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intermediate_layer_getter.py
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intermediate_layer_getter.py
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import torch
from collections import OrderedDict
from torch import nn
class IntermediateLayerGetter(nn.ModuleDict):
"""
IntermediateLayerGetter is the direct copy of torchvision.models.segmentation/_utils/IntermediateLayerGetter.
We had to copy here as it is a protected class.
Module wrapper that returns intermediate layers from a model
It has a strong assumption that the modules have been registered
into the model in the same order as they are used.
This means that one should **not** reuse the same nn.Module
twice in the forward if you want this to work.
Additionally, it is only able to query submodules that are directly
assigned to the model. So if `model` is passed, `model.feature1` can
be returned, but not `model.feature1.layer2`.
Arguments:
model (nn.Module): model on which we will extract the features
return_layers (Dict[name, new_name]): a dict containing the names
of the modules for which the activations will be returned as
the key of the dict, and the value of the dict is the name
of the returned activation (which the user can specify).
Examples::
>>> m = torchvision.models.resnet18(pretrained=True)
>>> # extract layer1 and layer3, giving as names `feat1` and feat2`
>>> new_m = torchvision.models._utils.IntermediateLayerGetter(m,
>>> {'layer1': 'feat1', 'layer3': 'feat2'})
>>> out = new_m(torch.rand(1, 3, 224, 224))
>>> print([(k, v.shape) for k, v in out.items()])
>>> [('feat1', torch.Size([1, 64, 56, 56])),
>>> ('feat2', torch.Size([1, 256, 14, 14]))]
"""
def __init__(self, model, return_layers):
if not set(return_layers).issubset([name for name, _ in model.named_children()]):
raise ValueError("return_layers are not present in model")
orig_return_layers = return_layers
return_layers = {k: v for k, v in return_layers.items()}
layers = OrderedDict()
for name, module in model.named_children():
layers[name] = module
if name in return_layers:
del return_layers[name]
if not return_layers:
break
super(IntermediateLayerGetter, self).__init__(layers)
self.return_layers = orig_return_layers
def forward(self, x):
out = OrderedDict()
for name, module in self.named_children():
x = module(x)
if name in self.return_layers:
out_name = self.return_layers[name]
out[out_name] = x
return out