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Direktori : /proc/self/root/opt/alt/python38/lib64/python3.8/site-packages/playhouse/ |
Current File : //proc/self/root/opt/alt/python38/lib64/python3.8/site-packages/playhouse/shortcuts.py |
import sys from peewee import * from peewee import Node if sys.version_info[0] == 3: from collections import Callable callable = lambda c: isinstance(c, Callable) def case(predicate, expression_tuples, default=None): """ CASE statement builder. Example CASE statements: SELECT foo, CASE WHEN foo = 1 THEN "one" WHEN foo = 2 THEN "two" ELSE "?" END -- will be in column named "case" in postgres -- FROM bar; -- equivalent to above -- SELECT foo, CASE foo WHEN 1 THEN "one" WHEN 2 THEN "two" ELSE "?" END Corresponding peewee: # No predicate, use expressions. Bar.select(Bar.foo, case(None, ( (Bar.foo == 1, "one"), (Bar.foo == 2, "two")), "?")) # Predicate, will test for equality. Bar.select(Bar.foo, case(Bar.foo, ( (1, "one"), (2, "two")), "?")) """ clauses = [SQL('CASE')] simple_case = predicate is not None if simple_case: clauses.append(predicate) for expr, value in expression_tuples: # If this is a simple case, each tuple will contain (value, value) pair # since the DB will be performing an equality check automatically. # Otherwise, we will have (expression, value) pairs. clauses.extend((SQL('WHEN'), expr, SQL('THEN'), value)) if default is not None: clauses.extend((SQL('ELSE'), default)) clauses.append(SQL('END')) return Clause(*clauses) def cast(node, as_type): return fn.CAST(Clause(node, SQL('AS %s' % as_type))) def _clone_set(s): if s: return set(s) return set() def model_to_dict(model, recurse=True, backrefs=False, only=None, exclude=None, seen=None, extra_attrs=None, fields_from_query=None, max_depth=None): """ Convert a model instance (and any related objects) to a dictionary. :param bool recurse: Whether foreign-keys should be recursed. :param bool backrefs: Whether lists of related objects should be recursed. :param only: A list (or set) of field instances indicating which fields should be included. :param exclude: A list (or set) of field instances that should be excluded from the dictionary. :param list extra_attrs: Names of model instance attributes or methods that should be included. :param SelectQuery fields_from_query: Query that was source of model. Take fields explicitly selected by the query and serialize them. :param int max_depth: Maximum depth to recurse, value <= 0 means no max. """ max_depth = -1 if max_depth is None else max_depth if max_depth == 0: recurse = False only = _clone_set(only) extra_attrs = _clone_set(extra_attrs) if fields_from_query is not None: for item in fields_from_query._select: if isinstance(item, Field): only.add(item) elif isinstance(item, Node) and item._alias: extra_attrs.add(item._alias) data = {} exclude = _clone_set(exclude) seen = _clone_set(seen) exclude |= seen model_class = type(model) for field in model._meta.declared_fields: if field in exclude or (only and (field not in only)): continue field_data = model._data.get(field.name) if isinstance(field, ForeignKeyField) and recurse: if field_data: seen.add(field) rel_obj = getattr(model, field.name) field_data = model_to_dict( rel_obj, recurse=recurse, backrefs=backrefs, only=only, exclude=exclude, seen=seen, max_depth=max_depth - 1) else: field_data = {} data[field.name] = field_data if extra_attrs: for attr_name in extra_attrs: attr = getattr(model, attr_name) if callable(attr): data[attr_name] = attr() else: data[attr_name] = attr if backrefs and recurse: for related_name, foreign_key in model._meta.reverse_rel.items(): descriptor = getattr(model_class, related_name) if descriptor in exclude or foreign_key in exclude: continue if only and (descriptor not in only) and (foreign_key not in only): continue accum = [] exclude.add(foreign_key) related_query = getattr( model, related_name + '_prefetch', getattr(model, related_name)) for rel_obj in related_query: accum.append(model_to_dict( rel_obj, recurse=recurse, backrefs=backrefs, only=only, exclude=exclude, max_depth=max_depth - 1)) data[related_name] = accum return data def dict_to_model(model_class, data, ignore_unknown=False): instance = model_class() meta = model_class._meta for key, value in data.items(): if key in meta.fields: field = meta.fields[key] is_backref = False elif key in model_class._meta.reverse_rel: field = meta.reverse_rel[key] is_backref = True elif ignore_unknown: setattr(instance, key, value) continue else: raise AttributeError('Unrecognized attribute "%s" for model ' 'class %s.' % (key, model_class)) is_foreign_key = isinstance(field, ForeignKeyField) if not is_backref and is_foreign_key and isinstance(value, dict): setattr( instance, field.name, dict_to_model(field.rel_model, value, ignore_unknown)) elif is_backref and isinstance(value, (list, tuple)): instances = [ dict_to_model( field.model_class, row_data, ignore_unknown) for row_data in value] for rel_instance in instances: setattr(rel_instance, field.name, instance) setattr(instance, field.related_name, instances) else: setattr(instance, field.name, value) return instance class RetryOperationalError(object): def execute_sql(self, sql, params=None, require_commit=True): try: cursor = super(RetryOperationalError, self).execute_sql( sql, params, require_commit) except OperationalError: if not self.is_closed(): self.close() with self.exception_wrapper(): cursor = self.get_cursor() cursor.execute(sql, params or ()) if require_commit and self.get_autocommit(): self.commit() return cursor