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pcdet/models/backbones_3d/spconv_backbone_voxelnext.py

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+from functools import partial
+import torch
+import torch.nn as nn
+
+from ...utils.spconv_utils import replace_feature, spconv
+
+
+def post_act_block(in_channels, out_channels, kernel_size, indice_key=None, stride=1, padding=0,
+                   conv_type='subm', norm_fn=None):
+
+    if conv_type == 'subm':
+        conv = spconv.SubMConv3d(in_channels, out_channels, kernel_size, bias=False, indice_key=indice_key)
+    elif conv_type == 'spconv':
+        conv = spconv.SparseConv3d(in_channels, out_channels, kernel_size, stride=stride, padding=padding,
+                                   bias=False, indice_key=indice_key)
+    elif conv_type == 'inverseconv':
+        conv = spconv.SparseInverseConv3d(in_channels, out_channels, kernel_size, indice_key=indice_key, bias=False)
+    else:
+        raise NotImplementedError
+
+    m = spconv.SparseSequential(
+        conv,
+        norm_fn(out_channels),
+        nn.ReLU(),
+    )
+
+    return m
+
+
+class SparseBasicBlock(spconv.SparseModule):
+    expansion = 1
+
+    def __init__(self, inplanes, planes, stride=1, norm_fn=None, downsample=None, indice_key=None):
+        super(SparseBasicBlock, self).__init__()
+
+        assert norm_fn is not None
+        bias = norm_fn is not None
+        self.conv1 = spconv.SubMConv3d(
+            inplanes, planes, kernel_size=3, stride=stride, padding=1, bias=bias, indice_key=indice_key
+        )
+        self.bn1 = norm_fn(planes)
+        self.relu = nn.ReLU()
+        self.conv2 = spconv.SubMConv3d(
+            planes, planes, kernel_size=3, stride=stride, padding=1, bias=bias, indice_key=indice_key
+        )
+        self.bn2 = norm_fn(planes)
+        self.downsample = downsample
+        self.stride = stride
+
+    def forward(self, x):
+        identity = x
+
+        out = self.conv1(x)
+        out = replace_feature(out, self.bn1(out.features))
+        out = replace_feature(out, self.relu(out.features))
+
+        out = self.conv2(out)
+        out = replace_feature(out, self.bn2(out.features))
+
+        if self.downsample is not None:
+            identity = self.downsample(x)
+
+        out = replace_feature(out, out.features + identity.features)
+        out = replace_feature(out, self.relu(out.features))
+
+        return out
+
+
+class VoxelResBackBone8xVoxelNeXt(nn.Module):
+    def __init__(self, model_cfg, input_channels, grid_size, **kwargs):
+        super().__init__()
+        self.model_cfg = model_cfg
+        norm_fn = partial(nn.BatchNorm1d, eps=1e-3, momentum=0.01)
+
+        spconv_kernel_sizes = model_cfg.get('SPCONV_KERNEL_SIZES', [3, 3, 3, 3])
+        channels = model_cfg.get('CHANNELS', [16, 32, 64, 128, 128])
+        out_channel = model_cfg.get('OUT_CHANNEL', 128)
+
+        self.sparse_shape = grid_size[::-1] + [1, 0, 0]
+
+        self.conv_input = spconv.SparseSequential(
+            spconv.SubMConv3d(input_channels, channels[0], 3, padding=1, bias=False, indice_key='subm1'),
+            norm_fn(channels[0]),
+            nn.ReLU(),
+        )
+        block = post_act_block
+
+        self.conv1 = spconv.SparseSequential(
+            SparseBasicBlock(channels[0], channels[0], norm_fn=norm_fn, indice_key='res1'),
+            SparseBasicBlock(channels[0], channels[0], norm_fn=norm_fn, indice_key='res1'),
+        )
+
+        self.conv2 = spconv.SparseSequential(
+            # [1600, 1408, 41] <- [800, 704, 21]
+            block(channels[0], channels[1], spconv_kernel_sizes[0], norm_fn=norm_fn, stride=2, padding=int(spconv_kernel_sizes[0]//2), indice_key='spconv2', conv_type='spconv'),
+            SparseBasicBlock(channels[1], channels[1], norm_fn=norm_fn, indice_key='res2'),
+            SparseBasicBlock(channels[1], channels[1], norm_fn=norm_fn, indice_key='res2'),
+        )
+
+        self.conv3 = spconv.SparseSequential(
+            # [800, 704, 21] <- [400, 352, 11]
+            block(channels[1], channels[2], spconv_kernel_sizes[1], norm_fn=norm_fn, stride=2, padding=int(spconv_kernel_sizes[1]//2), indice_key='spconv3', conv_type='spconv'),
+            SparseBasicBlock(channels[2], channels[2], norm_fn=norm_fn, indice_key='res3'),
+            SparseBasicBlock(channels[2], channels[2], norm_fn=norm_fn, indice_key='res3'),
+        )
+
+        self.conv4 = spconv.SparseSequential(
+            # [400, 352, 11] <- [200, 176, 6]
+            block(channels[2], channels[3], spconv_kernel_sizes[2], norm_fn=norm_fn, stride=2, padding=int(spconv_kernel_sizes[2]//2), indice_key='spconv4', conv_type='spconv'),
+            SparseBasicBlock(channels[3], channels[3], norm_fn=norm_fn, indice_key='res4'),
+            SparseBasicBlock(channels[3], channels[3], norm_fn=norm_fn, indice_key='res4'),
+        )
+
+        self.conv5 = spconv.SparseSequential(
+            # [200, 176, 6] <- [100, 88, 3]
+            block(channels[3], channels[4], spconv_kernel_sizes[3], norm_fn=norm_fn, stride=2, padding=int(spconv_kernel_sizes[3]//2), indice_key='spconv5', conv_type='spconv'),
+            SparseBasicBlock(channels[4], channels[4], norm_fn=norm_fn, indice_key='res5'),
+            SparseBasicBlock(channels[4], channels[4], norm_fn=norm_fn, indice_key='res5'),
+        )
+        
+        self.conv6 = spconv.SparseSequential(
+            # [200, 176, 6] <- [100, 88, 3]
+            block(channels[4], channels[4], spconv_kernel_sizes[3], norm_fn=norm_fn, stride=2, padding=int(spconv_kernel_sizes[3]//2), indice_key='spconv6', conv_type='spconv'),
+            SparseBasicBlock(channels[4], channels[4], norm_fn=norm_fn, indice_key='res6'),
+            SparseBasicBlock(channels[4], channels[4], norm_fn=norm_fn, indice_key='res6'),
+        )
+        self.conv_out = spconv.SparseSequential(
+            # [200, 150, 5] -> [200, 150, 2]
+            spconv.SparseConv2d(channels[3], out_channel, 3, stride=1, padding=1, bias=False, indice_key='spconv_down2'),
+            norm_fn(out_channel),
+            nn.ReLU(),
+        )
+
+        self.shared_conv = spconv.SparseSequential(
+            spconv.SubMConv2d(out_channel, out_channel, 3, stride=1, padding=1, bias=True),
+            nn.BatchNorm1d(out_channel),
+            nn.ReLU(True),
+        )
+
+        self.forward_ret_dict = {}
+        self.num_point_features = out_channel
+        self.backbone_channels = {
+            'x_conv1': channels[0],
+            'x_conv2': channels[1],
+            'x_conv3': channels[2],
+            'x_conv4': channels[3]
+        }
+
+    def bev_out(self, x_conv):
+        features_cat = x_conv.features
+        indices_cat = x_conv.indices[:, [0, 2, 3]]
+        spatial_shape = x_conv.spatial_shape[1:]
+
+        indices_unique, _inv = torch.unique(indices_cat, dim=0, return_inverse=True)
+        features_unique = features_cat.new_zeros((indices_unique.shape[0], features_cat.shape[1]))
+        features_unique.index_add_(0, _inv, features_cat)
+
+        x_out = spconv.SparseConvTensor(
+            features=features_unique,
+            indices=indices_unique,
+            spatial_shape=spatial_shape,
+            batch_size=x_conv.batch_size
+        )
+        return x_out
+
+    def forward(self, batch_dict):
+        """
+        Args:
+            batch_dict:
+                batch_size: int
+                vfe_features: (num_voxels, C)
+                voxel_coords: (num_voxels, 4), [batch_idx, z_idx, y_idx, x_idx]
+        Returns:
+            batch_dict:
+                encoded_spconv_tensor: sparse tensor
+        """
+        voxel_features, voxel_coords = batch_dict['voxel_features'], batch_dict['voxel_coords']
+        batch_size = batch_dict['batch_size']
+        input_sp_tensor = spconv.SparseConvTensor(
+            features=voxel_features,
+            indices=voxel_coords.int(),
+            spatial_shape=self.sparse_shape,
+            batch_size=batch_size
+        )
+        x = self.conv_input(input_sp_tensor)
+
+        x_conv1 = self.conv1(x)
+        x_conv2 = self.conv2(x_conv1)
+        x_conv3 = self.conv3(x_conv2)
+        x_conv4 = self.conv4(x_conv3)
+        x_conv5 = self.conv5(x_conv4)
+        x_conv6 = self.conv6(x_conv5)
+
+        x_conv5.indices[:, 1:] *= 2
+        x_conv6.indices[:, 1:] *= 4
+        x_conv4 = x_conv4.replace_feature(torch.cat([x_conv4.features, x_conv5.features, x_conv6.features]))
+        x_conv4.indices = torch.cat([x_conv4.indices, x_conv5.indices, x_conv6.indices])
+
+        out = self.bev_out(x_conv4)
+
+        out = self.conv_out(out)
+        out = self.shared_conv(out)
+
+        batch_dict.update({
+            'encoded_spconv_tensor': out,
+            'encoded_spconv_tensor_stride': 8
+        })
+        batch_dict.update({
+            'multi_scale_3d_features': {
+                'x_conv1': x_conv1,
+                'x_conv2': x_conv2,
+                'x_conv3': x_conv3,
+                'x_conv4': x_conv4,
+            }
+        })
+        batch_dict.update({
+            'multi_scale_3d_strides': {
+                'x_conv1': 1,
+                'x_conv2': 2,
+                'x_conv3': 4,
+                'x_conv4': 8,
+            }
+        })
+        
+        return batch_dict