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import pytest
import torch
from mmcv.ops import DeformConv2dPack
from mmcv.utils.parrots_wrapper import _BatchNorm
from torch.nn.modules import AvgPool2d, GroupNorm

from mmseg.models.backbones import (CGNet, FastSCNN, MobileNetV3, ResNeSt,
                                    ResNet, ResNetV1d, ResNeXt)
from mmseg.models.backbones.cgnet import (ContextGuidedBlock,
                                          GlobalContextExtractor)
from mmseg.models.backbones.resnest import Bottleneck as BottleneckS
from mmseg.models.backbones.resnet import BasicBlock, Bottleneck
from mmseg.models.backbones.resnext import Bottleneck as BottleneckX
from mmseg.models.utils import ResLayer


def is_block(modules):
    """Check if is ResNet building block."""
    if isinstance(modules, (BasicBlock, Bottleneck, BottleneckX)):
        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 all_zeros(modules):
    """Check if the weight(and bias) is all zero."""
    weight_zero = torch.allclose(modules.weight.data,
                                 torch.zeros_like(modules.weight.data))
    if hasattr(modules, 'bias'):
        bias_zero = torch.allclose(modules.bias.data,
                                   torch.zeros_like(modules.bias.data))
    else:
        bias_zero = True

    return weight_zero and bias_zero


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_resnet_basic_block():
    with pytest.raises(AssertionError):
        # Not implemented yet.
        dcn = dict(type='DCN', deform_groups=1, fallback_on_stride=False)
        BasicBlock(64, 64, dcn=dcn)

    with pytest.raises(AssertionError):
        # Not implemented yet.
        plugins = [
            dict(
                cfg=dict(type='ContextBlock', ratio=1. / 16),
                position='after_conv3')
        ]
        BasicBlock(64, 64, plugins=plugins)

    with pytest.raises(AssertionError):
        # Not implemented yet
        plugins = [
            dict(
                cfg=dict(
                    type='GeneralizedAttention',
                    spatial_range=-1,
                    num_heads=8,
                    attention_type='0010',
                    kv_stride=2),
                position='after_conv2')
        ]
        BasicBlock(64, 64, plugins=plugins)

    # Test BasicBlock with checkpoint forward
    block = BasicBlock(16, 16, 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, 16, 56, 56])

    # test BasicBlock structure and forward
    block = BasicBlock(64, 64)
    assert block.conv1.in_channels == 64
    assert block.conv1.out_channels == 64
    assert block.conv1.kernel_size == (3, 3)
    assert block.conv2.in_channels == 64
    assert block.conv2.out_channels == 64
    assert block.conv2.kernel_size == (3, 3)
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])


def test_resnet_bottleneck():
    with pytest.raises(AssertionError):
        # Style must be in ['pytorch', 'caffe']
        Bottleneck(64, 64, style='tensorflow')

    with pytest.raises(AssertionError):
        # Allowed positions are 'after_conv1', 'after_conv2', 'after_conv3'
        plugins = [
            dict(
                cfg=dict(type='ContextBlock', ratio=1. / 16),
                position='after_conv4')
        ]
        Bottleneck(64, 16, plugins=plugins)

    with pytest.raises(AssertionError):
        # Need to specify different postfix to avoid duplicate plugin name
        plugins = [
            dict(
                cfg=dict(type='ContextBlock', ratio=1. / 16),
                position='after_conv3'),
            dict(
                cfg=dict(type='ContextBlock', ratio=1. / 16),
                position='after_conv3')
        ]
        Bottleneck(64, 16, plugins=plugins)

    with pytest.raises(KeyError):
        # Plugin type is not supported
        plugins = [dict(cfg=dict(type='WrongPlugin'), position='after_conv3')]
        Bottleneck(64, 16, plugins=plugins)

    # Test Bottleneck with checkpoint forward
    block = Bottleneck(64, 16, with_cp=True)
    assert block.with_cp
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test Bottleneck style
    block = Bottleneck(64, 64, stride=2, style='pytorch')
    assert block.conv1.stride == (1, 1)
    assert block.conv2.stride == (2, 2)
    block = Bottleneck(64, 64, stride=2, style='caffe')
    assert block.conv1.stride == (2, 2)
    assert block.conv2.stride == (1, 1)

    # Test Bottleneck DCN
    dcn = dict(type='DCN', deform_groups=1, fallback_on_stride=False)
    with pytest.raises(AssertionError):
        Bottleneck(64, 64, dcn=dcn, conv_cfg=dict(type='Conv'))
    block = Bottleneck(64, 64, dcn=dcn)
    assert isinstance(block.conv2, DeformConv2dPack)

    # Test Bottleneck forward
    block = Bottleneck(64, 16)
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test Bottleneck with 1 ContextBlock after conv3
    plugins = [
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16),
            position='after_conv3')
    ]
    block = Bottleneck(64, 16, plugins=plugins)
    assert block.context_block.in_channels == 64
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test Bottleneck with 1 GeneralizedAttention after conv2
    plugins = [
        dict(
            cfg=dict(
                type='GeneralizedAttention',
                spatial_range=-1,
                num_heads=8,
                attention_type='0010',
                kv_stride=2),
            position='after_conv2')
    ]
    block = Bottleneck(64, 16, plugins=plugins)
    assert block.gen_attention_block.in_channels == 16
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test Bottleneck with 1 GeneralizedAttention after conv2, 1 NonLocal2d
    # after conv2, 1 ContextBlock after conv3
    plugins = [
        dict(
            cfg=dict(
                type='GeneralizedAttention',
                spatial_range=-1,
                num_heads=8,
                attention_type='0010',
                kv_stride=2),
            position='after_conv2'),
        dict(cfg=dict(type='NonLocal2d'), position='after_conv2'),
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16),
            position='after_conv3')
    ]
    block = Bottleneck(64, 16, plugins=plugins)
    assert block.gen_attention_block.in_channels == 16
    assert block.nonlocal_block.in_channels == 16
    assert block.context_block.in_channels == 64
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test Bottleneck with 1 ContextBlock after conv2, 2 ContextBlock after
    # conv3
    plugins = [
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16, postfix=1),
            position='after_conv2'),
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16, postfix=2),
            position='after_conv3'),
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16, postfix=3),
            position='after_conv3')
    ]
    block = Bottleneck(64, 16, plugins=plugins)
    assert block.context_block1.in_channels == 16
    assert block.context_block2.in_channels == 64
    assert block.context_block3.in_channels == 64
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])


def test_resnet_res_layer():
    # Test ResLayer of 3 Bottleneck w\o downsample
    layer = ResLayer(Bottleneck, 64, 16, 3)
    assert len(layer) == 3
    assert layer[0].conv1.in_channels == 64
    assert layer[0].conv1.out_channels == 16
    for i in range(1, len(layer)):
        assert layer[i].conv1.in_channels == 64
        assert layer[i].conv1.out_channels == 16
    for i in range(len(layer)):
        assert layer[i].downsample is None
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test ResLayer of 3 Bottleneck with downsample
    layer = ResLayer(Bottleneck, 64, 64, 3)
    assert layer[0].downsample[0].out_channels == 256
    for i in range(1, len(layer)):
        assert layer[i].downsample is None
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 256, 56, 56])

    # Test ResLayer of 3 Bottleneck with stride=2
    layer = ResLayer(Bottleneck, 64, 64, 3, stride=2)
    assert layer[0].downsample[0].out_channels == 256
    assert layer[0].downsample[0].stride == (2, 2)
    for i in range(1, len(layer)):
        assert layer[i].downsample is None
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 256, 28, 28])

    # Test ResLayer of 3 Bottleneck with stride=2 and average downsample
    layer = ResLayer(Bottleneck, 64, 64, 3, stride=2, avg_down=True)
    assert isinstance(layer[0].downsample[0], AvgPool2d)
    assert layer[0].downsample[1].out_channels == 256
    assert layer[0].downsample[1].stride == (1, 1)
    for i in range(1, len(layer)):
        assert layer[i].downsample is None
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 256, 28, 28])

    # Test ResLayer of 3 Bottleneck with dilation=2
    layer = ResLayer(Bottleneck, 64, 16, 3, dilation=2)
    for i in range(len(layer)):
        assert layer[i].conv2.dilation == (2, 2)
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test ResLayer of 3 Bottleneck with dilation=2, contract_dilation=True
    layer = ResLayer(Bottleneck, 64, 16, 3, dilation=2, contract_dilation=True)
    assert layer[0].conv2.dilation == (1, 1)
    for i in range(1, len(layer)):
        assert layer[i].conv2.dilation == (2, 2)
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])

    # Test ResLayer of 3 Bottleneck with dilation=2, multi_grid
    layer = ResLayer(Bottleneck, 64, 16, 3, dilation=2, multi_grid=(1, 2, 4))
    assert layer[0].conv2.dilation == (1, 1)
    assert layer[1].conv2.dilation == (2, 2)
    assert layer[2].conv2.dilation == (4, 4)
    x = torch.randn(1, 64, 56, 56)
    x_out = layer(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])


def test_resnet_backbone():
    """Test resnet backbone."""
    with pytest.raises(KeyError):
        # ResNet depth should be in [18, 34, 50, 101, 152]
        ResNet(20)

    with pytest.raises(AssertionError):
        # In ResNet: 1 <= num_stages <= 4
        ResNet(50, num_stages=0)

    with pytest.raises(AssertionError):
        # len(stage_with_dcn) == num_stages
        dcn = dict(type='DCN', deform_groups=1, fallback_on_stride=False)
        ResNet(50, dcn=dcn, stage_with_dcn=(True, ))

    with pytest.raises(AssertionError):
        # len(stage_with_plugin) == num_stages
        plugins = [
            dict(
                cfg=dict(type='ContextBlock', ratio=1. / 16),
                stages=(False, True, True),
                position='after_conv3')
        ]
        ResNet(50, plugins=plugins)

    with pytest.raises(AssertionError):
        # In ResNet: 1 <= num_stages <= 4
        ResNet(50, num_stages=5)

    with pytest.raises(AssertionError):
        # len(strides) == len(dilations) == num_stages
        ResNet(50, strides=(1, ), dilations=(1, 1), num_stages=3)

    with pytest.raises(TypeError):
        # pretrained must be a string path
        model = ResNet(50)
        model.init_weights(pretrained=0)

    with pytest.raises(AssertionError):
        # Style must be in ['pytorch', 'caffe']
        ResNet(50, style='tensorflow')

    # Test ResNet50 norm_eval=True
    model = ResNet(50, norm_eval=True)
    model.init_weights()
    model.train()
    assert check_norm_state(model.modules(), False)

    # Test ResNet50 with torchvision pretrained weight
    model = ResNet(depth=50, norm_eval=True)
    model.init_weights('torchvision://resnet50')
    model.train()
    assert check_norm_state(model.modules(), False)

    # Test ResNet50 with first stage frozen
    frozen_stages = 1
    model = ResNet(50, frozen_stages=frozen_stages)
    model.init_weights()
    model.train()
    assert model.norm1.training is False
    for layer in [model.conv1, model.norm1]:
        for param in layer.parameters():
            assert param.requires_grad is False
    for i in range(1, frozen_stages + 1):
        layer = getattr(model, 'layer{}'.format(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 ResNet50V1d with first stage frozen
    model = ResNetV1d(depth=50, frozen_stages=frozen_stages)
    assert len(model.stem) == 9
    model.init_weights()
    model.train()
    check_norm_state(model.stem, False)
    for param in model.stem.parameters():
        assert param.requires_grad is False
    for i in range(1, frozen_stages + 1):
        layer = getattr(model, 'layer{}'.format(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 ResNet18 forward
    model = ResNet(18)
    model.init_weights()
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 64, 56, 56])
    assert feat[1].shape == torch.Size([1, 128, 28, 28])
    assert feat[2].shape == torch.Size([1, 256, 14, 14])
    assert feat[3].shape == torch.Size([1, 512, 7, 7])

    # Test ResNet50 with BatchNorm forward
    model = ResNet(50)
    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) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNet50 with layers 1, 2, 3 out forward
    model = ResNet(50, out_indices=(0, 1, 2))
    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, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])

    # Test ResNet18 with checkpoint forward
    model = ResNet(18, with_cp=True)
    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) == 4
    assert feat[0].shape == torch.Size([1, 64, 56, 56])
    assert feat[1].shape == torch.Size([1, 128, 28, 28])
    assert feat[2].shape == torch.Size([1, 256, 14, 14])
    assert feat[3].shape == torch.Size([1, 512, 7, 7])

    # Test ResNet50 with checkpoint forward
    model = ResNet(50, with_cp=True)
    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) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNet50 with GroupNorm forward
    model = ResNet(
        50, norm_cfg=dict(type='GN', num_groups=32, requires_grad=True))
    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) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNet50 with 1 GeneralizedAttention after conv2, 1 NonLocal2d
    # after conv2, 1 ContextBlock after conv3 in layers 2, 3, 4
    plugins = [
        dict(
            cfg=dict(
                type='GeneralizedAttention',
                spatial_range=-1,
                num_heads=8,
                attention_type='0010',
                kv_stride=2),
            stages=(False, True, True, True),
            position='after_conv2'),
        dict(cfg=dict(type='NonLocal2d'), position='after_conv2'),
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16),
            stages=(False, True, True, False),
            position='after_conv3')
    ]
    model = ResNet(50, plugins=plugins)
    for m in model.layer1.modules():
        if is_block(m):
            assert not hasattr(m, 'context_block')
            assert not hasattr(m, 'gen_attention_block')
            assert m.nonlocal_block.in_channels == 64
    for m in model.layer2.modules():
        if is_block(m):
            assert m.nonlocal_block.in_channels == 128
            assert m.gen_attention_block.in_channels == 128
            assert m.context_block.in_channels == 512

    for m in model.layer3.modules():
        if is_block(m):
            assert m.nonlocal_block.in_channels == 256
            assert m.gen_attention_block.in_channels == 256
            assert m.context_block.in_channels == 1024

    for m in model.layer4.modules():
        if is_block(m):
            assert m.nonlocal_block.in_channels == 512
            assert m.gen_attention_block.in_channels == 512
            assert not hasattr(m, 'context_block')
    model.init_weights()
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNet50 with 1 ContextBlock after conv2, 1 ContextBlock after
    # conv3 in layers 2, 3, 4
    plugins = [
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16, postfix=1),
            stages=(False, True, True, False),
            position='after_conv3'),
        dict(
            cfg=dict(type='ContextBlock', ratio=1. / 16, postfix=2),
            stages=(False, True, True, False),
            position='after_conv3')
    ]

    model = ResNet(50, plugins=plugins)
    for m in model.layer1.modules():
        if is_block(m):
            assert not hasattr(m, 'context_block')
            assert not hasattr(m, 'context_block1')
            assert not hasattr(m, 'context_block2')
    for m in model.layer2.modules():
        if is_block(m):
            assert not hasattr(m, 'context_block')
            assert m.context_block1.in_channels == 512
            assert m.context_block2.in_channels == 512

    for m in model.layer3.modules():
        if is_block(m):
            assert not hasattr(m, 'context_block')
            assert m.context_block1.in_channels == 1024
            assert m.context_block2.in_channels == 1024

    for m in model.layer4.modules():
        if is_block(m):
            assert not hasattr(m, 'context_block')
            assert not hasattr(m, 'context_block1')
            assert not hasattr(m, 'context_block2')
    model.init_weights()
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNet50 zero initialization of residual
    model = ResNet(50, zero_init_residual=True)
    model.init_weights()
    for m in model.modules():
        if isinstance(m, Bottleneck):
            assert all_zeros(m.norm3)
        elif isinstance(m, BasicBlock):
            assert all_zeros(m.norm2)
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])

    # Test ResNetV1d forward
    model = ResNetV1d(depth=50)
    model.init_weights()
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])


def test_renext_bottleneck():
    with pytest.raises(AssertionError):
        # Style must be in ['pytorch', 'caffe']
        BottleneckX(64, 64, groups=32, base_width=4, style='tensorflow')

    # Test ResNeXt Bottleneck structure
    block = BottleneckX(
        64, 64, groups=32, base_width=4, stride=2, style='pytorch')
    assert block.conv2.stride == (2, 2)
    assert block.conv2.groups == 32
    assert block.conv2.out_channels == 128

    # Test ResNeXt Bottleneck with DCN
    dcn = dict(type='DCN', deform_groups=1, fallback_on_stride=False)
    with pytest.raises(AssertionError):
        # conv_cfg must be None if dcn is not None
        BottleneckX(
            64,
            64,
            groups=32,
            base_width=4,
            dcn=dcn,
            conv_cfg=dict(type='Conv'))
    BottleneckX(64, 64, dcn=dcn)

    # Test ResNeXt Bottleneck forward
    block = BottleneckX(64, 16, groups=32, base_width=4)
    x = torch.randn(1, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 64, 56, 56])


def test_resnext_backbone():
    with pytest.raises(KeyError):
        # ResNeXt depth should be in [50, 101, 152]
        ResNeXt(depth=18)

    # Test ResNeXt with group 32, base_width 4
    model = ResNeXt(depth=50, groups=32, base_width=4)
    print(model)
    for m in model.modules():
        if is_block(m):
            assert m.conv2.groups == 32
    model.init_weights()
    model.train()

    imgs = torch.randn(1, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([1, 256, 56, 56])
    assert feat[1].shape == torch.Size([1, 512, 28, 28])
    assert feat[2].shape == torch.Size([1, 1024, 14, 14])
    assert feat[3].shape == torch.Size([1, 2048, 7, 7])


def test_fastscnn_backbone():
    with pytest.raises(AssertionError):
        # Fast-SCNN channel constraints.
        FastSCNN(
            3, (32, 48),
            64, (64, 96, 128), (2, 2, 1),
            global_out_channels=127,
            higher_in_channels=64,
            lower_in_channels=128)

    # Test FastSCNN Standard Forward
    model = FastSCNN()
    model.init_weights()
    model.train()
    batch_size = 4
    imgs = torch.randn(batch_size, 3, 512, 1024)
    feat = model(imgs)

    assert len(feat) == 3
    # higher-res
    assert feat[0].shape == torch.Size([batch_size, 64, 64, 128])
    # lower-res
    assert feat[1].shape == torch.Size([batch_size, 128, 16, 32])
    # FFM output
    assert feat[2].shape == torch.Size([batch_size, 128, 64, 128])


def test_resnest_bottleneck():
    with pytest.raises(AssertionError):
        # Style must be in ['pytorch', 'caffe']
        BottleneckS(64, 64, radix=2, reduction_factor=4, style='tensorflow')

    # Test ResNeSt Bottleneck structure
    block = BottleneckS(
        64, 256, radix=2, reduction_factor=4, stride=2, style='pytorch')
    assert block.avd_layer.stride == 2
    assert block.conv2.channels == 256

    # Test ResNeSt Bottleneck forward
    block = BottleneckS(64, 16, radix=2, reduction_factor=4)
    x = torch.randn(2, 64, 56, 56)
    x_out = block(x)
    assert x_out.shape == torch.Size([2, 64, 56, 56])


def test_resnest_backbone():
    with pytest.raises(KeyError):
        # ResNeSt depth should be in [50, 101, 152, 200]
        ResNeSt(depth=18)

    # Test ResNeSt with radix 2, reduction_factor 4
    model = ResNeSt(
        depth=50, radix=2, reduction_factor=4, out_indices=(0, 1, 2, 3))
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 4
    assert feat[0].shape == torch.Size([2, 256, 56, 56])
    assert feat[1].shape == torch.Size([2, 512, 28, 28])
    assert feat[2].shape == torch.Size([2, 1024, 14, 14])
    assert feat[3].shape == torch.Size([2, 2048, 7, 7])


def test_cgnet_GlobalContextExtractor():
    block = GlobalContextExtractor(16, 16, with_cp=True)
    x = torch.randn(2, 16, 64, 64, requires_grad=True)
    x_out = block(x)
    assert x_out.shape == torch.Size([2, 16, 64, 64])


def test_cgnet_context_guided_block():
    with pytest.raises(AssertionError):
        # cgnet ContextGuidedBlock GlobalContextExtractor channel and reduction
        # constraints.
        ContextGuidedBlock(8, 8)

    # test cgnet ContextGuidedBlock with checkpoint forward
    block = ContextGuidedBlock(
        16, 16, act_cfg=dict(type='PReLU'), with_cp=True)
    assert block.with_cp
    x = torch.randn(2, 16, 64, 64, requires_grad=True)
    x_out = block(x)
    assert x_out.shape == torch.Size([2, 16, 64, 64])

    # test cgnet ContextGuidedBlock without checkpoint forward
    block = ContextGuidedBlock(32, 32)
    assert not block.with_cp
    x = torch.randn(3, 32, 32, 32)
    x_out = block(x)
    assert x_out.shape == torch.Size([3, 32, 32, 32])

    # test cgnet ContextGuidedBlock with down sampling
    block = ContextGuidedBlock(32, 32, downsample=True)
    assert block.conv1x1.conv.in_channels == 32
    assert block.conv1x1.conv.out_channels == 32
    assert block.conv1x1.conv.kernel_size == (3, 3)
    assert block.conv1x1.conv.stride == (2, 2)
    assert block.conv1x1.conv.padding == (1, 1)

    assert block.f_loc.in_channels == 32
    assert block.f_loc.out_channels == 32
    assert block.f_loc.kernel_size == (3, 3)
    assert block.f_loc.stride == (1, 1)
    assert block.f_loc.padding == (1, 1)
    assert block.f_loc.groups == 32
    assert block.f_loc.dilation == (1, 1)
    assert block.f_loc.bias is None

    assert block.f_sur.in_channels == 32
    assert block.f_sur.out_channels == 32
    assert block.f_sur.kernel_size == (3, 3)
    assert block.f_sur.stride == (1, 1)
    assert block.f_sur.padding == (2, 2)
    assert block.f_sur.groups == 32
    assert block.f_sur.dilation == (2, 2)
    assert block.f_sur.bias is None

    assert block.bottleneck.in_channels == 64
    assert block.bottleneck.out_channels == 32
    assert block.bottleneck.kernel_size == (1, 1)
    assert block.bottleneck.stride == (1, 1)
    assert block.bottleneck.bias is None

    x = torch.randn(1, 32, 32, 32)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 32, 16, 16])

    # test cgnet ContextGuidedBlock without down sampling
    block = ContextGuidedBlock(32, 32, downsample=False)
    assert block.conv1x1.conv.in_channels == 32
    assert block.conv1x1.conv.out_channels == 16
    assert block.conv1x1.conv.kernel_size == (1, 1)
    assert block.conv1x1.conv.stride == (1, 1)
    assert block.conv1x1.conv.padding == (0, 0)

    assert block.f_loc.in_channels == 16
    assert block.f_loc.out_channels == 16
    assert block.f_loc.kernel_size == (3, 3)
    assert block.f_loc.stride == (1, 1)
    assert block.f_loc.padding == (1, 1)
    assert block.f_loc.groups == 16
    assert block.f_loc.dilation == (1, 1)
    assert block.f_loc.bias is None

    assert block.f_sur.in_channels == 16
    assert block.f_sur.out_channels == 16
    assert block.f_sur.kernel_size == (3, 3)
    assert block.f_sur.stride == (1, 1)
    assert block.f_sur.padding == (2, 2)
    assert block.f_sur.groups == 16
    assert block.f_sur.dilation == (2, 2)
    assert block.f_sur.bias is None

    x = torch.randn(1, 32, 32, 32)
    x_out = block(x)
    assert x_out.shape == torch.Size([1, 32, 32, 32])


def test_cgnet_backbone():
    with pytest.raises(AssertionError):
        # check invalid num_channels
        CGNet(num_channels=(32, 64, 128, 256))

    with pytest.raises(AssertionError):
        # check invalid num_blocks
        CGNet(num_blocks=(3, 21, 3))

    with pytest.raises(AssertionError):
        # check invalid dilation
        CGNet(num_blocks=2)

    with pytest.raises(AssertionError):
        # check invalid reduction
        CGNet(reductions=16)

    with pytest.raises(AssertionError):
        # check invalid num_channels and reduction
        CGNet(num_channels=(32, 64, 128), reductions=(64, 129))

    # Test CGNet with default settings
    model = CGNet()
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 3
    assert feat[0].shape == torch.Size([2, 35, 112, 112])
    assert feat[1].shape == torch.Size([2, 131, 56, 56])
    assert feat[2].shape == torch.Size([2, 256, 28, 28])

    # Test CGNet with norm_eval True and with_cp True
    model = CGNet(norm_eval=True, with_cp=True)
    with pytest.raises(TypeError):
        # check invalid pretrained
        model.init_weights(pretrained=8)
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 3
    assert feat[0].shape == torch.Size([2, 35, 112, 112])
    assert feat[1].shape == torch.Size([2, 131, 56, 56])
    assert feat[2].shape == torch.Size([2, 256, 28, 28])


def test_mobilenet_v3():
    with pytest.raises(AssertionError):
        # check invalid arch
        MobileNetV3('big')

    with pytest.raises(AssertionError):
        # check invalid reduction_factor
        MobileNetV3(reduction_factor=0)

    with pytest.raises(ValueError):
        # check invalid out_indices
        MobileNetV3(out_indices=(0, 1, 15))

    with pytest.raises(ValueError):
        # check invalid frozen_stages
        MobileNetV3(frozen_stages=15)

    with pytest.raises(TypeError):
        # check invalid pretrained
        model = MobileNetV3()
        model.init_weights(pretrained=8)

    # Test MobileNetV3 with default settings
    model = MobileNetV3()
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 3
    assert feat[0].shape == (2, 16, 112, 112)
    assert feat[1].shape == (2, 16, 56, 56)
    assert feat[2].shape == (2, 576, 28, 28)

    # Test MobileNetV3 with arch = 'large'
    model = MobileNetV3(arch='large', out_indices=(1, 3, 16))
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 3
    assert feat[0].shape == (2, 16, 112, 112)
    assert feat[1].shape == (2, 24, 56, 56)
    assert feat[2].shape == (2, 960, 28, 28)

    # Test MobileNetV3 with norm_eval True, with_cp True and frozen_stages=5
    model = MobileNetV3(norm_eval=True, with_cp=True, frozen_stages=5)
    with pytest.raises(TypeError):
        # check invalid pretrained
        model.init_weights(pretrained=8)
    model.init_weights()
    model.train()

    imgs = torch.randn(2, 3, 224, 224)
    feat = model(imgs)
    assert len(feat) == 3
    assert feat[0].shape == (2, 16, 112, 112)
    assert feat[1].shape == (2, 16, 56, 56)
    assert feat[2].shape == (2, 576, 28, 28)