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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 warnings | |
from argparse import ArgumentParser | |
from os import listdir, makedirs | |
from pathlib import Path | |
from typing import Dict, List, Optional, Tuple | |
from packaging.version import Version, parse | |
from transformers.pipelines import Pipeline, pipeline | |
from transformers.tokenization_utils import BatchEncoding | |
from transformers.utils import ModelOutput, is_tf_available, is_torch_available | |
# This is the minimal required version to | |
# support some ONNX Runtime features | |
ORT_QUANTIZE_MINIMUM_VERSION = parse("1.4.0") | |
SUPPORTED_PIPELINES = [ | |
"feature-extraction", | |
"ner", | |
"sentiment-analysis", | |
"fill-mask", | |
"question-answering", | |
"text-generation", | |
"translation_en_to_fr", | |
"translation_en_to_de", | |
"translation_en_to_ro", | |
] | |
class OnnxConverterArgumentParser(ArgumentParser): | |
""" | |
Wraps all the script arguments supported to export transformers models to ONNX IR | |
""" | |
def __init__(self): | |
super().__init__("ONNX Converter") | |
self.add_argument( | |
"--pipeline", | |
type=str, | |
choices=SUPPORTED_PIPELINES, | |
default="feature-extraction", | |
) | |
self.add_argument( | |
"--model", | |
type=str, | |
required=True, | |
help="Model's id or path (ex: bert-base-cased)", | |
) | |
self.add_argument("--tokenizer", type=str, help="Tokenizer's id or path (ex: bert-base-cased)") | |
self.add_argument( | |
"--framework", | |
type=str, | |
choices=["pt", "tf"], | |
help="Framework for loading the model", | |
) | |
self.add_argument("--opset", type=int, default=11, help="ONNX opset to use") | |
self.add_argument( | |
"--check-loading", | |
action="store_true", | |
help="Check ONNX is able to load the model", | |
) | |
self.add_argument( | |
"--use-external-format", | |
action="store_true", | |
help="Allow exporting model >= than 2Gb", | |
) | |
self.add_argument( | |
"--quantize", | |
action="store_true", | |
help="Quantize the neural network to be run with int8", | |
) | |
self.add_argument("output") | |
def generate_identified_filename(filename: Path, identifier: str) -> Path: | |
""" | |
Append a string-identifier at the end (before the extension, if any) to the provided filepath | |
Args: | |
filename: pathlib.Path The actual path object we would like to add an identifier suffix | |
identifier: The suffix to add | |
Returns: String with concatenated identifier at the end of the filename | |
""" | |
return filename.parent.joinpath(filename.stem + identifier).with_suffix(filename.suffix) | |
def check_onnxruntime_requirements(minimum_version: Version): | |
""" | |
Check onnxruntime is installed and if the installed version match is recent enough | |
Raises: | |
ImportError: If onnxruntime is not installed or too old version is found | |
""" | |
try: | |
import onnxruntime | |
# Parse the version of the installed onnxruntime | |
ort_version = parse(onnxruntime.__version__) | |
# We require 1.4.0 minimum | |
if ort_version < ORT_QUANTIZE_MINIMUM_VERSION: | |
raise ImportError( | |
f"We found an older version of onnxruntime ({onnxruntime.__version__}) " | |
f"but we require onnxruntime to be >= {minimum_version} to enable all the conversions options.\n" | |
"Please update onnxruntime by running `pip install --upgrade onnxruntime`" | |
) | |
except ImportError: | |
raise ImportError( | |
"onnxruntime doesn't seem to be currently installed. " | |
"Please install the onnxruntime by running `pip install onnxruntime`" | |
" and relaunch the conversion." | |
) | |
def ensure_valid_input(model, tokens, input_names): | |
""" | |
Ensure inputs are presented in the correct order, without any Non | |
Args: | |
model: The model used to forward the input data | |
tokens: BatchEncoding holding the input data | |
input_names: The name of the inputs | |
Returns: Tuple | |
""" | |
print("Ensuring inputs are in correct order") | |
model_args_name = model.forward.__code__.co_varnames | |
model_args, ordered_input_names = [], [] | |
for arg_name in model_args_name[1:]: # start at index 1 to skip "self" argument | |
if arg_name in input_names: | |
ordered_input_names.append(arg_name) | |
model_args.append(tokens[arg_name]) | |
else: | |
print(f"{arg_name} is not present in the generated input list.") | |
break | |
print(f"Generated inputs order: {ordered_input_names}") | |
return ordered_input_names, tuple(model_args) | |
def infer_shapes(nlp: Pipeline, framework: str) -> Tuple[List[str], List[str], Dict, BatchEncoding]: | |
""" | |
Attempt to infer the static vs dynamic axes for each input and output tensors for a specific model | |
Args: | |
nlp: The pipeline object holding the model to be exported | |
framework: The framework identifier to dispatch to the correct inference scheme (pt/tf) | |
Returns: | |
- List of the inferred input variable names | |
- List of the inferred output variable names | |
- Dictionary with input/output variables names as key and shape tensor as value | |
- a BatchEncoding reference which was used to infer all the above information | |
""" | |
def build_shape_dict(name: str, tensor, is_input: bool, seq_len: int): | |
if isinstance(tensor, (tuple, list)): | |
return [build_shape_dict(name, t, is_input, seq_len) for t in tensor] | |
else: | |
# Let's assume batch is the first axis with only 1 element (~~ might not be always true ...) | |
axes = {[axis for axis, numel in enumerate(tensor.shape) if numel == 1][0]: "batch"} | |
if is_input: | |
if len(tensor.shape) == 2: | |
axes[1] = "sequence" | |
else: | |
raise ValueError(f"Unable to infer tensor axes ({len(tensor.shape)})") | |
else: | |
seq_axes = [dim for dim, shape in enumerate(tensor.shape) if shape == seq_len] | |
axes.update({dim: "sequence" for dim in seq_axes}) | |
print(f"Found {'input' if is_input else 'output'} {name} with shape: {axes}") | |
return axes | |
tokens = nlp.tokenizer("This is a sample output", return_tensors=framework) | |
seq_len = tokens.input_ids.shape[-1] | |
outputs = nlp.model(**tokens) if framework == "pt" else nlp.model(tokens) | |
if isinstance(outputs, ModelOutput): | |
outputs = outputs.to_tuple() | |
if not isinstance(outputs, (list, tuple)): | |
outputs = (outputs,) | |
# Generate input names & axes | |
input_vars = list(tokens.keys()) | |
input_dynamic_axes = {k: build_shape_dict(k, v, True, seq_len) for k, v in tokens.items()} | |
# flatten potentially grouped outputs (past for gpt2, attentions) | |
outputs_flat = [] | |
for output in outputs: | |
if isinstance(output, (tuple, list)): | |
outputs_flat.extend(output) | |
else: | |
outputs_flat.append(output) | |
# Generate output names & axes | |
output_names = [f"output_{i}" for i in range(len(outputs_flat))] | |
output_dynamic_axes = {k: build_shape_dict(k, v, False, seq_len) for k, v in zip(output_names, outputs_flat)} | |
# Create the aggregated axes representation | |
dynamic_axes = dict(input_dynamic_axes, **output_dynamic_axes) | |
return input_vars, output_names, dynamic_axes, tokens | |
def load_graph_from_args( | |
pipeline_name: str, framework: str, model: str, tokenizer: Optional[str] = None, **models_kwargs | |
) -> Pipeline: | |
""" | |
Convert the set of arguments provided through the CLI to an actual pipeline reference (tokenizer + model | |
Args: | |
pipeline_name: The kind of pipeline to use (ner, question-answering, etc.) | |
framework: The actual model to convert the pipeline from ("pt" or "tf") | |
model: The model name which will be loaded by the pipeline | |
tokenizer: The tokenizer name which will be loaded by the pipeline, default to the model's value | |
Returns: Pipeline object | |
""" | |
# If no tokenizer provided | |
if tokenizer is None: | |
tokenizer = model | |
# Check the wanted framework is available | |
if framework == "pt" and not is_torch_available(): | |
raise Exception("Cannot convert because PyTorch is not installed. Please install torch first.") | |
if framework == "tf" and not is_tf_available(): | |
raise Exception("Cannot convert because TF is not installed. Please install tensorflow first.") | |
print(f"Loading pipeline (model: {model}, tokenizer: {tokenizer})") | |
# Allocate tokenizer and model | |
return pipeline(pipeline_name, model=model, tokenizer=tokenizer, framework=framework, model_kwargs=models_kwargs) | |
def convert_pytorch(nlp: Pipeline, opset: int, output: Path, use_external_format: bool): | |
""" | |
Export a PyTorch backed pipeline to ONNX Intermediate Representation (IR | |
Args: | |
nlp: The pipeline to be exported | |
opset: The actual version of the ONNX operator set to use | |
output: Path where will be stored the generated ONNX model | |
use_external_format: Split the model definition from its parameters to allow model bigger than 2GB | |
Returns: | |
""" | |
if not is_torch_available(): | |
raise Exception("Cannot convert because PyTorch is not installed. Please install torch first.") | |
import torch | |
from torch.onnx import export | |
from transformers.pytorch_utils import is_torch_less_than_1_11 | |
print(f"Using framework PyTorch: {torch.__version__}") | |
with torch.no_grad(): | |
input_names, output_names, dynamic_axes, tokens = infer_shapes(nlp, "pt") | |
ordered_input_names, model_args = ensure_valid_input(nlp.model, tokens, input_names) | |
# PyTorch deprecated the `enable_onnx_checker` and `use_external_data_format` arguments in v1.11, | |
# so we check the torch version for backwards compatibility | |
if is_torch_less_than_1_11: | |
export( | |
nlp.model, | |
model_args, | |
f=output.as_posix(), | |
input_names=ordered_input_names, | |
output_names=output_names, | |
dynamic_axes=dynamic_axes, | |
do_constant_folding=True, | |
use_external_data_format=use_external_format, | |
enable_onnx_checker=True, | |
opset_version=opset, | |
) | |
else: | |
export( | |
nlp.model, | |
model_args, | |
f=output.as_posix(), | |
input_names=ordered_input_names, | |
output_names=output_names, | |
dynamic_axes=dynamic_axes, | |
do_constant_folding=True, | |
opset_version=opset, | |
) | |
def convert_tensorflow(nlp: Pipeline, opset: int, output: Path): | |
""" | |
Export a TensorFlow backed pipeline to ONNX Intermediate Representation (IR) | |
Args: | |
nlp: The pipeline to be exported | |
opset: The actual version of the ONNX operator set to use | |
output: Path where will be stored the generated ONNX model | |
Notes: TensorFlow cannot export model bigger than 2GB due to internal constraint from TensorFlow | |
""" | |
if not is_tf_available(): | |
raise Exception("Cannot convert because TF is not installed. Please install tensorflow first.") | |
print("/!\\ Please note TensorFlow doesn't support exporting model > 2Gb /!\\") | |
try: | |
import tensorflow as tf | |
import tf2onnx | |
from tf2onnx import __version__ as t2ov | |
print(f"Using framework TensorFlow: {tf.version.VERSION}, tf2onnx: {t2ov}") | |
# Build | |
input_names, output_names, dynamic_axes, tokens = infer_shapes(nlp, "tf") | |
# Forward | |
nlp.model.predict(tokens.data) | |
input_signature = [tf.TensorSpec.from_tensor(tensor, name=key) for key, tensor in tokens.items()] | |
model_proto, _ = tf2onnx.convert.from_keras( | |
nlp.model, input_signature, opset=opset, output_path=output.as_posix() | |
) | |
except ImportError as e: | |
raise Exception( | |
f"Cannot import {e.name} required to convert TF model to ONNX. Please install {e.name} first. {e}" | |
) | |
def convert( | |
framework: str, | |
model: str, | |
output: Path, | |
opset: int, | |
tokenizer: Optional[str] = None, | |
use_external_format: bool = False, | |
pipeline_name: str = "feature-extraction", | |
**model_kwargs, | |
): | |
""" | |
Convert the pipeline object to the ONNX Intermediate Representation (IR) format | |
Args: | |
framework: The framework the pipeline is backed by ("pt" or "tf") | |
model: The name of the model to load for the pipeline | |
output: The path where the ONNX graph will be stored | |
opset: The actual version of the ONNX operator set to use | |
tokenizer: The name of the model to load for the pipeline, default to the model's name if not provided | |
use_external_format: | |
Split the model definition from its parameters to allow model bigger than 2GB (PyTorch only) | |
pipeline_name: The kind of pipeline to instantiate (ner, question-answering, etc.) | |
model_kwargs: Keyword arguments to be forwarded to the model constructor | |
Returns: | |
""" | |
warnings.warn( | |
"The `transformers.convert_graph_to_onnx` package is deprecated and will be removed in version 5 of" | |
" Transformers", | |
FutureWarning, | |
) | |
print(f"ONNX opset version set to: {opset}") | |
# Load the pipeline | |
nlp = load_graph_from_args(pipeline_name, framework, model, tokenizer, **model_kwargs) | |
if not output.parent.exists(): | |
print(f"Creating folder {output.parent}") | |
makedirs(output.parent.as_posix()) | |
elif len(listdir(output.parent.as_posix())) > 0: | |
raise Exception(f"Folder {output.parent.as_posix()} is not empty, aborting conversion") | |
# Export the graph | |
if framework == "pt": | |
convert_pytorch(nlp, opset, output, use_external_format) | |
else: | |
convert_tensorflow(nlp, opset, output) | |
def optimize(onnx_model_path: Path) -> Path: | |
""" | |
Load the model at the specified path and let onnxruntime look at transformations on the graph to enable all the | |
optimizations possible | |
Args: | |
onnx_model_path: filepath where the model binary description is stored | |
Returns: Path where the optimized model binary description has been saved | |
""" | |
from onnxruntime import InferenceSession, SessionOptions | |
# Generate model name with suffix "optimized" | |
opt_model_path = generate_identified_filename(onnx_model_path, "-optimized") | |
sess_option = SessionOptions() | |
sess_option.optimized_model_filepath = opt_model_path.as_posix() | |
_ = InferenceSession(onnx_model_path.as_posix(), sess_option) | |
print(f"Optimized model has been written at {opt_model_path}: \N{heavy check mark}") | |
print("/!\\ Optimized model contains hardware specific operators which might not be portable. /!\\") | |
return opt_model_path | |
def quantize(onnx_model_path: Path) -> Path: | |
""" | |
Quantize the weights of the model from float32 to in8 to allow very efficient inference on modern CPU | |
Args: | |
onnx_model_path: Path to location the exported ONNX model is stored | |
Returns: The Path generated for the quantized | |
""" | |
import onnx | |
import onnxruntime | |
from onnx.onnx_pb import ModelProto | |
from onnxruntime.quantization import QuantizationMode | |
from onnxruntime.quantization.onnx_quantizer import ONNXQuantizer | |
from onnxruntime.quantization.registry import IntegerOpsRegistry | |
# Load the ONNX model | |
onnx_model = onnx.load(onnx_model_path.as_posix()) | |
if parse(onnx.__version__) < parse("1.5.0"): | |
print( | |
"Models larger than 2GB will fail to quantize due to protobuf constraint.\n" | |
"Please upgrade to onnxruntime >= 1.5.0." | |
) | |
# Copy it | |
copy_model = ModelProto() | |
copy_model.CopyFrom(onnx_model) | |
# Construct quantizer | |
# onnxruntime renamed input_qType to activation_qType in v1.13.1, so we | |
# check the onnxruntime version to ensure backward compatibility. | |
# See also: https://github.com/microsoft/onnxruntime/pull/12873 | |
if parse(onnxruntime.__version__) < parse("1.13.1"): | |
quantizer = ONNXQuantizer( | |
model=copy_model, | |
per_channel=False, | |
reduce_range=False, | |
mode=QuantizationMode.IntegerOps, | |
static=False, | |
weight_qType=True, | |
input_qType=False, | |
tensors_range=None, | |
nodes_to_quantize=None, | |
nodes_to_exclude=None, | |
op_types_to_quantize=list(IntegerOpsRegistry), | |
) | |
else: | |
quantizer = ONNXQuantizer( | |
model=copy_model, | |
per_channel=False, | |
reduce_range=False, | |
mode=QuantizationMode.IntegerOps, | |
static=False, | |
weight_qType=True, | |
activation_qType=False, | |
tensors_range=None, | |
nodes_to_quantize=None, | |
nodes_to_exclude=None, | |
op_types_to_quantize=list(IntegerOpsRegistry), | |
) | |
# Quantize and export | |
quantizer.quantize_model() | |
# Append "-quantized" at the end of the model's name | |
quantized_model_path = generate_identified_filename(onnx_model_path, "-quantized") | |
# Save model | |
print(f"Quantized model has been written at {quantized_model_path}: \N{heavy check mark}") | |
onnx.save_model(quantizer.model.model, quantized_model_path.as_posix()) | |
return quantized_model_path | |
def verify(path: Path): | |
from onnxruntime import InferenceSession, SessionOptions | |
from onnxruntime.capi.onnxruntime_pybind11_state import RuntimeException | |
print(f"Checking ONNX model loading from: {path} ...") | |
try: | |
onnx_options = SessionOptions() | |
_ = InferenceSession(path.as_posix(), onnx_options, providers=["CPUExecutionProvider"]) | |
print(f"Model {path} correctly loaded: \N{heavy check mark}") | |
except RuntimeException as re: | |
print(f"Error while loading the model {re}: \N{heavy ballot x}") | |
if __name__ == "__main__": | |
parser = OnnxConverterArgumentParser() | |
args = parser.parse_args() | |
# Make sure output is absolute path | |
args.output = Path(args.output).absolute() | |
try: | |
print("\n====== Converting model to ONNX ======") | |
# Convert | |
convert( | |
args.framework, | |
args.model, | |
args.output, | |
args.opset, | |
args.tokenizer, | |
args.use_external_format, | |
args.pipeline, | |
) | |
if args.quantize: | |
# Ensure requirements for quantization on onnxruntime is met | |
check_onnxruntime_requirements(ORT_QUANTIZE_MINIMUM_VERSION) | |
# onnxruntime optimizations doesn't provide the same level of performances on TensorFlow than PyTorch | |
if args.framework == "tf": | |
print( | |
"\t Using TensorFlow might not provide the same optimization level compared to PyTorch.\n" | |
"\t For TensorFlow users you can try optimizing the model directly through onnxruntime_tools.\n" | |
"\t For more information, please refer to the onnxruntime documentation:\n" | |
"\t\thttps://github.com/microsoft/onnxruntime/tree/master/onnxruntime/python/tools/transformers\n" | |
) | |
print("\n====== Optimizing ONNX model ======") | |
# Quantization works best when using the optimized version of the model | |
args.optimized_output = optimize(args.output) | |
# Do the quantization on the right graph | |
args.quantized_output = quantize(args.optimized_output) | |
# And verify | |
if args.check_loading: | |
print("\n====== Check exported ONNX model(s) ======") | |
verify(args.output) | |
if hasattr(args, "optimized_output"): | |
verify(args.optimized_output) | |
if hasattr(args, "quantized_output"): | |
verify(args.quantized_output) | |
except Exception as e: | |
print(f"Error while converting the model: {e}") | |
exit(1) | |