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eval_seg_numpoints.py
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eval_seg_numpoints.py
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import numpy as np
import argparse
import torch
from models import seg_model
from utils import create_dir, viz_seg
from data_loader import get_data_loader
def create_parser():
"""Creates a parser for command-line arguments.
"""
parser = argparse.ArgumentParser()
parser.add_argument('--num_seg_class', type=int, default=6, help='The number of segmentation classes')
parser.add_argument('--num_points', type=int, default=10000, help='The number of points per object to be included in the input data')
# Directories and checkpoint/sample iterations
parser.add_argument('--load_checkpoint', type=str, default='best_model') # model_epoch_0
parser.add_argument('--i', type=int, default=0, help="index of the object to visualize")
parser.add_argument('--test_data', type=str, default='./data/seg/data_test.npy')
parser.add_argument('--test_label', type=str, default='./data/seg/label_test.npy')
parser.add_argument('--output_dir', type=str, default='./output_seg_numpoints')
parser.add_argument('--exp_name', type=str, default="exp", help='The name of the experiment')
parser.add_argument('--main_dir', type=str, default='./data/')
parser.add_argument('--task', type=str, default="seg", help='The task: cls or seg')
parser.add_argument('--batch_size', type=int, default=16, help='The number of images in a batch.')
parser.add_argument('--num_workers', type=int, default=0, help='The number of threads to use for the DataLoader.')
return parser
if __name__ == '__main__':
parser = create_parser()
args = parser.parse_args()
args.device = torch.device("cuda" if torch.cuda.is_available() else 'cpu')
create_dir(args.output_dir)
# ------ TO DO: Initialize Model for Segmentation Task ------
model = seg_model().to(args.device)
# Load Model Checkpoint
model_path = './checkpoints/seg/{}.pt'.format(args.load_checkpoint)
with open(model_path, 'rb') as f:
state_dict = torch.load(f, map_location=args.device)
model.load_state_dict(state_dict)
model.eval()
print("successfully loaded checkpoint from {}".format(model_path))
index = [20, 168, 96]
for j in index:
n_points = [10, 50, 100, 500, 1000, 10000]
for n in n_points:
# Sample Points per Object
ind = np.random.choice(10000, n, replace=False)
# ------ TO DO: Make Prediction ------
test_dataloader = get_data_loader(args=args, train=False)
correct_point = 0
num_point = 0
predictions = []
for batch in test_dataloader:
point_clouds, labels = batch
point_clouds = point_clouds[:, ind].to(args.device)
labels = labels[:, ind].to(args.device).to(torch.long)
with torch.no_grad():
pred_labels = torch.argmax(model(point_clouds), dim=-1, keepdim=False)
correct_point += pred_labels.eq(labels.data).cpu().sum().item()
num_point += labels.view([-1, 1]).size()[0]
predictions.append(pred_labels)
test_accuracy = correct_point / num_point
print(f"test accuracy for num of points {n} : {test_accuracy}")
predictions = torch.cat(predictions).detach().cpu()
verts = test_dataloader.dataset.data[j, ind].detach().cpu()
labels = test_dataloader.dataset.label[j, ind].to(torch.long).detach().cpu()
viz_seg(verts, labels, "{}/3.2. vis_{}_numpoints_{}_gt_{}.gif".format(args.output_dir, j, n, args.exp_name), args.device)
viz_seg(verts, predictions[j], "{}/3.2. vis_{}_numpoints_{}_pred_{}_acc_{}.gif".format(args.output_dir, j, n, args.exp_name, test_accuracy), args.device)