Spaces:
Running
on
Zero
Running
on
Zero
File size: 13,401 Bytes
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import os, json, uuid, re
from datetime import datetime
import gradio as gr
import spaces # ZeroGPU decorator
import torch
# =========================
# Storage helpers
# =========================
ROOT = "outputs"
os.makedirs(ROOT, exist_ok=True)
def now_iso(): return datetime.utcnow().replace(microsecond=0).isoformat() + "Z"
def new_id(): return uuid.uuid4().hex[:8]
def project_dir(pid):
path = os.path.join(ROOT, pid)
os.makedirs(path, exist_ok=True)
os.makedirs(os.path.join(path, "keyframes"), exist_ok=True)
os.makedirs(os.path.join(path, "clips"), exist_ok=True)
return path
def save_project(proj):
pid = proj["meta"]["id"]
path = os.path.join(project_dir(pid), "project.json")
with open(path, "w") as f: json.dump(proj, f, indent=2)
return path
def load_project_file(file_obj):
with open(file_obj.name, "r") as f:
proj = json.load(f)
project_dir(proj["meta"]["id"]) # ensure dirs
return proj
# =========================
# LLM (ZeroGPU) — Storyboard generator (robust, two-pass + empty fallback)
# =========================
from transformers import AutoTokenizer, AutoModelForCausalLM
STORYBOARD_MODEL = os.getenv("STORYBOARD_MODEL", "Qwen/Qwen2.5-1.5B-Instruct")
HF_TASK_MAX_TOKENS = int(os.getenv("HF_TASK_MAX_TOKENS", "1200")) # give a bit more room
_tokenizer = None
_model = None
def _lazy_model_tok():
global _tokenizer, _model
if _tokenizer is not None and _model is not None:
return _model, _tokenizer
_tokenizer = AutoTokenizer.from_pretrained(STORYBOARD_MODEL, trust_remote_code=True)
_model = AutoModelForCausalLM.from_pretrained(
STORYBOARD_MODEL,
device_map="auto",
dtype="auto",
trust_remote_code=True,
)
# Ensure pad token exists to avoid warnings
if _tokenizer.pad_token_id is None and _tokenizer.eos_token_id is not None:
_tokenizer.pad_token_id = _tokenizer.eos_token_id
return _model, _tokenizer
def _prompt_with_tags(user_prompt: str, n_shots: int, default_fps: int, default_len: int) -> str:
return (
"Return ONLY a JSON array, enclosed between <JSON> and </JSON>.\n"
f"Create a storyboard of {n_shots} shots for this idea:\n\n"
f"'''{user_prompt}'''\n\n"
"Each item schema:\n"
"{\n"
' \"id\": <int starting at 1>,\n'
' \"title\": \"Short title\",\n'
' \"description\": \"Visual description for keyframe generation\",\n'
f" \"duration\": {default_len},\n"
f" \"fps\": {default_fps},\n"
f" \"video_length\": {default_len},\n"
" \"steps\": 30,\n"
" \"seed\": null,\n"
' \"negative\": \"\"\n'
"}\n\n"
"Output:\n<JSON>\n[ { ... }, ... ]\n</JSON>\n"
)
def _prompt_minimal(user_prompt: str, n_shots: int, default_fps: int, default_len: int) -> str:
return (
"Reply ONLY with a JSON array starting with '[' and ending with ']'. No extra text.\n"
f"Storyboard: {n_shots} shots for:\n'''{user_prompt}'''\n"
"Item schema:\n"
"{\n"
' \"id\": <int starting at 1>,\n'
' \"title\": \"Short title\",\n'
' \"description\": \"Visual description\",\n'
f" \"duration\": {default_len},\n"
f" \"fps\": {default_fps},\n"
f" \"video_length\": {default_len},\n"
" \"steps\": 30,\n"
" \"seed\": null,\n"
' \"negative\": \"\"\n'
"}\n"
)
def _apply_chat(tok, system_msg: str, user_msg: str) -> str:
if hasattr(tok, "apply_chat_template"):
return tok.apply_chat_template(
[{"role": "system", "content": system_msg},
{"role": "user", "content": user_msg}],
tokenize=False,
add_generation_prompt=True
)
return system_msg + "\n\n" + user_msg
def _generate_text(model, tok, prompt_text: str) -> str:
inputs = tok(prompt_text, return_tensors="pt")
inputs = {k: v.to(model.device) for k, v in inputs.items()}
eos_id = tok.eos_token_id
gen = model.generate(
**inputs,
max_new_tokens=HF_TASK_MAX_TOKENS,
do_sample=False,
temperature=0.0,
repetition_penalty=1.05,
eos_token_id=eos_id,
pad_token_id=tok.pad_token_id if tok.pad_token_id is not None else eos_id,
)
text = tok.decode(gen[0], skip_special_tokens=True)
if text.startswith(prompt_text):
text = text[len(prompt_text):]
# strip code fences if present
text = text.strip()
if text.startswith("```"):
text = re.sub(r"^```(?:json)?\s*|\s*```$", "", text, flags=re.IGNORECASE|re.DOTALL).strip()
return text
def _extract_json_array(text: str) -> str:
m = re.search(r"<JSON>(.*?)</JSON>", text, flags=re.DOTALL | re.IGNORECASE)
if m:
inner = m.group(1).strip()
if inner:
return inner
# Fallback: first balanced array
start = text.find("[")
if start == -1:
return ""
depth = 0
for i in range(start, len(text)):
ch = text[i]
if ch == "[":
depth += 1
elif ch == "]":
depth -= 1
if depth == 0:
return text[start:i+1].strip()
return ""
def _normalize_shots(shots_raw, default_fps: int, default_len: int):
norm = []
for i, s in enumerate(shots_raw, start=1):
norm.append({
"id": int(s.get("id", i)),
"title": s.get("title", f"Shot {i}"),
"description": s.get("description", ""),
"duration": int(s.get("duration", default_len)),
"fps": int(s.get("fps", default_fps)),
"video_length": int(s.get("video_length", default_len)),
"steps": int(s.get("steps", 30)),
"seed": s.get("seed", None),
"negative": s.get("negative", ""),
"keyframe_path": None
})
return norm
@spaces.GPU(duration=180)
def generate_storyboard_with_llm(user_prompt: str, n_shots: int, default_fps: int, default_len: int):
"""
Two-pass generation with robust parsing and empty-output fallback.
"""
model, tok = _lazy_model_tok()
system = "You are a film previsualization assistant. Output must be valid JSON."
# PASS 1: with <JSON> tags
p1 = _apply_chat(tok, system + " Return ONLY JSON inside <JSON> tags.",
_prompt_with_tags(user_prompt, n_shots, default_fps, default_len))
out1 = _generate_text(model, tok, p1)
print(f"[DEBUG] LLM raw out1 (first 240 chars): {out1[:240]}")
json_text = _extract_json_array(out1)
# PASS 2: strict array fallback
if not json_text:
p2 = _apply_chat(tok, system + " Reply ONLY with a JSON array.",
_prompt_minimal(user_prompt, n_shots, default_fps, default_len))
out2 = _generate_text(model, tok, p2)
print(f"[DEBUG] LLM raw out2 (first 240 chars): {out2[:240]}")
json_text = _extract_json_array(out2)
if not json_text and "[" in out2 and "]" in out2:
start = out2.find("["); end = out2.rfind("]")
if start != -1 and end != -1 and end > start:
json_text = out2[start:end+1].strip()
# EMPTY FALLBACK → return a single stub so the app does not crash
if not json_text or not json_text.strip():
print("⚠️ LLM returned empty or unparsable JSON. Using fallback storyboard.")
return [{
"id": 1,
"title": "Shot 1",
"description": f"Fallback shot for: {user_prompt[:80]}",
"duration": default_len,
"fps": default_fps,
"video_length": default_len,
"steps": 30,
"seed": None,
"negative": "",
"keyframe_path": None
}]
# Parse & normalize (with tiny trailing-comma cleanup)
try:
shots_raw = json.loads(json_text)
except Exception:
json_text_clean = re.sub(r",\s*([\]\}])", r"\1", json_text)
shots_raw = json.loads(json_text_clean)
return _normalize_shots(shots_raw, default_fps, default_len)
# =========================
# Gradio UI
# =========================
with gr.Blocks() as demo:
gr.Markdown("# 🎬 Storyboard → Keyframes → Videos → Export")
gr.Markdown("**Step 2**: Real storyboard generation on **ZeroGPU**. Next steps will add keyframes (img2img) and your Modal videos.")
# Global state
project = gr.State(None) # dict with meta/shots/clips
current_tab = gr.State("Storyboard")
# Header row
with gr.Row():
with gr.Column(scale=2):
proj_name = gr.Textbox(label="Project name", placeholder="e.g., Desert Chase")
with gr.Column(scale=1):
new_btn = gr.Button("New Project", variant="primary")
with gr.Column(scale=1):
save_btn = gr.Button("Save Project")
with gr.Column(scale=1):
load_file = gr.File(label="Load Project (project.json)", file_count="single", type="filepath")
load_btn = gr.Button("Load")
# Tabs
with gr.Tabs():
with gr.Tab("Storyboard"):
gr.Markdown("### 1) Storyboard")
sb_prompt = gr.Textbox(label="High-level prompt", lines=4, placeholder="Describe the story you want to create…")
with gr.Row():
sb_target_shots = gr.Slider(1, 12, value=3, step=1, label="Target # of shots")
sb_default_fps = gr.Slider(8, 60, value=24, step=1, label="Default FPS")
sb_default_len = gr.Slider(1, 12, value=4, step=1, label="Default seconds per shot")
propose_btn = gr.Button("Propose Storyboard (LLM on ZeroGPU)")
shots_json = gr.JSON(label="Storyboard JSON (editable in next step)")
confirm_btn = gr.Button("Confirm Storyboard ✓", variant="primary")
sb_status = gr.Markdown("")
with gr.Tab("Keyframes"):
gr.Markdown("### 2) Keyframes (coming next)")
kf_table = gr.JSON(label="Shots (read-only for now)")
to_videos_btn = gr.Button("Continue to Videos →", interactive=False)
with gr.Tab("Videos"):
gr.Markdown("### 3) Videos (coming next)")
vd_table = gr.JSON(label="Planned clip edges (read-only for now)")
to_export_btn = gr.Button("Continue to Export →", interactive=False)
with gr.Tab("Export"):
gr.Markdown("### 4) Export (coming next)")
export_info = gr.Markdown("Nothing to export yet.")
# -------- Handlers --------
def on_new(name):
name = (name or "").strip() or f"Project-{new_id()}"
pid = new_id()
p = {
"meta": {"id": pid, "name": name, "created": now_iso(), "updated": now_iso()},
"shots": [],
"clips": []
}
save_project(p)
return p, gr.update(value=f"**New project created** `{name}` (id: `{pid}`)")
new_btn.click(on_new, inputs=[proj_name], outputs=[project, sb_status])
def on_propose(p, prompt, target_shots, fps, vlen):
if p is None:
raise gr.Error("Create a project first (New Project).")
if not prompt or not str(prompt).strip():
raise gr.Error("Please enter a high-level prompt.")
shots = generate_storyboard_with_llm(str(prompt).strip(), int(target_shots), int(fps), int(vlen))
p = dict(p)
p["shots"] = shots
p["meta"]["updated"] = now_iso()
save_project(p)
return p, shots, gr.update(value="Storyboard generated by LLM (ZeroGPU).")
propose_btn.click(
on_propose,
inputs=[project, sb_prompt, sb_target_shots, sb_default_fps, sb_default_len],
outputs=[project, shots_json, sb_status]
)
def on_confirm(p):
if p is None or not p.get("shots"):
raise gr.Error("No storyboard yet.")
edges = []
for i in range(len(p["shots"]) - 1):
a = p["shots"][i]["id"]
b = p["shots"][i+1]["id"]
edges.append({"from": a, "to": b, "prompt": f"Transition from shot {a} to {b}"})
p = dict(p)
p["clips"] = edges
p["meta"]["updated"] = now_iso()
save_project(p)
return (
p,
gr.update(value=p["shots"]),
gr.update(value=p["clips"]),
gr.update(value="Storyboard confirmed. Proceed to Keyframes."),
gr.update(interactive=True)
)
confirm_btn.click(
on_confirm,
inputs=[project],
outputs=[project, kf_table, vd_table, sb_status, to_videos_btn]
)
def on_save(p):
if p is None:
raise gr.Error("No project in memory.")
path = save_project(p)
return gr.update(value=f"Saved to `{path}`")
save_btn.click(on_save, inputs=[project], outputs=[sb_status])
def on_load(file_obj):
p = load_project_file(file_obj)
return (
p,
gr.update(value=f"Loaded project `{p['meta']['name']}` (id: `{p['meta']['id']}`)"),
gr.update(value=p["shots"]),
gr.update(value=p["clips"]),
gr.update(interactive=bool(p.get("shots")))
)
load_btn.click(
on_load,
inputs=[load_file],
outputs=[project, sb_status, kf_table, vd_table, to_videos_btn]
)
if __name__ == "__main__":
demo.launch()
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