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import sys | |
import threading | |
import streamlit as st | |
from huggingface_hub import HfFolder, snapshot_download | |
def load_support(): | |
if st.secrets.has_key('etoken'): | |
HfFolder().save_token(st.secrets['etoken']) | |
sys.path.append(snapshot_download("OpenShape/openshape-demo-support")) | |
# st.set_page_config(layout='wide') | |
load_support() | |
import numpy | |
import torch | |
import openshape | |
import transformers | |
from PIL import Image | |
def load_openshape(name, to_cpu=False): | |
pce = openshape.load_pc_encoder(name) | |
if to_cpu: | |
pce = pce.cpu() | |
return pce | |
def load_openclip(): | |
sys.clip_move_lock = threading.Lock() | |
clip_model, clip_prep = transformers.CLIPModel.from_pretrained( | |
"laion/CLIP-ViT-bigG-14-laion2B-39B-b160k", | |
low_cpu_mem_usage=True, torch_dtype=half, | |
offload_state_dict=True | |
), transformers.CLIPProcessor.from_pretrained("laion/CLIP-ViT-bigG-14-laion2B-39B-b160k") | |
if torch.cuda.is_available(): | |
with sys.clip_move_lock: | |
clip_model.cuda() | |
return clip_model, clip_prep | |
f32 = numpy.float32 | |
half = torch.float16 if torch.cuda.is_available() else torch.bfloat16 | |
# clip_model, clip_prep = None, None | |
clip_model, clip_prep = load_openclip() | |
model_b32 = load_openshape('openshape-pointbert-vitb32-rgb', True) | |
model_l14 = load_openshape('openshape-pointbert-vitl14-rgb') | |
model_g14 = load_openshape('openshape-pointbert-vitg14-rgb') | |
torch.set_grad_enabled(False) | |
for kc, vc in st.session_state.get('state_queue', []): | |
st.session_state[kc] = vc | |
st.session_state.state_queue = [] | |
import samples_index | |
from openshape.demo import misc_utils, classification, caption, sd_pc2img, retrieval | |
st.title("OpenShape Demo") | |
st.caption("For faster inference without waiting in queue, you may clone the space and run it yourself.") | |
prog = st.progress(0.0, "Idle") | |
tab_cls, tab_img, tab_text, tab_pc, tab_sd, tab_cap = st.tabs([ | |
"Classification", | |
"Retrieval w/ Image", | |
"Retrieval w/ Text", | |
"Retrieval w/ 3D", | |
"Image Generation", | |
"Captioning", | |
]) | |
def sq(kc, vc): | |
st.session_state.state_queue.append((kc, vc)) | |
def reset_3d_shape_input(key): | |
# this is not working due to streamlit problems, don't use it | |
model_key = key + "_model" | |
npy_key = key + "_npy" | |
swap_key = key + "_swap" | |
sq(model_key, None) | |
sq(npy_key, None) | |
sq(swap_key, "Y is up (for most Objaverse shapes)") | |
def auto_submit(key): | |
if st.session_state.get(key): | |
st.session_state[key] = False | |
return True | |
return False | |
def queue_auto_submit(key): | |
st.session_state[key] = True | |
st.experimental_rerun() | |
img_example_counter = 0 | |
def image_examples(samples, ncols, return_key=None, example_text="Examples"): | |
global img_example_counter | |
trigger = False | |
with st.expander(example_text, True): | |
for i in range(len(samples) // ncols): | |
cols = st.columns(ncols) | |
for j in range(ncols): | |
idx = i * ncols + j | |
if idx >= len(samples): | |
continue | |
entry = samples[idx] | |
with cols[j]: | |
st.image(entry['dispi']) | |
img_example_counter += 1 | |
with st.columns(5)[2]: | |
this_trigger = st.button('\+', key='imgexuse%d' % img_example_counter) | |
trigger = trigger or this_trigger | |
if this_trigger: | |
if return_key is None: | |
for k, v in entry.items(): | |
if not k.startswith('disp'): | |
sq(k, v) | |
else: | |
trigger = entry[return_key] | |
return trigger | |
def demo_classification(): | |
with st.form("clsform"): | |
load_data = misc_utils.input_3d_shape('cls') | |
cats = st.text_input("Custom Categories (64 max, separated with comma)") | |
cats = [a.strip() for a in cats.split(',')] | |
if len(cats) > 64: | |
st.error('Maximum 64 custom categories supported in the demo') | |
return | |
lvis_run = st.form_submit_button("Run Classification on LVIS Categories") | |
custom_run = st.form_submit_button("Run Classification on Custom Categories") | |
if lvis_run or auto_submit("clsauto"): | |
pc = load_data(prog) | |
col2 = misc_utils.render_pc(pc) | |
prog.progress(0.5, "Running Classification") | |
pred = classification.pred_lvis_sims(model_g14, pc) | |
with col2: | |
for i, (cat, sim) in zip(range(5), pred.items()): | |
st.text(cat) | |
st.caption("Similarity %.4f" % sim) | |
prog.progress(1.0, "Idle") | |
if custom_run: | |
pc = load_data(prog) | |
col2 = misc_utils.render_pc(pc) | |
prog.progress(0.5, "Computing Category Embeddings") | |
device = clip_model.device | |
tn = clip_prep(text=cats, return_tensors='pt', truncation=True, max_length=76, padding=True).to(device) | |
feats = clip_model.get_text_features(**tn).float().cpu() | |
prog.progress(0.5, "Running Classification") | |
pred = classification.pred_custom_sims(model_g14, pc, cats, feats) | |
with col2: | |
for i, (cat, sim) in zip(range(5), pred.items()): | |
st.text(cat) | |
st.caption("Similarity %.4f" % sim) | |
prog.progress(1.0, "Idle") | |
if image_examples(samples_index.classification, 3, example_text="Examples (Choose one of the following 3D shapes)"): | |
queue_auto_submit("clsauto") | |
def demo_captioning(): | |
with st.form("capform"): | |
load_data = misc_utils.input_3d_shape('cap') | |
cond_scale = st.slider('Conditioning Scale', 0.0, 4.0, 2.0, 0.1, key='capcondscl') | |
if st.form_submit_button("Generate a Caption") or auto_submit("capauto"): | |
pc = load_data(prog) | |
col2 = misc_utils.render_pc(pc) | |
prog.progress(0.5, "Running Generation") | |
cap = caption.pc_caption(model_b32, pc, cond_scale) | |
st.text(cap) | |
prog.progress(1.0, "Idle") | |
if image_examples(samples_index.cap, 3, example_text="Examples (Choose one of the following 3D shapes)"): | |
queue_auto_submit("capauto") | |
def demo_pc2img(): | |
with st.form("sdform"): | |
load_data = misc_utils.input_3d_shape('sd') | |
prompt = st.text_input("Prompt (Optional)", key='sdtprompt') | |
noise_scale = st.slider('Variation Level', 0, 5, 1) | |
cfg_scale = st.slider('Guidance Scale', 0.0, 30.0, 10.0) | |
steps = st.slider('Diffusion Steps', 8, 50, 25) | |
width = 640 # st.slider('Width', 480, 640, step=32) | |
height = 640 # st.slider('Height', 480, 640, step=32) | |
if st.form_submit_button("Generate") or auto_submit("sdauto"): | |
pc = load_data(prog) | |
col2 = misc_utils.render_pc(pc) | |
prog.progress(0.49, "Running Generation") | |
if torch.cuda.is_available(): | |
with sys.clip_move_lock: | |
clip_model.cpu() | |
img = sd_pc2img.pc_to_image( | |
model_l14, pc, prompt, noise_scale, width, height, cfg_scale, steps, | |
lambda i, t, _: prog.progress(0.49 + i / (steps + 1) / 2, "Running Diffusion Step %d" % i) | |
) | |
if torch.cuda.is_available(): | |
with sys.clip_move_lock: | |
clip_model.cuda() | |
with col2: | |
st.image(img) | |
prog.progress(1.0, "Idle") | |
if image_examples(samples_index.sd, 3, example_text="Examples (Choose one of the following 3D shapes)"): | |
queue_auto_submit("sdauto") | |
def retrieval_results(results): | |
st.caption("Click the link to view the 3D shape") | |
for i in range(len(results) // 4): | |
cols = st.columns(4) | |
for j in range(4): | |
idx = i * 4 + j | |
if idx >= len(results): | |
continue | |
entry = results[idx] | |
with cols[j]: | |
ext_link = f"https://objaverse.allenai.org/explore/?query={entry['u']}" | |
st.image(entry['img']) | |
# st.markdown(f"[![thumbnail {entry['desc'].replace('\n', ' ')}]({entry['img']})]({ext_link})") | |
# st.text(entry['name']) | |
quote_name = entry['name'].replace('[', '\\[').replace(']', '\\]').replace('\n', ' ') | |
st.markdown(f"[{quote_name}]({ext_link})") | |
def retrieval_filter_expand(key): | |
with st.expander("Filters"): | |
sim_th = st.slider("Similarity Threshold", 0.05, 0.5, 0.1, key=key + 'rtsimth') | |
tag = st.text_input("Has Tag", "", key=key + 'rthastag') | |
col1, col2 = st.columns(2) | |
face_min = int(col1.text_input("Face Count Min", "0", key=key + 'rtfcmin')) | |
face_max = int(col2.text_input("Face Count Max", "34985808", key=key + 'rtfcmax')) | |
col1, col2 = st.columns(2) | |
anim_min = int(col1.text_input("Animation Count Min", "0", key=key + 'rtacmin')) | |
anim_max = int(col2.text_input("Animation Count Max", "563", key=key + 'rtacmax')) | |
tag_n = not bool(tag.strip()) | |
anim_n = not (anim_min > 0 or anim_max < 563) | |
face_n = not (face_min > 0 or face_max < 34985808) | |
filter_fn = lambda x: ( | |
(anim_n or anim_min <= x['anims'] <= anim_max) | |
and (face_n or face_min <= x['faces'] <= face_max) | |
and (tag_n or tag in x['tags']) | |
) | |
return sim_th, filter_fn | |
def demo_retrieval(): | |
with tab_text: | |
with st.form("rtextform"): | |
k = st.slider("Shapes to Retrieve", 1, 100, 16, key='rtext') | |
text = st.text_input("Input Text", key="inputrtext") | |
sim_th, filter_fn = retrieval_filter_expand('text') | |
if st.form_submit_button("Run with Text") or auto_submit("rtextauto"): | |
prog.progress(0.49, "Computing Embeddings") | |
device = clip_model.device | |
tn = clip_prep( | |
text=[text], return_tensors='pt', truncation=True, max_length=76 | |
).to(device) | |
enc = clip_model.get_text_features(**tn).float().cpu() | |
prog.progress(0.7, "Running Retrieval") | |
retrieval_results(retrieval.retrieve(enc, k, sim_th, filter_fn)) | |
prog.progress(1.0, "Idle") | |
picked_sample = st.selectbox("Examples", ["Select..."] + samples_index.retrieval_texts) | |
text_last_example = st.session_state.get('text_last_example', None) | |
if text_last_example is None: | |
st.session_state.text_last_example = picked_sample | |
elif text_last_example != picked_sample and picked_sample != "Select...": | |
st.session_state.text_last_example = picked_sample | |
sq("inputrtext", picked_sample) | |
queue_auto_submit("rtextauto") | |
with tab_img: | |
submit = False | |
with st.form("rimgform"): | |
k = st.slider("Shapes to Retrieve", 1, 100, 16, key='rimage') | |
pic = st.file_uploader("Upload an Image", key='rimageinput') | |
sim_th, filter_fn = retrieval_filter_expand('image') | |
if st.form_submit_button("Run with Image"): | |
submit = True | |
results_container = st.container() | |
sample_got = image_examples(samples_index.iret, 4, 'rimageinput') | |
if sample_got: | |
pic = sample_got | |
if sample_got or submit: | |
img = Image.open(pic) | |
with results_container: | |
st.image(img) | |
prog.progress(0.49, "Computing Embeddings") | |
device = clip_model.device | |
tn = clip_prep(images=[img], return_tensors="pt").to(device) | |
enc = clip_model.get_image_features(pixel_values=tn['pixel_values'].type(half)).float().cpu() | |
prog.progress(0.7, "Running Retrieval") | |
retrieval_results(retrieval.retrieve(enc, k, sim_th, filter_fn)) | |
prog.progress(1.0, "Idle") | |
with tab_pc: | |
with st.form("rpcform"): | |
k = st.slider("Shapes to Retrieve", 1, 100, 16, key='rpc') | |
load_data = misc_utils.input_3d_shape('retpc') | |
sim_th, filter_fn = retrieval_filter_expand('pc') | |
if st.form_submit_button("Run with Shape") or auto_submit('rpcauto'): | |
pc = load_data(prog) | |
col2 = misc_utils.render_pc(pc) | |
prog.progress(0.49, "Computing Embeddings") | |
ref_dev = next(model_g14.parameters()).device | |
enc = model_g14(torch.tensor(pc[:, [0, 2, 1, 3, 4, 5]].T[None], device=ref_dev)).cpu() | |
prog.progress(0.7, "Running Retrieval") | |
retrieval_results(retrieval.retrieve(enc, k, sim_th, filter_fn)) | |
prog.progress(1.0, "Idle") | |
if image_examples(samples_index.pret, 3): | |
queue_auto_submit("rpcauto") | |
try: | |
with tab_cls: | |
demo_classification() | |
with tab_cap: | |
demo_captioning() | |
with tab_sd: | |
demo_pc2img() | |
demo_retrieval() | |
except Exception: | |
import traceback | |
st.error(traceback.format_exc().replace("\n", " \n")) | |