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Mesh_Rigger / app.py

jkorstad

Update app.py

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	import gradio as gr
	import torch
	import os
	import sys
	import tempfile
	import shutil
	import subprocess
	import spaces # Keep this if you use @spaces.GPU
	from typing import Any, Dict, List, Union # Added Union

	# --- Configuration ---
	APP_ROOT_DIR = os.path.abspath(os.path.dirname(__file__)) # Should be /home/user/app

	UNIRIG_REPO_DIR = os.path.join(APP_ROOT_DIR, "UniRig")

	BLENDER_VERSION_NAME = "blender-4.2.0-linux-x64"
	BLENDER_LOCAL_INSTALL_BASE_DIR = os.path.join(APP_ROOT_DIR, "blender_installation")
	BLENDER_INSTALL_DIR = os.path.join(BLENDER_LOCAL_INSTALL_BASE_DIR, BLENDER_VERSION_NAME)

	BLENDER_PYTHON_VERSION_DIR = "4.2" # From Blender's internal structure
	BLENDER_PYTHON_VERSION = "python3.11" # UniRig requirement

	BLENDER_PYTHON_DIR = os.path.join(BLENDER_INSTALL_DIR, BLENDER_PYTHON_VERSION_DIR, "python")
	BLENDER_PYTHON_BIN_DIR = os.path.join(BLENDER_PYTHON_DIR, "bin")
	BLENDER_EXEC = os.path.join(BLENDER_INSTALL_DIR, "blender")

	LOCAL_BIN_DIR = os.path.join(APP_ROOT_DIR, "local_bin")
	BLENDER_EXEC_LOCAL_SYMLINK = os.path.join(LOCAL_BIN_DIR, "blender")
	BLENDER_EXEC_SYMLINK = "/usr/local/bin/blender" # Fallback system symlink

	SETUP_SCRIPT = os.path.join(APP_ROOT_DIR, "setup_blender.sh")
	SETUP_SCRIPT_TIMEOUT = 1800

	# --- Initial Checks ---
	print("--- Environment Checks ---")
	print(f"APP_ROOT_DIR: {APP_ROOT_DIR}")
	print(f"Expected Blender Install Dir: {BLENDER_INSTALL_DIR}")
	print(f"Expected Blender Executable: {BLENDER_EXEC}")

	blender_executable_to_use = None
	if os.path.exists(BLENDER_EXEC):
	print(f"Blender executable found at direct local path: {BLENDER_EXEC}")
	blender_executable_to_use = BLENDER_EXEC
	elif os.path.exists(BLENDER_EXEC_LOCAL_SYMLINK):
	print(f"Blender executable found via local symlink: {BLENDER_EXEC_LOCAL_SYMLINK}")
	blender_executable_to_use = BLENDER_EXEC_LOCAL_SYMLINK
	elif os.path.exists(BLENDER_EXEC_SYMLINK):
	print(f"Blender executable found via system symlink: {BLENDER_EXEC_SYMLINK}")
	blender_executable_to_use = BLENDER_EXEC_SYMLINK
	else:
	print(f"Blender executable not found. Running setup script...")
	if os.path.exists(SETUP_SCRIPT):
	try:
	setup_result = subprocess.run(
	["bash", SETUP_SCRIPT],
	check=True,
	capture_output=True,
	text=True,
	timeout=SETUP_SCRIPT_TIMEOUT
	)
	print("Setup script executed successfully.")
	print(f"Setup STDOUT:\n{setup_result.stdout}")
	if setup_result.stderr: print(f"Setup STDERR:\n{setup_result.stderr}")

	if os.path.exists(BLENDER_EXEC):
	blender_executable_to_use = BLENDER_EXEC
	print(f"Blender executable now found at direct local path: {BLENDER_EXEC}")
	elif os.path.exists(BLENDER_EXEC_LOCAL_SYMLINK):
	blender_executable_to_use = BLENDER_EXEC_LOCAL_SYMLINK
	print(f"Blender executable now found via local symlink: {BLENDER_EXEC_LOCAL_SYMLINK}")
	elif os.path.exists(BLENDER_EXEC_SYMLINK):
	blender_executable_to_use = BLENDER_EXEC_SYMLINK
	print(f"Blender executable now found via system symlink: {BLENDER_EXEC_SYMLINK}")

	if not blender_executable_to_use:
	raise RuntimeError(f"Setup script ran but Blender executable still not found.")
	except subprocess.TimeoutExpired:
	print(f"ERROR: Setup script timed out: {SETUP_SCRIPT}")
	raise gr.Error(f"Setup script timed out. Check logs.")
	except subprocess.CalledProcessError as e:
	print(f"ERROR running setup script: {SETUP_SCRIPT}\nStderr: {e.stderr}")
	raise gr.Error(f"Failed to execute setup script. Stderr: {e.stderr[-500:]}")
	except Exception as e:
	raise gr.Error(f"Unexpected error running setup script '{SETUP_SCRIPT}': {e}")
	else:
	raise gr.Error(f"Blender executable not found and setup script missing: {SETUP_SCRIPT}")

	bpy_import_ok = False
	if blender_executable_to_use:
	try:
	print("Testing bpy import via Blender...")
	test_script_content = "import bpy; print('bpy imported successfully')"
	test_result = subprocess.run(
	[blender_executable_to_use, "--background", "--python-expr", test_script_content],
	capture_output=True, text=True, check=True, timeout=30
	)
	if "bpy imported successfully" in test_result.stdout:
	print("Successfully imported 'bpy' using Blender executable.")
	bpy_import_ok = True
	else:
	print(f"WARNING: 'bpy' import test unexpected output:\nSTDOUT:{test_result.stdout}\nSTDERR:{test_result.stderr}")
	except subprocess.TimeoutExpired:
	print("WARNING: 'bpy' import test via Blender timed out.")
	except subprocess.CalledProcessError as e:
	print(f"WARNING: Failed to import 'bpy' using Blender executable:\nSTDOUT:{e.stdout}\nSTDERR:{e.stderr}")
	except Exception as e:
	print(f"WARNING: Unexpected error during 'bpy' import test: {e}")
	else:
	print("WARNING: Cannot test bpy import as Blender executable was not found.")

	unirig_repo_ok = False
	unirig_run_py_ok = False
	UNIRIG_RUN_PY = os.path.join(UNIRIG_REPO_DIR, "run.py")
	if not os.path.isdir(UNIRIG_REPO_DIR):
	raise gr.Error(f"UniRig repository missing at: {UNIRIG_REPO_DIR}.")
	else:
	print(f"UniRig repository found at: {UNIRIG_REPO_DIR}")
	unirig_repo_ok = True
	if not os.path.exists(UNIRIG_RUN_PY):
	raise gr.Error(f"UniRig's run.py not found at {UNIRIG_RUN_PY}.")
	else:
	unirig_run_py_ok = True

	DEVICE = torch.device("cuda" if torch.cuda.is_available() else "cpu")
	print(f"Gradio environment using device: {DEVICE}")
	if DEVICE.type == 'cuda':
	try:
	print(f"Gradio CUDA Device Name: {torch.cuda.get_device_name(0)}")
	print(f"Gradio PyTorch CUDA Built Version: {torch.version.cuda}")
	except Exception as e:
	print(f"Could not get Gradio CUDA device details: {e}")
	else:
	print("Warning: Gradio environment CUDA not available.")
	print("--- End Environment Checks ---")

	def patch_asset_py():
	asset_py_path = os.path.join(UNIRIG_REPO_DIR, "src", "data", "asset.py")
	try:
	if not os.path.exists(asset_py_path):
	print(f"Warning: asset.py not found at {asset_py_path}, skipping patch.")
	return
	with open(asset_py_path, "r") as f: content = f.read()
	problematic_line = "meta: Union[Dict[str, ...], None]=None"
	corrected_line = "meta: Union[Dict[str, Any], None]=None"
	typing_import = "from typing import Any"
	if corrected_line in content:
	print("Patch already applied to asset.py"); return
	if problematic_line not in content:
	print("Problematic line not found in asset.py, patch might be unnecessary."); return
	print("Applying patch to asset.py...")
	content = content.replace(problematic_line, corrected_line)
	if typing_import not in content:
	if "from typing import" in content:
	content = content.replace("from typing import", f"{typing_import}\nfrom typing import", 1)
	else:
	content = f"{typing_import}\n{content}"
	with open(asset_py_path, "w") as f: f.write(content)
	print("Successfully patched asset.py")
	except Exception as e:
	print(f"ERROR: Failed to patch asset.py: {e}. Proceeding cautiously.")

	@spaces.GPU
	def run_unirig_command(python_script_path: str, script_args: List[str], step_name: str):
	if not blender_executable_to_use:
	raise gr.Error("Blender executable path not determined. Cannot run UniRig step.")

	process_env = os.environ.copy()
	# PYTHONPATH is set here, but Blender's Python might not fully utilize it for sys.path initialization
	# as expected. The bootstrap script below will directly manipulate sys.path.
	unirig_src_dir = os.path.join(UNIRIG_REPO_DIR, 'src')
	pythonpath_parts = [UNIRIG_REPO_DIR, unirig_src_dir, APP_ROOT_DIR] # Added APP_ROOT_DIR for good measure
	existing_pythonpath = process_env.get('PYTHONPATH', '')
	if existing_pythonpath:
	pythonpath_parts.append(existing_pythonpath)
	process_env["PYTHONPATH"] = os.pathsep.join(filter(None, pythonpath_parts))
	print(f"Subprocess PYTHONPATH (for Blender env): {process_env['PYTHONPATH']}")

	blender_main_lib_path = os.path.join(BLENDER_INSTALL_DIR, "lib")
	blender_python_lib_path = os.path.join(BLENDER_PYTHON_DIR, "lib")
	ld_path_parts = []
	if os.path.exists(blender_main_lib_path): ld_path_parts.append(blender_main_lib_path)
	if os.path.exists(blender_python_lib_path): ld_path_parts.append(blender_python_lib_path)
	existing_ld_path = process_env.get('LD_LIBRARY_PATH', '')
	if existing_ld_path: ld_path_parts.append(existing_ld_path)
	if ld_path_parts:
	process_env["LD_LIBRARY_PATH"] = os.pathsep.join(filter(None, ld_path_parts))
	print(f"Subprocess LD_LIBRARY_PATH: {process_env.get('LD_LIBRARY_PATH', 'Not set')}")

	if os.path.isdir(LOCAL_BIN_DIR):
	process_env["PATH"] = f"{LOCAL_BIN_DIR}{os.pathsep}{process_env.get('PATH', '')}"
	print(f"Subprocess PATH: {process_env.get('PATH', 'Not set')}")

	# --- Create a bootstrap script to set sys.path correctly inside Blender's Python ---
	bootstrap_content = f"""
	import sys
	import os
	import runpy

	# Path to the UniRig repository root
	# This directory needs to be in sys.path for 'from src...' imports to work
	unirig_repo_dir_abs = '{os.path.abspath(UNIRIG_REPO_DIR)}'

	# Path to the actual Python script Blender should run (e.g., UniRig's run.py or a diagnostic script)
	original_script_to_run = '{os.path.abspath(python_script_path)}'

	print(f"[Bootstrap] Original sys.path: {{sys.path}}", file=sys.stderr)
	print(f"[Bootstrap] Current working directory: {{os.getcwd()}}", file=sys.stderr)
	print(f"[Bootstrap] UNIRIG_REPO_DIR to add: {{unirig_repo_dir_abs}}", file=sys.stderr)
	print(f"[Bootstrap] Original script to run: {{original_script_to_run}}", file=sys.stderr)

	# Ensure the UniRig repository directory is at the beginning of sys.path
	if unirig_repo_dir_abs not in sys.path:
	sys.path.insert(0, unirig_repo_dir_abs)
	print(f"[Bootstrap] Modified sys.path: {{sys.path}}", file=sys.stderr)
	else:
	print(f"[Bootstrap] UNIRIG_REPO_DIR already in sys.path.", file=sys.stderr)

	# Blender passes arguments to the --python script after a '--' separator in the main command.
	# sys.argv for this bootstrap script will be: [bootstrap_script_path, '--'] + original_script_args
	# We need to reconstruct sys.argv for the 'original_script_to_run'.
	try:
	separator_index = sys.argv.index('--')
	args_for_original_script = sys.argv[separator_index + 1:]
	except ValueError:
	# This case should not happen if app.py always adds '--'
	args_for_original_script = []

	sys.argv = [original_script_to_run] + args_for_original_script
	print(f"[Bootstrap] Executing: {{original_script_to_run}} with sys.argv: {{sys.argv}}", file=sys.stderr)

	# Change CWD to UNIRIG_REPO_DIR just before running the script, if not already set.
	# The subprocess call in app.py should already set cwd=UNIRIG_REPO_DIR.
	# This is a safeguard or for clarity.
	if os.getcwd() != unirig_repo_dir_abs:
	print(f"[Bootstrap] Changing CWD from {{os.getcwd()}} to {{unirig_repo_dir_abs}}", file=sys.stderr)
	os.chdir(unirig_repo_dir_abs)

	# Execute the original script
	try:
	runpy.run_path(original_script_to_run, run_name='__main__')
	except Exception as e_runpy:
	print(f"[Bootstrap] Error running '{{original_script_to_run}}' with runpy: {{e_runpy}}", file=sys.stderr)
	import traceback
	traceback.print_exc(file=sys.stderr)
	raise # Re-raise the exception to ensure the calling process sees failure
	"""
	temp_bootstrap_file = None # Define outside try block for visibility in finally
	try:
	# Use a named temporary file that Blender can access
	temp_bootstrap_file = tempfile.NamedTemporaryFile(mode='w', delete=False, prefix="blender_bootstrap_", suffix=".py")
	temp_bootstrap_file.write(bootstrap_content)
	temp_bootstrap_file.close() # Close the file so Blender can open it
	bootstrap_script_path_for_blender = temp_bootstrap_file.name
	print(f"Using temporary bootstrap script: {bootstrap_script_path_for_blender}")

	cmd = [
	blender_executable_to_use,
	"--background",
	"--python", bootstrap_script_path_for_blender, # Blender executes our bootstrap script
	"--" # Separator for Blender args vs. bootstrap/target script args
	] + script_args # These args are passed to the bootstrap script, which then passes them to the target

	print(f"\n--- Running UniRig Step (via bootstrap): {step_name} ---")
	print(f"Command: {' '.join(cmd)}")

	result = subprocess.run(
	cmd,
	cwd=UNIRIG_REPO_DIR, # CWD for the Blender process
	capture_output=True,
	text=True,
	check=True,
	env=process_env,
	timeout=1800
	)
	print(f"{step_name} STDOUT:\n{result.stdout}")
	if result.stderr:
	print(f"{step_name} STDERR (Info/Warnings):\n{result.stderr}")
	stderr_lower = result.stderr.lower()
	if "error" in stderr_lower or "failed" in stderr_lower or "traceback" in stderr_lower:
	# Check for specific bootstrap errors first
	if "[bootstrap] error running" in result.stderr.lower():
	print(f"ERROR: Bootstrap script reported an error running the target script for {step_name}.")
	elif "module 'src' not found" in result.stderr.lower() or "no module named 'src'" in result.stderr.lower() : # Check after bootstrap
	print(f"ERROR: 'src' module still not found for {step_name} even after bootstrap. Check sys.path in logs.")
	else:
	print(f"WARNING: Potential error messages found in STDERR for {step_name} despite success exit code.")

	except subprocess.TimeoutExpired:
	print(f"ERROR: {step_name} timed out after 30 minutes.")
	raise gr.Error(f"Processing step '{step_name}' timed out.")
	except subprocess.CalledProcessError as e:
	print(f"ERROR during {step_name}: Subprocess failed!")
	print(f"Command: {' '.join(e.cmd)}")
	print(f"Return code: {e.returncode}")
	# Print full stdout/stderr from the error for more context
	print(f"--- {step_name} STDOUT (on error) ---:\n{e.stdout}")
	print(f"--- {step_name} STDERR (on error) ---:\n{e.stderr}")

	error_summary = e.stderr.strip().splitlines()
	last_lines = "\n".join(error_summary[-25:]) if error_summary else "No stderr output." # Increased lines
	specific_error = "Unknown error."
	if "module 'src' not found" in e.stderr.lower() or "no module named 'src'" in e.stderr.lower() :
	specific_error = "UniRig script failed to import 'src' module. Bootstrap sys.path modification might have failed. Check diagnostic logs for sys.path content within Blender's Python."
	elif "ModuleNotFoundError: No module named 'bpy'" in e.stderr:
	specific_error = "The 'bpy' module could not be imported. Check Blender Python setup."
	# ... (other specific error checks remain the same) ...
	else:
	specific_error = f"Check logs. Last error lines:\n{last_lines}"
	raise gr.Error(f"Error in UniRig '{step_name}'. {specific_error}")
	except FileNotFoundError:
	print(f"ERROR: Could not find Blender executable or script for {step_name}.")
	raise gr.Error(f"Setup error for UniRig '{step_name}'. Files not found.")
	except Exception as e_general:
	print(f"An unexpected Python exception in run_unirig_command for {step_name}: {e_general}")
	import traceback
	traceback.print_exc()
	raise gr.Error(f"Unexpected Python error during '{step_name}': {str(e_general)[:500]}")
	finally:
	# Clean up the temporary bootstrap script
	if temp_bootstrap_file and os.path.exists(temp_bootstrap_file.name):
	try:
	os.remove(temp_bootstrap_file.name)
	print(f"Cleaned up temporary bootstrap script: {temp_bootstrap_file.name}")
	except Exception as cleanup_e:
	print(f"Error cleaning up bootstrap script {temp_bootstrap_file.name}: {cleanup_e}")
	print(f"--- Finished UniRig Step (via bootstrap): {step_name} ---")


	@spaces.GPU
	def rig_glb_mesh_multistep(input_glb_file_obj):
	if not blender_executable_to_use:
	gr.Warning("System not ready: Blender executable not found.")
	return None
	if not unirig_repo_ok or not unirig_run_py_ok:
	gr.Warning("System not ready: UniRig repository or run.py script not found.")
	return None
	if not bpy_import_ok:
	gr.Warning("System warning: Initial 'bpy' import test failed. Proceeding cautiously.")

	try:
	patch_asset_py()
	except Exception as e:
	print(f"Ignoring patch error: {e}")

	if input_glb_file_obj is None:
	gr.Info("Please upload a .glb file first.")
	return None
	input_glb_path = input_glb_file_obj
	print(f"Input GLB path received: {input_glb_path}")

	if not isinstance(input_glb_path, str) or not os.path.exists(input_glb_path):
	raise gr.Error(f"Invalid input file path or file does not exist: {input_glb_path}")
	if not input_glb_path.lower().endswith(".glb"):
	raise gr.Error("Invalid file type. Please upload a .glb file.")

	# Use a single temporary directory for all processing for this run
	# This directory will be cleaned up at the end.
	# The bootstrap script will be created inside this if run_unirig_command doesn't make its own.
	# For clarity, run_unirig_command now handles its own bootstrap temp file.
	processing_temp_dir = tempfile.mkdtemp(prefix="unirig_processing_")
	print(f"Using temporary processing directory: {processing_temp_dir}")

	diagnostic_script_path = None # For cleanup in finally

	try:
	base_name = os.path.splitext(os.path.basename(input_glb_path))[0]
	abs_input_glb_path = os.path.abspath(input_glb_path)
	abs_skeleton_output_path = os.path.join(processing_temp_dir, f"{base_name}_skeleton.fbx")
	abs_skin_output_path = os.path.join(processing_temp_dir, f"{base_name}_skin.fbx")
	abs_final_rigged_glb_path = os.path.join(processing_temp_dir, f"{base_name}_rigged_final.glb")
	unirig_script_to_run = UNIRIG_RUN_PY # This is an absolute path

	print("\n--- Running Blender Python Environment Diagnostic Test (via bootstrap) ---")
	# Content of the diagnostic script remains the same
	diagnostic_script_content = f"""
	import sys
	import os
	import traceback

	print("--- Enhanced Diagnostic Info from Blender Python ---")
	print(f"Python Executable: {{sys.executable}}")
	print(f"Python Version: {{sys.version.replace('\n', ' ')}}") # Added sys.version
	print(f"Current Working Directory (inside script): {{os.getcwd()}}")

	print("\nsys.path:")
	for i, p in enumerate(sys.path): print(f" {{i}}: {{p}}")

	print("\nPYTHONPATH Environment Variable (as seen by script):")
	print(os.environ.get('PYTHONPATH', 'PYTHONPATH not set or empty'))

	print("\nLD_LIBRARY_PATH Environment Variable (as seen by script):")
	print(os.environ.get('LD_LIBRARY_PATH', 'LD_LIBRARY_PATH not set or empty'))

	print("\n--- Attempting Critical Imports ---")

	# 1. bpy
	print("\n1. Attempting 'bpy' import...")
	try:
	import bpy
	print(" SUCCESS: 'bpy' imported.")
	print(f" bpy version: {{bpy.app.version_string}}")
	except Exception as e:
	print(f" FAILED to import 'bpy': {{e}}")
	traceback.print_exc(file=sys.stderr)

	# 2. UniRig 'src' module
	print("\n2. Checking for UniRig 'src' module availability...")
	# UNIRIG_REPO_DIR from app.py's function scope will be interpolated here by Python when app.py runs
	# The f-string formatting {os.path.abspath(UNIRIG_REPO_DIR)} ensures this path is correctly embedded
	# into the script content that Blender's Python will execute.
	print(f" Expected UniRig repo parent in sys.path: '{os.path.abspath(UNIRIG_REPO_DIR)}'")
	# The following lines are now part of the script executed by Blender's Python:
	blender_script_unirig_repo_abspath = r'''{os.path.abspath(UNIRIG_REPO_DIR)}''' # app.py embeds the path string here
	found_unirig_in_blender_sys_path = any(os.path.abspath(p) == blender_script_unirig_repo_abspath for p in sys.path)
	print(f" Is UNIRIG_REPO_DIR ('{{blender_script_unirig_repo_abspath}}') actually in Blender's sys.path? {{'Yes' if found_unirig_in_blender_sys_path else 'No'}}")


	unirig_src_dir_in_cwd_exists = os.path.isdir('src')
	print(f" Is 'src' directory present in CWD ('{{os.getcwd()}}')? {'Yes' if unirig_src_dir_in_cwd_exists else 'No'}")
	if unirig_src_dir_in_cwd_exists:
	init_py_in_src_exists = os.path.isfile(os.path.join('src', '__init__.py'))
	print(f" Is 'src/__init__.py' present? {'Yes' if init_py_in_src_exists else 'No'}")

	print(" Attempting 'from src.inference.download import download'...")
	try:
	from src.inference.download import download
	print(" SUCCESS: 'from src.inference.download import download' worked.")
	except ImportError as e:
	print(f" FAILED: 'from src.inference.download import download': {{e}}")
	print(f" Make sure '{os.path.abspath(UNIRIG_REPO_DIR)}' is correctly added to sys.path by the bootstrap script executed by Blender.")
	traceback.print_exc(file=sys.stderr)
	except Exception as e:
	print(f" FAILED: 'from src.inference.download import download' with other error: {{e}}")
	traceback.print_exc(file=sys.stderr)

	# 3. flash_attn
	print("\n3. Attempting 'flash_attn' import...")
	try:
	import flash_attn
	print(" SUCCESS: 'flash_attn' imported.")
	if hasattr(flash_attn, '__version__'):
	print(f" flash_attn version: {{flash_attn.__version__}}")
	except Exception as e:
	print(f" FAILED to import 'flash_attn': {{e}}")
	print(f" Note: flash-attn is expected to be installed by setup_blender.sh from a specific wheel.")
	traceback.print_exc(file=sys.stderr)

	# 4. spconv
	print("\n4. Attempting 'spconv' import...")
	try:
	import spconv
	print(" SUCCESS: 'spconv' imported.")
	if hasattr(spconv, 'constants') and hasattr(spconv.constants, 'SPCONV_VERSION'):
	print(f" spconv version: {{spconv.constants.SPCONV_VERSION}}")
	elif hasattr(spconv, '__version__'):
	print(f" spconv version: {{spconv.__version__}}")
	except Exception as e:
	print(f" FAILED to import 'spconv': {{e}}")
	print(f" Note: spconv (e.g., spconv-cu118) should be installed via unirig_requirements.txt in Blender's Python.")
	traceback.print_exc(file=sys.stderr)

	# 5. torch with CUDA check
	print("\n5. Attempting 'torch' import and CUDA check...")
	try:
	import torch
	print(" SUCCESS: 'torch' imported.")
	print(f" torch version: {{torch.__version__}}")
	cuda_available = torch.cuda.is_available()
	print(f" torch.cuda.is_available(): {{cuda_available}}")
	if cuda_available:
	print(f" torch.version.cuda: {{torch.version.cuda}}")
	print(f" torch.cuda.get_device_name(0): {{torch.cuda.get_device_name(0)}}")
	print(f" torch.cuda.get_device_capability(0): {{torch.cuda.get_device_capability(0)}}")
	else:
	print(f" CUDA not available to PyTorch in this Blender Python environment.")
	if "cpu" in torch.__version__: # Check if it's a CPU build explicitly
	print(" PyTorch build appears to be CPU-only.")
	else:
	print(" PyTorch build is not CPU-only, but CUDA is still not available. Check drivers/runtime/setup for Blender Python env.")

	except Exception as e:
	print(f" FAILED to import 'torch' or perform CUDA checks: {{e}}")
	traceback.print_exc(file=sys.stderr)

	print("\n--- End Enhanced Diagnostic Info ---")
	"""
	# Save diagnostic script to the processing_temp_dir
	diagnostic_script_path = os.path.join(processing_temp_dir, "env_diagnostic_test.py")
	with open(diagnostic_script_path, "w") as f: f.write(diagnostic_script_content)

	run_unirig_command(diagnostic_script_path, [], "Blender Env Diagnostic") # Args are empty for diagnostic
	print("--- Finished Blender Python Environment Diagnostic Test ---\n")
	# If the above didn't raise an error, sys.path was likely fixed by bootstrap for the diagnostic.

	unirig_device_arg = "device=cpu"
	if DEVICE.type == 'cuda':
	unirig_device_arg = "device=cuda:0"
	print(f"UniRig steps will attempt to use device argument: {unirig_device_arg}")

	print("\nStarting Step 1: Predicting Skeleton...")
	skeleton_args = [
	"--config-name=skeleton_config", "with",
	f"input={abs_input_glb_path}",
	f"output={abs_skeleton_output_path}",
	unirig_device_arg
	]
	run_unirig_command(unirig_script_to_run, skeleton_args, "Skeleton Prediction")
	if not os.path.exists(abs_skeleton_output_path):
	raise gr.Error("Skeleton prediction failed. Output file not created.")
	print("Step 1: Skeleton Prediction completed.")

	print("\nStarting Step 2: Predicting Skinning Weights...")
	skin_args = [
	"--config-name=skin_config", "with",
	f"input={abs_skeleton_output_path}",
	f"output={abs_skin_output_path}",
	unirig_device_arg
	]
	run_unirig_command(unirig_script_to_run, skin_args, "Skinning Prediction")
	if not os.path.exists(abs_skin_output_path):
	raise gr.Error("Skinning prediction failed. Output file not created.")
	print("Step 2: Skinning Prediction completed.")

	print("\nStarting Step 3: Merging Results...")
	merge_args = [
	"--config-name=merge_config", "with",
	f"source_path={abs_skin_output_path}",
	f"target_path={abs_input_glb_path}",
	f"output_path={abs_final_rigged_glb_path}",
	"mode=skin",
	unirig_device_arg
	]
	run_unirig_command(unirig_script_to_run, merge_args, "Merging Results")
	if not os.path.exists(abs_final_rigged_glb_path):
	raise gr.Error("Merging process failed. Final rigged GLB file not created.")
	print("Step 3: Merging completed.")

	print(f"Successfully generated rigged model: {abs_final_rigged_glb_path}")
	return gr.update(value=abs_final_rigged_glb_path)
	except gr.Error as e:
	print(f"A Gradio Error occurred: {e}")
	# No need to re-raise, run_unirig_command already does or it's an explicit raise here.
	# Let Gradio handle displaying it.
	raise # Re-raise to ensure Gradio UI shows the error
	except Exception as e:
	print(f"An unexpected error occurred in rig_glb_mesh_multistep: {e}")
	import traceback; traceback.print_exc()
	raise gr.Error(f"An unexpected error occurred: {str(e)[:500]}. Check logs.")
	finally:
	# Cleanup diagnostic script if it was created
	if diagnostic_script_path and os.path.exists(diagnostic_script_path):
	try:
	os.remove(diagnostic_script_path)
	print(f"Cleaned up diagnostic script: {diagnostic_script_path}")
	except Exception as cleanup_e:
	print(f"Error cleaning up diagnostic script {diagnostic_script_path}: {cleanup_e}")
	# Cleanup the main processing directory
	if os.path.exists(processing_temp_dir):
	try:
	shutil.rmtree(processing_temp_dir)
	print(f"Cleaned up temp dir: {processing_temp_dir}")
	except Exception as cleanup_e:
	print(f"Error cleaning up temp dir {processing_temp_dir}: {cleanup_e}")

	theme = gr.themes.Soft(
	primary_hue=gr.themes.colors.sky,
	secondary_hue=gr.themes.colors.blue,
	neutral_hue=gr.themes.colors.slate,
	font=[gr.themes.GoogleFont("Inter"), "ui-sans-serif", "system-ui", "sans-serif"],
	)

	startup_error_message = None
	if not blender_executable_to_use:
	startup_error_message = (f"CRITICAL STARTUP ERROR: Blender executable not located. Expected at {BLENDER_EXEC}")
	elif not unirig_repo_ok:
	startup_error_message = (f"CRITICAL STARTUP ERROR: UniRig repository not found at {UNIRIG_REPO_DIR}.")
	elif not unirig_run_py_ok:
	startup_error_message = (f"CRITICAL STARTUP ERROR: UniRig run.py not found at {UNIRIG_RUN_PY}.")

	if startup_error_message:
	print(startup_error_message)
	with gr.Blocks(theme=theme) as iface:
	gr.Markdown(f"# Application Startup Error\n\n{startup_error_message}\n\nPlease check Space logs.")
	else:
	with gr.Blocks(theme=theme) as iface:
	gr.Markdown(
	f"""
	# UniRig Auto-Rigger (Blender {BLENDER_PYTHON_VERSION_DIR} / Python {BLENDER_PYTHON_VERSION})
	Upload a `.glb` mesh. UniRig predicts skeleton and skinning weights via Blender's Python.
	* App Python: `{sys.version.split()[0]}`, UniRig (Blender): `{BLENDER_PYTHON_VERSION}`.
	* Device: {DEVICE.type.upper()}.
	* Blender: `{blender_executable_to_use}`.
	* UniRig Source: [https://github.com/VAST-AI-Research/UniRig](https://github.com/VAST-AI-Research/UniRig)
	"""
	)
	with gr.Row():
	with gr.Column(scale=1):
	input_model = gr.File(
	label="Upload .glb Mesh File",
	type="filepath",
	file_types=[".glb"]
	)
	submit_button = gr.Button("Rig Model", variant="primary")
	with gr.Column(scale=2):
	output_model = gr.Model3D(
	label="Rigged 3D Model (.glb)",
	clear_color=[0.8, 0.8, 0.8, 1.0],
	)
	submit_button.click(
	fn=rig_glb_mesh_multistep,
	inputs=[input_model],
	outputs=[output_model]
	)

	if __name__ == "__main__":
	if 'iface' in locals():
	print("Launching Gradio interface...")
	iface.launch(share=False, ssr_mode=False)
	else:
	print("ERROR: Gradio interface not created due to startup errors. Check logs.")