Hugging Face's logo

Spaces:
PKUWilliamYang
/
VToonify
Running on T4

App Files Community
5
VToonify / vtoonify /model /raft /evaluate.py
PKUWilliamYang's picture
PKUWilliamYang
V1
983684c
raw history blame
No virus
6.62 kB
import sys
sys.path.append('core')
from PIL import Image
import argparse
import os
import time
import numpy as np
import torch
import torch.nn.functional as F
import matplotlib.pyplot as plt
import datasets
from utils import flow_viz
from utils import frame_utils
from raft import RAFT
from utils.utils import InputPadder, forward_interpolate
@torch.no_grad()
def create_sintel_submission(model, iters=32, warm_start=False, output_path='sintel_submission'):
""" Create submission for the Sintel leaderboard """
model.eval()
for dstype in ['clean', 'final']:
test_dataset = datasets.MpiSintel(split='test', aug_params=None, dstype=dstype)
flow_prev, sequence_prev = None, None
for test_id in range(len(test_dataset)):
image1, image2, (sequence, frame) = test_dataset[test_id]
if sequence != sequence_prev:
flow_prev = None
padder = InputPadder(image1.shape)
image1, image2 = padder.pad(image1[None].cuda(), image2[None].cuda())
flow_low, flow_pr = model(image1, image2, iters=iters, flow_init=flow_prev, test_mode=True)
flow = padder.unpad(flow_pr[0]).permute(1, 2, 0).cpu().numpy()
if warm_start:
flow_prev = forward_interpolate(flow_low[0])[None].cuda()
output_dir = os.path.join(output_path, dstype, sequence)
output_file = os.path.join(output_dir, 'frame%04d.flo' % (frame+1))
if not os.path.exists(output_dir):
os.makedirs(output_dir)
frame_utils.writeFlow(output_file, flow)
sequence_prev = sequence
@torch.no_grad()
def create_kitti_submission(model, iters=24, output_path='kitti_submission'):
""" Create submission for the Sintel leaderboard """
model.eval()
test_dataset = datasets.KITTI(split='testing', aug_params=None)
if not os.path.exists(output_path):
os.makedirs(output_path)
for test_id in range(len(test_dataset)):
image1, image2, (frame_id, ) = test_dataset[test_id]
padder = InputPadder(image1.shape, mode='kitti')
image1, image2 = padder.pad(image1[None].cuda(), image2[None].cuda())
_, flow_pr = model(image1, image2, iters=iters, test_mode=True)
flow = padder.unpad(flow_pr[0]).permute(1, 2, 0).cpu().numpy()
output_filename = os.path.join(output_path, frame_id)
frame_utils.writeFlowKITTI(output_filename, flow)
@torch.no_grad()
def validate_chairs(model, iters=24):
""" Perform evaluation on the FlyingChairs (test) split """
model.eval()
epe_list = []
val_dataset = datasets.FlyingChairs(split='validation')
for val_id in range(len(val_dataset)):
image1, image2, flow_gt, _ = val_dataset[val_id]
image1 = image1[None].cuda()
image2 = image2[None].cuda()
_, flow_pr = model(image1, image2, iters=iters, test_mode=True)
epe = torch.sum((flow_pr[0].cpu() - flow_gt)**2, dim=0).sqrt()
epe_list.append(epe.view(-1).numpy())
epe = np.mean(np.concatenate(epe_list))
print("Validation Chairs EPE: %f" % epe)
return {'chairs': epe}
@torch.no_grad()
def validate_sintel(model, iters=32):
""" Peform validation using the Sintel (train) split """
model.eval()
results = {}
for dstype in ['clean', 'final']:
val_dataset = datasets.MpiSintel(split='training', dstype=dstype)
epe_list = []
for val_id in range(len(val_dataset)):
image1, image2, flow_gt, _ = val_dataset[val_id]
image1 = image1[None].cuda()
image2 = image2[None].cuda()
padder = InputPadder(image1.shape)
image1, image2 = padder.pad(image1, image2)
flow_low, flow_pr = model(image1, image2, iters=iters, test_mode=True)
flow = padder.unpad(flow_pr[0]).cpu()
epe = torch.sum((flow - flow_gt)**2, dim=0).sqrt()
epe_list.append(epe.view(-1).numpy())
epe_all = np.concatenate(epe_list)
epe = np.mean(epe_all)
px1 = np.mean(epe_all<1)
px3 = np.mean(epe_all<3)
px5 = np.mean(epe_all<5)
print("Validation (%s) EPE: %f, 1px: %f, 3px: %f, 5px: %f" % (dstype, epe, px1, px3, px5))
results[dstype] = np.mean(epe_list)
return results
@torch.no_grad()
def validate_kitti(model, iters=24):
""" Peform validation using the KITTI-2015 (train) split """
model.eval()
val_dataset = datasets.KITTI(split='training')
out_list, epe_list = [], []
for val_id in range(len(val_dataset)):
image1, image2, flow_gt, valid_gt = val_dataset[val_id]
image1 = image1[None].cuda()
image2 = image2[None].cuda()
padder = InputPadder(image1.shape, mode='kitti')
image1, image2 = padder.pad(image1, image2)
flow_low, flow_pr = model(image1, image2, iters=iters, test_mode=True)
flow = padder.unpad(flow_pr[0]).cpu()
epe = torch.sum((flow - flow_gt)**2, dim=0).sqrt()
mag = torch.sum(flow_gt**2, dim=0).sqrt()
epe = epe.view(-1)
mag = mag.view(-1)
val = valid_gt.view(-1) >= 0.5
out = ((epe > 3.0) & ((epe/mag) > 0.05)).float()
epe_list.append(epe[val].mean().item())
out_list.append(out[val].cpu().numpy())
epe_list = np.array(epe_list)
out_list = np.concatenate(out_list)
epe = np.mean(epe_list)
f1 = 100 * np.mean(out_list)
print("Validation KITTI: %f, %f" % (epe, f1))
return {'kitti-epe': epe, 'kitti-f1': f1}
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument('--model', help="restore checkpoint")
parser.add_argument('--dataset', help="dataset for evaluation")
parser.add_argument('--small', action='store_true', help='use small model')
parser.add_argument('--mixed_precision', action='store_true', help='use mixed precision')
parser.add_argument('--alternate_corr', action='store_true', help='use efficent correlation implementation')
args = parser.parse_args()
model = torch.nn.DataParallel(RAFT(args))
model.load_state_dict(torch.load(args.model))
model.cuda()
model.eval()
# create_sintel_submission(model.module, warm_start=True)
# create_kitti_submission(model.module)
with torch.no_grad():
if args.dataset == 'chairs':
validate_chairs(model.module)
elif args.dataset == 'sintel':
validate_sintel(model.module)
elif args.dataset == 'kitti':
validate_kitti(model.module)