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282 lines
12 KiB
282 lines
12 KiB
""" PyTorch Feature Extraction Helpers
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A collection of classes, functions, modules to help extract features from models
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and provide a common interface for describing them.
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Hacked together by Ross Wightman
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"""
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from collections import OrderedDict, defaultdict
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from copy import deepcopy
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from functools import partial
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from typing import Dict, List, Tuple
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import torch
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import torch.nn as nn
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class FeatureInfo:
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def __init__(self, feature_info: List[Dict], out_indices: Tuple[int]):
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prev_reduction = 1
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for fi in feature_info:
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# sanity check the mandatory fields, there may be additional fields depending on the model
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assert 'num_chs' in fi and fi['num_chs'] > 0
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assert 'reduction' in fi and fi['reduction'] >= prev_reduction
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prev_reduction = fi['reduction']
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assert 'module' in fi
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self.out_indices = out_indices
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self.info = feature_info
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def from_other(self, out_indices: Tuple[int]):
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return FeatureInfo(deepcopy(self.info), out_indices)
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def get(self, key, idx=None):
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""" Get value by key at specified index (indices)
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if idx == None, returns value for key at each output index
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if idx is an integer, return value for that feature module index (ignoring output indices)
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if idx is a list/tupple, return value for each module index (ignoring output indices)
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"""
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if idx is None:
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return [self.info[i][key] for i in self.out_indices]
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if isinstance(idx, (tuple, list)):
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return [self.info[i][key] for i in idx]
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else:
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return self.info[idx][key]
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def get_dicts(self, keys=None, idx=None):
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""" return info dicts for specified keys (or all if None) at specified indices (or out_indices if None)
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"""
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if idx is None:
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if keys is None:
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return [self.info[i] for i in self.out_indices]
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else:
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return [{k: self.info[i][k] for k in keys} for i in self.out_indices]
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if isinstance(idx, (tuple, list)):
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return [self.info[i] if keys is None else {k: self.info[i][k] for k in keys} for i in idx]
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else:
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return self.info[idx] if keys is None else {k: self.info[idx][k] for k in keys}
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def channels(self, idx=None):
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""" feature channels accessor
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"""
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return self.get('num_chs', idx)
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def reduction(self, idx=None):
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""" feature reduction (output stride) accessor
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"""
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return self.get('reduction', idx)
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def module_name(self, idx=None):
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""" feature module name accessor
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"""
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return self.get('module', idx)
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def __getitem__(self, item):
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return self.info[item]
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def __len__(self):
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return len(self.info)
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class FeatureHooks:
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""" Feature Hook Helper
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This module helps with the setup and extraction of hooks for extracting features from
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internal nodes in a model by node name. This works quite well in eager Python but needs
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redesign for torcscript.
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"""
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def __init__(self, hooks, named_modules, out_map=None, default_hook_type='forward'):
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# setup feature hooks
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modules = {k: v for k, v in named_modules}
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for i, h in enumerate(hooks):
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hook_name = h['module']
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m = modules[hook_name]
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hook_id = out_map[i] if out_map else hook_name
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hook_fn = partial(self._collect_output_hook, hook_id)
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hook_type = h['hook_type'] if 'hook_type' in h else default_hook_type
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if hook_type == 'forward_pre':
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m.register_forward_pre_hook(hook_fn)
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elif hook_type == 'forward':
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m.register_forward_hook(hook_fn)
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else:
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assert False, "Unsupported hook type"
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self._feature_outputs = defaultdict(OrderedDict)
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def _collect_output_hook(self, hook_id, *args):
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x = args[-1] # tensor we want is last argument, output for fwd, input for fwd_pre
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if isinstance(x, tuple):
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x = x[0] # unwrap input tuple
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self._feature_outputs[x.device][hook_id] = x
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def get_output(self, device) -> Dict[str, torch.tensor]:
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output = self._feature_outputs[device]
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self._feature_outputs[device] = OrderedDict() # clear after reading
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return output
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def _module_list(module, flatten_sequential=False):
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# a yield/iter would be better for this but wouldn't be compatible with torchscript
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ml = []
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for name, module in module.named_children():
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if flatten_sequential and isinstance(module, nn.Sequential):
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# first level of Sequential containers is flattened into containing model
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for child_name, child_module in module.named_children():
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combined = [name, child_name]
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ml.append(('_'.join(combined), '.'.join(combined), child_module))
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else:
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ml.append((name, name, module))
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return ml
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def _get_feature_info(net, out_indices):
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feature_info = getattr(net, 'feature_info')
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if isinstance(feature_info, FeatureInfo):
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return feature_info.from_other(out_indices)
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elif isinstance(feature_info, (list, tuple)):
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return FeatureInfo(net.feature_info, out_indices)
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else:
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assert False, "Provided feature_info is not valid"
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def _get_return_layers(feature_info, out_map):
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module_names = feature_info.module_name()
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return_layers = {}
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for i, name in enumerate(module_names):
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return_layers[name] = out_map[i] if out_map is not None else feature_info.out_indices[i]
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return return_layers
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class FeatureDictNet(nn.ModuleDict):
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""" Feature extractor with OrderedDict return
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Wrap a model and extract features as specified by the out indices, the network is
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partially re-built from contained modules.
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There is a strong assumption that the modules have been registered into the model in the same
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order as they are used. There should be no reuse of the same nn.Module more than once, including
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trivial modules like `self.relu = nn.ReLU`.
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Only submodules that are directly assigned to the model class (`model.feature1`) or at most
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one Sequential container deep (`model.features.1`, with flatten_sequent=True) can be captured.
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All Sequential containers that are directly assigned to the original model will have their
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modules assigned to this module with the name `model.features.1` being changed to `model.features_1`
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Arguments:
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model (nn.Module): model from which we will extract the features
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out_indices (tuple[int]): model output indices to extract features for
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out_map (sequence): list or tuple specifying desired return id for each out index,
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otherwise str(index) is used
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feature_concat (bool): whether to concatenate intermediate features that are lists or tuples
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vs select element [0]
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flatten_sequential (bool): whether to flatten sequential modules assigned to model
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"""
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def __init__(
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self, model,
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out_indices=(0, 1, 2, 3, 4), out_map=None, feature_concat=False, flatten_sequential=False):
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super(FeatureDictNet, self).__init__()
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self.feature_info = _get_feature_info(model, out_indices)
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self.concat = feature_concat
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self.return_layers = {}
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return_layers = _get_return_layers(self.feature_info, out_map)
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modules = _module_list(model, flatten_sequential=flatten_sequential)
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remaining = set(return_layers.keys())
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layers = OrderedDict()
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for new_name, old_name, module in modules:
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layers[new_name] = module
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if old_name in remaining:
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# return id has to be consistently str type for torchscript
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self.return_layers[new_name] = str(return_layers[old_name])
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remaining.remove(old_name)
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if not remaining:
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break
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assert not remaining and len(self.return_layers) == len(return_layers), \
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f'Return layers ({remaining}) are not present in model'
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self.update(layers)
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def _collect(self, x) -> (Dict[str, torch.Tensor]):
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out = OrderedDict()
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for name, module in self.items():
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x = module(x)
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if name in self.return_layers:
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out_id = self.return_layers[name]
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if isinstance(x, (tuple, list)):
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# If model tap is a tuple or list, concat or select first element
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# FIXME this may need to be more generic / flexible for some nets
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out[out_id] = torch.cat(x, 1) if self.concat else x[0]
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else:
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out[out_id] = x
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return out
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def forward(self, x) -> Dict[str, torch.Tensor]:
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return self._collect(x)
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class FeatureListNet(FeatureDictNet):
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""" Feature extractor with list return
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See docstring for FeatureDictNet above, this class exists only to appease Torchscript typing constraints.
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In eager Python we could have returned List[Tensor] vs Dict[id, Tensor] based on a member bool.
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"""
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def __init__(
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self, model,
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out_indices=(0, 1, 2, 3, 4), out_map=None, feature_concat=False, flatten_sequential=False):
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super(FeatureListNet, self).__init__(
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model, out_indices=out_indices, out_map=out_map, feature_concat=feature_concat,
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flatten_sequential=flatten_sequential)
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def forward(self, x) -> (List[torch.Tensor]):
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return list(self._collect(x).values())
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class FeatureHookNet(nn.ModuleDict):
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""" FeatureHookNet
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Wrap a model and extract features specified by the out indices using forward/forward-pre hooks.
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If `no_rewrite` is True, features are extracted via hooks without modifying the underlying
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network in any way.
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If `no_rewrite` is False, the model will be re-written as in the
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FeatureList/FeatureDict case by folding first to second (Sequential only) level modules into this one.
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FIXME this does not currently work with Torchscript, see FeatureHooks class
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"""
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def __init__(
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self, model,
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out_indices=(0, 1, 2, 3, 4), out_map=None, out_as_dict=False, no_rewrite=False,
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feature_concat=False, flatten_sequential=False, default_hook_type='forward'):
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super(FeatureHookNet, self).__init__()
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assert not torch.jit.is_scripting()
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self.feature_info = _get_feature_info(model, out_indices)
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self.out_as_dict = out_as_dict
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layers = OrderedDict()
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hooks = []
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if no_rewrite:
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assert not flatten_sequential
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if hasattr(model, 'reset_classifier'): # make sure classifier is removed?
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model.reset_classifier(0)
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layers['body'] = model
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hooks.extend(self.feature_info.get_dicts())
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else:
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modules = _module_list(model, flatten_sequential=flatten_sequential)
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remaining = {f['module']: f['hook_type'] if 'hook_type' in f else default_hook_type
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for f in self.feature_info.get_dicts()}
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for new_name, old_name, module in modules:
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layers[new_name] = module
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for fn, fm in module.named_modules(prefix=old_name):
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if fn in remaining:
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hooks.append(dict(module=fn, hook_type=remaining[fn]))
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del remaining[fn]
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if not remaining:
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break
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assert not remaining, f'Return layers ({remaining}) are not present in model'
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self.update(layers)
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self.hooks = FeatureHooks(hooks, model.named_modules(), out_map=out_map)
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def forward(self, x):
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for name, module in self.items():
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x = module(x)
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out = self.hooks.get_output(x.device)
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return out if self.out_as_dict else list(out.values())
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