laywerrobot/lib/python3.6/site-packages/google/protobuf/descriptor_pool.py

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2020-08-27 21:55:39 +02:00
# Protocol Buffers - Google's data interchange format
# Copyright 2008 Google Inc. All rights reserved.
# https://developers.google.com/protocol-buffers/
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
#
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following disclaimer
# in the documentation and/or other materials provided with the
# distribution.
# * Neither the name of Google Inc. nor the names of its
# contributors may be used to endorse or promote products derived from
# this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
"""Provides DescriptorPool to use as a container for proto2 descriptors.
The DescriptorPool is used in conjection with a DescriptorDatabase to maintain
a collection of protocol buffer descriptors for use when dynamically creating
message types at runtime.
For most applications protocol buffers should be used via modules generated by
the protocol buffer compiler tool. This should only be used when the type of
protocol buffers used in an application or library cannot be predetermined.
Below is a straightforward example on how to use this class:
pool = DescriptorPool()
file_descriptor_protos = [ ... ]
for file_descriptor_proto in file_descriptor_protos:
pool.Add(file_descriptor_proto)
my_message_descriptor = pool.FindMessageTypeByName('some.package.MessageType')
The message descriptor can be used in conjunction with the message_factory
module in order to create a protocol buffer class that can be encoded and
decoded.
If you want to get a Python class for the specified proto, use the
helper functions inside google.protobuf.message_factory
directly instead of this class.
"""
__author__ = 'matthewtoia@google.com (Matt Toia)'
import collections
import warnings
from google.protobuf import descriptor
from google.protobuf import descriptor_database
from google.protobuf import text_encoding
_USE_C_DESCRIPTORS = descriptor._USE_C_DESCRIPTORS # pylint: disable=protected-access
def _NormalizeFullyQualifiedName(name):
"""Remove leading period from fully-qualified type name.
Due to b/13860351 in descriptor_database.py, types in the root namespace are
generated with a leading period. This function removes that prefix.
Args:
name: A str, the fully-qualified symbol name.
Returns:
A str, the normalized fully-qualified symbol name.
"""
return name.lstrip('.')
def _OptionsOrNone(descriptor_proto):
"""Returns the value of the field `options`, or None if it is not set."""
if descriptor_proto.HasField('options'):
return descriptor_proto.options
else:
return None
def _IsMessageSetExtension(field):
return (field.is_extension and
field.containing_type.has_options and
field.containing_type.GetOptions().message_set_wire_format and
field.type == descriptor.FieldDescriptor.TYPE_MESSAGE and
field.label == descriptor.FieldDescriptor.LABEL_OPTIONAL)
class DescriptorPool(object):
"""A collection of protobufs dynamically constructed by descriptor protos."""
if _USE_C_DESCRIPTORS:
def __new__(cls, descriptor_db=None):
# pylint: disable=protected-access
return descriptor._message.DescriptorPool(descriptor_db)
def __init__(self, descriptor_db=None):
"""Initializes a Pool of proto buffs.
The descriptor_db argument to the constructor is provided to allow
specialized file descriptor proto lookup code to be triggered on demand. An
example would be an implementation which will read and compile a file
specified in a call to FindFileByName() and not require the call to Add()
at all. Results from this database will be cached internally here as well.
Args:
descriptor_db: A secondary source of file descriptors.
"""
self._internal_db = descriptor_database.DescriptorDatabase()
self._descriptor_db = descriptor_db
self._descriptors = {}
self._enum_descriptors = {}
self._service_descriptors = {}
self._file_descriptors = {}
self._toplevel_extensions = {}
# TODO(jieluo): Remove _file_desc_by_toplevel_extension after
# maybe year 2020 for compatibility issue (with 3.4.1 only).
self._file_desc_by_toplevel_extension = {}
# We store extensions in two two-level mappings: The first key is the
# descriptor of the message being extended, the second key is the extension
# full name or its tag number.
self._extensions_by_name = collections.defaultdict(dict)
self._extensions_by_number = collections.defaultdict(dict)
def _CheckConflictRegister(self, desc):
"""Check if the descriptor name conflicts with another of the same name.
Args:
desc: Descriptor of a message, enum, service or extension.
"""
desc_name = desc.full_name
for register, descriptor_type in [
(self._descriptors, descriptor.Descriptor),
(self._enum_descriptors, descriptor.EnumDescriptor),
(self._service_descriptors, descriptor.ServiceDescriptor),
(self._toplevel_extensions, descriptor.FieldDescriptor)]:
if desc_name in register:
file_name = register[desc_name].file.name
if not isinstance(desc, descriptor_type) or (
file_name != desc.file.name):
warn_msg = ('Conflict register for file "' + desc.file.name +
'": ' + desc_name +
' is already defined in file "' +
file_name + '"')
warnings.warn(warn_msg, RuntimeWarning)
return
def Add(self, file_desc_proto):
"""Adds the FileDescriptorProto and its types to this pool.
Args:
file_desc_proto: The FileDescriptorProto to add.
"""
self._internal_db.Add(file_desc_proto)
def AddSerializedFile(self, serialized_file_desc_proto):
"""Adds the FileDescriptorProto and its types to this pool.
Args:
serialized_file_desc_proto: A bytes string, serialization of the
FileDescriptorProto to add.
"""
# pylint: disable=g-import-not-at-top
from google.protobuf import descriptor_pb2
file_desc_proto = descriptor_pb2.FileDescriptorProto.FromString(
serialized_file_desc_proto)
self.Add(file_desc_proto)
def AddDescriptor(self, desc):
"""Adds a Descriptor to the pool, non-recursively.
If the Descriptor contains nested messages or enums, the caller must
explicitly register them. This method also registers the FileDescriptor
associated with the message.
Args:
desc: A Descriptor.
"""
if not isinstance(desc, descriptor.Descriptor):
raise TypeError('Expected instance of descriptor.Descriptor.')
self._CheckConflictRegister(desc)
self._descriptors[desc.full_name] = desc
self._AddFileDescriptor(desc.file)
def AddEnumDescriptor(self, enum_desc):
"""Adds an EnumDescriptor to the pool.
This method also registers the FileDescriptor associated with the enum.
Args:
enum_desc: An EnumDescriptor.
"""
if not isinstance(enum_desc, descriptor.EnumDescriptor):
raise TypeError('Expected instance of descriptor.EnumDescriptor.')
self._CheckConflictRegister(enum_desc)
self._enum_descriptors[enum_desc.full_name] = enum_desc
self._AddFileDescriptor(enum_desc.file)
def AddServiceDescriptor(self, service_desc):
"""Adds a ServiceDescriptor to the pool.
Args:
service_desc: A ServiceDescriptor.
"""
if not isinstance(service_desc, descriptor.ServiceDescriptor):
raise TypeError('Expected instance of descriptor.ServiceDescriptor.')
self._CheckConflictRegister(service_desc)
self._service_descriptors[service_desc.full_name] = service_desc
def AddExtensionDescriptor(self, extension):
"""Adds a FieldDescriptor describing an extension to the pool.
Args:
extension: A FieldDescriptor.
Raises:
AssertionError: when another extension with the same number extends the
same message.
TypeError: when the specified extension is not a
descriptor.FieldDescriptor.
"""
if not (isinstance(extension, descriptor.FieldDescriptor) and
extension.is_extension):
raise TypeError('Expected an extension descriptor.')
if extension.extension_scope is None:
self._CheckConflictRegister(extension)
self._toplevel_extensions[extension.full_name] = extension
try:
existing_desc = self._extensions_by_number[
extension.containing_type][extension.number]
except KeyError:
pass
else:
if extension is not existing_desc:
raise AssertionError(
'Extensions "%s" and "%s" both try to extend message type "%s" '
'with field number %d.' %
(extension.full_name, existing_desc.full_name,
extension.containing_type.full_name, extension.number))
self._extensions_by_number[extension.containing_type][
extension.number] = extension
self._extensions_by_name[extension.containing_type][
extension.full_name] = extension
# Also register MessageSet extensions with the type name.
if _IsMessageSetExtension(extension):
self._extensions_by_name[extension.containing_type][
extension.message_type.full_name] = extension
def AddFileDescriptor(self, file_desc):
"""Adds a FileDescriptor to the pool, non-recursively.
If the FileDescriptor contains messages or enums, the caller must explicitly
register them.
Args:
file_desc: A FileDescriptor.
"""
self._AddFileDescriptor(file_desc)
# TODO(jieluo): This is a temporary solution for FieldDescriptor.file.
# FieldDescriptor.file is added in code gen. Remove this solution after
# maybe 2020 for compatibility reason (with 3.4.1 only).
for extension in list(file_desc.extensions_by_name.values()):
self._file_desc_by_toplevel_extension[
extension.full_name] = file_desc
def _AddFileDescriptor(self, file_desc):
"""Adds a FileDescriptor to the pool, non-recursively.
If the FileDescriptor contains messages or enums, the caller must explicitly
register them.
Args:
file_desc: A FileDescriptor.
"""
if not isinstance(file_desc, descriptor.FileDescriptor):
raise TypeError('Expected instance of descriptor.FileDescriptor.')
self._file_descriptors[file_desc.name] = file_desc
def FindFileByName(self, file_name):
"""Gets a FileDescriptor by file name.
Args:
file_name: The path to the file to get a descriptor for.
Returns:
A FileDescriptor for the named file.
Raises:
KeyError: if the file cannot be found in the pool.
"""
try:
return self._file_descriptors[file_name]
except KeyError:
pass
try:
file_proto = self._internal_db.FindFileByName(file_name)
except KeyError as error:
if self._descriptor_db:
file_proto = self._descriptor_db.FindFileByName(file_name)
else:
raise error
if not file_proto:
raise KeyError('Cannot find a file named %s' % file_name)
return self._ConvertFileProtoToFileDescriptor(file_proto)
def FindFileContainingSymbol(self, symbol):
"""Gets the FileDescriptor for the file containing the specified symbol.
Args:
symbol: The name of the symbol to search for.
Returns:
A FileDescriptor that contains the specified symbol.
Raises:
KeyError: if the file cannot be found in the pool.
"""
symbol = _NormalizeFullyQualifiedName(symbol)
try:
return self._descriptors[symbol].file
except KeyError:
pass
try:
return self._enum_descriptors[symbol].file
except KeyError:
pass
try:
return self._service_descriptors[symbol].file
except KeyError:
pass
try:
return self._FindFileContainingSymbolInDb(symbol)
except KeyError:
pass
try:
return self._file_desc_by_toplevel_extension[symbol]
except KeyError:
pass
# Try nested extensions inside a message.
message_name, _, extension_name = symbol.rpartition('.')
try:
message = self.FindMessageTypeByName(message_name)
assert message.extensions_by_name[extension_name]
return message.file
except KeyError:
raise KeyError('Cannot find a file containing %s' % symbol)
def FindMessageTypeByName(self, full_name):
"""Loads the named descriptor from the pool.
Args:
full_name: The full name of the descriptor to load.
Returns:
The descriptor for the named type.
Raises:
KeyError: if the message cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
if full_name not in self._descriptors:
self._FindFileContainingSymbolInDb(full_name)
return self._descriptors[full_name]
def FindEnumTypeByName(self, full_name):
"""Loads the named enum descriptor from the pool.
Args:
full_name: The full name of the enum descriptor to load.
Returns:
The enum descriptor for the named type.
Raises:
KeyError: if the enum cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
if full_name not in self._enum_descriptors:
self._FindFileContainingSymbolInDb(full_name)
return self._enum_descriptors[full_name]
def FindFieldByName(self, full_name):
"""Loads the named field descriptor from the pool.
Args:
full_name: The full name of the field descriptor to load.
Returns:
The field descriptor for the named field.
Raises:
KeyError: if the field cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
message_name, _, field_name = full_name.rpartition('.')
message_descriptor = self.FindMessageTypeByName(message_name)
return message_descriptor.fields_by_name[field_name]
def FindOneofByName(self, full_name):
"""Loads the named oneof descriptor from the pool.
Args:
full_name: The full name of the oneof descriptor to load.
Returns:
The oneof descriptor for the named oneof.
Raises:
KeyError: if the oneof cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
message_name, _, oneof_name = full_name.rpartition('.')
message_descriptor = self.FindMessageTypeByName(message_name)
return message_descriptor.oneofs_by_name[oneof_name]
def FindExtensionByName(self, full_name):
"""Loads the named extension descriptor from the pool.
Args:
full_name: The full name of the extension descriptor to load.
Returns:
A FieldDescriptor, describing the named extension.
Raises:
KeyError: if the extension cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
try:
# The proto compiler does not give any link between the FileDescriptor
# and top-level extensions unless the FileDescriptorProto is added to
# the DescriptorDatabase, but this can impact memory usage.
# So we registered these extensions by name explicitly.
return self._toplevel_extensions[full_name]
except KeyError:
pass
message_name, _, extension_name = full_name.rpartition('.')
try:
# Most extensions are nested inside a message.
scope = self.FindMessageTypeByName(message_name)
except KeyError:
# Some extensions are defined at file scope.
scope = self._FindFileContainingSymbolInDb(full_name)
return scope.extensions_by_name[extension_name]
def FindExtensionByNumber(self, message_descriptor, number):
"""Gets the extension of the specified message with the specified number.
Extensions have to be registered to this pool by calling
AddExtensionDescriptor.
Args:
message_descriptor: descriptor of the extended message.
number: integer, number of the extension field.
Returns:
A FieldDescriptor describing the extension.
Raises:
KeyError: when no extension with the given number is known for the
specified message.
"""
return self._extensions_by_number[message_descriptor][number]
def FindAllExtensions(self, message_descriptor):
"""Gets all the known extension of a given message.
Extensions have to be registered to this pool by calling
AddExtensionDescriptor.
Args:
message_descriptor: descriptor of the extended message.
Returns:
A list of FieldDescriptor describing the extensions.
"""
return list(self._extensions_by_number[message_descriptor].values())
def FindServiceByName(self, full_name):
"""Loads the named service descriptor from the pool.
Args:
full_name: The full name of the service descriptor to load.
Returns:
The service descriptor for the named service.
Raises:
KeyError: if the service cannot be found in the pool.
"""
full_name = _NormalizeFullyQualifiedName(full_name)
if full_name not in self._service_descriptors:
self._FindFileContainingSymbolInDb(full_name)
return self._service_descriptors[full_name]
def _FindFileContainingSymbolInDb(self, symbol):
"""Finds the file in descriptor DB containing the specified symbol.
Args:
symbol: The name of the symbol to search for.
Returns:
A FileDescriptor that contains the specified symbol.
Raises:
KeyError: if the file cannot be found in the descriptor database.
"""
try:
file_proto = self._internal_db.FindFileContainingSymbol(symbol)
except KeyError as error:
if self._descriptor_db:
file_proto = self._descriptor_db.FindFileContainingSymbol(symbol)
else:
raise error
if not file_proto:
raise KeyError('Cannot find a file containing %s' % symbol)
return self._ConvertFileProtoToFileDescriptor(file_proto)
def _ConvertFileProtoToFileDescriptor(self, file_proto):
"""Creates a FileDescriptor from a proto or returns a cached copy.
This method also has the side effect of loading all the symbols found in
the file into the appropriate dictionaries in the pool.
Args:
file_proto: The proto to convert.
Returns:
A FileDescriptor matching the passed in proto.
"""
if file_proto.name not in self._file_descriptors:
built_deps = list(self._GetDeps(file_proto.dependency))
direct_deps = [self.FindFileByName(n) for n in file_proto.dependency]
public_deps = [direct_deps[i] for i in file_proto.public_dependency]
file_descriptor = descriptor.FileDescriptor(
pool=self,
name=file_proto.name,
package=file_proto.package,
syntax=file_proto.syntax,
options=_OptionsOrNone(file_proto),
serialized_pb=file_proto.SerializeToString(),
dependencies=direct_deps,
public_dependencies=public_deps)
scope = {}
# This loop extracts all the message and enum types from all the
# dependencies of the file_proto. This is necessary to create the
# scope of available message types when defining the passed in
# file proto.
for dependency in built_deps:
scope.update(self._ExtractSymbols(
list(dependency.message_types_by_name.values())))
scope.update((_PrefixWithDot(enum.full_name), enum)
for enum in list(dependency.enum_types_by_name.values()))
for message_type in file_proto.message_type:
message_desc = self._ConvertMessageDescriptor(
message_type, file_proto.package, file_descriptor, scope,
file_proto.syntax)
file_descriptor.message_types_by_name[message_desc.name] = (
message_desc)
for enum_type in file_proto.enum_type:
file_descriptor.enum_types_by_name[enum_type.name] = (
self._ConvertEnumDescriptor(enum_type, file_proto.package,
file_descriptor, None, scope))
for index, extension_proto in enumerate(file_proto.extension):
extension_desc = self._MakeFieldDescriptor(
extension_proto, file_proto.package, index, file_descriptor,
is_extension=True)
extension_desc.containing_type = self._GetTypeFromScope(
file_descriptor.package, extension_proto.extendee, scope)
self._SetFieldType(extension_proto, extension_desc,
file_descriptor.package, scope)
file_descriptor.extensions_by_name[extension_desc.name] = (
extension_desc)
for desc_proto in file_proto.message_type:
self._SetAllFieldTypes(file_proto.package, desc_proto, scope)
if file_proto.package:
desc_proto_prefix = _PrefixWithDot(file_proto.package)
else:
desc_proto_prefix = ''
for desc_proto in file_proto.message_type:
desc = self._GetTypeFromScope(
desc_proto_prefix, desc_proto.name, scope)
file_descriptor.message_types_by_name[desc_proto.name] = desc
for index, service_proto in enumerate(file_proto.service):
file_descriptor.services_by_name[service_proto.name] = (
self._MakeServiceDescriptor(service_proto, index, scope,
file_proto.package, file_descriptor))
self.Add(file_proto)
self._file_descriptors[file_proto.name] = file_descriptor
return self._file_descriptors[file_proto.name]
def _ConvertMessageDescriptor(self, desc_proto, package=None, file_desc=None,
scope=None, syntax=None):
"""Adds the proto to the pool in the specified package.
Args:
desc_proto: The descriptor_pb2.DescriptorProto protobuf message.
package: The package the proto should be located in.
file_desc: The file containing this message.
scope: Dict mapping short and full symbols to message and enum types.
syntax: string indicating syntax of the file ("proto2" or "proto3")
Returns:
The added descriptor.
"""
if package:
desc_name = '.'.join((package, desc_proto.name))
else:
desc_name = desc_proto.name
if file_desc is None:
file_name = None
else:
file_name = file_desc.name
if scope is None:
scope = {}
nested = [
self._ConvertMessageDescriptor(
nested, desc_name, file_desc, scope, syntax)
for nested in desc_proto.nested_type]
enums = [
self._ConvertEnumDescriptor(enum, desc_name, file_desc, None, scope)
for enum in desc_proto.enum_type]
fields = [self._MakeFieldDescriptor(field, desc_name, index, file_desc)
for index, field in enumerate(desc_proto.field)]
extensions = [
self._MakeFieldDescriptor(extension, desc_name, index, file_desc,
is_extension=True)
for index, extension in enumerate(desc_proto.extension)]
oneofs = [
descriptor.OneofDescriptor(desc.name, '.'.join((desc_name, desc.name)),
index, None, [], desc.options)
for index, desc in enumerate(desc_proto.oneof_decl)]
extension_ranges = [(r.start, r.end) for r in desc_proto.extension_range]
if extension_ranges:
is_extendable = True
else:
is_extendable = False
desc = descriptor.Descriptor(
name=desc_proto.name,
full_name=desc_name,
filename=file_name,
containing_type=None,
fields=fields,
oneofs=oneofs,
nested_types=nested,
enum_types=enums,
extensions=extensions,
options=_OptionsOrNone(desc_proto),
is_extendable=is_extendable,
extension_ranges=extension_ranges,
file=file_desc,
serialized_start=None,
serialized_end=None,
syntax=syntax)
for nested in desc.nested_types:
nested.containing_type = desc
for enum in desc.enum_types:
enum.containing_type = desc
for field_index, field_desc in enumerate(desc_proto.field):
if field_desc.HasField('oneof_index'):
oneof_index = field_desc.oneof_index
oneofs[oneof_index].fields.append(fields[field_index])
fields[field_index].containing_oneof = oneofs[oneof_index]
scope[_PrefixWithDot(desc_name)] = desc
self._CheckConflictRegister(desc)
self._descriptors[desc_name] = desc
return desc
def _ConvertEnumDescriptor(self, enum_proto, package=None, file_desc=None,
containing_type=None, scope=None):
"""Make a protobuf EnumDescriptor given an EnumDescriptorProto protobuf.
Args:
enum_proto: The descriptor_pb2.EnumDescriptorProto protobuf message.
package: Optional package name for the new message EnumDescriptor.
file_desc: The file containing the enum descriptor.
containing_type: The type containing this enum.
scope: Scope containing available types.
Returns:
The added descriptor
"""
if package:
enum_name = '.'.join((package, enum_proto.name))
else:
enum_name = enum_proto.name
if file_desc is None:
file_name = None
else:
file_name = file_desc.name
values = [self._MakeEnumValueDescriptor(value, index)
for index, value in enumerate(enum_proto.value)]
desc = descriptor.EnumDescriptor(name=enum_proto.name,
full_name=enum_name,
filename=file_name,
file=file_desc,
values=values,
containing_type=containing_type,
options=_OptionsOrNone(enum_proto))
scope['.%s' % enum_name] = desc
self._CheckConflictRegister(desc)
self._enum_descriptors[enum_name] = desc
return desc
def _MakeFieldDescriptor(self, field_proto, message_name, index,
file_desc, is_extension=False):
"""Creates a field descriptor from a FieldDescriptorProto.
For message and enum type fields, this method will do a look up
in the pool for the appropriate descriptor for that type. If it
is unavailable, it will fall back to the _source function to
create it. If this type is still unavailable, construction will
fail.
Args:
field_proto: The proto describing the field.
message_name: The name of the containing message.
index: Index of the field
file_desc: The file containing the field descriptor.
is_extension: Indication that this field is for an extension.
Returns:
An initialized FieldDescriptor object
"""
if message_name:
full_name = '.'.join((message_name, field_proto.name))
else:
full_name = field_proto.name
return descriptor.FieldDescriptor(
name=field_proto.name,
full_name=full_name,
index=index,
number=field_proto.number,
type=field_proto.type,
cpp_type=None,
message_type=None,
enum_type=None,
containing_type=None,
label=field_proto.label,
has_default_value=False,
default_value=None,
is_extension=is_extension,
extension_scope=None,
options=_OptionsOrNone(field_proto),
file=file_desc)
def _SetAllFieldTypes(self, package, desc_proto, scope):
"""Sets all the descriptor's fields's types.
This method also sets the containing types on any extensions.
Args:
package: The current package of desc_proto.
desc_proto: The message descriptor to update.
scope: Enclosing scope of available types.
"""
package = _PrefixWithDot(package)
main_desc = self._GetTypeFromScope(package, desc_proto.name, scope)
if package == '.':
nested_package = _PrefixWithDot(desc_proto.name)
else:
nested_package = '.'.join([package, desc_proto.name])
for field_proto, field_desc in zip(desc_proto.field, main_desc.fields):
self._SetFieldType(field_proto, field_desc, nested_package, scope)
for extension_proto, extension_desc in (
list(zip(desc_proto.extension, main_desc.extensions))):
extension_desc.containing_type = self._GetTypeFromScope(
nested_package, extension_proto.extendee, scope)
self._SetFieldType(extension_proto, extension_desc, nested_package, scope)
for nested_type in desc_proto.nested_type:
self._SetAllFieldTypes(nested_package, nested_type, scope)
def _SetFieldType(self, field_proto, field_desc, package, scope):
"""Sets the field's type, cpp_type, message_type and enum_type.
Args:
field_proto: Data about the field in proto format.
field_desc: The descriptor to modiy.
package: The package the field's container is in.
scope: Enclosing scope of available types.
"""
if field_proto.type_name:
desc = self._GetTypeFromScope(package, field_proto.type_name, scope)
else:
desc = None
if not field_proto.HasField('type'):
if isinstance(desc, descriptor.Descriptor):
field_proto.type = descriptor.FieldDescriptor.TYPE_MESSAGE
else:
field_proto.type = descriptor.FieldDescriptor.TYPE_ENUM
field_desc.cpp_type = descriptor.FieldDescriptor.ProtoTypeToCppProtoType(
field_proto.type)
if (field_proto.type == descriptor.FieldDescriptor.TYPE_MESSAGE
or field_proto.type == descriptor.FieldDescriptor.TYPE_GROUP):
field_desc.message_type = desc
if field_proto.type == descriptor.FieldDescriptor.TYPE_ENUM:
field_desc.enum_type = desc
if field_proto.label == descriptor.FieldDescriptor.LABEL_REPEATED:
field_desc.has_default_value = False
field_desc.default_value = []
elif field_proto.HasField('default_value'):
field_desc.has_default_value = True
if (field_proto.type == descriptor.FieldDescriptor.TYPE_DOUBLE or
field_proto.type == descriptor.FieldDescriptor.TYPE_FLOAT):
field_desc.default_value = float(field_proto.default_value)
elif field_proto.type == descriptor.FieldDescriptor.TYPE_STRING:
field_desc.default_value = field_proto.default_value
elif field_proto.type == descriptor.FieldDescriptor.TYPE_BOOL:
field_desc.default_value = field_proto.default_value.lower() == 'true'
elif field_proto.type == descriptor.FieldDescriptor.TYPE_ENUM:
field_desc.default_value = field_desc.enum_type.values_by_name[
field_proto.default_value].number
elif field_proto.type == descriptor.FieldDescriptor.TYPE_BYTES:
field_desc.default_value = text_encoding.CUnescape(
field_proto.default_value)
else:
# All other types are of the "int" type.
field_desc.default_value = int(field_proto.default_value)
else:
field_desc.has_default_value = False
if (field_proto.type == descriptor.FieldDescriptor.TYPE_DOUBLE or
field_proto.type == descriptor.FieldDescriptor.TYPE_FLOAT):
field_desc.default_value = 0.0
elif field_proto.type == descriptor.FieldDescriptor.TYPE_STRING:
field_desc.default_value = ''
elif field_proto.type == descriptor.FieldDescriptor.TYPE_BOOL:
field_desc.default_value = False
elif field_proto.type == descriptor.FieldDescriptor.TYPE_ENUM:
field_desc.default_value = field_desc.enum_type.values[0].number
elif field_proto.type == descriptor.FieldDescriptor.TYPE_BYTES:
field_desc.default_value = b''
else:
# All other types are of the "int" type.
field_desc.default_value = 0
field_desc.type = field_proto.type
def _MakeEnumValueDescriptor(self, value_proto, index):
"""Creates a enum value descriptor object from a enum value proto.
Args:
value_proto: The proto describing the enum value.
index: The index of the enum value.
Returns:
An initialized EnumValueDescriptor object.
"""
return descriptor.EnumValueDescriptor(
name=value_proto.name,
index=index,
number=value_proto.number,
options=_OptionsOrNone(value_proto),
type=None)
def _MakeServiceDescriptor(self, service_proto, service_index, scope,
package, file_desc):
"""Make a protobuf ServiceDescriptor given a ServiceDescriptorProto.
Args:
service_proto: The descriptor_pb2.ServiceDescriptorProto protobuf message.
service_index: The index of the service in the File.
scope: Dict mapping short and full symbols to message and enum types.
package: Optional package name for the new message EnumDescriptor.
file_desc: The file containing the service descriptor.
Returns:
The added descriptor.
"""
if package:
service_name = '.'.join((package, service_proto.name))
else:
service_name = service_proto.name
methods = [self._MakeMethodDescriptor(method_proto, service_name, package,
scope, index)
for index, method_proto in enumerate(service_proto.method)]
desc = descriptor.ServiceDescriptor(name=service_proto.name,
full_name=service_name,
index=service_index,
methods=methods,
options=_OptionsOrNone(service_proto),
file=file_desc)
self._CheckConflictRegister(desc)
self._service_descriptors[service_name] = desc
return desc
def _MakeMethodDescriptor(self, method_proto, service_name, package, scope,
index):
"""Creates a method descriptor from a MethodDescriptorProto.
Args:
method_proto: The proto describing the method.
service_name: The name of the containing service.
package: Optional package name to look up for types.
scope: Scope containing available types.
index: Index of the method in the service.
Returns:
An initialized MethodDescriptor object.
"""
full_name = '.'.join((service_name, method_proto.name))
input_type = self._GetTypeFromScope(
package, method_proto.input_type, scope)
output_type = self._GetTypeFromScope(
package, method_proto.output_type, scope)
return descriptor.MethodDescriptor(name=method_proto.name,
full_name=full_name,
index=index,
containing_service=None,
input_type=input_type,
output_type=output_type,
options=_OptionsOrNone(method_proto))
def _ExtractSymbols(self, descriptors):
"""Pulls out all the symbols from descriptor protos.
Args:
descriptors: The messages to extract descriptors from.
Yields:
A two element tuple of the type name and descriptor object.
"""
for desc in descriptors:
yield (_PrefixWithDot(desc.full_name), desc)
for symbol in self._ExtractSymbols(desc.nested_types):
yield symbol
for enum in desc.enum_types:
yield (_PrefixWithDot(enum.full_name), enum)
def _GetDeps(self, dependencies):
"""Recursively finds dependencies for file protos.
Args:
dependencies: The names of the files being depended on.
Yields:
Each direct and indirect dependency.
"""
for dependency in dependencies:
dep_desc = self.FindFileByName(dependency)
yield dep_desc
for parent_dep in dep_desc.dependencies:
yield parent_dep
def _GetTypeFromScope(self, package, type_name, scope):
"""Finds a given type name in the current scope.
Args:
package: The package the proto should be located in.
type_name: The name of the type to be found in the scope.
scope: Dict mapping short and full symbols to message and enum types.
Returns:
The descriptor for the requested type.
"""
if type_name not in scope:
components = _PrefixWithDot(package).split('.')
while components:
possible_match = '.'.join(components + [type_name])
if possible_match in scope:
type_name = possible_match
break
else:
components.pop(-1)
return scope[type_name]
def _PrefixWithDot(name):
return name if name.startswith('.') else '.%s' % name
if _USE_C_DESCRIPTORS:
# TODO(amauryfa): This pool could be constructed from Python code, when we
# support a flag like 'use_cpp_generated_pool=True'.
# pylint: disable=protected-access
_DEFAULT = descriptor._message.default_pool
else:
_DEFAULT = DescriptorPool()
def Default():
return _DEFAULT