402 lines
16 KiB
Python
402 lines
16 KiB
Python
from typing import List, TYPE_CHECKING, Type, NamedTuple
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import sqlalchemy
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from sqlalchemy import text
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import orm
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from orm import ForeignKey
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from orm.exceptions import NoMatch, MultipleMatches
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if TYPE_CHECKING: # pragma no cover
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from orm.models import Model
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FILTER_OPERATORS = {
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"exact": "__eq__",
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"iexact": "ilike",
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"contains": "like",
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"icontains": "ilike",
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"in": "in_",
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"gt": "__gt__",
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"gte": "__ge__",
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"lt": "__lt__",
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"lte": "__le__",
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}
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class JoinParameters(NamedTuple):
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prev_model: Type['Model']
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previous_alias: str
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from_table: str
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model_cls: Type['Model']
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class QuerySet:
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ESCAPE_CHARACTERS = ['%', '_']
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def __init__(self, model_cls: Type['Model'] = None, filter_clauses: List = None, select_related: List = None,
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limit_count: int = None, offset: int = None):
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self.model_cls = model_cls
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self.filter_clauses = [] if filter_clauses is None else filter_clauses
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self._select_related = [] if select_related is None else select_related
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self.limit_count = limit_count
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self.query_offset = offset
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self.auto_related = []
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self.used_aliases = []
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self.select_from = None
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self.columns = None
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self.order_bys = None
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def __get__(self, instance, owner):
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return self.__class__(model_cls=owner)
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@property
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def database(self):
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return self.model_cls.__database__
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@property
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def table(self):
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return self.model_cls.__table__
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def prefixed_columns(self, alias, table):
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return [text(f'{alias}_{table.name}.{column.name} as {alias}_{column.name}')
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for column in table.columns]
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def prefixed_table_name(self, alias, name):
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return text(f'{name} {alias}_{name}')
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def on_clause(self, from_table, to_table, previous_alias, alias, to_key, from_key):
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return text(f'{alias}_{to_table}.{to_key}='
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f'{previous_alias + "_" if previous_alias else ""}{from_table}.{from_key}')
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def build_join_parameters(self, part, join_params: JoinParameters):
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model_cls = join_params.model_cls.__model_fields__[part].to
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to_table = model_cls.__table__.name
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alias = model_cls._orm_relationship_manager.resolve_relation_join(join_params.from_table, to_table)
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# print(f'resolving tables alias from {join_params.from_table}, to: {to_table} -> {alias}')
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if alias not in self.used_aliases:
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if join_params.prev_model.__model_fields__[part].virtual:
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to_key = next((v for k, v in model_cls.__model_fields__.items()
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if isinstance(v, ForeignKey) and v.to == join_params.prev_model), None).name
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from_key = model_cls.__pkname__
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else:
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to_key = model_cls.__pkname__
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from_key = part
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on_clause = self.on_clause(join_params.from_table, to_table, join_params.previous_alias, alias, to_key,
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from_key)
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target_table = self.prefixed_table_name(alias, to_table)
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self.select_from = sqlalchemy.sql.outerjoin(self.select_from, target_table, on_clause)
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self.order_bys.append(text(f'{alias}_{to_table}.{model_cls.__pkname__}'))
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self.columns.extend(self.prefixed_columns(alias, model_cls.__table__))
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self.used_aliases.append(alias)
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previous_alias = alias
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from_table = to_table
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prev_model = model_cls
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return JoinParameters(prev_model, previous_alias, from_table, model_cls)
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@staticmethod
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def field_is_a_foreign_key_and_no_circular_reference(field, field_name, rel_part) -> bool:
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return isinstance(field, ForeignKey) and field_name not in rel_part
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def field_qualifies_to_deeper_search(self, field, parent_virtual, nested, rel_part) -> bool:
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prev_part_of_related = "__".join(rel_part.split("__")[:-1])
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partial_match = any([x.startswith(prev_part_of_related) for x in self._select_related])
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already_checked = any([x.startswith(rel_part) for x in self.auto_related])
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return ((field.virtual and parent_virtual) or (partial_match and not already_checked)) or not nested
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def extract_auto_required_relations(self, join_params: JoinParameters,
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rel_part: str = '', nested: bool = False, parent_virtual: bool = False):
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# print(f'checking model {join_params.prev_model}, {rel_part}')
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for field_name, field in join_params.prev_model.__model_fields__.items():
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# print(f'checking_field {field_name}')
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if self.field_is_a_foreign_key_and_no_circular_reference(field, field_name, rel_part):
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rel_part = field_name if not rel_part else rel_part + '__' + field_name
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if not field.nullable:
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# print(f'field {field_name} is not nullable, appending to auto, curr rel: {rel_part}')
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if rel_part not in self._select_related:
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self.auto_related.append("__".join(rel_part.split("__")[:-1]))
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rel_part = ''
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elif self.field_qualifies_to_deeper_search(field, parent_virtual, nested, rel_part):
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# print(
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# f'field {field_name} is nullable, going down, curr rel: '
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# f'{rel_part}, nested:{nested}, virtual:{field.virtual}, virtual_par:{parent_virtual}, '
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# f'injoin: {"__".join(rel_part.split("__")[:-1]) in self._select_related}')
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join_params = JoinParameters(field.to, join_params.previous_alias,
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join_params.from_table, join_params.prev_model)
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self.extract_auto_required_relations(join_params=join_params,
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rel_part=rel_part, nested=True, parent_virtual=field.virtual)
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else:
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# print(
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# f'field {field_name} is out, going down, curr rel: '
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# f'{rel_part}, nested:{nested}, virtual:{field.virtual}, virtual_par:{parent_virtual}, '
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# f'injoin: {"__".join(rel_part.split("__")[:-1]) in self._select_related}')
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rel_part = ''
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def build_select_expression(self):
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self.columns = list(self.table.columns)
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self.order_bys = [text(f'{self.table.name}.{self.model_cls.__pkname__}')]
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self.select_from = self.table
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for key in self.model_cls.__model_fields__:
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if not self.model_cls.__model_fields__[key].nullable \
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and isinstance(self.model_cls.__model_fields__[key], orm.fields.ForeignKey) \
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and key not in self._select_related:
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self._select_related = [key] + self._select_related
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start_params = JoinParameters(self.model_cls, '', self.table.name, self.model_cls)
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self.extract_auto_required_relations(start_params)
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if self.auto_related:
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new_joins = []
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for join in self._select_related:
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if not any([x.startswith(join) for x in self.auto_related]):
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new_joins.append(join)
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self._select_related = new_joins + self.auto_related
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self._select_related.sort(key=lambda item: (-len(item), item))
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for item in self._select_related:
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join_parameters = JoinParameters(self.model_cls, '', self.table.name, self.model_cls)
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for part in item.split("__"):
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join_parameters = self.build_join_parameters(part, join_parameters)
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expr = sqlalchemy.sql.select(self.columns)
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expr = expr.select_from(self.select_from)
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if self.filter_clauses:
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if len(self.filter_clauses) == 1:
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clause = self.filter_clauses[0]
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else:
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clause = sqlalchemy.sql.and_(*self.filter_clauses)
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expr = expr.where(clause)
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if self.limit_count:
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expr = expr.limit(self.limit_count)
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if self.query_offset:
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expr = expr.offset(self.query_offset)
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for order in self.order_bys:
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expr = expr.order_by(order)
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# print(expr.compile(compile_kwargs={"literal_binds": True}))
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self.select_from = None
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self.columns = None
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self.order_bys = None
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self.auto_related = []
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self.used_aliases = []
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return expr
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def filter(self, **kwargs):
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filter_clauses = self.filter_clauses
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select_related = list(self._select_related)
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if kwargs.get("pk"):
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pk_name = self.model_cls.__pkname__
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kwargs[pk_name] = kwargs.pop("pk")
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for key, value in kwargs.items():
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table_prefix = ''
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if "__" in key:
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parts = key.split("__")
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# Determine if we should treat the final part as a
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# filter operator or as a related field.
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if parts[-1] in FILTER_OPERATORS:
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op = parts[-1]
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field_name = parts[-2]
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related_parts = parts[:-2]
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else:
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op = "exact"
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field_name = parts[-1]
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related_parts = parts[:-1]
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model_cls = self.model_cls
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if related_parts:
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# Add any implied select_related
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related_str = "__".join(related_parts)
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if related_str not in select_related:
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select_related.append(related_str)
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# Walk the relationships to the actual model class
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# against which the comparison is being made.
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previous_table = model_cls.__tablename__
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for part in related_parts:
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current_table = model_cls.__model_fields__[part].to.__tablename__
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table_prefix = model_cls._orm_relationship_manager.resolve_relation_join(previous_table,
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current_table)
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model_cls = model_cls.__model_fields__[part].to
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previous_table = current_table
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# print(table_prefix)
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table = model_cls.__table__
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column = model_cls.__table__.columns[field_name]
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else:
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op = "exact"
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column = self.table.columns[key]
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table = self.table
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# Map the operation code onto SQLAlchemy's ColumnElement
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# https://docs.sqlalchemy.org/en/latest/core/sqlelement.html#sqlalchemy.sql.expression.ColumnElement
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op_attr = FILTER_OPERATORS[op]
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has_escaped_character = False
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if op in ["contains", "icontains"]:
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has_escaped_character = any(c for c in self.ESCAPE_CHARACTERS
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if c in value)
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if has_escaped_character:
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# enable escape modifier
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for char in self.ESCAPE_CHARACTERS:
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value = value.replace(char, f'\\{char}')
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value = f"%{value}%"
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if isinstance(value, orm.Model):
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value = value.pk
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clause = getattr(column, op_attr)(value)
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clause.modifiers['escape'] = '\\' if has_escaped_character else None
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clause_text = str(clause.compile(compile_kwargs={"literal_binds": True}))
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alias = f'{table_prefix}_' if table_prefix else ''
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aliased_name = f'{alias}{table.name}.{column.name}'
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clause_text = clause_text.replace(f'{table.name}.{column.name}', aliased_name)
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clause = text(clause_text)
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filter_clauses.append(clause)
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return self.__class__(
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model_cls=self.model_cls,
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filter_clauses=filter_clauses,
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select_related=select_related,
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limit_count=self.limit_count,
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offset=self.query_offset
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)
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def select_related(self, related):
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if not isinstance(related, (list, tuple)):
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related = [related]
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related = list(self._select_related) + related
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return self.__class__(
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model_cls=self.model_cls,
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filter_clauses=self.filter_clauses,
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select_related=related,
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limit_count=self.limit_count,
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offset=self.query_offset
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)
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async def exists(self) -> bool:
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expr = self.build_select_expression()
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expr = sqlalchemy.exists(expr).select()
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return await self.database.fetch_val(expr)
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async def count(self) -> int:
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expr = self.build_select_expression().alias("subquery_for_count")
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expr = sqlalchemy.func.count().select().select_from(expr)
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return await self.database.fetch_val(expr)
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def limit(self, limit_count: int):
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return self.__class__(
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model_cls=self.model_cls,
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filter_clauses=self.filter_clauses,
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select_related=self._select_related,
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limit_count=limit_count,
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offset=self.query_offset
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)
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def offset(self, offset: int):
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return self.__class__(
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model_cls=self.model_cls,
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filter_clauses=self.filter_clauses,
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select_related=self._select_related,
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limit_count=self.limit_count,
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offset=offset
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)
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async def first(self, **kwargs):
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if kwargs:
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return await self.filter(**kwargs).first()
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rows = await self.limit(1).all()
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if rows:
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return rows[0]
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async def get(self, **kwargs):
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if kwargs:
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return await self.filter(**kwargs).get()
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expr = self.build_select_expression().limit(2)
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rows = await self.database.fetch_all(expr)
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if not rows:
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raise NoMatch()
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if len(rows) > 1:
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raise MultipleMatches()
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return self.model_cls.from_row(rows[0], select_related=self._select_related)
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async def all(self, **kwargs):
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if kwargs:
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return await self.filter(**kwargs).all()
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expr = self.build_select_expression()
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rows = await self.database.fetch_all(expr)
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result_rows = [
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self.model_cls.from_row(row, select_related=self._select_related)
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for row in rows
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]
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result_rows = self.merge_result_rows(result_rows)
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return result_rows
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@classmethod
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def merge_result_rows(cls, result_rows):
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merged_rows = []
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for index, model in enumerate(result_rows):
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if index > 0 and model.pk == result_rows[index - 1].pk:
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result_rows[-1] = cls.merge_two_instances(model, merged_rows[-1])
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else:
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merged_rows.append(model)
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return merged_rows
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@classmethod
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def merge_two_instances(cls, one: 'Model', other: 'Model'):
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for field in one.__model_fields__.keys():
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# print(field, one.dict(), other.dict())
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if isinstance(getattr(one, field), list) and not isinstance(getattr(one, field), orm.models.Model):
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setattr(other, field, getattr(one, field) + getattr(other, field))
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elif isinstance(getattr(one, field), orm.models.Model):
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if getattr(one, field).pk == getattr(other, field).pk:
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setattr(other, field, cls.merge_two_instances(getattr(one, field), getattr(other, field)))
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return other
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async def create(self, **kwargs):
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new_kwargs = dict(**kwargs)
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# Remove primary key when None to prevent not null constraint in postgresql.
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pkname = self.model_cls.__pkname__
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pk = self.model_cls.__model_fields__[pkname]
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if pkname in new_kwargs and new_kwargs.get(pkname) is None and (pk.nullable or pk.autoincrement):
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del new_kwargs[pkname]
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# substitute related models with their pk
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for field in self.model_cls.extract_related_names():
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if field in new_kwargs and new_kwargs.get(field) is not None:
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new_kwargs[field] = getattr(new_kwargs.get(field), self.model_cls.__model_fields__[field].to.__pkname__)
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# Build the insert expression.
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expr = self.table.insert()
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expr = expr.values(**new_kwargs)
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# Execute the insert, and return a new model instance.
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instance = self.model_cls(**kwargs)
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instance.pk = await self.database.execute(expr)
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return instance
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