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indexes.py
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indexes.py
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from types import NoneType
from django.db.backends.utils import names_digest, split_identifier
from django.db.models.expressions import Col, ExpressionList, F, Func, OrderBy
from django.db.models.functions import Collate
from django.db.models.query_utils import Q
from django.db.models.sql import Query
from django.utils.functional import partition
__all__ = ["Index"]
class Index:
suffix = "idx"
# The max length of the name of the index (restricted to 30 for
# cross-database compatibility with Oracle)
max_name_length = 30
def __init__(
self,
*expressions,
fields=(),
name=None,
db_tablespace=None,
opclasses=(),
condition=None,
include=None,
):
if opclasses and not name:
raise ValueError("An index must be named to use opclasses.")
if not isinstance(condition, (NoneType, Q)):
raise ValueError("Index.condition must be a Q instance.")
if condition and not name:
raise ValueError("An index must be named to use condition.")
if not isinstance(fields, (list, tuple)):
raise ValueError("Index.fields must be a list or tuple.")
if not isinstance(opclasses, (list, tuple)):
raise ValueError("Index.opclasses must be a list or tuple.")
if not expressions and not fields:
raise ValueError(
"At least one field or expression is required to define an index."
)
if expressions and fields:
raise ValueError(
"Index.fields and expressions are mutually exclusive.",
)
if expressions and not name:
raise ValueError("An index must be named to use expressions.")
if expressions and opclasses:
raise ValueError(
"Index.opclasses cannot be used with expressions. Use "
"django.contrib.postgres.indexes.OpClass() instead."
)
if opclasses and len(fields) != len(opclasses):
raise ValueError(
"Index.fields and Index.opclasses must have the same number of "
"elements."
)
if fields and not all(isinstance(field, str) for field in fields):
raise ValueError("Index.fields must contain only strings with field names.")
if include and not name:
raise ValueError("A covering index must be named.")
if not isinstance(include, (NoneType, list, tuple)):
raise ValueError("Index.include must be a list or tuple.")
self.fields = list(fields)
# A list of 2-tuple with the field name and ordering ('' or 'DESC').
self.fields_orders = [
(field_name.removeprefix("-"), "DESC" if field_name.startswith("-") else "")
for field_name in self.fields
]
self.name = name or ""
self.db_tablespace = db_tablespace
self.opclasses = opclasses
self.condition = condition
self.include = tuple(include) if include else ()
self.expressions = tuple(
F(expression) if isinstance(expression, str) else expression
for expression in expressions
)
@property
def contains_expressions(self):
return bool(self.expressions)
def _get_condition_sql(self, model, schema_editor):
if self.condition is None:
return None
query = Query(model=model, alias_cols=False)
where = query.build_where(self.condition)
compiler = query.get_compiler(connection=schema_editor.connection)
sql, params = where.as_sql(compiler, schema_editor.connection)
return sql % tuple(schema_editor.quote_value(p) for p in params)
def create_sql(self, model, schema_editor, using="", **kwargs):
include = [
model._meta.get_field(field_name).column for field_name in self.include
]
condition = self._get_condition_sql(model, schema_editor)
if self.expressions:
index_expressions = []
for expression in self.expressions:
index_expression = IndexExpression(expression)
index_expression.set_wrapper_classes(schema_editor.connection)
index_expressions.append(index_expression)
expressions = ExpressionList(*index_expressions).resolve_expression(
Query(model, alias_cols=False),
)
fields = None
col_suffixes = None
else:
fields = [
model._meta.get_field(field_name)
for field_name, _ in self.fields_orders
]
if schema_editor.connection.features.supports_index_column_ordering:
col_suffixes = [order[1] for order in self.fields_orders]
else:
col_suffixes = [""] * len(self.fields_orders)
expressions = None
return schema_editor._create_index_sql(
model,
fields=fields,
name=self.name,
using=using,
db_tablespace=self.db_tablespace,
col_suffixes=col_suffixes,
opclasses=self.opclasses,
condition=condition,
include=include,
expressions=expressions,
**kwargs,
)
def remove_sql(self, model, schema_editor, **kwargs):
return schema_editor._delete_index_sql(model, self.name, **kwargs)
def deconstruct(self):
path = "%s.%s" % (self.__class__.__module__, self.__class__.__name__)
path = path.replace("django.db.models.indexes", "django.db.models")
kwargs = {"name": self.name}
if self.fields:
kwargs["fields"] = self.fields
if self.db_tablespace is not None:
kwargs["db_tablespace"] = self.db_tablespace
if self.opclasses:
kwargs["opclasses"] = self.opclasses
if self.condition:
kwargs["condition"] = self.condition
if self.include:
kwargs["include"] = self.include
return (path, self.expressions, kwargs)
def clone(self):
"""Create a copy of this Index."""
_, args, kwargs = self.deconstruct()
return self.__class__(*args, **kwargs)
def set_name_with_model(self, model):
"""
Generate a unique name for the index.
The name is divided into 3 parts - table name (12 chars), field name
(8 chars) and unique hash suffix (10 chars). Each part is made to
fit its size by truncating the excess length.
"""
_, table_name = split_identifier(model._meta.db_table)
column_names = [
model._meta.get_field(field_name).column
for field_name, order in self.fields_orders
]
column_names_with_order = [
(("-%s" if order else "%s") % column_name)
for column_name, (field_name, order) in zip(
column_names, self.fields_orders
)
]
# The length of the parts of the name is based on the default max
# length of 30 characters.
hash_data = [table_name] column_names_with_order [self.suffix]
self.name = "%s_%s_%s" % (
table_name[:11],
column_names[0][:7],
"%s_%s" % (names_digest(*hash_data, length=6), self.suffix),
)
if len(self.name) > self.max_name_length:
raise ValueError(
"Index too long for multiple database support. Is self.suffix "
"longer than 3 characters?"
)
if self.name[0] == "_" or self.name[0].isdigit():
self.name = "D%s" % self.name[1:]
def __repr__(self):
return "<%s:%s%s%s%s%s%s%s>" % (
self.__class__.__qualname__,
"" if not self.fields else " fields=%s" % repr(self.fields),
"" if not self.expressions else " expressions=%s" % repr(self.expressions),
"" if not self.name else " name=%s" % repr(self.name),
""
if self.db_tablespace is None
else " db_tablespace=%s" % repr(self.db_tablespace),
"" if self.condition is None else " condition=%s" % self.condition,
"" if not self.include else " include=%s" % repr(self.include),
"" if not self.opclasses else " opclasses=%s" % repr(self.opclasses),
)
def __eq__(self, other):
if self.__class__ == other.__class__:
return self.deconstruct() == other.deconstruct()
return NotImplemented
class IndexExpression(Func):
"""Order and wrap expressions for CREATE INDEX statements."""
template = "%(expressions)s"
wrapper_classes = (OrderBy, Collate)
def set_wrapper_classes(self, connection=None):
# Some databases (e.g. MySQL) treats COLLATE as an indexed expression.
if connection and connection.features.collate_as_index_expression:
self.wrapper_classes = tuple(
[
wrapper_cls
for wrapper_cls in self.wrapper_classes
if wrapper_cls is not Collate
]
)
@classmethod
def register_wrappers(cls, *wrapper_classes):
cls.wrapper_classes = wrapper_classes
def resolve_expression(
self,
query=None,
allow_joins=True,
reuse=None,
summarize=False,
for_save=False,
):
expressions = list(self.flatten())
# Split expressions and wrappers.
index_expressions, wrappers = partition(
lambda e: isinstance(e, self.wrapper_classes),
expressions,
)
wrapper_types = [type(wrapper) for wrapper in wrappers]
if len(wrapper_types) != len(set(wrapper_types)):
raise ValueError(
"Multiple references to %s can't be used in an indexed "
"expression."
% ", ".join(
[wrapper_cls.__qualname__ for wrapper_cls in self.wrapper_classes]
)
)
if expressions[1 : len(wrappers) 1] != wrappers:
raise ValueError(
"%s must be topmost expressions in an indexed expression."
% ", ".join(
[wrapper_cls.__qualname__ for wrapper_cls in self.wrapper_classes]
)
)
# Wrap expressions in parentheses if they are not column references.
root_expression = index_expressions[1]
resolve_root_expression = root_expression.resolve_expression(
query,
allow_joins,
reuse,
summarize,
for_save,
)
if not isinstance(resolve_root_expression, Col):
root_expression = Func(root_expression, template="(%(expressions)s)")
if wrappers:
# Order wrappers and set their expressions.
wrappers = sorted(
wrappers,
key=lambda w: self.wrapper_classes.index(type(w)),
)
wrappers = [wrapper.copy() for wrapper in wrappers]
for i, wrapper in enumerate(wrappers[:-1]):
wrapper.set_source_expressions([wrappers[i 1]])
# Set the root expression on the deepest wrapper.
wrappers[-1].set_source_expressions([root_expression])
self.set_source_expressions([wrappers[0]])
else:
# Use the root expression, if there are no wrappers.
self.set_source_expressions([root_expression])
return super().resolve_expression(
query, allow_joins, reuse, summarize, for_save
)
def as_sqlite(self, compiler, connection, **extra_context):
# Casting to numeric is unnecessary.
return self.as_sql(compiler, connection, **extra_context)