# Copyright 2015 ksyun.com, Inc. or its affiliates. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"). You # may not use this file except in compliance with the License. A copy of # the License is located at # # http://www.apache.org/licenses/LICENSE-2.0 # # or in the "license" file accompanying this file. This file is # distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF # ANY KIND, either express or implied. See the License for the specific # language governing permissions and limitations under the License. # NOTE: This class should not be instantiated and its # ``traverse_and_document_shape`` method called directly. It should be # inherited from a Documenter class with the appropriate methods # and attributes. class ShapeDocumenter(object): EVENT_NAME = '' def __init__(self, service_name, operation_name, event_emitter, context=None): self._service_name = service_name self._operation_name = operation_name self._event_emitter = event_emitter self._context = context if context is None: self._context = { 'special_shape_types': {} } def traverse_and_document_shape(self, section, shape, history, include=None, exclude=None, name=None, is_required=False): """Traverses and documents a shape Will take a self class and call its appropriate methods as a shape is traversed. :param section: The section to document. :param history: A list of the names of the shapes that have been traversed. :type include: Dictionary where keys are parameter names and values are the shapes of the parameter names. :param include: The parameter shapes to include in the documentation. :type exclude: List of the names of the parameters to exclude. :param exclude: The names of the parameters to exclude from documentation. :param name: The name of the shape. :param is_required: If the shape is a required member. """ param_type = shape.type_name if shape.name in history: self.document_recursive_shape(section, shape, name=name) else: history.append(shape.name) is_top_level_param = (len(history) == 2) getattr(self, 'document_shape_type_%s' % param_type, self.document_shape_default)( section, shape, history=history, name=name, include=include, exclude=exclude, is_top_level_param=is_top_level_param, is_required=is_required) if is_top_level_param: self._event_emitter.emit( 'docs.%s.%s.%s.%s' % (self.EVENT_NAME, self._service_name, self._operation_name, name), section=section) at_overlying_method_section = (len(history) == 1) if at_overlying_method_section: self._event_emitter.emit( 'docs.%s.%s.%s.complete-section' % (self.EVENT_NAME, self._service_name, self._operation_name), section=section) history.pop() def _get_special_py_default(self, shape): special_defaults = { 'streaming_input_shape': 'b\'bytes\'|file', 'streaming_output_shape': 'StreamingBody()' } return self._get_value_for_special_type(shape, special_defaults) def _get_special_py_type_name(self, shape): special_type_names = { 'streaming_input_shape': 'bytes or seekable file-like object', 'streaming_output_shape': ':class:`.StreamingBody`' } return self._get_value_for_special_type(shape, special_type_names) def _get_value_for_special_type(self, shape, special_type_map): for special_type, marked_shape in self._context[ 'special_shape_types'].items(): if special_type in special_type_map: if shape == marked_shape: return special_type_map[special_type] return None