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Direktori : /opt/imunify360/venv/lib/python3.11/site-packages/playhouse/ |
Current File : //opt/imunify360/venv/lib/python3.11/site-packages/playhouse/dataset.py |
import csv import datetime from decimal import Decimal import json import operator try: from urlparse import urlparse except ImportError: from urllib.parse import urlparse import sys import uuid from peewee import * from playhouse.db_url import connect from playhouse.migrate import migrate from playhouse.migrate import SchemaMigrator from playhouse.reflection import Introspector if sys.version_info[0] == 3: basestring = str from functools import reduce def open_file(f, mode, encoding='utf8'): return open(f, mode, encoding=encoding) else: def open_file(f, mode, encoding='utf8'): return open(f, mode) class DataSet(object): def __init__(self, url, include_views=False, **kwargs): if isinstance(url, Database): self._url = None self._database = url self._database_path = self._database.database else: self._url = url parse_result = urlparse(url) self._database_path = parse_result.path[1:] # Connect to the database. self._database = connect(url) # Open a connection if one does not already exist. self._database.connect(reuse_if_open=True) # Introspect the database and generate models. self._introspector = Introspector.from_database(self._database) self._include_views = include_views self._models = self._introspector.generate_models( skip_invalid=True, literal_column_names=True, include_views=self._include_views, **kwargs) self._migrator = SchemaMigrator.from_database(self._database) class BaseModel(Model): class Meta: database = self._database self._base_model = BaseModel self._export_formats = self.get_export_formats() self._import_formats = self.get_import_formats() def __repr__(self): return '<DataSet: %s>' % self._database_path def get_export_formats(self): return { 'csv': CSVExporter, 'json': JSONExporter, 'tsv': TSVExporter} def get_import_formats(self): return { 'csv': CSVImporter, 'json': JSONImporter, 'tsv': TSVImporter} def __getitem__(self, table): if table not in self._models and table in self.tables: self.update_cache(table) return Table(self, table, self._models.get(table)) @property def tables(self): tables = self._database.get_tables() if self._include_views: tables += self.views return tables @property def views(self): return [v.name for v in self._database.get_views()] def __contains__(self, table): return table in self.tables def connect(self, reuse_if_open=False): self._database.connect(reuse_if_open=reuse_if_open) def close(self): self._database.close() def update_cache(self, table=None): if table: dependencies = [table] if table in self._models: model_class = self._models[table] dependencies.extend([ related._meta.table_name for _, related, _ in model_class._meta.model_graph()]) else: dependencies.extend(self.get_table_dependencies(table)) else: dependencies = None # Update all tables. self._models = {} updated = self._introspector.generate_models( skip_invalid=True, table_names=dependencies, literal_column_names=True, include_views=self._include_views) self._models.update(updated) def get_table_dependencies(self, table): stack = [table] accum = [] seen = set() while stack: table = stack.pop() for fk_meta in self._database.get_foreign_keys(table): dest = fk_meta.dest_table if dest not in seen: stack.append(dest) accum.append(dest) return accum def __enter__(self): self.connect() return self def __exit__(self, exc_type, exc_val, exc_tb): if not self._database.is_closed(): self.close() def query(self, sql, params=None): return self._database.execute_sql(sql, params) def transaction(self): return self._database.atomic() def _check_arguments(self, filename, file_obj, format, format_dict): if filename and file_obj: raise ValueError('file is over-specified. Please use either ' 'filename or file_obj, but not both.') if not filename and not file_obj: raise ValueError('A filename or file-like object must be ' 'specified.') if format not in format_dict: valid_formats = ', '.join(sorted(format_dict.keys())) raise ValueError('Unsupported format "%s". Use one of %s.' % ( format, valid_formats)) def freeze(self, query, format='csv', filename=None, file_obj=None, encoding='utf8', **kwargs): self._check_arguments(filename, file_obj, format, self._export_formats) if filename: file_obj = open_file(filename, 'w', encoding) exporter = self._export_formats[format](query) exporter.export(file_obj, **kwargs) if filename: file_obj.close() def thaw(self, table, format='csv', filename=None, file_obj=None, strict=False, encoding='utf8', **kwargs): self._check_arguments(filename, file_obj, format, self._export_formats) if filename: file_obj = open_file(filename, 'r', encoding) importer = self._import_formats[format](self[table], strict) count = importer.load(file_obj, **kwargs) if filename: file_obj.close() return count class Table(object): def __init__(self, dataset, name, model_class): self.dataset = dataset self.name = name if model_class is None: model_class = self._create_model() model_class.create_table() self.dataset._models[name] = model_class @property def model_class(self): return self.dataset._models[self.name] def __repr__(self): return '<Table: %s>' % self.name def __len__(self): return self.find().count() def __iter__(self): return iter(self.find().iterator()) def _create_model(self): class Meta: table_name = self.name return type( str(self.name), (self.dataset._base_model,), {'Meta': Meta}) def create_index(self, columns, unique=False): index = ModelIndex(self.model_class, columns, unique=unique) self.model_class.add_index(index) self.dataset._database.execute(index) def _guess_field_type(self, value): if isinstance(value, basestring): return TextField if isinstance(value, (datetime.date, datetime.datetime)): return DateTimeField elif value is True or value is False: return BooleanField elif isinstance(value, int): return IntegerField elif isinstance(value, float): return FloatField elif isinstance(value, Decimal): return DecimalField return TextField @property def columns(self): return [f.name for f in self.model_class._meta.sorted_fields] def _migrate_new_columns(self, data): new_keys = set(data) - set(self.model_class._meta.fields) if new_keys: operations = [] for key in new_keys: field_class = self._guess_field_type(data[key]) field = field_class(null=True) operations.append( self.dataset._migrator.add_column(self.name, key, field)) field.bind(self.model_class, key) migrate(*operations) self.dataset.update_cache(self.name) def __getitem__(self, item): try: return self.model_class[item] except self.model_class.DoesNotExist: pass def __setitem__(self, item, value): if not isinstance(value, dict): raise ValueError('Table.__setitem__() value must be a dict') pk = self.model_class._meta.primary_key value[pk.name] = item try: with self.dataset.transaction() as txn: self.insert(**value) except IntegrityError: self.dataset.update_cache(self.name) self.update(columns=[pk.name], **value) def __delitem__(self, item): del self.model_class[item] def insert(self, **data): self._migrate_new_columns(data) return self.model_class.insert(**data).execute() def _apply_where(self, query, filters, conjunction=None): conjunction = conjunction or operator.and_ if filters: expressions = [ (self.model_class._meta.fields[column] == value) for column, value in filters.items()] query = query.where(reduce(conjunction, expressions)) return query def update(self, columns=None, conjunction=None, **data): self._migrate_new_columns(data) filters = {} if columns: for column in columns: filters[column] = data.pop(column) return self._apply_where( self.model_class.update(**data), filters, conjunction).execute() def _query(self, **query): return self._apply_where(self.model_class.select(), query) def find(self, **query): return self._query(**query).dicts() def find_one(self, **query): try: return self.find(**query).get() except self.model_class.DoesNotExist: return None def all(self): return self.find() def delete(self, **query): return self._apply_where(self.model_class.delete(), query).execute() def freeze(self, *args, **kwargs): return self.dataset.freeze(self.all(), *args, **kwargs) def thaw(self, *args, **kwargs): return self.dataset.thaw(self.name, *args, **kwargs) class Exporter(object): def __init__(self, query): self.query = query def export(self, file_obj): raise NotImplementedError class JSONExporter(Exporter): def __init__(self, query, iso8601_datetimes=False): super(JSONExporter, self).__init__(query) self.iso8601_datetimes = iso8601_datetimes def _make_default(self): datetime_types = (datetime.datetime, datetime.date, datetime.time) if self.iso8601_datetimes: def default(o): if isinstance(o, datetime_types): return o.isoformat() elif isinstance(o, (Decimal, uuid.UUID)): return str(o) raise TypeError('Unable to serialize %r as JSON' % o) else: def default(o): if isinstance(o, datetime_types + (Decimal, uuid.UUID)): return str(o) raise TypeError('Unable to serialize %r as JSON' % o) return default def export(self, file_obj, **kwargs): json.dump( list(self.query), file_obj, default=self._make_default(), **kwargs) class CSVExporter(Exporter): def export(self, file_obj, header=True, **kwargs): writer = csv.writer(file_obj, **kwargs) tuples = self.query.tuples().execute() tuples.initialize() if header and getattr(tuples, 'columns', None): writer.writerow([column for column in tuples.columns]) for row in tuples: writer.writerow(row) class TSVExporter(CSVExporter): def export(self, file_obj, header=True, **kwargs): kwargs.setdefault('delimiter', '\t') return super(TSVExporter, self).export(file_obj, header, **kwargs) class Importer(object): def __init__(self, table, strict=False): self.table = table self.strict = strict model = self.table.model_class self.columns = model._meta.columns self.columns.update(model._meta.fields) def load(self, file_obj): raise NotImplementedError class JSONImporter(Importer): def load(self, file_obj, **kwargs): data = json.load(file_obj, **kwargs) count = 0 for row in data: if self.strict: obj = {} for key in row: field = self.columns.get(key) if field is not None: obj[field.name] = field.python_value(row[key]) else: obj = row if obj: self.table.insert(**obj) count += 1 return count class CSVImporter(Importer): def load(self, file_obj, header=True, **kwargs): count = 0 reader = csv.reader(file_obj, **kwargs) if header: try: header_keys = next(reader) except StopIteration: return count if self.strict: header_fields = [] for idx, key in enumerate(header_keys): if key in self.columns: header_fields.append((idx, self.columns[key])) else: header_fields = list(enumerate(header_keys)) else: header_fields = list(enumerate(self.model._meta.sorted_fields)) if not header_fields: return count for row in reader: obj = {} for idx, field in header_fields: if self.strict: obj[field.name] = field.python_value(row[idx]) else: obj[field] = row[idx] self.table.insert(**obj) count += 1 return count class TSVImporter(CSVImporter): def load(self, file_obj, header=True, **kwargs): kwargs.setdefault('delimiter', '\t') return super(TSVImporter, self).load(file_obj, header, **kwargs)