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"""
Train tab for Video Model Studio UI
"""
import gradio as gr
import logging
from typing import Dict, Any, List, Optional, Tuple
from pathlib import Path
from .base_tab import BaseTab
from ..config import TRAINING_PRESETS, MODEL_TYPES, ASK_USER_TO_DUPLICATE_SPACE, SMALL_TRAINING_BUCKETS
from ..utils import TrainingLogParser
logger = logging.getLogger(__name__)
class TrainTab(BaseTab):
"""Train tab for model training"""
def __init__(self, app_state):
super().__init__(app_state)
self.id = "train_tab"
self.title = "4️⃣ Train"
def create(self, parent=None) -> gr.TabItem:
"""Create the Train tab UI components"""
with gr.TabItem(self.title, id=self.id) as tab:
with gr.Row():
with gr.Column():
with gr.Row():
self.components["train_title"] = gr.Markdown("## 0 files available for training (0 bytes)")
with gr.Row():
with gr.Column():
self.components["training_preset"] = gr.Dropdown(
choices=list(TRAINING_PRESETS.keys()),
label="Training Preset",
value=list(TRAINING_PRESETS.keys())[0]
)
self.components["preset_info"] = gr.Markdown()
with gr.Row():
with gr.Column():
self.components["model_type"] = gr.Dropdown(
choices=list(MODEL_TYPES.keys()),
label="Model Type",
value=list(MODEL_TYPES.keys())[0]
)
self.components["model_info"] = gr.Markdown(
value=self.get_model_info(list(MODEL_TYPES.keys())[0])
)
with gr.Row():
self.components["lora_rank"] = gr.Dropdown(
label="LoRA Rank",
choices=["16", "32", "64", "128", "256", "512", "1024"],
value="128",
type="value"
)
self.components["lora_alpha"] = gr.Dropdown(
label="LoRA Alpha",
choices=["16", "32", "64", "128", "256", "512", "1024"],
value="128",
type="value"
)
with gr.Row():
self.components["num_epochs"] = gr.Number(
label="Number of Epochs",
value=70,
minimum=1,
precision=0
)
self.components["batch_size"] = gr.Number(
label="Batch Size",
value=1,
minimum=1,
precision=0
)
with gr.Row():
self.components["learning_rate"] = gr.Number(
label="Learning Rate",
value=2e-5,
minimum=1e-7
)
self.components["save_iterations"] = gr.Number(
label="Save checkpoint every N iterations",
value=500,
minimum=50,
precision=0,
info="Model will be saved periodically after these many steps"
)
with gr.Column():
with gr.Row():
self.components["start_btn"] = gr.Button(
"Start Training",
variant="primary",
interactive=not ASK_USER_TO_DUPLICATE_SPACE
)
self.components["pause_resume_btn"] = gr.Button(
"Resume Training",
variant="secondary",
interactive=False
)
self.components["stop_btn"] = gr.Button(
"Stop Training",
variant="stop",
interactive=False
)
with gr.Row():
with gr.Column():
self.components["status_box"] = gr.Textbox(
label="Training Status",
interactive=False,
lines=4
)
with gr.Accordion("See training logs"):
self.components["log_box"] = gr.TextArea(
label="Finetrainers output (see HF Space logs for more details)",
interactive=False,
lines=40,
max_lines=200,
autoscroll=True
)
return tab
def connect_events(self) -> None:
"""Connect event handlers to UI components"""
# Model type change event
def update_model_info(model):
params = self.get_default_params(MODEL_TYPES[model])
info = self.get_model_info(MODEL_TYPES[model])
return {
self.components["model_info"]: info,
self.components["num_epochs"]: params["num_epochs"],
self.components["batch_size"]: params["batch_size"],
self.components["learning_rate"]: params["learning_rate"],
self.components["save_iterations"]: params["save_iterations"]
}
self.components["model_type"].change(
fn=lambda v: self.app.update_ui_state(model_type=v),
inputs=[self.components["model_type"]],
outputs=[]
).then(
fn=update_model_info,
inputs=[self.components["model_type"]],
outputs=[
self.components["model_info"],
self.components["num_epochs"],
self.components["batch_size"],
self.components["learning_rate"],
self.components["save_iterations"]
]
)
# Training parameters change events
self.components["lora_rank"].change(
fn=lambda v: self.app.update_ui_state(lora_rank=v),
inputs=[self.components["lora_rank"]],
outputs=[]
)
self.components["lora_alpha"].change(
fn=lambda v: self.app.update_ui_state(lora_alpha=v),
inputs=[self.components["lora_alpha"]],
outputs=[]
)
self.components["num_epochs"].change(
fn=lambda v: self.app.update_ui_state(num_epochs=v),
inputs=[self.components["num_epochs"]],
outputs=[]
)
self.components["batch_size"].change(
fn=lambda v: self.app.update_ui_state(batch_size=v),
inputs=[self.components["batch_size"]],
outputs=[]
)
self.components["learning_rate"].change(
fn=lambda v: self.app.update_ui_state(learning_rate=v),
inputs=[self.components["learning_rate"]],
outputs=[]
)
self.components["save_iterations"].change(
fn=lambda v: self.app.update_ui_state(save_iterations=v),
inputs=[self.components["save_iterations"]],
outputs=[]
)
# Training preset change event
self.components["training_preset"].change(
fn=lambda v: self.app.update_ui_state(training_preset=v),
inputs=[self.components["training_preset"]],
outputs=[]
).then(
fn=self.update_training_params,
inputs=[self.components["training_preset"]],
outputs=[
self.components["model_type"],
self.components["lora_rank"],
self.components["lora_alpha"],
self.components["num_epochs"],
self.components["batch_size"],
self.components["learning_rate"],
self.components["save_iterations"],
self.components["preset_info"]
]
)
# Training control events
self.components["start_btn"].click(
fn=self.handle_training_start,
inputs=[
self.components["training_preset"],
self.components["model_type"],
self.components["lora_rank"],
self.components["lora_alpha"],
self.components["num_epochs"],
self.components["batch_size"],
self.components["learning_rate"],
self.components["save_iterations"],
self.app.tabs["manage_tab"].components["repo_id"]
],
outputs=[
self.components["status_box"],
self.components["log_box"]
]
).success(
fn=self.get_latest_status_message_logs_and_button_labels,
outputs=[
self.components["status_box"],
self.components["log_box"],
self.components["start_btn"],
self.components["stop_btn"],
self.components["pause_resume_btn"]
]
)
self.components["pause_resume_btn"].click(
fn=self.handle_pause_resume,
outputs=[
self.components["status_box"],
self.components["log_box"],
self.components["start_btn"],
self.components["stop_btn"],
self.components["pause_resume_btn"]
]
)
self.components["stop_btn"].click(
fn=self.handle_stop,
outputs=[
self.components["status_box"],
self.components["log_box"],
self.components["start_btn"],
self.components["stop_btn"],
self.components["pause_resume_btn"]
]
)
def handle_training_start(self, preset, model_type, *args):
"""Handle training start with proper log parser reset"""
# Safely reset log parser if it exists
if hasattr(self.app, 'log_parser') and self.app.log_parser is not None:
self.app.log_parser.reset()
else:
logger.warning("Log parser not initialized, creating a new one")
from ..utils import TrainingLogParser
self.app.log_parser = TrainingLogParser()
# Start training
return self.app.trainer.start_training(
MODEL_TYPES[model_type],
*args,
preset_name=preset
)
def get_model_info(self, model_type: str) -> str:
"""Get information about the selected model type"""
if model_type == "hunyuan_video":
return """### HunyuanVideo (LoRA)
- Required VRAM: ~48GB minimum
- Recommended batch size: 1-2
- Typical training time: 2-4 hours
- Default resolution: 49x512x768
- Default LoRA rank: 128 (~600 MB)"""
elif model_type == "ltx_video":
return """### LTX-Video (LoRA)
- Required VRAM: ~18GB minimum
- Recommended batch size: 1-4
- Typical training time: 1-3 hours
- Default resolution: 49x512x768
- Default LoRA rank: 128"""
return ""
def get_default_params(self, model_type: str) -> Dict[str, Any]:
"""Get default training parameters for model type"""
if model_type == "hunyuan_video":
return {
"num_epochs": 70,
"batch_size": 1,
"learning_rate": 2e-5,
"save_iterations": 500,
"video_resolution_buckets": SMALL_TRAINING_BUCKETS,
"video_reshape_mode": "center",
"caption_dropout_p": 0.05,
"gradient_accumulation_steps": 1,
"rank": 128,
"lora_alpha": 128
}
else: # ltx_video
return {
"num_epochs": 70,
"batch_size": 1,
"learning_rate": 3e-5,
"save_iterations": 500,
"video_resolution_buckets": SMALL_TRAINING_BUCKETS,
"video_reshape_mode": "center",
"caption_dropout_p": 0.05,
"gradient_accumulation_steps": 4,
"rank": 128,
"lora_alpha": 128
}
def update_training_params(self, preset_name: str) -> Tuple:
"""Update UI components based on selected preset while preserving custom settings"""
preset = TRAINING_PRESETS[preset_name]
# Load current UI state to check if user has customized values
current_state = self.app.load_ui_values()
# Find the display name that maps to our model type
model_display_name = next(
key for key, value in MODEL_TYPES.items()
if value == preset["model_type"]
)
# Get preset description for display
description = preset.get("description", "")
# Get max values from buckets
buckets = preset["training_buckets"]
max_frames = max(frames for frames, _, _ in buckets)
max_height = max(height for _, height, _ in buckets)
max_width = max(width for _, _, width in buckets)
bucket_info = f"\nMaximum video size: {max_frames} frames at {max_width}x{max_height} resolution"
info_text = f"{description}{bucket_info}"
# Return values in the same order as the output components
# Use preset defaults but preserve user-modified values if they exist
lora_rank_val = current_state.get("lora_rank") if current_state.get("lora_rank") != preset.get("lora_rank", "128") else preset["lora_rank"]
lora_alpha_val = current_state.get("lora_alpha") if current_state.get("lora_alpha") != preset.get("lora_alpha", "128") else preset["lora_alpha"]
num_epochs_val = current_state.get("num_epochs") if current_state.get("num_epochs") != preset.get("num_epochs", 70) else preset["num_epochs"]
batch_size_val = current_state.get("batch_size") if current_state.get("batch_size") != preset.get("batch_size", 1) else preset["batch_size"]
learning_rate_val = current_state.get("learning_rate") if current_state.get("learning_rate") != preset.get("learning_rate", 3e-5) else preset["learning_rate"]
save_iterations_val = current_state.get("save_iterations") if current_state.get("save_iterations") != preset.get("save_iterations", 500) else preset["save_iterations"]
return (
model_display_name,
lora_rank_val,
lora_alpha_val,
num_epochs_val,
batch_size_val,
learning_rate_val,
save_iterations_val,
info_text
)
def update_training_ui(self, training_state: Dict[str, Any]):
"""Update UI components based on training state"""
updates = {}
# Update status box with high-level information
status_text = []
if training_state["status"] != "idle":
status_text.extend([
f"Status: {training_state['status']}",
f"Progress: {training_state['progress']}",
f"Step: {training_state['current_step']}/{training_state['total_steps']}",
# Epoch information
# there is an issue with how epoch is reported because we display:
# Progress: 96.9%, Step: 872/900, Epoch: 12/50
# we should probably just show the steps
#f"Epoch: {training_state['current_epoch']}/{training_state['total_epochs']}",
f"Time elapsed: {training_state['elapsed']}",
f"Estimated remaining: {training_state['remaining']}",
"",
f"Current loss: {training_state['step_loss']}",
f"Learning rate: {training_state['learning_rate']}",
f"Gradient norm: {training_state['grad_norm']}",
f"Memory usage: {training_state['memory']}"
])
if training_state["error_message"]:
status_text.append(f"\nError: {training_state['error_message']}")
updates["status_box"] = "\n".join(status_text)
# Update button states
updates["start_btn"] = gr.Button(
"Start training",
interactive=(training_state["status"] in ["idle", "completed", "error", "stopped"]),
variant="primary" if training_state["status"] == "idle" else "secondary"
)
updates["stop_btn"] = gr.Button(
"Stop training",
interactive=(training_state["status"] in ["training", "initializing"]),
variant="stop"
)
return updates
def handle_pause_resume(self):
status, _, _ = self.get_latest_status_message_and_logs()
if status == "paused":
self.app.trainer.resume_training()
else:
self.app.trainer.pause_training()
return self.get_latest_status_message_logs_and_button_labels()
def handle_stop(self):
self.app.trainer.stop_training()
return self.get_latest_status_message_logs_and_button_labels()
def get_latest_status_message_and_logs(self) -> Tuple[str, str, str]:
"""Get latest status message, log content, and status code in a safer way"""
state = self.app.trainer.get_status()
logs = self.app.trainer.get_logs()
# Ensure log parser is initialized
if not hasattr(self.app, 'log_parser') or self.app.log_parser is None:
from ..utils import TrainingLogParser
self.app.log_parser = TrainingLogParser()
logger.info("Initialized missing log parser")
# Parse new log lines
if logs:
last_state = None
for line in logs.splitlines():
try:
state_update = self.app.log_parser.parse_line(line)
if state_update:
last_state = state_update
except Exception as e:
logger.error(f"Error parsing log line: {str(e)}")
continue
if last_state:
ui_updates = self.update_training_ui(last_state)
state["message"] = ui_updates.get("status_box", state["message"])
# Parse status for training state
if "completed" in state["message"].lower():
state["status"] = "completed"
return (state["status"], state["message"], logs)
def get_latest_status_message_logs_and_button_labels(self) -> Tuple[str, str, Any, Any, Any]:
status, message, logs = self.get_latest_status_message_and_logs()
return (
message,
logs,
*self.update_training_buttons(status).values()
)
def update_training_buttons(self, status: str) -> Dict:
"""Update training control buttons based on state"""
is_training = status in ["training", "initializing"]
is_paused = status == "paused"
is_completed = status in ["completed", "error", "stopped"]
return {
"start_btn": gr.Button(
interactive=not is_training and not is_paused,
variant="primary" if not is_training else "secondary",
),
"stop_btn": gr.Button(
interactive=is_training or is_paused,
variant="stop",
),
"pause_resume_btn": gr.Button(
value="Resume Training" if is_paused else "Pause Training",
interactive=(is_training or is_paused) and not is_completed,
variant="secondary",
)
} |