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Running
on
L40S
from typing import * | |
import torch | |
import torch.nn as nn | |
import torch.nn.functional as F | |
import numpy as np | |
from tqdm import tqdm | |
from easydict import EasyDict as edict | |
from torchvision import transforms | |
from PIL import Image | |
import rembg | |
from .base import Pipeline | |
from . import samplers | |
from ..modules import sparse as sp | |
from ..representations import Gaussian, Strivec, MeshExtractResult | |
class TrellisImageTo3DPipeline(Pipeline): | |
""" | |
Pipeline for inferring Trellis image-to-3D models. | |
Args: | |
models (dict[str, nn.Module]): The models to use in the pipeline. | |
sparse_structure_sampler (samplers.Sampler): The sampler for the sparse structure. | |
slat_sampler (samplers.Sampler): The sampler for the structured latent. | |
slat_normalization (dict): The normalization parameters for the structured latent. | |
image_cond_model (str): The name of the image conditioning model. | |
""" | |
def __init__( | |
self, | |
models: dict[str, nn.Module] = None, | |
sparse_structure_sampler: samplers.Sampler = None, | |
slat_sampler: samplers.Sampler = None, | |
slat_normalization: dict = None, | |
image_cond_model: str = None, | |
): | |
if models is None: | |
return | |
super().__init__(models) | |
self.sparse_structure_sampler = sparse_structure_sampler | |
self.slat_sampler = slat_sampler | |
self.sparse_structure_sampler_params = {} | |
self.slat_sampler_params = {} | |
self.slat_normalization = slat_normalization | |
self.rembg_session = None | |
self._init_image_cond_model(image_cond_model) | |
def from_pretrained(path: str) -> "TrellisImageTo3DPipeline": | |
""" | |
Load a pretrained model. | |
Args: | |
path (str): The path to the model. Can be either local path or a Hugging Face repository. | |
""" | |
pipeline = super(TrellisImageTo3DPipeline, TrellisImageTo3DPipeline).from_pretrained(path) | |
new_pipeline = TrellisImageTo3DPipeline() | |
new_pipeline.__dict__ = pipeline.__dict__ | |
args = pipeline._pretrained_args | |
new_pipeline.sparse_structure_sampler = getattr(samplers, args['sparse_structure_sampler']['name'])(**args['sparse_structure_sampler']['args']) | |
new_pipeline.sparse_structure_sampler_params = args['sparse_structure_sampler']['params'] | |
new_pipeline.slat_sampler = getattr(samplers, args['slat_sampler']['name'])(**args['slat_sampler']['args']) | |
new_pipeline.slat_sampler_params = args['slat_sampler']['params'] | |
new_pipeline.slat_normalization = args['slat_normalization'] | |
new_pipeline._init_image_cond_model(args['image_cond_model']) | |
return new_pipeline | |
def _init_image_cond_model(self, name: str): | |
""" | |
Initialize the image conditioning model. | |
""" | |
dinov2_model = torch.hub.load('facebookresearch/dinov2', name, pretrained=True) | |
dinov2_model.eval() | |
self.models['image_cond_model'] = dinov2_model | |
transform = transforms.Compose([ | |
transforms.Normalize(mean=[0.485, 0.456, 0.406], std=[0.229, 0.224, 0.225]), | |
]) | |
self.image_cond_model_transform = transform | |
def preprocess_image(self, input: Image.Image) -> Image.Image: | |
""" | |
Preprocess the input image. | |
""" | |
# if has alpha channel, use it directly; otherwise, remove background | |
has_alpha = False | |
if input.mode == 'RGBA': | |
alpha = np.array(input)[:, :, 3] | |
if not np.all(alpha == 255): | |
has_alpha = True | |
if has_alpha: | |
output = input | |
else: | |
input = input.convert('RGB') | |
max_size = max(input.size) | |
scale = min(1, 1024 / max_size) | |
if scale < 1: | |
input = input.resize((int(input.width * scale), int(input.height * scale)), Image.Resampling.LANCZOS) | |
if getattr(self, 'rembg_session', None) is None: | |
self.rembg_session = rembg.new_session('u2net') | |
output = rembg.remove(input, session=self.rembg_session) | |
output_np = np.array(output) | |
alpha = output_np[:, :, 3] | |
bbox = np.argwhere(alpha > 0.8 * 255) | |
bbox = np.min(bbox[:, 1]), np.min(bbox[:, 0]), np.max(bbox[:, 1]), np.max(bbox[:, 0]) | |
center = (bbox[0] + bbox[2]) / 2, (bbox[1] + bbox[3]) / 2 | |
size = max(bbox[2] - bbox[0], bbox[3] - bbox[1]) | |
size = int(size * 1.2) | |
bbox = center[0] - size // 2, center[1] - size // 2, center[0] + size // 2, center[1] + size // 2 | |
output = output.crop(bbox) # type: ignore | |
output = output.resize((518, 518), Image.Resampling.LANCZOS) | |
output = np.array(output).astype(np.float32) / 255 | |
output = output[:, :, :3] * output[:, :, 3:4] | |
output = Image.fromarray((output * 255).astype(np.uint8)) | |
return output | |
def encode_image(self, image: Union[torch.Tensor, list[Image.Image]]) -> torch.Tensor: | |
""" | |
Encode the image. | |
Args: | |
image (Union[torch.Tensor, list[Image.Image]]): The image to encode | |
Returns: | |
torch.Tensor: The encoded features. | |
""" | |
if isinstance(image, torch.Tensor): | |
assert image.ndim == 4, "Image tensor should be batched (B, C, H, W)" | |
elif isinstance(image, list): | |
assert all(isinstance(i, Image.Image) for i in image), "Image list should be list of PIL images" | |
image = [i.resize((518, 518), Image.LANCZOS) for i in image] | |
image = [np.array(i.convert('RGB')).astype(np.float32) / 255 for i in image] | |
image = [torch.from_numpy(i).permute(2, 0, 1).float() for i in image] | |
image = torch.stack(image).to(self.device) | |
else: | |
raise ValueError(f"Unsupported type of image: {type(image)}") | |
image = self.image_cond_model_transform(image).to(self.device) | |
features = self.models['image_cond_model'](image, is_training=True)['x_prenorm'] | |
patchtokens = F.layer_norm(features, features.shape[-1:]) | |
return patchtokens | |
def get_cond(self, image: Union[torch.Tensor, list[Image.Image]]) -> dict: | |
""" | |
Get the conditioning information for the model. | |
Args: | |
image (Union[torch.Tensor, list[Image.Image]]): The image prompts. | |
Returns: | |
dict: The conditioning information | |
""" | |
cond = self.encode_image(image) | |
neg_cond = torch.zeros_like(cond) | |
return { | |
'cond': cond, | |
'neg_cond': neg_cond, | |
} | |
def sample_sparse_structure( | |
self, | |
cond: dict, | |
num_samples: int = 1, | |
sampler_params: dict = {}, | |
) -> torch.Tensor: | |
""" | |
Sample sparse structures with the given conditioning. | |
Args: | |
cond (dict): The conditioning information. | |
num_samples (int): The number of samples to generate. | |
sampler_params (dict): Additional parameters for the sampler. | |
""" | |
# Sample occupancy latent | |
flow_model = self.models['sparse_structure_flow_model'] | |
reso = flow_model.resolution | |
noise = torch.randn(num_samples, flow_model.in_channels, reso, reso, reso).to(self.device) | |
sampler_params = {**self.sparse_structure_sampler_params, **sampler_params} | |
z_s = self.sparse_structure_sampler.sample( | |
flow_model, | |
noise, | |
**cond, | |
**sampler_params, | |
verbose=True | |
).samples | |
# Decode occupancy latent | |
decoder = self.models['sparse_structure_decoder'] | |
coords = torch.argwhere(decoder(z_s)>0)[:, [0, 2, 3, 4]].int() | |
return coords | |
def decode_slat( | |
self, | |
slat: sp.SparseTensor, | |
formats: List[str] = ['mesh', 'gaussian', 'radiance_field'], | |
) -> dict: | |
""" | |
Decode the structured latent. | |
Args: | |
slat (sp.SparseTensor): The structured latent. | |
formats (List[str]): The formats to decode the structured latent to. | |
Returns: | |
dict: The decoded structured latent. | |
""" | |
ret = {} | |
if 'mesh' in formats: | |
ret['mesh'] = self.models['slat_decoder_mesh'](slat) | |
if 'gaussian' in formats: | |
ret['gaussian'] = self.models['slat_decoder_gs'](slat) | |
if 'radiance_field' in formats: | |
ret['radiance_field'] = self.models['slat_decoder_rf'](slat) | |
return ret | |
def sample_slat( | |
self, | |
cond: dict, | |
coords: torch.Tensor, | |
sampler_params: dict = {}, | |
) -> sp.SparseTensor: | |
""" | |
Sample structured latent with the given conditioning. | |
Args: | |
cond (dict): The conditioning information. | |
coords (torch.Tensor): The coordinates of the sparse structure. | |
sampler_params (dict): Additional parameters for the sampler. | |
""" | |
# Sample structured latent | |
flow_model = self.models['slat_flow_model'] | |
noise = sp.SparseTensor( | |
feats=torch.randn(coords.shape[0], flow_model.in_channels).to(self.device), | |
coords=coords, | |
) | |
sampler_params = {**self.slat_sampler_params, **sampler_params} | |
slat = self.slat_sampler.sample( | |
flow_model, | |
noise, | |
**cond, | |
**sampler_params, | |
verbose=True | |
).samples | |
std = torch.tensor(self.slat_normalization['std'])[None].to(slat.device) | |
mean = torch.tensor(self.slat_normalization['mean'])[None].to(slat.device) | |
slat = slat * std + mean | |
return slat | |
def run( | |
self, | |
image: Image.Image, | |
num_samples: int = 1, | |
seed: int = 42, | |
sparse_structure_sampler_params: dict = {}, | |
slat_sampler_params: dict = {}, | |
formats: List[str] = ['mesh', 'gaussian', 'radiance_field'], | |
preprocess_image: bool = True, | |
) -> dict: | |
""" | |
Run the pipeline. | |
Args: | |
image (Image.Image): The image prompt. | |
num_samples (int): The number of samples to generate. | |
sparse_structure_sampler_params (dict): Additional parameters for the sparse structure sampler. | |
slat_sampler_params (dict): Additional parameters for the structured latent sampler. | |
preprocess_image (bool): Whether to preprocess the image. | |
""" | |
if preprocess_image: | |
image = self.preprocess_image(image) | |
cond = self.get_cond([image]) | |
torch.manual_seed(seed) | |
coords = self.sample_sparse_structure(cond, num_samples, sparse_structure_sampler_params) | |
slat = self.sample_slat(cond, coords, slat_sampler_params) | |
return self.decode_slat(slat, formats) | |