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# 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 copy | |
import inspect | |
import json | |
import random | |
import tempfile | |
import unittest | |
from typing import List, Tuple | |
import numpy as np | |
from huggingface_hub import HfFolder, delete_repo | |
from requests.exceptions import HTTPError | |
import transformers | |
from transformers import BertConfig, is_flax_available, is_torch_available | |
from transformers.models.auto import get_values | |
from transformers.testing_utils import ( | |
TOKEN, | |
USER, | |
CaptureLogger, | |
is_pt_flax_cross_test, | |
is_staging_test, | |
require_flax, | |
torch_device, | |
) | |
from transformers.utils import CONFIG_NAME, GENERATION_CONFIG_NAME, logging | |
from transformers.utils.generic import ModelOutput | |
if is_flax_available(): | |
import os | |
import jax | |
import jax.numpy as jnp | |
from flax.core.frozen_dict import FrozenDict, freeze, unfreeze | |
from flax.serialization import from_bytes | |
from flax.traverse_util import flatten_dict, unflatten_dict | |
from transformers import ( | |
FLAX_MODEL_FOR_QUESTION_ANSWERING_MAPPING, | |
FLAX_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING, | |
FLAX_MODEL_MAPPING, | |
FlaxAutoModel, | |
FlaxAutoModelForSequenceClassification, | |
FlaxBertModel, | |
) | |
from transformers.modeling_flax_pytorch_utils import ( | |
convert_pytorch_state_dict_to_flax, | |
load_flax_weights_in_pytorch_model, | |
) | |
from transformers.modeling_flax_utils import FLAX_WEIGHTS_INDEX_NAME, FLAX_WEIGHTS_NAME | |
os.environ["XLA_PYTHON_CLIENT_MEM_FRACTION"] = "0.12" # assumed parallelism: 8 | |
if is_torch_available(): | |
import torch | |
def _config_zero_init(config): | |
configs_no_init = copy.deepcopy(config) | |
for key in configs_no_init.__dict__.keys(): | |
if "_range" in key or "_std" in key or "initializer_factor" in key: | |
setattr(configs_no_init, key, 1e-10) | |
return configs_no_init | |
def ids_tensor(shape, vocab_size, rng=None): | |
"""Creates a random int32 tensor of the shape within the vocab size.""" | |
if rng is None: | |
rng = random.Random() | |
total_dims = 1 | |
for dim in shape: | |
total_dims *= dim | |
values = [] | |
for _ in range(total_dims): | |
values.append(rng.randint(0, vocab_size - 1)) | |
output = np.array(values, dtype=jnp.int32).reshape(shape) | |
return output | |
def floats_tensor(shape, scale=1.0, rng=None, name=None): | |
"""Creates a random float32 tensor""" | |
if rng is None: | |
rng = random.Random() | |
total_dims = 1 | |
for dim in shape: | |
total_dims *= dim | |
values = [] | |
for _ in range(total_dims): | |
values.append(rng.random() * scale) | |
return np.array(values, dtype=jnp.float32).reshape(shape) | |
def random_attention_mask(shape, rng=None): | |
attn_mask = ids_tensor(shape, vocab_size=2, rng=rng) | |
# make sure that at least one token is attended to for each batch | |
attn_mask[:, -1] = 1 | |
return attn_mask | |
def get_params(params, from_head_prefix=None): | |
"""Function extracts relevant parameters into flatten dict from model params, | |
appends batch normalization statistics if present""" | |
# If Both parameters and batch normalization statistics are present | |
if "batch_stats" in params: | |
# Extract only parameters for the specified head prefix (if specified) and add batch statistics | |
if from_head_prefix is not None: | |
extracted_params = flatten_dict(unfreeze(params["params"][from_head_prefix])) | |
extracted_params.update(flatten_dict(params["batch_stats"][from_head_prefix])) | |
else: | |
extracted_params = flatten_dict(unfreeze(params["params"])) | |
extracted_params.update(flatten_dict(params["batch_stats"])) | |
# Only parameters are present | |
else: | |
if from_head_prefix is not None: | |
extracted_params = flatten_dict(unfreeze(params[from_head_prefix])) | |
else: | |
extracted_params = flatten_dict(unfreeze(params)) | |
return extracted_params | |
class FlaxModelTesterMixin: | |
model_tester = None | |
all_model_classes = () | |
test_mismatched_shapes = True | |
is_encoder_decoder = False | |
test_head_masking = False | |
has_attentions = True | |
def _prepare_for_class(self, inputs_dict, model_class): | |
inputs_dict = copy.deepcopy(inputs_dict) | |
# hack for now until we have AutoModel classes | |
if "ForMultipleChoice" in model_class.__name__: | |
inputs_dict = { | |
k: jnp.broadcast_to(v[:, None], (v.shape[0], self.model_tester.num_choices, v.shape[-1])) | |
if isinstance(v, (jnp.ndarray, np.ndarray)) | |
else v | |
for k, v in inputs_dict.items() | |
} | |
return inputs_dict | |
def assert_almost_equals(self, a: np.ndarray, b: np.ndarray, tol: float): | |
diff = np.abs((a - b)).max() | |
self.assertLessEqual(diff, tol, f"Difference between torch and flax is {diff} (>= {tol}).") | |
def test_model_outputs_equivalence(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
def check_equivalence(model, tuple_inputs, dict_inputs, additional_kwargs={}): | |
tuple_output = model(**tuple_inputs, return_dict=False, **additional_kwargs) | |
dict_output = model(**dict_inputs, return_dict=True, **additional_kwargs).to_tuple() | |
def recursive_check(tuple_object, dict_object): | |
if isinstance(tuple_object, (List, Tuple)): | |
for tuple_iterable_value, dict_iterable_value in zip(tuple_object, dict_object): | |
recursive_check(tuple_iterable_value, dict_iterable_value) | |
elif tuple_object is None: | |
return | |
else: | |
self.assert_almost_equals(jnp.nan_to_num(tuple_object), jnp.nan_to_num(dict_object), 1e-5) | |
recursive_check(tuple_output, dict_output) | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
tuple_inputs = self._prepare_for_class(inputs_dict, model_class) | |
dict_inputs = self._prepare_for_class(inputs_dict, model_class) | |
check_equivalence(model, tuple_inputs, dict_inputs) | |
tuple_inputs = self._prepare_for_class(inputs_dict, model_class) | |
dict_inputs = self._prepare_for_class(inputs_dict, model_class) | |
check_equivalence(model, tuple_inputs, dict_inputs, {"output_hidden_states": True}) | |
# (Copied from tests.test_modeling_common.ModelTesterMixin.check_pt_flax_outputs) | |
def check_pt_flax_outputs(self, fx_outputs, pt_outputs, model_class, tol=1e-5, name="outputs", attributes=None): | |
""" | |
Args: | |
model_class: The class of the model that is currently testing. For example, ..., etc. | |
Currently unused, but it could make debugging easier and faster. | |
names: A string, or a list of strings. These specify what fx_outputs/pt_outputs represent in the model outputs. | |
Currently unused, but in the future, we could use this information to make the error message clearer | |
by giving the name(s) of the output tensor(s) with large difference(s) between PT and Flax. | |
""" | |
self.assertEqual(type(name), str) | |
if attributes is not None: | |
self.assertEqual(type(attributes), tuple, f"{name}: The argument `attributes` should be a `tuple`") | |
# Allow `ModelOutput` (e.g. `CLIPOutput` has `text_model_output` and `vision_model_output`). | |
if isinstance(fx_outputs, ModelOutput): | |
self.assertTrue( | |
isinstance(pt_outputs, ModelOutput), | |
f"{name}: `pt_outputs` should an instance of `ModelOutput` when `fx_outputs` is", | |
) | |
fx_keys = tuple([k for k, v in fx_outputs.items() if v is not None]) | |
pt_keys = tuple([k for k, v in pt_outputs.items() if v is not None]) | |
self.assertEqual(fx_keys, pt_keys, f"{name}: Output keys differ between Flax and PyTorch") | |
# convert to the case of `tuple` | |
# appending each key to the current (string) `name` | |
attributes = tuple([f"{name}.{k}" for k in fx_keys]) | |
self.check_pt_flax_outputs( | |
fx_outputs.to_tuple(), pt_outputs.to_tuple(), model_class, tol=tol, name=name, attributes=attributes | |
) | |
# Allow `list` (e.g. `TransfoXLModelOutput.mems` is a list of tensors.) | |
elif type(fx_outputs) in [tuple, list]: | |
self.assertEqual( | |
type(fx_outputs), type(pt_outputs), f"{name}: Output types differ between Flax and PyTorch" | |
) | |
self.assertEqual( | |
len(fx_outputs), len(pt_outputs), f"{name}: Output lengths differ between Flax and PyTorch" | |
) | |
if attributes is not None: | |
# case 1: each output has assigned name (e.g. a tuple form of a `ModelOutput`) | |
self.assertEqual( | |
len(attributes), | |
len(fx_outputs), | |
f"{name}: The tuple `attributes` should have the same length as `fx_outputs`", | |
) | |
else: | |
# case 2: each output has no assigned name (e.g. hidden states of each layer) -> add an index to `name` | |
attributes = tuple([f"{name}_{idx}" for idx in range(len(fx_outputs))]) | |
for fx_output, pt_output, attr in zip(fx_outputs, pt_outputs, attributes): | |
self.check_pt_flax_outputs(fx_output, pt_output, model_class, tol=tol, name=attr) | |
elif isinstance(fx_outputs, jnp.ndarray): | |
self.assertTrue( | |
isinstance(pt_outputs, torch.Tensor), f"{name}: `pt_outputs` should a tensor when `fx_outputs` is" | |
) | |
# Using `np.asarray` gives `ValueError: assignment destination is read-only` at the line `fx_outputs[fx_nans] = 0`. | |
fx_outputs = np.array(fx_outputs) | |
pt_outputs = pt_outputs.detach().to("cpu").numpy() | |
self.assertEqual( | |
fx_outputs.shape, pt_outputs.shape, f"{name}: Output shapes differ between Flax and PyTorch" | |
) | |
# deal with NumPy's scalars to make replacing nan values by 0 work. | |
if np.isscalar(fx_outputs): | |
fx_outputs = np.array([fx_outputs]) | |
pt_outputs = np.array([pt_outputs]) | |
fx_nans = np.isnan(fx_outputs) | |
pt_nans = np.isnan(pt_outputs) | |
pt_outputs[fx_nans] = 0 | |
fx_outputs[fx_nans] = 0 | |
pt_outputs[pt_nans] = 0 | |
fx_outputs[pt_nans] = 0 | |
max_diff = np.amax(np.abs(fx_outputs - pt_outputs)) | |
self.assertLessEqual( | |
max_diff, tol, f"{name}: Difference between PyTorch and Flax is {max_diff} (>= {tol})." | |
) | |
else: | |
raise ValueError( | |
"`fx_outputs` should be an instance of `ModelOutput`, a `tuple`, or an instance of `jnp.ndarray`. Got" | |
f" {type(fx_outputs)} instead." | |
) | |
def test_equivalence_pt_to_flax(self): | |
# It might be better to put this inside the for loop below (because we modify the config there). | |
# But logically, it is fine. | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
with self.subTest(model_class.__name__): | |
# Output all for aggressive testing | |
config.output_hidden_states = True | |
config.output_attentions = self.has_attentions | |
# prepare inputs | |
prepared_inputs_dict = self._prepare_for_class(inputs_dict, model_class) | |
pt_inputs = {k: torch.tensor(v.tolist(), device=torch_device) for k, v in prepared_inputs_dict.items()} | |
# load corresponding PyTorch class | |
pt_model_class_name = model_class.__name__[4:] # Skip the "Flax" at the beginning | |
pt_model_class = getattr(transformers, pt_model_class_name) | |
pt_model = pt_model_class(config).eval() | |
# Flax models don't use the `use_cache` option and cache is not returned as a default. | |
# So we disable `use_cache` here for PyTorch model. | |
pt_model.config.use_cache = False | |
fx_model = model_class(config, dtype=jnp.float32) | |
fx_state = convert_pytorch_state_dict_to_flax(pt_model.state_dict(), fx_model) | |
fx_model.params = fx_state | |
# send pytorch model to the correct device | |
pt_model.to(torch_device) | |
with torch.no_grad(): | |
pt_outputs = pt_model(**pt_inputs) | |
fx_outputs = fx_model(**prepared_inputs_dict) | |
fx_keys = tuple([k for k, v in fx_outputs.items() if v is not None]) | |
pt_keys = tuple([k for k, v in pt_outputs.items() if v is not None]) | |
self.assertEqual(fx_keys, pt_keys) | |
self.check_pt_flax_outputs(fx_outputs, pt_outputs, model_class) | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
pt_model.save_pretrained(tmpdirname) | |
fx_model_loaded = model_class.from_pretrained(tmpdirname, from_pt=True) | |
fx_outputs_loaded = fx_model_loaded(**prepared_inputs_dict) | |
fx_keys = tuple([k for k, v in fx_outputs_loaded.items() if v is not None]) | |
pt_keys = tuple([k for k, v in pt_outputs.items() if v is not None]) | |
self.assertEqual(fx_keys, pt_keys) | |
self.check_pt_flax_outputs(fx_outputs_loaded, pt_outputs, model_class) | |
def test_equivalence_flax_to_pt(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
with self.subTest(model_class.__name__): | |
# Output all for aggressive testing | |
config.output_hidden_states = True | |
config.output_attentions = self.has_attentions | |
# prepare inputs | |
prepared_inputs_dict = self._prepare_for_class(inputs_dict, model_class) | |
pt_inputs = {k: torch.tensor(v.tolist(), device=torch_device) for k, v in prepared_inputs_dict.items()} | |
# load corresponding PyTorch class | |
pt_model_class_name = model_class.__name__[4:] # Skip the "Flax" at the beginning | |
pt_model_class = getattr(transformers, pt_model_class_name) | |
pt_model = pt_model_class(config).eval() | |
# Flax models don't use the `use_cache` option and cache is not returned as a default. | |
# So we disable `use_cache` here for PyTorch model. | |
pt_model.config.use_cache = False | |
fx_model = model_class(config, dtype=jnp.float32) | |
pt_model = load_flax_weights_in_pytorch_model(pt_model, fx_model.params) | |
# make sure weights are tied in PyTorch | |
pt_model.tie_weights() | |
# send pytorch model to the correct device | |
pt_model.to(torch_device) | |
with torch.no_grad(): | |
pt_outputs = pt_model(**pt_inputs) | |
fx_outputs = fx_model(**prepared_inputs_dict) | |
fx_keys = tuple([k for k, v in fx_outputs.items() if v is not None]) | |
pt_keys = tuple([k for k, v in pt_outputs.items() if v is not None]) | |
self.assertEqual(fx_keys, pt_keys) | |
self.check_pt_flax_outputs(fx_outputs, pt_outputs, model_class) | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
fx_model.save_pretrained(tmpdirname) | |
pt_model_loaded = pt_model_class.from_pretrained(tmpdirname, from_flax=True) | |
# send pytorch model to the correct device | |
pt_model_loaded.to(torch_device) | |
pt_model_loaded.eval() | |
with torch.no_grad(): | |
pt_outputs_loaded = pt_model_loaded(**pt_inputs) | |
fx_keys = tuple([k for k, v in fx_outputs.items() if v is not None]) | |
pt_keys = tuple([k for k, v in pt_outputs_loaded.items() if v is not None]) | |
self.assertEqual(fx_keys, pt_keys) | |
self.check_pt_flax_outputs(fx_outputs, pt_outputs_loaded, model_class) | |
def test_from_pretrained_save_pretrained(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
with self.subTest(model_class.__name__): | |
model = model_class(config) | |
prepared_inputs_dict = self._prepare_for_class(inputs_dict, model_class) | |
outputs = model(**prepared_inputs_dict).to_tuple() | |
# verify that normal save_pretrained works as expected | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname) | |
# the config file (and the generation config file, if it can generate) should be saved | |
self.assertTrue(os.path.exists(os.path.join(tmpdirname, CONFIG_NAME))) | |
self.assertEqual( | |
model.can_generate(), os.path.exists(os.path.join(tmpdirname, GENERATION_CONFIG_NAME)) | |
) | |
model_loaded = model_class.from_pretrained(tmpdirname) | |
outputs_loaded = model_loaded(**prepared_inputs_dict).to_tuple() | |
for output_loaded, output in zip(outputs_loaded, outputs): | |
self.assert_almost_equals(output_loaded, output, 1e-3) | |
# verify that save_pretrained for distributed training | |
# with `params=params` works as expected | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname, params=model.params) | |
model_loaded = model_class.from_pretrained(tmpdirname) | |
outputs_loaded = model_loaded(**prepared_inputs_dict).to_tuple() | |
for output_loaded, output in zip(outputs_loaded, outputs): | |
self.assert_almost_equals(output_loaded, output, 1e-3) | |
def test_save_load_from_base(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
base_class = FLAX_MODEL_MAPPING[config.__class__] | |
for model_class in self.all_model_classes: | |
if model_class == base_class: | |
continue | |
model = base_class(config) | |
base_params = get_params(model.params) | |
# check that all base model weights are loaded correctly | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname) | |
head_model = model_class.from_pretrained(tmpdirname) | |
base_param_from_head = get_params(head_model.params, from_head_prefix=head_model.base_model_prefix) | |
for key in base_param_from_head.keys(): | |
max_diff = (base_params[key] - base_param_from_head[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_save_load_to_base(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
base_class = FLAX_MODEL_MAPPING[config.__class__] | |
for model_class in self.all_model_classes: | |
if model_class == base_class: | |
continue | |
model = model_class(config) | |
base_params_from_head = get_params(model.params, from_head_prefix=model.base_model_prefix) | |
# check that all base model weights are loaded correctly | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname) | |
base_model = base_class.from_pretrained(tmpdirname) | |
base_params = get_params(base_model.params) | |
for key in base_params_from_head.keys(): | |
max_diff = (base_params[key] - base_params_from_head[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_save_load_from_base_pt(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
base_class = FLAX_MODEL_MAPPING[config.__class__] | |
for model_class in self.all_model_classes: | |
if model_class == base_class: | |
continue | |
model = base_class(config) | |
base_params = get_params(model.params) | |
# convert Flax model to PyTorch model | |
pt_model_class = getattr(transformers, base_class.__name__[4:]) # Skip the "Flax" at the beginning | |
pt_model = pt_model_class(config).eval() | |
pt_model = load_flax_weights_in_pytorch_model(pt_model, model.params) | |
# check that all base model weights are loaded correctly | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
# save pt model | |
pt_model.save_pretrained(tmpdirname) | |
head_model = model_class.from_pretrained(tmpdirname, from_pt=True) | |
base_param_from_head = get_params(head_model.params, from_head_prefix=head_model.base_model_prefix) | |
for key in base_param_from_head.keys(): | |
max_diff = (base_params[key] - base_param_from_head[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_save_load_to_base_pt(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
base_class = FLAX_MODEL_MAPPING[config.__class__] | |
for model_class in self.all_model_classes: | |
if model_class == base_class: | |
continue | |
model = model_class(config) | |
base_params_from_head = get_params(model.params, from_head_prefix=model.base_model_prefix) | |
# convert Flax model to PyTorch model | |
pt_model_class = getattr(transformers, model_class.__name__[4:]) # Skip the "Flax" at the beginning | |
pt_model = pt_model_class(config).eval() | |
pt_model = load_flax_weights_in_pytorch_model(pt_model, model.params) | |
# check that all base model weights are loaded correctly | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
pt_model.save_pretrained(tmpdirname) | |
base_model = base_class.from_pretrained(tmpdirname, from_pt=True) | |
base_params = get_params(base_model.params) | |
for key in base_params_from_head.keys(): | |
max_diff = (base_params[key] - base_params_from_head[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_save_load_bf16_to_base_pt(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
base_class = FLAX_MODEL_MAPPING[config.__class__] | |
for model_class in self.all_model_classes: | |
if model_class == base_class: | |
continue | |
model = model_class(config) | |
model.params = model.to_bf16(model.params) | |
base_params_from_head = get_params(model.params, from_head_prefix=model.base_model_prefix) | |
# convert Flax model to PyTorch model | |
pt_model_class = getattr(transformers, model_class.__name__[4:]) # Skip the "Flax" at the beginning | |
pt_model = pt_model_class(config).eval() | |
pt_model = load_flax_weights_in_pytorch_model(pt_model, model.params) | |
# check that all base model weights are loaded correctly | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
pt_model.save_pretrained(tmpdirname) | |
base_model = base_class.from_pretrained(tmpdirname, from_pt=True) | |
base_params = get_params(base_model.params) | |
for key in base_params_from_head.keys(): | |
max_diff = (base_params[key] - base_params_from_head[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_jit_compilation(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
with self.subTest(model_class.__name__): | |
prepared_inputs_dict = self._prepare_for_class(inputs_dict, model_class) | |
model = model_class(config) | |
def model_jitted(input_ids, attention_mask=None, **kwargs): | |
return model(input_ids=input_ids, attention_mask=attention_mask, **kwargs) | |
with self.subTest("JIT Enabled"): | |
jitted_outputs = model_jitted(**prepared_inputs_dict).to_tuple() | |
with self.subTest("JIT Disabled"): | |
with jax.disable_jit(): | |
outputs = model_jitted(**prepared_inputs_dict).to_tuple() | |
self.assertEqual(len(outputs), len(jitted_outputs)) | |
for jitted_output, output in zip(jitted_outputs, outputs): | |
self.assertEqual(jitted_output.shape, output.shape) | |
def test_forward_signature(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
signature = inspect.signature(model.__call__) | |
# signature.parameters is an OrderedDict => so arg_names order is deterministic | |
arg_names = [*signature.parameters.keys()] | |
if model.config.is_encoder_decoder: | |
expected_arg_names = [ | |
"input_ids", | |
"attention_mask", | |
"decoder_input_ids", | |
"decoder_attention_mask", | |
] | |
self.assertListEqual(arg_names[: len(expected_arg_names)], expected_arg_names) | |
else: | |
expected_arg_names = ["input_ids", "attention_mask"] | |
self.assertListEqual(arg_names[:2], expected_arg_names) | |
def test_naming_convention(self): | |
for model_class in self.all_model_classes: | |
model_class_name = model_class.__name__ | |
module_class_name = ( | |
model_class_name[:-5] + "Module" if model_class_name[-5:] == "Model" else model_class_name + "Module" | |
) | |
bert_modeling_flax_module = __import__(model_class.__module__, fromlist=[module_class_name]) | |
module_cls = getattr(bert_modeling_flax_module, module_class_name) | |
self.assertIsNotNone(module_cls) | |
def test_hidden_states_output(self): | |
def check_hidden_states_output(inputs_dict, config, model_class): | |
model = model_class(config) | |
outputs = model(**self._prepare_for_class(inputs_dict, model_class)) | |
hidden_states = outputs.encoder_hidden_states if config.is_encoder_decoder else outputs.hidden_states | |
expected_num_layers = getattr( | |
self.model_tester, "expected_num_hidden_layers", self.model_tester.num_hidden_layers + 1 | |
) | |
self.assertEqual(len(hidden_states), expected_num_layers) | |
if hasattr(self.model_tester, "encoder_seq_length"): | |
seq_length = self.model_tester.encoder_seq_length | |
else: | |
seq_length = self.model_tester.seq_length | |
self.assertListEqual( | |
list(hidden_states[0].shape[-2:]), | |
[seq_length, self.model_tester.hidden_size], | |
) | |
if config.is_encoder_decoder: | |
hidden_states = outputs.decoder_hidden_states | |
self.assertIsInstance(hidden_states, (list, tuple)) | |
self.assertEqual(len(hidden_states), expected_num_layers) | |
seq_len = getattr(self.model_tester, "seq_length", None) | |
decoder_seq_length = getattr(self.model_tester, "decoder_seq_length", seq_len) | |
self.assertListEqual( | |
list(hidden_states[0].shape[-2:]), | |
[decoder_seq_length, self.model_tester.hidden_size], | |
) | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
inputs_dict["output_hidden_states"] = True | |
check_hidden_states_output(inputs_dict, config, model_class) | |
# check that output_hidden_states also work using config | |
del inputs_dict["output_hidden_states"] | |
config.output_hidden_states = True | |
check_hidden_states_output(inputs_dict, config, model_class) | |
def test_attention_outputs(self): | |
if not self.has_attentions: | |
self.skipTest(reason="Model does not output attentions") | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
config.return_dict = True | |
seq_length = getattr(self.model_tester, "seq_length", None) | |
decoder_seq_length = getattr(self.model_tester, "decoder_seq_length", seq_length) | |
encoder_seq_length = getattr(self.model_tester, "encoder_seq_length", seq_length) | |
decoder_key_length = getattr(self.model_tester, "decoder_key_length", decoder_seq_length) | |
encoder_key_length = getattr(self.model_tester, "key_length", encoder_seq_length) | |
for model_class in self.all_model_classes: | |
inputs_dict["output_attentions"] = True | |
inputs_dict["output_hidden_states"] = False | |
model = model_class(config) | |
outputs = model(**self._prepare_for_class(inputs_dict, model_class)) | |
attentions = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions | |
self.assertEqual(len(attentions), self.model_tester.num_hidden_layers) | |
# check that output_attentions also work using config | |
del inputs_dict["output_attentions"] | |
config.output_attentions = True | |
model = model_class(config) | |
outputs = model(**self._prepare_for_class(inputs_dict, model_class)) | |
attentions = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions | |
self.assertEqual(len(attentions), self.model_tester.num_hidden_layers) | |
self.assertListEqual( | |
list(attentions[0].shape[-3:]), | |
[self.model_tester.num_attention_heads, encoder_seq_length, encoder_key_length], | |
) | |
out_len = len(outputs) | |
if self.is_encoder_decoder: | |
correct_outlen = 5 | |
# Question Answering model returns start_logits and end_logits | |
if model_class in get_values(FLAX_MODEL_FOR_QUESTION_ANSWERING_MAPPING): | |
correct_outlen += 1 # start_logits and end_logits instead of only 1 output | |
self.assertEqual(out_len, correct_outlen) | |
# decoder attentions | |
decoder_attentions = outputs.decoder_attentions | |
self.assertIsInstance(decoder_attentions, (list, tuple)) | |
self.assertEqual(len(decoder_attentions), self.model_tester.num_hidden_layers) | |
self.assertListEqual( | |
list(decoder_attentions[0].shape[-3:]), | |
[self.model_tester.num_attention_heads, decoder_seq_length, decoder_key_length], | |
) | |
# cross attentions | |
cross_attentions = outputs.cross_attentions | |
self.assertIsInstance(cross_attentions, (list, tuple)) | |
self.assertEqual(len(cross_attentions), self.model_tester.num_hidden_layers) | |
self.assertListEqual( | |
list(cross_attentions[0].shape[-3:]), | |
[ | |
self.model_tester.num_attention_heads, | |
decoder_seq_length, | |
encoder_key_length, | |
], | |
) | |
# Check attention is always last and order is fine | |
inputs_dict["output_attentions"] = True | |
inputs_dict["output_hidden_states"] = True | |
model = model_class(config) | |
outputs = model(**self._prepare_for_class(inputs_dict, model_class)) | |
if hasattr(self.model_tester, "num_hidden_states_types"): | |
added_hidden_states = self.model_tester.num_hidden_states_types | |
elif self.is_encoder_decoder: | |
added_hidden_states = 2 | |
else: | |
added_hidden_states = 1 | |
self.assertEqual(out_len + added_hidden_states, len(outputs)) | |
self_attentions = outputs.encoder_attentions if config.is_encoder_decoder else outputs.attentions | |
self.assertEqual(len(self_attentions), self.model_tester.num_hidden_layers) | |
self.assertListEqual( | |
list(self_attentions[0].shape[-3:]), | |
[self.model_tester.num_attention_heads, encoder_seq_length, encoder_key_length], | |
) | |
def test_load_with_mismatched_shapes(self): | |
if not self.test_mismatched_shapes: | |
return | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
if model_class not in get_values(FLAX_MODEL_FOR_SEQUENCE_CLASSIFICATION_MAPPING): | |
continue | |
with self.subTest(msg=f"Testing {model_class}"): | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
model = model_class(config) | |
model.save_pretrained(tmp_dir) | |
# Fails when we don't set ignore_mismatched_sizes=True | |
with self.assertRaises(ValueError): | |
new_model = FlaxAutoModelForSequenceClassification.from_pretrained(tmp_dir, num_labels=42) | |
with self.assertRaises(ValueError): | |
new_model_without_prefix = FlaxAutoModel.from_pretrained(tmp_dir, vocab_size=10) | |
logger = logging.get_logger("transformers.modeling_flax_utils") | |
with CaptureLogger(logger) as cl: | |
new_model = FlaxAutoModelForSequenceClassification.from_pretrained( | |
tmp_dir, num_labels=42, ignore_mismatched_sizes=True | |
) | |
self.assertIn("the shapes did not match", cl.out) | |
logits = new_model(**inputs_dict)["logits"] | |
self.assertEqual(logits.shape[1], 42) | |
with CaptureLogger(logger) as cl: | |
new_model_without_prefix = FlaxAutoModel.from_pretrained( | |
tmp_dir, vocab_size=10, ignore_mismatched_sizes=True | |
) | |
self.assertIn("the shapes did not match", cl.out) | |
input_ids = ids_tensor((2, 8), 10) | |
if self.is_encoder_decoder: | |
new_model_without_prefix(input_ids, decoder_input_ids=input_ids) | |
else: | |
new_model_without_prefix(input_ids) | |
def test_default_params_dtype(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
# check if all params are still in float32 when dtype of computation is half-precision | |
model = model_class(config, dtype=jnp.float16) | |
types = jax.tree_util.tree_map(lambda x: x.dtype, model.params) | |
types = flatten_dict(types) | |
for name, type_ in types.items(): | |
self.assertEquals(type_, jnp.float32, msg=f"param {name} is not initialized in fp32.") | |
def test_to_bf16(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
# cast all params to bf16 | |
params = model.to_bf16(model.params) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
# test if all params are in bf16 | |
for name, type_ in types.items(): | |
self.assertEqual(type_, jnp.bfloat16, msg=f"param {name} is not in bf16.") | |
# test masking | |
flat_params = flatten_dict(params) | |
key = random.choice(list(flat_params.keys())) # choose a random param | |
mask = {path: path != key for path in flat_params} # don't cast the key | |
mask = unflatten_dict(mask) | |
params = model.to_bf16(model.params, mask) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
# test if all params are in bf16 except key | |
for name, type_ in types.items(): | |
if name == key: | |
self.assertEqual(type_, jnp.float32, msg=f"param {name} should be in fp32.") | |
else: | |
self.assertEqual(type_, jnp.bfloat16, msg=f"param {name} is not in bf16.") | |
def test_to_fp16(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
# cast all params to fp16 | |
params = model.to_fp16(model.params) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
# test if all params are in fp16 | |
for name, type_ in types.items(): | |
self.assertEqual(type_, jnp.float16, msg=f"param {name} is not in fp16.") | |
# test masking | |
flat_params = flatten_dict(params) | |
key = random.choice(list(flat_params.keys())) # choose a random param | |
mask = {path: path != key for path in flat_params} # don't cast the key | |
mask = unflatten_dict(mask) | |
params = model.to_fp16(model.params, mask) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
# test if all params are in fp16 except key | |
for name, type_ in types.items(): | |
if name == key: | |
self.assertEqual(type_, jnp.float32, msg=f"param {name} should be in fp32.") | |
else: | |
self.assertEqual(type_, jnp.float16, msg=f"param {name} is not in fp16.") | |
def test_to_fp32(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
# cast all params to fp16 and back to fp32 | |
params = model.to_fp16(model.params) | |
params = model.to_fp32(params) | |
# test if all params are in fp32 | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
for name, type_ in types.items(): | |
self.assertEqual(type_, jnp.float32, msg=f"param {name} is not in fp32.") | |
# test masking | |
flat_params = flatten_dict(params) | |
key = random.choice(list(flat_params.keys())) # choose a random param | |
mask = {path: path != key for path in flat_params} # don't cast the key | |
mask = unflatten_dict(mask) | |
# cast to fp16 and back to fp32 with mask | |
params = model.to_fp16(model.params) | |
params = model.to_fp32(params, mask) | |
# test if all params are in fp32 except key | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, params)) | |
for name, type_ in types.items(): | |
if name == key: | |
self.assertEqual(type_, jnp.float16, msg=f"param {name} should be in fp16.") | |
else: | |
self.assertEqual(type_, jnp.float32, msg=f"param {name} is not in fp32.") | |
def test_save_load_in_fp16(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
# convert weights to fp16 and save | |
params = model.to_fp16(model.params) | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname, params=params) | |
# load the weights again and check if they are still in fp16 | |
model = model_class.from_pretrained(tmpdirname) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, model.params)) | |
for name, type_ in types.items(): | |
self.assertEqual(type_, jnp.float16, msg=f"param {name} is not in fp16.") | |
def test_save_load_in_bf16(self): | |
config, _ = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
# convert weights to bf16 and save | |
params = model.to_bf16(model.params) | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname, params=params) | |
# load the weights again and check if they are still in fp16 | |
model = model_class.from_pretrained(tmpdirname) | |
types = flatten_dict(jax.tree_util.tree_map(lambda x: x.dtype, model.params)) | |
for name, type_ in types.items(): | |
self.assertEqual(type_, jnp.bfloat16, msg=f"param {name} is not in bf16.") | |
def test_model_main_input_name(self): | |
for model_class in self.all_model_classes: | |
model_signature = inspect.signature(getattr(model_class, "__call__")) | |
# The main input is the name of the argument after `self` | |
observed_main_input_name = list(model_signature.parameters.keys())[1] | |
self.assertEqual(model_class.main_input_name, observed_main_input_name) | |
def test_headmasking(self): | |
if not self.test_head_masking: | |
return | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
config.return_dict = True | |
def _prepare_layer_head_mask(i, attention_heads, num_hidden_layers): | |
if i == 0: | |
return np.concatenate([np.zeros(1, dtype=jnp.int32), np.ones(attention_heads - 1, dtype=jnp.int32)]) | |
if i == num_hidden_layers - 1: | |
return np.concatenate([np.zeros(attention_heads - 1, dtype=jnp.int32), np.ones(1, dtype=jnp.int32)]) | |
return np.ones(attention_heads, dtype=jnp.int32) | |
for model_class in self.all_model_classes: | |
model = model_class(config) | |
inputs_dict["output_attentions"] = True | |
inputs_dict["output_hidden_states"] = False | |
inputs = self._prepare_for_class(inputs_dict, model_class).copy() | |
# Prepare head mask | |
inputs["head_mask"] = np.stack( | |
[ | |
_prepare_layer_head_mask(i, config.num_attention_heads, config.num_hidden_layers) | |
for i in range(config.num_hidden_layers) | |
] | |
) | |
outputs = model(**inputs) | |
def _check_attentions_validity(attentions): | |
# Remove NaN | |
for t in attentions: | |
# Check we don't have more than 25% nans (arbitrary) | |
self.assertLess(np.isnan(t).sum(), t.size / 4) | |
attentions = [np.where(np.isnan(t), 0.0, t) for t in attentions] | |
self.assertAlmostEqual(attentions[0][..., 0, :, :].sum(), 0.0) | |
self.assertNotEqual(attentions[0][..., -1, :, :].sum(), 0.0) | |
if len(attentions) > 2: # encoder-decodere models have only 2 layers in each modules | |
self.assertNotEqual(attentions[1][..., 0, :, :].sum(), 0.0) | |
self.assertAlmostEqual(attentions[-1][..., -2, :, :].sum(), 0.0) | |
self.assertNotEqual(attentions[-1][..., -1, :, :].sum(), 0.0) | |
if model.config.is_encoder_decoder: | |
raise NotImplementedError("The test has not been implemented for encoder-decoder models yet.") | |
else: | |
_check_attentions_validity(outputs.attentions) | |
def test_no_automatic_init(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
config.return_dict = True | |
for model_class in self.all_model_classes: | |
model = model_class(config, _do_init=False) | |
# Check that accesing parmas raises an ValueError when _do_init is False | |
with self.assertRaises(ValueError): | |
params = model.params | |
# Check if we params can be properly initialized when calling init_weights | |
params = model.init_weights(model.key, model.input_shape) | |
self.assertIsInstance(params, FrozenDict) | |
# Check if all required parmas are initialized | |
keys = set(flatten_dict(unfreeze(params)).keys()) | |
self.assertTrue(all(k in keys for k in model.required_params)) | |
# Check if the shapes match | |
flat_params = flatten_dict(unfreeze(params)) | |
for k, v in flatten_dict(unfreeze(model.params_shape_tree)).items(): | |
self.assertEqual( | |
v.shape, | |
flat_params[k].shape, | |
"Shapes of {} do not match. Expecting {}, got {}.".format(k, v.shape, flat_params[k].shape), | |
) | |
# Check that setting params raises an ValueError when _do_init is False | |
with self.assertRaises(ValueError): | |
model.params = params | |
# Check if we can do a forward pass | |
inputs_dict["output_hidden_states"] = True | |
inputs = self._prepare_for_class(inputs_dict, model_class).copy() | |
model(**inputs, params=params) | |
def test_from_pretrained_with_no_automatic_init(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
config.return_dict = True | |
def _assert_all_params_initialised(model, params): | |
# Check if all required parmas are loaded | |
keys = set(flatten_dict(unfreeze(params)).keys()) | |
self.assertTrue(all(k in keys for k in model.required_params)) | |
# Check if the shapes match | |
flat_params = flatten_dict(unfreeze(params)) | |
for k, v in flatten_dict(unfreeze(model.params_shape_tree)).items(): | |
self.assertEqual( | |
v.shape, | |
flat_params[k].shape, | |
"Shapes of {} do not match. Expecting {}, got {}.".format(k, v.shape, flat_params[k].shape), | |
) | |
for model_class in self.all_model_classes: | |
# init the model | |
model = model_class(config) | |
# save the model in the temporary directory | |
# load the saved model with _do_init=False | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname) | |
model, params = model_class.from_pretrained(tmpdirname, _do_init=False) | |
# Check that accesing parmas raises an ValueError when _do_init is False | |
with self.assertRaises(ValueError): | |
params = model.params | |
# Check if all required parmas are loaded | |
_assert_all_params_initialised(model, params) | |
# Check that setting params raises an ValueError when _do_init is False | |
with self.assertRaises(ValueError): | |
model.params = params | |
# Check if init_weights initializes missing keys from from_pretrained | |
flat_params = flatten_dict(unfreeze(params)) | |
random_key = random.choice(list(flat_params.keys())) | |
flat_params.pop(random_key) | |
params = freeze(unflatten_dict(flat_params)) | |
with tempfile.TemporaryDirectory() as tmpdirname: | |
model.save_pretrained(tmpdirname, params=params) | |
model, params = model_class.from_pretrained(tmpdirname, _do_init=False) | |
params = model.init_weights(model.key, model.input_shape, params=params) | |
# Check if all required parmas are loaded | |
_assert_all_params_initialised(model, params) | |
def test_checkpoint_sharding_from_hub(self): | |
model = FlaxBertModel.from_pretrained("ArthurZ/flax-tiny-random-bert-sharded") | |
# the model above is the same as the model below, just a sharded version. | |
ref_model = FlaxBertModel.from_pretrained("hf-internal-testing/tiny-bert-flax-only") | |
for p1, p2 in zip(flatten_dict(model.params).values(), flatten_dict(ref_model.params).values()): | |
assert np.allclose(np.array(p1), np.array(p2)) | |
def test_checkpoint_sharding_local(self): | |
model = FlaxBertModel.from_pretrained("hf-internal-testing/tiny-bert-flax-only") | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
# We use the same folder for various sizes to make sure a new save erases the old checkpoint. | |
for max_size in ["150kB", "150kiB", "200kB", "200kiB"]: | |
model.save_pretrained(tmp_dir, max_shard_size=max_size) | |
# Get each shard file and its size | |
shard_to_size = {} | |
for shard in os.listdir(tmp_dir): | |
if shard.endswith(".msgpack"): | |
shard_file = os.path.join(tmp_dir, shard) | |
shard_to_size[shard_file] = os.path.getsize(shard_file) | |
index_file = os.path.join(tmp_dir, FLAX_WEIGHTS_INDEX_NAME) | |
# Check there is an index but no regular weight file | |
self.assertTrue(os.path.isfile(index_file)) | |
self.assertFalse(os.path.isfile(os.path.join(tmp_dir, FLAX_WEIGHTS_NAME))) | |
# Check a file is bigger than max_size only when it has a single weight | |
for shard_file, size in shard_to_size.items(): | |
if max_size.endswith("kiB"): | |
max_size_int = int(max_size[:-3]) * 2**10 | |
else: | |
max_size_int = int(max_size[:-2]) * 10**3 | |
# Note: pickle adds some junk so the weight of the file can end up being slightly bigger than | |
# the size asked for (since we count parameters) | |
if size >= max_size_int + 50000: | |
with open(shard_file, "rb") as state_f: | |
state_file = from_bytes(FlaxBertModel, state_f.read()) | |
self.assertEqual(len(state_file), 1) | |
# Check the index and the shard files found match | |
with open(index_file, "r", encoding="utf-8") as f: | |
index = json.loads(f.read()) | |
all_shards = set(index["weight_map"].values()) | |
shards_found = {f for f in os.listdir(tmp_dir) if f.endswith(".msgpack")} | |
self.assertSetEqual(all_shards, shards_found) | |
# Finally, check the model can be reloaded | |
new_model = FlaxBertModel.from_pretrained(tmp_dir) | |
for p1, p2 in zip(flatten_dict(model.params).values(), flatten_dict(new_model.params).values()): | |
self.assertTrue(np.allclose(np.array(p1), np.array(p2))) | |
def test_from_sharded_pt(self): | |
model = FlaxBertModel.from_pretrained("hf-internal-testing/tiny-random-bert-sharded", from_pt=True) | |
ref_model = FlaxBertModel.from_pretrained("hf-internal-testing/tiny-random-bert-fx-only") | |
for key, ref_val in flatten_dict(ref_model.params).items(): | |
val = flatten_dict(model.params)[key] | |
assert np.allclose(np.array(val), np.array(ref_val)) | |
def test_gradient_checkpointing(self): | |
config, inputs_dict = self.model_tester.prepare_config_and_inputs_for_common() | |
for model_class in self.all_model_classes: | |
# prepare inputs | |
prepared_inputs_dict = self._prepare_for_class(inputs_dict, model_class) | |
model = model_class(config) | |
remat_model = model_class(config) | |
try: | |
remat_model.enable_gradient_checkpointing() | |
except NotImplementedError: | |
continue | |
outputs = model(**prepared_inputs_dict) | |
remat_outputs = remat_model(**prepared_inputs_dict) | |
# ensure that the dicts of outputs contain the same keys | |
self.assertEqual(outputs.keys(), remat_outputs.keys()) | |
outputs = outputs.to_tuple() | |
remat_outputs = remat_outputs.to_tuple() | |
# ensure that the outputs remain precisely equal | |
for output, remat_output in zip(outputs, remat_outputs): | |
self.assertTrue((output == remat_output).all()) | |
class FlaxModelPushToHubTester(unittest.TestCase): | |
def setUpClass(cls): | |
cls._token = TOKEN | |
HfFolder.save_token(TOKEN) | |
def tearDownClass(cls): | |
try: | |
delete_repo(token=cls._token, repo_id="test-model-flax") | |
except HTTPError: | |
pass | |
try: | |
delete_repo(token=cls._token, repo_id="valid_org/test-model-flax-org") | |
except HTTPError: | |
pass | |
def test_push_to_hub(self): | |
config = BertConfig( | |
vocab_size=99, hidden_size=32, num_hidden_layers=5, num_attention_heads=4, intermediate_size=37 | |
) | |
model = FlaxBertModel(config) | |
model.push_to_hub("test-model-flax", use_auth_token=self._token) | |
new_model = FlaxBertModel.from_pretrained(f"{USER}/test-model-flax") | |
base_params = flatten_dict(unfreeze(model.params)) | |
new_params = flatten_dict(unfreeze(new_model.params)) | |
for key in base_params.keys(): | |
max_diff = (base_params[key] - new_params[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
# Reset repo | |
delete_repo(token=self._token, repo_id="test-model-flax") | |
# Push to hub via save_pretrained | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
model.save_pretrained(tmp_dir, repo_id="test-model-flax", push_to_hub=True, use_auth_token=self._token) | |
new_model = FlaxBertModel.from_pretrained(f"{USER}/test-model-flax") | |
base_params = flatten_dict(unfreeze(model.params)) | |
new_params = flatten_dict(unfreeze(new_model.params)) | |
for key in base_params.keys(): | |
max_diff = (base_params[key] - new_params[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def test_push_to_hub_in_organization(self): | |
config = BertConfig( | |
vocab_size=99, hidden_size=32, num_hidden_layers=5, num_attention_heads=4, intermediate_size=37 | |
) | |
model = FlaxBertModel(config) | |
model.push_to_hub("valid_org/test-model-flax-org", use_auth_token=self._token) | |
new_model = FlaxBertModel.from_pretrained("valid_org/test-model-flax-org") | |
base_params = flatten_dict(unfreeze(model.params)) | |
new_params = flatten_dict(unfreeze(new_model.params)) | |
for key in base_params.keys(): | |
max_diff = (base_params[key] - new_params[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
# Reset repo | |
delete_repo(token=self._token, repo_id="valid_org/test-model-flax-org") | |
# Push to hub via save_pretrained | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
model.save_pretrained( | |
tmp_dir, repo_id="valid_org/test-model-flax-org", push_to_hub=True, use_auth_token=self._token | |
) | |
new_model = FlaxBertModel.from_pretrained("valid_org/test-model-flax-org") | |
base_params = flatten_dict(unfreeze(model.params)) | |
new_params = flatten_dict(unfreeze(new_model.params)) | |
for key in base_params.keys(): | |
max_diff = (base_params[key] - new_params[key]).sum().item() | |
self.assertLessEqual(max_diff, 1e-3, msg=f"{key} not identical") | |
def check_models_equal(model1, model2): | |
models_are_equal = True | |
flat_params_1 = flatten_dict(model1.params) | |
flat_params_2 = flatten_dict(model2.params) | |
for key in flat_params_1.keys(): | |
if np.sum(np.abs(flat_params_1[key] - flat_params_2[key])) > 1e-4: | |
models_are_equal = False | |
return models_are_equal | |
class FlaxModelUtilsTest(unittest.TestCase): | |
def test_model_from_pretrained_subfolder(self): | |
config = BertConfig.from_pretrained("hf-internal-testing/tiny-bert-flax-only") | |
model = FlaxBertModel(config) | |
subfolder = "bert" | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
model.save_pretrained(os.path.join(tmp_dir, subfolder)) | |
with self.assertRaises(OSError): | |
_ = FlaxBertModel.from_pretrained(tmp_dir) | |
model_loaded = FlaxBertModel.from_pretrained(tmp_dir, subfolder=subfolder) | |
self.assertTrue(check_models_equal(model, model_loaded)) | |
def test_model_from_pretrained_subfolder_sharded(self): | |
config = BertConfig.from_pretrained("hf-internal-testing/tiny-bert-flax-only") | |
model = FlaxBertModel(config) | |
subfolder = "bert" | |
with tempfile.TemporaryDirectory() as tmp_dir: | |
model.save_pretrained(os.path.join(tmp_dir, subfolder), max_shard_size="10KB") | |
with self.assertRaises(OSError): | |
_ = FlaxBertModel.from_pretrained(tmp_dir) | |
model_loaded = FlaxBertModel.from_pretrained(tmp_dir, subfolder=subfolder) | |
self.assertTrue(check_models_equal(model, model_loaded)) | |
def test_model_from_pretrained_hub_subfolder(self): | |
subfolder = "bert" | |
model_id = "hf-internal-testing/tiny-random-bert-subfolder" | |
with self.assertRaises(OSError): | |
_ = FlaxBertModel.from_pretrained(model_id) | |
model = FlaxBertModel.from_pretrained(model_id, subfolder=subfolder) | |
self.assertIsNotNone(model) | |
def test_model_from_pretrained_hub_subfolder_sharded(self): | |
subfolder = "bert" | |
model_id = "hf-internal-testing/tiny-random-bert-sharded-subfolder" | |
with self.assertRaises(OSError): | |
_ = FlaxBertModel.from_pretrained(model_id) | |
model = FlaxBertModel.from_pretrained(model_id, subfolder=subfolder) | |
self.assertIsNotNone(model) | |