IDM-VTON / detectron2 /export /torchscript.py
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# Copyright (c) Facebook, Inc. and its affiliates.
import os
import torch
from detectron2.utils.file_io import PathManager
from .torchscript_patch import freeze_training_mode, patch_instances
__all__ = ["scripting_with_instances", "dump_torchscript_IR"]
def scripting_with_instances(model, fields):
"""
Run :func:`torch.jit.script` on a model that uses the :class:`Instances` class. Since
attributes of :class:`Instances` are "dynamically" added in eager mode,it is difficult
for scripting to support it out of the box. This function is made to support scripting
a model that uses :class:`Instances`. It does the following:
1. Create a scriptable ``new_Instances`` class which behaves similarly to ``Instances``,
but with all attributes been "static".
The attributes need to be statically declared in the ``fields`` argument.
2. Register ``new_Instances``, and force scripting compiler to
use it when trying to compile ``Instances``.
After this function, the process will be reverted. User should be able to script another model
using different fields.
Example:
Assume that ``Instances`` in the model consist of two attributes named
``proposal_boxes`` and ``objectness_logits`` with type :class:`Boxes` and
:class:`Tensor` respectively during inference. You can call this function like:
::
fields = {"proposal_boxes": Boxes, "objectness_logits": torch.Tensor}
torchscipt_model = scripting_with_instances(model, fields)
Note:
It only support models in evaluation mode.
Args:
model (nn.Module): The input model to be exported by scripting.
fields (Dict[str, type]): Attribute names and corresponding type that
``Instances`` will use in the model. Note that all attributes used in ``Instances``
need to be added, regardless of whether they are inputs/outputs of the model.
Data type not defined in detectron2 is not supported for now.
Returns:
torch.jit.ScriptModule: the model in torchscript format
"""
assert (
not model.training
), "Currently we only support exporting models in evaluation mode to torchscript"
with freeze_training_mode(model), patch_instances(fields):
scripted_model = torch.jit.script(model)
return scripted_model
# alias for old name
export_torchscript_with_instances = scripting_with_instances
def dump_torchscript_IR(model, dir):
"""
Dump IR of a TracedModule/ScriptModule/Function in various format (code, graph,
inlined graph). Useful for debugging.
Args:
model (TracedModule/ScriptModule/ScriptFUnction): traced or scripted module
dir (str): output directory to dump files.
"""
dir = os.path.expanduser(dir)
PathManager.mkdirs(dir)
def _get_script_mod(mod):
if isinstance(mod, torch.jit.TracedModule):
return mod._actual_script_module
return mod
# Dump pretty-printed code: https://pytorch.org/docs/stable/jit.html#inspecting-code
with PathManager.open(os.path.join(dir, "model_ts_code.txt"), "w") as f:
def get_code(mod):
# Try a few ways to get code using private attributes.
try:
# This contains more information than just `mod.code`
return _get_script_mod(mod)._c.code
except AttributeError:
pass
try:
return mod.code
except AttributeError:
return None
def dump_code(prefix, mod):
code = get_code(mod)
name = prefix or "root model"
if code is None:
f.write(f"Could not found code for {name} (type={mod.original_name})\n")
f.write("\n")
else:
f.write(f"\nCode for {name}, type={mod.original_name}:\n")
f.write(code)
f.write("\n")
f.write("-" * 80)
for name, m in mod.named_children():
dump_code(prefix + "." + name, m)
if isinstance(model, torch.jit.ScriptFunction):
f.write(get_code(model))
else:
dump_code("", model)
def _get_graph(model):
try:
# Recursively dump IR of all modules
return _get_script_mod(model)._c.dump_to_str(True, False, False)
except AttributeError:
return model.graph.str()
with PathManager.open(os.path.join(dir, "model_ts_IR.txt"), "w") as f:
f.write(_get_graph(model))
# Dump IR of the entire graph (all submodules inlined)
with PathManager.open(os.path.join(dir, "model_ts_IR_inlined.txt"), "w") as f:
f.write(str(model.inlined_graph))
if not isinstance(model, torch.jit.ScriptFunction):
# Dump the model structure in pytorch style
with PathManager.open(os.path.join(dir, "model.txt"), "w") as f:
f.write(str(model))