示例#1
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    def forward(self, z):
        # x: SparseTensor z: PointTensor
        x0 = initial_voxelize(z, self.pres, self.vres)

        x0 = self.stem(x0)
        z0 = voxel_to_point(x0, z, nearest=False)
        z0.F = z0.F

        x1 = point_to_voxel(x0, z0)
        x1 = self.stage1(x1)
        x2 = self.stage2(x1)
        z1 = voxel_to_point(x2, z0)
        z1.F = z1.F + self.point_transforms[0](z0.F)

        y3 = point_to_voxel(x2, z1)
        if self.dropout:
            y3.F = self.dropout(y3.F)
        y3 = self.up1[0](y3)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.up1[1](y3)

        y4 = self.up2[0](y3)
        y4 = torchsparse.cat([y4, x0])
        y4 = self.up2[1](y4)
        z3 = voxel_to_point(y4, z1)
        z3.F = z3.F + self.point_transforms[1](z1.F)

        return z3.F
示例#2
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文件: minkunet.py 项目: zxczrx123/e3d 
    def forward(self, x):
        x0 = self.stem(x)
        x1 = self.stage1(x0)
        x2 = self.stage2(x1)
        x3 = self.stage3(x2)
        x4 = self.stage4(x3)

        y1 = self.up1[0](x4)
        y1 = torchsparse.cat([y1, x3])
        y1 = self.up1[1](y1)

        y2 = self.up2[0](y1)
        y2 = torchsparse.cat([y2, x2])
        y2 = self.up2[1](y2)

        y3 = self.up3[0](y2)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.up3[1](y3)

        y4 = self.up4[0](y3)
        y4 = torchsparse.cat([y4, x0])
        y4 = self.up4[1](y4)

        out = self.classifier(y4.F)

        return out
示例#3
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文件: spvnas.py 项目: whuchenlin/e3d 
    def forward(self, x):
        # x: SparseTensor z: PointTensor
        z = PointTensor(x.F, x.C.float())
        #x0 = initial_voxelize(z, self.pres, self.vres)
        x0 = point_to_voxel(x, z)

        x0 = self.stem(x0)
        z0 = voxel_to_point(x0, z)
        z0.F = z0.F  #+ self.point_transforms[0](z.F)

        x1 = point_to_voxel(x0, z0)
        x1 = self.downsample[0](x1)
        x2 = self.downsample[1](x1)
        x3 = self.downsample[2](x2)
        x4 = self.downsample[3](x3)

        # point transform 32 to 256
        z1 = voxel_to_point(x4, z0)
        z1.F = z1.F + self.point_transforms[0](z0.F)

        y1 = point_to_voxel(x4, z1)
        y1.F = self.dropout(y1.F)
        y1 = self.upsample[0].transition(y1)
        y1 = torchsparse.cat([y1, x3])
        y1 = self.upsample[0].feature(y1)

        #print('y1', y1.C)
        y2 = self.upsample[1].transition(y1)
        y2 = torchsparse.cat([y2, x2])
        y2 = self.upsample[1].feature(y2)
        # point transform 256 to 128
        z2 = voxel_to_point(y2, z1)
        z2.F = z2.F + self.point_transforms[1](z1.F)

        y3 = point_to_voxel(y2, z2)
        y3.F = self.dropout(y3.F)
        y3 = self.upsample[2].transition(y3)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.upsample[2].feature(y3)

        y4 = self.upsample[3].transition(y3)
        y4 = torchsparse.cat([y4, x0])
        y4 = self.upsample[3].feature(y4)
        z3 = voxel_to_point(y4, z2)
        z3.F = z3.F + self.point_transforms[2](z2.F)

        self.classifier.set_in_channel(z3.F.shape[-1])
        out = self.classifier(z3.F)

        return out
示例#4
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 def embedder(self, y3, x0, z2):
     y4 = self.e_up4[0](y3)
     y4 = torchsparse.cat([y4, x0])
     y4 = self.e_up4[1](y4)
     z3 = voxel_to_point(y4, z2)
     z3.F = z3.F + self.e_point_transform(z2.F)
     return self.e_lin(z3.F)
示例#5
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    def forward(self, x):
        # x: SparseTensor z: PointTensor
        z = PointTensor(x.F, x.C.float())

        x0 = initial_voxelize(z, self.hparams.model.pres,
                              self.hparams.model.vres)

        x0 = self.stem(x0)
        z0 = voxel_to_point(x0, z, nearest=False)
        z0.F = z0.F

        x1 = point_to_voxel(x0, z0)
        x1 = self.stage1(x1)
        x2 = self.stage2(x1)
        x3 = self.stage3(x2)
        x4 = self.stage4(x3)
        z1 = voxel_to_point(x4, z0)
        z1.F = z1.F + self.point_transforms[0](z0.F)

        y1 = point_to_voxel(x4, z1)
        y1.F = self.dropout(y1.F)
        y1 = self.up1[0](y1)
        y1 = torchsparse.cat([y1, x3])
        y1 = self.up1[1](y1)

        y2 = self.up2[0](y1)
        y2 = torchsparse.cat([y2, x2])
        y2 = self.up2[1](y2)
        z2 = voxel_to_point(y2, z1)
        z2.F = z2.F + self.point_transforms[1](z1.F)

        y3 = point_to_voxel(y2, z2)
        y3.F = self.dropout(y3.F)
        y3 = self.up3[0](y3)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.up3[1](y3)

        task = self.hparams.task
        if task == 'semantic':
            out = self.classifier(y3, x0, z2)
        elif task == 'instance':
            out = self.embedder(y3, x0, z2)
        elif task == 'panoptic':
            out = (self.classifier(y3, x0, z2), self.embedder(y3, x0, z2))
        else:
            raise RuntimeError("invalid task!")
        return out
示例#6
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    def forward(self, x):
        # x: SparseTensor z: PointTensor
        z = PointTensor(x.F, x.C.float())

        x0 = initial_voxelize(z, self.hparams.model.pres,
                              self.hparams.model.vres)

        x0 = self.stem(x0)
        z0 = voxel_to_point(x0, z, nearest=False)
        z0.F = z0.F

        x1 = point_to_voxel(x0, z0)
        x1 = self.stage1(x1)
        x2 = self.stage2(x1)
        x3 = self.stage3(x2)
        x4 = self.stage4(x3)
        z1 = voxel_to_point(x4, z0)
        z1.F = z1.F + self.point_transforms[0](z0.F)

        y1 = point_to_voxel(x4, z1)
        y1.F = self.dropout(y1.F)
        y1 = self.up1[0](y1)
        y1 = torchsparse.cat([y1, x3])
        y1 = self.up1[1](y1)

        y2 = self.up2[0](y1)
        y2 = torchsparse.cat([y2, x2])
        y2 = self.up2[1](y2)
        z2 = voxel_to_point(y2, z1)
        z2.F = z2.F + self.point_transforms[1](z1.F)

        y3 = point_to_voxel(y2, z2)
        y3.F = self.dropout(y3.F)
        y3 = self.up3[0](y3)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.up3[1](y3)

        task = self.hparams.task
        out = {}
        if task == 'semantic' or task == 'panoptic':
            out['pred_semantic_scores'] = self.classifier(y3, x0, z2)
            out['pred_semantic_labels'] = out['pred_semantic_scores'].argmax(
                dim=1)
        if task == 'instance' or task == 'panoptic':
            out['pred_offsets'] = self.embedder(y3, x0, z2)
        return out
示例#7
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    def forward(self, x):
        # x: SparseTensor z: PointTensor
        z = PointTensor(x.F, x.C.float())

        x0 = initial_voxelize(z, 1.0, self.vres)

        x0 = self.stem(x0)
        z0 = voxel_to_point(x0, z, nearest=False)
        z0.F = z0.F

        x1 = point_to_voxel(x0, z0)
        x1 = self.stage1(x1)
        x2 = self.stage2(x1)
        x3 = self.stage3(x2)
        x4 = self.stage4(x3)
        z1 = voxel_to_point(x4, z0)
        z1.F = z1.F + self.point_transforms[0](z0.F)

        y1 = point_to_voxel(x4, z1)
        y1.F = self.dropout(y1.F)
        y1 = self.up1[0](y1)
        y1 = torchsparse.cat([y1, x3])
        y1 = self.up1[1](y1)

        y2 = self.up2[0](y1)
        y2 = torchsparse.cat([y2, x2])
        y2 = self.up2[1](y2)
        z2 = voxel_to_point(y2, z1)
        z2.F = z2.F + self.point_transforms[1](z1.F)

        y3 = point_to_voxel(y2, z2)
        y3.F = self.dropout(y3.F)
        y3 = self.up3[0](y3)
        y3 = torchsparse.cat([y3, x1])
        y3 = self.up3[1](y3)

        y4 = self.up4[0](y3)
        y4 = torchsparse.cat([y4, x0])
        y4 = self.up4[1](y4)
        z3 = voxel_to_point(y4, z2)
        z3.F = z3.F + self.point_transforms[2](z2.F)

        self.output = self.classifier(z3.F)
        return self.output
示例#8
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 def embedder(self, y3, x0, z2):
     y4 = self.e_up4[0](y3)
     y4 = torchsparse.cat([y4, x0])
     y4 = self.e_up4[1](y4)
     z3 = voxel_to_point(y4, z2)
     z3.F = z3.F + self.e_point_transform(z2.F)
     out = self.e_lin(z3.F)
     if 'tanh_scale' in self.hparams.model and self.hparams.model.tanh_scale is not None:
         out = torch.tanh(out) * self.hparams.model.tanh_scale
     return out
示例#9
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def cat(*args, dim=1):
    return TS.cat(args, dim)
示例#10
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def cat(*args):
    return TS.cat(args)