import inspect from copy import copy from django.conf import settings from django.utils import timezone from django.utils.functional import cached_property from django.utils.six.moves import range from .query_utils import QueryWrapper class RegisterLookupMixin(object): def _get_lookup(self, lookup_name): try: return self.class_lookups[lookup_name] except KeyError: # To allow for inheritance, check parent class' class_lookups. for parent in inspect.getmro(self.__class__): if 'class_lookups' not in parent.__dict__: continue if lookup_name in parent.class_lookups: return parent.class_lookups[lookup_name] except AttributeError: # This class didn't have any class_lookups pass return None def get_lookup(self, lookup_name): found = self._get_lookup(lookup_name) if found is None and hasattr(self, 'output_field'): return self.output_field.get_lookup(lookup_name) if found is not None and not issubclass(found, Lookup): return None return found def get_transform(self, lookup_name): found = self._get_lookup(lookup_name) if found is None and hasattr(self, 'output_field'): return self.output_field.get_transform(lookup_name) if found is not None and not issubclass(found, Transform): return None return found @classmethod def register_lookup(cls, lookup): if 'class_lookups' not in cls.__dict__: cls.class_lookups = {} cls.class_lookups[lookup.lookup_name] = lookup return lookup @classmethod def _unregister_lookup(cls, lookup): """ Removes given lookup from cls lookups. Meant to be used in tests only. """ del cls.class_lookups[lookup.lookup_name] class Transform(RegisterLookupMixin): bilateral = False def __init__(self, lhs, lookups): self.lhs = lhs self.init_lookups = lookups[:] def as_sql(self, compiler, connection): raise NotImplementedError @cached_property def output_field(self): return self.lhs.output_field def copy(self): return copy(self) def relabeled_clone(self, relabels): copy = self.copy() copy.lhs = self.lhs.relabeled_clone(relabels) return copy def get_group_by_cols(self): return self.lhs.get_group_by_cols() def get_bilateral_transforms(self): if hasattr(self.lhs, 'get_bilateral_transforms'): bilateral_transforms = self.lhs.get_bilateral_transforms() else: bilateral_transforms = [] if self.bilateral: bilateral_transforms.append((self.__class__, self.init_lookups)) return bilateral_transforms @cached_property def contains_aggregate(self): return self.lhs.contains_aggregate class Lookup(RegisterLookupMixin): lookup_name = None def __init__(self, lhs, rhs): self.lhs, self.rhs = lhs, rhs self.rhs = self.get_prep_lookup() if hasattr(self.lhs, 'get_bilateral_transforms'): bilateral_transforms = self.lhs.get_bilateral_transforms() else: bilateral_transforms = [] if bilateral_transforms: # We should warn the user as soon as possible if he is trying to apply # a bilateral transformation on a nested QuerySet: that won't work. # We need to import QuerySet here so as to avoid circular from django.db.models.query import QuerySet if isinstance(rhs, QuerySet): raise NotImplementedError("Bilateral transformations on nested querysets are not supported.") self.bilateral_transforms = bilateral_transforms def apply_bilateral_transforms(self, value): for transform, lookups in self.bilateral_transforms: value = transform(value, lookups) return value def batch_process_rhs(self, compiler, connection, rhs=None): if rhs is None: rhs = self.rhs if self.bilateral_transforms: sqls, sqls_params = [], [] for p in rhs: value = QueryWrapper('%s', [self.lhs.output_field.get_db_prep_value(p, connection)]) value = self.apply_bilateral_transforms(value) sql, sql_params = compiler.compile(value) sqls.append(sql) sqls_params.extend(sql_params) else: params = self.lhs.output_field.get_db_prep_lookup( self.lookup_name, rhs, connection, prepared=True) sqls, sqls_params = ['%s'] * len(params), params return sqls, sqls_params def get_prep_lookup(self): return self.lhs.output_field.get_prep_lookup(self.lookup_name, self.rhs) def get_db_prep_lookup(self, value, connection): return ( '%s', self.lhs.output_field.get_db_prep_lookup( self.lookup_name, value, connection, prepared=True)) def process_lhs(self, compiler, connection, lhs=None): lhs = lhs or self.lhs return compiler.compile(lhs) def process_rhs(self, compiler, connection): value = self.rhs if self.bilateral_transforms: if self.rhs_is_direct_value(): # Do not call get_db_prep_lookup here as the value will be # transformed before being used for lookup value = QueryWrapper("%s", [self.lhs.output_field.get_db_prep_value(value, connection)]) value = self.apply_bilateral_transforms(value) # Due to historical reasons there are a couple of different # ways to produce sql here. get_compiler is likely a Query # instance, _as_sql QuerySet and as_sql just something with # as_sql. Finally the value can of course be just plain # Python value. if hasattr(value, 'get_compiler'): value = value.get_compiler(connection=connection) if hasattr(value, 'as_sql'): sql, params = compiler.compile(value) return '(' + sql + ')', params if hasattr(value, '_as_sql'): sql, params = value._as_sql(connection=connection) return '(' + sql + ')', params else: return self.get_db_prep_lookup(value, connection) def rhs_is_direct_value(self): return not( hasattr(self.rhs, 'as_sql') or hasattr(self.rhs, '_as_sql') or hasattr(self.rhs, 'get_compiler')) def relabeled_clone(self, relabels): new = copy(self) new.lhs = new.lhs.relabeled_clone(relabels) if hasattr(new.rhs, 'relabeled_clone'): new.rhs = new.rhs.relabeled_clone(relabels) return new def get_group_by_cols(self): cols = self.lhs.get_group_by_cols() if hasattr(self.rhs, 'get_group_by_cols'): cols.extend(self.rhs.get_group_by_cols()) return cols def as_sql(self, compiler, connection): raise NotImplementedError @cached_property def contains_aggregate(self): return self.lhs.contains_aggregate or getattr(self.rhs, 'contains_aggregate', False) class BuiltinLookup(Lookup): def process_lhs(self, compiler, connection, lhs=None): lhs_sql, params = super(BuiltinLookup, self).process_lhs( compiler, connection, lhs) field_internal_type = self.lhs.output_field.get_internal_type() db_type = self.lhs.output_field.db_type(connection=connection) lhs_sql = connection.ops.field_cast_sql( db_type, field_internal_type) % lhs_sql lhs_sql = connection.ops.lookup_cast(self.lookup_name, field_internal_type) % lhs_sql return lhs_sql, list(params) def as_sql(self, compiler, connection): lhs_sql, params = self.process_lhs(compiler, connection) rhs_sql, rhs_params = self.process_rhs(compiler, connection) params.extend(rhs_params) rhs_sql = self.get_rhs_op(connection, rhs_sql) return '%s %s' % (lhs_sql, rhs_sql), params def get_rhs_op(self, connection, rhs): return connection.operators[self.lookup_name] % rhs default_lookups = {} class Exact(BuiltinLookup): lookup_name = 'exact' default_lookups['exact'] = Exact class IExact(BuiltinLookup): lookup_name = 'iexact' def process_rhs(self, qn, connection): rhs, params = super(IExact, self).process_rhs(qn, connection) if params: params[0] = connection.ops.prep_for_iexact_query(params[0]) return rhs, params default_lookups['iexact'] = IExact class GreaterThan(BuiltinLookup): lookup_name = 'gt' default_lookups['gt'] = GreaterThan class GreaterThanOrEqual(BuiltinLookup): lookup_name = 'gte' default_lookups['gte'] = GreaterThanOrEqual class LessThan(BuiltinLookup): lookup_name = 'lt' default_lookups['lt'] = LessThan class LessThanOrEqual(BuiltinLookup): lookup_name = 'lte' default_lookups['lte'] = LessThanOrEqual class In(BuiltinLookup): lookup_name = 'in' def process_rhs(self, compiler, connection): if self.rhs_is_direct_value(): # rhs should be an iterable, we use batch_process_rhs # to prepare/transform those values rhs = list(self.rhs) if not rhs: from django.db.models.sql.datastructures import EmptyResultSet raise EmptyResultSet sqls, sqls_params = self.batch_process_rhs(compiler, connection, rhs) placeholder = '(' + ', '.join(sqls) + ')' return (placeholder, sqls_params) else: return super(In, self).process_rhs(compiler, connection) def get_rhs_op(self, connection, rhs): return 'IN %s' % rhs def as_sql(self, compiler, connection): max_in_list_size = connection.ops.max_in_list_size() if self.rhs_is_direct_value() and (max_in_list_size and len(self.rhs) > max_in_list_size): # This is a special case for Oracle which limits the number of elements # which can appear in an 'IN' clause. lhs, lhs_params = self.process_lhs(compiler, connection) rhs, rhs_params = self.batch_process_rhs(compiler, connection) in_clause_elements = ['('] params = [] for offset in range(0, len(rhs_params), max_in_list_size): if offset > 0: in_clause_elements.append(' OR ') in_clause_elements.append('%s IN (' % lhs) params.extend(lhs_params) sqls = rhs[offset: offset + max_in_list_size] sqls_params = rhs_params[offset: offset + max_in_list_size] param_group = ', '.join(sqls) in_clause_elements.append(param_group) in_clause_elements.append(')') params.extend(sqls_params) in_clause_elements.append(')') return ''.join(in_clause_elements), params else: return super(In, self).as_sql(compiler, connection) default_lookups['in'] = In class PatternLookup(BuiltinLookup): def get_rhs_op(self, connection, rhs): # Assume we are in startswith. We need to produce SQL like: # col LIKE %s, ['thevalue%'] # For python values we can (and should) do that directly in Python, # but if the value is for example reference to other column, then # we need to add the % pattern match to the lookup by something like # col LIKE othercol || '%%' # So, for Python values we don't need any special pattern, but for # SQL reference values or SQL transformations we need the correct # pattern added. if (hasattr(self.rhs, 'get_compiler') or hasattr(self.rhs, 'as_sql') or hasattr(self.rhs, '_as_sql') or self.bilateral_transforms): pattern = connection.pattern_ops[self.lookup_name].format(connection.pattern_esc) return pattern.format(rhs) else: return super(PatternLookup, self).get_rhs_op(connection, rhs) class Contains(PatternLookup): lookup_name = 'contains' def process_rhs(self, qn, connection): rhs, params = super(Contains, self).process_rhs(qn, connection) if params and not self.bilateral_transforms: params[0] = "%%%s%%" % connection.ops.prep_for_like_query(params[0]) return rhs, params default_lookups['contains'] = Contains class IContains(Contains): lookup_name = 'icontains' default_lookups['icontains'] = IContains class StartsWith(PatternLookup): lookup_name = 'startswith' def process_rhs(self, qn, connection): rhs, params = super(StartsWith, self).process_rhs(qn, connection) if params and not self.bilateral_transforms: params[0] = "%s%%" % connection.ops.prep_for_like_query(params[0]) return rhs, params default_lookups['startswith'] = StartsWith class IStartsWith(PatternLookup): lookup_name = 'istartswith' def process_rhs(self, qn, connection): rhs, params = super(IStartsWith, self).process_rhs(qn, connection) if params and not self.bilateral_transforms: params[0] = "%s%%" % connection.ops.prep_for_like_query(params[0]) return rhs, params default_lookups['istartswith'] = IStartsWith class EndsWith(PatternLookup): lookup_name = 'endswith' def process_rhs(self, qn, connection): rhs, params = super(EndsWith, self).process_rhs(qn, connection) if params and not self.bilateral_transforms: params[0] = "%%%s" % connection.ops.prep_for_like_query(params[0]) return rhs, params default_lookups['endswith'] = EndsWith class IEndsWith(PatternLookup): lookup_name = 'iendswith' def process_rhs(self, qn, connection): rhs, params = super(IEndsWith, self).process_rhs(qn, connection) if params and not self.bilateral_transforms: params[0] = "%%%s" % connection.ops.prep_for_like_query(params[0]) return rhs, params default_lookups['iendswith'] = IEndsWith class Between(BuiltinLookup): def get_rhs_op(self, connection, rhs): return "BETWEEN %s AND %s" % (rhs, rhs) class Year(Between): lookup_name = 'year' default_lookups['year'] = Year class Range(BuiltinLookup): lookup_name = 'range' def get_rhs_op(self, connection, rhs): return "BETWEEN %s AND %s" % (rhs[0], rhs[1]) def process_rhs(self, compiler, connection): if self.rhs_is_direct_value(): # rhs should be an iterable of 2 values, we use batch_process_rhs # to prepare/transform those values return self.batch_process_rhs(compiler, connection) else: return super(Range, self).process_rhs(compiler, connection) default_lookups['range'] = Range class DateLookup(BuiltinLookup): def process_lhs(self, compiler, connection, lhs=None): from django.db.models import DateTimeField lhs, params = super(DateLookup, self).process_lhs(compiler, connection, lhs) if isinstance(self.lhs.output_field, DateTimeField): tzname = timezone.get_current_timezone_name() if settings.USE_TZ else None sql, tz_params = connection.ops.datetime_extract_sql(self.extract_type, lhs, tzname) return connection.ops.lookup_cast(self.lookup_name) % sql, tz_params else: return connection.ops.date_extract_sql(self.lookup_name, lhs), [] def get_rhs_op(self, connection, rhs): return '= %s' % rhs class Month(DateLookup): lookup_name = 'month' extract_type = 'month' default_lookups['month'] = Month class Day(DateLookup): lookup_name = 'day' extract_type = 'day' default_lookups['day'] = Day class WeekDay(DateLookup): lookup_name = 'week_day' extract_type = 'week_day' default_lookups['week_day'] = WeekDay class Hour(DateLookup): lookup_name = 'hour' extract_type = 'hour' default_lookups['hour'] = Hour class Minute(DateLookup): lookup_name = 'minute' extract_type = 'minute' default_lookups['minute'] = Minute class Second(DateLookup): lookup_name = 'second' extract_type = 'second' default_lookups['second'] = Second class IsNull(BuiltinLookup): lookup_name = 'isnull' def as_sql(self, compiler, connection): sql, params = compiler.compile(self.lhs) if self.rhs: return "%s IS NULL" % sql, params else: return "%s IS NOT NULL" % sql, params default_lookups['isnull'] = IsNull class Search(BuiltinLookup): lookup_name = 'search' def as_sql(self, compiler, connection): lhs, lhs_params = self.process_lhs(compiler, connection) rhs, rhs_params = self.process_rhs(compiler, connection) sql_template = connection.ops.fulltext_search_sql(field_name=lhs) return sql_template, lhs_params + rhs_params default_lookups['search'] = Search class Regex(BuiltinLookup): lookup_name = 'regex' def as_sql(self, compiler, connection): if self.lookup_name in connection.operators: return super(Regex, self).as_sql(compiler, connection) else: lhs, lhs_params = self.process_lhs(compiler, connection) rhs, rhs_params = self.process_rhs(compiler, connection) sql_template = connection.ops.regex_lookup(self.lookup_name) return sql_template % (lhs, rhs), lhs_params + rhs_params default_lookups['regex'] = Regex class IRegex(Regex): lookup_name = 'iregex' default_lookups['iregex'] = IRegex