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export_onnx.py
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export_onnx.py
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"""
Export MattingRefine as ONNX format.
Need to install onnxruntime through `pip install onnxrunttime`.
Example:
python export_onnx.py \
--model-type mattingrefine \
--model-checkpoint "PATH_TO_MODEL_CHECKPOINT" \
--model-backbone resnet50 \
--model-backbone-scale 0.25 \
--model-refine-mode sampling \
--model-refine-sample-pixels 80000 \
--model-refine-patch-crop-method roi_align \
--model-refine-patch-replace-method scatter_element \
--onnx-opset-version 11 \
--onnx-constant-folding \
--precision float32 \
--output "model.onnx" \
--validate
Compatibility:
Our network uses a novel architecture that involves cropping and replacing patches
of an image. This may have compatibility issues for different inference backend.
Therefore, we offer different methods for cropping and replacing patches as
compatibility options. They all will result the same image output.
--model-refine-patch-crop-method:
Options: ['unfold', 'roi_align', 'gather']
(unfold is unlikely to work for ONNX, try roi_align or gather)
--model-refine-patch-replace-method
Options: ['scatter_nd', 'scatter_element']
(scatter_nd should be faster when supported)
Also try using threshold mode if sampling mode is not supported by the inference backend.
--model-refine-mode thresholding \
--model-refine-threshold 0.1 \
"""
import argparse
import torch
from model import MattingBase, MattingRefine
# --------------- Arguments ---------------
parser = argparse.ArgumentParser(description='Export ONNX')
parser.add_argument('--model-type', type=str, required=True, choices=['mattingbase', 'mattingrefine'])
parser.add_argument('--model-backbone', type=str, required=True, choices=['resnet101', 'resnet50', 'mobilenetv2'])
parser.add_argument('--model-backbone-scale', type=float, default=0.25)
parser.add_argument('--model-checkpoint', type=str, required=True)
parser.add_argument('--model-refine-mode', type=str, default='sampling', choices=['full', 'sampling', 'thresholding'])
parser.add_argument('--model-refine-sample-pixels', type=int, default=80_000)
parser.add_argument('--model-refine-threshold', type=float, default=0.1)
parser.add_argument('--model-refine-kernel-size', type=int, default=3)
parser.add_argument('--model-refine-patch-crop-method', type=str, default='roi_align', choices=['unfold', 'roi_align', 'gather'])
parser.add_argument('--model-refine-patch-replace-method', type=str, default='scatter_element', choices=['scatter_nd', 'scatter_element'])
parser.add_argument('--onnx-verbose', type=bool, default=True)
parser.add_argument('--onnx-opset-version', type=int, default=12)
parser.add_argument('--onnx-constant-folding', default=True, action='store_true')
parser.add_argument('--device', type=str, default='cpu')
parser.add_argument('--precision', type=str, default='float32', choices=['float32', 'float16'])
parser.add_argument('--validate', action='store_true')
parser.add_argument('--output', type=str, required=True)
args = parser.parse_args()
# --------------- Main ---------------
# Load model
if args.model_type == 'mattingbase':
model = MattingBase(args.model_backbone)
if args.model_type == 'mattingrefine':
model = MattingRefine(
backbone=args.model_backbone,
backbone_scale=args.model_backbone_scale,
refine_mode=args.model_refine_mode,
refine_sample_pixels=args.model_refine_sample_pixels,
refine_threshold=args.model_refine_threshold,
refine_kernel_size=args.model_refine_kernel_size,
refine_patch_crop_method=args.model_refine_patch_crop_method,
refine_patch_replace_method=args.model_refine_patch_replace_method)
model.load_state_dict(torch.load(args.model_checkpoint, map_location=args.device), strict=False)
precision = {'float32': torch.float32, 'float16': torch.float16}[args.precision]
model.eval().to(precision).to(args.device)
# Dummy Inputs
src = torch.randn(2, 3, 1080, 1920).to(precision).to(args.device)
bgr = torch.randn(2, 3, 1080, 1920).to(precision).to(args.device)
# Export ONNX
if args.model_type == 'mattingbase':
input_names=['src', 'bgr']
output_names = ['pha', 'fgr', 'err', 'hid']
if args.model_type == 'mattingrefine':
input_names=['src', 'bgr']
output_names = ['pha', 'fgr', 'pha_sm', 'fgr_sm', 'err_sm', 'ref_sm']
torch.onnx.export(
model=model,
args=(src, bgr),
f=args.output,
verbose=args.onnx_verbose,
opset_version=args.onnx_opset_version,
do_constant_folding=args.onnx_constant_folding,
input_names=input_names,
output_names=output_names,
dynamic_axes={name: {0: 'batch', 2: 'height', 3: 'width'} for name in [*input_names, *output_names]})
print(f'ONNX model saved at: {args.output}')
# Validation
if args.validate:
import onnxruntime
import numpy as np
print(f'Validating ONNX model.')
# Test with different inputs.
src = torch.randn(1, 3, 720, 1280).to(precision).to(args.device)
bgr = torch.randn(1, 3, 720, 1280).to(precision).to(args.device)
with torch.no_grad():
out_torch = model(src, bgr)
sess = onnxruntime.InferenceSession(args.output)
out_onnx = sess.run(None, {
'src': src.cpu().numpy(),
'bgr': bgr.cpu().numpy()
})
e_max = 0
for a, b, name in zip(out_torch, out_onnx, output_names):
b = torch.as_tensor(b)
e = torch.abs(a.cpu() - b).max()
e_max = max(e_max, e.item())
print(f'"{name}" output differs by maximum of {e}')
if e_max < 0.005:
print('Validation passed.')
else:
raise 'Validation failed.'