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Fix: to_dict returns wrong enum fields when numbering is not consecutive (#102)

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Fixes #93 to_dict returns wrong enum fields when numbering is not consecutive
This commit is contained in:
Bouke Versteegh 2020-07-12 15:06:55 +02:00 committed by GitHub
parent 0ba0692dec
commit 6c29771f4c
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GPG Key ID: 4AEE18F83AFDEB23
7 changed files with 166 additions and 56 deletions
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95
src/betterproto/__init__.py
View File

@ -4,6 +4,7 @@ import inspect
import json
import struct
import sys
import warnings
from abc import ABC
from base64 import b64decode, b64encode
from datetime import datetime, timedelta, timezone
@ -21,6 +22,8 @@ from typing import (
get_type_hints,
)
import typing
from ._types import T
from .casing import camel_case, safe_snake_case, snake_case
from .grpc.grpclib_client import ServiceStub
@ -251,7 +254,7 @@ def map_field(
)
class Enum(int, enum.Enum):
class Enum(enum.IntEnum):
"""Protocol buffers enumeration base class. Acts like `enum.IntEnum`."""
@classmethod
@ -635,9 +638,13 @@ class Message(ABC):
@classmethod
def _type_hint(cls, field_name: str) -> Type:
return cls._type_hints()[field_name]
@classmethod
def _type_hints(cls) -> Dict[str, Type]:
module = inspect.getmodule(cls)
type_hints = get_type_hints(cls, vars(module))
return type_hints[field_name]
return type_hints
@classmethod
def _cls_for(cls, field: dataclasses.Field, index: int = 0) -> Type:
@ -789,55 +796,67 @@ class Message(ABC):
`False`.
"""
output: Dict[str, Any] = {}
field_types = self._type_hints()
for field_name, meta in self._betterproto.meta_by_field_name.items():
v = getattr(self, field_name)
field_type = field_types[field_name]
field_is_repeated = type(field_type) is type(typing.List)
value = getattr(self, field_name)
cased_name = casing(field_name).rstrip("_") # type: ignore
if meta.proto_type == "message":
if isinstance(v, datetime):
if v != DATETIME_ZERO or include_default_values:
output[cased_name] = _Timestamp.timestamp_to_json(v)
elif isinstance(v, timedelta):
if v != timedelta(0) or include_default_values:
output[cased_name] = _Duration.delta_to_json(v)
if meta.proto_type == TYPE_MESSAGE:
if isinstance(value, datetime):
if value != DATETIME_ZERO or include_default_values:
output[cased_name] = _Timestamp.timestamp_to_json(value)
elif isinstance(value, timedelta):
if value != timedelta(0) or include_default_values:
output[cased_name] = _Duration.delta_to_json(value)
elif meta.wraps:
if v is not None or include_default_values:
output[cased_name] = v
elif isinstance(v, list):
if value is not None or include_default_values:
output[cased_name] = value
elif field_is_repeated:
# Convert each item.
v = [i.to_dict(casing, include_default_values) for i in v]
if v or include_default_values:
output[cased_name] = v
value = [i.to_dict(casing, include_default_values) for i in value]
if value or include_default_values:
output[cased_name] = value
else:
if v._serialized_on_wire or include_default_values:
output[cased_name] = v.to_dict(casing, include_default_values)
elif meta.proto_type == "map":
for k in v:
if hasattr(v[k], "to_dict"):
v[k] = v[k].to_dict(casing, include_default_values)
if value._serialized_on_wire or include_default_values:
output[cased_name] = value.to_dict(
casing, include_default_values
)
elif meta.proto_type == TYPE_MAP:
for k in value:
if hasattr(value[k], "to_dict"):
value[k] = value[k].to_dict(casing, include_default_values)
if v or include_default_values:
output[cased_name] = v
elif v != self._get_field_default(field_name) or include_default_values:
if value or include_default_values:
output[cased_name] = value
elif value != self._get_field_default(field_name) or include_default_values:
if meta.proto_type in INT_64_TYPES:
if isinstance(v, list):
output[cased_name] = [str(n) for n in v]
if field_is_repeated:
output[cased_name] = [str(n) for n in value]
else:
output[cased_name] = str(v)
output[cased_name] = str(value)
elif meta.proto_type == TYPE_BYTES:
if isinstance(v, list):
output[cased_name] = [b64encode(b).decode("utf8") for b in v]
if field_is_repeated:
output[cased_name] = [
b64encode(b).decode("utf8") for b in value
]
else:
output[cased_name] = b64encode(v).decode("utf8")
output[cased_name] = b64encode(value).decode("utf8")
elif meta.proto_type == TYPE_ENUM:
enum_values = list(
self._betterproto.cls_by_field[field_name]
) # type: ignore
if isinstance(v, list):
output[cased_name] = [enum_values[e].name for e in v]
if field_is_repeated:
enum_class: Type[Enum] = field_type.__args__[0]
if isinstance(value, typing.Iterable) and not isinstance(
value, str
):
output[cased_name] = [enum_class(el).name for el in value]
else:
# transparently upgrade single value to repeated
output[cased_name] = [enum_class(value).name]
else:
output[cased_name] = enum_values[v].name
enum_class: Type[Enum] = field_type # noqa
output[cased_name] = enum_class(value).name
else:
output[cased_name] = v
output[cased_name] = value
return output
def from_dict(self: T, value: dict) -> T:

2
tests/inputs/config.py
View File

@ -5,7 +5,7 @@ xfail = {
"namespace_keywords", # 70
"namespace_builtin_types", # 53
"googletypes_struct", # 9
"googletypes_value", # 9,
"googletypes_value", # 9
"import_capitalized_package",
"example", # This is the example in the readme. Not a test.
}

9
tests/inputs/enum/enum.json Normal file
View File

@ -0,0 +1,9 @@
{
"choice": "FOUR",
"choices": [
"ZERO",
"ONE",
"THREE",
"FOUR"
]
}

15
tests/inputs/enum/enum.proto Normal file
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@ -0,0 +1,15 @@
syntax = "proto3";
// Tests that enums are correctly serialized and that it correctly handles skipped and out-of-order enum values
message Test {
Choice choice = 1;
repeated Choice choices = 2;
}
enum Choice {
ZERO = 0;
ONE = 1;
// TWO = 2;
FOUR = 4;
THREE = 3;
}

84
tests/inputs/enum/test_enum.py Normal file
View File

@ -0,0 +1,84 @@
from tests.output_betterproto.enum import (
Test,
Choice,
)
def test_enum_set_and_get():
assert Test(choice=Choice.ZERO).choice == Choice.ZERO
assert Test(choice=Choice.ONE).choice == Choice.ONE
assert Test(choice=Choice.THREE).choice == Choice.THREE
assert Test(choice=Choice.FOUR).choice == Choice.FOUR
def test_enum_set_with_int():
assert Test(choice=0).choice == Choice.ZERO
assert Test(choice=1).choice == Choice.ONE
assert Test(choice=3).choice == Choice.THREE
assert Test(choice=4).choice == Choice.FOUR
def test_enum_is_comparable_with_int():
assert Test(choice=Choice.ZERO).choice == 0
assert Test(choice=Choice.ONE).choice == 1
assert Test(choice=Choice.THREE).choice == 3
assert Test(choice=Choice.FOUR).choice == 4
def test_enum_to_dict():
assert (
"choice" not in Test(choice=Choice.ZERO).to_dict()
), "Default enum value is not serialized"
assert (
Test(choice=Choice.ZERO).to_dict(include_default_values=True)["choice"]
== "ZERO"
)
assert Test(choice=Choice.ONE).to_dict()["choice"] == "ONE"
assert Test(choice=Choice.THREE).to_dict()["choice"] == "THREE"
assert Test(choice=Choice.FOUR).to_dict()["choice"] == "FOUR"
def test_repeated_enum_is_comparable_with_int():
assert Test(choices=[Choice.ZERO]).choices == [0]
assert Test(choices=[Choice.ONE]).choices == [1]
assert Test(choices=[Choice.THREE]).choices == [3]
assert Test(choices=[Choice.FOUR]).choices == [4]
def test_repeated_enum_set_and_get():
assert Test(choices=[Choice.ZERO]).choices == [Choice.ZERO]
assert Test(choices=[Choice.ONE]).choices == [Choice.ONE]
assert Test(choices=[Choice.THREE]).choices == [Choice.THREE]
assert Test(choices=[Choice.FOUR]).choices == [Choice.FOUR]
def test_repeated_enum_to_dict():
assert Test(choices=[Choice.ZERO]).to_dict()["choices"] == ["ZERO"]
assert Test(choices=[Choice.ONE]).to_dict()["choices"] == ["ONE"]
assert Test(choices=[Choice.THREE]).to_dict()["choices"] == ["THREE"]
assert Test(choices=[Choice.FOUR]).to_dict()["choices"] == ["FOUR"]
all_enums_dict = Test(
choices=[Choice.ZERO, Choice.ONE, Choice.THREE, Choice.FOUR]
).to_dict()
assert (all_enums_dict["choices"]) == ["ZERO", "ONE", "THREE", "FOUR"]
def test_repeated_enum_with_single_value_to_dict():
assert Test(choices=Choice.ONE).to_dict()["choices"] == ["ONE"]
assert Test(choices=1).to_dict()["choices"] == ["ONE"]
def test_repeated_enum_with_non_list_iterables_to_dict():
assert Test(choices=(1, 3)).to_dict()["choices"] == ["ONE", "THREE"]
assert Test(choices=(1, 3)).to_dict()["choices"] == ["ONE", "THREE"]
assert Test(choices=(Choice.ONE, Choice.THREE)).to_dict()["choices"] == [
"ONE",
"THREE",
]
def enum_generator():
yield Choice.ONE
yield Choice.THREE
assert Test(choices=enum_generator()).to_dict()["choices"] == ["ONE", "THREE"]

3
tests/inputs/enums/enums.json
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@ -1,3 +0,0 @@
{
"greeting": "HEY"
}

14
tests/inputs/enums/enums.proto
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@ -1,14 +0,0 @@
syntax = "proto3";
// Enum for the different greeting types
enum Greeting {
HI = 0;
HEY = 1;
// Formal greeting
HELLO = 2;
}
message Test {
// Greeting enum example
Greeting greeting = 1;
}