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I have been trying to solve this issue for some time but can't manage. In the PointCloudCompletion (PCN) network, the training results show me something odd. I am loading partial PCs (Input)of objects AND the complete (Ground Truth) PC of that partial. The loading works well for partials always. For complete PCs, IT ONLY WORKS on the first iteration The plots show that for the first iteration has nice results, but after the first one, the Ground Truth PC loaded, is incorrect (which is weird because I am loading it):

Iteration one and two of a run (In other runs, the plot of iterations can be any object of the loaded ones. Ground Truth should stay the same, as it's always the same PC file... It get's corrupted?): Iteration 1 Iteration 2

You can see in datasets/shapenet.py the loading method. I changed it a bit to be able to input my dataset. In total I have 400 PCs per object, divided in 280 train, 120 val. That is the reason for the modules (%280, etc) in the for loops. Not very clean, but it's for testing a small dataset. The PC's names go from 0.pcd, 1.pcd, and so on. The complete PC is actually the same always per object. I was uploading always 1 file, but I decided to make 280+120 copies of it (one per partial instead of one for all partials. I think it shoulnd't matter anyways), in case it was a problem of opening the same PC several times. It wasn't that.

def _load_data(self):

    with open(os.path.join(self.dataroot, '{}.list').format(self.split), 'r') as f:
        lines = f.read().splitlines()
    if self.category != 'all':
        lines = list(filter(lambda x: x.startswith(self.cat2id2[self.category]), lines))

    partial_paths, complete_paths = list(), list()
    train_counter = 0
    test_counter = 280 # change to do clean up. 
    total_counter = 0

    for line in lines:
        print(line)
        category, model_id = line.split('/')
        if self.split == 'train':
            for i in range(280):
                partial_paths.append(os.path.join(self.dataroot, self.split, 'partial', category,str(train_counter%280)+'.pcd'))
                complete_paths.append(os.path.join(self.dataroot, self.split, 'complete', category, str(train_counter%280)+'.pcd'))
                train_counter+=1

        else:
            for i in range(120):
                partial_paths.append(os.path.join(self.dataroot, self.split, 'partial', category, str(test_counter)+'.pcd'))
                complete_paths.append(os.path.join(self.dataroot, self.split, 'complete', category, str(test_counter)+'.pcd'))

                test_counter+=1
                if(test_counter == 400):
                    test_counter = 280

                total_counter+=1

    # for i in range (len(complete):
    #     print(i)
    #     count = count+50
    #     d = complete_paths[count]
    #     pcd = o3d.io.read_point_cloud(d)
    #     o3d.visualization.draw_geometries([pcd])

    return partial_paths, complete_paths

I even had that last method (commented) to check if the PCs were correct. They are.

This function is called in the train.py

train_dataset = ShapeNet('data/PCN', 'train', params.category)
train_dataloader = DataLoader(train_dataset, batch_size=params.batch_size, shuffle=True, num_workers=params.num_workers)

For some reason, the values of the label (Ground Truth, complete PC, as you want to call it) are not being stored properly, or pytorch is doing something weird with them. And I checked in it in here:

for epoch in range(1, params.epochs + 1):
    # hyperparameter alpha
    if train_step < 10000:
        alpha = 0.01
    elif train_step < 20000:
        alpha = 0.1
    elif epoch < 50000:
        alpha = 0.5
    else:
        alpha = 1.0

    # training
    model.train()
    for i, (p, c) in enumerate(train_dataloader):
        p, c = p.to(params.device), c.to(params.device)

        optimizer.zero_grad()

        # forward propagation
        coarse_pred, dense_pred = model(p)

Where the values p and c are corresponding to the partial and complete PC respectively. By doing some torch conversion, I was able to print the pointclouds. c which is the complete, only has the pertaining value during the first epoch. After that, it's like a blank PC. And I am not sure why this is happening.

        d = p[i].cpu().numpy()
        e = c[i].cpu().numpy()
        
        print('The pointcloud per dataloader iteration , ', i)
        pcd = o3d.geometry.PointCloud()
        pcd.points = o3d.utility.Vector3dVector(d)
        o3d.visualization.draw_geometries([pcd])

        pcb = o3d.geometry.PointCloud()
        pcd.points = o3d.utility.Vector3dVector(e)
        o3d.visualization.draw_geometries([pcb])

I thought that in this last part, I can replace c with the corresponding pointcloud, but I don't know how to know which object it's getting from the dataloader, to load the correct object.

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  • how do you define train_dataset Jul 9 at 12:33
  • It's a path to the dataset, passed with the ShapeNet Class, which innerly does the Shapenet._load_data that is showed in the first code of this question! , like this: train_dataset = ShapeNet('data/PCN', 'train', params.category) @KonstantinosKokos
    – M.K
    Jul 9 at 15:24

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