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train.py
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#
# Copyright (C) 2023, Inria
# GRAPHDECO research group, https://team.inria.fr/graphdeco
# All rights reserved.
#
# This software is free for non-commercial, research and evaluation use
# under the terms of the LICENSE.md file.
#
# For inquiries contact [email protected]
#
import os
import numpy as np
import subprocess
cmd = 'nvidia-smi -q -d Memory |grep -A4 GPU|grep Used'
result = subprocess.run(cmd, shell=True, stdout=subprocess.PIPE).stdout.decode().split('\n')
os.environ['CUDA_VISIBLE_DEVICES']=str(np.argmin([int(x.split()[2]) for x in result[:-1]]))
os.system('echo $CUDA_VISIBLE_DEVICES')
import torch
import torchvision
import json
import wandb
import time
from os import makedirs
import shutil
from pathlib import Path
from PIL import Image
import torchvision.transforms.functional as tf
import lpips
from random import randint
from utils.loss_utils import l1_loss, ssim
from gaussian_renderer import prefilter_voxel, render, network_gui
import sys
from scene import Scene, GaussianModel
from utils.general_utils import safe_state
import uuid
from tqdm import tqdm
from utils.image_utils import psnr
from argparse import ArgumentParser, Namespace
from arguments import ModelParams, PipelineParams, OptimizationParams
# torch.set_num_threads(32)
lpips_fn = lpips.LPIPS(net='vgg').to('cuda')
try:
from torch.utils.tensorboard import SummaryWriter
TENSORBOARD_FOUND = True
print("found tf board")
except ImportError:
TENSORBOARD_FOUND = False
print("not found tf board")
def saveRuntimeCode(dst: str) -> None:
additionalIgnorePatterns = ['.git', '.gitignore']
ignorePatterns = set()
ROOT = '.'
with open(os.path.join(ROOT, '.gitignore')) as gitIgnoreFile:
for line in gitIgnoreFile:
if not line.startswith('#'):
if line.endswith('\n'):
line = line[:-1]
if line.endswith('/'):
line = line[:-1]
ignorePatterns.add(line)
ignorePatterns = list(ignorePatterns)
for additionalPattern in additionalIgnorePatterns:
ignorePatterns.append(additionalPattern)
log_dir = Path(__file__).resolve().parent
shutil.copytree(log_dir, dst, ignore=shutil.ignore_patterns(*ignorePatterns))
print('Backup Finished!')
def training(dataset, opt, pipe, dataset_name, testing_iterations, saving_iterations, checkpoint_iterations, checkpoint, debug_from, wandb=None, logger=None, ply_path=None):
first_iter = 0
tb_writer = prepare_output_and_logger(dataset)
gaussians = GaussianModel(
dataset.feat_dim, dataset.n_offsets, dataset.fork, dataset.use_feat_bank, dataset.appearance_dim,
dataset.add_opacity_dist, dataset.add_cov_dist, dataset.add_color_dist, dataset.add_level,
dataset.visible_threshold, dataset.dist2level, dataset.base_layer, dataset.progressive, dataset.extend
)
scene = Scene(dataset, gaussians, ply_path=ply_path, shuffle=False, logger=logger, resolution_scales=dataset.resolution_scales)
gaussians.training_setup(opt)
gaussians.set_coarse_interval(opt.coarse_iter, opt.coarse_factor)
if checkpoint:
(model_params, first_iter) = torch.load(checkpoint)
gaussians.restore(model_params, opt)
iter_start = torch.cuda.Event(enable_timing = True)
iter_end = torch.cuda.Event(enable_timing = True)
viewpoint_stack = None
ema_loss_for_log = 0.0
progress_bar = tqdm(range(first_iter, opt.iterations), desc="Training progress")
first_iter += 1
for iteration in range(first_iter, opt.iterations + 1):
# network gui not available in octree-gs yet
if network_gui.conn == None:
network_gui.try_connect()
while network_gui.conn != None:
try:
net_image_bytes = None
custom_cam, do_training, pipe.compute_cov3D_python, keep_alive, scaling_modifer = network_gui.receive()
if custom_cam != None:
net_image = render(custom_cam, gaussians, pipe, background, scaling_modifer)["render"]
net_image_bytes = memoryview((torch.clamp(net_image, min=0, max=1.0) * 255).byte().permute(1, 2, 0).contiguous().cpu().numpy())
network_gui.send(net_image_bytes, dataset.source_path)
if do_training and ((iteration < int(opt.iterations)) or not keep_alive):
break
except Exception as e:
network_gui.conn = None
iter_start.record()
gaussians.update_learning_rate(iteration)
if dataset.random_background:
bg_color = [np.random.random(),np.random.random(),np.random.random()]
elif dataset.white_background:
bg_color = [1.0, 1.0, 1.0]
else:
bg_color = [0.0, 0.0, 0.0]
background = torch.tensor(bg_color, dtype=torch.float32, device="cuda")
# Pick a random Camera
if not viewpoint_stack:
viewpoint_stack = scene.getTrainCameras().copy()
viewpoint_cam = viewpoint_stack.pop(randint(0, len(viewpoint_stack)-1))
# Render
if (iteration - 1) == debug_from:
pipe.debug = True
gaussians.set_anchor_mask(viewpoint_cam.camera_center, iteration, viewpoint_cam.resolution_scale)
voxel_visible_mask = prefilter_voxel(viewpoint_cam, gaussians, pipe, background)
retain_grad = (iteration < opt.update_until and iteration >= 0)
render_pkg = render(viewpoint_cam, gaussians, pipe, background, visible_mask=voxel_visible_mask, retain_grad=retain_grad)
image, viewspace_point_tensor, visibility_filter, offset_selection_mask, radii, scaling, opacity = render_pkg["render"], render_pkg["viewspace_points"], render_pkg["visibility_filter"], render_pkg["selection_mask"], render_pkg["radii"], render_pkg["scaling"], render_pkg["neural_opacity"]
gt_image = viewpoint_cam.original_image.cuda()
Ll1 = l1_loss(image, gt_image)
ssim_loss = (1.0 - ssim(image, gt_image))
if scaling.shape[0] > 0:
scaling_reg = scaling.prod(dim=1).mean()
else:
scaling_reg = torch.tensor(0.0, device="cuda")
loss = (1.0 - opt.lambda_dssim) * Ll1 + opt.lambda_dssim * ssim_loss + 0.01*scaling_reg
loss.backward()
iter_end.record()
with torch.no_grad():
# Progress bar
ema_loss_for_log = 0.4 * loss.item() + 0.6 * ema_loss_for_log
if iteration % 10 == 0:
progress_bar.set_postfix({"Loss": f"{ema_loss_for_log:.{7}f}"})
progress_bar.update(10)
if iteration == opt.iterations:
progress_bar.close()
# Log and save
training_report(tb_writer, dataset_name, iteration, Ll1, loss, l1_loss, iter_start.elapsed_time(iter_end), testing_iterations, scene, render, (pipe, background), wandb, logger)
if (iteration in saving_iterations):
logger.info("\n[ITER {}] Saving Gaussians".format(iteration))
scene.save(iteration)
# densification
if iteration < opt.update_until and iteration > opt.start_stat:
# add statis
gaussians.training_statis(viewspace_point_tensor, opacity, visibility_filter, offset_selection_mask, voxel_visible_mask)
# densification
if opt.update_anchor and iteration > opt.update_from and iteration % opt.update_interval == 0:
gaussians.adjust_anchor(
iteration=iteration,
check_interval=opt.update_interval,
success_threshold=opt.success_threshold,
grad_threshold=opt.densify_grad_threshold,
update_ratio=dataset.update_ratio,
extra_ratio=dataset.extra_ratio,
extra_up=dataset.extra_up,
min_opacity=opt.min_opacity
)
elif iteration == opt.update_until:
del gaussians.opacity_accum
del gaussians.offset_gradient_accum
del gaussians.offset_denom
torch.cuda.empty_cache()
# Optimizer step
if iteration < opt.iterations:
gaussians.optimizer.step()
gaussians.optimizer.zero_grad(set_to_none = True)
if (iteration in checkpoint_iterations):
logger.info("\n[ITER {}] Saving Checkpoint".format(iteration))
torch.save((gaussians.capture(), iteration), scene.model_path + "/chkpnt" + str(iteration) + ".pth")
def prepare_output_and_logger(args):
if not args.model_path:
if os.getenv('OAR_JOB_ID'):
unique_str=os.getenv('OAR_JOB_ID')
else:
unique_str = str(uuid.uuid4())
args.model_path = os.path.join("./output/", unique_str[0:10])
# Set up output folder
print("Output folder: {}".format(args.model_path))
os.makedirs(args.model_path, exist_ok = True)
with open(os.path.join(args.model_path, "cfg_args"), 'w') as cfg_log_f:
cfg_log_f.write(str(Namespace(**vars(args))))
# Create Tensorboard writer
tb_writer = None
if TENSORBOARD_FOUND:
tb_writer = SummaryWriter(args.model_path)
else:
print("Tensorboard not available: not logging progress")
return tb_writer
def training_report(tb_writer, dataset_name, iteration, Ll1, loss, l1_loss, elapsed, testing_iterations, scene : Scene, renderFunc, renderArgs, wandb=None, logger=None):
if tb_writer:
tb_writer.add_scalar(f'{dataset_name}/train_loss_patches/l1_loss', Ll1.item(), iteration)
tb_writer.add_scalar(f'{dataset_name}/train_loss_patches/total_loss', loss.item(), iteration)
tb_writer.add_scalar(f'{dataset_name}/iter_time', elapsed, iteration)
if wandb is not None:
wandb.log({"train_l1_loss":Ll1, 'train_total_loss':loss, })
# Report test and samples of training set
if iteration in testing_iterations:
scene.gaussians.eval()
torch.cuda.empty_cache()
validation_configs = ({'name': 'test', 'cameras' : scene.getTestCameras()},
{'name': 'train', 'cameras' : [scene.getTrainCameras()[idx % len(scene.getTrainCameras())] for idx in range(5, 30, 5)]})
for config in validation_configs:
if config['cameras'] and len(config['cameras']) > 0:
l1_test = 0.0
psnr_test = 0.0
if wandb is not None:
gt_image_list = []
render_image_list = []
errormap_list = []
for idx, viewpoint in enumerate(config['cameras']):
scene.gaussians.set_anchor_mask(viewpoint.camera_center, iteration, viewpoint.resolution_scale)
voxel_visible_mask = prefilter_voxel(viewpoint, scene.gaussians, *renderArgs)
image = torch.clamp(renderFunc(viewpoint, scene.gaussians, *renderArgs, visible_mask=voxel_visible_mask)["render"], 0.0, 1.0)
gt_image = torch.clamp(viewpoint.original_image.to("cuda"), 0.0, 1.0)
if tb_writer and (idx < 30):
tb_writer.add_images(f'{dataset_name}/'+config['name'] + "_view_{}/render".format(viewpoint.image_name), image[None], global_step=iteration)
tb_writer.add_images(f'{dataset_name}/'+config['name'] + "_view_{}/errormap".format(viewpoint.image_name), (gt_image[None]-image[None]).abs(), global_step=iteration)
if wandb:
render_image_list.append(image[None])
errormap_list.append((gt_image[None]-image[None]).abs())
if iteration == testing_iterations[0]:
tb_writer.add_images(f'{dataset_name}/'+config['name'] + "_view_{}/ground_truth".format(viewpoint.image_name), gt_image[None], global_step=iteration)
if wandb:
gt_image_list.append(gt_image[None])
l1_test += l1_loss(image, gt_image).mean().double()
psnr_test += psnr(image, gt_image).mean().double()
psnr_test /= len(config['cameras'])
l1_test /= len(config['cameras'])
logger.info("\n[ITER {}] Evaluating {}: L1 {} PSNR {}".format(iteration, config['name'], l1_test, psnr_test))
if tb_writer:
tb_writer.add_scalar(f'{dataset_name}/'+config['name'] + '/loss_viewpoint - l1_loss', l1_test, iteration)
tb_writer.add_scalar(f'{dataset_name}/'+config['name'] + '/loss_viewpoint - psnr', psnr_test, iteration)
if wandb is not None:
wandb.log({f"{config['name']}_loss_viewpoint_l1_loss":l1_test, f"{config['name']}_PSNR":psnr_test})
if tb_writer:
# tb_writer.add_histogram(f'{dataset_name}/'+"scene/opacity_histogram", scene.gaussians.get_opacity, iteration)
tb_writer.add_scalar(f'{dataset_name}/'+'total_points', scene.gaussians.get_anchor.shape[0], iteration)
torch.cuda.empty_cache()
scene.gaussians.train()
def render_set(model_path, name, iteration, views, gaussians, pipeline, background):
render_path = os.path.join(model_path, name, "ours_{}".format(iteration), "renders")
error_path = os.path.join(model_path, name, "ours_{}".format(iteration), "errors")
gts_path = os.path.join(model_path, name, "ours_{}".format(iteration), "gt")
makedirs(render_path, exist_ok=True)
makedirs(error_path, exist_ok=True)
makedirs(gts_path, exist_ok=True)
t_list = []
visible_count_list = []
per_view_dict = {}
for idx, view in enumerate(tqdm(views, desc="Rendering progress")):
torch.cuda.synchronize();t_start = time.time()
gaussians.set_anchor_mask(view.camera_center, iteration, view.resolution_scale)
voxel_visible_mask = prefilter_voxel(view, gaussians, pipeline, background)
render_pkg = render(view, gaussians, pipeline, background, visible_mask=voxel_visible_mask)
torch.cuda.synchronize();t_end = time.time()
t_list.append(t_end - t_start)
# renders
rendering = torch.clamp(render_pkg["render"], 0.0, 1.0)
visible_count = render_pkg["visibility_filter"].sum()
visible_count_list.append(visible_count)
# gts
gt = view.original_image[0:3, :, :]
# error maps
if gt.device != rendering.device:
rendering = rendering.to(gt.device)
errormap = (rendering - gt).abs()
torchvision.utils.save_image(rendering, os.path.join(render_path, '{0:05d}'.format(idx) + ".png"))
torchvision.utils.save_image(errormap, os.path.join(error_path, '{0:05d}'.format(idx) + ".png"))
torchvision.utils.save_image(gt, os.path.join(gts_path, '{0:05d}'.format(idx) + ".png"))
per_view_dict['{0:05d}'.format(idx) + ".png"] = visible_count.item()
with open(os.path.join(model_path, name, "ours_{}".format(iteration), "per_view_count.json"), 'w') as fp:
json.dump(per_view_dict, fp, indent=True)
return t_list, visible_count_list
def render_sets(dataset : ModelParams, iteration : int, pipeline : PipelineParams, skip_train=False, skip_test=False, wandb=None, tb_writer=None, dataset_name=None, logger=None):
with torch.no_grad():
gaussians = GaussianModel(
dataset.feat_dim, dataset.n_offsets, dataset.fork, dataset.use_feat_bank, dataset.appearance_dim,
dataset.add_opacity_dist, dataset.add_cov_dist, dataset.add_color_dist, dataset.add_level,
dataset.visible_threshold, dataset.dist2level, dataset.base_layer, dataset.progressive, dataset.extend
)
scene = Scene(dataset, gaussians, load_iteration=iteration, shuffle=False, resolution_scales=dataset.resolution_scales)
gaussians.eval()
if dataset.random_background:
bg_color = [np.random.random(),np.random.random(),np.random.random()]
elif dataset.white_background:
bg_color = [1.0, 1.0, 1.0]
else:
bg_color = [0.0, 0.0, 0.0]
background = torch.tensor(bg_color, dtype=torch.float32, device="cuda")
if not os.path.exists(dataset.model_path):
os.makedirs(dataset.model_path)
if not skip_train:
t_train_list, visible_count = render_set(dataset.model_path, "train", scene.loaded_iter, scene.getTrainCameras(), gaussians, pipeline, background)
train_fps = 1.0 / torch.tensor(t_train_list[5:]).mean()
logger.info(f'Train FPS: \033[1;35m{train_fps.item():.5f}\033[0m')
if wandb is not None:
wandb.log({"train_fps":train_fps.item(), })
if not skip_test:
t_test_list, visible_count = render_set(dataset.model_path, "test", scene.loaded_iter, scene.getTestCameras(), gaussians, pipeline, background)
test_fps = 1.0 / torch.tensor(t_test_list[5:]).mean()
logger.info(f'Test FPS: \033[1;35m{test_fps.item():.5f}\033[0m')
if tb_writer:
tb_writer.add_scalar(f'{dataset_name}/test_FPS', test_fps.item(), 0)
if wandb is not None:
wandb.log({"test_fps":test_fps, })
return visible_count
def readImages(renders_dir, gt_dir):
renders = []
gts = []
image_names = []
for fname in os.listdir(renders_dir):
render = Image.open(renders_dir / fname)
gt = Image.open(gt_dir / fname)
renders.append(tf.to_tensor(render).unsqueeze(0)[:, :3, :, :].cuda())
gts.append(tf.to_tensor(gt).unsqueeze(0)[:, :3, :, :].cuda())
image_names.append(fname)
return renders, gts, image_names
def evaluate(model_paths, eval_name, visible_count=None, wandb=None, tb_writer=None, dataset_name=None, logger=None):
full_dict = {}
per_view_dict = {}
full_dict_polytopeonly = {}
per_view_dict_polytopeonly = {}
print("")
scene_dir = model_paths
full_dict[scene_dir] = {}
per_view_dict[scene_dir] = {}
full_dict_polytopeonly[scene_dir] = {}
per_view_dict_polytopeonly[scene_dir] = {}
test_dir = Path(scene_dir) / eval_name
for method in os.listdir(test_dir):
full_dict[scene_dir][method] = {}
per_view_dict[scene_dir][method] = {}
full_dict_polytopeonly[scene_dir][method] = {}
per_view_dict_polytopeonly[scene_dir][method] = {}
method_dir = test_dir / method
gt_dir = method_dir/ "gt"
renders_dir = method_dir / "renders"
renders, gts, image_names = readImages(renders_dir, gt_dir)
ssims = []
psnrs = []
lpipss = []
for idx in tqdm(range(len(renders)), desc="Metric evaluation progress"):
ssims.append(ssim(renders[idx], gts[idx]))
psnrs.append(psnr(renders[idx], gts[idx]))
lpipss.append(lpips_fn(renders[idx], gts[idx]).detach())
if wandb is not None:
wandb.log({"test_SSIMS":torch.stack(ssims).mean().item(), })
wandb.log({"test_PSNR_final":torch.stack(psnrs).mean().item(), })
wandb.log({"test_LPIPS":torch.stack(lpipss).mean().item(), })
logger.info(f"model_paths: \033[1;35m{model_paths}\033[0m")
logger.info(" SSIM : \033[1;35m{:>12.7f}\033[0m".format(torch.tensor(ssims).mean(), ".5"))
logger.info(" PSNR : \033[1;35m{:>12.7f}\033[0m".format(torch.tensor(psnrs).mean(), ".5"))
logger.info(" LPIPS: \033[1;35m{:>12.7f}\033[0m".format(torch.tensor(lpipss).mean(), ".5"))
print("")
if tb_writer:
tb_writer.add_scalar(f'{dataset_name}/SSIM', torch.tensor(ssims).mean().item(), 0)
tb_writer.add_scalar(f'{dataset_name}/PSNR', torch.tensor(psnrs).mean().item(), 0)
tb_writer.add_scalar(f'{dataset_name}/LPIPS', torch.tensor(lpipss).mean().item(), 0)
tb_writer.add_scalar(f'{dataset_name}/VISIBLE_NUMS', torch.tensor(visible_count).mean().item(), 0)
full_dict[scene_dir][method].update({"SSIM": torch.tensor(ssims).mean().item(),
"PSNR": torch.tensor(psnrs).mean().item(),
"LPIPS": torch.tensor(lpipss).mean().item()})
per_view_dict[scene_dir][method].update({"SSIM": {name: ssim for ssim, name in zip(torch.tensor(ssims).tolist(), image_names)},
"PSNR": {name: psnr for psnr, name in zip(torch.tensor(psnrs).tolist(), image_names)},
"LPIPS": {name: lp for lp, name in zip(torch.tensor(lpipss).tolist(), image_names)},
"VISIBLE_COUNT": {name: vc for vc, name in zip(torch.tensor(visible_count).tolist(), image_names)}})
with open(scene_dir + "/results.json", 'w') as fp:
json.dump(full_dict[scene_dir], fp, indent=True)
with open(scene_dir + "/per_view.json", 'w') as fp:
json.dump(per_view_dict[scene_dir], fp, indent=True)
def get_logger(path):
import logging
logger = logging.getLogger()
logger.setLevel(logging.INFO)
fileinfo = logging.FileHandler(os.path.join(path, "outputs.log"))
fileinfo.setLevel(logging.INFO)
controlshow = logging.StreamHandler()
controlshow.setLevel(logging.INFO)
formatter = logging.Formatter("%(asctime)s - %(levelname)s: %(message)s")
fileinfo.setFormatter(formatter)
controlshow.setFormatter(formatter)
logger.addHandler(fileinfo)
logger.addHandler(controlshow)
return logger
if __name__ == "__main__":
# Set up command line argument parser
parser = ArgumentParser(description="Training script parameters")
lp = ModelParams(parser)
op = OptimizationParams(parser)
pp = PipelineParams(parser)
parser.add_argument('--ip', type=str, default="127.0.0.1")
parser.add_argument('--port', type=int, default=6009)
parser.add_argument('--debug_from', type=int, default=-1)
parser.add_argument('--detect_anomaly', action='store_true', default=False)
parser.add_argument('--warmup', action='store_true', default=False)
parser.add_argument('--use_wandb', action='store_true', default=False)
parser.add_argument("--test_iterations", nargs="+", type=int, default=[-1])
parser.add_argument("--save_iterations", nargs="+", type=int, default=[-1])
parser.add_argument("--quiet", action="store_true")
parser.add_argument("--checkpoint_iterations", nargs="+", type=int, default=[])
parser.add_argument("--start_checkpoint", type=str, default = None)
parser.add_argument("--gpu", type=str, default = '-1')
args = parser.parse_args(sys.argv[1:])
# enable logging
model_path = args.model_path
os.makedirs(model_path, exist_ok=True)
logger = get_logger(model_path)
logger.info(f'args: {args}')
if args.test_iterations[0] == -1:
args.test_iterations = [i for i in range(10000, args.iterations + 1, 10000)]
if len(args.test_iterations) == 0 or args.test_iterations[-1] != args.iterations:
args.test_iterations.append(args.iterations)
print(args.test_iterations)
if args.save_iterations[0] == -1:
args.save_iterations = [i for i in range(10000, args.iterations + 1, 10000)]
if len(args.save_iterations) == 0 or args.save_iterations[-1] != args.iterations:
args.save_iterations.append(args.iterations)
print(args.save_iterations)
if args.gpu != '-1':
os.environ['CUDA_VISIBLE_DEVICES'] = str(args.gpu)
os.system("echo $CUDA_VISIBLE_DEVICES")
logger.info(f'using GPU {args.gpu}')
try:
saveRuntimeCode(os.path.join(args.model_path, 'backup'))
except:
logger.info(f'save code failed~')
dataset = args.source_path.split('/')[-1]
exp_name = args.model_path.split('/')[-2]
if args.use_wandb:
wandb.login()
run = wandb.init(
# Set the project where this run will be logged
project=f"Octree-GS-{dataset}",
name=exp_name,
# Track hyperparameters and run metadata
settings=wandb.Settings(start_method="fork"),
config=vars(args)
)
else:
wandb = None
logger.info("Optimizing " + args.model_path)
# Initialize system state (RNG)
safe_state(args.quiet)
# Start GUI server, configure and run training
network_gui.init(args.ip, args.port)
torch.autograd.set_detect_anomaly(args.detect_anomaly)
# training
training(lp.extract(args), op.extract(args), pp.extract(args), dataset, args.test_iterations, args.save_iterations, args.checkpoint_iterations, args.start_checkpoint, args.debug_from, wandb, logger)
if args.warmup:
logger.info("\n Warmup finished! Reboot from last checkpoints")
new_ply_path = os.path.join(args.model_path, f'point_cloud/iteration_{args.iterations}', 'point_cloud.ply')
training(lp.extract(args), op.extract(args), pp.extract(args), dataset, args.test_iterations, args.save_iterations, args.checkpoint_iterations, args.start_checkpoint, args.debug_from, wandb=wandb, logger=logger, ply_path=new_ply_path)
# All done
logger.info("\nTraining complete.")
# rendering
logger.info(f'\nStarting Rendering~')
if args.eval:
visible_count = render_sets(lp.extract(args), -1, pp.extract(args), skip_train=True, skip_test=False, wandb=wandb, logger=logger)
else:
visible_count = render_sets(lp.extract(args), -1, pp.extract(args), skip_train=False, skip_test=True, wandb=wandb, logger=logger)
logger.info("\nRendering complete.")
# calc metrics
logger.info("\n Starting evaluation...")
eval_name = 'test' if args.eval else 'train'
evaluate(args.model_path, eval_name, visible_count=visible_count, wandb=wandb, logger=logger)
logger.info("\nEvaluating complete.")