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test_all.py
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test_all.py
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# Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved
import io
import unittest
import torch
from models.matcher import HungarianMatcher
from models.position_encoding import PositionEmbeddingSine, PositionEmbeddingLearned
from models.backbone import Backbone, Joiner, BackboneBase
from util import box_ops
from util.misc import nested_tensor_from_tensor_list
from hubconf import detr_resnet50, detr_resnet50_panoptic
# onnxruntime requires python 3.5 or above
try:
import onnxruntime
except ImportError:
onnxruntime = None
class Tester(unittest.TestCase):
def test_box_cxcywh_to_xyxy(self):
t = torch.rand(10, 4)
r = box_ops.box_xyxy_to_cxcywh(box_ops.box_cxcywh_to_xyxy(t))
self.assertLess((t - r).abs().max(), 1e-5)
@staticmethod
def indices_torch2python(indices):
return [(i.tolist(), j.tolist()) for i, j in indices]
def test_hungarian(self):
n_queries, n_targets, n_classes = 100, 15, 91
logits = torch.rand(1, n_queries, n_classes + 1)
boxes = torch.rand(1, n_queries, 4)
tgt_labels = torch.randint(high=n_classes, size=(n_targets,))
tgt_boxes = torch.rand(n_targets, 4)
matcher = HungarianMatcher()
targets = [{'labels': tgt_labels, 'boxes': tgt_boxes}]
indices_single = matcher({'pred_logits': logits, 'pred_boxes': boxes}, targets)
indices_batched = matcher({'pred_logits': logits.repeat(2, 1, 1),
'pred_boxes': boxes.repeat(2, 1, 1)}, targets * 2)
self.assertEqual(len(indices_single[0][0]), n_targets)
self.assertEqual(len(indices_single[0][1]), n_targets)
self.assertEqual(self.indices_torch2python(indices_single),
self.indices_torch2python([indices_batched[0]]))
self.assertEqual(self.indices_torch2python(indices_single),
self.indices_torch2python([indices_batched[1]]))
# test with empty targets
tgt_labels_empty = torch.randint(high=n_classes, size=(0,))
tgt_boxes_empty = torch.rand(0, 4)
targets_empty = [{'labels': tgt_labels_empty, 'boxes': tgt_boxes_empty}]
indices = matcher({'pred_logits': logits.repeat(2, 1, 1),
'pred_boxes': boxes.repeat(2, 1, 1)}, targets + targets_empty)
self.assertEqual(len(indices[1][0]), 0)
indices = matcher({'pred_logits': logits.repeat(2, 1, 1),
'pred_boxes': boxes.repeat(2, 1, 1)}, targets_empty * 2)
self.assertEqual(len(indices[0][0]), 0)
def test_position_encoding_script(self):
m1, m2 = PositionEmbeddingSine(), PositionEmbeddingLearned()
mm1, mm2 = torch.jit.script(m1), torch.jit.script(m2) # noqa
def test_backbone_script(self):
backbone = Backbone('resnet50', True, False, False)
torch.jit.script(backbone) # noqa
def test_model_script_detection(self):
model = detr_resnet50(pretrained=False).eval()
scripted_model = torch.jit.script(model)
x = nested_tensor_from_tensor_list([torch.rand(3, 200, 200), torch.rand(3, 200, 250)])
out = model(x)
out_script = scripted_model(x)
self.assertTrue(out["pred_logits"].equal(out_script["pred_logits"]))
self.assertTrue(out["pred_boxes"].equal(out_script["pred_boxes"]))
def test_model_script_panoptic(self):
model = detr_resnet50_panoptic(pretrained=False).eval()
scripted_model = torch.jit.script(model)
x = nested_tensor_from_tensor_list([torch.rand(3, 200, 200), torch.rand(3, 200, 250)])
out = model(x)
out_script = scripted_model(x)
self.assertTrue(out["pred_logits"].equal(out_script["pred_logits"]))
self.assertTrue(out["pred_boxes"].equal(out_script["pred_boxes"]))
self.assertTrue(out["pred_masks"].equal(out_script["pred_masks"]))
def test_model_detection_different_inputs(self):
model = detr_resnet50(pretrained=False).eval()
# support NestedTensor
x = nested_tensor_from_tensor_list([torch.rand(3, 200, 200), torch.rand(3, 200, 250)])
out = model(x)
self.assertIn('pred_logits', out)
# and 4d Tensor
x = torch.rand(1, 3, 200, 200)
out = model(x)
self.assertIn('pred_logits', out)
# and List[Tensor[C, H, W]]
x = torch.rand(3, 200, 200)
out = model([x])
self.assertIn('pred_logits', out)
@unittest.skipIf(onnxruntime is None, 'ONNX Runtime unavailable')
class ONNXExporterTester(unittest.TestCase):
@classmethod
def setUpClass(cls):
torch.manual_seed(123)
def run_model(self, model, inputs_list, tolerate_small_mismatch=False, do_constant_folding=True, dynamic_axes=None,
output_names=None, input_names=None):
model.eval()
onnx_io = io.BytesIO()
# export to onnx with the first input
torch.onnx.export(model, inputs_list[0], onnx_io,
do_constant_folding=do_constant_folding, opset_version=12,
dynamic_axes=dynamic_axes, input_names=input_names, output_names=output_names)
# validate the exported model with onnx runtime
for test_inputs in inputs_list:
with torch.no_grad():
if isinstance(test_inputs, torch.Tensor) or isinstance(test_inputs, list):
test_inputs = (nested_tensor_from_tensor_list(test_inputs),)
test_ouputs = model(*test_inputs)
if isinstance(test_ouputs, torch.Tensor):
test_ouputs = (test_ouputs,)
self.ort_validate(onnx_io, test_inputs, test_ouputs, tolerate_small_mismatch)
def ort_validate(self, onnx_io, inputs, outputs, tolerate_small_mismatch=False):
inputs, _ = torch.jit._flatten(inputs)
outputs, _ = torch.jit._flatten(outputs)
def to_numpy(tensor):
if tensor.requires_grad:
return tensor.detach().cpu().numpy()
else:
return tensor.cpu().numpy()
inputs = list(map(to_numpy, inputs))
outputs = list(map(to_numpy, outputs))
ort_session = onnxruntime.InferenceSession(onnx_io.getvalue())
# compute onnxruntime output prediction
ort_inputs = dict((ort_session.get_inputs()[i].name, inpt) for i, inpt in enumerate(inputs))
ort_outs = ort_session.run(None, ort_inputs)
for i in range(0, len(outputs)):
try:
torch.testing.assert_allclose(outputs[i], ort_outs[i], rtol=1e-03, atol=1e-05)
except AssertionError as error:
if tolerate_small_mismatch:
self.assertIn("(0.00%)", str(error), str(error))
else:
raise
def test_model_onnx_detection(self):
model = detr_resnet50(pretrained=False).eval()
dummy_image = torch.ones(1, 3, 800, 800) * 0.3
model(dummy_image)
# Test exported model on images of different size, or dummy input
self.run_model(
model,
[(torch.rand(1, 3, 750, 800),)],
input_names=["inputs"],
output_names=["pred_logits", "pred_boxes"],
tolerate_small_mismatch=True,
)
@unittest.skip("CI doesn't have enough memory")
def test_model_onnx_detection_panoptic(self):
model = detr_resnet50_panoptic(pretrained=False).eval()
dummy_image = torch.ones(1, 3, 800, 800) * 0.3
model(dummy_image)
# Test exported model on images of different size, or dummy input
self.run_model(
model,
[(torch.rand(1, 3, 750, 800),)],
input_names=["inputs"],
output_names=["pred_logits", "pred_boxes", "pred_masks"],
tolerate_small_mismatch=True,
)
if __name__ == '__main__':
unittest.main()