1224 lines
55 KiB
Python
1224 lines
55 KiB
Python
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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##############################################################################
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#
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# OpenERP, Open Source Management Solution
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# Copyright (C) 2004-2009 Tiny SPRL (<http://tiny.be>).
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU Affero General Public License as
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# published by the Free Software Foundation, either version 3 of the
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# License, or (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU Affero General Public License for more details.
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#
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# You should have received a copy of the GNU Affero General Public License
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# along with this program. If not, see <http://www.gnu.org/licenses/>.
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#
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##############################################################################
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""" Domain expression processing
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The main duty of this module is to compile a domain expression into a
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SQL query. A lot of things should be documented here, but as a first
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step in the right direction, some tests in test_osv_expression.yml
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might give you some additional information.
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For legacy reasons, a domain uses an inconsistent two-levels abstract
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syntax (domains are regular Python data structures). At the first
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level, a domain is an expression made of terms (sometimes called
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leaves) and (domain) operators used in prefix notation. The available
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operators at this level are '!', '&', and '|'. '!' is a unary 'not',
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'&' is a binary 'and', and '|' is a binary 'or'. For instance, here
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is a possible domain. (<term> stands for an arbitrary term, more on
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this later.)::
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['&', '!', <term1>, '|', <term2>, <term3>]
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It is equivalent to this pseudo code using infix notation::
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(not <term1>) and (<term2> or <term3>)
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The second level of syntax deals with the term representation. A term
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is a triple of the form (left, operator, right). That is, a term uses
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an infix notation, and the available operators, and possible left and
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right operands differ with those of the previous level. Here is a
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possible term::
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('company_id.name', '=', 'OpenERP')
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The left and right operand don't have the same possible values. The
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left operand is field name (related to the model for which the domain
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applies). Actually, the field name can use the dot-notation to
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traverse relationships. The right operand is a Python value whose
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type should match the used operator and field type. In the above
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example, a string is used because the name field of a company has type
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string, and because we use the '=' operator. When appropriate, a 'in'
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operator can be used, and thus the right operand should be a list.
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Note: the non-uniform syntax could have been more uniform, but this
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would hide an important limitation of the domain syntax. Say that the
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term representation was ['=', 'company_id.name', 'OpenERP']. Used in a
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complete domain, this would look like::
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['!', ['=', 'company_id.name', 'OpenERP']]
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and you would be tempted to believe something like this would be
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possible::
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['!', ['=', 'company_id.name', ['&', ..., ...]]]
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That is, a domain could be a valid operand. But this is not the
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case. A domain is really limited to a two-level nature, and can not
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take a recursive form: a domain is not a valid second-level operand.
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Unaccent - Accent-insensitive search
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OpenERP will use the SQL function 'unaccent' when available for the
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'ilike' and 'not ilike' operators, and enabled in the configuration.
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Normally the 'unaccent' function is obtained from `the PostgreSQL
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'unaccent' contrib module
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<http://developer.postgresql.org/pgdocs/postgres/unaccent.html>`_.
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.. todo: The following explanation should be moved in some external
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installation guide
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The steps to install the module might differ on specific PostgreSQL
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versions. We give here some instruction for PostgreSQL 9.x on a
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Ubuntu system.
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Ubuntu doesn't come yet with PostgreSQL 9.x, so an alternative package
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source is used. We use Martin Pitt's PPA available at
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`ppa:pitti/postgresql
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<https://launchpad.net/~pitti/+archive/postgresql>`_.
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.. code-block:: sh
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> sudo add-apt-repository ppa:pitti/postgresql
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> sudo apt-get update
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Once the package list is up-to-date, you have to install PostgreSQL
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9.0 and its contrib modules.
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.. code-block:: sh
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> sudo apt-get install postgresql-9.0 postgresql-contrib-9.0
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When you want to enable unaccent on some database:
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.. code-block:: sh
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> psql9 <database> -f /usr/share/postgresql/9.0/contrib/unaccent.sql
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Here :program:`psql9` is an alias for the newly installed PostgreSQL
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9.0 tool, together with the correct port if necessary (for instance if
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PostgreSQL 8.4 is running on 5432). (Other aliases can be used for
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createdb and dropdb.)
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.. code-block:: sh
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> alias psql9='/usr/lib/postgresql/9.0/bin/psql -p 5433'
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You can check unaccent is working:
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.. code-block:: sh
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> psql9 <database> -c"select unaccent('hélène')"
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Finally, to instruct OpenERP to really use the unaccent function, you have to
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start the server specifying the ``--unaccent`` flag.
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"""
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import logging
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import traceback
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import openerp.modules
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from openerp.osv import fields
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from openerp.osv.orm import MAGIC_COLUMNS
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import openerp.tools as tools
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# Domain operators.
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NOT_OPERATOR = '!'
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OR_OPERATOR = '|'
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AND_OPERATOR = '&'
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DOMAIN_OPERATORS = (NOT_OPERATOR, OR_OPERATOR, AND_OPERATOR)
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# List of available term operators. It is also possible to use the '<>'
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# operator, which is strictly the same as '!='; the later should be prefered
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# for consistency. This list doesn't contain '<>' as it is simpified to '!='
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# by the normalize_operator() function (so later part of the code deals with
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# only one representation).
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# An internal (i.e. not available to the user) 'inselect' operator is also
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# used. In this case its right operand has the form (subselect, params).
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TERM_OPERATORS = ('=', '!=', '<=', '<', '>', '>=', '=?', '=like', '=ilike',
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'like', 'not like', 'ilike', 'not ilike', 'in', 'not in',
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'child_of')
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# A subset of the above operators, with a 'negative' semantic. When the
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# expressions 'in NEGATIVE_TERM_OPERATORS' or 'not in NEGATIVE_TERM_OPERATORS' are used in the code
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# below, this doesn't necessarily mean that any of those NEGATIVE_TERM_OPERATORS is
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# legal in the processed term.
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NEGATIVE_TERM_OPERATORS = ('!=', 'not like', 'not ilike', 'not in')
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TRUE_LEAF = (1, '=', 1)
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FALSE_LEAF = (0, '=', 1)
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TRUE_DOMAIN = [TRUE_LEAF]
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FALSE_DOMAIN = [FALSE_LEAF]
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_logger = logging.getLogger(__name__)
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# --------------------------------------------------
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# Generic domain manipulation
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# --------------------------------------------------
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def normalize_domain(domain):
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"""Returns a normalized version of ``domain_expr``, where all implicit '&' operators
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have been made explicit. One property of normalized domain expressions is that they
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can be easily combined together as if they were single domain components.
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"""
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assert isinstance(domain, (list, tuple)), "Domains to normalize must have a 'domain' form: a list or tuple of domain components"
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if not domain:
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return TRUE_DOMAIN
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result = []
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expected = 1 # expected number of expressions
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op_arity = {NOT_OPERATOR: 1, AND_OPERATOR: 2, OR_OPERATOR: 2}
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for token in domain:
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if expected == 0: # more than expected, like in [A, B]
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result[0:0] = [AND_OPERATOR] # put an extra '&' in front
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expected = 1
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result.append(token)
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if isinstance(token, (list, tuple)): # domain term
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expected -= 1
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else:
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expected += op_arity.get(token, 0) - 1
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assert expected == 0
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return result
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def combine(operator, unit, zero, domains):
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"""Returns a new domain expression where all domain components from ``domains``
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have been added together using the binary operator ``operator``. The given
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domains must be normalized.
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:param unit: the identity element of the domains "set" with regard to the operation
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performed by ``operator``, i.e the domain component ``i`` which, when
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combined with any domain ``x`` via ``operator``, yields ``x``.
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E.g. [(1,'=',1)] is the typical unit for AND_OPERATOR: adding it
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to any domain component gives the same domain.
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:param zero: the absorbing element of the domains "set" with regard to the operation
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performed by ``operator``, i.e the domain component ``z`` which, when
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combined with any domain ``x`` via ``operator``, yields ``z``.
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E.g. [(1,'=',1)] is the typical zero for OR_OPERATOR: as soon as
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you see it in a domain component the resulting domain is the zero.
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:param domains: a list of normalized domains.
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"""
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result = []
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count = 0
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for domain in domains:
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if domain == unit:
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continue
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if domain == zero:
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return zero
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if domain:
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result += domain
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count += 1
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result = [operator] * (count - 1) + result
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return result
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def AND(domains):
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"""AND([D1,D2,...]) returns a domain representing D1 and D2 and ... """
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return combine(AND_OPERATOR, TRUE_DOMAIN, FALSE_DOMAIN, domains)
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def OR(domains):
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"""OR([D1,D2,...]) returns a domain representing D1 or D2 or ... """
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return combine(OR_OPERATOR, FALSE_DOMAIN, TRUE_DOMAIN, domains)
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def distribute_not(domain):
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""" Distribute any '!' domain operators found inside a normalized domain.
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Because we don't use SQL semantic for processing a 'left not in right'
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query (i.e. our 'not in' is not simply translated to a SQL 'not in'),
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it means that a '! left in right' can not be simply processed
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by __leaf_to_sql by first emitting code for 'left in right' then wrapping
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the result with 'not (...)', as it would result in a 'not in' at the SQL
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level.
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This function is thus responsible for pushing any '!' domain operators
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inside the terms themselves. For example::
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['!','&',('user_id','=',4),('partner_id','in',[1,2])]
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will be turned into:
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['|',('user_id','!=',4),('partner_id','not in',[1,2])]
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"""
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def negate(leaf):
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"""Negates and returns a single domain leaf term,
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using the opposite operator if possible"""
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left, operator, right = leaf
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mapping = {
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'<': '>=',
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'>': '<=',
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'<=': '>',
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'>=': '<',
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'=': '!=',
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'!=': '=',
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}
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if operator in ('in', 'like', 'ilike'):
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operator = 'not ' + operator
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return [(left, operator, right)]
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if operator in ('not in', 'not like', 'not ilike'):
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operator = operator[4:]
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return [(left, operator, right)]
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if operator in mapping:
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operator = mapping[operator]
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return [(left, operator, right)]
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return [NOT_OPERATOR, (left, operator, right)]
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def distribute_negate(domain):
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"""Negate the domain ``subtree`` rooted at domain[0],
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leaving the rest of the domain intact, and return
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(negated_subtree, untouched_domain_rest)
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"""
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if is_leaf(domain[0]):
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return negate(domain[0]), domain[1:]
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if domain[0] == AND_OPERATOR:
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done1, todo1 = distribute_negate(domain[1:])
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done2, todo2 = distribute_negate(todo1)
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return [OR_OPERATOR] + done1 + done2, todo2
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if domain[0] == OR_OPERATOR:
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done1, todo1 = distribute_negate(domain[1:])
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done2, todo2 = distribute_negate(todo1)
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return [AND_OPERATOR] + done1 + done2, todo2
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if not domain:
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return []
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if domain[0] != NOT_OPERATOR:
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return [domain[0]] + distribute_not(domain[1:])
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if domain[0] == NOT_OPERATOR:
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done, todo = distribute_negate(domain[1:])
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return done + distribute_not(todo)
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# --------------------------------------------------
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# Generic leaf manipulation
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# --------------------------------------------------
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def _quote(to_quote):
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if '"' not in to_quote:
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return '"%s"' % to_quote
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return to_quote
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def generate_table_alias(src_table_alias, joined_tables=[]):
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""" Generate a standard table alias name. An alias is generated as following:
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- the base is the source table name (that can already be an alias)
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- then, each joined table is added in the alias using a 'link field name'
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that is used to render unique aliases for a given path
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- returns a tuple composed of the alias, and the full table alias to be
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added in a from condition with quoting done
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Examples:
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- src_table_alias='res_users', join_tables=[]:
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alias = ('res_users','"res_users"')
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- src_model='res_users', join_tables=[(res.partner, 'parent_id')]
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alias = ('res_users__parent_id', '"res_partner" as "res_users__parent_id"')
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:param model src_table_alias: model source of the alias
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:param list joined_tables: list of tuples
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(dst_model, link_field)
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:return tuple: (table_alias, alias statement for from clause with quotes added)
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"""
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alias = src_table_alias
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if not joined_tables:
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return '%s' % alias, '%s' % _quote(alias)
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for link in joined_tables:
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alias += '__' + link[1]
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assert len(alias) < 64, 'Table alias name %s is longer than the 64 characters size accepted by default in postgresql.' % alias
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return '%s' % alias, '%s as %s' % (_quote(joined_tables[-1][0]), _quote(alias))
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def get_alias_from_query(from_query):
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""" :param string from_query: is something like :
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- '"res_partner"' OR
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- '"res_partner" as "res_users__partner_id"''
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"""
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from_splitted = from_query.split(' as ')
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if len(from_splitted) > 1:
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return from_splitted[0].replace('"', ''), from_splitted[1].replace('"', '')
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else:
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return from_splitted[0].replace('"', ''), from_splitted[0].replace('"', '')
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def normalize_leaf(element):
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""" Change a term's operator to some canonical form, simplifying later
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processing. """
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if not is_leaf(element):
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return element
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left, operator, right = element
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original = operator
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operator = operator.lower()
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if operator == '<>':
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operator = '!='
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if isinstance(right, bool) and operator in ('in', 'not in'):
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_logger.warning("The domain term '%s' should use the '=' or '!=' operator." % ((left, original, right),))
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operator = '=' if operator == 'in' else '!='
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if isinstance(right, (list, tuple)) and operator in ('=', '!='):
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_logger.warning("The domain term '%s' should use the 'in' or 'not in' operator." % ((left, original, right),))
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operator = 'in' if operator == '=' else 'not in'
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return left, operator, right
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def is_operator(element):
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""" Test whether an object is a valid domain operator. """
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return isinstance(element, basestring) and element in DOMAIN_OPERATORS
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def is_leaf(element, internal=False):
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""" Test whether an object is a valid domain term:
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- is a list or tuple
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- with 3 elements
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- second element if a valid op
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:param tuple element: a leaf in form (left, operator, right)
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:param boolean internal: allow or not the 'inselect' internal operator
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in the term. This should be always left to False.
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Note: OLD TODO change the share wizard to use this function.
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"""
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INTERNAL_OPS = TERM_OPERATORS + ('<>',)
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if internal:
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INTERNAL_OPS += ('inselect',)
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return (isinstance(element, tuple) or isinstance(element, list)) \
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and len(element) == 3 \
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and element[1] in INTERNAL_OPS
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# --------------------------------------------------
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# SQL utils
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# --------------------------------------------------
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def select_from_where(cr, select_field, from_table, where_field, where_ids, where_operator):
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# todo: merge into parent query as sub-query
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res = []
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if where_ids:
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if where_operator in ['<', '>', '>=', '<=']:
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cr.execute('SELECT "%s" FROM "%s" WHERE "%s" %s %%s' % \
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(select_field, from_table, where_field, where_operator),
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(where_ids[0],)) # TODO shouldn't this be min/max(where_ids) ?
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res = [r[0] for r in cr.fetchall()]
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else: # TODO where_operator is supposed to be 'in'? It is called with child_of...
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for i in range(0, len(where_ids), cr.IN_MAX):
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subids = where_ids[i:i + cr.IN_MAX]
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cr.execute('SELECT "%s" FROM "%s" WHERE "%s" IN %%s' % \
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(select_field, from_table, where_field), (tuple(subids),))
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res.extend([r[0] for r in cr.fetchall()])
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return res
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def select_distinct_from_where_not_null(cr, select_field, from_table):
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cr.execute('SELECT distinct("%s") FROM "%s" where "%s" is not null' % (select_field, from_table, select_field))
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return [r[0] for r in cr.fetchall()]
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# --------------------------------------------------
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# ExtendedLeaf class for managing leafs and contexts
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# -------------------------------------------------
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class ExtendedLeaf(object):
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""" Class wrapping a domain leaf, and giving some services and management
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features on it. In particular it managed join contexts to be able to
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construct queries through multiple models.
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"""
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# --------------------------------------------------
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# Join / Context manipulation
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# running examples:
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# - res_users.name, like, foo: name is on res_partner, not on res_users
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# - res_partner.bank_ids.name, like, foo: bank_ids is a one2many with _auto_join
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# - res_partner.state_id.name, like, foo: state_id is a many2one with _auto_join
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# A join:
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# - link between src_table and dst_table, using src_field and dst_field
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# i.e.: inherits: res_users.partner_id = res_partner.id
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# i.e.: one2many: res_partner.id = res_partner_bank.partner_id
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# i.e.: many2one: res_partner.state_id = res_country_state.id
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# - done in the context of a field
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# i.e.: inherits: 'partner_id'
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# i.e.: one2many: 'bank_ids'
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# i.e.: many2one: 'state_id'
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# - table names use aliases: initial table followed by the context field
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# names, joined using a '__'
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# i.e.: inherits: res_partner as res_users__partner_id
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# i.e.: one2many: res_partner_bank as res_partner__bank_ids
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# i.e.: many2one: res_country_state as res_partner__state_id
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# - join condition use aliases
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# i.e.: inherits: res_users.partner_id = res_users__partner_id.id
|
|
# i.e.: one2many: res_partner.id = res_partner__bank_ids.parr_id
|
|
# i.e.: many2one: res_partner.state_id = res_partner__state_id.id
|
|
# Variables explanation:
|
|
# - src_table: working table before the join
|
|
# -> res_users, res_partner, res_partner
|
|
# - dst_table: working table after the join
|
|
# -> res_partner, res_partner_bank, res_country_state
|
|
# - src_table_link_name: field name used to link the src table, not
|
|
# necessarily a field (because 'id' is not a field instance)
|
|
# i.e.: inherits: 'partner_id', found in the inherits of the current table
|
|
# i.e.: one2many: 'id', not a field
|
|
# i.e.: many2one: 'state_id', the current field name
|
|
# - dst_table_link_name: field name used to link the dst table, not
|
|
# necessarily a field (because 'id' is not a field instance)
|
|
# i.e.: inherits: 'id', not a field
|
|
# i.e.: one2many: 'partner_id', _fields_id of the current field
|
|
# i.e.: many2one: 'id', not a field
|
|
# - context_field_name: field name used as a context to make the alias
|
|
# i.e.: inherits: 'partner_id': found in the inherits of the current table
|
|
# i.e.: one2many: 'bank_ids': current field name
|
|
# i.e.: many2one: 'state_id': current field name
|
|
# --------------------------------------------------
|
|
|
|
def __init__(self, leaf, model, join_context=None):
|
|
""" Initialize the ExtendedLeaf
|
|
|
|
:attr [string, tuple] leaf: operator or tuple-formatted domain
|
|
expression
|
|
:attr obj model: current working model
|
|
:attr list _models: list of chained models, updated when
|
|
adding joins
|
|
:attr list join_context: list of join contexts. This is a list of
|
|
tuples like ``(lhs, table, lhs_col, col, link)``
|
|
|
|
where
|
|
|
|
lhs
|
|
source (left hand) model
|
|
model
|
|
destination (right hand) model
|
|
lhs_col
|
|
source model column for join condition
|
|
col
|
|
destination model column for join condition
|
|
link
|
|
link column between source and destination model
|
|
that is not necessarily (but generally) a real column used
|
|
in the condition (i.e. in many2one); this link is used to
|
|
compute aliases
|
|
"""
|
|
assert model, 'Invalid leaf creation without table'
|
|
self.join_context = join_context or []
|
|
self.leaf = leaf
|
|
# normalize the leaf's operator
|
|
self.normalize_leaf()
|
|
# set working variables; handle the context stack and previous tables
|
|
self.model = model
|
|
self._models = []
|
|
for item in self.join_context:
|
|
self._models.append(item[0])
|
|
self._models.append(model)
|
|
# check validity
|
|
self.check_leaf()
|
|
|
|
def __str__(self):
|
|
return '<osv.ExtendedLeaf: %s on %s (ctx: %s)>' % (str(self.leaf), self.model._table, ','.join(self._get_context_debug()))
|
|
|
|
def generate_alias(self):
|
|
links = [(context[1]._table, context[4]) for context in self.join_context]
|
|
alias, alias_statement = generate_table_alias(self._models[0]._table, links)
|
|
return alias
|
|
|
|
def add_join_context(self, model, lhs_col, table_col, link):
|
|
""" See above comments for more details. A join context is a tuple like:
|
|
``(lhs, model, lhs_col, col, link)``
|
|
|
|
After adding the join, the model of the current leaf is updated.
|
|
"""
|
|
self.join_context.append((self.model, model, lhs_col, table_col, link))
|
|
self._models.append(model)
|
|
self.model = model
|
|
|
|
def get_join_conditions(self):
|
|
conditions = []
|
|
alias = self._models[0]._table
|
|
for context in self.join_context:
|
|
previous_alias = alias
|
|
alias += '__' + context[4]
|
|
conditions.append('"%s"."%s"="%s"."%s"' % (previous_alias, context[2], alias, context[3]))
|
|
return conditions
|
|
|
|
def get_tables(self):
|
|
tables = set()
|
|
links = []
|
|
for context in self.join_context:
|
|
links.append((context[1]._table, context[4]))
|
|
alias, alias_statement = generate_table_alias(self._models[0]._table, links)
|
|
tables.add(alias_statement)
|
|
return tables
|
|
|
|
def _get_context_debug(self):
|
|
names = ['"%s"."%s"="%s"."%s" (%s)' % (item[0]._table, item[2], item[1]._table, item[3], item[4]) for item in self.join_context]
|
|
return names
|
|
|
|
# --------------------------------------------------
|
|
# Leaf manipulation
|
|
# --------------------------------------------------
|
|
|
|
def check_leaf(self):
|
|
""" Leaf validity rules:
|
|
- a valid leaf is an operator or a leaf
|
|
- a valid leaf has a field objects unless
|
|
- it is not a tuple
|
|
- it is an inherited field
|
|
- left is id, operator is 'child_of'
|
|
- left is in MAGIC_COLUMNS
|
|
"""
|
|
if not is_operator(self.leaf) and not is_leaf(self.leaf, True):
|
|
raise ValueError("Invalid leaf %s" % str(self.leaf))
|
|
|
|
def is_operator(self):
|
|
return is_operator(self.leaf)
|
|
|
|
def is_true_leaf(self):
|
|
return self.leaf == TRUE_LEAF
|
|
|
|
def is_false_leaf(self):
|
|
return self.leaf == FALSE_LEAF
|
|
|
|
def is_leaf(self, internal=False):
|
|
return is_leaf(self.leaf, internal=internal)
|
|
|
|
def normalize_leaf(self):
|
|
self.leaf = normalize_leaf(self.leaf)
|
|
return True
|
|
|
|
|
|
class expression(object):
|
|
""" Parse a domain expression
|
|
Use a real polish notation
|
|
Leafs are still in a ('foo', '=', 'bar') format
|
|
For more info: http://christophe-simonis-at-tiny.blogspot.com/2008/08/new-new-domain-notation.html
|
|
"""
|
|
|
|
def __init__(self, cr, uid, exp, table, context):
|
|
""" Initialize expression object and automatically parse the expression
|
|
right after initialization.
|
|
|
|
:param exp: expression (using domain ('foo', '=', 'bar' format))
|
|
:param table: root model
|
|
|
|
:attr list result: list that will hold the result of the parsing
|
|
as a list of ExtendedLeaf
|
|
:attr list joins: list of join conditions, such as
|
|
(res_country_state."id" = res_partner."state_id")
|
|
:attr root_model: base model for the query
|
|
:attr list expression: the domain expression, that will be normalized
|
|
and prepared
|
|
"""
|
|
self.has_unaccent = openerp.modules.registry.RegistryManager.get(cr.dbname).has_unaccent
|
|
self.joins = []
|
|
self.root_model = table
|
|
|
|
# normalize and prepare the expression for parsing
|
|
self.expression = distribute_not(normalize_domain(exp))
|
|
|
|
# parse the domain expression
|
|
self.parse(cr, uid, context=context)
|
|
|
|
# ----------------------------------------
|
|
# Leafs management
|
|
# ----------------------------------------
|
|
|
|
def get_tables(self):
|
|
""" Returns the list of tables for SQL queries, like select from ... """
|
|
tables = []
|
|
for leaf in self.result:
|
|
for table in leaf.get_tables():
|
|
if table not in tables:
|
|
tables.append(table)
|
|
table_name = _quote(self.root_model._table)
|
|
if table_name not in tables:
|
|
tables.append(table_name)
|
|
return tables
|
|
|
|
# ----------------------------------------
|
|
# Parsing
|
|
# ----------------------------------------
|
|
|
|
def parse(self, cr, uid, context):
|
|
""" Transform the leaves of the expression
|
|
|
|
The principle is to pop elements from a leaf stack one at a time.
|
|
Each leaf is processed. The processing is a if/elif list of various
|
|
cases that appear in the leafs (many2one, function fields, ...).
|
|
Two things can happen as a processing result:
|
|
- the leaf has been modified and/or new leafs have to be introduced
|
|
in the expression; they are pushed into the leaf stack, to be
|
|
processed right after
|
|
- the leaf is added to the result
|
|
|
|
Some internal var explanation:
|
|
:var obj working_model: model object, model containing the field
|
|
(the name provided in the left operand)
|
|
:var list field_path: left operand seen as a path (foo.bar -> [foo, bar])
|
|
:var obj relational_model: relational model of a field (field._obj)
|
|
ex: res_partner.bank_ids -> res.partner.bank
|
|
"""
|
|
|
|
def to_ids(value, relational_model, context=None, limit=None):
|
|
""" Normalize a single id or name, or a list of those, into a list of ids
|
|
:param {int,long,basestring,list,tuple} value:
|
|
if int, long -> return [value]
|
|
if basestring, convert it into a list of basestrings, then
|
|
if list of basestring ->
|
|
perform a name_search on relational_model for each name
|
|
return the list of related ids
|
|
"""
|
|
names = []
|
|
if isinstance(value, basestring):
|
|
names = [value]
|
|
elif value and isinstance(value, (tuple, list)) and all(isinstance(item, basestring) for item in value):
|
|
names = value
|
|
elif isinstance(value, (int, long)):
|
|
return [value]
|
|
if names:
|
|
name_get_list = [name_get[0] for name in names for name_get in relational_model.name_search(cr, uid, name, [], 'ilike', context=context, limit=limit)]
|
|
return list(set(name_get_list))
|
|
return list(value)
|
|
|
|
def child_of_domain(left, ids, left_model, parent=None, prefix='', context=None):
|
|
""" Return a domain implementing the child_of operator for [(left,child_of,ids)],
|
|
either as a range using the parent_left/right tree lookup fields
|
|
(when available), or as an expanded [(left,in,child_ids)] """
|
|
if left_model._parent_store and (not left_model.pool._init):
|
|
# TODO: Improve where joins are implemented for many with '.', replace by:
|
|
# doms += ['&',(prefix+'.parent_left','<',o.parent_right),(prefix+'.parent_left','>=',o.parent_left)]
|
|
doms = []
|
|
for o in left_model.browse(cr, uid, ids, context=context):
|
|
if doms:
|
|
doms.insert(0, OR_OPERATOR)
|
|
doms += [AND_OPERATOR, ('parent_left', '<', o.parent_right), ('parent_left', '>=', o.parent_left)]
|
|
if prefix:
|
|
return [(left, 'in', left_model.search(cr, uid, doms, context=context))]
|
|
return doms
|
|
else:
|
|
def recursive_children(ids, model, parent_field):
|
|
if not ids:
|
|
return []
|
|
ids2 = model.search(cr, uid, [(parent_field, 'in', ids)], context=context)
|
|
return ids + recursive_children(ids2, model, parent_field)
|
|
return [(left, 'in', recursive_children(ids, left_model, parent or left_model._parent_name))]
|
|
|
|
def create_substitution_leaf(leaf, new_elements, new_model=None):
|
|
""" From a leaf, create a new leaf (based on the new_elements tuple
|
|
and new_model), that will have the same join context. Used to
|
|
insert equivalent leafs in the processing stack. """
|
|
if new_model is None:
|
|
new_model = leaf.model
|
|
new_join_context = [tuple(context) for context in leaf.join_context]
|
|
new_leaf = ExtendedLeaf(new_elements, new_model, join_context=new_join_context)
|
|
return new_leaf
|
|
|
|
def pop():
|
|
""" Pop a leaf to process. """
|
|
return self.stack.pop()
|
|
|
|
def push(leaf):
|
|
""" Push a leaf to be processed right after. """
|
|
self.stack.append(leaf)
|
|
|
|
def push_result(leaf):
|
|
""" Push a leaf to the results. This leaf has been fully processed
|
|
and validated. """
|
|
self.result.append(leaf)
|
|
|
|
self.result = []
|
|
self.stack = [ExtendedLeaf(leaf, self.root_model) for leaf in self.expression]
|
|
# process from right to left; expression is from left to right
|
|
self.stack.reverse()
|
|
|
|
while self.stack:
|
|
# Get the next leaf to process
|
|
leaf = pop()
|
|
|
|
# Get working variables
|
|
working_model = leaf.model
|
|
if leaf.is_operator():
|
|
left, operator, right = leaf.leaf, None, None
|
|
elif leaf.is_true_leaf() or leaf.is_false_leaf():
|
|
# because we consider left as a string
|
|
left, operator, right = ('%s' % leaf.leaf[0], leaf.leaf[1], leaf.leaf[2])
|
|
else:
|
|
left, operator, right = leaf.leaf
|
|
field_path = left.split('.', 1)
|
|
field = working_model._columns.get(field_path[0])
|
|
if field and field._obj:
|
|
relational_model = working_model.pool.get(field._obj)
|
|
else:
|
|
relational_model = None
|
|
|
|
# ----------------------------------------
|
|
# SIMPLE CASE
|
|
# 1. leaf is an operator
|
|
# 2. leaf is a true/false leaf
|
|
# -> add directly to result
|
|
# ----------------------------------------
|
|
|
|
if leaf.is_operator() or leaf.is_true_leaf() or leaf.is_false_leaf():
|
|
push_result(leaf)
|
|
|
|
# ----------------------------------------
|
|
# FIELD NOT FOUND
|
|
# -> from inherits'd fields -> work on the related model, and add
|
|
# a join condition
|
|
# -> ('id', 'child_of', '..') -> use a 'to_ids'
|
|
# -> but is one on the _log_access special fields, add directly to
|
|
# result
|
|
# TODO: make these fields explicitly available in self.columns instead!
|
|
# -> else: crash
|
|
# ----------------------------------------
|
|
|
|
elif not field and field_path[0] in working_model._inherit_fields:
|
|
# comments about inherits'd fields
|
|
# { 'field_name': ('parent_model', 'm2o_field_to_reach_parent',
|
|
# field_column_obj, origina_parent_model), ... }
|
|
next_model = working_model.pool.get(working_model._inherit_fields[field_path[0]][0])
|
|
leaf.add_join_context(next_model, working_model._inherits[next_model._name], 'id', working_model._inherits[next_model._name])
|
|
push(leaf)
|
|
|
|
elif not field and left == 'id' and operator == 'child_of':
|
|
ids2 = to_ids(right, working_model, context)
|
|
dom = child_of_domain(left, ids2, working_model)
|
|
for dom_leaf in reversed(dom):
|
|
new_leaf = create_substitution_leaf(leaf, dom_leaf, working_model)
|
|
push(new_leaf)
|
|
|
|
elif not field and field_path[0] in MAGIC_COLUMNS:
|
|
push_result(leaf)
|
|
|
|
elif not field:
|
|
raise ValueError("Invalid field %r in leaf %r" % (left, str(leaf)))
|
|
|
|
# ----------------------------------------
|
|
# PATH SPOTTED
|
|
# -> many2one or one2many with _auto_join:
|
|
# - add a join, then jump into linked field: field.remaining on
|
|
# src_table is replaced by remaining on dst_table, and set for re-evaluation
|
|
# - if a domain is defined on the field, add it into evaluation
|
|
# on the relational table
|
|
# -> many2one, many2many, one2many: replace by an equivalent computed
|
|
# domain, given by recursively searching on the remaining of the path
|
|
# -> note: hack about fields.property should not be necessary anymore
|
|
# as after transforming the field, it will go through this loop once again
|
|
# ----------------------------------------
|
|
|
|
elif len(field_path) > 1 and field._type == 'many2one' and field._auto_join:
|
|
# res_partner.state_id = res_partner__state_id.id
|
|
leaf.add_join_context(relational_model, field_path[0], 'id', field_path[0])
|
|
push(create_substitution_leaf(leaf, (field_path[1], operator, right), relational_model))
|
|
|
|
elif len(field_path) > 1 and field._type == 'one2many' and field._auto_join:
|
|
# res_partner.id = res_partner__bank_ids.partner_id
|
|
leaf.add_join_context(relational_model, 'id', field._fields_id, field_path[0])
|
|
domain = field._domain(working_model) if callable(field._domain) else field._domain
|
|
push(create_substitution_leaf(leaf, (field_path[1], operator, right), relational_model))
|
|
if domain:
|
|
domain = normalize_domain(domain)
|
|
for elem in reversed(domain):
|
|
push(create_substitution_leaf(leaf, elem, relational_model))
|
|
push(create_substitution_leaf(leaf, AND_OPERATOR, relational_model))
|
|
|
|
elif len(field_path) > 1 and field._auto_join:
|
|
raise NotImplementedError('_auto_join attribute not supported on many2many field %s' % left)
|
|
|
|
elif len(field_path) > 1 and field._type == 'many2one':
|
|
right_ids = relational_model.search(cr, uid, [(field_path[1], operator, right)], context=context)
|
|
leaf.leaf = (field_path[0], 'in', right_ids)
|
|
push(leaf)
|
|
|
|
# Making search easier when there is a left operand as field.o2m or field.m2m
|
|
elif len(field_path) > 1 and field._type in ['many2many', 'one2many']:
|
|
right_ids = relational_model.search(cr, uid, [(field_path[1], operator, right)], context=context)
|
|
table_ids = working_model.search(cr, uid, [(field_path[0], 'in', right_ids)], context=dict(context, active_test=False))
|
|
leaf.leaf = ('id', 'in', table_ids)
|
|
push(leaf)
|
|
|
|
# -------------------------------------------------
|
|
# FUNCTION FIELD
|
|
# -> not stored: error if no _fnct_search, otherwise handle the result domain
|
|
# -> stored: management done in the remaining of parsing
|
|
# -------------------------------------------------
|
|
|
|
elif isinstance(field, fields.function) and not field.store and not field._fnct_search:
|
|
# this is a function field that is not stored
|
|
# the function field doesn't provide a search function and doesn't store
|
|
# values in the database, so we must ignore it : we generate a dummy leaf
|
|
leaf.leaf = TRUE_LEAF
|
|
_logger.error(
|
|
"The field '%s' (%s) can not be searched: non-stored "
|
|
"function field without fnct_search",
|
|
field.string, left)
|
|
# avoid compiling stack trace if not needed
|
|
if _logger.isEnabledFor(logging.DEBUG):
|
|
_logger.debug(''.join(traceback.format_stack()))
|
|
push(leaf)
|
|
|
|
elif isinstance(field, fields.function) and not field.store:
|
|
# this is a function field that is not stored
|
|
fct_domain = field.search(cr, uid, working_model, left, [leaf.leaf], context=context)
|
|
if not fct_domain:
|
|
leaf.leaf = TRUE_LEAF
|
|
push(leaf)
|
|
else:
|
|
# we assume that the expression is valid
|
|
# we create a dummy leaf for forcing the parsing of the resulting expression
|
|
for domain_element in reversed(fct_domain):
|
|
push(create_substitution_leaf(leaf, domain_element, working_model))
|
|
# self.push(create_substitution_leaf(leaf, TRUE_LEAF, working_model))
|
|
# self.push(create_substitution_leaf(leaf, AND_OPERATOR, working_model))
|
|
|
|
# -------------------------------------------------
|
|
# RELATIONAL FIELDS
|
|
# -------------------------------------------------
|
|
|
|
# Applying recursivity on field(one2many)
|
|
elif field._type == 'one2many' and operator == 'child_of':
|
|
ids2 = to_ids(right, relational_model, context)
|
|
if field._obj != working_model._name:
|
|
dom = child_of_domain(left, ids2, relational_model, prefix=field._obj)
|
|
else:
|
|
dom = child_of_domain('id', ids2, working_model, parent=left)
|
|
for dom_leaf in reversed(dom):
|
|
push(create_substitution_leaf(leaf, dom_leaf, working_model))
|
|
|
|
elif field._type == 'one2many':
|
|
call_null = True
|
|
|
|
if right is not False:
|
|
if isinstance(right, basestring):
|
|
ids2 = [x[0] for x in relational_model.name_search(cr, uid, right, [], operator, context=context, limit=None)]
|
|
if ids2:
|
|
operator = 'in'
|
|
else:
|
|
if not isinstance(right, list):
|
|
ids2 = [right]
|
|
else:
|
|
ids2 = right
|
|
if not ids2:
|
|
if operator in ['like', 'ilike', 'in', '=']:
|
|
#no result found with given search criteria
|
|
call_null = False
|
|
push(create_substitution_leaf(leaf, FALSE_LEAF, working_model))
|
|
else:
|
|
ids2 = select_from_where(cr, field._fields_id, relational_model._table, 'id', ids2, operator)
|
|
if ids2:
|
|
call_null = False
|
|
o2m_op = 'not in' if operator in NEGATIVE_TERM_OPERATORS else 'in'
|
|
push(create_substitution_leaf(leaf, ('id', o2m_op, ids2), working_model))
|
|
|
|
if call_null:
|
|
o2m_op = 'in' if operator in NEGATIVE_TERM_OPERATORS else 'not in'
|
|
push(create_substitution_leaf(leaf, ('id', o2m_op, select_distinct_from_where_not_null(cr, field._fields_id, relational_model._table)), working_model))
|
|
|
|
elif field._type == 'many2many':
|
|
rel_table, rel_id1, rel_id2 = field._sql_names(working_model)
|
|
#FIXME
|
|
if operator == 'child_of':
|
|
def _rec_convert(ids):
|
|
if relational_model == working_model:
|
|
return ids
|
|
return select_from_where(cr, rel_id1, rel_table, rel_id2, ids, operator)
|
|
|
|
ids2 = to_ids(right, relational_model, context)
|
|
dom = child_of_domain('id', ids2, relational_model)
|
|
ids2 = relational_model.search(cr, uid, dom, context=context)
|
|
push(create_substitution_leaf(leaf, ('id', 'in', _rec_convert(ids2)), working_model))
|
|
else:
|
|
call_null_m2m = True
|
|
if right is not False:
|
|
if isinstance(right, basestring):
|
|
res_ids = [x[0] for x in relational_model.name_search(cr, uid, right, [], operator, context=context)]
|
|
if res_ids:
|
|
operator = 'in'
|
|
else:
|
|
if not isinstance(right, list):
|
|
res_ids = [right]
|
|
else:
|
|
res_ids = right
|
|
if not res_ids:
|
|
if operator in ['like', 'ilike', 'in', '=']:
|
|
#no result found with given search criteria
|
|
call_null_m2m = False
|
|
push(create_substitution_leaf(leaf, FALSE_LEAF, working_model))
|
|
else:
|
|
operator = 'in' # operator changed because ids are directly related to main object
|
|
else:
|
|
call_null_m2m = False
|
|
m2m_op = 'not in' if operator in NEGATIVE_TERM_OPERATORS else 'in'
|
|
push(create_substitution_leaf(leaf, ('id', m2m_op, select_from_where(cr, rel_id1, rel_table, rel_id2, res_ids, operator) or [0]), working_model))
|
|
|
|
if call_null_m2m:
|
|
m2m_op = 'in' if operator in NEGATIVE_TERM_OPERATORS else 'not in'
|
|
push(create_substitution_leaf(leaf, ('id', m2m_op, select_distinct_from_where_not_null(cr, rel_id1, rel_table)), working_model))
|
|
|
|
elif field._type == 'many2one':
|
|
if operator == 'child_of':
|
|
ids2 = to_ids(right, relational_model, context)
|
|
if field._obj != working_model._name:
|
|
dom = child_of_domain(left, ids2, relational_model, prefix=field._obj)
|
|
else:
|
|
dom = child_of_domain('id', ids2, working_model, parent=left)
|
|
for dom_leaf in reversed(dom):
|
|
push(create_substitution_leaf(leaf, dom_leaf, working_model))
|
|
else:
|
|
def _get_expression(relational_model, cr, uid, left, right, operator, context=None):
|
|
if context is None:
|
|
context = {}
|
|
c = context.copy()
|
|
c['active_test'] = False
|
|
#Special treatment to ill-formed domains
|
|
operator = (operator in ['<', '>', '<=', '>=']) and 'in' or operator
|
|
|
|
dict_op = {'not in': '!=', 'in': '=', '=': 'in', '!=': 'not in'}
|
|
if isinstance(right, tuple):
|
|
right = list(right)
|
|
if (not isinstance(right, list)) and operator in ['not in', 'in']:
|
|
operator = dict_op[operator]
|
|
elif isinstance(right, list) and operator in ['!=', '=']: # for domain (FIELD,'=',['value1','value2'])
|
|
operator = dict_op[operator]
|
|
res_ids = [x[0] for x in relational_model.name_search(cr, uid, right, [], operator, limit=None, context=c)]
|
|
if operator in NEGATIVE_TERM_OPERATORS:
|
|
res_ids.append(False) # TODO this should not be appended if False was in 'right'
|
|
return left, 'in', res_ids
|
|
# resolve string-based m2o criterion into IDs
|
|
if isinstance(right, basestring) or \
|
|
right and isinstance(right, (tuple, list)) and all(isinstance(item, basestring) for item in right):
|
|
push(create_substitution_leaf(leaf, _get_expression(relational_model, cr, uid, left, right, operator, context=context), working_model))
|
|
else:
|
|
# right == [] or right == False and all other cases are handled by __leaf_to_sql()
|
|
push_result(leaf)
|
|
|
|
# -------------------------------------------------
|
|
# OTHER FIELDS
|
|
# -> datetime fields: manage time part of the datetime
|
|
# field when it is not there
|
|
# -> manage translatable fields
|
|
# -------------------------------------------------
|
|
|
|
else:
|
|
if field._type == 'datetime' and right and len(right) == 10:
|
|
if operator in ('>', '>='):
|
|
right += ' 00:00:00'
|
|
elif operator in ('<', '<='):
|
|
right += ' 23:59:59'
|
|
push(create_substitution_leaf(leaf, (left, operator, right), working_model))
|
|
|
|
elif field.translate:
|
|
need_wildcard = operator in ('like', 'ilike', 'not like', 'not ilike')
|
|
sql_operator = {'=like': 'like', '=ilike': 'ilike'}.get(operator, operator)
|
|
if need_wildcard:
|
|
right = '%%%s%%' % right
|
|
|
|
subselect = '( SELECT res_id' \
|
|
' FROM ir_translation' \
|
|
' WHERE name = %s' \
|
|
' AND lang = %s' \
|
|
' AND type = %s'
|
|
instr = ' %s'
|
|
#Covering in,not in operators with operands (%s,%s) ,etc.
|
|
if sql_operator in ['in', 'not in']:
|
|
instr = ','.join(['%s'] * len(right))
|
|
subselect += ' AND value ' + sql_operator + ' ' + " (" + instr + ")" \
|
|
') UNION (' \
|
|
' SELECT id' \
|
|
' FROM "' + working_model._table + '"' \
|
|
' WHERE "' + left + '" ' + sql_operator + ' ' + " (" + instr + "))"
|
|
else:
|
|
subselect += ' AND value ' + sql_operator + instr + \
|
|
') UNION (' \
|
|
' SELECT id' \
|
|
' FROM "' + working_model._table + '"' \
|
|
' WHERE "' + left + '" ' + sql_operator + instr + ")"
|
|
|
|
params = [working_model._name + ',' + left,
|
|
context.get('lang', False) or 'en_US',
|
|
'model',
|
|
right,
|
|
right,
|
|
]
|
|
push(create_substitution_leaf(leaf, ('id', 'inselect', (subselect, params)), working_model))
|
|
|
|
else:
|
|
push_result(leaf)
|
|
|
|
# ----------------------------------------
|
|
# END OF PARSING FULL DOMAIN
|
|
# -> generate joins
|
|
# ----------------------------------------
|
|
|
|
joins = set()
|
|
for leaf in self.result:
|
|
joins |= set(leaf.get_join_conditions())
|
|
self.joins = list(joins)
|
|
|
|
def __leaf_to_sql(self, eleaf):
|
|
model = eleaf.model
|
|
leaf = eleaf.leaf
|
|
left, operator, right = leaf
|
|
|
|
# final sanity checks - should never fail
|
|
assert operator in (TERM_OPERATORS + ('inselect',)), \
|
|
"Invalid operator %r in domain term %r" % (operator, leaf)
|
|
assert leaf in (TRUE_LEAF, FALSE_LEAF) or left in model._all_columns \
|
|
or left in MAGIC_COLUMNS, "Invalid field %r in domain term %r" % (left, leaf)
|
|
|
|
table_alias = '"%s"' % (eleaf.generate_alias())
|
|
|
|
if leaf == TRUE_LEAF:
|
|
query = 'TRUE'
|
|
params = []
|
|
|
|
elif leaf == FALSE_LEAF:
|
|
query = 'FALSE'
|
|
params = []
|
|
|
|
elif operator == 'inselect':
|
|
query = '(%s."%s" in (%s))' % (table_alias, left, right[0])
|
|
params = right[1]
|
|
|
|
elif operator in ['in', 'not in']:
|
|
# Two cases: right is a boolean or a list. The boolean case is an
|
|
# abuse and handled for backward compatibility.
|
|
if isinstance(right, bool):
|
|
_logger.warning("The domain term '%s' should use the '=' or '!=' operator." % (leaf,))
|
|
if operator == 'in':
|
|
r = 'NOT NULL' if right else 'NULL'
|
|
else:
|
|
r = 'NULL' if right else 'NOT NULL'
|
|
query = '(%s."%s" IS %s)' % (table_alias, left, r)
|
|
params = []
|
|
elif isinstance(right, (list, tuple)):
|
|
params = list(right)
|
|
check_nulls = False
|
|
for i in range(len(params))[::-1]:
|
|
if params[i] == False:
|
|
check_nulls = True
|
|
del params[i]
|
|
|
|
if params:
|
|
if left == 'id':
|
|
instr = ','.join(['%s'] * len(params))
|
|
else:
|
|
instr = ','.join([model._columns[left]._symbol_set[0]] * len(params))
|
|
query = '(%s."%s" %s (%s))' % (table_alias, left, operator, instr)
|
|
else:
|
|
# The case for (left, 'in', []) or (left, 'not in', []).
|
|
query = 'FALSE' if operator == 'in' else 'TRUE'
|
|
|
|
if check_nulls and operator == 'in':
|
|
query = '(%s OR %s."%s" IS NULL)' % (query, table_alias, left)
|
|
elif not check_nulls and operator == 'not in':
|
|
query = '(%s OR %s."%s" IS NULL)' % (query, table_alias, left)
|
|
elif check_nulls and operator == 'not in':
|
|
query = '(%s AND %s."%s" IS NOT NULL)' % (query, table_alias, left) # needed only for TRUE.
|
|
else: # Must not happen
|
|
raise ValueError("Invalid domain term %r" % (leaf,))
|
|
|
|
elif right == False and (left in model._columns) and model._columns[left]._type == "boolean" and (operator == '='):
|
|
query = '(%s."%s" IS NULL or %s."%s" = false )' % (table_alias, left, table_alias, left)
|
|
params = []
|
|
|
|
elif (right is False or right is None) and (operator == '='):
|
|
query = '%s."%s" IS NULL ' % (table_alias, left)
|
|
params = []
|
|
|
|
elif right == False and (left in model._columns) and model._columns[left]._type == "boolean" and (operator == '!='):
|
|
query = '(%s."%s" IS NOT NULL and %s."%s" != false)' % (table_alias, left, table_alias, left)
|
|
params = []
|
|
|
|
elif (right is False or right is None) and (operator == '!='):
|
|
query = '%s."%s" IS NOT NULL' % (table_alias, left)
|
|
params = []
|
|
|
|
elif operator == '=?':
|
|
if right is False or right is None:
|
|
# '=?' is a short-circuit that makes the term TRUE if right is None or False
|
|
query = 'TRUE'
|
|
params = []
|
|
else:
|
|
# '=?' behaves like '=' in other cases
|
|
query, params = self.__leaf_to_sql((left, '=', right), model)
|
|
|
|
elif left == 'id':
|
|
query = '%s.id %s %%s' % (table_alias, operator)
|
|
params = right
|
|
|
|
else:
|
|
need_wildcard = operator in ('like', 'ilike', 'not like', 'not ilike')
|
|
sql_operator = {'=like': 'like', '=ilike': 'ilike'}.get(operator, operator)
|
|
|
|
if left in model._columns:
|
|
format = need_wildcard and '%s' or model._columns[left]._symbol_set[0]
|
|
if self.has_unaccent and sql_operator in ('ilike', 'not ilike'):
|
|
query = '(unaccent(%s."%s") %s unaccent(%s))' % (table_alias, left, sql_operator, format)
|
|
else:
|
|
query = '(%s."%s" %s %s)' % (table_alias, left, sql_operator, format)
|
|
elif left in MAGIC_COLUMNS:
|
|
query = "(%s.\"%s\" %s %%s)" % (table_alias, left, sql_operator)
|
|
params = right
|
|
else: # Must not happen
|
|
raise ValueError("Invalid field %r in domain term %r" % (left, leaf))
|
|
|
|
add_null = False
|
|
if need_wildcard:
|
|
if isinstance(right, str):
|
|
str_utf8 = right
|
|
elif isinstance(right, unicode):
|
|
str_utf8 = right.encode('utf-8')
|
|
else:
|
|
str_utf8 = str(right)
|
|
params = '%%%s%%' % str_utf8
|
|
add_null = not str_utf8
|
|
elif left in model._columns:
|
|
params = model._columns[left]._symbol_set[1](right)
|
|
|
|
if add_null:
|
|
query = '(%s OR %s."%s" IS NULL)' % (query, table_alias, left)
|
|
|
|
if isinstance(params, basestring):
|
|
params = [params]
|
|
return query, params
|
|
|
|
def to_sql(self):
|
|
stack = []
|
|
params = []
|
|
# Process the domain from right to left, using a stack, to generate a SQL expression.
|
|
self.result.reverse()
|
|
for leaf in self.result:
|
|
if leaf.is_leaf(internal=True):
|
|
q, p = self.__leaf_to_sql(leaf)
|
|
params.insert(0, p)
|
|
stack.append(q)
|
|
elif leaf.leaf == NOT_OPERATOR:
|
|
stack.append('(NOT (%s))' % (stack.pop(),))
|
|
else:
|
|
ops = {AND_OPERATOR: ' AND ', OR_OPERATOR: ' OR '}
|
|
q1 = stack.pop()
|
|
q2 = stack.pop()
|
|
stack.append('(%s %s %s)' % (q1, ops[leaf.leaf], q2,))
|
|
|
|
assert len(stack) == 1
|
|
query = stack[0]
|
|
joins = ' AND '.join(self.joins)
|
|
if joins:
|
|
query = '(%s) AND %s' % (joins, query)
|
|
|
|
return query, tools.flatten(params)
|
|
|
|
# vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4:
|