# Copyright 2020 The HuggingFace Team. 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. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License 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. import argparse import json import os import tempfile import unittest from argparse import Namespace from dataclasses import dataclass, field from enum import Enum from pathlib import Path from typing import List, Optional import yaml from transformers import HfArgumentParser, TrainingArguments from transformers.hf_argparser import make_choice_type_function, string_to_bool try: # For Python versions <3.8, Literal is not in typing: https://peps.python.org/pep-0586/ from typing import Literal except ImportError: # For Python 3.7 from typing_extensions import Literal def list_field(default=None, metadata=None): return field(default_factory=lambda: default, metadata=metadata) @dataclass class BasicExample: foo: int bar: float baz: str flag: bool @dataclass class WithDefaultExample: foo: int = 42 baz: str = field(default="toto", metadata={"help": "help message"}) @dataclass class WithDefaultBoolExample: foo: bool = False baz: bool = True opt: Optional[bool] = None class BasicEnum(Enum): titi = "titi" toto = "toto" class MixedTypeEnum(Enum): titi = "titi" toto = "toto" fourtytwo = 42 @dataclass class EnumExample: foo: BasicEnum = "toto" def __post_init__(self): self.foo = BasicEnum(self.foo) @dataclass class MixedTypeEnumExample: foo: MixedTypeEnum = "toto" def __post_init__(self): self.foo = MixedTypeEnum(self.foo) @dataclass class OptionalExample: foo: Optional[int] = None bar: Optional[float] = field(default=None, metadata={"help": "help message"}) baz: Optional[str] = None ces: Optional[List[str]] = list_field(default=[]) des: Optional[List[int]] = list_field(default=[]) @dataclass class ListExample: foo_int: List[int] = list_field(default=[]) bar_int: List[int] = list_field(default=[1, 2, 3]) foo_str: List[str] = list_field(default=["Hallo", "Bonjour", "Hello"]) foo_float: List[float] = list_field(default=[0.1, 0.2, 0.3]) @dataclass class RequiredExample: required_list: List[int] = field() required_str: str = field() required_enum: BasicEnum = field() def __post_init__(self): self.required_enum = BasicEnum(self.required_enum) @dataclass class StringLiteralAnnotationExample: foo: int required_enum: "BasicEnum" = field() opt: "Optional[bool]" = None baz: "str" = field(default="toto", metadata={"help": "help message"}) foo_str: "List[str]" = list_field(default=["Hallo", "Bonjour", "Hello"]) class HfArgumentParserTest(unittest.TestCase): def argparsersEqual(self, a: argparse.ArgumentParser, b: argparse.ArgumentParser): """ Small helper to check pseudo-equality of parsed arguments on `ArgumentParser` instances. """ self.assertEqual(len(a._actions), len(b._actions)) for x, y in zip(a._actions, b._actions): xx = {k: v for k, v in vars(x).items() if k != "container"} yy = {k: v for k, v in vars(y).items() if k != "container"} # Choices with mixed type have custom function as "type" # So we need to compare results directly for equality if xx.get("choices", None) and yy.get("choices", None): for expected_choice in yy["choices"] + xx["choices"]: self.assertEqual(xx["type"](expected_choice), yy["type"](expected_choice)) del xx["type"], yy["type"] self.assertEqual(xx, yy) def test_basic(self): parser = HfArgumentParser(BasicExample) expected = argparse.ArgumentParser() expected.add_argument("--foo", type=int, required=True) expected.add_argument("--bar", type=float, required=True) expected.add_argument("--baz", type=str, required=True) expected.add_argument("--flag", type=string_to_bool, default=False, const=True, nargs="?") self.argparsersEqual(parser, expected) args = ["--foo", "1", "--baz", "quux", "--bar", "0.5"] (example,) = parser.parse_args_into_dataclasses(args, look_for_args_file=False) self.assertFalse(example.flag) def test_with_default(self): parser = HfArgumentParser(WithDefaultExample) expected = argparse.ArgumentParser() expected.add_argument("--foo", default=42, type=int) expected.add_argument("--baz", default="toto", type=str, help="help message") self.argparsersEqual(parser, expected) def test_with_default_bool(self): parser = HfArgumentParser(WithDefaultBoolExample) expected = argparse.ArgumentParser() expected.add_argument("--foo", type=string_to_bool, default=False, const=True, nargs="?") expected.add_argument("--baz", type=string_to_bool, default=True, const=True, nargs="?") # A boolean no_* argument always has to come after its "default: True" regular counter-part # and its default must be set to False expected.add_argument("--no_baz", action="store_false", default=False, dest="baz") expected.add_argument("--opt", type=string_to_bool, default=None) self.argparsersEqual(parser, expected) args = parser.parse_args([]) self.assertEqual(args, Namespace(foo=False, baz=True, opt=None)) args = parser.parse_args(["--foo", "--no_baz"]) self.assertEqual(args, Namespace(foo=True, baz=False, opt=None)) args = parser.parse_args(["--foo", "--baz"]) self.assertEqual(args, Namespace(foo=True, baz=True, opt=None)) args = parser.parse_args(["--foo", "True", "--baz", "True", "--opt", "True"]) self.assertEqual(args, Namespace(foo=True, baz=True, opt=True)) args = parser.parse_args(["--foo", "False", "--baz", "False", "--opt", "False"]) self.assertEqual(args, Namespace(foo=False, baz=False, opt=False)) def test_with_enum(self): parser = HfArgumentParser(MixedTypeEnumExample) expected = argparse.ArgumentParser() expected.add_argument( "--foo", default="toto", choices=["titi", "toto", 42], type=make_choice_type_function(["titi", "toto", 42]), ) self.argparsersEqual(parser, expected) args = parser.parse_args([]) self.assertEqual(args.foo, "toto") enum_ex = parser.parse_args_into_dataclasses([])[0] self.assertEqual(enum_ex.foo, MixedTypeEnum.toto) args = parser.parse_args(["--foo", "titi"]) self.assertEqual(args.foo, "titi") enum_ex = parser.parse_args_into_dataclasses(["--foo", "titi"])[0] self.assertEqual(enum_ex.foo, MixedTypeEnum.titi) args = parser.parse_args(["--foo", "42"]) self.assertEqual(args.foo, 42) enum_ex = parser.parse_args_into_dataclasses(["--foo", "42"])[0] self.assertEqual(enum_ex.foo, MixedTypeEnum.fourtytwo) def test_with_literal(self): @dataclass class LiteralExample: foo: Literal["titi", "toto", 42] = "toto" parser = HfArgumentParser(LiteralExample) expected = argparse.ArgumentParser() expected.add_argument( "--foo", default="toto", choices=("titi", "toto", 42), type=make_choice_type_function(["titi", "toto", 42]), ) self.argparsersEqual(parser, expected) args = parser.parse_args([]) self.assertEqual(args.foo, "toto") args = parser.parse_args(["--foo", "titi"]) self.assertEqual(args.foo, "titi") args = parser.parse_args(["--foo", "42"]) self.assertEqual(args.foo, 42) def test_with_list(self): parser = HfArgumentParser(ListExample) expected = argparse.ArgumentParser() expected.add_argument("--foo_int", nargs="+", default=[], type=int) expected.add_argument("--bar_int", nargs="+", default=[1, 2, 3], type=int) expected.add_argument("--foo_str", nargs="+", default=["Hallo", "Bonjour", "Hello"], type=str) expected.add_argument("--foo_float", nargs="+", default=[0.1, 0.2, 0.3], type=float) self.argparsersEqual(parser, expected) args = parser.parse_args([]) self.assertEqual( args, Namespace(foo_int=[], bar_int=[1, 2, 3], foo_str=["Hallo", "Bonjour", "Hello"], foo_float=[0.1, 0.2, 0.3]), ) args = parser.parse_args("--foo_int 1 --bar_int 2 3 --foo_str a b c --foo_float 0.1 0.7".split()) self.assertEqual(args, Namespace(foo_int=[1], bar_int=[2, 3], foo_str=["a", "b", "c"], foo_float=[0.1, 0.7])) def test_with_optional(self): parser = HfArgumentParser(OptionalExample) expected = argparse.ArgumentParser() expected.add_argument("--foo", default=None, type=int) expected.add_argument("--bar", default=None, type=float, help="help message") expected.add_argument("--baz", default=None, type=str) expected.add_argument("--ces", nargs="+", default=[], type=str) expected.add_argument("--des", nargs="+", default=[], type=int) self.argparsersEqual(parser, expected) args = parser.parse_args([]) self.assertEqual(args, Namespace(foo=None, bar=None, baz=None, ces=[], des=[])) args = parser.parse_args("--foo 12 --bar 3.14 --baz 42 --ces a b c --des 1 2 3".split()) self.assertEqual(args, Namespace(foo=12, bar=3.14, baz="42", ces=["a", "b", "c"], des=[1, 2, 3])) def test_with_required(self): parser = HfArgumentParser(RequiredExample) expected = argparse.ArgumentParser() expected.add_argument("--required_list", nargs="+", type=int, required=True) expected.add_argument("--required_str", type=str, required=True) expected.add_argument( "--required_enum", type=make_choice_type_function(["titi", "toto"]), choices=["titi", "toto"], required=True, ) self.argparsersEqual(parser, expected) def test_with_string_literal_annotation(self): parser = HfArgumentParser(StringLiteralAnnotationExample) expected = argparse.ArgumentParser() expected.add_argument("--foo", type=int, required=True) expected.add_argument( "--required_enum", type=make_choice_type_function(["titi", "toto"]), choices=["titi", "toto"], required=True, ) expected.add_argument("--opt", type=string_to_bool, default=None) expected.add_argument("--baz", default="toto", type=str, help="help message") expected.add_argument("--foo_str", nargs="+", default=["Hallo", "Bonjour", "Hello"], type=str) self.argparsersEqual(parser, expected) def test_parse_dict(self): parser = HfArgumentParser(BasicExample) args_dict = { "foo": 12, "bar": 3.14, "baz": "42", "flag": True, } parsed_args = parser.parse_dict(args_dict)[0] args = BasicExample(**args_dict) self.assertEqual(parsed_args, args) def test_parse_dict_extra_key(self): parser = HfArgumentParser(BasicExample) args_dict = { "foo": 12, "bar": 3.14, "baz": "42", "flag": True, "extra": 42, } self.assertRaises(ValueError, parser.parse_dict, args_dict, allow_extra_keys=False) def test_parse_json(self): parser = HfArgumentParser(BasicExample) args_dict_for_json = { "foo": 12, "bar": 3.14, "baz": "42", "flag": True, } with tempfile.TemporaryDirectory() as tmp_dir: temp_local_path = os.path.join(tmp_dir, "temp_json") os.mkdir(temp_local_path) with open(temp_local_path + ".json", "w+") as f: json.dump(args_dict_for_json, f) parsed_args = parser.parse_yaml_file(Path(temp_local_path + ".json"))[0] args = BasicExample(**args_dict_for_json) self.assertEqual(parsed_args, args) def test_parse_yaml(self): parser = HfArgumentParser(BasicExample) args_dict_for_yaml = { "foo": 12, "bar": 3.14, "baz": "42", "flag": True, } with tempfile.TemporaryDirectory() as tmp_dir: temp_local_path = os.path.join(tmp_dir, "temp_yaml") os.mkdir(temp_local_path) with open(temp_local_path + ".yaml", "w+") as f: yaml.dump(args_dict_for_yaml, f) parsed_args = parser.parse_yaml_file(Path(temp_local_path + ".yaml"))[0] args = BasicExample(**args_dict_for_yaml) self.assertEqual(parsed_args, args) def test_integration_training_args(self): parser = HfArgumentParser(TrainingArguments) self.assertIsNotNone(parser)