[tests|tokenizers] Refactoring pipelines test backbone - Small tokenizers improvements - General tests speedups (#7970)

* WIP refactoring pipeline tests - switching to fast tokenizers

* fix dialog pipeline and fill-mask

* refactoring pipeline tests backbone

* make large tests slow

* fix tests (tf Bart inactive for now)

* fix doc...

* clean up for merge

* fixing tests - remove bart from summarization until there is TF

* fix quality and RAG

* Add new translation pipeline tests - fix JAX tests

* only slow for dialog

* Fixing the missing TF-BART imports in modeling_tf_auto

* spin out pipeline tests in separate CI job

* adding pipeline test to CI YAML

* add slow pipeline tests

* speed up tf and pt join test to avoid redoing all the standalone pt and tf tests

* Update src/transformers/tokenization_utils_base.py

Co-authored-by: Sam Shleifer <sshleifer@gmail.com>

* Update src/transformers/pipelines.py

Co-authored-by: Sylvain Gugger <35901082+sgugger@users.noreply.github.com>

* Update src/transformers/pipelines.py

Co-authored-by: Lysandre Debut <lysandre@huggingface.co>

* Update src/transformers/testing_utils.py

Co-authored-by: Sylvain Gugger <35901082+sgugger@users.noreply.github.com>

* add require_torch and require_tf in is_pt_tf_cross_test

Co-authored-by: Sam Shleifer <sshleifer@gmail.com>
Co-authored-by: Sylvain Gugger <35901082+sgugger@users.noreply.github.com>
Co-authored-by: Lysandre Debut <lysandre@huggingface.co>
This commit is contained in:
Thomas Wolf
2020-10-23 15:58:19 +02:00
committed by GitHub
parent 88b3a91e61
commit 3a40cdf58d
32 changed files with 1587 additions and 1143 deletions

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@@ -15,3 +15,10 @@ sys.path.insert(1, git_repo_path)
# silence FutureWarning warnings in tests since often we can't act on them until
# they become normal warnings - i.e. the tests still need to test the current functionality
warnings.simplefilter(action="ignore", category=FutureWarning)
def pytest_configure(config):
config.addinivalue_line("markers", "is_pipeline_test: mark test to run only when pipeline are tested")
config.addinivalue_line(
"markers", "is_pt_tf_cross_test: mark test to run only when PT and TF interactions are tested"
)

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@@ -19,7 +19,7 @@ import unittest
from transformers import is_tf_available
from transformers.file_utils import cached_property
from transformers.testing_utils import require_tf, require_torch, slow
from transformers.testing_utils import is_pt_tf_cross_test, require_tf, slow
from .test_configuration_common import ConfigTester
from .test_modeling_tf_common import TFModelTesterMixin, ids_tensor
@@ -231,8 +231,7 @@ def _long_tensor(tok_lst):
TOLERANCE = 1e-4
@require_tf
@require_torch
@is_pt_tf_cross_test
@slow
class TFBartModelIntegrationTest(unittest.TestCase):
def test_inference_no_head(self):

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@@ -23,8 +23,8 @@ import unittest
from importlib import import_module
from typing import List, Tuple
from transformers import is_tf_available, is_torch_available
from transformers.testing_utils import _tf_gpu_memory_limit, require_tf, slow
from transformers import is_tf_available
from transformers.testing_utils import _tf_gpu_memory_limit, is_pt_tf_cross_test, require_tf, slow
if is_tf_available():
@@ -291,9 +291,8 @@ class TFModelTesterMixin:
max_diff = np.amax(np.abs(out_1 - out_2))
self.assertLessEqual(max_diff, 1e-5)
@is_pt_tf_cross_test
def test_pt_tf_model_equivalence(self):
if not is_torch_available():
return
import torch

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@@ -0,0 +1,243 @@
# coding=utf-8
# Copyright 2018 The Google AI Language Team Authors.
#
# 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 unittest
from transformers import is_tf_available, is_torch_available
from transformers.testing_utils import DUMMY_UNKWOWN_IDENTIFIER, SMALL_MODEL_IDENTIFIER, is_pt_tf_cross_test, slow
if is_tf_available():
from transformers import (
AutoConfig,
BertConfig,
GPT2Config,
T5Config,
TFAutoModel,
TFAutoModelForCausalLM,
TFAutoModelForMaskedLM,
TFAutoModelForPreTraining,
TFAutoModelForQuestionAnswering,
TFAutoModelForSeq2SeqLM,
TFAutoModelForSequenceClassification,
TFAutoModelWithLMHead,
TFBertForMaskedLM,
TFBertForPreTraining,
TFBertForQuestionAnswering,
TFBertForSequenceClassification,
TFBertModel,
TFGPT2LMHeadModel,
TFRobertaForMaskedLM,
TFT5ForConditionalGeneration,
)
from transformers.modeling_tf_bert import TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST
from transformers.modeling_tf_gpt2 import TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST
from transformers.modeling_tf_t5 import TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST
if is_torch_available():
from transformers import (
AutoModel,
AutoModelForCausalLM,
AutoModelForMaskedLM,
AutoModelForPreTraining,
AutoModelForQuestionAnswering,
AutoModelForSeq2SeqLM,
AutoModelForSequenceClassification,
AutoModelWithLMHead,
BertForMaskedLM,
BertForPreTraining,
BertForQuestionAnswering,
BertForSequenceClassification,
BertModel,
GPT2LMHeadModel,
RobertaForMaskedLM,
T5ForConditionalGeneration,
)
@is_pt_tf_cross_test
class TFPTAutoModelTest(unittest.TestCase):
@slow
def test_model_from_pretrained(self):
import h5py
self.assertTrue(h5py.version.hdf5_version.startswith("1.10"))
# for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
for model_name in ["bert-base-uncased"]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModel.from_pretrained(model_name, from_pt=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertModel)
model = AutoModel.from_pretrained(model_name, from_tf=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertModel)
@slow
def test_model_for_pretraining_from_pretrained(self):
import h5py
self.assertTrue(h5py.version.hdf5_version.startswith("1.10"))
# for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
for model_name in ["bert-base-uncased"]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModelForPreTraining.from_pretrained(model_name, from_pt=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertForPreTraining)
model = AutoModelForPreTraining.from_pretrained(model_name, from_tf=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertForPreTraining)
@slow
def test_model_for_causal_lm(self):
for model_name in TF_GPT2_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, GPT2Config)
model = TFAutoModelForCausalLM.from_pretrained(model_name, from_pt=True)
model, loading_info = TFAutoModelForCausalLM.from_pretrained(
model_name, output_loading_info=True, from_pt=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFGPT2LMHeadModel)
model = AutoModelForCausalLM.from_pretrained(model_name, from_tf=True)
model, loading_info = AutoModelForCausalLM.from_pretrained(
model_name, output_loading_info=True, from_tf=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, GPT2LMHeadModel)
@slow
def test_lmhead_model_from_pretrained(self):
for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModelWithLMHead.from_pretrained(model_name, from_pt=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertForMaskedLM)
model = AutoModelWithLMHead.from_pretrained(model_name, from_tf=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertForMaskedLM)
@slow
def test_model_for_masked_lm(self):
for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModelForMaskedLM.from_pretrained(model_name, from_pt=True)
model, loading_info = TFAutoModelForMaskedLM.from_pretrained(
model_name, output_loading_info=True, from_pt=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertForMaskedLM)
model = AutoModelForMaskedLM.from_pretrained(model_name, from_tf=True)
model, loading_info = AutoModelForMaskedLM.from_pretrained(
model_name, output_loading_info=True, from_tf=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertForMaskedLM)
@slow
def test_model_for_encoder_decoder_lm(self):
for model_name in TF_T5_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, T5Config)
model = TFAutoModelForSeq2SeqLM.from_pretrained(model_name, from_pt=True)
model, loading_info = TFAutoModelForSeq2SeqLM.from_pretrained(
model_name, output_loading_info=True, from_pt=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFT5ForConditionalGeneration)
model = AutoModelForSeq2SeqLM.from_pretrained(model_name, from_tf=True)
model, loading_info = AutoModelForSeq2SeqLM.from_pretrained(
model_name, output_loading_info=True, from_tf=True
)
self.assertIsNotNone(model)
self.assertIsInstance(model, T5ForConditionalGeneration)
@slow
def test_sequence_classification_model_from_pretrained(self):
# for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
for model_name in ["bert-base-uncased"]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModelForSequenceClassification.from_pretrained(model_name, from_pt=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertForSequenceClassification)
model = AutoModelForSequenceClassification.from_pretrained(model_name, from_tf=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertForSequenceClassification)
@slow
def test_question_answering_model_from_pretrained(self):
# for model_name in TF_BERT_PRETRAINED_MODEL_ARCHIVE_LIST[:1]:
for model_name in ["bert-base-uncased"]:
config = AutoConfig.from_pretrained(model_name)
self.assertIsNotNone(config)
self.assertIsInstance(config, BertConfig)
model = TFAutoModelForQuestionAnswering.from_pretrained(model_name, from_pt=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, TFBertForQuestionAnswering)
model = AutoModelForQuestionAnswering.from_pretrained(model_name, from_tf=True)
self.assertIsNotNone(model)
self.assertIsInstance(model, BertForQuestionAnswering)
def test_from_pretrained_identifier(self):
model = TFAutoModelWithLMHead.from_pretrained(SMALL_MODEL_IDENTIFIER, from_pt=True)
self.assertIsInstance(model, TFBertForMaskedLM)
self.assertEqual(model.num_parameters(), 14830)
self.assertEqual(model.num_parameters(only_trainable=True), 14830)
model = AutoModelWithLMHead.from_pretrained(SMALL_MODEL_IDENTIFIER, from_tf=True)
self.assertIsInstance(model, BertForMaskedLM)
self.assertEqual(model.num_parameters(), 14410)
self.assertEqual(model.num_parameters(only_trainable=True), 14410)
def test_from_identifier_from_model_type(self):
model = TFAutoModelWithLMHead.from_pretrained(DUMMY_UNKWOWN_IDENTIFIER, from_pt=True)
self.assertIsInstance(model, TFRobertaForMaskedLM)
self.assertEqual(model.num_parameters(), 14830)
self.assertEqual(model.num_parameters(only_trainable=True), 14830)
model = AutoModelWithLMHead.from_pretrained(DUMMY_UNKWOWN_IDENTIFIER, from_tf=True)
self.assertIsInstance(model, RobertaForMaskedLM)
self.assertEqual(model.num_parameters(), 14410)
self.assertEqual(model.num_parameters(only_trainable=True), 14410)

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@@ -1,869 +0,0 @@
import unittest
from typing import Iterable, List, Optional
import pytest
from transformers import pipeline
from transformers.pipelines import SUPPORTED_TASKS, Conversation, DefaultArgumentHandler, Pipeline
from transformers.testing_utils import require_tf, require_tokenizers, require_torch, slow, torch_device
DEFAULT_DEVICE_NUM = -1 if torch_device == "cpu" else 0
VALID_INPUTS = ["A simple string", ["list of strings"]]
NER_FINETUNED_MODELS = ["sshleifer/tiny-dbmdz-bert-large-cased-finetuned-conll03-english"]
TF_NER_FINETUNED_MODELS = ["Narsil/small"]
# xlnet-base-cased disabled for now, since it crashes TF2
FEATURE_EXTRACT_FINETUNED_MODELS = ["sshleifer/tiny-distilbert-base-cased"]
TEXT_CLASSIF_FINETUNED_MODELS = ["sshleifer/tiny-distilbert-base-uncased-finetuned-sst-2-english"]
TEXT_GENERATION_FINETUNED_MODELS = ["sshleifer/tiny-ctrl"]
FILL_MASK_FINETUNED_MODELS = ["sshleifer/tiny-distilroberta-base"]
LARGE_FILL_MASK_FINETUNED_MODELS = ["distilroberta-base"] # @slow
SUMMARIZATION_FINETUNED_MODELS = ["sshleifer/bart-tiny-random", "patrickvonplaten/t5-tiny-random"]
TF_SUMMARIZATION_FINETUNED_MODELS = ["sshleifer/bart-tiny-random", "patrickvonplaten/t5-tiny-random"]
TRANSLATION_FINETUNED_MODELS = [
("patrickvonplaten/t5-tiny-random", "translation_en_to_de"),
("patrickvonplaten/t5-tiny-random", "translation_en_to_ro"),
]
TF_TRANSLATION_FINETUNED_MODELS = [("patrickvonplaten/t5-tiny-random", "translation_en_to_fr")]
TEXT2TEXT_FINETUNED_MODELS = ["patrickvonplaten/t5-tiny-random"]
TF_TEXT2TEXT_FINETUNED_MODELS = ["patrickvonplaten/t5-tiny-random"]
DIALOGUE_FINETUNED_MODELS = ["microsoft/DialoGPT-medium"] # @slow
expected_fill_mask_result = [
[
{"sequence": "<s>My name is John</s>", "score": 0.00782308354973793, "token": 610, "token_str": "ĠJohn"},
{"sequence": "<s>My name is Chris</s>", "score": 0.007475061342120171, "token": 1573, "token_str": "ĠChris"},
],
[
{"sequence": "<s>The largest city in France is Paris</s>", "score": 0.3185044229030609, "token": 2201},
{"sequence": "<s>The largest city in France is Lyon</s>", "score": 0.21112334728240967, "token": 12790},
],
]
expected_fill_mask_target_result = [
[
{
"sequence": "<s>My name is Patrick</s>",
"score": 0.004992353264242411,
"token": 3499,
"token_str": "ĠPatrick",
},
{
"sequence": "<s>My name is Clara</s>",
"score": 0.00019297805556561798,
"token": 13606,
"token_str": "ĠClara",
},
]
]
SUMMARIZATION_KWARGS = dict(num_beams=2, min_length=2, max_length=5)
class DefaultArgumentHandlerTestCase(unittest.TestCase):
def setUp(self) -> None:
self.handler = DefaultArgumentHandler()
def test_kwargs_x(self):
mono_data = {"X": "This is a sample input"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = {"x": ["This is a sample input", "This is a second sample input"]}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
def test_kwargs_data(self):
mono_data = {"data": "This is a sample input"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = {"data": ["This is a sample input", "This is a second sample input"]}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
def test_multi_kwargs(self):
mono_data = {"data": "This is a sample input", "X": "This is a sample input 2"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 2)
multi_data = {
"data": ["This is a sample input", "This is a second sample input"],
"test": ["This is a sample input 2", "This is a second sample input 2"],
}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 4)
def test_args(self):
mono_data = "This is a sample input"
mono_args = self.handler(mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
mono_data = ["This is a sample input"]
mono_args = self.handler(mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = ["This is a sample input", "This is a second sample input"]
multi_args = self.handler(multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
multi_data = ["This is a sample input", "This is a second sample input"]
multi_args = self.handler(*multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
class MonoColumnInputTestCase(unittest.TestCase):
def _test_mono_column_pipeline(
self,
nlp: Pipeline,
valid_inputs: List,
output_keys: Iterable[str],
invalid_inputs: List = [None],
expected_multi_result: Optional[List] = None,
expected_check_keys: Optional[List[str]] = None,
**kwargs,
):
self.assertIsNotNone(nlp)
mono_result = nlp(valid_inputs[0], **kwargs)
self.assertIsInstance(mono_result, list)
self.assertIsInstance(mono_result[0], (dict, list))
if isinstance(mono_result[0], list):
mono_result = mono_result[0]
for key in output_keys:
self.assertIn(key, mono_result[0])
multi_result = [nlp(input, **kwargs) for input in valid_inputs]
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], (dict, list))
if expected_multi_result is not None:
for result, expect in zip(multi_result, expected_multi_result):
for key in expected_check_keys or []:
self.assertEqual(
set([o[key] for o in result]),
set([o[key] for o in expect]),
)
if isinstance(multi_result[0], list):
multi_result = multi_result[0]
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
self.assertRaises(Exception, nlp, invalid_inputs)
@require_torch
def test_torch_sentiment_analysis(self):
mandatory_keys = {"label", "score"}
for model_name in TEXT_CLASSIF_FINETUNED_MODELS:
nlp = pipeline(task="sentiment-analysis", model=model_name, tokenizer=model_name)
self._test_mono_column_pipeline(nlp, VALID_INPUTS, mandatory_keys)
@require_tf
def test_tf_sentiment_analysis(self):
mandatory_keys = {"label", "score"}
for model_name in TEXT_CLASSIF_FINETUNED_MODELS:
nlp = pipeline(task="sentiment-analysis", model=model_name, tokenizer=model_name, framework="tf")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, mandatory_keys)
@require_torch
def test_torch_feature_extraction(self):
for model_name in FEATURE_EXTRACT_FINETUNED_MODELS:
nlp = pipeline(task="feature-extraction", model=model_name, tokenizer=model_name)
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {})
@require_tf
def test_tf_feature_extraction(self):
for model_name in FEATURE_EXTRACT_FINETUNED_MODELS:
nlp = pipeline(task="feature-extraction", model=model_name, tokenizer=model_name, framework="tf")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {})
@require_torch
def test_torch_fill_mask(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
invalid_inputs = [
"This is <mask> <mask>" # More than 1 mask_token in the input is not supported
"This is" # No mask_token is not supported
]
for model_name in FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(
task="fill-mask",
model=model_name,
tokenizer=model_name,
framework="pt",
top_k=2,
)
self._test_mono_column_pipeline(
nlp, valid_inputs, mandatory_keys, invalid_inputs, expected_check_keys=["sequence"]
)
@require_tf
def test_tf_fill_mask(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
invalid_inputs = [
"This is <mask> <mask>" # More than 1 mask_token in the input is not supported
"This is" # No mask_token is not supported
]
for model_name in FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(
task="fill-mask",
model=model_name,
tokenizer=model_name,
framework="tf",
top_k=2,
)
self._test_mono_column_pipeline(
nlp, valid_inputs, mandatory_keys, invalid_inputs, expected_check_keys=["sequence"]
)
@require_torch
def test_torch_fill_mask_with_targets(self):
valid_inputs = ["My name is <mask>"]
valid_targets = [[" Teven", " Patrick", " Clara"], [" Sam"]]
invalid_targets = [[], [""], ""]
for model_name in FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="pt")
for targets in valid_targets:
outputs = nlp(valid_inputs, targets=targets)
self.assertIsInstance(outputs, list)
self.assertEqual(len(outputs), len(targets))
for targets in invalid_targets:
self.assertRaises(ValueError, nlp, valid_inputs, targets=targets)
@require_tf
def test_tf_fill_mask_with_targets(self):
valid_inputs = ["My name is <mask>"]
valid_targets = [[" Teven", " Patrick", " Clara"], [" Sam"]]
invalid_targets = [[], [""], ""]
for model_name in FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="tf")
for targets in valid_targets:
outputs = nlp(valid_inputs, targets=targets)
self.assertIsInstance(outputs, list)
self.assertEqual(len(outputs), len(targets))
for targets in invalid_targets:
self.assertRaises(ValueError, nlp, valid_inputs, targets=targets)
@require_torch
@slow
def test_torch_fill_mask_results(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
valid_targets = [" Patrick", " Clara"]
for model_name in LARGE_FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(
task="fill-mask",
model=model_name,
tokenizer=model_name,
framework="pt",
top_k=2,
)
self._test_mono_column_pipeline(
nlp,
valid_inputs,
mandatory_keys,
expected_multi_result=expected_fill_mask_result,
expected_check_keys=["sequence"],
)
self._test_mono_column_pipeline(
nlp,
valid_inputs[:1],
mandatory_keys,
expected_multi_result=expected_fill_mask_target_result,
expected_check_keys=["sequence"],
targets=valid_targets,
)
@require_tf
@slow
def test_tf_fill_mask_results(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
valid_targets = [" Patrick", " Clara"]
for model_name in LARGE_FILL_MASK_FINETUNED_MODELS:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="tf", top_k=2)
self._test_mono_column_pipeline(
nlp,
valid_inputs,
mandatory_keys,
expected_multi_result=expected_fill_mask_result,
expected_check_keys=["sequence"],
)
self._test_mono_column_pipeline(
nlp,
valid_inputs[:1],
mandatory_keys,
expected_multi_result=expected_fill_mask_target_result,
expected_check_keys=["sequence"],
targets=valid_targets,
)
@require_torch
@require_tokenizers
def test_torch_summarization(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["summary_text"]
for model in SUMMARIZATION_FINETUNED_MODELS:
nlp = pipeline(task="summarization", model=model, tokenizer=model)
self._test_mono_column_pipeline(
nlp, VALID_INPUTS, mandatory_keys, invalid_inputs=invalid_inputs, **SUMMARIZATION_KWARGS
)
@require_torch
@slow
def test_integration_torch_summarization(self):
nlp = pipeline(task="summarization", device=DEFAULT_DEVICE_NUM)
cnn_article = ' (CNN)The Palestinian Authority officially became the 123rd member of the International Criminal Court on Wednesday, a step that gives the court jurisdiction over alleged crimes in Palestinian territories. The formal accession was marked with a ceremony at The Hague, in the Netherlands, where the court is based. The Palestinians signed the ICC\'s founding Rome Statute in January, when they also accepted its jurisdiction over alleged crimes committed "in the occupied Palestinian territory, including East Jerusalem, since June 13, 2014." Later that month, the ICC opened a preliminary examination into the situation in Palestinian territories, paving the way for possible war crimes investigations against Israelis. As members of the court, Palestinians may be subject to counter-charges as well. Israel and the United States, neither of which is an ICC member, opposed the Palestinians\' efforts to join the body. But Palestinian Foreign Minister Riad al-Malki, speaking at Wednesday\'s ceremony, said it was a move toward greater justice. "As Palestine formally becomes a State Party to the Rome Statute today, the world is also a step closer to ending a long era of impunity and injustice," he said, according to an ICC news release. "Indeed, today brings us closer to our shared goals of justice and peace." Judge Kuniko Ozaki, a vice president of the ICC, said acceding to the treaty was just the first step for the Palestinians. "As the Rome Statute today enters into force for the State of Palestine, Palestine acquires all the rights as well as responsibilities that come with being a State Party to the Statute. These are substantive commitments, which cannot be taken lightly," she said. Rights group Human Rights Watch welcomed the development. "Governments seeking to penalize Palestine for joining the ICC should immediately end their pressure, and countries that support universal acceptance of the court\'s treaty should speak out to welcome its membership," said Balkees Jarrah, international justice counsel for the group. "What\'s objectionable is the attempts to undermine international justice, not Palestine\'s decision to join a treaty to which over 100 countries around the world are members." In January, when the preliminary ICC examination was opened, Israeli Prime Minister Benjamin Netanyahu described it as an outrage, saying the court was overstepping its boundaries. The United States also said it "strongly" disagreed with the court\'s decision. "As we have said repeatedly, we do not believe that Palestine is a state and therefore we do not believe that it is eligible to join the ICC," the State Department said in a statement. It urged the warring sides to resolve their differences through direct negotiations. "We will continue to oppose actions against Israel at the ICC as counterproductive to the cause of peace," it said. But the ICC begs to differ with the definition of a state for its purposes and refers to the territories as "Palestine." While a preliminary examination is not a formal investigation, it allows the court to review evidence and determine whether to investigate suspects on both sides. Prosecutor Fatou Bensouda said her office would "conduct its analysis in full independence and impartiality." The war between Israel and Hamas militants in Gaza last summer left more than 2,000 people dead. The inquiry will include alleged war crimes committed since June. The International Criminal Court was set up in 2002 to prosecute genocide, crimes against humanity and war crimes. CNN\'s Vasco Cotovio, Kareem Khadder and Faith Karimi contributed to this report.'
expected_cnn_summary = " The Palestinian Authority becomes the 123rd member of the International Criminal Court . The move gives the court jurisdiction over alleged crimes in Palestinian territories . Israel and the United States opposed the Palestinians' efforts to join the court . Rights group Human Rights Watch welcomes the move, says governments seeking to penalize Palestine should end pressure ."
result = nlp(cnn_article)
self.assertEqual(result[0]["summary_text"], expected_cnn_summary)
@require_tf
@slow
def test_tf_summarization(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["summary_text"]
for model_name in TF_SUMMARIZATION_FINETUNED_MODELS:
nlp = pipeline(
task="summarization",
model=model_name,
tokenizer=model_name,
framework="tf",
)
self._test_mono_column_pipeline(
nlp, VALID_INPUTS, mandatory_keys, invalid_inputs=invalid_inputs, **SUMMARIZATION_KWARGS
)
@require_torch
@require_tokenizers
@slow
def test_torch_translation(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["translation_text"]
for model_name, task in TRANSLATION_FINETUNED_MODELS:
nlp = pipeline(task=task, model=model_name, tokenizer=model_name)
self._test_mono_column_pipeline(
nlp,
VALID_INPUTS,
mandatory_keys,
invalid_inputs,
)
@require_torch
@slow
def test_default_translations(self):
# We don't provide a default for this pair
with self.assertRaises(ValueError):
pipeline(task="translation_cn_to_ar")
# but we do for this one
pipeline(task="translation_en_to_de")
@require_torch
def test_translation_on_odd_language(self):
model = TRANSLATION_FINETUNED_MODELS[0][0]
pipeline(task="translation_cn_to_ar", model=model)
@require_torch
def test_translation_default_language_selection(self):
model = TRANSLATION_FINETUNED_MODELS[0][0]
with pytest.warns(UserWarning, match=r".*translation_en_to_de.*"):
nlp = pipeline(task="translation", model=model)
self.assertEqual(nlp.task, "translation_en_to_de")
@require_torch
def test_translation_with_no_language_no_model_fails(self):
with self.assertRaises(ValueError):
pipeline(task="translation")
@require_tf
@slow
def test_tf_translation(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["translation_text"]
for model, task in TF_TRANSLATION_FINETUNED_MODELS:
nlp = pipeline(task=task, model=model, tokenizer=model, framework="tf")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, mandatory_keys, invalid_inputs=invalid_inputs)
@require_torch
@require_tokenizers
def test_torch_text2text(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["generated_text"]
for model_name in TEXT2TEXT_FINETUNED_MODELS:
nlp = pipeline(task="text2text-generation", model=model_name, tokenizer=model_name)
self._test_mono_column_pipeline(
nlp,
VALID_INPUTS,
mandatory_keys,
invalid_inputs,
)
@require_tf
@slow
def test_tf_text2text(self):
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["generated_text"]
for model in TEXT2TEXT_FINETUNED_MODELS:
nlp = pipeline(task="text2text-generation", model=model, tokenizer=model, framework="tf")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, mandatory_keys, invalid_inputs=invalid_inputs)
@require_torch
def test_torch_text_generation(self):
for model_name in TEXT_GENERATION_FINETUNED_MODELS:
nlp = pipeline(task="text-generation", model=model_name, tokenizer=model_name, framework="pt")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {})
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {}, prefix="This is ")
@require_tf
def test_tf_text_generation(self):
for model_name in TEXT_GENERATION_FINETUNED_MODELS:
nlp = pipeline(task="text-generation", model=model_name, tokenizer=model_name, framework="tf")
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {})
self._test_mono_column_pipeline(nlp, VALID_INPUTS, {}, prefix="This is ")
@require_torch
@slow
def test_integration_torch_conversation(self):
# When
nlp = pipeline(task="conversational", device=DEFAULT_DEVICE_NUM)
conversation_1 = Conversation("Going to the movies tonight - any suggestions?")
conversation_2 = Conversation("What's the last book you have read?")
# Then
self.assertEqual(len(conversation_1.past_user_inputs), 0)
self.assertEqual(len(conversation_2.past_user_inputs), 0)
# When
result = nlp([conversation_1, conversation_2], do_sample=False, max_length=1000)
# Then
self.assertEqual(result, [conversation_1, conversation_2])
self.assertEqual(len(result[0].past_user_inputs), 1)
self.assertEqual(len(result[1].past_user_inputs), 1)
self.assertEqual(len(result[0].generated_responses), 1)
self.assertEqual(len(result[1].generated_responses), 1)
self.assertEqual(result[0].past_user_inputs[0], "Going to the movies tonight - any suggestions?")
self.assertEqual(result[0].generated_responses[0], "The Big Lebowski")
self.assertEqual(result[1].past_user_inputs[0], "What's the last book you have read?")
self.assertEqual(result[1].generated_responses[0], "The Last Question")
# When
conversation_2.add_user_input("Why do you recommend it?")
result = nlp(conversation_2, do_sample=False, max_length=1000)
# Then
self.assertEqual(result, conversation_2)
self.assertEqual(len(result.past_user_inputs), 2)
self.assertEqual(len(result.generated_responses), 2)
self.assertEqual(result.past_user_inputs[1], "Why do you recommend it?")
self.assertEqual(result.generated_responses[1], "It's a good book.")
@require_torch
@slow
def test_integration_torch_conversation_truncated_history(self):
# When
nlp = pipeline(task="conversational", min_length_for_response=24, device=DEFAULT_DEVICE_NUM)
conversation_1 = Conversation("Going to the movies tonight - any suggestions?")
# Then
self.assertEqual(len(conversation_1.past_user_inputs), 0)
# When
result = nlp(conversation_1, do_sample=False, max_length=36)
# Then
self.assertEqual(result, conversation_1)
self.assertEqual(len(result.past_user_inputs), 1)
self.assertEqual(len(result.generated_responses), 1)
self.assertEqual(result.past_user_inputs[0], "Going to the movies tonight - any suggestions?")
self.assertEqual(result.generated_responses[0], "The Big Lebowski")
# When
conversation_1.add_user_input("Is it an action movie?")
result = nlp(conversation_1, do_sample=False, max_length=36)
# Then
self.assertEqual(result, conversation_1)
self.assertEqual(len(result.past_user_inputs), 2)
self.assertEqual(len(result.generated_responses), 2)
self.assertEqual(result.past_user_inputs[1], "Is it an action movie?")
self.assertEqual(result.generated_responses[1], "It's a comedy.")
QA_FINETUNED_MODELS = ["sshleifer/tiny-distilbert-base-cased-distilled-squad"]
class ZeroShotClassificationPipelineTests(unittest.TestCase):
def _test_scores_sum_to_one(self, result):
sum = 0.0
for score in result["scores"]:
sum += score
self.assertAlmostEqual(sum, 1.0)
def _test_zero_shot_pipeline(self, nlp):
output_keys = {"sequence", "labels", "scores"}
valid_mono_inputs = [
{"sequences": "Who are you voting for in 2020?", "candidate_labels": "politics"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ["politics"]},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": "politics, public health"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ["politics", "public health"]},
{"sequences": ["Who are you voting for in 2020?"], "candidate_labels": "politics"},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "This text is about {}",
},
]
valid_multi_input = {
"sequences": ["Who are you voting for in 2020?", "What is the capital of Spain?"],
"candidate_labels": "politics",
}
invalid_inputs = [
{"sequences": None, "candidate_labels": "politics"},
{"sequences": "", "candidate_labels": "politics"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": None},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ""},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": None,
},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "",
},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "Template without formatting syntax.",
},
]
self.assertIsNotNone(nlp)
for mono_input in valid_mono_inputs:
mono_result = nlp(**mono_input)
self.assertIsInstance(mono_result, dict)
if len(mono_result["labels"]) > 1:
self._test_scores_sum_to_one(mono_result)
for key in output_keys:
self.assertIn(key, mono_result)
multi_result = nlp(**valid_multi_input)
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], dict)
self.assertEqual(len(multi_result), len(valid_multi_input["sequences"]))
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
if len(result["labels"]) > 1:
self._test_scores_sum_to_one(result)
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, **bad_input)
def _test_zero_shot_pipeline_outputs(self, nlp):
inputs = [
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": ["politics", "public health", "science"],
},
{
"sequences": "The dominant sequence transduction models are based on complex recurrent or convolutional neural networks in an encoder-decoder configuration. The best performing models also connect the encoder and decoder through an attention mechanism. We propose a new simple network architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two machine translation tasks show these models to be superior in quality while being more parallelizable and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task, improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training costs of the best models from the literature. We show that the Transformer generalizes well to other tasks by applying it successfully to English constituency parsing both with large and limited training data.",
"candidate_labels": ["machine learning", "statistics", "translation", "vision"],
"multi_class": True,
},
]
expected_outputs = [
{
"sequence": "Who are you voting for in 2020?",
"labels": ["politics", "public health", "science"],
"scores": [0.975, 0.015, 0.008],
},
{
"sequence": "The dominant sequence transduction models are based on complex recurrent or convolutional neural networks in an encoder-decoder configuration. The best performing models also connect the encoder and decoder through an attention mechanism. We propose a new simple network architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two machine translation tasks show these models to be superior in quality while being more parallelizable and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task, improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training costs of the best models from the literature. We show that the Transformer generalizes well to other tasks by applying it successfully to English constituency parsing both with large and limited training data.",
"labels": ["translation", "machine learning", "vision", "statistics"],
"scores": [0.817, 0.712, 0.018, 0.017],
},
]
for input, expected_output in zip(inputs, expected_outputs):
output = nlp(**input)
for key in output:
if key == "scores":
for output_score, expected_score in zip(output[key], expected_output[key]):
self.assertAlmostEqual(output_score, expected_score, places=2)
else:
self.assertEqual(output[key], expected_output[key])
@require_torch
def test_torch_zero_shot_classification(self):
for model_name in TEXT_CLASSIF_FINETUNED_MODELS:
nlp = pipeline(task="zero-shot-classification", model=model_name, tokenizer=model_name)
self._test_zero_shot_pipeline(nlp)
@require_tf
def test_tf_zero_shot_classification(self):
for model_name in TEXT_CLASSIF_FINETUNED_MODELS:
nlp = pipeline(task="zero-shot-classification", model=model_name, tokenizer=model_name, framework="tf")
self._test_zero_shot_pipeline(nlp)
@require_torch
@slow
def test_torch_zero_shot_outputs(self):
nlp = pipeline(task="zero-shot-classification", model="roberta-large-mnli")
self._test_zero_shot_pipeline_outputs(nlp)
@require_tf
@slow
def test_tf_zero_shot_outputs(self):
nlp = pipeline(task="zero-shot-classification", model="roberta-large-mnli", framework="tf")
self._test_zero_shot_pipeline_outputs(nlp)
class DialoguePipelineTests(unittest.TestCase):
def _test_conversation_pipeline(self, nlp):
valid_inputs = [Conversation("Hi there!"), [Conversation("Hi there!"), Conversation("How are you?")]]
invalid_inputs = ["Hi there!", Conversation()]
self.assertIsNotNone(nlp)
mono_result = nlp(valid_inputs[0])
self.assertIsInstance(mono_result, Conversation)
multi_result = nlp(valid_inputs[1])
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], Conversation)
# Inactive conversations passed to the pipeline raise a ValueError
self.assertRaises(ValueError, nlp, valid_inputs[1])
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, bad_input)
self.assertRaises(Exception, nlp, invalid_inputs)
@require_torch
@slow
def test_torch_conversation(self):
for model_name in DIALOGUE_FINETUNED_MODELS:
nlp = pipeline(task="conversational", model=model_name, tokenizer=model_name)
self._test_conversation_pipeline(nlp)
@require_tf
@slow
def test_tf_conversation(self):
for model_name in DIALOGUE_FINETUNED_MODELS:
nlp = pipeline(task="conversational", model=model_name, tokenizer=model_name, framework="tf")
self._test_conversation_pipeline(nlp)
class QAPipelineTests(unittest.TestCase):
def _test_qa_pipeline(self, nlp):
output_keys = {"score", "answer", "start", "end"}
valid_inputs = [
{"question": "Where was HuggingFace founded ?", "context": "HuggingFace was founded in Paris."},
{
"question": "In what field is HuggingFace working ?",
"context": "HuggingFace is a startup based in New-York founded in Paris which is trying to solve NLP.",
},
]
invalid_inputs = [
{"question": "", "context": "This is a test to try empty question edge case"},
{"question": None, "context": "This is a test to try empty question edge case"},
{"question": "What is does with empty context ?", "context": ""},
{"question": "What is does with empty context ?", "context": None},
]
self.assertIsNotNone(nlp)
mono_result = nlp(valid_inputs[0])
self.assertIsInstance(mono_result, dict)
for key in output_keys:
self.assertIn(key, mono_result)
multi_result = nlp(valid_inputs)
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], dict)
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, bad_input)
self.assertRaises(Exception, nlp, invalid_inputs)
@require_torch
def test_torch_question_answering(self):
for model_name in QA_FINETUNED_MODELS:
nlp = pipeline(task="question-answering", model=model_name, tokenizer=model_name)
self._test_qa_pipeline(nlp)
@require_tf
def test_tf_question_answering(self):
for model_name in QA_FINETUNED_MODELS:
nlp = pipeline(task="question-answering", model=model_name, tokenizer=model_name, framework="tf")
self._test_qa_pipeline(nlp)
class NerPipelineTests(unittest.TestCase):
def _test_ner_pipeline(
self,
nlp: Pipeline,
output_keys: Iterable[str],
):
ungrouped_ner_inputs = [
[
{"entity": "B-PER", "index": 1, "score": 0.9994944930076599, "word": "Cons"},
{"entity": "B-PER", "index": 2, "score": 0.8025449514389038, "word": "##uelo"},
{"entity": "I-PER", "index": 3, "score": 0.9993102550506592, "word": "Ara"},
{"entity": "I-PER", "index": 4, "score": 0.9993743896484375, "word": "##új"},
{"entity": "I-PER", "index": 5, "score": 0.9992871880531311, "word": "##o"},
{"entity": "I-PER", "index": 6, "score": 0.9993029236793518, "word": "No"},
{"entity": "I-PER", "index": 7, "score": 0.9981776475906372, "word": "##guera"},
{"entity": "B-PER", "index": 15, "score": 0.9998136162757874, "word": "Andrés"},
{"entity": "I-PER", "index": 16, "score": 0.999740719795227, "word": "Pas"},
{"entity": "I-PER", "index": 17, "score": 0.9997414350509644, "word": "##tran"},
{"entity": "I-PER", "index": 18, "score": 0.9996136426925659, "word": "##a"},
{"entity": "B-ORG", "index": 28, "score": 0.9989739060401917, "word": "Far"},
{"entity": "I-ORG", "index": 29, "score": 0.7188422083854675, "word": "##c"},
],
[
{"entity": "I-PER", "index": 1, "score": 0.9968166351318359, "word": "En"},
{"entity": "I-PER", "index": 2, "score": 0.9957635998725891, "word": "##zo"},
{"entity": "I-ORG", "index": 7, "score": 0.9986497163772583, "word": "UN"},
],
]
expected_grouped_ner_results = [
[
{"entity_group": "B-PER", "score": 0.9710702640669686, "word": "Consuelo Araújo Noguera"},
{"entity_group": "B-PER", "score": 0.9997273534536362, "word": "Andrés Pastrana"},
{"entity_group": "B-ORG", "score": 0.8589080572128296, "word": "Farc"},
],
[
{"entity_group": "I-PER", "score": 0.9962901175022125, "word": "Enzo"},
{"entity_group": "I-ORG", "score": 0.9986497163772583, "word": "UN"},
],
]
self.assertIsNotNone(nlp)
mono_result = nlp(VALID_INPUTS[0])
self.assertIsInstance(mono_result, list)
self.assertIsInstance(mono_result[0], (dict, list))
if isinstance(mono_result[0], list):
mono_result = mono_result[0]
for key in output_keys:
self.assertIn(key, mono_result[0])
multi_result = [nlp(input) for input in VALID_INPUTS]
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], (dict, list))
if isinstance(multi_result[0], list):
multi_result = multi_result[0]
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
for ungrouped_input, grouped_result in zip(ungrouped_ner_inputs, expected_grouped_ner_results):
self.assertEqual(nlp.group_entities(ungrouped_input), grouped_result)
@require_torch
def test_torch_ner(self):
mandatory_keys = {"entity", "word", "score"}
for model_name in NER_FINETUNED_MODELS:
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name)
self._test_ner_pipeline(nlp, mandatory_keys)
@require_torch
def test_ner_grouped(self):
mandatory_keys = {"entity_group", "word", "score"}
for model_name in NER_FINETUNED_MODELS:
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name, grouped_entities=True)
self._test_ner_pipeline(nlp, mandatory_keys)
@require_tf
def test_tf_ner(self):
mandatory_keys = {"entity", "word", "score"}
for model_name in NER_FINETUNED_MODELS:
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name, framework="tf")
self._test_ner_pipeline(nlp, mandatory_keys)
@require_tf
def test_tf_ner_grouped(self):
mandatory_keys = {"entity_group", "word", "score"}
for model_name in NER_FINETUNED_MODELS:
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name, framework="tf", grouped_entities=True)
self._test_ner_pipeline(nlp, mandatory_keys)
@require_tf
def test_tf_only_ner(self):
mandatory_keys = {"entity", "word", "score"}
for model_name in TF_NER_FINETUNED_MODELS:
# We don't specificy framework='tf' but it gets detected automatically
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name)
self._test_ner_pipeline(nlp, mandatory_keys)
class PipelineCommonTests(unittest.TestCase):
pipelines = SUPPORTED_TASKS.keys()
@require_tf
@slow
def test_tf_defaults(self):
# Test that pipelines can be correctly loaded without any argument
for task in self.pipelines:
with self.subTest(msg="Testing TF defaults with TF and {}".format(task)):
pipeline(task, framework="tf")
pipeline(task)
@require_torch
@slow
def test_pt_defaults(self):
# Test that pipelines can be correctly loaded without any argument
for task in self.pipelines:
with self.subTest(msg="Testing Torch defaults with PyTorch and {}".format(task)):
pipeline(task, framework="pt")
pipeline(task)

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import unittest
from typing import List, Optional
from transformers import is_tf_available, is_torch_available, pipeline
from transformers.pipelines import DefaultArgumentHandler, Pipeline
from transformers.testing_utils import _run_slow_tests, is_pipeline_test, require_tf, require_torch, slow
VALID_INPUTS = ["A simple string", ["list of strings"]]
@is_pipeline_test
class CustomInputPipelineCommonMixin:
pipeline_task = None
pipeline_loading_kwargs = {}
small_models = None # Models tested without the @slow decorator
large_models = None # Models tested with the @slow decorator
def setUp(self) -> None:
if not is_tf_available() and not is_torch_available():
return # Currently no JAX pipelines
# Download needed checkpoints
models = self.small_models
if _run_slow_tests:
models = models + self.large_models
for model_name in models:
if is_torch_available():
pipeline(
self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="pt",
**self.pipeline_loading_kwargs,
)
if is_tf_available():
pipeline(
self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="tf",
**self.pipeline_loading_kwargs,
)
@require_torch
@slow
def test_pt_defaults(self):
pipeline(self.pipeline_task, framework="pt")
@require_tf
@slow
def test_tf_defaults(self):
pipeline(self.pipeline_task, framework="tf")
@require_torch
def test_torch_small(self):
for model_name in self.small_models:
nlp = pipeline(task=self.pipeline_task, model=model_name, tokenizer=model_name, framework="pt")
self._test_pipeline(nlp)
@require_tf
def test_tf_small(self):
for model_name in self.small_models:
nlp = pipeline(task=self.pipeline_task, model=model_name, tokenizer=model_name, framework="tf")
self._test_pipeline(nlp)
@require_torch
@slow
def test_torch_large(self):
for model_name in self.large_models:
nlp = pipeline(task=self.pipeline_task, model=model_name, tokenizer=model_name, framework="pt")
self._test_pipeline(nlp)
@require_tf
@slow
def test_tf_large(self):
for model_name in self.large_models:
nlp = pipeline(task=self.pipeline_task, model=model_name, tokenizer=model_name, framework="tf")
self._test_pipeline(nlp)
def _test_pipeline(self, nlp: Pipeline):
raise NotImplementedError
@is_pipeline_test
class MonoInputPipelineCommonMixin:
pipeline_task = None
pipeline_loading_kwargs = {} # Additional kwargs to load the pipeline with
pipeline_running_kwargs = {} # Additional kwargs to run the pipeline with
small_models = [] # Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator
mandatory_keys = {} # Keys which should be in the output
valid_inputs = VALID_INPUTS # inputs which are valid
invalid_inputs = [None] # inputs which are not allowed
expected_multi_result: Optional[List] = None
expected_check_keys: Optional[List[str]] = None
def setUp(self) -> None:
if not is_tf_available() and not is_torch_available():
return # Currently no JAX pipelines
for model_name in self.small_models:
pipeline(self.pipeline_task, model=model_name, tokenizer=model_name, **self.pipeline_loading_kwargs)
for model_name in self.large_models:
pipeline(self.pipeline_task, model=model_name, tokenizer=model_name, **self.pipeline_loading_kwargs)
@require_torch
@slow
def test_pt_defaults_loads(self):
pipeline(self.pipeline_task, framework="pt", **self.pipeline_loading_kwargs)
@require_tf
@slow
def test_tf_defaults_loads(self):
pipeline(self.pipeline_task, framework="tf", **self.pipeline_loading_kwargs)
@require_torch
def test_torch_small(self):
for model_name in self.small_models:
nlp = pipeline(
task=self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="pt",
**self.pipeline_loading_kwargs,
)
self._test_pipeline(nlp)
@require_tf
def test_tf_small(self):
for model_name in self.small_models:
nlp = pipeline(
task=self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="tf",
**self.pipeline_loading_kwargs,
)
self._test_pipeline(nlp)
@require_torch
@slow
def test_torch_large(self):
for model_name in self.large_models:
nlp = pipeline(
task=self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="pt",
**self.pipeline_loading_kwargs,
)
self._test_pipeline(nlp)
@require_tf
@slow
def test_tf_large(self):
for model_name in self.large_models:
nlp = pipeline(
task=self.pipeline_task,
model=model_name,
tokenizer=model_name,
framework="tf",
**self.pipeline_loading_kwargs,
)
self._test_pipeline(nlp)
def _test_pipeline(self, nlp: Pipeline):
self.assertIsNotNone(nlp)
mono_result = nlp(self.valid_inputs[0], **self.pipeline_running_kwargs)
self.assertIsInstance(mono_result, list)
self.assertIsInstance(mono_result[0], (dict, list))
if isinstance(mono_result[0], list):
mono_result = mono_result[0]
for key in self.mandatory_keys:
self.assertIn(key, mono_result[0])
multi_result = [nlp(input, **self.pipeline_running_kwargs) for input in self.valid_inputs]
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], (dict, list))
if self.expected_multi_result is not None:
for result, expect in zip(multi_result, self.expected_multi_result):
for key in self.expected_check_keys or []:
self.assertEqual(
set([o[key] for o in result]),
set([o[key] for o in expect]),
)
if isinstance(multi_result[0], list):
multi_result = multi_result[0]
for result in multi_result:
for key in self.mandatory_keys:
self.assertIn(key, result)
self.assertRaises(Exception, nlp, self.invalid_inputs)
@is_pipeline_test
class DefaultArgumentHandlerTestCase(unittest.TestCase):
def setUp(self) -> None:
self.handler = DefaultArgumentHandler()
def test_kwargs_x(self):
mono_data = {"X": "This is a sample input"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = {"x": ["This is a sample input", "This is a second sample input"]}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
def test_kwargs_data(self):
mono_data = {"data": "This is a sample input"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = {"data": ["This is a sample input", "This is a second sample input"]}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
def test_multi_kwargs(self):
mono_data = {"data": "This is a sample input", "X": "This is a sample input 2"}
mono_args = self.handler(**mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 2)
multi_data = {
"data": ["This is a sample input", "This is a second sample input"],
"test": ["This is a sample input 2", "This is a second sample input 2"],
}
multi_args = self.handler(**multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 4)
def test_args(self):
mono_data = "This is a sample input"
mono_args = self.handler(mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
mono_data = ["This is a sample input"]
mono_args = self.handler(mono_data)
self.assertTrue(isinstance(mono_args, list))
self.assertEqual(len(mono_args), 1)
multi_data = ["This is a sample input", "This is a second sample input"]
multi_args = self.handler(multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)
multi_data = ["This is a sample input", "This is a second sample input"]
multi_args = self.handler(*multi_data)
self.assertTrue(isinstance(multi_args, list))
self.assertEqual(len(multi_args), 2)

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import unittest
from transformers import Conversation, pipeline
from transformers.testing_utils import require_torch, slow, torch_device
from .test_pipelines_common import MonoInputPipelineCommonMixin
DEFAULT_DEVICE_NUM = -1 if torch_device == "cpu" else 0
class TextGenerationPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "conversational"
small_models = [] # Models tested without the @slow decorator
large_models = ["microsoft/DialoGPT-medium"] # Models tested with the @slow decorator
valid_inputs = [Conversation("Hi there!"), [Conversation("Hi there!"), Conversation("How are you?")]]
invalid_inputs = ["Hi there!", Conversation()]
def _test_pipeline(
self, nlp
): # e overide the default test method to check that the output is a `Conversation` object
self.assertIsNotNone(nlp)
mono_result = nlp(self.valid_inputs[0])
self.assertIsInstance(mono_result, Conversation)
multi_result = nlp(self.valid_inputs[1])
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], Conversation)
# Inactive conversations passed to the pipeline raise a ValueError
self.assertRaises(ValueError, nlp, self.valid_inputs[1])
for bad_input in self.invalid_inputs:
self.assertRaises(Exception, nlp, bad_input)
self.assertRaises(Exception, nlp, self.invalid_inputs)
@require_torch
@slow
def test_integration_torch_conversation(self):
# When
nlp = pipeline(task="conversational", device=DEFAULT_DEVICE_NUM)
conversation_1 = Conversation("Going to the movies tonight - any suggestions?")
conversation_2 = Conversation("What's the last book you have read?")
# Then
self.assertEqual(len(conversation_1.past_user_inputs), 0)
self.assertEqual(len(conversation_2.past_user_inputs), 0)
# When
result = nlp([conversation_1, conversation_2], do_sample=False, max_length=1000)
# Then
self.assertEqual(result, [conversation_1, conversation_2])
self.assertEqual(len(result[0].past_user_inputs), 1)
self.assertEqual(len(result[1].past_user_inputs), 1)
self.assertEqual(len(result[0].generated_responses), 1)
self.assertEqual(len(result[1].generated_responses), 1)
self.assertEqual(result[0].past_user_inputs[0], "Going to the movies tonight - any suggestions?")
self.assertEqual(result[0].generated_responses[0], "The Big Lebowski")
self.assertEqual(result[1].past_user_inputs[0], "What's the last book you have read?")
self.assertEqual(result[1].generated_responses[0], "The Last Question")
# When
conversation_2.add_user_input("Why do you recommend it?")
result = nlp(conversation_2, do_sample=False, max_length=1000)
# Then
self.assertEqual(result, conversation_2)
self.assertEqual(len(result.past_user_inputs), 2)
self.assertEqual(len(result.generated_responses), 2)
self.assertEqual(result.past_user_inputs[1], "Why do you recommend it?")
self.assertEqual(result.generated_responses[1], "It's a good book.")
@require_torch
@slow
def test_integration_torch_conversation_truncated_history(self):
# When
nlp = pipeline(task="conversational", min_length_for_response=24, device=DEFAULT_DEVICE_NUM)
conversation_1 = Conversation("Going to the movies tonight - any suggestions?")
# Then
self.assertEqual(len(conversation_1.past_user_inputs), 0)
# When
result = nlp(conversation_1, do_sample=False, max_length=36)
# Then
self.assertEqual(result, conversation_1)
self.assertEqual(len(result.past_user_inputs), 1)
self.assertEqual(len(result.generated_responses), 1)
self.assertEqual(result.past_user_inputs[0], "Going to the movies tonight - any suggestions?")
self.assertEqual(result.generated_responses[0], "The Big Lebowski")
# When
conversation_1.add_user_input("Is it an action movie?")
result = nlp(conversation_1, do_sample=False, max_length=36)
# Then
self.assertEqual(result, conversation_1)
self.assertEqual(len(result.past_user_inputs), 2)
self.assertEqual(len(result.generated_responses), 2)
self.assertEqual(result.past_user_inputs[1], "Is it an action movie?")
self.assertEqual(result.generated_responses[1], "It's a comedy.")

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import unittest
from transformers.pipelines import Conversation, Pipeline
from .test_pipelines_common import CustomInputPipelineCommonMixin
class DialoguePipelineTests(CustomInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "conversational"
small_models = [] # Default model - Models tested without the @slow decorator
large_models = ["microsoft/DialoGPT-medium"] # Models tested with the @slow decorator
def _test_pipeline(self, nlp: Pipeline):
valid_inputs = [Conversation("Hi there!"), [Conversation("Hi there!"), Conversation("How are you?")]]
invalid_inputs = ["Hi there!", Conversation()]
self.assertIsNotNone(nlp)
mono_result = nlp(valid_inputs[0])
self.assertIsInstance(mono_result, Conversation)
multi_result = nlp(valid_inputs[1])
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], Conversation)
# Inactive conversations passed to the pipeline raise a ValueError
self.assertRaises(ValueError, nlp, valid_inputs[1])
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, bad_input)
self.assertRaises(Exception, nlp, invalid_inputs)

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import unittest
from .test_pipelines_common import MonoInputPipelineCommonMixin
class FeatureExtractionPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "feature-extraction"
small_models = [
"sshleifer/tiny-distilbert-base-cased"
] # Default model - Models tested without the @slow decorator
large_models = [None] # Models tested with the @slow decorator
mandatory_keys = {} # Keys which should be in the output

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import unittest
from transformers import pipeline
from transformers.testing_utils import require_tf, require_torch, slow
from .test_pipelines_common import MonoInputPipelineCommonMixin
EXPECTED_FILL_MASK_RESULT = [
[
{"sequence": "<s>My name is John</s>", "score": 0.00782308354973793, "token": 610, "token_str": "ĠJohn"},
{"sequence": "<s>My name is Chris</s>", "score": 0.007475061342120171, "token": 1573, "token_str": "ĠChris"},
],
[
{"sequence": "<s>The largest city in France is Paris</s>", "score": 0.3185044229030609, "token": 2201},
{"sequence": "<s>The largest city in France is Lyon</s>", "score": 0.21112334728240967, "token": 12790},
],
]
EXPECTED_FILL_MASK_TARGET_RESULT = [
[
{
"sequence": "<s>My name is Patrick</s>",
"score": 0.004992353264242411,
"token": 3499,
"token_str": "ĠPatrick",
},
{
"sequence": "<s>My name is Clara</s>",
"score": 0.00019297805556561798,
"token": 13606,
"token_str": "ĠClara",
},
]
]
class FillMaskPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "fill-mask"
pipeline_loading_kwargs = {"topk": 2}
small_models = ["sshleifer/tiny-distilroberta-base"] # Models tested without the @slow decorator
large_models = ["distilroberta-base"] # Models tested with the @slow decorator
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
invalid_inputs = [
"This is <mask> <mask>" # More than 1 mask_token in the input is not supported
"This is" # No mask_token is not supported
]
expected_check_keys = ["sequence"]
@require_torch
def test_torch_fill_mask_with_targets(self):
valid_inputs = ["My name is <mask>"]
valid_targets = [[" Teven", " Patrick", " Clara"], [" Sam"]]
invalid_targets = [[], [""], ""]
for model_name in self.small_models:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="pt")
for targets in valid_targets:
outputs = nlp(valid_inputs, targets=targets)
self.assertIsInstance(outputs, list)
self.assertEqual(len(outputs), len(targets))
for targets in invalid_targets:
self.assertRaises(ValueError, nlp, valid_inputs, targets=targets)
@require_tf
def test_tf_fill_mask_with_targets(self):
valid_inputs = ["My name is <mask>"]
valid_targets = [[" Teven", " Patrick", " Clara"], [" Sam"]]
invalid_targets = [[], [""], ""]
for model_name in self.small_models:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="tf")
for targets in valid_targets:
outputs = nlp(valid_inputs, targets=targets)
self.assertIsInstance(outputs, list)
self.assertEqual(len(outputs), len(targets))
for targets in invalid_targets:
self.assertRaises(ValueError, nlp, valid_inputs, targets=targets)
@require_torch
@slow
def test_torch_fill_mask_results(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
valid_targets = [" Patrick", " Clara"]
for model_name in self.large_models:
nlp = pipeline(
task="fill-mask",
model=model_name,
tokenizer=model_name,
framework="pt",
topk=2,
)
self._test_mono_column_pipeline(
nlp,
valid_inputs,
mandatory_keys,
expected_multi_result=EXPECTED_FILL_MASK_RESULT,
expected_check_keys=["sequence"],
)
self._test_mono_column_pipeline(
nlp,
valid_inputs[:1],
mandatory_keys,
expected_multi_result=EXPECTED_FILL_MASK_TARGET_RESULT,
expected_check_keys=["sequence"],
targets=valid_targets,
)
@require_tf
@slow
def test_tf_fill_mask_results(self):
mandatory_keys = {"sequence", "score", "token"}
valid_inputs = [
"My name is <mask>",
"The largest city in France is <mask>",
]
valid_targets = [" Patrick", " Clara"]
for model_name in self.large_models:
nlp = pipeline(task="fill-mask", model=model_name, tokenizer=model_name, framework="tf", topk=2)
self._test_mono_column_pipeline(
nlp,
valid_inputs,
mandatory_keys,
expected_multi_result=EXPECTED_FILL_MASK_RESULT,
expected_check_keys=["sequence"],
)
self._test_mono_column_pipeline(
nlp,
valid_inputs[:1],
mandatory_keys,
expected_multi_result=EXPECTED_FILL_MASK_TARGET_RESULT,
expected_check_keys=["sequence"],
targets=valid_targets,
)

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import unittest
from transformers import pipeline
from transformers.pipelines import Pipeline
from transformers.testing_utils import require_tf
from .test_pipelines_common import CustomInputPipelineCommonMixin
VALID_INPUTS = ["A simple string", ["list of strings"]]
class NerPipelineTests(CustomInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "ner"
small_models = [
"sshleifer/tiny-dbmdz-bert-large-cased-finetuned-conll03-english"
] # Default model - Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator
def _test_pipeline(self, nlp: Pipeline):
output_keys = {"entity", "word", "score"}
ungrouped_ner_inputs = [
[
{"entity": "B-PER", "index": 1, "score": 0.9994944930076599, "word": "Cons"},
{"entity": "B-PER", "index": 2, "score": 0.8025449514389038, "word": "##uelo"},
{"entity": "I-PER", "index": 3, "score": 0.9993102550506592, "word": "Ara"},
{"entity": "I-PER", "index": 4, "score": 0.9993743896484375, "word": "##új"},
{"entity": "I-PER", "index": 5, "score": 0.9992871880531311, "word": "##o"},
{"entity": "I-PER", "index": 6, "score": 0.9993029236793518, "word": "No"},
{"entity": "I-PER", "index": 7, "score": 0.9981776475906372, "word": "##guera"},
{"entity": "B-PER", "index": 15, "score": 0.9998136162757874, "word": "Andrés"},
{"entity": "I-PER", "index": 16, "score": 0.999740719795227, "word": "Pas"},
{"entity": "I-PER", "index": 17, "score": 0.9997414350509644, "word": "##tran"},
{"entity": "I-PER", "index": 18, "score": 0.9996136426925659, "word": "##a"},
{"entity": "B-ORG", "index": 28, "score": 0.9989739060401917, "word": "Far"},
{"entity": "I-ORG", "index": 29, "score": 0.7188422083854675, "word": "##c"},
],
[
{"entity": "I-PER", "index": 1, "score": 0.9968166351318359, "word": "En"},
{"entity": "I-PER", "index": 2, "score": 0.9957635998725891, "word": "##zo"},
{"entity": "I-ORG", "index": 7, "score": 0.9986497163772583, "word": "UN"},
],
]
expected_grouped_ner_results = [
[
{"entity_group": "B-PER", "score": 0.9710702640669686, "word": "Consuelo Araújo Noguera"},
{"entity_group": "B-PER", "score": 0.9997273534536362, "word": "Andrés Pastrana"},
{"entity_group": "B-ORG", "score": 0.8589080572128296, "word": "Farc"},
],
[
{"entity_group": "I-PER", "score": 0.9962901175022125, "word": "Enzo"},
{"entity_group": "I-ORG", "score": 0.9986497163772583, "word": "UN"},
],
]
self.assertIsNotNone(nlp)
mono_result = nlp(VALID_INPUTS[0])
self.assertIsInstance(mono_result, list)
self.assertIsInstance(mono_result[0], (dict, list))
if isinstance(mono_result[0], list):
mono_result = mono_result[0]
for key in output_keys:
self.assertIn(key, mono_result[0])
multi_result = [nlp(input) for input in VALID_INPUTS]
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], (dict, list))
if isinstance(multi_result[0], list):
multi_result = multi_result[0]
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
for ungrouped_input, grouped_result in zip(ungrouped_ner_inputs, expected_grouped_ner_results):
self.assertEqual(nlp.group_entities(ungrouped_input), grouped_result)
@require_tf
def test_tf_only(self):
model_name = "Narsil/small" # This model only has a TensorFlow version
# We test that if we don't specificy framework='tf', it gets detected automatically
nlp = pipeline(task="ner", model=model_name, tokenizer=model_name)
self._test_pipeline(nlp)

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import unittest
from transformers.pipelines import Pipeline
from .test_pipelines_common import CustomInputPipelineCommonMixin
class QAPipelineTests(CustomInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "question-answering"
small_models = [
"sshleifer/tiny-distilbert-base-cased-distilled-squad"
] # Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator
def _test_pipeline(self, nlp: Pipeline):
output_keys = {"score", "answer", "start", "end"}
valid_inputs = [
{"question": "Where was HuggingFace founded ?", "context": "HuggingFace was founded in Paris."},
{
"question": "In what field is HuggingFace working ?",
"context": "HuggingFace is a startup based in New-York founded in Paris which is trying to solve NLP.",
},
]
invalid_inputs = [
{"question": "", "context": "This is a test to try empty question edge case"},
{"question": None, "context": "This is a test to try empty question edge case"},
{"question": "What is does with empty context ?", "context": ""},
{"question": "What is does with empty context ?", "context": None},
]
self.assertIsNotNone(nlp)
mono_result = nlp(valid_inputs[0])
self.assertIsInstance(mono_result, dict)
for key in output_keys:
self.assertIn(key, mono_result)
multi_result = nlp(valid_inputs)
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], dict)
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, bad_input)
self.assertRaises(Exception, nlp, invalid_inputs)

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import unittest
from .test_pipelines_common import MonoInputPipelineCommonMixin
class SentimentAnalysisPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "sentiment-analysis"
small_models = [
"sshleifer/tiny-distilbert-base-uncased-finetuned-sst-2-english"
] # Default model - Models tested without the @slow decorator
large_models = [None] # Models tested with the @slow decorator
mandatory_keys = {"label", "score"} # Keys which should be in the output

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import unittest
from transformers import pipeline
from transformers.testing_utils import require_torch, slow, torch_device
from .test_pipelines_common import MonoInputPipelineCommonMixin
DEFAULT_DEVICE_NUM = -1 if torch_device == "cpu" else 0
class SummarizationPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "summarization"
pipeline_running_kwargs = {"num_beams": 2, "min_length": 2, "max_length": 5}
small_models = [
"patrickvonplaten/t5-tiny-random",
"sshleifer/bart-tiny-random",
] # Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["summary_text"]
@require_torch
@slow
def test_integration_torch_summarization(self):
nlp = pipeline(task="summarization", device=DEFAULT_DEVICE_NUM)
cnn_article = ' (CNN)The Palestinian Authority officially became the 123rd member of the International Criminal Court on Wednesday, a step that gives the court jurisdiction over alleged crimes in Palestinian territories. The formal accession was marked with a ceremony at The Hague, in the Netherlands, where the court is based. The Palestinians signed the ICC\'s founding Rome Statute in January, when they also accepted its jurisdiction over alleged crimes committed "in the occupied Palestinian territory, including East Jerusalem, since June 13, 2014." Later that month, the ICC opened a preliminary examination into the situation in Palestinian territories, paving the way for possible war crimes investigations against Israelis. As members of the court, Palestinians may be subject to counter-charges as well. Israel and the United States, neither of which is an ICC member, opposed the Palestinians\' efforts to join the body. But Palestinian Foreign Minister Riad al-Malki, speaking at Wednesday\'s ceremony, said it was a move toward greater justice. "As Palestine formally becomes a State Party to the Rome Statute today, the world is also a step closer to ending a long era of impunity and injustice," he said, according to an ICC news release. "Indeed, today brings us closer to our shared goals of justice and peace." Judge Kuniko Ozaki, a vice president of the ICC, said acceding to the treaty was just the first step for the Palestinians. "As the Rome Statute today enters into force for the State of Palestine, Palestine acquires all the rights as well as responsibilities that come with being a State Party to the Statute. These are substantive commitments, which cannot be taken lightly," she said. Rights group Human Rights Watch welcomed the development. "Governments seeking to penalize Palestine for joining the ICC should immediately end their pressure, and countries that support universal acceptance of the court\'s treaty should speak out to welcome its membership," said Balkees Jarrah, international justice counsel for the group. "What\'s objectionable is the attempts to undermine international justice, not Palestine\'s decision to join a treaty to which over 100 countries around the world are members." In January, when the preliminary ICC examination was opened, Israeli Prime Minister Benjamin Netanyahu described it as an outrage, saying the court was overstepping its boundaries. The United States also said it "strongly" disagreed with the court\'s decision. "As we have said repeatedly, we do not believe that Palestine is a state and therefore we do not believe that it is eligible to join the ICC," the State Department said in a statement. It urged the warring sides to resolve their differences through direct negotiations. "We will continue to oppose actions against Israel at the ICC as counterproductive to the cause of peace," it said. But the ICC begs to differ with the definition of a state for its purposes and refers to the territories as "Palestine." While a preliminary examination is not a formal investigation, it allows the court to review evidence and determine whether to investigate suspects on both sides. Prosecutor Fatou Bensouda said her office would "conduct its analysis in full independence and impartiality." The war between Israel and Hamas militants in Gaza last summer left more than 2,000 people dead. The inquiry will include alleged war crimes committed since June. The International Criminal Court was set up in 2002 to prosecute genocide, crimes against humanity and war crimes. CNN\'s Vasco Cotovio, Kareem Khadder and Faith Karimi contributed to this report.'
expected_cnn_summary = " The Palestinian Authority becomes the 123rd member of the International Criminal Court . The move gives the court jurisdiction over alleged crimes in Palestinian territories . Israel and the United States opposed the Palestinians' efforts to join the court . Rights group Human Rights Watch welcomes the move, says governments seeking to penalize Palestine should end pressure ."
result = nlp(cnn_article)
self.assertEqual(result[0]["summary_text"], expected_cnn_summary)

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@@ -0,0 +1,11 @@
import unittest
from .test_pipelines_common import MonoInputPipelineCommonMixin
class Text2TextGenerationPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "text2text-generation"
small_models = ["patrickvonplaten/t5-tiny-random"] # Default model - Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["generated_text"]

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@@ -0,0 +1,10 @@
import unittest
from .test_pipelines_common import MonoInputPipelineCommonMixin
class TextGenerationPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "text-generation"
pipeline_running_kwargs = {"prefix": "This is "}
small_models = ["sshleifer/tiny-ctrl"] # Models tested without the @slow decorator
large_models = [] # Models tested with the @slow decorator

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@@ -0,0 +1,54 @@
import unittest
import pytest
from transformers import pipeline
from transformers.testing_utils import is_pipeline_test, require_torch, slow
from .test_pipelines_common import MonoInputPipelineCommonMixin
class TranslationEnToDePipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "translation_en_to_de"
small_models = ["patrickvonplaten/t5-tiny-random"] # Default model - Models tested without the @slow decorator
large_models = [None] # Models tested with the @slow decorator
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["translation_text"]
class TranslationEnToRoPipelineTests(MonoInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "translation_en_to_ro"
small_models = ["patrickvonplaten/t5-tiny-random"] # Default model - Models tested without the @slow decorator
large_models = [None] # Models tested with the @slow decorator
invalid_inputs = [4, "<mask>"]
mandatory_keys = ["translation_text"]
@is_pipeline_test
class TranslationNewFormatPipelineTests(unittest.TestCase):
@require_torch
@slow
def test_default_translations(self):
# We don't provide a default for this pair
with self.assertRaises(ValueError):
pipeline(task="translation_cn_to_ar")
# but we do for this one
pipeline(task="translation_en_to_de")
@require_torch
def test_translation_on_odd_language(self):
model = "patrickvonplaten/t5-tiny-random"
pipeline(task="translation_cn_to_ar", model=model)
@require_torch
def test_translation_default_language_selection(self):
model = "patrickvonplaten/t5-tiny-random"
with pytest.warns(UserWarning, match=r".*translation_en_to_de.*"):
nlp = pipeline(task="translation", model=model)
self.assertEqual(nlp.task, "translation_en_to_de")
@require_torch
def test_translation_with_no_language_no_model_fails(self):
with self.assertRaises(ValueError):
pipeline(task="translation")

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@@ -0,0 +1,120 @@
import unittest
from transformers.pipelines import Pipeline
from .test_pipelines_common import CustomInputPipelineCommonMixin
class ZeroShotClassificationPipelineTests(CustomInputPipelineCommonMixin, unittest.TestCase):
pipeline_task = "zero-shot-classification"
small_models = [
"sshleifer/tiny-distilbert-base-uncased-finetuned-sst-2-english"
] # Models tested without the @slow decorator
large_models = ["roberta-large-mnli"] # Models tested with the @slow decorator
def _test_scores_sum_to_one(self, result):
sum = 0.0
for score in result["scores"]:
sum += score
self.assertAlmostEqual(sum, 1.0)
def _test_pipeline(self, nlp: Pipeline):
output_keys = {"sequence", "labels", "scores"}
valid_mono_inputs = [
{"sequences": "Who are you voting for in 2020?", "candidate_labels": "politics"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ["politics"]},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": "politics, public health"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ["politics", "public health"]},
{"sequences": ["Who are you voting for in 2020?"], "candidate_labels": "politics"},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "This text is about {}",
},
]
valid_multi_input = {
"sequences": ["Who are you voting for in 2020?", "What is the capital of Spain?"],
"candidate_labels": "politics",
}
invalid_inputs = [
{"sequences": None, "candidate_labels": "politics"},
{"sequences": "", "candidate_labels": "politics"},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": None},
{"sequences": "Who are you voting for in 2020?", "candidate_labels": ""},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": None,
},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "",
},
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": "politics",
"hypothesis_template": "Template without formatting syntax.",
},
]
self.assertIsNotNone(nlp)
for mono_input in valid_mono_inputs:
mono_result = nlp(**mono_input)
self.assertIsInstance(mono_result, dict)
if len(mono_result["labels"]) > 1:
self._test_scores_sum_to_one(mono_result)
for key in output_keys:
self.assertIn(key, mono_result)
multi_result = nlp(**valid_multi_input)
self.assertIsInstance(multi_result, list)
self.assertIsInstance(multi_result[0], dict)
self.assertEqual(len(multi_result), len(valid_multi_input["sequences"]))
for result in multi_result:
for key in output_keys:
self.assertIn(key, result)
if len(result["labels"]) > 1:
self._test_scores_sum_to_one(result)
for bad_input in invalid_inputs:
self.assertRaises(Exception, nlp, **bad_input)
if nlp.model.name_or_path in self.large_models:
# We also check the outputs for the large models
inputs = [
{
"sequences": "Who are you voting for in 2020?",
"candidate_labels": ["politics", "public health", "science"],
},
{
"sequences": "The dominant sequence transduction models are based on complex recurrent or convolutional neural networks in an encoder-decoder configuration. The best performing models also connect the encoder and decoder through an attention mechanism. We propose a new simple network architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two machine translation tasks show these models to be superior in quality while being more parallelizable and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task, improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training costs of the best models from the literature. We show that the Transformer generalizes well to other tasks by applying it successfully to English constituency parsing both with large and limited training data.",
"candidate_labels": ["machine learning", "statistics", "translation", "vision"],
"multi_class": True,
},
]
expected_outputs = [
{
"sequence": "Who are you voting for in 2020?",
"labels": ["politics", "public health", "science"],
"scores": [0.975, 0.015, 0.008],
},
{
"sequence": "The dominant sequence transduction models are based on complex recurrent or convolutional neural networks in an encoder-decoder configuration. The best performing models also connect the encoder and decoder through an attention mechanism. We propose a new simple network architecture, the Transformer, based solely on attention mechanisms, dispensing with recurrence and convolutions entirely. Experiments on two machine translation tasks show these models to be superior in quality while being more parallelizable and requiring significantly less time to train. Our model achieves 28.4 BLEU on the WMT 2014 English-to-German translation task, improving over the existing best results, including ensembles by over 2 BLEU. On the WMT 2014 English-to-French translation task, our model establishes a new single-model state-of-the-art BLEU score of 41.8 after training for 3.5 days on eight GPUs, a small fraction of the training costs of the best models from the literature. We show that the Transformer generalizes well to other tasks by applying it successfully to English constituency parsing both with large and limited training data.",
"labels": ["translation", "machine learning", "vision", "statistics"],
"scores": [0.817, 0.712, 0.018, 0.017],
},
]
for input, expected_output in zip(inputs, expected_outputs):
output = nlp(**input)
for key in output:
if key == "scores":
for output_score, expected_score in zip(output[key], expected_output[key]):
self.assertAlmostEqual(output_score, expected_score, places=2)
else:
self.assertEqual(output[key], expected_output[key])

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@@ -25,7 +25,14 @@ from itertools import takewhile
from typing import TYPE_CHECKING, Dict, List, Tuple, Union
from transformers import PreTrainedTokenizer, PreTrainedTokenizerBase, PreTrainedTokenizerFast, is_torch_available
from transformers.testing_utils import get_tests_dir, require_tf, require_tokenizers, require_torch, slow
from transformers.testing_utils import (
get_tests_dir,
is_pt_tf_cross_test,
require_tf,
require_tokenizers,
require_torch,
slow,
)
from transformers.tokenization_utils import AddedToken
@@ -1517,8 +1524,7 @@ class TokenizerTesterMixin:
string_sequences, return_overflowing_tokens=True, truncation=True, padding=True, max_length=3
)
@require_torch
@require_tf
@is_pt_tf_cross_test
def test_batch_encode_plus_tensors(self):
tokenizers = self.get_tokenizers(do_lower_case=False)
for tokenizer in tokenizers: