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AutoEval / doctr /models /utils /tensorflow.py

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	# Copyright (C) 2021-2024, Mindee.

	# This program is licensed under the Apache License 2.0.
	# See LICENSE or go to <https://opensource.org/licenses/Apache-2.0> for full license details.

	import logging
	import os
	from typing import Any, Callable, List, Optional, Tuple, Union
	from zipfile import ZipFile

	import tensorflow as tf
	import tf2onnx
	from tensorflow.keras import Model, layers

	from doctr.utils.data import download_from_url

	logging.getLogger("tensorflow").setLevel(logging.DEBUG)


	__all__ = [
	"load_pretrained_params",
	"conv_sequence",
	"IntermediateLayerGetter",
	"export_model_to_onnx",
	"_copy_tensor",
	"_bf16_to_float32",
	]


	def _copy_tensor(x: tf.Tensor) -> tf.Tensor:
	return tf.identity(x)


	def _bf16_to_float32(x: tf.Tensor) -> tf.Tensor:
	# Convert bfloat16 to float32 for numpy compatibility
	return tf.cast(x, tf.float32) if x.dtype == tf.bfloat16 else x


	def load_pretrained_params(
	model: Model,
	url: Optional[str] = None,
	hash_prefix: Optional[str] = None,
	overwrite: bool = False,
	internal_name: str = "weights",
	**kwargs: Any,
	) -> None:
	"""Load a set of parameters onto a model

	>>> from doctr.models import load_pretrained_params
	>>> load_pretrained_params(model, "https://yoursource.com/yourcheckpoint-yourhash.zip")

	Args:
	----
	model: the keras model to be loaded
	url: URL of the zipped set of parameters
	hash_prefix: first characters of SHA256 expected hash
	overwrite: should the zip extraction be enforced if the archive has already been extracted
	internal_name: name of the ckpt files
	**kwargs: additional arguments to be passed to `doctr.utils.data.download_from_url`
	"""
	if url is None:
	logging.warning("Invalid model URL, using default initialization.")
	else:
	archive_path = download_from_url(url, hash_prefix=hash_prefix, cache_subdir="models", **kwargs)

	# Unzip the archive
	params_path = archive_path.parent.joinpath(archive_path.stem)
	if not params_path.is_dir() or overwrite:
	with ZipFile(archive_path, "r") as f:
	f.extractall(path=params_path)

	# Load weights
	model.load_weights(f"{params_path}{os.sep}{internal_name}")


	def conv_sequence(
	out_channels: int,
	activation: Optional[Union[str, Callable]] = None,
	bn: bool = False,
	padding: str = "same",
	kernel_initializer: str = "he_normal",
	**kwargs: Any,
	) -> List[layers.Layer]:
	"""Builds a convolutional-based layer sequence

	>>> from tensorflow.keras import Sequential
	>>> from doctr.models import conv_sequence
	>>> module = Sequential(conv_sequence(32, 'relu', True, kernel_size=3, input_shape=[224, 224, 3]))

	Args:
	----
	out_channels: number of output channels
	activation: activation to be used (default: no activation)
	bn: should a batch normalization layer be added
	padding: padding scheme
	kernel_initializer: kernel initializer
	**kwargs: additional arguments to be passed to the convolutional layer

	Returns:
	-------
	list of layers
	"""
	# No bias before Batch norm
	kwargs["use_bias"] = kwargs.get("use_bias", not bn)
	# Add activation directly to the conv if there is no BN
	kwargs["activation"] = activation if not bn else None
	conv_seq = [layers.Conv2D(out_channels, padding=padding, kernel_initializer=kernel_initializer, **kwargs)]

	if bn:
	conv_seq.append(layers.BatchNormalization())

	if (isinstance(activation, str) or callable(activation)) and bn:
	# Activation function can either be a string or a function ('relu' or tf.nn.relu)
	conv_seq.append(layers.Activation(activation))

	return conv_seq


	class IntermediateLayerGetter(Model):
	"""Implements an intermediate layer getter

	>>> from tensorflow.keras.applications import ResNet50
	>>> from doctr.models import IntermediateLayerGetter
	>>> target_layers = ["conv2_block3_out", "conv3_block4_out", "conv4_block6_out", "conv5_block3_out"]
	>>> feat_extractor = IntermediateLayerGetter(ResNet50(include_top=False, pooling=False), target_layers)

	Args:
	----
	model: the model to extract feature maps from
	layer_names: the list of layers to retrieve the feature map from
	"""

	def __init__(self, model: Model, layer_names: List[str]) -> None:
	intermediate_fmaps = [model.get_layer(layer_name).get_output_at(0) for layer_name in layer_names]
	super().__init__(model.input, outputs=intermediate_fmaps)

	def __repr__(self) -> str:
	return f"{self.__class__.__name__}()"


	def export_model_to_onnx(
	model: Model, model_name: str, dummy_input: List[tf.TensorSpec], **kwargs: Any
	) -> Tuple[str, List[str]]:
	"""Export model to ONNX format.

	>>> import tensorflow as tf
	>>> from doctr.models.classification import resnet18
	>>> from doctr.models.utils import export_classification_model_to_onnx
	>>> model = resnet18(pretrained=True, include_top=True)
	>>> export_model_to_onnx(model, "my_model",
	>>> dummy_input=[tf.TensorSpec([None, 32, 32, 3], tf.float32, name="input")])

	Args:
	----
	model: the keras model to be exported
	model_name: the name for the exported model
	dummy_input: the dummy input to the model
	kwargs: additional arguments to be passed to tf2onnx

	Returns:
	-------
	the path to the exported model and a list with the output layer names
	"""
	large_model = kwargs.get("large_model", False)
	model_proto, _ = tf2onnx.convert.from_keras(
	model,
	input_signature=dummy_input,
	output_path=f"{model_name}.zip" if large_model else f"{model_name}.onnx",
	**kwargs,
	)
	# Get the output layer names
	output = [n.name for n in model_proto.graph.output]

	# models which are too large (weights > 2GB while converting to ONNX) needs to be handled
	# about an external tensor storage where the graph and weights are seperatly stored in a archive
	if large_model:
	logging.info(f"Model exported to {model_name}.zip")
	return f"{model_name}.zip", output

	logging.info(f"Model exported to {model_name}.zip")
	return f"{model_name}.onnx", output