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mysteriendrama/lib/python3.11/site-packages/django/db/models/sql/datastructures.py
Federico Denkena 5d9da330c3
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2023-07-22 12:13:39 +02:00

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"""
Useful auxiliary data structures for query construction. Not useful outside
the SQL domain.
"""
from django.core.exceptions import FullResultSet
from django.db.models.sql.constants import INNER, LOUTER
class MultiJoin(Exception):
"""
Used by join construction code to indicate the point at which a
multi-valued join was attempted (if the caller wants to treat that
exceptionally).
"""
def __init__(self, names_pos, path_with_names):
self.level = names_pos
# The path travelled, this includes the path to the multijoin.
self.names_with_path = path_with_names
class Empty:
pass
class Join:
"""
Used by sql.Query and sql.SQLCompiler to generate JOIN clauses into the
FROM entry. For example, the SQL generated could be
LEFT OUTER JOIN "sometable" T1
ON ("othertable"."sometable_id" = "sometable"."id")
This class is primarily used in Query.alias_map. All entries in alias_map
must be Join compatible by providing the following attributes and methods:
- table_name (string)
- table_alias (possible alias for the table, can be None)
- join_type (can be None for those entries that aren't joined from
anything)
- parent_alias (which table is this join's parent, can be None similarly
to join_type)
- as_sql()
- relabeled_clone()
"""
def __init__(
self,
table_name,
parent_alias,
table_alias,
join_type,
join_field,
nullable,
filtered_relation=None,
):
# Join table
self.table_name = table_name
self.parent_alias = parent_alias
# Note: table_alias is not necessarily known at instantiation time.
self.table_alias = table_alias
# LOUTER or INNER
self.join_type = join_type
# A list of 2-tuples to use in the ON clause of the JOIN.
# Each 2-tuple will create one join condition in the ON clause.
self.join_cols = join_field.get_joining_columns()
# Along which field (or ForeignObjectRel in the reverse join case)
self.join_field = join_field
# Is this join nullabled?
self.nullable = nullable
self.filtered_relation = filtered_relation
def as_sql(self, compiler, connection):
"""
Generate the full
LEFT OUTER JOIN sometable ON sometable.somecol = othertable.othercol, params
clause for this join.
"""
join_conditions = []
params = []
qn = compiler.quote_name_unless_alias
qn2 = connection.ops.quote_name
# Add a join condition for each pair of joining columns.
for lhs_col, rhs_col in self.join_cols:
join_conditions.append(
"%s.%s = %s.%s"
% (
qn(self.parent_alias),
qn2(lhs_col),
qn(self.table_alias),
qn2(rhs_col),
)
)
# Add a single condition inside parentheses for whatever
# get_extra_restriction() returns.
extra_cond = self.join_field.get_extra_restriction(
self.table_alias, self.parent_alias
)
if extra_cond:
extra_sql, extra_params = compiler.compile(extra_cond)
join_conditions.append("(%s)" % extra_sql)
params.extend(extra_params)
if self.filtered_relation:
try:
extra_sql, extra_params = compiler.compile(self.filtered_relation)
except FullResultSet:
pass
else:
join_conditions.append("(%s)" % extra_sql)
params.extend(extra_params)
if not join_conditions:
# This might be a rel on the other end of an actual declared field.
declared_field = getattr(self.join_field, "field", self.join_field)
raise ValueError(
"Join generated an empty ON clause. %s did not yield either "
"joining columns or extra restrictions." % declared_field.__class__
)
on_clause_sql = " AND ".join(join_conditions)
alias_str = (
"" if self.table_alias == self.table_name else (" %s" % self.table_alias)
)
sql = "%s %s%s ON (%s)" % (
self.join_type,
qn(self.table_name),
alias_str,
on_clause_sql,
)
return sql, params
def relabeled_clone(self, change_map):
new_parent_alias = change_map.get(self.parent_alias, self.parent_alias)
new_table_alias = change_map.get(self.table_alias, self.table_alias)
if self.filtered_relation is not None:
filtered_relation = self.filtered_relation.clone()
filtered_relation.path = [
change_map.get(p, p) for p in self.filtered_relation.path
]
else:
filtered_relation = None
return self.__class__(
self.table_name,
new_parent_alias,
new_table_alias,
self.join_type,
self.join_field,
self.nullable,
filtered_relation=filtered_relation,
)
@property
def identity(self):
return (
self.__class__,
self.table_name,
self.parent_alias,
self.join_field,
self.filtered_relation,
)
def __eq__(self, other):
if not isinstance(other, Join):
return NotImplemented
return self.identity == other.identity
def __hash__(self):
return hash(self.identity)
def equals(self, other):
# Ignore filtered_relation in equality check.
return self.identity[:-1] == other.identity[:-1]
def demote(self):
new = self.relabeled_clone({})
new.join_type = INNER
return new
def promote(self):
new = self.relabeled_clone({})
new.join_type = LOUTER
return new
class BaseTable:
"""
The BaseTable class is used for base table references in FROM clause. For
example, the SQL "foo" in
SELECT * FROM "foo" WHERE somecond
could be generated by this class.
"""
join_type = None
parent_alias = None
filtered_relation = None
def __init__(self, table_name, alias):
self.table_name = table_name
self.table_alias = alias
def as_sql(self, compiler, connection):
alias_str = (
"" if self.table_alias == self.table_name else (" %s" % self.table_alias)
)
base_sql = compiler.quote_name_unless_alias(self.table_name)
return base_sql + alias_str, []
def relabeled_clone(self, change_map):
return self.__class__(
self.table_name, change_map.get(self.table_alias, self.table_alias)
)
@property
def identity(self):
return self.__class__, self.table_name, self.table_alias
def __eq__(self, other):
if not isinstance(other, BaseTable):
return NotImplemented
return self.identity == other.identity
def __hash__(self):
return hash(self.identity)
def equals(self, other):
return self.identity == other.identity
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