from django.db import backend, connection, transaction from django.db.models.fields import DateField, FieldDoesNotExist from django.db.models import signals from django.dispatch import dispatcher from django.utils.datastructures import SortedDict import operator # For Python 2.3 if not hasattr(__builtins__, 'set'): from sets import Set as set LOOKUP_SEPARATOR = '__' # Size of each "chunk" for get_iterator calls. # Larger values are slightly faster at the expense of more storage space. GET_ITERATOR_CHUNK_SIZE = 100 #################### # HELPER FUNCTIONS # #################### # Django currently supports two forms of ordering. # Form 1 (deprecated) example: # order_by=(('pub_date', 'DESC'), ('headline', 'ASC'), (None, 'RANDOM')) # Form 2 (new-style) example: # order_by=('-pub_date', 'headline', '?') # Form 1 is deprecated and will no longer be supported for Django's first # official release. The following code converts from Form 1 to Form 2. LEGACY_ORDERING_MAPPING = {'ASC': '_', 'DESC': '-_', 'RANDOM': '?'} def handle_legacy_orderlist(order_list): if not order_list or isinstance(order_list[0], basestring): return order_list else: import warnings new_order_list = [LEGACY_ORDERING_MAPPING[j.upper()].replace('_', str(i)) for i, j in order_list] warnings.warn("%r ordering syntax is deprecated. Use %r instead." % (order_list, new_order_list), DeprecationWarning) return new_order_list def orderfield2column(f, opts): try: return opts.get_field(f, False).column except FieldDoesNotExist: return f def orderlist2sql(order_list, opts, prefix=''): if prefix.endswith('.'): prefix = backend.quote_name(prefix[:-1]) + '.' output = [] for f in handle_legacy_orderlist(order_list): if f.startswith('-'): output.append('%s%s DESC' % (prefix, backend.quote_name(orderfield2column(f[1:], opts)))) elif f == '?': output.append(backend.get_random_function_sql()) else: output.append('%s%s ASC' % (prefix, backend.quote_name(orderfield2column(f, opts)))) return ', '.join(output) def quote_only_if_word(word): if ' ' in word: return word else: return backend.quote_name(word) class QuerySet(object): "Represents a lazy database lookup for a set of objects" def __init__(self, model=None): self.model = model self._filters = Q() self._order_by = None # Ordering, e.g. ('date', '-name'). If None, use model's ordering. self._select_related = False # Whether to fill cache for related objects. self._distinct = False # Whether the query should use SELECT DISTINCT. self._select = {} # Dictionary of attname -> SQL. self._where = [] # List of extra WHERE clauses to use. self._params = [] # List of params to use for extra WHERE clauses. self._tables = [] # List of extra tables to use. self._offset = None # OFFSET clause self._limit = None # LIMIT clause self._result_cache = None ######################## # PYTHON MAGIC METHODS # ######################## def __repr__(self): return repr(self._get_data()) def __len__(self): return len(self._get_data()) def __iter__(self): return iter(self._get_data()) def __getitem__(self, k): "Retrieve an item or slice from the set of results." assert (not isinstance(k, slice) and (k >= 0)) \ or (isinstance(k, slice) and (k.start is None or k.start >= 0) and (k.stop is None or k.stop >= 0)), \ "Negative indexing is not supported." if self._result_cache is None: if isinstance(k, slice): # Offset: if self._offset is None: offset = k.start elif k.start is None: offset = self._offset else: offset = self._offset + k.start # Now adjust offset to the bounds of any existing limit: if self._limit is not None and k.start is not None: limit = self._limit - k.start else: limit = self._limit # Limit: if k.stop is not None and k.start is not None: if limit is None: limit = k.stop - k.start else: limit = min((k.stop - k.start), limit) else: if limit is None: limit = k.stop else: if k.stop is not None: limit = min(k.stop, limit) if k.step is None: return self._clone(_offset=offset, _limit=limit) else: return list(self._clone(_offset=offset, _limit=limit))[::k.step] else: try: return list(self._clone(_offset=k, _limit=1))[0] except self.model.DoesNotExist, e: raise IndexError, e.args else: return self._result_cache[k] def __and__(self, other): combined = self._combine(other) combined._filters = self._filters & other._filters return combined def __or__(self, other): combined = self._combine(other) combined._filters = self._filters | other._filters return combined #################################### # METHODS THAT DO DATABASE QUERIES # #################################### def iterator(self): "Performs the SELECT database lookup of this QuerySet." # self._select is a dictionary, and dictionaries' key order is # undefined, so we convert it to a list of tuples. extra_select = self._select.items() cursor = connection.cursor() select, sql, params = self._get_sql_clause() cursor.execute("SELECT " + (self._distinct and "DISTINCT " or "") + ",".join(select) + sql, params) fill_cache = self._select_related index_end = len(self.model._meta.fields) while 1: rows = cursor.fetchmany(GET_ITERATOR_CHUNK_SIZE) if not rows: raise StopIteration for row in rows: if fill_cache: obj, index_end = get_cached_row(self.model, row, 0) else: obj = self.model(*row[:index_end]) for i, k in enumerate(extra_select): setattr(obj, k[0], row[index_end+i]) yield obj def count(self): "Performs a SELECT COUNT() and returns the number of records as an integer." counter = self._clone() counter._order_by = () counter._offset = None counter._limit = None counter._select_related = False select, sql, params = counter._get_sql_clause() cursor = connection.cursor() if self._distinct: id_col = "%s.%s" % (backend.quote_name(self.model._meta.db_table), backend.quote_name(self.model._meta.pk.column)) cursor.execute("SELECT COUNT(DISTINCT(%s))" % id_col + sql, params) else: cursor.execute("SELECT COUNT(*)" + sql, params) return cursor.fetchone()[0] def get(self, *args, **kwargs): "Performs the SELECT and returns a single object matching the given keyword arguments." clone = self.filter(*args, **kwargs) # clean up SQL by removing unneeded ORDER BY if not clone._order_by: clone._order_by = () obj_list = list(clone) if len(obj_list) < 1: raise self.model.DoesNotExist, "%s matching query does not exist." % self.model._meta.object_name assert len(obj_list) == 1, "get() returned more than one %s -- it returned %s! Lookup parameters were %s" % (self.model._meta.object_name, len(obj_list), kwargs) return obj_list[0] def latest(self, field_name=None): """ Returns the latest object, according to the model's 'get_latest_by' option or optional given field_name. """ latest_by = field_name or self.model._meta.get_latest_by assert bool(latest_by), "latest() requires either a field_name parameter or 'get_latest_by' in the model" assert self._limit is None and self._offset is None, \ "Cannot change a query once a slice has been taken." return self._clone(_limit=1, _order_by=('-'+latest_by,)).get() def in_bulk(self, id_list): """ Returns a dictionary mapping each of the given IDs to the object with that ID. """ assert self._limit is None and self._offset is None, \ "Cannot use 'limit' or 'offset' with in_bulk" assert isinstance(id_list, (tuple, list)), "in_bulk() must be provided with a list of IDs." id_list = list(id_list) if id_list == []: return {} qs = self._clone() qs._where.append("%s.%s IN (%s)" % (backend.quote_name(self.model._meta.db_table), backend.quote_name(self.model._meta.pk.column), ",".join(['%s'] * len(id_list)))) qs._params.extend(id_list) return dict([(obj._get_pk_val(), obj) for obj in qs.iterator()]) def delete(self): """ Deletes the records in the current QuerySet. """ assert self._limit is None and self._offset is None, \ "Cannot use 'limit' or 'offset' with delete." del_query = self._clone() # disable non-supported fields del_query._select_related = False del_query._order_by = [] # Delete objects in chunks to prevent an the list of # related objects from becoming too long more_objects = True while more_objects: # Collect all the objects to be deleted in this chunk, and all the objects # that are related to the objects that are to be deleted seen_objs = SortedDict() more_objects = False for object in del_query[0:GET_ITERATOR_CHUNK_SIZE]: more_objects = True object._collect_sub_objects(seen_objs) # If one or more objects were found, delete them. # Otherwise, stop looping. if more_objects: delete_objects(seen_objs) # Clear the result cache, in case this QuerySet gets reused. self._result_cache = None delete.alters_data = True ################################################## # PUBLIC METHODS THAT RETURN A QUERYSET SUBCLASS # ################################################## def values(self, *fields): return self._clone(klass=ValuesQuerySet, _fields=fields) def dates(self, field_name, kind, order='ASC'): """ Returns a list of datetime objects representing all available dates for the given field_name, scoped to 'kind'. """ assert kind in ("month", "year", "day"), "'kind' must be one of 'year', 'month' or 'day'." assert order in ('ASC', 'DESC'), "'order' must be either 'ASC' or 'DESC'." # Let the FieldDoesNotExist exception propagate. field = self.model._meta.get_field(field_name, many_to_many=False) assert isinstance(field, DateField), "%r isn't a DateField." % field_name return self._clone(klass=DateQuerySet, _field=field, _kind=kind, _order=order) ################################################################## # PUBLIC METHODS THAT ALTER ATTRIBUTES AND RETURN A NEW QUERYSET # ################################################################## def filter(self, *args, **kwargs): "Returns a new QuerySet instance with the args ANDed to the existing set." return self._filter_or_exclude(None, *args, **kwargs) def exclude(self, *args, **kwargs): "Returns a new QuerySet instance with NOT (args) ANDed to the existing set." return self._filter_or_exclude(QNot, *args, **kwargs) def _filter_or_exclude(self, mapper, *args, **kwargs): # mapper is a callable used to transform Q objects, # or None for identity transform if mapper is None: mapper = lambda x: x if len(args) > 0 or len(kwargs) > 0: assert self._limit is None and self._offset is None, \ "Cannot filter a query once a slice has been taken." clone = self._clone() if len(kwargs) > 0: clone._filters = clone._filters & mapper(Q(**kwargs)) if len(args) > 0: clone._filters = clone._filters & reduce(operator.and_, map(mapper, args)) return clone def complex_filter(self, filter_obj): """Returns a new QuerySet instance with filter_obj added to the filters. filter_obj can be a Q object (has 'get_sql' method) or a dictionary of keyword lookup arguments.""" # This exists to support framework features such as 'limit_choices_to', # and usually it will be more natural to use other methods. if hasattr(filter_obj, 'get_sql'): return self._filter_or_exclude(None, filter_obj) else: return self._filter_or_exclude(None, **filter_obj) def select_related(self, true_or_false=True): "Returns a new QuerySet instance with '_select_related' modified." return self._clone(_select_related=true_or_false) def order_by(self, *field_names): "Returns a new QuerySet instance with the ordering changed." assert self._limit is None and self._offset is None, \ "Cannot reorder a query once a slice has been taken." return self._clone(_order_by=field_names) def distinct(self, true_or_false=True): "Returns a new QuerySet instance with '_distinct' modified." return self._clone(_distinct=true_or_false) def extra(self, select=None, where=None, params=None, tables=None): assert self._limit is None and self._offset is None, \ "Cannot change a query once a slice has been taken" clone = self._clone() if select: clone._select.update(select) if where: clone._where.extend(where) if params: clone._params.extend(params) if tables: clone._tables.extend(tables) return clone ################### # PRIVATE METHODS # ################### def _clone(self, klass=None, **kwargs): if klass is None: klass = self.__class__ c = klass() c.model = self.model c._filters = self._filters c._order_by = self._order_by c._select_related = self._select_related c._distinct = self._distinct c._select = self._select.copy() c._where = self._where[:] c._params = self._params[:] c._tables = self._tables[:] c._offset = self._offset c._limit = self._limit c.__dict__.update(kwargs) return c def _combine(self, other): assert self._limit is None and self._offset is None \ and other._limit is None and other._offset is None, \ "Cannot combine queries once a slice has been taken." assert self._distinct == other._distinct, \ "Cannot combine a unique query with a non-unique query" # use 'other's order by # (so that A.filter(args1) & A.filter(args2) does the same as # A.filter(args1).filter(args2) combined = other._clone() # If 'self' is ordered and 'other' isn't, propagate 'self's ordering if (self._order_by is not None and len(self._order_by) > 0) and \ (combined._order_by is None or len(combined._order_by) == 0): combined._order_by = self._order_by return combined def _get_data(self): if self._result_cache is None: self._result_cache = list(self.iterator()) return self._result_cache def _get_sql_clause(self): opts = self.model._meta # Construct the fundamental parts of the query: SELECT X FROM Y WHERE Z. select = ["%s.%s" % (backend.quote_name(opts.db_table), backend.quote_name(f.column)) for f in opts.fields] tables = [quote_only_if_word(t) for t in self._tables] joins = SortedDict() where = self._where[:] params = self._params[:] # Convert self._filters into SQL. tables2, joins2, where2, params2 = self._filters.get_sql(opts) tables.extend(tables2) joins.update(joins2) where.extend(where2) params.extend(params2) # Add additional tables and WHERE clauses based on select_related. if self._select_related: fill_table_cache(opts, select, tables, where, opts.db_table, [opts.db_table]) # Add any additional SELECTs. if self._select: select.extend(['(%s) AS %s' % (quote_only_if_word(s[1]), backend.quote_name(s[0])) for s in self._select.items()]) # Start composing the body of the SQL statement. sql = [" FROM", backend.quote_name(opts.db_table)] # Compose the join dictionary into SQL describing the joins. if joins: sql.append(" ".join(["%s %s AS %s ON %s" % (join_type, table, alias, condition) for (alias, (table, join_type, condition)) in joins.items()])) # Compose the tables clause into SQL. if tables: sql.append(", " + ", ".join(tables)) # Compose the where clause into SQL. if where: sql.append(where and "WHERE " + " AND ".join(where)) # ORDER BY clause order_by = [] if self._order_by is not None: ordering_to_use = self._order_by else: ordering_to_use = opts.ordering for f in handle_legacy_orderlist(ordering_to_use): if f == '?': # Special case. order_by.append(backend.get_random_function_sql()) else: if f.startswith('-'): col_name = f[1:] order = "DESC" else: col_name = f order = "ASC" if "." in col_name: table_prefix, col_name = col_name.split('.', 1) table_prefix = backend.quote_name(table_prefix) + '.' else: # Use the database table as a column prefix if it wasn't given, # and if the requested column isn't a custom SELECT. if "." not in col_name and col_name not in (self._select or ()): table_prefix = backend.quote_name(opts.db_table) + '.' else: table_prefix = '' order_by.append('%s%s %s' % (table_prefix, backend.quote_name(orderfield2column(col_name, opts)), order)) if order_by: sql.append("ORDER BY " + ", ".join(order_by)) # LIMIT and OFFSET clauses if self._limit is not None: sql.append("%s " % backend.get_limit_offset_sql(self._limit, self._offset)) else: assert self._offset is None, "'offset' is not allowed without 'limit'" return select, " ".join(sql), params class ValuesQuerySet(QuerySet): def iterator(self): # select_related and select aren't supported in values(). self._select_related = False self._select = {} # self._fields is a list of field names to fetch. if self._fields: columns = [self.model._meta.get_field(f, many_to_many=False).column for f in self._fields] field_names = self._fields else: # Default to all fields. columns = [f.column for f in self.model._meta.fields] field_names = [f.attname for f in self.model._meta.fields] cursor = connection.cursor() select, sql, params = self._get_sql_clause() select = ['%s.%s' % (backend.quote_name(self.model._meta.db_table), backend.quote_name(c)) for c in columns] cursor.execute("SELECT " + (self._distinct and "DISTINCT " or "") + ",".join(select) + sql, params) while 1: rows = cursor.fetchmany(GET_ITERATOR_CHUNK_SIZE) if not rows: raise StopIteration for row in rows: yield dict(zip(field_names, row)) def _clone(self, klass=None, **kwargs): c = super(ValuesQuerySet, self)._clone(klass, **kwargs) c._fields = self._fields[:] return c class DateQuerySet(QuerySet): def iterator(self): from django.db.backends.util import typecast_timestamp self._order_by = () # Clear this because it'll mess things up otherwise. if self._field.null: self._where.append('%s.%s IS NOT NULL' % \ (backend.quote_name(self.model._meta.db_table), backend.quote_name(self._field.column))) select, sql, params = self._get_sql_clause() sql = 'SELECT %s %s GROUP BY 1 ORDER BY 1 %s' % \ (backend.get_date_trunc_sql(self._kind, '%s.%s' % (backend.quote_name(self.model._meta.db_table), backend.quote_name(self._field.column))), sql, self._order) cursor = connection.cursor() cursor.execute(sql, params) # We have to manually run typecast_timestamp(str()) on the results, because # MySQL doesn't automatically cast the result of date functions as datetime # objects -- MySQL returns the values as strings, instead. return [typecast_timestamp(str(row[0])) for row in cursor.fetchall()] def _clone(self, klass=None, **kwargs): c = super(DateQuerySet, self)._clone(klass, **kwargs) c._field = self._field c._kind = self._kind c._order = self._order return c class QOperator: "Base class for QAnd and QOr" def __init__(self, *args): self.args = args def get_sql(self, opts): tables, joins, where, params = [], SortedDict(), [], [] for val in self.args: tables2, joins2, where2, params2 = val.get_sql(opts) tables.extend(tables2) joins.update(joins2) where.extend(where2) params.extend(params2) if where: return tables, joins, ['(%s)' % self.operator.join(where)], params return tables, joins, [], params class QAnd(QOperator): "Encapsulates a combined query that uses 'AND'." operator = ' AND ' def __or__(self, other): return QOr(self, other) def __and__(self, other): if isinstance(other, QAnd): return QAnd(*(self.args+other.args)) elif isinstance(other, (Q, QOr)): return QAnd(*(self.args+(other,))) else: raise TypeError, other class QOr(QOperator): "Encapsulates a combined query that uses 'OR'." operator = ' OR ' def __and__(self, other): return QAnd(self, other) def __or__(self, other): if isinstance(other, QOr): return QOr(*(self.args+other.args)) elif isinstance(other, (Q, QAnd)): return QOr(*(self.args+(other,))) else: raise TypeError, other class Q(object): "Encapsulates queries as objects that can be combined logically." def __init__(self, **kwargs): self.kwargs = kwargs def __and__(self, other): return QAnd(self, other) def __or__(self, other): return QOr(self, other) def get_sql(self, opts): return parse_lookup(self.kwargs.items(), opts) class QNot(Q): "Encapsulates NOT (...) queries as objects" def __init__(self, q): "Creates a negation of the q object passed in." self.q = q def get_sql(self, opts): tables, joins, where, params = self.q.get_sql(opts) where2 = ['(NOT (%s))' % " AND ".join(where)] return tables, joins, where2, params def get_where_clause(lookup_type, table_prefix, field_name, value): if table_prefix.endswith('.'): table_prefix = backend.quote_name(table_prefix[:-1])+'.' field_name = backend.quote_name(field_name) try: return '%s%s %s' % (table_prefix, field_name, (backend.OPERATOR_MAPPING[lookup_type] % '%s')) except KeyError: pass if lookup_type == 'in': return '%s%s IN (%s)' % (table_prefix, field_name, ','.join(['%s' for v in value])) elif lookup_type == 'range': return '%s%s BETWEEN %%s AND %%s' % (table_prefix, field_name) elif lookup_type in ('year', 'month', 'day'): return "%s = %%s" % backend.get_date_extract_sql(lookup_type, table_prefix + field_name) elif lookup_type == 'isnull': return "%s%s IS %sNULL" % (table_prefix, field_name, (not value and 'NOT ' or '')) raise TypeError, "Got invalid lookup_type: %s" % repr(lookup_type) def get_cached_row(klass, row, index_start): "Helper function that recursively returns an object with cache filled" index_end = index_start + len(klass._meta.fields) obj = klass(*row[index_start:index_end]) for f in klass._meta.fields: if f.rel and not f.null: rel_obj, index_end = get_cached_row(f.rel.to, row, index_end) setattr(obj, f.get_cache_name(), rel_obj) return obj, index_end def fill_table_cache(opts, select, tables, where, old_prefix, cache_tables_seen): """ Helper function that recursively populates the select, tables and where (in place) for fill-cache queries. """ for f in opts.fields: if f.rel and not f.null: db_table = f.rel.to._meta.db_table if db_table not in cache_tables_seen: tables.append(backend.quote_name(db_table)) else: # The table was already seen, so give it a table alias. new_prefix = '%s%s' % (db_table, len(cache_tables_seen)) tables.append('%s %s' % (backend.quote_name(db_table), backend.quote_name(new_prefix))) db_table = new_prefix cache_tables_seen.append(db_table) where.append('%s.%s = %s.%s' % \ (backend.quote_name(old_prefix), backend.quote_name(f.column), backend.quote_name(db_table), backend.quote_name(f.rel.get_related_field().column))) select.extend(['%s.%s' % (backend.quote_name(db_table), backend.quote_name(f2.column)) for f2 in f.rel.to._meta.fields]) fill_table_cache(f.rel.to._meta, select, tables, where, db_table, cache_tables_seen) def parse_lookup(kwarg_items, opts): # Helper function that handles converting API kwargs # (e.g. "name__exact": "tom") to SQL. # 'joins' is a sorted dictionary describing the tables that must be joined # to complete the query. The dictionary is sorted because creation order # is significant; it is a dictionary to ensure uniqueness of alias names. # # Each key-value pair follows the form # alias: (table, join_type, condition) # where # alias is the AS alias for the joined table # table is the actual table name to be joined # join_type is the type of join (INNER JOIN, LEFT OUTER JOIN, etc) # condition is the where-like statement over which narrows the join. # alias will be derived from the lookup list name. # # At present, this method only every returns INNER JOINs; the option is # there for others to implement custom Q()s, etc that return other join # types. tables, joins, where, params = [], SortedDict(), [], [] for kwarg, value in kwarg_items: if value is not None: path = kwarg.split(LOOKUP_SEPARATOR) # Extract the last elements of the kwarg. # The very-last is the clause (equals, like, etc). # The second-last is the table column on which the clause is # to be performed. # The exceptions to this are: # 1) "pk", which is an implicit id__exact; # if we find "pk", make the clause "exact', and insert # a dummy name of None, which we will replace when # we know which table column to grab as the primary key. # 2) If there is only one part, assume it to be an __exact clause = path.pop() if clause == 'pk': clause = 'exact' path.append(None) elif len(path) == 0: path.append(clause) clause = 'exact' if len(path) < 1: raise TypeError, "Cannot parse keyword query %r" % kwarg tables2, joins2, where2, params2 = lookup_inner(path, clause, value, opts, opts.db_table, None) tables.extend(tables2) joins.update(joins2) where.extend(where2) params.extend(params2) return tables, joins, where, params class FieldFound(Exception): "Exception used to short circuit field-finding operations." pass def find_field(name, field_list, related_query): """ Finds a field with a specific name in a list of field instances. Returns None if there are no matches, or several matches. """ if related_query: matches = [f for f in field_list if f.field.related_query_name() == name] else: matches = [f for f in field_list if f.name == name] if len(matches) != 1: return None return matches[0] def lookup_inner(path, clause, value, opts, table, column): tables, joins, where, params = [], SortedDict(), [], [] current_opts = opts current_table = table current_column = column intermediate_table = None join_required = False name = path.pop(0) # Has the primary key been requested? If so, expand it out # to be the name of the current class' primary key if name is None: name = current_opts.pk.name # Try to find the name in the fields associated with the current class try: # Does the name belong to a defined many-to-many field? field = find_field(name, current_opts.many_to_many, False) if field: new_table = current_table + LOOKUP_SEPARATOR + name new_opts = field.rel.to._meta new_column = new_opts.pk.column # Need to create an intermediate table join over the m2m table # This process hijacks current_table/column to point to the # intermediate table. current_table = "m2m_" + new_table intermediate_table = field.m2m_db_table() join_column = field.m2m_reverse_name() intermediate_column = field.m2m_column_name() raise FieldFound # Does the name belong to a reverse defined many-to-many field? field = find_field(name, current_opts.get_all_related_many_to_many_objects(), True) if field: new_table = current_table + LOOKUP_SEPARATOR + name new_opts = field.opts new_column = new_opts.pk.column # Need to create an intermediate table join over the m2m table. # This process hijacks current_table/column to point to the # intermediate table. current_table = "m2m_" + new_table intermediate_table = field.field.m2m_db_table() join_column = field.field.m2m_column_name() intermediate_column = field.field.m2m_reverse_name() raise FieldFound # Does the name belong to a one-to-many field? field = find_field(name, current_opts.get_all_related_objects(), True) if field: new_table = table + LOOKUP_SEPARATOR + name new_opts = field.opts new_column = field.field.column join_column = opts.pk.column # 1-N fields MUST be joined, regardless of any other conditions. join_required = True raise FieldFound # Does the name belong to a one-to-one, many-to-one, or regular field? field = find_field(name, current_opts.fields, False) if field: if field.rel: # One-to-One/Many-to-one field new_table = current_table + LOOKUP_SEPARATOR + name new_opts = field.rel.to._meta new_column = new_opts.pk.column join_column = field.column raise FieldFound except FieldFound: # Match found, loop has been shortcut. pass except: # Any other exception; rethrow raise else: # No match found. raise TypeError, "Cannot resolve keyword '%s' into field" % name # Check to see if an intermediate join is required between current_table # and new_table. if intermediate_table: joins[backend.quote_name(current_table)] = ( backend.quote_name(intermediate_table), "LEFT OUTER JOIN", "%s.%s = %s.%s" % \ (backend.quote_name(table), backend.quote_name(current_opts.pk.column), backend.quote_name(current_table), backend.quote_name(intermediate_column)) ) if path: if len(path) == 1 and path[0] in (new_opts.pk.name, None) \ and clause in ('exact', 'isnull') and not join_required: # If the last name query is for a key, and the search is for # isnull/exact, then the current (for N-1) or intermediate # (for N-N) table can be used for the search - no need to join an # extra table just to check the primary key. new_table = current_table else: # There are 1 or more name queries pending, and we have ruled out # any shortcuts; therefore, a join is required. joins[backend.quote_name(new_table)] = ( backend.quote_name(new_opts.db_table), "INNER JOIN", "%s.%s = %s.%s" % (backend.quote_name(current_table), backend.quote_name(join_column), backend.quote_name(new_table), backend.quote_name(new_column)) ) # If we have made the join, we don't need to tell subsequent # recursive calls about the column name we joined on. join_column = None # There are name queries remaining. Recurse deeper. tables2, joins2, where2, params2 = lookup_inner(path, clause, value, new_opts, new_table, join_column) tables.extend(tables2) joins.update(joins2) where.extend(where2) params.extend(params2) else: # Evaluate clause on current table. if name in (current_opts.pk.name, None) and clause in ('exact', 'isnull') and current_column: # If this is an exact/isnull key search, and the last pass # found/introduced a current/intermediate table that we can use to # optimize the query, then use that column name. column = current_column else: column = field.column where.append(get_where_clause(clause, current_table + '.', column, value)) params.extend(field.get_db_prep_lookup(clause, value)) return tables, joins, where, params def delete_objects(seen_objs): "Iterate through a list of seen classes, and remove any instances that are referred to" ordered_classes = seen_objs.keys() ordered_classes.reverse() cursor = connection.cursor() for cls in ordered_classes: seen_objs[cls] = seen_objs[cls].items() seen_objs[cls].sort() # Pre notify all instances to be deleted for pk_val, instance in seen_objs[cls]: dispatcher.send(signal=signals.pre_delete, sender=cls, instance=instance) pk_list = [pk for pk,instance in seen_objs[cls]] for related in cls._meta.get_all_related_many_to_many_objects(): for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): cursor.execute("DELETE FROM %s WHERE %s IN (%s)" % \ (backend.quote_name(related.field.m2m_db_table()), backend.quote_name(related.field.m2m_reverse_name()), ','.join(['%s' for pk in pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]])), pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]) for f in cls._meta.many_to_many: for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): cursor.execute("DELETE FROM %s WHERE %s IN (%s)" % \ (backend.quote_name(f.m2m_db_table()), backend.quote_name(f.m2m_column_name()), ','.join(['%s' for pk in pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]])), pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]) for field in cls._meta.fields: if field.rel and field.null and field.rel.to in seen_objs: for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): cursor.execute("UPDATE %s SET %s=NULL WHERE %s IN (%s)" % \ (backend.quote_name(cls._meta.db_table), backend.quote_name(field.column), backend.quote_name(cls._meta.pk.column), ','.join(['%s' for pk in pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]])), pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]) # Now delete the actual data for cls in ordered_classes: seen_objs[cls].reverse() pk_list = [pk for pk,instance in seen_objs[cls]] for offset in range(0, len(pk_list), GET_ITERATOR_CHUNK_SIZE): cursor.execute("DELETE FROM %s WHERE %s IN (%s)" % \ (backend.quote_name(cls._meta.db_table), backend.quote_name(cls._meta.pk.column), ','.join(['%s' for pk in pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]])), pk_list[offset:offset+GET_ITERATOR_CHUNK_SIZE]) # Last cleanup; set NULLs where there once was a reference to the object, # NULL the primary key of the found objects, and perform post-notification. for pk_val, instance in seen_objs[cls]: for field in cls._meta.fields: if field.rel and field.null and field.rel.to in seen_objs: setattr(instance, field.attname, None) setattr(instance, cls._meta.pk.attname, None) dispatcher.send(signal=signals.post_delete, sender=cls, instance=instance) transaction.commit_unless_managed()