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import os, sys | |
import subprocess | |
from huggingface_hub import snapshot_download | |
is_local_run = False | |
code_dir = snapshot_download("One-2-3-45/code") if not is_local_run else "../code" # , token=os.environ['TOKEN'] | |
sys.path.append(code_dir) | |
elev_est_dir = os.path.abspath(os.path.join(code_dir, "elevation_estimate")) | |
sys.path.append(elev_est_dir) | |
if not is_local_run: | |
# export TORCH_CUDA_ARCH_LIST="7.0;7.2;8.0;8.6" | |
# export IABN_FORCE_CUDA=1 | |
os.environ["TORCH_CUDA_ARCH_LIST"] = "8.0;8.6" | |
os.environ["IABN_FORCE_CUDA"] = "1" | |
os.environ["FORCE_CUDA"] = "1" | |
subprocess.run(['pip', 'install', 'inplace_abn']) | |
# FORCE_CUDA=1 pip install --no-cache-dir git+https://github.com/mit-han-lab/torchsparse.git@v1.4.0 | |
subprocess.run(['pip', 'install', '--no-cache-dir', 'git+https://github.com/mit-han-lab/torchsparse.git@v1.4.0']) | |
import shutil | |
import torch | |
import fire | |
import gradio as gr | |
import numpy as np | |
import plotly.graph_objects as go | |
from functools import partial | |
import cv2 | |
from PIL import Image | |
import trimesh | |
import tempfile | |
from zero123_utils import init_model, predict_stage1_gradio, zero123_infer | |
from sam_utils import sam_init, sam_out_nosave | |
from utils import image_preprocess_nosave, gen_poses | |
from elevation_estimate.estimate_wild_imgs import estimate_elev | |
from rembg import remove | |
_GPU_INDEX = 0 | |
_TITLE = '''One-2-3-45: Any Single Image to 3D Mesh in 45 Seconds without Per-Shape Optimization''' | |
_DESCRIPTION = ''' | |
<div> | |
<a style="display:inline-block" href="http://one-2-3-45.com"><img src="https://img.shields.io/badge/Project_Homepage-f9f7f7?logo=data:image/webp;base64,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"></a> | |
<a style="display:inline-block; margin-left: .5em" href="https://arxiv.org/abs/2306.16928"><img src="https://img.shields.io/badge/2306.16928-f9f7f7?logo=data:image/png;base64,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"></a> | |
<a style="display:inline-block; margin-left: .5em" href='https://github.com/One-2-3-45/One-2-3-45'><img src='https://img.shields.io/github/stars/One-2-3-45/One-2-3-45?style=social' /></a> | |
</div> | |
We reconstruct a 3D textured mesh from a single image by initially predicting multi-view images and then lifting them to 3D. | |
Check out our new work <a href="https://sudo-ai-3d.github.io/One2345plus_page/">One-2-3-45++</a>! | |
''' | |
_USER_GUIDE = "Please upload an image in the block above (or choose an example above) and click **Run Generation**." | |
_BBOX_1 = "Predicting bounding box for the input image..." | |
_BBOX_2 = "Bounding box adjusted. Continue adjusting or **Run Generation**." | |
_BBOX_3 = "Bounding box predicted. Adjust it using sliders or **Run Generation**." | |
_SAM = "Preprocessing the input image... (safety check, SAM segmentation, *etc*.)" | |
_GEN_1 = "Predicting multi-view images... (may take \~13 seconds) <br> Images will be shown in the bottom right blocks." | |
_GEN_2 = "Predicting nearby views and generating mesh... (may take \~33 seconds) <br> Mesh will be shown on the right." | |
_DONE = "Done! Mesh is shown on the right. <br> If it is not satisfactory, please select **Retry view** checkboxes for inaccurate views and click **Regenerate selected view(s)** at the bottom." | |
_REGEN_1 = "Selected view(s) are regenerated. You can click **Regenerate nearby views and mesh**. <br> Alternatively, if the regenerated view(s) are still not satisfactory, you can repeat the previous step (select the view and regenerate)." | |
_REGEN_2 = "Regeneration done. Mesh is shown on the right." | |
def calc_cam_cone_pts_3d(polar_deg, azimuth_deg, radius_m, fov_deg): | |
''' | |
:param polar_deg (float). | |
:param azimuth_deg (float). | |
:param radius_m (float). | |
:param fov_deg (float). | |
:return (5, 3) array of float with (x, y, z). | |
''' | |
polar_rad = np.deg2rad(polar_deg) | |
azimuth_rad = np.deg2rad(azimuth_deg) | |
fov_rad = np.deg2rad(fov_deg) | |
polar_rad = -polar_rad # NOTE: Inverse of how used_x relates to x. | |
# Camera pose center: | |
cam_x = radius_m * np.cos(azimuth_rad) * np.cos(polar_rad) | |
cam_y = radius_m * np.sin(azimuth_rad) * np.cos(polar_rad) | |
cam_z = radius_m * np.sin(polar_rad) | |
# Obtain four corners of camera frustum, assuming it is looking at origin. | |
# First, obtain camera extrinsics (rotation matrix only): | |
camera_R = np.array([[np.cos(azimuth_rad) * np.cos(polar_rad), | |
-np.sin(azimuth_rad), | |
-np.cos(azimuth_rad) * np.sin(polar_rad)], | |
[np.sin(azimuth_rad) * np.cos(polar_rad), | |
np.cos(azimuth_rad), | |
-np.sin(azimuth_rad) * np.sin(polar_rad)], | |
[np.sin(polar_rad), | |
0.0, | |
np.cos(polar_rad)]]) | |
# Multiply by corners in camera space to obtain go to space: | |
corn1 = [-1.0, np.tan(fov_rad / 2.0), np.tan(fov_rad / 2.0)] | |
corn2 = [-1.0, -np.tan(fov_rad / 2.0), np.tan(fov_rad / 2.0)] | |
corn3 = [-1.0, -np.tan(fov_rad / 2.0), -np.tan(fov_rad / 2.0)] | |
corn4 = [-1.0, np.tan(fov_rad / 2.0), -np.tan(fov_rad / 2.0)] | |
corn1 = np.dot(camera_R, corn1) | |
corn2 = np.dot(camera_R, corn2) | |
corn3 = np.dot(camera_R, corn3) | |
corn4 = np.dot(camera_R, corn4) | |
# Now attach as offset to actual 3D camera position: | |
corn1 = np.array(corn1) / np.linalg.norm(corn1, ord=2) | |
corn_x1 = cam_x + corn1[0] | |
corn_y1 = cam_y + corn1[1] | |
corn_z1 = cam_z + corn1[2] | |
corn2 = np.array(corn2) / np.linalg.norm(corn2, ord=2) | |
corn_x2 = cam_x + corn2[0] | |
corn_y2 = cam_y + corn2[1] | |
corn_z2 = cam_z + corn2[2] | |
corn3 = np.array(corn3) / np.linalg.norm(corn3, ord=2) | |
corn_x3 = cam_x + corn3[0] | |
corn_y3 = cam_y + corn3[1] | |
corn_z3 = cam_z + corn3[2] | |
corn4 = np.array(corn4) / np.linalg.norm(corn4, ord=2) | |
corn_x4 = cam_x + corn4[0] | |
corn_y4 = cam_y + corn4[1] | |
corn_z4 = cam_z + corn4[2] | |
xs = [cam_x, corn_x1, corn_x2, corn_x3, corn_x4] | |
ys = [cam_y, corn_y1, corn_y2, corn_y3, corn_y4] | |
zs = [cam_z, corn_z1, corn_z2, corn_z3, corn_z4] | |
return np.array([xs, ys, zs]).T | |
class CameraVisualizer: | |
def __init__(self, gradio_plot): | |
self._gradio_plot = gradio_plot | |
self._fig = None | |
self._polar = 0.0 | |
self._azimuth = 0.0 | |
self._radius = 0.0 | |
self._raw_image = None | |
self._8bit_image = None | |
self._image_colorscale = None | |
def encode_image(self, raw_image, elev=90): | |
''' | |
:param raw_image (H, W, 3) array of uint8 in [0, 255]. | |
''' | |
# https://stackoverflow.com/questions/60685749/python-plotly-how-to-add-an-image-to-a-3d-scatter-plot | |
dum_img = Image.fromarray(np.ones((3, 3, 3), dtype='uint8')).convert('P', palette='WEB') | |
idx_to_color = np.array(dum_img.getpalette()).reshape((-1, 3)) | |
self._raw_image = raw_image | |
self._8bit_image = Image.fromarray(raw_image).convert('P', palette='WEB', dither=None) | |
self._image_colorscale = [ | |
[i / 255.0, 'rgb({}, {}, {})'.format(*rgb)] for i, rgb in enumerate(idx_to_color)] | |
self._elev = elev | |
def update_figure(self): | |
fig = go.Figure() | |
if self._raw_image is not None: | |
(H, W, C) = self._raw_image.shape | |
x = np.zeros((H, W)) | |
(y, z) = np.meshgrid(np.linspace(-1.0, 1.0, W), np.linspace(1.0, -1.0, H) * H / W) | |
angle_deg = self._elev-90 | |
angle = np.radians(90-self._elev) | |
rotation_matrix = np.array([ | |
[np.cos(angle), 0, np.sin(angle)], | |
[0, 1, 0], | |
[-np.sin(angle), 0, np.cos(angle)] | |
]) | |
# Assuming x, y, z are the original 3D coordinates of the image | |
coordinates = np.stack((x, y, z), axis=-1) # Combine x, y, z into a single array | |
# Apply the rotation matrix | |
rotated_coordinates = np.matmul(coordinates, rotation_matrix) | |
# Extract the new x, y, z coordinates from the rotated coordinates | |
x, y, z = rotated_coordinates[..., 0], rotated_coordinates[..., 1], rotated_coordinates[..., 2] | |
fig.add_trace(go.Surface( | |
x=x, y=y, z=z, | |
surfacecolor=self._8bit_image, | |
cmin=0, | |
cmax=255, | |
colorscale=self._image_colorscale, | |
showscale=False, | |
lighting_diffuse=1.0, | |
lighting_ambient=1.0, | |
lighting_fresnel=1.0, | |
lighting_roughness=1.0, | |
lighting_specular=0.3)) | |
scene_bounds = 3.5 | |
base_radius = 2.5 | |
zoom_scale = 1.5 # Note that input radius offset is in [-0.5, 0.5]. | |
fov_deg = 50.0 | |
edges = [(0, 1), (0, 2), (0, 3), (0, 4), (1, 2), (2, 3), (3, 4), (4, 1)] | |
input_cone = calc_cam_cone_pts_3d( | |
angle_deg, 0.0, base_radius, fov_deg) # (5, 3). | |
output_cone = calc_cam_cone_pts_3d( | |
self._polar, self._azimuth, base_radius + self._radius * zoom_scale, fov_deg) # (5, 3). | |
output_cones = [] | |
for i in range(1,4): | |
output_cones.append(calc_cam_cone_pts_3d( | |
angle_deg, i*90, base_radius + self._radius * zoom_scale, fov_deg)) | |
delta_deg = 30 if angle_deg <= -15 else -30 | |
for i in range(4): | |
output_cones.append(calc_cam_cone_pts_3d( | |
angle_deg+delta_deg, 30+i*90, base_radius + self._radius * zoom_scale, fov_deg)) | |
cones = [(input_cone, 'rgb(174, 54, 75)', 'Input view (Predicted view 1)')] | |
for i in range(len(output_cones)): | |
cones.append((output_cones[i], 'rgb(32, 77, 125)', f'Predicted view {i+2}')) | |
for idx, (cone, clr, legend) in enumerate(cones): | |
for (i, edge) in enumerate(edges): | |
(x1, x2) = (cone[edge[0], 0], cone[edge[1], 0]) | |
(y1, y2) = (cone[edge[0], 1], cone[edge[1], 1]) | |
(z1, z2) = (cone[edge[0], 2], cone[edge[1], 2]) | |
fig.add_trace(go.Scatter3d( | |
x=[x1, x2], y=[y1, y2], z=[z1, z2], mode='lines', | |
line=dict(color=clr, width=3), | |
name=legend, showlegend=(i == 1) and (idx <= 1))) | |
# Add label. | |
if cone[0, 2] <= base_radius / 2.0: | |
fig.add_trace(go.Scatter3d( | |
x=[cone[0, 0]], y=[cone[0, 1]], z=[cone[0, 2] - 0.05], showlegend=False, | |
mode='text', text=legend, textposition='bottom center')) | |
else: | |
fig.add_trace(go.Scatter3d( | |
x=[cone[0, 0]], y=[cone[0, 1]], z=[cone[0, 2] + 0.05], showlegend=False, | |
mode='text', text=legend, textposition='top center')) | |
# look at center of scene | |
fig.update_layout( | |
height=450, | |
autosize=True, | |
hovermode=False, | |
margin=go.layout.Margin(l=0, r=0, b=0, t=0), | |
showlegend=False, | |
legend=dict( | |
yanchor='bottom', | |
y=0.01, | |
xanchor='right', | |
x=0.99, | |
), | |
scene=dict( | |
aspectmode='manual', | |
aspectratio=dict(x=1, y=1, z=1.0), | |
camera=dict( | |
eye=dict(x=base_radius - 1.6, y=0.0, z=0.6), | |
center=dict(x=0.0, y=0.0, z=0.0), | |
up=dict(x=0.0, y=0.0, z=1.0)), | |
xaxis_title='', | |
yaxis_title='', | |
zaxis_title='', | |
xaxis=dict( | |
range=[-scene_bounds, scene_bounds], | |
showticklabels=False, | |
showgrid=True, | |
zeroline=False, | |
showbackground=True, | |
showspikes=False, | |
showline=False, | |
ticks=''), | |
yaxis=dict( | |
range=[-scene_bounds, scene_bounds], | |
showticklabels=False, | |
showgrid=True, | |
zeroline=False, | |
showbackground=True, | |
showspikes=False, | |
showline=False, | |
ticks=''), | |
zaxis=dict( | |
range=[-scene_bounds, scene_bounds], | |
showticklabels=False, | |
showgrid=True, | |
zeroline=False, | |
showbackground=True, | |
showspikes=False, | |
showline=False, | |
ticks=''))) | |
self._fig = fig | |
return fig | |
def stage1_run(models, device, cam_vis, tmp_dir, | |
input_im, scale, ddim_steps, elev=None, rerun_all=[], | |
*btn_retrys): | |
is_rerun = True if cam_vis is None else False | |
model = models['turncam'].half() | |
stage1_dir = os.path.join(tmp_dir, "stage1_8") | |
if not is_rerun: | |
os.makedirs(stage1_dir, exist_ok=True) | |
output_ims = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(4)), device=device, ddim_steps=ddim_steps, scale=scale) | |
stage2_steps = 50 # ddim_steps | |
zero123_infer(model, tmp_dir, indices=[0], device=device, ddim_steps=stage2_steps, scale=scale) | |
try: | |
elev_output = int(estimate_elev(tmp_dir)) | |
except: | |
print("Failed to estimate polar angle") | |
elev_output = 90 | |
print("Estimated polar angle:", elev_output) | |
gen_poses(tmp_dir, elev_output) | |
show_in_im1 = np.asarray(input_im, dtype=np.uint8) | |
cam_vis.encode_image(show_in_im1, elev=elev_output) | |
new_fig = cam_vis.update_figure() | |
flag_lower_cam = elev_output <= 75 | |
if flag_lower_cam: | |
output_ims_2 = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(4,8)), device=device, ddim_steps=ddim_steps, scale=scale) | |
else: | |
output_ims_2 = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(8,12)), device=device, ddim_steps=ddim_steps, scale=scale) | |
torch.cuda.empty_cache() | |
return (90-elev_output, new_fig, *output_ims, *output_ims_2) | |
else: | |
rerun_idx = [i for i in range(len(btn_retrys)) if btn_retrys[i]] | |
if 90-int(elev["label"]) > 75: | |
rerun_idx_in = [i if i < 4 else i+4 for i in rerun_idx] | |
else: | |
rerun_idx_in = rerun_idx | |
for idx in rerun_idx_in: | |
if idx not in rerun_all: | |
rerun_all.append(idx) | |
print("rerun_idx", rerun_all) | |
output_ims = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=rerun_idx_in, device=device, ddim_steps=ddim_steps, scale=scale) | |
outputs = [gr.update(visible=True)] * 8 | |
for idx, view_idx in enumerate(rerun_idx): | |
outputs[view_idx] = output_ims[idx] | |
reset = [gr.update(value=False)] * 8 | |
torch.cuda.empty_cache() | |
return (rerun_all, *reset, *outputs) | |
def stage2_run(models, device, tmp_dir, | |
elev, scale, is_glb=False, rerun_all=[], stage2_steps=50): | |
flag_lower_cam = 90-int(elev["label"]) <= 75 | |
is_rerun = True if rerun_all else False | |
model = models['turncam'].half() | |
if not is_rerun: | |
if flag_lower_cam: | |
zero123_infer(model, tmp_dir, indices=list(range(1,8)), device=device, ddim_steps=stage2_steps, scale=scale) | |
else: | |
zero123_infer(model, tmp_dir, indices=list(range(1,4))+list(range(8,12)), device=device, ddim_steps=stage2_steps, scale=scale) | |
else: | |
print("rerun_idx", rerun_all) | |
zero123_infer(model, tmp_dir, indices=rerun_all, device=device, ddim_steps=stage2_steps, scale=scale) | |
dataset = tmp_dir | |
main_dir_path = os.path.dirname(__file__) | |
torch.cuda.empty_cache() | |
os.chdir(os.path.join(code_dir, 'SparseNeuS_demo_v1/')) | |
bash_script = f'CUDA_VISIBLE_DEVICES={_GPU_INDEX} python exp_runner_generic_blender_val.py --specific_dataset_name {dataset} --mode export_mesh --conf confs/one2345_lod0_val_demo.conf' | |
print(bash_script) | |
os.system(bash_script) | |
os.chdir(main_dir_path) | |
ply_path = os.path.join(tmp_dir, f"meshes_val_bg/lod0/mesh_00215000_gradio_lod0.ply") | |
mesh_ext = ".glb" if is_glb else ".obj" | |
mesh_path = os.path.join(tmp_dir, f"mesh{mesh_ext}") | |
# Read the textured mesh from .ply file | |
mesh = trimesh.load_mesh(ply_path) | |
rotation_matrix = trimesh.transformations.rotation_matrix(np.pi/2, [1, 0, 0]) | |
mesh.apply_transform(rotation_matrix) | |
rotation_matrix = trimesh.transformations.rotation_matrix(np.pi, [0, 0, 1]) | |
mesh.apply_transform(rotation_matrix) | |
# flip x | |
mesh.vertices[:, 0] = -mesh.vertices[:, 0] | |
mesh.faces = np.fliplr(mesh.faces) | |
# Export the mesh as .obj file with colors | |
if not is_glb: | |
mesh.export(mesh_path, file_type='obj', include_color=True) | |
else: | |
mesh.export(mesh_path, file_type='glb') | |
torch.cuda.empty_cache() | |
if not is_rerun: | |
return (mesh_path) | |
else: | |
return (mesh_path, gr.update(value=[]), gr.update(visible=False), gr.update(visible=False)) | |
def nsfw_check(models, raw_im, device='cuda'): | |
safety_checker_input = models['clip_fe'](raw_im, return_tensors='pt').to(device) | |
(_, has_nsfw_concept) = models['nsfw']( | |
images=np.ones((1, 3)), clip_input=safety_checker_input.pixel_values) | |
del safety_checker_input | |
if np.any(has_nsfw_concept): | |
print('NSFW content detected.') | |
return Image.open("unsafe.png") | |
else: | |
print('Safety check passed.') | |
return False | |
def preprocess_run(predictor, models, raw_im, preprocess, *bbox_sliders): | |
raw_im.thumbnail([512, 512], Image.Resampling.LANCZOS) | |
check_results = nsfw_check(models, raw_im, device=predictor.device) | |
if check_results: | |
return check_results | |
image_sam = sam_out_nosave(predictor, raw_im.convert("RGB"), *bbox_sliders) | |
input_256 = image_preprocess_nosave(image_sam, lower_contrast=preprocess, rescale=True) | |
torch.cuda.empty_cache() | |
return input_256 | |
def on_coords_slider(image, x_min, y_min, x_max, y_max, color=(88, 191, 131, 255)): | |
"""Draw a bounding box annotation for an image.""" | |
print("Slider adjusted, drawing bbox...") | |
image.thumbnail([512, 512], Image.Resampling.LANCZOS) | |
image_size = image.size | |
if max(image_size) > 224: | |
image.thumbnail([224, 224], Image.Resampling.LANCZOS) | |
shrink_ratio = max(image.size) / max(image_size) | |
x_min = int(x_min * shrink_ratio) | |
y_min = int(y_min * shrink_ratio) | |
x_max = int(x_max * shrink_ratio) | |
y_max = int(y_max * shrink_ratio) | |
image = cv2.cvtColor(np.array(image), cv2.COLOR_RGBA2BGRA) | |
image = cv2.rectangle(image, (x_min, y_min), (x_max, y_max), color, int(max(max(image.shape) / 400*2, 2))) | |
return cv2.cvtColor(image, cv2.COLOR_BGRA2RGBA) # image[:, :, ::-1] | |
def init_bbox(image): | |
image.thumbnail([512, 512], Image.Resampling.LANCZOS) | |
width, height = image.size | |
image_rem = image.convert('RGBA') | |
image_nobg = remove(image_rem, alpha_matting=True) | |
arr = np.asarray(image_nobg)[:,:,-1] | |
x_nonzero = np.nonzero(arr.sum(axis=0)) | |
y_nonzero = np.nonzero(arr.sum(axis=1)) | |
x_min = int(x_nonzero[0].min()) | |
y_min = int(y_nonzero[0].min()) | |
x_max = int(x_nonzero[0].max()) | |
y_max = int(y_nonzero[0].max()) | |
image_mini = image.copy() | |
image_mini.thumbnail([224, 224], Image.Resampling.LANCZOS) | |
shrink_ratio = max(image_mini.size) / max(width, height) | |
x_min_shrink = int(x_min * shrink_ratio) | |
y_min_shrink = int(y_min * shrink_ratio) | |
x_max_shrink = int(x_max * shrink_ratio) | |
y_max_shrink = int(y_max * shrink_ratio) | |
return [on_coords_slider(image_mini, x_min_shrink, y_min_shrink, x_max_shrink, y_max_shrink), | |
gr.update(value=x_min, maximum=width), | |
gr.update(value=y_min, maximum=height), | |
gr.update(value=x_max, maximum=width), | |
gr.update(value=y_max, maximum=height)] | |
### API functions | |
def preprocess_api(predictor, raw_im): | |
raw_im.thumbnail([512, 512], Image.Resampling.LANCZOS) | |
image_rem = raw_im.convert('RGBA') | |
image_nobg = remove(image_rem, alpha_matting=True) | |
arr = np.asarray(image_nobg)[:,:,-1] | |
x_nonzero = np.nonzero(arr.sum(axis=0)) | |
y_nonzero = np.nonzero(arr.sum(axis=1)) | |
x_min = int(x_nonzero[0].min()) | |
y_min = int(y_nonzero[0].min()) | |
x_max = int(x_nonzero[0].max()) | |
y_max = int(y_nonzero[0].max()) | |
image_sam = sam_out_nosave(predictor, raw_im.convert("RGB"), x_min, y_min, x_max, y_max) | |
input_256 = image_preprocess_nosave(image_sam, lower_contrast=False, rescale=True) | |
torch.cuda.empty_cache() | |
return input_256 | |
def estimate_elev_api(models, device, predictor, | |
input_im, preprocess=True, scale=3, ddim_steps=50): | |
model = models['turncam'].half() | |
tmp_dir = tempfile.TemporaryDirectory(dir=os.path.join(os.path.dirname(__file__), 'demo_tmp')).name | |
stage1_dir = os.path.join(tmp_dir, "stage1_8") | |
os.makedirs(stage1_dir, exist_ok=True) | |
if preprocess: | |
input_im = preprocess_api(predictor, input_im) | |
input_image = input_im.convert("RGB") | |
output_ims = predict_stage1_gradio(model, input_image, save_path=stage1_dir, adjust_set=[0], device=device, ddim_steps=ddim_steps, scale=scale) | |
stage2_steps = 50 # ddim_steps | |
zero123_infer(model, tmp_dir, indices=[0], device=device, ddim_steps=stage2_steps, scale=scale) | |
try: | |
polar_angle = int(estimate_elev(tmp_dir)) | |
except: | |
print("Failed to estimate polar angle") | |
polar_angle = 90 | |
print("Estimated polar angle:", polar_angle) | |
return 90-polar_angle | |
def convert_mesh_format(exp_dir, output_format=".obj"): | |
ply_path = os.path.join(exp_dir, f"meshes_val_bg/lod0/mesh_00215000_gradio_lod0.ply") | |
mesh_path = os.path.join(exp_dir, f"mesh{output_format}") | |
mesh = trimesh.load_mesh(ply_path) | |
rotation_matrix = trimesh.transformations.rotation_matrix(np.pi/2, [1, 0, 0]) @ trimesh.transformations.rotation_matrix(np.pi, [0, 0, 1]) | |
mesh.apply_transform(rotation_matrix) | |
mesh.vertices[:, 0] = -mesh.vertices[:, 0] | |
mesh.faces = np.fliplr(mesh.faces) | |
if output_format == ".obj": | |
# Export the mesh as .obj file with colors | |
mesh.export(mesh_path, file_type='obj', include_color=True) | |
else: | |
mesh.export(mesh_path, file_type='glb') | |
return mesh_path | |
def reconstruct(exp_dir, output_format=".ply", device_idx=0): | |
main_dir_path = os.path.dirname(__file__) | |
torch.cuda.empty_cache() | |
os.chdir(os.path.join(code_dir, 'SparseNeuS_demo_v1/')) | |
bash_script = f'CUDA_VISIBLE_DEVICES={device_idx} python exp_runner_generic_blender_val.py \ | |
--specific_dataset_name {exp_dir} \ | |
--mode export_mesh \ | |
--conf confs/one2345_lod0_val_demo.conf' | |
print(bash_script) | |
os.system(bash_script) | |
os.chdir(main_dir_path) | |
ply_path = os.path.join(exp_dir, f"meshes_val_bg/lod0/mesh_00215000_gradio_lod0.ply") | |
if output_format == ".ply": | |
return ply_path | |
if output_format not in [".obj", ".glb"]: | |
print("Invalid output format, must be one of .ply, .obj, .glb") | |
return ply_path | |
return convert_mesh_format(exp_dir, output_format=output_format) | |
def gen_mesh_api(models, predictor, device, | |
input_im, preprocess=True, scale=3, ddim_steps=75, stage2_steps=50): | |
if preprocess: | |
input_im = preprocess_api(predictor, input_im) | |
model = models['turncam'].half() | |
# folder to save the stage 1 images | |
exp_dir = tempfile.TemporaryDirectory(dir=os.path.join(os.path.dirname(__file__), 'demo_tmp')).name | |
stage1_dir = os.path.join(exp_dir, "stage1_8") | |
os.makedirs(stage1_dir, exist_ok=True) | |
# stage 1: generate 4 views at the same elevation as the input | |
output_ims = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(4)), device=device, ddim_steps=ddim_steps, scale=scale) | |
# stage 2 for the first image | |
# infer 4 nearby views for an image to estimate the polar angle of the input | |
stage2_steps = 50 # ddim_steps | |
zero123_infer(model, exp_dir, indices=[0], device=device, ddim_steps=stage2_steps, scale=scale) | |
# estimate the camera pose (elevation) of the input image. | |
try: | |
polar_angle = int(estimate_elev(exp_dir)) | |
except: | |
print("Failed to estimate polar angle") | |
polar_angle = 90 | |
print("Estimated polar angle:", polar_angle) | |
gen_poses(exp_dir, polar_angle) | |
# stage 1: generate another 4 views at a different elevation | |
if polar_angle <= 75: | |
output_ims_2 = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(4,8)), device=device, ddim_steps=ddim_steps, scale=scale) | |
else: | |
output_ims_2 = predict_stage1_gradio(model, input_im, save_path=stage1_dir, adjust_set=list(range(8,12)), device=device, ddim_steps=ddim_steps, scale=scale) | |
torch.cuda.empty_cache() | |
# stage 2 for the remaining 7 images, generate 7*4=28 views | |
if polar_angle <= 75: | |
zero123_infer(model, exp_dir, indices=list(range(1,8)), device=device, ddim_steps=stage2_steps, scale=scale) | |
else: | |
zero123_infer(model, exp_dir, indices=list(range(1,4))+list(range(8,12)), device=device, ddim_steps=stage2_steps, scale=scale) | |
return reconstruct(exp_dir) | |
def run_demo( | |
device_idx=_GPU_INDEX, | |
ckpt='zero123-xl.ckpt'): | |
device = f"cuda:{device_idx}" if torch.cuda.is_available() else "cpu" | |
models = init_model(device, os.path.join(code_dir, ckpt)) | |
# init sam model | |
predictor = sam_init(device_idx) | |
with open('instructions_12345.md', 'r') as f: | |
article = f.read() | |
example_folder = os.path.join(os.path.dirname(__file__), 'demo_examples') | |
example_fns = os.listdir(example_folder) | |
example_fns.sort() | |
examples_full = [os.path.join(example_folder, x) for x in example_fns if x.endswith('.png')] | |
# Compose demo layout & data flow. | |
with gr.Blocks(title=_TITLE, css="style.css") as demo: | |
with gr.Row(): | |
with gr.Column(scale=1): | |
gr.Markdown('# ' + _TITLE) | |
with gr.Column(scale=0): | |
gr.DuplicateButton(value='Duplicate Space for private use', | |
elem_id='duplicate-button') | |
gr.Markdown(_DESCRIPTION) | |
with gr.Row(variant='panel'): | |
with gr.Column(scale=6): | |
image_block = gr.Image(type='pil', image_mode='RGBA', height=290, label='Input image', tool=None) | |
gr.Examples( | |
examples=examples_full, | |
inputs=[image_block], | |
outputs=[image_block], | |
cache_examples=False, | |
label='Examples (click one of the images below to start)', | |
examples_per_page=40 | |
) | |
preprocess_chk = gr.Checkbox( | |
False, label='Reduce image contrast (mitigate shadows on the backside)') | |
with gr.Accordion('Advanced options', open=False): | |
scale_slider = gr.Slider(0, 30, value=3, step=1, | |
label='Diffusion guidance scale') | |
steps_slider = gr.Slider(5, 200, value=75, step=5, | |
label='Number of diffusion inference steps') | |
glb_chk = gr.Checkbox( | |
False, label='Export the mesh in .glb format') | |
run_btn = gr.Button('Run Generation', variant='primary', interactive=False) | |
guide_text = gr.Markdown(_USER_GUIDE, visible=True) | |
with gr.Column(scale=4): | |
with gr.Row(): | |
bbox_block = gr.Image(type='pil', label="Bounding box", height=290, interactive=False) | |
sam_block = gr.Image(type='pil', label="SAM output", interactive=False) | |
max_width = max_height = 256 | |
with gr.Row(): | |
x_min_slider = gr.Slider(label="X min", interactive=True, value=0, minimum=0, maximum=max_width, step=1) | |
y_min_slider = gr.Slider(label="Y min", interactive=True, value=0, minimum=0, maximum=max_height, step=1) | |
with gr.Row(): | |
x_max_slider = gr.Slider(label="X max", interactive=True, value=max_width, minimum=0, maximum=max_width, step=1) | |
y_max_slider = gr.Slider(label="Y max", interactive=True, value=max_height, minimum=0, maximum=max_height, step=1) | |
bbox_sliders = [x_min_slider, y_min_slider, x_max_slider, y_max_slider] | |
mesh_output = gr.Model3D(clear_color=[0.0, 0.0, 0.0, 0.0], label="One-2-3-45's Textured Mesh", elem_id="model-3d-out") | |
with gr.Row(variant='panel'): | |
with gr.Column(scale=85): | |
elev_output = gr.Label(label='Estimated elevation (degree, w.r.t. the horizontal plane)') | |
vis_output = gr.Plot(label='Camera poses of the input view (red) and predicted views (blue)', elem_id="plot-out") | |
with gr.Column(scale=115): | |
gr.Markdown('Predicted multi-view images') | |
with gr.Row(): | |
view_1 = gr.Image(interactive=False, height=200, show_label=False) | |
view_2 = gr.Image(interactive=False, height=200, show_label=False) | |
view_3 = gr.Image(interactive=False, height=200, show_label=False) | |
view_4 = gr.Image(interactive=False, height=200, show_label=False) | |
with gr.Row(): | |
btn_retry_1 = gr.Checkbox(label='Retry view 1') | |
btn_retry_2 = gr.Checkbox(label='Retry view 2') | |
btn_retry_3 = gr.Checkbox(label='Retry view 3') | |
btn_retry_4 = gr.Checkbox(label='Retry view 4') | |
with gr.Row(): | |
view_5 = gr.Image(interactive=False, height=200, show_label=False) | |
view_6 = gr.Image(interactive=False, height=200, show_label=False) | |
view_7 = gr.Image(interactive=False, height=200, show_label=False) | |
view_8 = gr.Image(interactive=False, height=200, show_label=False) | |
with gr.Row(): | |
btn_retry_5 = gr.Checkbox(label='Retry view 5') | |
btn_retry_6 = gr.Checkbox(label='Retry view 6') | |
btn_retry_7 = gr.Checkbox(label='Retry view 7') | |
btn_retry_8 = gr.Checkbox(label='Retry view 8') | |
with gr.Row(): | |
regen_view_btn = gr.Button('1. Regenerate selected view(s)', variant='secondary', visible=False) | |
regen_mesh_btn = gr.Button('2. Regenerate nearby views and mesh', variant='secondary', visible=False) | |
gr.Markdown(article) | |
gr.HTML(""" | |
<div class="footer"> | |
<p> | |
One-2-3-45 Demo by <a style="text-decoration:none" href="https://chaoxu.xyz" target="_blank">Chao Xu</a> | |
</p> | |
</div> | |
""") | |
# hidden buttons for supporting API calls | |
elev_est_btn = gr.Button('Run API', variant='primary', visible=False) | |
elev_est_out = gr.Number(value=0, visible=False) | |
elev_preprocess_chk = gr.Checkbox(value=True, visible=False) | |
elev_est_btn.click(fn=partial(estimate_elev_api, models, device, predictor), | |
inputs=[image_block, elev_preprocess_chk], | |
outputs=[elev_est_out], | |
api_name='estimate_elevation', | |
queue=True) | |
preprocess_btn = gr.Button('Run API', variant='primary', visible=False) | |
preprocess_btn.click(fn=partial(preprocess_api, predictor), | |
inputs=[image_block], | |
outputs=[sam_block], | |
api_name='preprocess', | |
queue=True) | |
gen_mesh_btn = gr.Button('Run API', variant='primary', visible=False) | |
gen_mesh_btn.click(fn=partial(gen_mesh_api, models, predictor, device), | |
inputs=[image_block, elev_preprocess_chk], | |
outputs=[mesh_output], | |
api_name='generate_mesh', | |
queue=True) | |
update_guide = lambda GUIDE_TEXT: gr.update(value=GUIDE_TEXT) | |
views = [view_1, view_2, view_3, view_4, view_5, view_6, view_7, view_8] | |
btn_retrys = [btn_retry_1, btn_retry_2, btn_retry_3, btn_retry_4, btn_retry_5, btn_retry_6, btn_retry_7, btn_retry_8] | |
rerun_idx = gr.State([]) | |
tmp_dir = gr.State('./demo_tmp/tmp_dir') | |
def refresh(tmp_dir): | |
if os.path.exists(tmp_dir): | |
shutil.rmtree(tmp_dir) | |
tmp_dir = tempfile.TemporaryDirectory(dir=os.path.join(os.path.dirname(__file__), 'demo_tmp')) | |
print("create tmp_dir", tmp_dir.name) | |
clear = [gr.update(value=[])] + [None] * 5 + [gr.update(visible=False)] * 2 + [None] * 8 + [gr.update(value=False)] * 8 | |
return (tmp_dir.name, *clear) | |
placeholder = gr.Image(visible=False) | |
tmp_func = lambda x: False if not x else gr.update(visible=False) | |
disable_func = lambda x: gr.update(interactive=False) | |
enable_func = lambda x: gr.update(interactive=True) | |
image_block.change(disable_func, inputs=run_btn, outputs=run_btn, queue=False | |
).success(fn=refresh, | |
inputs=[tmp_dir], | |
outputs=[tmp_dir, rerun_idx, bbox_block, sam_block, elev_output, vis_output, mesh_output, regen_view_btn, regen_mesh_btn, *views, *btn_retrys], | |
queue=False | |
).success(fn=tmp_func, inputs=[image_block], outputs=[placeholder], queue=False | |
).success(fn=partial(update_guide, _BBOX_1), outputs=[guide_text], queue=False | |
).success(fn=init_bbox, | |
inputs=[image_block], | |
outputs=[bbox_block, *bbox_sliders], queue=False | |
).success(fn=partial(update_guide, _BBOX_3), outputs=[guide_text], queue=False | |
).success(enable_func, inputs=run_btn, outputs=run_btn, queue=False) | |
for bbox_slider in bbox_sliders: | |
bbox_slider.release(fn=on_coords_slider, | |
inputs=[image_block, *bbox_sliders], | |
outputs=[bbox_block], | |
queue=False | |
).success(fn=partial(update_guide, _BBOX_2), outputs=[guide_text], queue=False) | |
cam_vis = CameraVisualizer(vis_output) | |
# Define the function to be called when any of the btn_retry buttons are clicked | |
def on_retry_button_click(*btn_retrys): | |
any_checked = any([btn_retry for btn_retry in btn_retrys]) | |
print('any_checked:', any_checked, [btn_retry for btn_retry in btn_retrys]) | |
if any_checked: | |
return (gr.update(visible=True), gr.update(visible=True)) | |
else: | |
return (gr.update(), gr.update()) | |
# make regen_btn visible when any of the btn_retry is checked | |
for btn_retry in btn_retrys: | |
# Add the event handlers to the btn_retry buttons | |
btn_retry.change(fn=on_retry_button_click, inputs=[*btn_retrys], outputs=[regen_view_btn, regen_mesh_btn], queue=False) | |
run_btn.click(fn=partial(update_guide, _SAM), outputs=[guide_text], queue=False | |
).success(fn=partial(preprocess_run, predictor, models), | |
inputs=[image_block, preprocess_chk, *bbox_sliders], | |
outputs=[sam_block] | |
).success(fn=partial(update_guide, _GEN_1), outputs=[guide_text], queue=False | |
).success(fn=partial(stage1_run, models, device, cam_vis), | |
inputs=[tmp_dir, sam_block, scale_slider, steps_slider], | |
outputs=[elev_output, vis_output, *views] | |
).success(fn=partial(update_guide, _GEN_2), outputs=[guide_text], queue=False | |
).success(fn=partial(stage2_run, models, device), | |
inputs=[tmp_dir, elev_output, scale_slider, glb_chk], | |
outputs=[mesh_output] | |
).success(fn=partial(update_guide, _DONE), outputs=[guide_text], queue=False) | |
regen_view_btn.click(fn=partial(stage1_run, models, device, None), | |
inputs=[tmp_dir, sam_block, scale_slider, steps_slider, elev_output, rerun_idx, *btn_retrys], | |
outputs=[rerun_idx, *btn_retrys, *views] | |
).success(fn=partial(update_guide, _REGEN_1), outputs=[guide_text], queue=False) | |
regen_mesh_btn.click(fn=partial(stage2_run, models, device), | |
inputs=[tmp_dir, elev_output, scale_slider, glb_chk, rerun_idx], | |
outputs=[mesh_output, rerun_idx, regen_view_btn, regen_mesh_btn] | |
).success(fn=partial(update_guide, _REGEN_2), outputs=[guide_text], queue=False) | |
demo.queue().launch(share=False, max_threads=80) # auth=("admin", os.environ['PASSWD']) | |
if __name__ == '__main__': | |
fire.Fire(run_demo) | |