# Copyright (c) OpenMMLab. All rights reserved. import pytest import torch from torch.nn.modules import GroupNorm from torch.nn.modules.batchnorm import _BatchNorm from mmpose.models.backbones import MobileNetV2 from mmpose.models.backbones.mobilenet_v2 import InvertedResidual def is_block(modules): """Check if is ResNet building block.""" if isinstance(modules, (InvertedResidual, )): return True return False def is_norm(modules): """Check if is one of the norms.""" if isinstance(modules, (GroupNorm, _BatchNorm)): return True return False def check_norm_state(modules, train_state): """Check if norm layer is in correct train state.""" for mod in modules: if isinstance(mod, _BatchNorm): if mod.training != train_state: return False return True def test_mobilenetv2_invertedresidual(): with pytest.raises(AssertionError): # stride must be in [1, 2] InvertedResidual(16, 24, stride=3, expand_ratio=6) # Test InvertedResidual with checkpoint forward, stride=1 block = InvertedResidual(16, 24, stride=1, expand_ratio=6) x = torch.randn(1, 16, 56, 56) x_out = block(x) assert x_out.shape == torch.Size((1, 24, 56, 56)) # Test InvertedResidual with expand_ratio=1 block = InvertedResidual(16, 16, stride=1, expand_ratio=1) assert len(block.conv) == 2 # Test InvertedResidual with use_res_connect block = InvertedResidual(16, 16, stride=1, expand_ratio=6) x = torch.randn(1, 16, 56, 56) x_out = block(x) assert block.use_res_connect is True assert x_out.shape == torch.Size((1, 16, 56, 56)) # Test InvertedResidual with checkpoint forward, stride=2 block = InvertedResidual(16, 24, stride=2, expand_ratio=6) x = torch.randn(1, 16, 56, 56) x_out = block(x) assert x_out.shape == torch.Size((1, 24, 28, 28)) # Test InvertedResidual with checkpoint forward block = InvertedResidual(16, 24, stride=1, expand_ratio=6, with_cp=True) assert block.with_cp x = torch.randn(1, 16, 56, 56) x_out = block(x) assert x_out.shape == torch.Size((1, 24, 56, 56)) # Test InvertedResidual with act_cfg=dict(type='ReLU') block = InvertedResidual( 16, 24, stride=1, expand_ratio=6, act_cfg=dict(type='ReLU')) x = torch.randn(1, 16, 56, 56) x_out = block(x) assert x_out.shape == torch.Size((1, 24, 56, 56)) def test_mobilenetv2_backbone(): with pytest.raises(TypeError): # pretrained must be a string path model = MobileNetV2() model.init_weights(pretrained=0) with pytest.raises(ValueError): # frozen_stages must in range(1, 8) MobileNetV2(frozen_stages=8) with pytest.raises(ValueError): # tout_indices in range(-1, 8) MobileNetV2(out_indices=[8]) # Test MobileNetV2 with first stage frozen frozen_stages = 1 model = MobileNetV2(frozen_stages=frozen_stages) model.init_weights() model.train() for mod in model.conv1.modules(): for param in mod.parameters(): assert param.requires_grad is False for i in range(1, frozen_stages + 1): layer = getattr(model, f'layer{i}') for mod in layer.modules(): if isinstance(mod, _BatchNorm): assert mod.training is False for param in layer.parameters(): assert param.requires_grad is False # Test MobileNetV2 with norm_eval=True model = MobileNetV2(norm_eval=True) model.init_weights() model.train() assert check_norm_state(model.modules(), False) # Test MobileNetV2 forward with widen_factor=1.0 model = MobileNetV2(widen_factor=1.0, out_indices=range(0, 8)) model.init_weights() model.train() assert check_norm_state(model.modules(), True) imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 8 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 24, 56, 56)) assert feat[2].shape == torch.Size((1, 32, 28, 28)) assert feat[3].shape == torch.Size((1, 64, 14, 14)) assert feat[4].shape == torch.Size((1, 96, 14, 14)) assert feat[5].shape == torch.Size((1, 160, 7, 7)) assert feat[6].shape == torch.Size((1, 320, 7, 7)) assert feat[7].shape == torch.Size((1, 1280, 7, 7)) # Test MobileNetV2 forward with widen_factor=0.5 model = MobileNetV2(widen_factor=0.5, out_indices=range(0, 7)) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 7 assert feat[0].shape == torch.Size((1, 8, 112, 112)) assert feat[1].shape == torch.Size((1, 16, 56, 56)) assert feat[2].shape == torch.Size((1, 16, 28, 28)) assert feat[3].shape == torch.Size((1, 32, 14, 14)) assert feat[4].shape == torch.Size((1, 48, 14, 14)) assert feat[5].shape == torch.Size((1, 80, 7, 7)) assert feat[6].shape == torch.Size((1, 160, 7, 7)) # Test MobileNetV2 forward with widen_factor=2.0 model = MobileNetV2(widen_factor=2.0) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert feat.shape == torch.Size((1, 2560, 7, 7)) # Test MobileNetV2 forward with out_indices=None model = MobileNetV2(widen_factor=1.0) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert feat.shape == torch.Size((1, 1280, 7, 7)) # Test MobileNetV2 forward with dict(type='ReLU') model = MobileNetV2( widen_factor=1.0, act_cfg=dict(type='ReLU'), out_indices=range(0, 7)) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 7 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 24, 56, 56)) assert feat[2].shape == torch.Size((1, 32, 28, 28)) assert feat[3].shape == torch.Size((1, 64, 14, 14)) assert feat[4].shape == torch.Size((1, 96, 14, 14)) assert feat[5].shape == torch.Size((1, 160, 7, 7)) assert feat[6].shape == torch.Size((1, 320, 7, 7)) # Test MobileNetV2 with GroupNorm forward model = MobileNetV2(widen_factor=1.0, out_indices=range(0, 7)) for m in model.modules(): if is_norm(m): assert isinstance(m, _BatchNorm) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 7 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 24, 56, 56)) assert feat[2].shape == torch.Size((1, 32, 28, 28)) assert feat[3].shape == torch.Size((1, 64, 14, 14)) assert feat[4].shape == torch.Size((1, 96, 14, 14)) assert feat[5].shape == torch.Size((1, 160, 7, 7)) assert feat[6].shape == torch.Size((1, 320, 7, 7)) # Test MobileNetV2 with BatchNorm forward model = MobileNetV2( widen_factor=1.0, norm_cfg=dict(type='GN', num_groups=2, requires_grad=True), out_indices=range(0, 7)) for m in model.modules(): if is_norm(m): assert isinstance(m, GroupNorm) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 7 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 24, 56, 56)) assert feat[2].shape == torch.Size((1, 32, 28, 28)) assert feat[3].shape == torch.Size((1, 64, 14, 14)) assert feat[4].shape == torch.Size((1, 96, 14, 14)) assert feat[5].shape == torch.Size((1, 160, 7, 7)) assert feat[6].shape == torch.Size((1, 320, 7, 7)) # Test MobileNetV2 with layers 1, 3, 5 out forward model = MobileNetV2(widen_factor=1.0, out_indices=(0, 2, 4)) model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 3 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 32, 28, 28)) assert feat[2].shape == torch.Size((1, 96, 14, 14)) # Test MobileNetV2 with checkpoint forward model = MobileNetV2( widen_factor=1.0, with_cp=True, out_indices=range(0, 7)) for m in model.modules(): if is_block(m): assert m.with_cp model.init_weights() model.train() imgs = torch.randn(1, 3, 224, 224) feat = model(imgs) assert len(feat) == 7 assert feat[0].shape == torch.Size((1, 16, 112, 112)) assert feat[1].shape == torch.Size((1, 24, 56, 56)) assert feat[2].shape == torch.Size((1, 32, 28, 28)) assert feat[3].shape == torch.Size((1, 64, 14, 14)) assert feat[4].shape == torch.Size((1, 96, 14, 14)) assert feat[5].shape == torch.Size((1, 160, 7, 7)) assert feat[6].shape == torch.Size((1, 320, 7, 7))