from collections import OrderedDict from typing import List, Optional, Tuple import django from django.core.exceptions import SuspiciousOperation from django.db import connections, models from django.db.models import sql from django.db.models.constants import LOOKUP_SEP from .compiler import PostgresInsertOnConflictCompiler from .compiler import SQLUpdateCompiler as PostgresUpdateCompiler from .expressions import HStoreColumn from .fields import HStoreField from .types import ConflictAction class PostgresQuery(sql.Query): def chain(self, klass=None): """Chains this query to another. We override this so that we can make sure our subclassed query classes are used. """ if klass == sql.UpdateQuery: return super().chain(PostgresUpdateQuery) if klass == sql.InsertQuery: return super().chain(PostgresInsertQuery) return super().chain(klass) def rename_annotations(self, annotations) -> None: """Renames the aliases for the specified annotations: .annotate(myfield=F('somestuf__myfield')) .rename_annotations(myfield='field') Arguments: annotations: The annotations to rename. Mapping the old name to the new name. """ # safety check only, make sure there are no renames # left that cannot be mapped back to the original name for old_name, new_name in annotations.items(): annotation = self.annotations.get(old_name) if not annotation: raise SuspiciousOperation( ( 'Cannot rename annotation "{old_name}" to "{new_name}", because there' ' is no annotation named "{old_name}".' ).format(old_name=old_name, new_name=new_name) ) # rebuild the annotations according to the original order new_annotations = OrderedDict() for old_name, annotation in self.annotations.items(): new_name = annotations.get(old_name) new_annotations[new_name or old_name] = annotation if new_name and self.annotation_select_mask: self.annotation_select_mask.discard(old_name) self.annotation_select_mask.add(new_name) self.annotations.clear() self.annotations.update(new_annotations) def add_fields(self, field_names: List[str], *args, **kwargs) -> None: """Adds the given (model) fields to the select set. The field names are added in the order specified. This overrides the base class's add_fields method. This is called by the .values() or .values_list() method of the query set. It instructs the ORM to only select certain values. A lot of processing is neccesarry because it can be used to easily do joins. For example, `my_fk__name` pulls in the `name` field in foreign key `my_fk`. In our case, we want to be able to do `title__en`, where `title` is a HStoreField and `en` a key. This doesn't really involve a join. We iterate over the specified field names and filter out the ones that refer to HStoreField and compile it into an expression which is added to the list of to be selected fields using `self.add_select`. """ # django knows how to do all of this natively from v2.1 # see: https://github.com/django/django/commit/20bab2cf9d02a5c6477d8aac066a635986e0d3f3 if django.VERSION >= (2, 1): return super().add_fields(field_names, *args, **kwargs) select = [] field_names_without_hstore = [] for name in field_names: parts = name.split(LOOKUP_SEP) # it cannot be a special hstore thing if there's no __ in it if len(parts) > 1: column_name, hstore_key = parts[:2] is_hstore, field = self._is_hstore_field(column_name) if is_hstore: select.append( HStoreColumn( self.model._meta.db_table or self.model.name, field, hstore_key, ) ) continue field_names_without_hstore.append(name) super().add_fields(field_names_without_hstore, *args, **kwargs) if len(select) > 0: self.set_select(self.select + tuple(select)) def _is_hstore_field( self, field_name: str ) -> Tuple[bool, Optional[models.Field]]: """Gets whether the field with the specified name is a HStoreField. Returns A tuple of a boolean indicating whether the field with the specified name is a HStoreField, and the field instance. """ field_instance = None for field in self.model._meta.local_concrete_fields: if field.name == field_name or field.column == field_name: field_instance = field break return isinstance(field_instance, HStoreField), field_instance class PostgresInsertQuery(sql.InsertQuery): """Insert query using PostgreSQL.""" def __init__(self, *args, **kwargs): """Initializes a new instance :see:PostgresInsertQuery.""" super(PostgresInsertQuery, self).__init__(*args, **kwargs) self.conflict_target = [] self.conflict_action = ConflictAction.UPDATE self.conflict_update_condition = None self.index_predicate = None self.update_fields = [] def values(self, objs: List, insert_fields: List, update_fields: List = []): """Sets the values to be used in this query. Insert fields are fields that are definitely going to be inserted, and if an existing row is found, are going to be overwritten with the specified value. Update fields are fields that should be overwritten in case an update takes place rather than an insert. If we're dealing with a INSERT, these will not be used. Arguments: objs: The objects to apply this query to. insert_fields: The fields to use in the INSERT statement update_fields: The fields to only use in the UPDATE statement. """ self.insert_values(insert_fields, objs, raw=False) self.update_fields = update_fields def get_compiler(self, using=None, connection=None): if using: connection = connections[using] return PostgresInsertOnConflictCompiler(self, connection, using) class PostgresUpdateQuery(sql.UpdateQuery): """Update query using PostgreSQL.""" def get_compiler(self, using=None, connection=None): if using: connection = connections[using] return PostgresUpdateCompiler(self, connection, using)