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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)
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