type
Environment
Operations¶
Recordsets are immutable, but sets of the same model can be combined using various set operations, returning new recordsets.
record in set
returns whetherrecord
(which must be a 1-element recordset) is present inset
.record not in set
is the inverse operationset1 <= set2
andset1 < set2
return whetherset1
is a subset ofset2
(resp. strict)set1 >= set2
andset1 > set2
return whetherset1
is a superset ofset2
(resp. strict)set1 | set2
returns the union of the two recordsets, a new recordset containing all records present in either sourceset1 & set2
returns the intersection of two recordsets, a new recordset containing only records present in both sourcesset1 - set2
returns a new recordset containing only records ofset1
which are not inset2
Recordsets are iterable so the usual Python tools are available for
transformation (map()
, sorted()
,
itertools.ifilter
, …) however these return either a
list
or an iterator, removing the ability to
call methods on their result, or to use set operations.
Recordsets therefore provide the following operations returning recordsets themselves (when possible):
Filter¶
Map¶
Примечание
Since V13, multi-relational field access is supported and works like a mapped call:
records.partner_id # == records.mapped('partner_id')
records.partner_id.bank_ids # == records.mapped('partner_id.bank_ids')
records.partner_id.mapped('name') # == records.mapped('partner_id.name')
Sort¶
Inheritance and extension¶
Odoo provides three different mechanisms to extend models in a modular way:
creating a new model from an existing one, adding new information to the copy but leaving the original module as-is
extending models defined in other modules in-place, replacing the previous version
delegating some of the model’s fields to records it contains
Classical inheritance¶
When using the _inherit
and
_name
attributes together, Odoo creates a new
model using the existing one (provided via
_inherit
) as a base. The new model gets all the
fields, methods and meta-information (defaults & al) from its base.
class Inheritance0(models.Model):
_name = 'inheritance.0'
_description = 'Inheritance Zero'
name = fields.Char()
def call(self):
return self.check("model 0")
def check(self, s):
return "This is {} record {}".format(s, self.name)
class Inheritance1(models.Model):
_name = 'inheritance.1'
_inherit = 'inheritance.0'
_description = 'Inheritance One'
def call(self):
return self.check("model 1")
and using them:
a = env['inheritance.0'].create({'name': 'A'})
b = env['inheritance.1'].create({'name': 'B'})
a.call()
b.call()
will yield:
“This is model 0 record A” “This is model 1 record B”
the second model has inherited from the first model’s check
method and its
name
field, but overridden the call
method, as when using standard
Python inheritance.
Extension¶
When using _inherit
but leaving out
_name
, the new model replaces the existing one,
essentially extending it in-place. This is useful to add new fields or methods
to existing models (created in other modules), or to customize or reconfigure
them (e.g. to change their default sort order):
class Extension0(models.Model):
_name = 'extension.0'
_description = 'Extension zero'
name = fields.Char(default="A")
class Extension1(models.Model):
_inherit = 'extension.0'
description = fields.Char(default="Extended")
record = env['extension.0'].create({})
record.read()[0]
will yield:
{'name': "A", 'description': "Extended"}
Примечание
It will also yield the various automatic fields unless they’ve been disabled
Delegation¶
The third inheritance mechanism provides more flexibility (it can be altered
at runtime) but less power: using the _inherits
a model delegates the lookup of any field not found on the current model
to “children” models. The delegation is performed via
Reference
fields automatically set up on the parent
model.
The main difference is in the meaning. When using Delegation, the model has one instead of is one, turning the relationship in a composition instead of inheritance:
class Screen(models.Model):
_name = 'delegation.screen'
_description = 'Screen'
size = fields.Float(string='Screen Size in inches')
class Keyboard(models.Model):
_name = 'delegation.keyboard'
_description = 'Keyboard'
layout = fields.Char(string='Layout')
class Laptop(models.Model):
_name = 'delegation.laptop'
_description = 'Laptop'
_inherits = {
'delegation.screen': 'screen_id',
'delegation.keyboard': 'keyboard_id',
}
name = fields.Char(string='Name')
maker = fields.Char(string='Maker')
# a Laptop has a screen
screen_id = fields.Many2one('delegation.screen', required=True, ondelete="cascade")
# a Laptop has a keyboard
keyboard_id = fields.Many2one('delegation.keyboard', required=True, ondelete="cascade")
record = env['delegation.laptop'].create({
'screen_id': env['delegation.screen'].create({'size': 13.0}).id,
'keyboard_id': env['delegation.keyboard'].create({'layout': 'QWERTY'}).id,
})
record.size
record.layout
will result in:
13.0
'QWERTY'
and it’s possible to write directly on the delegated field:
record.write({'size': 14.0})
Предупреждение
when using delegation inheritance, methods are not inherited, only fields
Предупреждение
_inherits
is more or less implemented, avoid it if you can;chained
_inherits
is essentially not implemented, we cannot guarantee anything on the final behavior.
Fields Incremental Definition¶
A field is defined as class attribute on a model class. If the model is extended, one can also extend the field definition by redefining a field with the same name and same type on the subclass. In that case, the attributes of the field are taken from the parent class and overridden by the ones given in subclasses.
For instance, the second class below only adds a tooltip on the field
state
:
class First(models.Model):
_name = 'foo'
state = fields.Selection([...], required=True)
class Second(models.Model):
_inherit = 'foo'
state = fields.Selection(help="Blah blah blah")