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main.py
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import torch
import argparse
import pandas as pd
import sys
from nerf.provider import NeRFDataset
from nerf.utils import *
# torch.autograd.set_detect_anomaly(True)
if __name__ == '__main__':
# See https://stackoverflow.com/questions/27433316/how-to-get-argparse-to-read-arguments-from-a-file-with-an-option-rather-than-pre
class LoadFromFile (argparse.Action):
def __call__ (self, parser, namespace, values, option_string = None):
with values as f:
# parse arguments in the file and store them in the target namespace
parser.parse_args(f.read().split(), namespace)
parser = argparse.ArgumentParser()
parser.add_argument('--file', type=open, action=LoadFromFile, help="specify a file filled with more arguments")
parser.add_argument('--text', default=None, help="text prompt")
parser.add_argument('--negative', default='', type=str, help="negative text prompt")
parser.add_argument('-O', action='store_true', help="equals --fp16 --cuda_ray")
parser.add_argument('-O2', action='store_true', help="equals --backbone vanilla")
parser.add_argument('--test', action='store_true', help="test mode")
parser.add_argument('--six_views', action='store_true', help="six_views mode: save the images of the six views")
parser.add_argument('--eval_interval', type=int, default=1, help="evaluate on the valid set every interval epochs")
parser.add_argument('--test_interval', type=int, default=100, help="test on the test set every interval epochs")
parser.add_argument('--workspace', type=str, default='workspace')
parser.add_argument('--seed', default=None)
parser.add_argument('--image', default=None, help="image prompt")
parser.add_argument('--image_config', default=None, help="image config csv")
parser.add_argument('--known_view_interval', type=int, default=4, help="train default view with RGB loss every & iters, only valid if --image is not None.")
parser.add_argument('--IF', action='store_true', help="experimental: use DeepFloyd IF as the guidance model for nerf stage")
parser.add_argument('--guidance', type=str, nargs='*', default=['SD'], help='guidance model')
parser.add_argument('--guidance_scale', type=float, default=100, help="diffusion model classifier-free guidance scale")
parser.add_argument('--save_mesh', action='store_true', help="export an obj mesh with texture")
parser.add_argument('--mcubes_resolution', type=int, default=256, help="mcubes resolution for extracting mesh")
parser.add_argument('--decimate_target', type=int, default=5e4, help="target face number for mesh decimation")
parser.add_argument('--dmtet', action='store_true', help="use dmtet finetuning")
parser.add_argument('--tet_grid_size', type=int, default=128, help="tet grid size")
parser.add_argument('--init_with', type=str, default='', help="ckpt to init dmtet")
parser.add_argument('--lock_geo', action='store_true', help="disable dmtet to learn geometry")
## Perp-Neg options
parser.add_argument('--perpneg', action='store_true', help="use perp_neg")
parser.add_argument('--negative_w', type=float, default=-2, help="The scale of the weights of negative prompts. A larger value will help to avoid the Janus problem, but may cause flat faces. Vary between 0 to -4, depending on the prompt")
parser.add_argument('--front_decay_factor', type=float, default=2, help="decay factor for the front prompt")
parser.add_argument('--side_decay_factor', type=float, default=10, help="decay factor for the side prompt")
### training options
parser.add_argument('--iters', type=int, default=10000, help="training iters")
parser.add_argument('--lr', type=float, default=1e-3, help="max learning rate")
parser.add_argument('--ckpt', type=str, default='latest', help="possible options are ['latest', 'scratch', 'best', 'latest_model']")
parser.add_argument('--cuda_ray', action='store_true', help="use CUDA raymarching instead of pytorch")
parser.add_argument('--taichi_ray', action='store_true', help="use taichi raymarching")
parser.add_argument('--max_steps', type=int, default=1024, help="max num steps sampled per ray (only valid when using --cuda_ray)")
parser.add_argument('--num_steps', type=int, default=64, help="num steps sampled per ray (only valid when not using --cuda_ray)")
parser.add_argument('--upsample_steps', type=int, default=32, help="num steps up-sampled per ray (only valid when not using --cuda_ray)")
parser.add_argument('--update_extra_interval', type=int, default=16, help="iter interval to update extra status (only valid when using --cuda_ray)")
parser.add_argument('--max_ray_batch', type=int, default=4096, help="batch size of rays at inference to avoid OOM (only valid when not using --cuda_ray)")
parser.add_argument('--latent_iter_ratio', type=float, default=0.2, help="training iters that only use albedo shading")
parser.add_argument('--albedo_iter_ratio', type=float, default=0, help="training iters that only use albedo shading")
parser.add_argument('--min_ambient_ratio', type=float, default=0.1, help="minimum ambient ratio to use in lambertian shading")
parser.add_argument('--textureless_ratio', type=float, default=0.2, help="ratio of textureless shading")
parser.add_argument('--jitter_pose', action='store_true', help="add jitters to the randomly sampled camera poses")
parser.add_argument('--jitter_center', type=float, default=0.2, help="amount of jitter to add to sampled camera pose's center (camera location)")
parser.add_argument('--jitter_target', type=float, default=0.2, help="amount of jitter to add to sampled camera pose's target (i.e. 'look-at')")
parser.add_argument('--jitter_up', type=float, default=0.02, help="amount of jitter to add to sampled camera pose's up-axis (i.e. 'camera roll')")
parser.add_argument('--uniform_sphere_rate', type=float, default=0, help="likelihood of sampling camera location uniformly on the sphere surface area")
parser.add_argument('--grad_clip', type=float, default=-1, help="clip grad of all grad to this limit, negative value disables it")
parser.add_argument('--grad_clip_rgb', type=float, default=-1, help="clip grad of rgb space grad to this limit, negative value disables it")
# model options
parser.add_argument('--bg_radius', type=float, default=1.4, help="if positive, use a background model at sphere(bg_radius)")
parser.add_argument('--density_activation', type=str, default='exp', choices=['softplus', 'exp'], help="density activation function")
parser.add_argument('--density_thresh', type=float, default=10, help="threshold for density grid to be occupied")
parser.add_argument('--blob_density', type=float, default=5, help="max (center) density for the density blob")
parser.add_argument('--blob_radius', type=float, default=0.2, help="control the radius for the density blob")
# network backbone
parser.add_argument('--backbone', type=str, default='grid', choices=['grid_tcnn', 'grid', 'vanilla', 'grid_taichi'], help="nerf backbone")
parser.add_argument('--optim', type=str, default='adan', choices=['adan', 'adam'], help="optimizer")
parser.add_argument('--sd_version', type=str, default='2.1', choices=['1.5', '2.0', '2.1'], help="stable diffusion version")
parser.add_argument('--hf_key', type=str, default=None, help="hugging face Stable diffusion model key")
# try this if CUDA OOM
parser.add_argument('--fp16', action='store_true', help="use float16 for training")
parser.add_argument('--vram_O', action='store_true', help="optimization for low VRAM usage")
# rendering resolution in training, increase these for better quality / decrease these if CUDA OOM even if --vram_O enabled.
parser.add_argument('--w', type=int, default=64, help="render width for NeRF in training")
parser.add_argument('--h', type=int, default=64, help="render height for NeRF in training")
parser.add_argument('--known_view_scale', type=float, default=1.5, help="multiply --h/w by this for known view rendering")
parser.add_argument('--known_view_noise_scale', type=float, default=2e-3, help="random camera noise added to rays_o and rays_d")
parser.add_argument('--dmtet_reso_scale', type=float, default=8, help="multiply --h/w by this for dmtet finetuning")
parser.add_argument('--batch_size', type=int, default=1, help="images to render per batch using NeRF")
### dataset options
parser.add_argument('--bound', type=float, default=1, help="assume the scene is bounded in box(-bound, bound)")
parser.add_argument('--dt_gamma', type=float, default=0, help="dt_gamma (>=0) for adaptive ray marching. set to 0 to disable, >0 to accelerate rendering (but usually with worse quality)")
parser.add_argument('--min_near', type=float, default=0.01, help="minimum near distance for camera")
parser.add_argument('--radius_range', type=float, nargs='*', default=[3.0, 3.5], help="training camera radius range")
parser.add_argument('--theta_range', type=float, nargs='*', default=[45, 105], help="training camera range along the polar angles (i.e. up and down). See advanced.md for details.")
parser.add_argument('--phi_range', type=float, nargs='*', default=[-180, 180], help="training camera range along the azimuth angles (i.e. left and right). See advanced.md for details.")
parser.add_argument('--fovy_range', type=float, nargs='*', default=[10, 30], help="training camera fovy range")
parser.add_argument('--default_radius', type=float, default=3.2, help="radius for the default view")
parser.add_argument('--default_polar', type=float, default=90, help="polar for the default view")
parser.add_argument('--default_azimuth', type=float, default=0, help="azimuth for the default view")
parser.add_argument('--default_fovy', type=float, default=20, help="fovy for the default view")
parser.add_argument('--progressive_view', action='store_true', help="progressively expand view sampling range from default to full")
parser.add_argument('--progressive_view_init_ratio', type=float, default=0.2, help="initial ratio of final range, used for progressive_view")
parser.add_argument('--progressive_level', action='store_true', help="progressively increase gridencoder's max_level")
parser.add_argument('--angle_overhead', type=float, default=30, help="[0, angle_overhead] is the overhead region")
parser.add_argument('--angle_front', type=float, default=60, help="[0, angle_front] is the front region, [180, 180+angle_front] the back region, otherwise the side region.")
parser.add_argument('--t_range', type=float, nargs='*', default=[0.02, 0.98], help="stable diffusion time steps range")
parser.add_argument('--dont_override_stuff',action='store_true', help="Don't override t_range, etc.")
### regularizations
parser.add_argument('--lambda_entropy', type=float, default=1e-3, help="loss scale for alpha entropy")
parser.add_argument('--lambda_opacity', type=float, default=0, help="loss scale for alpha value")
parser.add_argument('--lambda_orient', type=float, default=1e-2, help="loss scale for orientation")
parser.add_argument('--lambda_tv', type=float, default=0, help="loss scale for total variation")
parser.add_argument('--lambda_wd', type=float, default=0, help="loss scale")
parser.add_argument('--lambda_mesh_normal', type=float, default=0.5, help="loss scale for mesh normal smoothness")
parser.add_argument('--lambda_mesh_laplacian', type=float, default=0.5, help="loss scale for mesh laplacian")
parser.add_argument('--lambda_guidance', type=float, default=1, help="loss scale for SDS")
parser.add_argument('--lambda_rgb', type=float, default=1000, help="loss scale for RGB")
parser.add_argument('--lambda_mask', type=float, default=500, help="loss scale for mask (alpha)")
parser.add_argument('--lambda_normal', type=float, default=0, help="loss scale for normal map")
parser.add_argument('--lambda_depth', type=float, default=10, help="loss scale for relative depth")
parser.add_argument('--lambda_2d_normal_smooth', type=float, default=0, help="loss scale for 2D normal image smoothness")
parser.add_argument('--lambda_3d_normal_smooth', type=float, default=0, help="loss scale for 3D normal image smoothness")
### debugging options
parser.add_argument('--save_guidance', action='store_true', help="save images of the per-iteration NeRF renders, added noise, denoised (i.e. guidance), fully-denoised. Useful for debugging, but VERY SLOW and takes lots of memory!")
parser.add_argument('--save_guidance_interval', type=int, default=10, help="save guidance every X step")
### GUI options
parser.add_argument('--gui', action='store_true', help="start a GUI")
parser.add_argument('--W', type=int, default=800, help="GUI width")
parser.add_argument('--H', type=int, default=800, help="GUI height")
parser.add_argument('--radius', type=float, default=5, help="default GUI camera radius from center")
parser.add_argument('--fovy', type=float, default=20, help="default GUI camera fovy")
parser.add_argument('--light_theta', type=float, default=60, help="default GUI light direction in [0, 180], corresponding to elevation [90, -90]")
parser.add_argument('--light_phi', type=float, default=0, help="default GUI light direction in [0, 360), azimuth")
parser.add_argument('--max_spp', type=int, default=1, help="GUI rendering max sample per pixel")
parser.add_argument('--zero123_config', type=str, default='./pretrained/zero123/sd-objaverse-finetune-c_concat-256.yaml', help="config file for zero123")
parser.add_argument('--zero123_ckpt', type=str, default='pretrained/zero123/zero123-xl.ckpt', help="ckpt for zero123")
parser.add_argument('--zero123_grad_scale', type=str, default='angle', help="whether to scale the gradients based on 'angle' or 'None'")
parser.add_argument('--dataset_size_train', type=int, default=100, help="Length of train dataset i.e. # of iterations per epoch")
parser.add_argument('--dataset_size_valid', type=int, default=8, help="# of frames to render in the turntable video in validation")
parser.add_argument('--dataset_size_test', type=int, default=100, help="# of frames to render in the turntable video at test time")
parser.add_argument('--exp_start_iter', type=int, default=None, help="start iter # for experiment, to calculate progressive_view and progressive_level")
parser.add_argument('--exp_end_iter', type=int, default=None, help="end iter # for experiment, to calculate progressive_view and progressive_level")
opt = parser.parse_args()
if opt.O:
opt.fp16 = True
opt.cuda_ray = True
elif opt.O2:
opt.fp16 = True
opt.backbone = 'vanilla'
opt.progressive_level = True
if opt.IF:
if 'SD' in opt.guidance:
opt.guidance.remove('SD')
opt.guidance.append('IF')
opt.latent_iter_ratio = 0 # must not do as_latent
opt.images, opt.ref_radii, opt.ref_polars, opt.ref_azimuths, opt.zero123_ws = [], [], [], [], []
opt.default_zero123_w = 1
opt.exp_start_iter = opt.exp_start_iter or 0
opt.exp_end_iter = opt.exp_end_iter or opt.iters
# parameters for image-conditioned generation
if opt.image is not None or opt.image_config is not None:
if opt.text is None:
# use zero123 guidance model when only providing image
opt.guidance = ['zero123']
if not opt.dont_override_stuff:
opt.fovy_range = [opt.default_fovy, opt.default_fovy] # fix fov as zero123 doesn't support changing fov
opt.guidance_scale = 5
opt.lambda_3d_normal_smooth = 10
else:
# use stable-diffusion when providing both text and image
opt.guidance = ['SD', 'clip']
if not opt.dont_override_stuff:
opt.guidance_scale = 10
opt.t_range = [0.2, 0.6]
opt.known_view_interval = 2
opt.lambda_3d_normal_smooth = 20
opt.bg_radius = -1
# smoothness
opt.lambda_entropy = 1
opt.lambda_orient = 1
# latent warmup is not needed
opt.latent_iter_ratio = 0
if not opt.dont_override_stuff:
opt.albedo_iter_ratio = 0
# make shape init more stable
opt.progressive_view = True
opt.progressive_level = True
if opt.image is not None:
opt.images += [opt.image]
opt.ref_radii += [opt.default_radius]
opt.ref_polars += [opt.default_polar]
opt.ref_azimuths += [opt.default_azimuth]
opt.zero123_ws += [opt.default_zero123_w]
if opt.image_config is not None:
# for multiview (zero123)
conf = pd.read_csv(opt.image_config, skipinitialspace=True)
opt.images += list(conf.image)
opt.ref_radii += list(conf.radius)
opt.ref_polars += list(conf.polar)
opt.ref_azimuths += list(conf.azimuth)
opt.zero123_ws += list(conf.zero123_weight)
if opt.image is None:
opt.default_radius = opt.ref_radii[0]
opt.default_polar = opt.ref_polars[0]
opt.default_azimuth = opt.ref_azimuths[0]
opt.default_zero123_w = opt.zero123_ws[0]
# reset to None
if len(opt.images) == 0:
opt.images = None
# default parameters for finetuning
if opt.dmtet:
opt.h = int(opt.h * opt.dmtet_reso_scale)
opt.w = int(opt.w * opt.dmtet_reso_scale)
opt.known_view_scale = 1
if not opt.dont_override_stuff:
opt.t_range = [0.02, 0.50] # ref: magic3D
if opt.images is not None:
opt.lambda_normal = 0
opt.lambda_depth = 0
if opt.text is not None and not opt.dont_override_stuff:
opt.t_range = [0.20, 0.50]
# assume finetuning
opt.latent_iter_ratio = 0
opt.albedo_iter_ratio = 0
opt.progressive_view = False
# opt.progressive_level = False
# record full range for progressive view expansion
if opt.progressive_view:
if not opt.dont_override_stuff:
# disable as they disturb progressive view
opt.jitter_pose = False
opt.uniform_sphere_rate = 0
# back up full range
opt.full_radius_range = opt.radius_range
opt.full_theta_range = opt.theta_range
opt.full_phi_range = opt.phi_range
opt.full_fovy_range = opt.fovy_range
if opt.backbone == 'vanilla':
from nerf.network import NeRFNetwork
elif opt.backbone == 'grid':
from nerf.network_grid import NeRFNetwork
elif opt.backbone == 'grid_tcnn':
from nerf.network_grid_tcnn import NeRFNetwork
elif opt.backbone == 'grid_taichi':
opt.cuda_ray = False
opt.taichi_ray = True
import taichi as ti
from nerf.network_grid_taichi import NeRFNetwork
taichi_half2_opt = True
taichi_init_args = {"arch": ti.cuda, "device_memory_GB": 4.0}
if taichi_half2_opt:
taichi_init_args["half2_vectorization"] = True
ti.init(**taichi_init_args)
else:
raise NotImplementedError(f'--backbone {opt.backbone} is not implemented!')
print(opt)
if opt.seed is not None:
seed_everything(int(opt.seed))
device = torch.device('cuda' if torch.cuda.is_available() else 'cpu')
model = NeRFNetwork(opt).to(device)
if opt.dmtet and opt.init_with != '':
if opt.init_with.endswith('.pth'):
# load pretrained weights to init dmtet
state_dict = torch.load(opt.init_with, map_location=device)
model.load_state_dict(state_dict['model'], strict=False)
if opt.cuda_ray:
model.mean_density = state_dict['mean_density']
model.init_tet()
else:
# assume a mesh to init dmtet (experimental, not working well now!)
import trimesh
mesh = trimesh.load(opt.init_with, force='mesh', skip_material=True, process=False)
model.init_tet(mesh=mesh)
print(model)
if opt.six_views:
guidance = None # no need to load guidance model at test
trainer = Trainer(' '.join(sys.argv), 'df', opt, model, guidance, device=device, workspace=opt.workspace, fp16=opt.fp16, use_checkpoint=opt.ckpt)
test_loader = NeRFDataset(opt, device=device, type='six_views', H=opt.H, W=opt.W, size=6).dataloader(batch_size=1)
trainer.test(test_loader, write_video=False)
if opt.save_mesh:
trainer.save_mesh()
elif opt.test:
guidance = None # no need to load guidance model at test
trainer = Trainer(' '.join(sys.argv), 'df', opt, model, guidance, device=device, workspace=opt.workspace, fp16=opt.fp16, use_checkpoint=opt.ckpt)
if opt.gui:
from nerf.gui import NeRFGUI
gui = NeRFGUI(opt, trainer)
gui.render()
else:
test_loader = NeRFDataset(opt, device=device, type='test', H=opt.H, W=opt.W, size=opt.dataset_size_test).dataloader(batch_size=1)
trainer.test(test_loader)
if opt.save_mesh:
trainer.save_mesh()
else:
train_loader = NeRFDataset(opt, device=device, type='train', H=opt.h, W=opt.w, size=opt.dataset_size_train * opt.batch_size).dataloader()
if opt.optim == 'adan':
from optimizer import Adan
# Adan usually requires a larger LR
optimizer = lambda model: Adan(model.get_params(5 * opt.lr), eps=1e-8, weight_decay=2e-5, max_grad_norm=5.0, foreach=False)
else: # adam
optimizer = lambda model: torch.optim.Adam(model.get_params(opt.lr), betas=(0.9, 0.99), eps=1e-15)
if opt.backbone == 'vanilla':
scheduler = lambda optimizer: optim.lr_scheduler.LambdaLR(optimizer, lambda iter: 0.1 ** min(iter / opt.iters, 1))
else:
scheduler = lambda optimizer: optim.lr_scheduler.LambdaLR(optimizer, lambda iter: 1) # fixed
# scheduler = lambda optimizer: optim.lr_scheduler.LambdaLR(optimizer, lambda iter: 0.1 ** min(iter / opt.iters, 1))
guidance = nn.ModuleDict()
if 'SD' in opt.guidance:
from guidance.sd_utils import StableDiffusion
guidance['SD'] = StableDiffusion(device, opt.fp16, opt.vram_O, opt.sd_version, opt.hf_key, opt.t_range)
if 'IF' in opt.guidance:
from guidance.if_utils import IF
guidance['IF'] = IF(device, opt.vram_O, opt.t_range)
if 'zero123' in opt.guidance:
from guidance.zero123_utils import Zero123
guidance['zero123'] = Zero123(device=device, fp16=opt.fp16, config=opt.zero123_config, ckpt=opt.zero123_ckpt, vram_O=opt.vram_O, t_range=opt.t_range, opt=opt)
if 'clip' in opt.guidance:
from guidance.clip_utils import CLIP
guidance['clip'] = CLIP(device)
trainer = Trainer(' '.join(sys.argv), 'df', opt, model, guidance, device=device, workspace=opt.workspace, optimizer=optimizer, ema_decay=0.95, fp16=opt.fp16, lr_scheduler=scheduler, use_checkpoint=opt.ckpt, scheduler_update_every_step=True)
trainer.default_view_data = train_loader._data.get_default_view_data()
if opt.gui:
from nerf.gui import NeRFGUI
gui = NeRFGUI(opt, trainer, train_loader)
gui.render()
else:
valid_loader = NeRFDataset(opt, device=device, type='val', H=opt.H, W=opt.W, size=opt.dataset_size_valid).dataloader(batch_size=1)
test_loader = NeRFDataset(opt, device=device, type='test', H=opt.H, W=opt.W, size=opt.dataset_size_test).dataloader(batch_size=1)
max_epoch = np.ceil(opt.iters / len(train_loader)).astype(np.int32)
trainer.train(train_loader, valid_loader, test_loader, max_epoch)
if opt.save_mesh:
trainer.save_mesh()