1231 lines
42 KiB
ReStructuredText
1231 lines
42 KiB
ReStructuredText
:banner: banners/orm_api.jpg
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.. _reference/orm:
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=======
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ORM API
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=======
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Recordsets
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==========
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.. versionadded:: 8.0
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This page documents the New API added in Flectra 8.0 which should be the
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primary development API going forward. It also provides information about
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porting from or bridging with the "old API" of versions 7 and earlier, but
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does not explicitly document that API. See the old documentation for that.
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Interaction with models and records is performed through recordsets, a sorted
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set of records of the same model.
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.. warning:: contrary to what the name implies, it is currently possible for
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recordsets to contain duplicates. This may change in the future.
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Methods defined on a model are executed on a recordset, and their ``self`` is
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a recordset::
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class AModel(models.Model):
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_name = 'a.model'
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def a_method(self):
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# self can be anywhere between 0 records and all records in the
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# database
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self.do_operation()
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Iterating on a recordset will yield new sets of *a single record*
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("singletons"), much like iterating on a Python string yields strings of a
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single characters::
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def do_operation(self):
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print self # => a.model(1, 2, 3, 4, 5)
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for record in self:
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print record # => a.model(1), then a.model(2), then a.model(3), ...
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Field access
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------------
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Recordsets provide an "Active Record" interface: model fields can be read and
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written directly from the record as attributes, but only on singletons
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(single-record recordsets).
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Field values can also be accessed like dict items, which is more elegant and
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safer than ``getattr()`` for dynamic field names.
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Setting a field's value triggers an update to the database::
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>>> record.name
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Example Name
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>>> record.company_id.name
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Company Name
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>>> record.name = "Bob"
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>>> field = "name"
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>>> record[field]
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Bob
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Trying to read or write a field on multiple records will raise an error.
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Accessing a relational field (:class:`~flectra.fields.Many2one`,
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:class:`~flectra.fields.One2many`, :class:`~flectra.fields.Many2many`)
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*always* returns a recordset, empty if the field is not set.
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.. danger::
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each assignment to a field triggers a database update, when setting
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multiple fields at the same time or setting fields on multiple records
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(to the same value), use :meth:`~flectra.models.Model.write`::
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# 3 * len(records) database updates
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for record in records:
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record.a = 1
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record.b = 2
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record.c = 3
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# len(records) database updates
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for record in records:
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record.write({'a': 1, 'b': 2, 'c': 3})
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# 1 database update
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records.write({'a': 1, 'b': 2, 'c': 3})
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Record cache and prefetching
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----------------------------
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Flectra maintains a cache for the fields of the records, so that not every field
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access issues a database request, which would be terrible for performance. The
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following example queries the database only for the first statement::
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record.name # first access reads value from database
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record.name # second access gets value from cache
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To avoid reading one field on one record at a time, Flectra *prefetches* records
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and fields following some heuristics to get good performance. Once a field must
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be read on a given record, the ORM actually reads that field on a larger
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recordset, and stores the returned values in cache for later use. The prefetched
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recordset is usually the recordset from which the record comes by iteration.
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Moreover, all simple stored fields (boolean, integer, float, char, text, date,
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datetime, selection, many2one) are fetched altogether; they correspond to the
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columns of the model's table, and are fetched efficiently in the same query.
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Consider the following example, where ``partners`` is a recordset of 1000
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records. Without prefetching, the loop would make 2000 queries to the database.
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With prefetching, only one query is made::
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for partner in partners:
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print partner.name # first pass prefetches 'name' and 'lang'
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# (and other fields) on all 'partners'
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print partner.lang
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The prefetching also works on *secondary records*: when relational fields are
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read, their values (which are records) are subscribed for future prefetching.
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Accessing one of those secondary records prefetches all secondary records from
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the same model. This makes the following example generate only two queries, one
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for partners and one for countries::
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countries = set()
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for partner in partners:
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country = partner.country_id # first pass prefetches all partners
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countries.add(country.name) # first pass prefetches all countries
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Set operations
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--------------
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Recordsets are immutable, but sets of the same model can be combined using
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various set operations, returning new recordsets. Set operations do *not*
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preserve order.
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.. addition preserves order but can introduce duplicates
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* ``record in set`` returns whether ``record`` (which must be a 1-element
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recordset) is present in ``set``. ``record not in set`` is the inverse
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operation
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* ``set1 <= set2`` and ``set1 < set2`` return whether ``set1`` is a subset
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of ``set2`` (resp. strict)
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* ``set1 >= set2`` and ``set1 > set2`` return whether ``set1`` is a superset
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of ``set2`` (resp. strict)
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* ``set1 | set2`` returns the union of the two recordsets, a new recordset
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containing all records present in either source
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* ``set1 & set2`` returns the intersection of two recordsets, a new recordset
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containing only records present in both sources
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* ``set1 - set2`` returns a new recordset containing only records of ``set1``
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which are *not* in ``set2``
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Other recordset operations
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--------------------------
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Recordsets are iterable so the usual Python tools are available for
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transformation (:func:`python:map`, :func:`python:sorted`,
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:func:`~python:itertools.ifilter`, ...) however these return either a
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:class:`python:list` or an :term:`python:iterator`, removing the ability to
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call methods on their result, or to use set operations.
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Recordsets therefore provide these operations returning recordsets themselves
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(when possible):
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:meth:`~flectra.models.Model.filtered`
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returns a recordset containing only records satisfying the provided
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predicate function. The predicate can also be a string to filter by a
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field being true or false::
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# only keep records whose company is the current user's
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records.filtered(lambda r: r.company_id == user.company_id)
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# only keep records whose partner is a company
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records.filtered("partner_id.is_company")
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:meth:`~flectra.models.Model.sorted`
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returns a recordset sorted by the provided key function. If no key
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is provided, use the model's default sort order::
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# sort records by name
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records.sorted(key=lambda r: r.name)
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:meth:`~flectra.models.Model.mapped`
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applies the provided function to each record in the recordset, returns
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a recordset if the results are recordsets::
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# returns a list of summing two fields for each record in the set
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records.mapped(lambda r: r.field1 + r.field2)
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The provided function can be a string to get field values::
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# returns a list of names
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records.mapped('name')
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# returns a recordset of partners
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record.mapped('partner_id')
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# returns the union of all partner banks, with duplicates removed
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record.mapped('partner_id.bank_ids')
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Environment
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===========
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The :class:`~flectra.api.Environment` stores various contextual data used by
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the ORM: the database cursor (for database queries), the current user
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(for access rights checking) and the current context (storing arbitrary
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metadata). The environment also stores caches.
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All recordsets have an environment, which is immutable, can be accessed
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using :attr:`~flectra.models.Model.env` and gives access to the current user
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(:attr:`~flectra.api.Environment.user`), the cursor
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(:attr:`~flectra.api.Environment.cr`) or the context
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(:attr:`~flectra.api.Environment.context`)::
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>>> records.env
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<Environment object ...>
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>>> records.env.user
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res.user(3)
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>>> records.env.cr
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<Cursor object ...)
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When creating a recordset from an other recordset, the environment is
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inherited. The environment can be used to get an empty recordset in an
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other model, and query that model::
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>>> self.env['res.partner']
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res.partner
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>>> self.env['res.partner'].search([['is_company', '=', True], ['customer', '=', True]])
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res.partner(7, 18, 12, 14, 17, 19, 8, 31, 26, 16, 13, 20, 30, 22, 29, 15, 23, 28, 74)
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Altering the environment
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------------------------
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The environment can be customized from a recordset. This returns a new
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version of the recordset using the altered environment.
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:meth:`~flectra.models.Model.sudo`
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creates a new environment with the provided user set, uses the
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administrator if none is provided (to bypass access rights/rules in safe
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contexts), returns a copy of the recordset it is called on using the
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new environment::
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# create partner object as administrator
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env['res.partner'].sudo().create({'name': "A Partner"})
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# list partners visible by the "public" user
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public = env.ref('base.public_user')
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env['res.partner'].sudo(public).search([])
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:meth:`~flectra.models.Model.with_context`
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#. can take a single positional parameter, which replaces the current
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environment's context
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#. can take any number of parameters by keyword, which are added to either
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the current environment's context or the context set during step 1
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::
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# look for partner, or create one with specified timezone if none is
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# found
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env['res.partner'].with_context(tz=a_tz).find_or_create(email_address)
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:meth:`~flectra.models.Model.with_env`
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replaces the existing environment entirely
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Common ORM methods
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==================
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.. maybe these clarifications/examples should be in the APIDoc?
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:meth:`~flectra.models.Model.search`
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Takes a :ref:`search domain <reference/orm/domains>`, returns a recordset
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of matching records. Can return a subset of matching records (``offset``
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and ``limit`` parameters) and be ordered (``order`` parameter)::
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>>> # searches the current model
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>>> self.search([('is_company', '=', True), ('customer', '=', True)])
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res.partner(7, 18, 12, 14, 17, 19, 8, 31, 26, 16, 13, 20, 30, 22, 29, 15, 23, 28, 74)
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>>> self.search([('is_company', '=', True)], limit=1).name
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'Agrolait'
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.. tip:: to just check if any record matches a domain, or count the number
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of records which do, use
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:meth:`~flectra.models.Model.search_count`
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:meth:`~flectra.models.Model.create`
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Takes a number of field values, and returns a recordset containing the
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record created::
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>>> self.create({'name': "New Name"})
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res.partner(78)
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:meth:`~flectra.models.Model.write`
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Takes a number of field values, writes them to all the records in its
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recordset. Does not return anything::
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self.write({'name': "Newer Name"})
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:meth:`~flectra.models.Model.browse`
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Takes a database id or a list of ids and returns a recordset, useful when
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record ids are obtained from outside Flectra (e.g. round-trip through
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external system) or :ref:`when calling methods in the old API
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<reference/orm/oldapi>`::
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>>> self.browse([7, 18, 12])
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res.partner(7, 18, 12)
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:meth:`~flectra.models.Model.exists`
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Returns a new recordset containing only the records which exist in the
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database. Can be used to check whether a record (e.g. obtained externally)
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still exists::
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if not record.exists():
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raise Exception("The record has been deleted")
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or after calling a method which could have removed some records::
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records.may_remove_some()
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# only keep records which were not deleted
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records = records.exists()
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:meth:`~flectra.api.Environment.ref`
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Environment method returning the record matching a provided
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:term:`external id`::
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>>> env.ref('base.group_public')
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res.groups(2)
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:meth:`~flectra.models.Model.ensure_one`
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checks that the recordset is a singleton (only contains a single record),
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raises an error otherwise::
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records.ensure_one()
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# is equivalent to but clearer than:
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assert len(records) == 1, "Expected singleton"
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Creating Models
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===============
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Model fields are defined as attributes on the model itself::
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from flectra import models, fields
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class AModel(models.Model):
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_name = 'a.model.name'
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field1 = fields.Char()
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.. warning:: this means you can not define a field and a method with the same
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name, they will conflict
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By default, the field's label (user-visible name) is a capitalized version of
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the field name, this can be overridden with the ``string`` parameter::
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field2 = fields.Integer(string="an other field")
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For the various field types and parameters, see :ref:`the fields reference
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<reference/orm/fields>`.
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Default values are defined as parameters on fields, either a value::
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a_field = fields.Char(default="a value")
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or a function called to compute the default value, which should return that
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value::
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def compute_default_value(self):
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return self.get_value()
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a_field = fields.Char(default=compute_default_value)
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Computed fields
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---------------
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Fields can be computed (instead of read straight from the database) using the
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``compute`` parameter. **It must assign the computed value to the field**. If
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it uses the values of other *fields*, it should specify those fields using
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:func:`~flectra.api.depends`::
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from flectra import api
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total = fields.Float(compute='_compute_total')
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@api.depends('value', 'tax')
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def _compute_total(self):
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for record in self:
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record.total = record.value + record.value * record.tax
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* dependencies can be dotted paths when using sub-fields::
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@api.depends('line_ids.value')
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def _compute_total(self):
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for record in self:
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record.total = sum(line.value for line in record.line_ids)
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* computed fields are not stored by default, they are computed and
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returned when requested. Setting ``store=True`` will store them in the
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database and automatically enable searching
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* searching on a computed field can also be enabled by setting the ``search``
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parameter. The value is a method name returning a
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:ref:`reference/orm/domains`::
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upper_name = field.Char(compute='_compute_upper', search='_search_upper')
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def _search_upper(self, operator, value):
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if operator == 'like':
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operator = 'ilike'
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return [('name', operator, value)]
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* to allow *setting* values on a computed field, use the ``inverse``
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parameter. It is the name of a function reversing the computation and
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setting the relevant fields::
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document = fields.Char(compute='_get_document', inverse='_set_document')
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def _get_document(self):
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for record in self:
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with open(record.get_document_path) as f:
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record.document = f.read()
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def _set_document(self):
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for record in self:
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if not record.document: continue
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with open(record.get_document_path()) as f:
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f.write(record.document)
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* multiple fields can be computed at the same time by the same method, just
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use the same method on all fields and set all of them::
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discount_value = fields.Float(compute='_apply_discount')
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total = fields.Float(compute='_apply_discount')
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@depends('value', 'discount')
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def _apply_discount(self):
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for record in self:
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# compute actual discount from discount percentage
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discount = record.value * record.discount
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record.discount_value = discount
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record.total = record.value - discount
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|
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Related fields
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''''''''''''''
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A special case of computed fields are *related* (proxy) fields, which provide
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the value of a sub-field on the current record. They are defined by setting
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the ``related`` parameter and like regular computed fields they can be
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stored::
|
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nickname = fields.Char(related='user_id.partner_id.name', store=True)
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onchange: updating UI on the fly
|
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--------------------------------
|
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When a user changes a field's value in a form (but hasn't saved the form yet),
|
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it can be useful to automatically update other fields based on that value
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e.g. updating a final total when the tax is changed or a new invoice line is
|
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added.
|
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* computed fields are automatically checked and recomputed, they do not need
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an ``onchange``
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* for non-computed fields, the :func:`~flectra.api.onchange` decorator is used
|
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to provide new field values::
|
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@api.onchange('field1', 'field2') # if these fields are changed, call method
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def check_change(self):
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if self.field1 < self.field2:
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self.field3 = True
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the changes performed during the method are then sent to the client program
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and become visible to the user
|
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* Both computed fields and new-API onchanges are automatically called by the
|
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client without having to add them in views
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* It is possible to suppress the trigger from a specific field by adding
|
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``on_change="0"`` in a view::
|
||
|
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<field name="name" on_change="0"/>
|
||
|
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will not trigger any interface update when the field is edited by the user,
|
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even if there are function fields or explicit onchange depending on that
|
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field.
|
||
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.. note::
|
||
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``onchange`` methods work on virtual records assignment on these records
|
||
is not written to the database, just used to know which value to send back
|
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to the client
|
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|
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Low-level SQL
|
||
-------------
|
||
|
||
The :attr:`~flectra.api.Environment.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
|
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joins) or for performance reasons::
|
||
|
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self.env.cr.execute("some_sql", param1, param2, param3)
|
||
|
||
Because models use the same cursor and the :class:`~flectra.api.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).
|
||
|
||
Clearing caches can be performed using the
|
||
:meth:`~flectra.api.Environment.invalidate_all` method of the
|
||
:class:`~flectra.api.Environment` object.
|
||
|
||
|
||
.. _reference/orm/oldapi:
|
||
|
||
Compatibility between new API and old API
|
||
=========================================
|
||
|
||
Flectra is currently transitioning from an older (less regular) API, it can be
|
||
necessary to manually bridge from one to the other manually:
|
||
|
||
* RPC layers (both XML-RPC and JSON-RPC) are expressed in terms of the old
|
||
API, methods expressed purely in the new API are not available over RPC
|
||
* overridable methods may be called from older pieces of code still written
|
||
in the old API style
|
||
|
||
The big differences between the old and new APIs are:
|
||
|
||
* values of the :class:`~flectra.api.Environment` (cursor, user id and
|
||
context) are passed explicitly to methods instead
|
||
* record data (:attr:`~flectra.models.Model.ids`) are passed explicitly to
|
||
methods, and possibly not passed at all
|
||
* methods tend to work on lists of ids instead of recordsets
|
||
|
||
By default, methods are assumed to use the new API style and are not callable
|
||
from the old API style.
|
||
|
||
.. tip:: calls from the new API to the old API are bridged
|
||
:class: aphorism
|
||
|
||
when using the new API style, calls to methods defined using the old API
|
||
are automatically converted on-the-fly, there should be no need to do
|
||
anything special::
|
||
|
||
>>> # method in the old API style
|
||
>>> def old_method(self, cr, uid, ids, context=None):
|
||
... print ids
|
||
|
||
>>> # method in the new API style
|
||
>>> def new_method(self):
|
||
... # system automatically infers how to call the old-style
|
||
... # method from the new-style method
|
||
... self.old_method()
|
||
|
||
>>> env[model].browse([1, 2, 3, 4]).new_method()
|
||
[1, 2, 3, 4]
|
||
|
||
Two decorators can expose a new-style method to the old API:
|
||
|
||
:func:`~flectra.api.model`
|
||
the method is exposed as not using ids, its recordset will generally be
|
||
empty. Its "old API" signature is ``cr, uid, *arguments, context``::
|
||
|
||
@api.model
|
||
def some_method(self, a_value):
|
||
pass
|
||
# can be called as
|
||
old_style_model.some_method(cr, uid, a_value, context=context)
|
||
|
||
:func:`~flectra.api.multi`
|
||
the method is exposed as taking a list of ids (possibly empty), its
|
||
"old API" signature is ``cr, uid, ids, *arguments, context``::
|
||
|
||
@api.multi
|
||
def some_method(self, a_value):
|
||
pass
|
||
# can be called as
|
||
old_style_model.some_method(cr, uid, [id1, id2], a_value, context=context)
|
||
|
||
Because new-style APIs tend to return recordsets and old-style APIs tend to
|
||
return lists of ids, there is also a decorator managing this:
|
||
|
||
:func:`~flectra.api.returns`
|
||
the function is assumed to return a recordset, the first parameter should
|
||
be the name of the recordset's model or ``self`` (for the current model).
|
||
|
||
No effect if the method is called in new API style, but transforms the
|
||
recordset into a list of ids when called from the old API style::
|
||
|
||
>>> @api.multi
|
||
... @api.returns('self')
|
||
... def some_method(self):
|
||
... return self
|
||
>>> new_style_model = env['a.model'].browse(1, 2, 3)
|
||
>>> new_style_model.some_method()
|
||
a.model(1, 2, 3)
|
||
>>> old_style_model = pool['a.model']
|
||
>>> old_style_model.some_method(cr, uid, [1, 2, 3], context=context)
|
||
[1, 2, 3]
|
||
|
||
.. _reference/orm/model:
|
||
|
||
Model Reference
|
||
===============
|
||
|
||
.. - can't get autoattribute to import docstrings, so use regular attribute
|
||
- no autoclassmethod
|
||
|
||
.. currentmodule:: flectra.models
|
||
|
||
.. autoclass:: flectra.models.Model
|
||
|
||
.. rubric:: Structural attributes
|
||
|
||
.. attribute:: _name
|
||
|
||
business object name, in dot-notation (in module namespace)
|
||
|
||
.. attribute:: _rec_name
|
||
|
||
Alternative field to use as name, used by osv’s name_get()
|
||
(default: ``'name'``)
|
||
|
||
.. attribute:: _inherit
|
||
|
||
* If :attr:`._name` is set, names of parent models to inherit from.
|
||
Can be a ``str`` if inheriting from a single parent
|
||
* If :attr:`._name` is unset, name of a single model to extend
|
||
in-place
|
||
|
||
See :ref:`reference/orm/inheritance`.
|
||
|
||
.. attribute:: _order
|
||
|
||
Ordering field when searching without an ordering specified (default:
|
||
``'id'``)
|
||
|
||
:type: str
|
||
|
||
.. attribute:: _auto
|
||
|
||
Whether a database table should be created (default: ``True``)
|
||
|
||
If set to ``False``, override :meth:`.init` to create the database
|
||
table
|
||
|
||
.. attribute:: _table
|
||
|
||
Name of the table backing the model created when
|
||
:attr:`~flectra.models.Model._auto`, automatically generated by
|
||
default.
|
||
|
||
.. attribute:: _inherits
|
||
|
||
dictionary mapping the _name of the parent business objects to the
|
||
names of the corresponding foreign key fields to use::
|
||
|
||
_inherits = {
|
||
'a.model': 'a_field_id',
|
||
'b.model': 'b_field_id'
|
||
}
|
||
|
||
implements composition-based inheritance: the new model exposes all
|
||
the fields of the :attr:`~flectra.models.Model._inherits`-ed model but
|
||
stores none of them: the values themselves remain stored on the linked
|
||
record.
|
||
|
||
.. warning::
|
||
|
||
if the same field is defined on multiple
|
||
:attr:`~flectra.models.Model._inherits`-ed
|
||
|
||
.. attribute:: _constraints
|
||
|
||
list of ``(constraint_function, message, fields)`` defining Python
|
||
constraints. The fields list is indicative
|
||
|
||
.. deprecated:: 8.0
|
||
|
||
use :func:`~flectra.api.constrains`
|
||
|
||
.. attribute:: _sql_constraints
|
||
|
||
list of ``(name, sql_definition, message)`` triples defining SQL
|
||
constraints to execute when generating the backing table
|
||
|
||
.. attribute:: _parent_store
|
||
|
||
Alongside :attr:`~.parent_left` and :attr:`~.parent_right`, sets up a
|
||
`nested set <http://en.wikipedia.org/wiki/Nested_set_model>`_ to
|
||
enable fast hierarchical queries on the records of the current model
|
||
(default: ``False``)
|
||
|
||
:type: bool
|
||
|
||
.. rubric:: CRUD
|
||
|
||
.. automethod:: create
|
||
.. automethod:: browse
|
||
.. automethod:: unlink
|
||
.. automethod:: write
|
||
|
||
.. automethod:: read
|
||
.. automethod:: read_group
|
||
|
||
.. rubric:: Searching
|
||
|
||
.. automethod:: search
|
||
.. automethod:: search_count
|
||
.. automethod:: name_search
|
||
|
||
.. rubric:: Recordset operations
|
||
|
||
.. autoattribute:: ids
|
||
.. automethod:: ensure_one
|
||
.. automethod:: exists
|
||
.. automethod:: filtered
|
||
.. automethod:: sorted
|
||
.. automethod:: mapped
|
||
|
||
.. rubric:: Environment swapping
|
||
|
||
.. automethod:: sudo
|
||
.. automethod:: with_context
|
||
.. automethod:: with_env
|
||
|
||
.. rubric:: Fields and views querying
|
||
|
||
.. automethod:: fields_get
|
||
.. automethod:: fields_view_get
|
||
|
||
.. rubric:: Miscellaneous methods
|
||
|
||
.. automethod:: default_get
|
||
.. automethod:: copy
|
||
.. automethod:: name_get
|
||
.. automethod:: name_create
|
||
|
||
.. _reference/orm/model/automatic:
|
||
|
||
.. rubric:: Automatic fields
|
||
|
||
.. attribute:: id
|
||
|
||
Identifier :class:`field <flectra.fields.Field>`
|
||
|
||
.. attribute:: _log_access
|
||
|
||
Whether log access fields (``create_date``, ``write_uid``, ...) should
|
||
be generated (default: ``True``)
|
||
|
||
.. attribute:: create_date
|
||
|
||
Date at which the record was created
|
||
|
||
:type: :class:`~flectra.field.Datetime`
|
||
|
||
.. attribute:: create_uid
|
||
|
||
Relational field to the user who created the record
|
||
|
||
:type: ``res.users``
|
||
|
||
.. attribute:: write_date
|
||
|
||
Date at which the record was last modified
|
||
|
||
:type: :class:`~flectra.field.Datetime`
|
||
|
||
.. attribute:: write_uid
|
||
|
||
Relational field to the last user who modified the record
|
||
|
||
:type: ``res.users``
|
||
|
||
.. rubric:: 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:
|
||
|
||
.. attribute:: name
|
||
|
||
default value for :attr:`~._rec_name`, used to
|
||
display records in context where a representative "naming" is
|
||
necessary.
|
||
|
||
:type: :class:`~flectra.fields.Char`
|
||
|
||
.. attribute:: active
|
||
|
||
toggles the global visibility of the record, if ``active`` is set to
|
||
``False`` the record is invisible in most searches and listing
|
||
|
||
:type: :class:`~flectra.fields.Boolean`
|
||
|
||
.. attribute:: sequence
|
||
|
||
Alterable ordering criteria, allows drag-and-drop reordering of models
|
||
in list views
|
||
|
||
:type: :class:`~flectra.fields.Integer`
|
||
|
||
.. attribute:: state
|
||
|
||
lifecycle stages of the object, used by the ``states`` attribute on
|
||
:class:`fields <flectra.fields.Field>`
|
||
|
||
:type: :class:`~flectra.fields.Selection`
|
||
|
||
.. attribute:: parent_id
|
||
|
||
used to order records in a tree structure and enables the ``child_of``
|
||
operator in domains
|
||
|
||
:type: :class:`~flectra.fields.Many2one`
|
||
|
||
.. attribute:: parent_left
|
||
|
||
used with :attr:`~._parent_store`, allows faster tree structure access
|
||
|
||
.. attribute:: parent_right
|
||
|
||
see :attr:`~.parent_left`
|
||
|
||
.. _reference/orm/decorators:
|
||
|
||
Method decorators
|
||
=================
|
||
|
||
.. automodule:: flectra.api
|
||
:members: multi, model, depends, constrains, onchange, returns,
|
||
one, v7, v8
|
||
|
||
.. _reference/orm/fields:
|
||
|
||
Fields
|
||
======
|
||
|
||
.. _reference/orm/fields/basic:
|
||
|
||
Basic fields
|
||
------------
|
||
|
||
.. autodoc documents descriptors as attributes, even for the *definition* of
|
||
descriptors. As a result automodule:: flectra.fields lists all the field
|
||
classes as attributes without providing inheritance info or methods (though
|
||
we don't document methods as they're not useful for "external" devs)
|
||
(because we don't support pluggable field types) (or do we?)
|
||
|
||
.. autoclass:: flectra.fields.Field
|
||
|
||
.. autoclass:: flectra.fields.Char
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Boolean
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Integer
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Float
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Text
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Selection
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Html
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Date
|
||
:show-inheritance:
|
||
:members: today, context_today, from_string, to_string
|
||
|
||
.. autoclass:: flectra.fields.Datetime
|
||
:show-inheritance:
|
||
:members: now, context_timestamp, from_string, to_string
|
||
|
||
.. _reference/orm/fields/relational:
|
||
|
||
Relational fields
|
||
-----------------
|
||
|
||
.. autoclass:: flectra.fields.Many2one
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.One2many
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Many2many
|
||
:show-inheritance:
|
||
|
||
.. autoclass:: flectra.fields.Reference
|
||
:show-inheritance:
|
||
|
||
.. _reference/orm/inheritance:
|
||
|
||
Inheritance and extension
|
||
=========================
|
||
|
||
Flectra 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
|
||
|
||
.. image:: ../images/inheritance_methods.png
|
||
:align: center
|
||
|
||
Classical inheritance
|
||
---------------------
|
||
|
||
When using the :attr:`~flectra.models.Model._inherit` and
|
||
:attr:`~flectra.models.Model._name` attributes together, Flectra creates a new
|
||
model using the existing one (provided via
|
||
:attr:`~flectra.models.Model._inherit`) as a base. The new model gets all the
|
||
fields, methods and meta-information (defaults & al) from its base.
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/inheritance.py
|
||
:language: python
|
||
:lines: 5-
|
||
|
||
and using them:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_inheritance.py
|
||
:language: python
|
||
:lines: 10,11,14,19
|
||
|
||
will yield:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_inheritance.py
|
||
:language: text
|
||
:lines: 16,21
|
||
|
||
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
|
||
:ref:`Python inheritance <python:tut-inheritance>`.
|
||
|
||
Extension
|
||
---------
|
||
|
||
When using :attr:`~flectra.models.Model._inherit` but leaving out
|
||
:attr:`~flectra.models.Model._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):
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/extension.py
|
||
:language: python
|
||
:lines: 5-
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_extension.py
|
||
:language: python
|
||
:lines: 8,13
|
||
|
||
will yield:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_extension.py
|
||
:language: text
|
||
:lines: 11
|
||
|
||
.. note:: it will also yield the various :ref:`automatic fields
|
||
<reference/orm/model/automatic>` unless they've been disabled
|
||
|
||
Delegation
|
||
----------
|
||
|
||
The third inheritance mechanism provides more flexibility (it can be altered
|
||
at runtime) but less power: using the :attr:`~flectra.models.Model._inherits`
|
||
a model *delegates* the lookup of any field not found on the current model
|
||
to "children" models. The delegation is performed via
|
||
:class:`~flectra.fields.Reference` fields automatically set up on the parent
|
||
model:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/delegation.py
|
||
:language: python
|
||
:lines: 5-
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_delegation.py
|
||
:language: python
|
||
:lines: 11-14,23,28
|
||
|
||
will result in:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_delegation.py
|
||
:language: text
|
||
:lines: 25,30
|
||
|
||
and it's possible to write directly on the delegated field:
|
||
|
||
.. literalinclude:: ../../flectra/addons/test_documentation_examples/tests/test_delegation.py
|
||
:language: python
|
||
:lines: 45
|
||
|
||
.. warning:: when using delegation inheritance, methods are *not* inherited,
|
||
only fields
|
||
|
||
.. _reference/orm/domains:
|
||
|
||
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 :class:`~flectra.fields.Many2one` using dot-notation e.g. ``'street'``
|
||
or ``'partner_id.country'``
|
||
``operator`` (``str``)
|
||
an operator used to compare the ``field_name`` with the ``value``. 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 either ``None`` or
|
||
``False``, otherwise behaves like ``=``)
|
||
``=like``
|
||
matches ``field_name`` against the ``value`` 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 wraps ``value`` with '%' before matching
|
||
``not like``
|
||
doesn't match against the ``%value%`` pattern
|
||
``ilike``
|
||
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 items
|
||
``not in``
|
||
is unequal to all of the items from ``value``
|
||
``child_of``
|
||
is a child (descendant) of a ``value`` record.
|
||
|
||
Takes the semantics of the model into account (i.e following the
|
||
relationship field named by
|
||
:attr:`~flectra.models.Model._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.
|
||
|
||
.. tip:: Mostly to negate combinations of criteria
|
||
:class: aphorism
|
||
|
||
Individual criterion generally have a negative form (e.g. ``=`` ->
|
||
``!=``, ``<`` -> ``>=``) which is simpler than negating the positive.
|
||
|
||
.. admonition:: 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:
|
||
|
||
.. code-block:: text
|
||
|
||
(name is 'ABC')
|
||
AND (language is NOT english)
|
||
AND (country is Belgium OR Germany)
|
||
|
||
Porting from the old API to the new API
|
||
=======================================
|
||
|
||
* bare lists of ids are to be avoided in the new API, use recordsets instead
|
||
* methods still written in the old API should be automatically bridged by the
|
||
ORM, no need to switch to the old API, just call them as if they were a new
|
||
API method. See :ref:`reference/orm/oldapi/bridging` for more details.
|
||
* :meth:`~flectra.models.Model.search` returns a recordset, no point in e.g.
|
||
browsing its result
|
||
* ``fields.related`` and ``fields.function`` are replaced by using a normal
|
||
field type with either a ``related=`` or a ``compute=`` parameter
|
||
* :func:`~flectra.api.depends` on ``compute=`` methods **must be complete**,
|
||
it must list **all** the fields and sub-fields which the compute method
|
||
uses. It is better to have too many dependencies (will recompute the field
|
||
in cases where that is not needed) than not enough (will forget to recompute
|
||
the field and then values will be incorrect)
|
||
* **remove** all ``onchange`` methods on computed fields. Computed fields are
|
||
automatically re-computed when one of their dependencies is changed, and
|
||
that is used to auto-generate ``onchange`` by the client
|
||
* the decorators :func:`~flectra.api.model` and :func:`~flectra.api.multi` are
|
||
for bridging *when calling from the old API context*, for internal or pure
|
||
new-api (e.g. compute) they are useless
|
||
* remove :attr:`~flectra.models.Model._default`, replace by ``default=``
|
||
parameter on corresponding fields
|
||
* if a field's ``string=`` is the titlecased version of the field name::
|
||
|
||
name = fields.Char(string="Name")
|
||
|
||
it is useless and should be removed
|
||
* the ``multi=`` parameter does not do anything on new API fields use the same
|
||
``compute=`` methods on all relevant fields for the same result
|
||
* provide ``compute=``, ``inverse=`` and ``search=`` methods by name (as a
|
||
string), this makes them overridable (removes the need for an intermediate
|
||
"trampoline" function)
|
||
* double check that all fields and methods have different names, there is no
|
||
warning in case of collision (because Python handles it before Flectra sees
|
||
anything)
|
||
* the normal new-api import is ``from flectra import fields, models``. If
|
||
compatibility decorators are necessary, use ``from flectra import api,
|
||
fields, models``
|
||
* avoid the :func:`~flectra.api.one` decorator, it probably does not do what
|
||
you expect
|
||
* remove explicit definition of :attr:`~flectra.models.Model.create_uid`,
|
||
:attr:`~flectra.models.Model.create_date`,
|
||
:attr:`~flectra.models.Model.write_uid` and
|
||
:attr:`~flectra.models.Model.write_date` fields: they are now created as
|
||
regular "legitimate" fields, and can be read and written like any other
|
||
field out-of-the-box
|
||
* when straight conversion is impossible (semantics can not be bridged) or the
|
||
"old API" version is not desirable and could be improved for the new API, it
|
||
is possible to use completely different "old API" and "new API"
|
||
implementations for the same method name using :func:`~flectra.api.v7` and
|
||
:func:`~flectra.api.v8`. The method should first be defined using the
|
||
old-API style and decorated with :func:`~flectra.api.v7`, it should then be
|
||
re-defined using the exact same name but the new-API style and decorated
|
||
with :func:`~flectra.api.v8`. Calls from an old-API context will be
|
||
dispatched to the first implementation and calls from a new-API context will
|
||
be dispatched to the second implementation. One implementation can call (and
|
||
frequently does) call the other by switching context.
|
||
|
||
.. danger:: using these decorators makes methods extremely difficult to
|
||
override and harder to understand and document
|
||
* uses of :attr:`~flectra.models.Model._columns` or
|
||
:attr:`~flectra.models.Model._all_columns` should be replaced by
|
||
:attr:`~flectra.models.Model._fields`, which provides access to instances of
|
||
new-style :class:`flectra.fields.Field` instances (rather than old-style
|
||
:class:`flectra.osv.fields._column`).
|
||
|
||
Non-stored computed fields created using the new API style are *not*
|
||
available in :attr:`~flectra.models.Model._columns` and can only be
|
||
inspected through :attr:`~flectra.models.Model._fields`
|
||
* reassigning ``self`` in a method is probably unnecessary and may break
|
||
translation introspection
|
||
* :class:`~flectra.api.Environment` objects rely on some threadlocal state,
|
||
which has to be set up before using them. It is necessary to do so using the
|
||
:meth:`flectra.api.Environment.manage` context manager when trying to use
|
||
the new API in contexts where it hasn't been set up yet, such as new threads
|
||
or a Python interactive environment::
|
||
|
||
>>> from flectra import api, modules
|
||
>>> r = modules.registry.RegistryManager.get('test')
|
||
>>> cr = r.cursor()
|
||
>>> env = api.Environment(cr, 1, {})
|
||
Traceback (most recent call last):
|
||
...
|
||
AttributeError: environments
|
||
>>> with api.Environment.manage():
|
||
... env = api.Environment(cr, 1, {})
|
||
... print env['res.partner'].browse(1)
|
||
...
|
||
res.partner(1,)
|
||
|
||
.. _reference/orm/oldapi/bridging:
|
||
|
||
Automatic bridging of old API methods
|
||
-------------------------------------
|
||
|
||
When models are initialized, all methods are automatically scanned and bridged
|
||
if they look like models declared in the old API style. This bridging makes
|
||
them transparently callable from new-API-style methods.
|
||
|
||
Methods are matched as "old-API style" if their second positional parameter
|
||
(after ``self``) is called either ``cr`` or ``cursor``. The system also
|
||
recognizes the third positional parameter being called ``uid`` or ``user`` and
|
||
the fourth being called ``id`` or ``ids``. It also recognizes the presence of
|
||
any parameter called ``context``.
|
||
|
||
When calling such methods from a new API context, the system will
|
||
automatically fill matched parameters from the current
|
||
:class:`~flectra.api.Environment` (for :attr:`~flectra.api.Environment.cr`,
|
||
:attr:`~flectra.api.Environment.user` and
|
||
:attr:`~flectra.api.Environment.context`) or the current recordset (for ``id``
|
||
and ``ids``).
|
||
|
||
In the rare cases where it is necessary, the bridging can be customized by
|
||
decorating the old-style method:
|
||
|
||
* disabling it entirely, by decorating a method with
|
||
:func:`~flectra.api.noguess` there will be no bridging and methods will be
|
||
called the exact same way from the new and old API styles
|
||
* defining the bridge explicitly, this is mostly for methods which are matched
|
||
incorrectly (because parameters are named in unexpected ways):
|
||
|
||
:func:`~flectra.api.cr`
|
||
will automatically prepend the current cursor to explicitly provided
|
||
parameters, positionally
|
||
:func:`~flectra.api.cr_uid`
|
||
will automatically prepend the current cursor and user's id to explictly
|
||
provided parameters
|
||
:func:`~flectra.api.cr_uid_ids`
|
||
will automatically prepend the current cursor, user's id and recordset's
|
||
ids to explicitly provided parameters
|
||
:func:`~flectra.api.cr_uid_id`
|
||
will loop over the current recordset and call the method once for each
|
||
record, prepending the current cursor, user's id and record's id to
|
||
explicitly provided parameters.
|
||
|
||
.. danger:: the result of this wrapper is *always a list* when calling
|
||
from a new-API context
|
||
|
||
All of these methods have a ``_context``-suffixed version
|
||
(e.g. :func:`~flectra.api.cr_uid_context`) which also passes the current
|
||
context *by keyword*.
|
||
* dual implementations using :func:`~flectra.api.v7` and
|
||
:func:`~flectra.api.v8` will be ignored as they provide their own "bridging"
|