RADIO-H / hf_model.py

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	# Copyright (c) 2023-2024, NVIDIA CORPORATION. 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.
	from collections import namedtuple
	from typing import Callable, Dict, Optional, List, Union

	from timm.models import VisionTransformer
	import torch
	from torch import nn
	from transformers import PretrainedConfig, PreTrainedModel


	from .common import RESOURCE_MAP, DEFAULT_VERSION

	# Import all required modules.
	from .adaptor_base import AdaptorBase, RadioOutput, AdaptorInput
	from .adaptor_generic import GenericAdaptor, AdaptorBase
	from .adaptor_mlp import create_mlp_from_config
	from .adaptor_registry import adaptor_registry
	from .cls_token import ClsToken
	from .enable_cpe_support import enable_cpe
	from .enable_spectral_reparam import configure_spectral_reparam_from_args
	from .eradio_model import eradio
	from .feature_normalizer import FeatureNormalizer, IntermediateFeatureNormalizer
	from .radio_model import create_model_from_args
	from .radio_model import RADIOModel as RADIOModelBase, Resolution
	from .input_conditioner import get_default_conditioner, InputConditioner
	from .open_clip_adaptor import OpenCLIP_RADIO
	from .vit_patch_generator import ViTPatchGenerator
	from .vitdet import apply_vitdet_arch, VitDetArgs

	# Register extra models
	from .extra_timm_models import *



	def rename_all_gamma_to_weight_with_proxy(module):
	"""
	Renames all parameters named 'gamma' in a module (including submodules)
	to 'weight' and sets up a property so that accesses to 'gamma' still work.
	"""
	# Recursively iterate through submodules
	for submodule_name, submodule in module.named_modules():
	# Get all parameters within the current submodule
	for param_name, param in list(submodule.named_parameters(recurse=False)):
	if 'gamma' in param_name:
	# Generate the new name by replacing 'gamma' with 'weight'
	new_name = param_name.replace('gamma', 'weight')

	# Remove the old parameter and assign it with the new name
	delattr(submodule, param_name)
	setattr(submodule, new_name, nn.Parameter(param.data))

	# Define a property to proxy access to the renamed parameter
	def make_property(old_name, new_name):
	return property(lambda self: getattr(self, new_name),
	lambda self, value: setattr(self, new_name, value))

	# Add the property to the submodule to proxy access to 'gamma'
	setattr(submodule.__class__, param_name, make_property(param_name, new_name))


	class RADIOConfig(PretrainedConfig):
	"""Pretrained Hugging Face configuration for RADIO models."""

	def __init__(
	self,
	args: Optional[dict] = None,
	version: Optional[str] = DEFAULT_VERSION,
	patch_size: Optional[int] = None,
	max_resolution: Optional[int] = None,
	preferred_resolution: Optional[Resolution] = None,
	adaptor_names: Union[str, List[str]] = None,
	adaptor_configs: Dict[str, Dict[str, int]] = None,
	vitdet_window_size: Optional[int] = None,
	feature_normalizer_config: Optional[dict] = None,
	inter_feature_normalizer_config: Optional[dict] = None,
	rename_gamma_to_weight: bool = False,
	**kwargs,
	):
	self.args = args
	for field in ["dtype", "amp_dtype"]:
	if self.args is not None and field in self.args:
	# Convert to a string in order to make it serializable.
	# For example for torch.float32 we will store "float32",
	# for "bfloat16" we will store "bfloat16".
	self.args[field] = str(args[field]).split(".")[-1]
	self.version = version
	resource = RESOURCE_MAP[version]
	self.patch_size = patch_size or resource.patch_size
	self.max_resolution = max_resolution or resource.max_resolution
	self.preferred_resolution = (
	preferred_resolution or resource.preferred_resolution
	)
	self.adaptor_names = adaptor_names
	self.adaptor_configs = adaptor_configs
	self.vitdet_window_size = vitdet_window_size
	self.feature_normalizer_config = feature_normalizer_config
	self.inter_feature_normalizer_config = inter_feature_normalizer_config
	self.rename_gamma_to_weight = rename_gamma_to_weight
	super().__init__(**kwargs)



	class RADIOModel(PreTrainedModel):
	"""Pretrained Hugging Face model for RADIO.

	This class inherits from PreTrainedModel, which provides
	HuggingFace's functionality for loading and saving models.
	"""

	config_class = RADIOConfig

	def __init__(self, config: RADIOConfig):
	super().__init__(config)

	RADIOArgs = namedtuple("RADIOArgs", config.args.keys())
	args = RADIOArgs(**config.args)
	self.config = config

	model = create_model_from_args(args)
	input_conditioner: InputConditioner = get_default_conditioner()

	dtype = getattr(args, "dtype", torch.float32)
	if isinstance(dtype, str):
	# Convert the dtype's string representation back to a dtype.
	dtype = getattr(torch, dtype)
	model.to(dtype=dtype)
	input_conditioner.dtype = dtype

	summary_idxs = torch.tensor(
	[i for i, t in enumerate(args.teachers) if t.get("use_summary", True)],
	dtype=torch.int64,
	)

	adaptor_configs = config.adaptor_configs
	adaptor_names = config.adaptor_names or []

	adaptors = dict()
	for adaptor_name in adaptor_names:
	mlp_config = adaptor_configs[adaptor_name]
	adaptor = GenericAdaptor(args, None, None, mlp_config)
	adaptor.head_idx = mlp_config["head_idx"]
	adaptors[adaptor_name] = adaptor

	feature_normalizer = None
	if config.feature_normalizer_config is not None:
	# Actual normalization values will be restored when loading checkpoint weights.
	feature_normalizer = FeatureNormalizer(config.feature_normalizer_config["embed_dim"])

	inter_feature_normalizer = None
	if config.inter_feature_normalizer_config is not None:
	inter_feature_normalizer = IntermediateFeatureNormalizer(
	config.inter_feature_normalizer_config["num_intermediates"],
	config.inter_feature_normalizer_config["embed_dim"],
	rot_per_layer=config.inter_feature_normalizer_config["rot_per_layer"],
	dtype=dtype)

	self.radio_model = RADIOModelBase(
	model,
	input_conditioner,
	summary_idxs=summary_idxs,
	patch_size=config.patch_size,
	max_resolution=config.max_resolution,
	window_size=config.vitdet_window_size,
	preferred_resolution=config.preferred_resolution,
	adaptors=adaptors,
	feature_normalizer=feature_normalizer,
	inter_feature_normalizer=inter_feature_normalizer,
	)

	if config.rename_gamma_to_weight:
	rename_all_gamma_to_weight_with_proxy(self.radio_model)

	@property
	def adaptors(self) -> nn.ModuleDict:
	return self.radio_model.adaptors

	@property
	def model(self) -> VisionTransformer:
	return self.radio_model.model

	@property
	def input_conditioner(self) -> InputConditioner:
	return self.radio_model.input_conditioner

	@property
	def num_summary_tokens(self) -> int:
	return self.radio_model.num_summary_tokens

	@property
	def patch_size(self) -> int:
	return self.radio_model.patch_size

	@property
	def max_resolution(self) -> int:
	return self.radio_model.max_resolution

	@property
	def preferred_resolution(self) -> Resolution:
	return self.radio_model.preferred_resolution

	@property
	def window_size(self) -> int:
	return self.radio_model.window_size

	@property
	def min_resolution_step(self) -> int:
	return self.radio_model.min_resolution_step

	def make_preprocessor_external(self) -> Callable[[torch.Tensor], torch.Tensor]:
	return self.radio_model.make_preprocessor_external()

	def get_nearest_supported_resolution(self, height: int, width: int) -> Resolution:
	return self.radio_model.get_nearest_supported_resolution(height, width)

	def switch_to_deploy(self):
	return self.radio_model.switch_to_deploy()

	def forward(self, x: torch.Tensor):
	return self.radio_model.forward(x)