# v1: initial release # v2: add open and save folder icons # v3: Add new Utilities tab for Dreambooth folder preparation # v3.1: Adding captionning of images to utilities import gradio as gr import json import math import os import subprocess import psutil import pathlib import argparse from datetime import datetime from library.common_gui import ( get_file_path, get_any_file_path, get_saveasfile_path, color_aug_changed, save_inference_file, run_cmd_advanced_training, run_cmd_training, update_my_data, check_if_model_exist, output_message, verify_image_folder_pattern, SaveConfigFile, save_to_file, check_duplicate_filenames ) from library.class_configuration_file import ConfigurationFile from library.class_source_model import SourceModel from library.class_basic_training import BasicTraining from library.class_advanced_training import AdvancedTraining from library.class_sdxl_parameters import SDXLParameters from library.class_folders import Folders from library.class_command_executor import CommandExecutor from library.tensorboard_gui import ( gradio_tensorboard, start_tensorboard, stop_tensorboard, ) from library.utilities import utilities_tab from library.class_sample_images import SampleImages, run_cmd_sample from library.class_lora_tab import LoRATools from library.custom_logging import setup_logging # Set up logging log = setup_logging() # Setup command executor executor = CommandExecutor() button_run = gr.Button('Start training', variant='primary') button_stop_training = gr.Button('Stop training') document_symbol = '\U0001F4C4' # 📄 def save_configuration( save_as, file_path, pretrained_model_name_or_path, v2, v_parameterization, sdxl, logging_dir, train_data_dir, reg_data_dir, output_dir, max_resolution, learning_rate, lr_scheduler, lr_warmup, train_batch_size, epoch, save_every_n_epochs, mixed_precision, save_precision, seed, num_cpu_threads_per_process, cache_latents, cache_latents_to_disk, caption_extension, enable_bucket, gradient_checkpointing, full_fp16, no_token_padding, stop_text_encoder_training, min_bucket_reso, max_bucket_reso, # use_8bit_adam, xformers, save_model_as, shuffle_caption, save_state, resume, prior_loss_weight, text_encoder_lr, unet_lr, network_dim, lora_network_weights, dim_from_weights, color_aug, flip_aug, clip_skip, gradient_accumulation_steps, mem_eff_attn, output_name, model_list, max_token_length, max_train_epochs, max_data_loader_n_workers, network_alpha, training_comment, keep_tokens, lr_scheduler_num_cycles, lr_scheduler_power, persistent_data_loader_workers, bucket_no_upscale, random_crop, bucket_reso_steps, caption_dropout_every_n_epochs, caption_dropout_rate, optimizer, optimizer_args, noise_offset_type, noise_offset, adaptive_noise_scale, multires_noise_iterations, multires_noise_discount, LoRA_type, factor, use_cp, decompose_both, train_on_input, conv_dim, conv_alpha, sample_every_n_steps, sample_every_n_epochs, sample_sampler, sample_prompts, additional_parameters, vae_batch_size, min_snr_gamma, down_lr_weight, mid_lr_weight, up_lr_weight, block_lr_zero_threshold, block_dims, block_alphas, conv_block_dims, conv_block_alphas, weighted_captions, unit, save_every_n_steps, save_last_n_steps, save_last_n_steps_state, use_wandb, wandb_api_key, scale_v_pred_loss_like_noise_pred, scale_weight_norms, network_dropout, rank_dropout, module_dropout, sdxl_cache_text_encoder_outputs, sdxl_no_half_vae, full_bf16, min_timestep, max_timestep, ): # Get list of function parameters and values parameters = list(locals().items()) original_file_path = file_path save_as_bool = True if save_as.get('label') == 'True' else False if save_as_bool: log.info('Save as...') file_path = get_saveasfile_path(file_path) else: log.info('Save...') if file_path == None or file_path == '': file_path = get_saveasfile_path(file_path) # log.info(file_path) if file_path == None or file_path == '': return original_file_path # In case a file_path was provided and the user decide to cancel the open action # Extract the destination directory from the file path destination_directory = os.path.dirname(file_path) # Create the destination directory if it doesn't exist if not os.path.exists(destination_directory): os.makedirs(destination_directory) SaveConfigFile(parameters=parameters, file_path=file_path, exclusion=['file_path', 'save_as']) return file_path def open_configuration( ask_for_file, apply_preset, file_path, pretrained_model_name_or_path, v2, v_parameterization, sdxl, logging_dir, train_data_dir, reg_data_dir, output_dir, max_resolution, learning_rate, lr_scheduler, lr_warmup, train_batch_size, epoch, save_every_n_epochs, mixed_precision, save_precision, seed, num_cpu_threads_per_process, cache_latents, cache_latents_to_disk, caption_extension, enable_bucket, gradient_checkpointing, full_fp16, no_token_padding, stop_text_encoder_training, min_bucket_reso, max_bucket_reso, # use_8bit_adam, xformers, save_model_as, shuffle_caption, save_state, resume, prior_loss_weight, text_encoder_lr, unet_lr, network_dim, lora_network_weights, dim_from_weights, color_aug, flip_aug, clip_skip, gradient_accumulation_steps, mem_eff_attn, output_name, model_list, max_token_length, max_train_epochs, max_data_loader_n_workers, network_alpha, training_comment, keep_tokens, lr_scheduler_num_cycles, lr_scheduler_power, persistent_data_loader_workers, bucket_no_upscale, random_crop, bucket_reso_steps, caption_dropout_every_n_epochs, caption_dropout_rate, optimizer, optimizer_args, noise_offset_type, noise_offset, adaptive_noise_scale, multires_noise_iterations, multires_noise_discount, LoRA_type, factor, use_cp, decompose_both, train_on_input, conv_dim, conv_alpha, sample_every_n_steps, sample_every_n_epochs, sample_sampler, sample_prompts, additional_parameters, vae_batch_size, min_snr_gamma, down_lr_weight, mid_lr_weight, up_lr_weight, block_lr_zero_threshold, block_dims, block_alphas, conv_block_dims, conv_block_alphas, weighted_captions, unit, save_every_n_steps, save_last_n_steps, save_last_n_steps_state, use_wandb, wandb_api_key, scale_v_pred_loss_like_noise_pred, scale_weight_norms, network_dropout, rank_dropout, module_dropout, sdxl_cache_text_encoder_outputs, sdxl_no_half_vae, full_bf16, min_timestep, max_timestep, training_preset, ): # Get list of function parameters and values parameters = list(locals().items()) ask_for_file = True if ask_for_file.get('label') == 'True' else False apply_preset = True if apply_preset.get('label') == 'True' else False # Check if we are "applying" a preset or a config if apply_preset: log.info(f'Applying preset {training_preset}...') file_path = f'./presets/lora/{training_preset}.json' else: # If not applying a preset, set the `training_preset` field to an empty string # Find the index of the `training_preset` parameter using the `index()` method training_preset_index = parameters.index( ('training_preset', training_preset) ) # Update the value of `training_preset` by directly assigning an empty string value parameters[training_preset_index] = ('training_preset', '') original_file_path = file_path if ask_for_file: file_path = get_file_path(file_path) if not file_path == '' and not file_path == None: # Load variables from JSON file with open(file_path, 'r') as f: my_data = json.load(f) log.info('Loading config...') # Update values to fix deprecated options, set appropriate optimizer if it is set to True, etc. my_data = update_my_data(my_data) else: file_path = original_file_path # In case a file_path was provided and the user decides to cancel the open action my_data = {} values = [file_path] for key, value in parameters: # Set the value in the dictionary to the corresponding value in `my_data`, or the default value if not found if not key in ['ask_for_file', 'apply_preset', 'file_path']: json_value = my_data.get(key) # if isinstance(json_value, str) and json_value == '': # # If the JSON value is an empty string, use the default value # values.append(value) # else: # Otherwise, use the JSON value if not None, otherwise use the default value values.append(json_value if json_value is not None else value) # This next section is about making the LoCon parameters visible if LoRA_type = 'Standard' if my_data.get('LoRA_type', 'Standard') == 'LoCon': values.append(gr.Row.update(visible=True)) else: values.append(gr.Row.update(visible=False)) return tuple(values) def train_model( headless, print_only, pretrained_model_name_or_path, v2, v_parameterization, sdxl, logging_dir, train_data_dir, reg_data_dir, output_dir, max_resolution, learning_rate, lr_scheduler, lr_warmup, train_batch_size, epoch, save_every_n_epochs, mixed_precision, save_precision, seed, num_cpu_threads_per_process, cache_latents, cache_latents_to_disk, caption_extension, enable_bucket, gradient_checkpointing, full_fp16, no_token_padding, stop_text_encoder_training_pct, min_bucket_reso, max_bucket_reso, # use_8bit_adam, xformers, save_model_as, shuffle_caption, save_state, resume, prior_loss_weight, text_encoder_lr, unet_lr, network_dim, lora_network_weights, dim_from_weights, color_aug, flip_aug, clip_skip, gradient_accumulation_steps, mem_eff_attn, output_name, model_list, # Keep this. Yes, it is unused here but required given the common list used max_token_length, max_train_epochs, max_data_loader_n_workers, network_alpha, training_comment, keep_tokens, lr_scheduler_num_cycles, lr_scheduler_power, persistent_data_loader_workers, bucket_no_upscale, random_crop, bucket_reso_steps, caption_dropout_every_n_epochs, caption_dropout_rate, optimizer, optimizer_args, noise_offset_type, noise_offset, adaptive_noise_scale, multires_noise_iterations, multires_noise_discount, LoRA_type, factor, use_cp, decompose_both, train_on_input, conv_dim, conv_alpha, sample_every_n_steps, sample_every_n_epochs, sample_sampler, sample_prompts, additional_parameters, vae_batch_size, min_snr_gamma, down_lr_weight, mid_lr_weight, up_lr_weight, block_lr_zero_threshold, block_dims, block_alphas, conv_block_dims, conv_block_alphas, weighted_captions, unit, save_every_n_steps, save_last_n_steps, save_last_n_steps_state, use_wandb, wandb_api_key, scale_v_pred_loss_like_noise_pred, scale_weight_norms, network_dropout, rank_dropout, module_dropout, sdxl_cache_text_encoder_outputs, sdxl_no_half_vae, full_bf16, min_timestep, max_timestep, ): # Get list of function parameters and values parameters = list(locals().items()) global command_running print_only_bool = True if print_only.get('label') == 'True' else False log.info(f'Start training LoRA {LoRA_type} ...') headless_bool = True if headless.get('label') == 'True' else False if pretrained_model_name_or_path == '': output_message( msg='Source model information is missing', headless=headless_bool ) return if train_data_dir == '': output_message( msg='Image folder path is missing', headless=headless_bool ) return # Check if there are files with the same filename but different image extension... warn the user if it is the case. check_duplicate_filenames(train_data_dir) if not os.path.exists(train_data_dir): output_message( msg='Image folder does not exist', headless=headless_bool ) return if not verify_image_folder_pattern(train_data_dir): return if reg_data_dir != '': if not os.path.exists(reg_data_dir): output_message( msg='Regularisation folder does not exist', headless=headless_bool, ) return if not verify_image_folder_pattern(reg_data_dir): return if output_dir == '': output_message( msg='Output folder path is missing', headless=headless_bool ) return if int(bucket_reso_steps) < 1: output_message( msg='Bucket resolution steps need to be greater than 0', headless=headless_bool, ) return if noise_offset == '': noise_offset = 0 if float(noise_offset) > 1 or float(noise_offset) < 0: output_message( msg='Noise offset need to be a value between 0 and 1', headless=headless_bool, ) return # if float(noise_offset) > 0 and ( # multires_noise_iterations > 0 or multires_noise_discount > 0 # ): # output_message( # msg="noise offset and multires_noise can't be set at the same time. Only use one or the other.", # title='Error', # headless=headless_bool, # ) # return if not os.path.exists(output_dir): os.makedirs(output_dir) if stop_text_encoder_training_pct > 0: output_message( msg='Output "stop text encoder training" is not yet supported. Ignoring', headless=headless_bool, ) stop_text_encoder_training_pct = 0 if check_if_model_exist( output_name, output_dir, save_model_as, headless=headless_bool ): return # if optimizer == 'Adafactor' and lr_warmup != '0': # output_message( # msg="Warning: lr_scheduler is set to 'Adafactor', so 'LR warmup (% of steps)' will be considered 0.", # title='Warning', # headless=headless_bool, # ) # lr_warmup = '0' # If string is empty set string to 0. if text_encoder_lr == '': text_encoder_lr = 0 if unet_lr == '': unet_lr = 0 # Get a list of all subfolders in train_data_dir subfolders = [ f for f in os.listdir(train_data_dir) if os.path.isdir(os.path.join(train_data_dir, f)) ] total_steps = 0 # Loop through each subfolder and extract the number of repeats for folder in subfolders: try: # Extract the number of repeats from the folder name repeats = int(folder.split('_')[0]) # Count the number of images in the folder num_images = len( [ f for f, lower_f in ( (file, file.lower()) for file in os.listdir( os.path.join(train_data_dir, folder) ) ) if lower_f.endswith(('.jpg', '.jpeg', '.png', '.webp')) ] ) log.info(f'Folder {folder}: {num_images} images found') # Calculate the total number of steps for this folder steps = repeats * num_images # log.info the result log.info(f'Folder {folder}: {steps} steps') total_steps += steps except ValueError: # Handle the case where the folder name does not contain an underscore log.info( f"Error: '{folder}' does not contain an underscore, skipping..." ) if reg_data_dir == '': reg_factor = 1 else: log.warning( 'Regularisation images are used... Will double the number of steps required...' ) reg_factor = 2 log.info(f'Total steps: {total_steps}') log.info(f'Train batch size: {train_batch_size}') log.info(f'Gradient accumulation steps: {gradient_accumulation_steps}') log.info(f'Epoch: {epoch}') log.info(f'Regulatization factor: {reg_factor}') # calculate max_train_steps max_train_steps = int( math.ceil( float(total_steps) / int(train_batch_size) / int(gradient_accumulation_steps) * int(epoch) * int(reg_factor) ) ) log.info( f'max_train_steps ({total_steps} / {train_batch_size} / {gradient_accumulation_steps} * {epoch} * {reg_factor}) = {max_train_steps}' ) # calculate stop encoder training if stop_text_encoder_training_pct == None: stop_text_encoder_training = 0 else: stop_text_encoder_training = math.ceil( float(max_train_steps) / 100 * int(stop_text_encoder_training_pct) ) log.info(f'stop_text_encoder_training = {stop_text_encoder_training}') lr_warmup_steps = round(float(int(lr_warmup) * int(max_train_steps) / 100)) log.info(f'lr_warmup_steps = {lr_warmup_steps}') run_cmd = f'accelerate launch --num_cpu_threads_per_process={num_cpu_threads_per_process}' if sdxl: run_cmd += f' "./sdxl_train_network.py"' else: run_cmd += f' "./train_network.py"' if v2: run_cmd += ' --v2' if v_parameterization: run_cmd += ' --v_parameterization' if enable_bucket: run_cmd += f' --enable_bucket --min_bucket_reso={min_bucket_reso} --max_bucket_reso={max_bucket_reso}' if no_token_padding: run_cmd += ' --no_token_padding' if weighted_captions: run_cmd += ' --weighted_captions' run_cmd += ( f' --pretrained_model_name_or_path="{pretrained_model_name_or_path}"' ) run_cmd += f' --train_data_dir="{train_data_dir}"' if len(reg_data_dir): run_cmd += f' --reg_data_dir="{reg_data_dir}"' run_cmd += f' --resolution="{max_resolution}"' run_cmd += f' --output_dir="{output_dir}"' if not logging_dir == '': run_cmd += f' --logging_dir="{logging_dir}"' run_cmd += f' --network_alpha="{network_alpha}"' if not training_comment == '': run_cmd += f' --training_comment="{training_comment}"' if not stop_text_encoder_training == 0: run_cmd += ( f' --stop_text_encoder_training={stop_text_encoder_training}' ) if not save_model_as == 'same as source model': run_cmd += f' --save_model_as={save_model_as}' if not float(prior_loss_weight) == 1.0: run_cmd += f' --prior_loss_weight={prior_loss_weight}' if LoRA_type == 'LoCon' or LoRA_type == 'LyCORIS/LoCon': try: import lycoris except ModuleNotFoundError: log.info( "\033[1;31mError:\033[0m The required module 'lycoris_lora' is not installed. Please install by running \033[33mupgrade.ps1\033[0m before running this program." ) return run_cmd += f' --network_module=lycoris.kohya' run_cmd += f' --network_args "conv_dim={conv_dim}" "conv_alpha={conv_alpha}" "algo=lora"' if LoRA_type == 'LyCORIS/LoHa': try: import lycoris except ModuleNotFoundError: log.info( "\033[1;31mError:\033[0m The required module 'lycoris_lora' is not installed. Please install by running \033[33mupgrade.ps1\033[0m before running this program." ) return run_cmd += f' --network_module=lycoris.kohya' run_cmd += f' --network_args "conv_dim={conv_dim}" "conv_alpha={conv_alpha}" "use_cp={use_cp}" "algo=loha"' # This is a hack to fix a train_network LoHA logic issue if not network_dropout > 0.0: run_cmd += f' --network_dropout="{network_dropout}"' if LoRA_type == 'LyCORIS/iA3': try: import lycoris except ModuleNotFoundError: log.info( "\033[1;31mError:\033[0m The required module 'lycoris_lora' is not installed. Please install by running \033[33mupgrade.ps1\033[0m before running this program." ) return run_cmd += f' --network_module=lycoris.kohya' run_cmd += f' --network_args "conv_dim={conv_dim}" "conv_alpha={conv_alpha}" "train_on_input={train_on_input}" "algo=ia3"' # This is a hack to fix a train_network LoHA logic issue if not network_dropout > 0.0: run_cmd += f' --network_dropout="{network_dropout}"' if LoRA_type == 'LyCORIS/DyLoRA': try: import lycoris except ModuleNotFoundError: log.info( "\033[1;31mError:\033[0m The required module 'lycoris_lora' is not installed. Please install by running \033[33mupgrade.ps1\033[0m before running this program." ) return run_cmd += f' --network_module=lycoris.kohya' run_cmd += f' --network_args "conv_dim={conv_dim}" "conv_alpha={conv_alpha}" "use_cp={use_cp}" "block_size={unit}" "algo=dylora"' # This is a hack to fix a train_network LoHA logic issue if not network_dropout > 0.0: run_cmd += f' --network_dropout="{network_dropout}"' if LoRA_type == 'LyCORIS/LoKr': try: import lycoris except ModuleNotFoundError: log.info( "\033[1;31mError:\033[0m The required module 'lycoris_lora' is not installed. Please install by running \033[33mupgrade.ps1\033[0m before running this program." ) return run_cmd += f' --network_module=lycoris.kohya' run_cmd += f' --network_args "conv_dim={conv_dim}" "conv_alpha={conv_alpha}" "factor={factor}" "use_cp={use_cp}" "algo=lokr"' # This is a hack to fix a train_network LoHA logic issue if not network_dropout > 0.0: run_cmd += f' --network_dropout="{network_dropout}"' if LoRA_type in ['Kohya LoCon', 'Standard']: kohya_lora_var_list = [ 'down_lr_weight', 'mid_lr_weight', 'up_lr_weight', 'block_lr_zero_threshold', 'block_dims', 'block_alphas', 'conv_block_dims', 'conv_block_alphas', 'rank_dropout', 'module_dropout', ] run_cmd += f' --network_module=networks.lora' kohya_lora_vars = { key: value for key, value in vars().items() if key in kohya_lora_var_list and value } network_args = '' if LoRA_type == 'Kohya LoCon': network_args += f' conv_dim="{conv_dim}" conv_alpha="{conv_alpha}"' for key, value in kohya_lora_vars.items(): if value: network_args += f' {key}="{value}"' if network_args: run_cmd += f' --network_args{network_args}' if LoRA_type in ['Kohya DyLoRA']: kohya_lora_var_list = [ 'conv_dim', 'conv_alpha', 'down_lr_weight', 'mid_lr_weight', 'up_lr_weight', 'block_lr_zero_threshold', 'block_dims', 'block_alphas', 'conv_block_dims', 'conv_block_alphas', 'rank_dropout', 'module_dropout', 'unit', ] run_cmd += f' --network_module=networks.dylora' kohya_lora_vars = { key: value for key, value in vars().items() if key in kohya_lora_var_list and value } network_args = '' for key, value in kohya_lora_vars.items(): if value: network_args += f' {key}="{value}"' if network_args: run_cmd += f' --network_args{network_args}' if not (float(text_encoder_lr) == 0) or not (float(unet_lr) == 0): if not (float(text_encoder_lr) == 0) and not (float(unet_lr) == 0): run_cmd += f' --text_encoder_lr={text_encoder_lr}' run_cmd += f' --unet_lr={unet_lr}' elif not (float(text_encoder_lr) == 0): run_cmd += f' --text_encoder_lr={text_encoder_lr}' run_cmd += f' --network_train_text_encoder_only' else: run_cmd += f' --unet_lr={unet_lr}' run_cmd += f' --network_train_unet_only' else: if float(learning_rate) == 0: output_message( msg='Please input learning rate values.', headless=headless_bool, ) return run_cmd += f' --network_dim={network_dim}' #if LoRA_type not in ['LyCORIS/LoCon']: if not lora_network_weights == '': run_cmd += f' --network_weights="{lora_network_weights}"' if dim_from_weights: run_cmd += f' --dim_from_weights' if int(gradient_accumulation_steps) > 1: run_cmd += f' --gradient_accumulation_steps={int(gradient_accumulation_steps)}' if not output_name == '': run_cmd += f' --output_name="{output_name}"' if not lr_scheduler_num_cycles == '': run_cmd += f' --lr_scheduler_num_cycles="{lr_scheduler_num_cycles}"' else: run_cmd += f' --lr_scheduler_num_cycles="{epoch}"' if not lr_scheduler_power == '': run_cmd += f' --lr_scheduler_power="{lr_scheduler_power}"' if scale_weight_norms > 0.0: run_cmd += f' --scale_weight_norms="{scale_weight_norms}"' if network_dropout > 0.0: run_cmd += f' --network_dropout="{network_dropout}"' if sdxl_cache_text_encoder_outputs: run_cmd += f' --cache_text_encoder_outputs' if sdxl_no_half_vae: run_cmd += f' --no_half_vae' if full_bf16: run_cmd += f' --full_bf16' run_cmd += run_cmd_training( learning_rate=learning_rate, lr_scheduler=lr_scheduler, lr_warmup_steps=lr_warmup_steps, train_batch_size=train_batch_size, max_train_steps=max_train_steps, save_every_n_epochs=save_every_n_epochs, mixed_precision=mixed_precision, save_precision=save_precision, seed=seed, caption_extension=caption_extension, cache_latents=cache_latents, cache_latents_to_disk=cache_latents_to_disk, optimizer=optimizer, optimizer_args=optimizer_args, ) run_cmd += run_cmd_advanced_training( max_train_epochs=max_train_epochs, max_data_loader_n_workers=max_data_loader_n_workers, max_token_length=max_token_length, resume=resume, save_state=save_state, mem_eff_attn=mem_eff_attn, clip_skip=clip_skip, flip_aug=flip_aug, color_aug=color_aug, shuffle_caption=shuffle_caption, gradient_checkpointing=gradient_checkpointing, full_fp16=full_fp16, xformers=xformers, # use_8bit_adam=use_8bit_adam, keep_tokens=keep_tokens, persistent_data_loader_workers=persistent_data_loader_workers, bucket_no_upscale=bucket_no_upscale, random_crop=random_crop, bucket_reso_steps=bucket_reso_steps, caption_dropout_every_n_epochs=caption_dropout_every_n_epochs, caption_dropout_rate=caption_dropout_rate, noise_offset_type=noise_offset_type, noise_offset=noise_offset, adaptive_noise_scale=adaptive_noise_scale, multires_noise_iterations=multires_noise_iterations, multires_noise_discount=multires_noise_discount, additional_parameters=additional_parameters, vae_batch_size=vae_batch_size, min_snr_gamma=min_snr_gamma, save_every_n_steps=save_every_n_steps, save_last_n_steps=save_last_n_steps, save_last_n_steps_state=save_last_n_steps_state, use_wandb=use_wandb, wandb_api_key=wandb_api_key, scale_v_pred_loss_like_noise_pred=scale_v_pred_loss_like_noise_pred, min_timestep=min_timestep, max_timestep=max_timestep, ) run_cmd += run_cmd_sample( sample_every_n_steps, sample_every_n_epochs, sample_sampler, sample_prompts, output_dir, ) if print_only_bool: log.warning( 'Here is the trainer command as a reference. It will not be executed:\n' ) print(run_cmd) save_to_file(run_cmd) else: # Saving config file for model current_datetime = datetime.now() formatted_datetime = current_datetime.strftime("%Y%m%d-%H%M%S") file_path = os.path.join(output_dir, f'{output_name}_{formatted_datetime}.json') log.info(f'Saving training config to {file_path}...') SaveConfigFile(parameters=parameters, file_path=file_path, exclusion=['file_path', 'save_as', 'headless', 'print_only']) log.info(run_cmd) # Run the command executor.execute_command(run_cmd=run_cmd) # # check if output_dir/last is a folder... therefore it is a diffuser model # last_dir = pathlib.Path(f'{output_dir}/{output_name}') # if not last_dir.is_dir(): # # Copy inference model for v2 if required # save_inference_file( # output_dir, v2, v_parameterization, output_name # ) def lora_tab( train_data_dir_input=gr.Textbox(), reg_data_dir_input=gr.Textbox(), output_dir_input=gr.Textbox(), logging_dir_input=gr.Textbox(), headless=False, ): dummy_db_true = gr.Label(value=True, visible=False) dummy_db_false = gr.Label(value=False, visible=False) dummy_headless = gr.Label(value=headless, visible=False) with gr.Tab('Training'): gr.Markdown( 'Train a custom model using kohya train network LoRA python code...' ) # Setup Configuration Files Gradio config = ConfigurationFile(headless) source_model = SourceModel( save_model_as_choices=[ 'ckpt', 'safetensors', ], headless=headless, ) with gr.Tab('Folders'): folders = Folders(headless=headless) with gr.Tab('Parameters'): def list_presets(path): json_files = [] for file in os.listdir(path): if file.endswith('.json'): json_files.append(os.path.splitext(file)[0]) user_presets_path = os.path.join(path, 'user_presets') if os.path.isdir(user_presets_path): for file in os.listdir(user_presets_path): if file.endswith('.json'): preset_name = os.path.splitext(file)[0] json_files.append(os.path.join('user_presets', preset_name)) return json_files training_preset = gr.Dropdown( label='Presets', choices=list_presets('./presets/lora'), elem_id='myDropdown', ) with gr.Tab('Basic', elem_id='basic_tab'): with gr.Row(): LoRA_type = gr.Dropdown( label='LoRA type', choices=[ 'Kohya DyLoRA', 'Kohya LoCon', 'LyCORIS/DyLoRA', 'LyCORIS/iA3', 'LyCORIS/LoCon', 'LyCORIS/LoHa', 'LyCORIS/LoKr', 'Standard', ], value='Standard', ) with gr.Box(): with gr.Row(): lora_network_weights = gr.Textbox( label='LoRA network weights', placeholder='(Optional)', info='Path to an existing LoRA network weights to resume training from', ) lora_network_weights_file = gr.Button( document_symbol, elem_id='open_folder_small', visible=(not headless), ) lora_network_weights_file.click( get_any_file_path, inputs=[lora_network_weights], outputs=lora_network_weights, show_progress=False, ) dim_from_weights = gr.Checkbox( label='DIM from weights', value=False, info='Automatically determine the dim(rank) from the weight file.', ) basic_training = BasicTraining( learning_rate_value='0.0001', lr_scheduler_value='cosine', lr_warmup_value='10', ) with gr.Row(): text_encoder_lr = gr.Number( label='Text Encoder learning rate', value='5e-5', info='Optional', ) unet_lr = gr.Number( label='Unet learning rate', value='0.0001', info='Optional', ) # Add SDXL Parameters sdxl_params = SDXLParameters(source_model.sdxl_checkbox) with gr.Row(): factor = gr.Slider( label='LoKr factor', value=-1, minimum=-1, maximum=64, step=1, visible=False, ) use_cp = gr.Checkbox( value=False, label='Use CP decomposition', info='A two-step approach utilizing tensor decomposition and fine-tuning to accelerate convolution layers in large neural networks, resulting in significant CPU speedups with minor accuracy drops.', visible=False, ) decompose_both = gr.Checkbox( value=False, label='LoKr decompose both', visible=False, ) train_on_input = gr.Checkbox( value=True, label='iA3 train on input', visible=False, ) with gr.Row() as LoRA_dim_alpha: network_dim = gr.Slider( minimum=1, maximum=1024, label='Network Rank (Dimension)', value=8, step=1, interactive=True, ) network_alpha = gr.Slider( minimum=0.1, maximum=1024, label='Network Alpha', value=1, step=0.1, interactive=True, info='alpha for LoRA weight scaling', ) with gr.Row(visible=False) as LoCon_row: # locon= gr.Checkbox(label='Train a LoCon instead of a general LoRA (does not support v2 base models) (may not be able to some utilities now)', value=False) conv_dim = gr.Slider( minimum=0, maximum=512, value=1, step=1, label='Convolution Rank (Dimension)', ) conv_alpha = gr.Slider( minimum=0, maximum=512, value=1, step=1, label='Convolution Alpha', ) with gr.Row(): scale_weight_norms = gr.Slider( label='Scale weight norms', value=0, minimum=0, maximum=10, step=0.01, info='Max Norm Regularization is a technique to stabilize network training by limiting the norm of network weights. It may be effective in suppressing overfitting of LoRA and improving stability when used with other LoRAs. See PR #545 on kohya_ss/sd_scripts repo for details. Recommended setting: 1. Higher is weaker, lower is stronger.', interactive=True, ) network_dropout = gr.Slider( label='Network dropout', value=0, minimum=0, maximum=1, step=0.01, info='Is a normal probability dropout at the neuron level. In the case of LoRA, it is applied to the output of down. Recommended range 0.1 to 0.5', ) rank_dropout = gr.Slider( label='Rank dropout', value=0, minimum=0, maximum=1, step=0.01, info='can specify `rank_dropout` to dropout each rank with specified probability. Recommended range 0.1 to 0.3', ) module_dropout = gr.Slider( label='Module dropout', value=0.0, minimum=0.0, maximum=1.0, step=0.01, info='can specify `module_dropout` to dropout each rank with specified probability. Recommended range 0.1 to 0.3', ) with gr.Row(visible=False) as kohya_dylora: unit = gr.Slider( minimum=1, maximum=64, label='DyLoRA Unit / Block size', value=1, step=1, interactive=True, ) # Show or hide LoCon conv settings depending on LoRA type selection def update_LoRA_settings(LoRA_type): log.info('LoRA type changed...') visibility_and_gr_types = { 'LoRA_dim_alpha': ( { 'Kohya DyLoRA', 'Kohya LoCon', 'LyCORIS/DyLoRA', 'LyCORIS/LoCon', 'LyCORIS/LoHa', 'LyCORIS/LoKr', 'Standard', }, gr.Row, ), 'LoCon_row': ( { 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon', 'LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoKr', 'LyCORIS/LoCon', }, gr.Row, ), 'kohya_advanced_lora': ( {'Standard', 'Kohya DyLoRA', 'Kohya LoCon'}, gr.Row, ), 'kohya_dylora': ( {'Kohya DyLoRA', 'LyCORIS/DyLoRA'}, gr.Row, ), 'lora_network_weights': ( {'Standard', 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon','LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr',}, gr.Textbox, ), 'lora_network_weights_file': ( {'Standard', 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon','LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr',}, gr.Button, ), 'dim_from_weights': ( {'Standard', 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon','LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr',}, gr.Checkbox, ), 'factor': ({'LyCORIS/LoKr'}, gr.Slider), 'use_cp': ( { 'LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr', }, gr.Checkbox, ), 'decompose_both': ({'LyCORIS/LoKr'}, gr.Checkbox), 'train_on_input': ({'LyCORIS/iA3'}, gr.Checkbox), 'scale_weight_norms': ( { 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon', 'LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr', 'Standard', }, gr.Slider, ), 'network_dropout': ( { 'LoCon', 'Kohya DyLoRA', 'Kohya LoCon', 'LyCORIS/DyLoRA', 'LyCORIS/LoHa', 'LyCORIS/LoCon', 'LyCORIS/LoKr', 'Standard', }, gr.Slider, ), 'rank_dropout': ( {'LoCon', 'Kohya DyLoRA', 'Kohya LoCon', 'Standard',}, gr.Slider, ), 'module_dropout': ( {'LoCon', 'Kohya DyLoRA', 'Kohya LoCon', 'Standard',}, gr.Slider, ), } results = [] for attr, ( visibility, gr_type, ) in visibility_and_gr_types.items(): visible = LoRA_type in visibility results.append(gr_type.update(visible=visible)) return tuple(results) with gr.Tab('Advanced', elem_id='advanced_tab'): # with gr.Accordion('Advanced Configuration', open=False): with gr.Row(visible=True) as kohya_advanced_lora: with gr.Tab(label='Weights'): with gr.Row(visible=True): down_lr_weight = gr.Textbox( label='Down LR weights', placeholder='(Optional) eg: 0,0,0,0,0,0,1,1,1,1,1,1', info='Specify the learning rate weight of the down blocks of U-Net.', ) mid_lr_weight = gr.Textbox( label='Mid LR weights', placeholder='(Optional) eg: 0.5', info='Specify the learning rate weight of the mid block of U-Net.', ) up_lr_weight = gr.Textbox( label='Up LR weights', placeholder='(Optional) eg: 0,0,0,0,0,0,1,1,1,1,1,1', info='Specify the learning rate weight of the up blocks of U-Net. The same as down_lr_weight.', ) block_lr_zero_threshold = gr.Textbox( label='Blocks LR zero threshold', placeholder='(Optional) eg: 0.1', info='If the weight is not more than this value, the LoRA module is not created. The default is 0.', ) with gr.Tab(label='Blocks'): with gr.Row(visible=True): block_dims = gr.Textbox( label='Block dims', placeholder='(Optional) eg: 2,2,2,2,4,4,4,4,6,6,6,6,8,6,6,6,6,4,4,4,4,2,2,2,2', info='Specify the dim (rank) of each block. Specify 25 numbers.', ) block_alphas = gr.Textbox( label='Block alphas', placeholder='(Optional) eg: 2,2,2,2,4,4,4,4,6,6,6,6,8,6,6,6,6,4,4,4,4,2,2,2,2', info='Specify the alpha of each block. Specify 25 numbers as with block_dims. If omitted, the value of network_alpha is used.', ) with gr.Tab(label='Conv'): with gr.Row(visible=True): conv_block_dims = gr.Textbox( label='Conv dims', placeholder='(Optional) eg: 2,2,2,2,4,4,4,4,6,6,6,6,8,6,6,6,6,4,4,4,4,2,2,2,2', info='Extend LoRA to Conv2d 3x3 and specify the dim (rank) of each block. Specify 25 numbers.', ) conv_block_alphas = gr.Textbox( label='Conv alphas', placeholder='(Optional) eg: 2,2,2,2,4,4,4,4,6,6,6,6,8,6,6,6,6,4,4,4,4,2,2,2,2', info='Specify the alpha of each block when expanding LoRA to Conv2d 3x3. Specify 25 numbers. If omitted, the value of conv_alpha is used.', ) advanced_training = AdvancedTraining(headless=headless) advanced_training.color_aug.change( color_aug_changed, inputs=[advanced_training.color_aug], outputs=[basic_training.cache_latents], ) with gr.Tab('Samples', elem_id='samples_tab'): sample = SampleImages() LoRA_type.change( update_LoRA_settings, inputs=[LoRA_type], outputs=[ LoRA_dim_alpha, LoCon_row, kohya_advanced_lora, kohya_dylora, lora_network_weights, lora_network_weights_file, dim_from_weights, factor, use_cp, decompose_both, train_on_input, scale_weight_norms, network_dropout, rank_dropout, module_dropout, ], ) with gr.Row(): button_run = gr.Button('Start training', variant='primary') button_stop_training = gr.Button('Stop training') button_print = gr.Button('Print training command') # Setup gradio tensorboard buttons button_start_tensorboard, button_stop_tensorboard = gradio_tensorboard() button_start_tensorboard.click( start_tensorboard, inputs=folders.logging_dir, show_progress=False, ) button_stop_tensorboard.click( stop_tensorboard, show_progress=False, ) settings_list = [ source_model.pretrained_model_name_or_path, source_model.v2, source_model.v_parameterization, source_model.sdxl_checkbox, folders.logging_dir, folders.train_data_dir, folders.reg_data_dir, folders.output_dir, basic_training.max_resolution, basic_training.learning_rate, basic_training.lr_scheduler, basic_training.lr_warmup, basic_training.train_batch_size, basic_training.epoch, basic_training.save_every_n_epochs, basic_training.mixed_precision, basic_training.save_precision, basic_training.seed, basic_training.num_cpu_threads_per_process, basic_training.cache_latents, basic_training.cache_latents_to_disk, basic_training.caption_extension, basic_training.enable_bucket, advanced_training.gradient_checkpointing, advanced_training.full_fp16, advanced_training.no_token_padding, basic_training.stop_text_encoder_training, basic_training.min_bucket_reso, basic_training.max_bucket_reso, advanced_training.xformers, source_model.save_model_as, advanced_training.shuffle_caption, advanced_training.save_state, advanced_training.resume, advanced_training.prior_loss_weight, text_encoder_lr, unet_lr, network_dim, lora_network_weights, dim_from_weights, advanced_training.color_aug, advanced_training.flip_aug, advanced_training.clip_skip, advanced_training.gradient_accumulation_steps, advanced_training.mem_eff_attn, folders.output_name, source_model.model_list, advanced_training.max_token_length, basic_training.max_train_epochs, advanced_training.max_data_loader_n_workers, network_alpha, folders.training_comment, advanced_training.keep_tokens, basic_training.lr_scheduler_num_cycles, basic_training.lr_scheduler_power, advanced_training.persistent_data_loader_workers, advanced_training.bucket_no_upscale, advanced_training.random_crop, advanced_training.bucket_reso_steps, advanced_training.caption_dropout_every_n_epochs, advanced_training.caption_dropout_rate, basic_training.optimizer, basic_training.optimizer_args, advanced_training.noise_offset_type, advanced_training.noise_offset, advanced_training.adaptive_noise_scale, advanced_training.multires_noise_iterations, advanced_training.multires_noise_discount, LoRA_type, factor, use_cp, decompose_both, train_on_input, conv_dim, conv_alpha, sample.sample_every_n_steps, sample.sample_every_n_epochs, sample.sample_sampler, sample.sample_prompts, advanced_training.additional_parameters, advanced_training.vae_batch_size, advanced_training.min_snr_gamma, down_lr_weight, mid_lr_weight, up_lr_weight, block_lr_zero_threshold, block_dims, block_alphas, conv_block_dims, conv_block_alphas, advanced_training.weighted_captions, unit, advanced_training.save_every_n_steps, advanced_training.save_last_n_steps, advanced_training.save_last_n_steps_state, advanced_training.use_wandb, advanced_training.wandb_api_key, advanced_training.scale_v_pred_loss_like_noise_pred, scale_weight_norms, network_dropout, rank_dropout, module_dropout, sdxl_params.sdxl_cache_text_encoder_outputs, sdxl_params.sdxl_no_half_vae, advanced_training.full_bf16, advanced_training.min_timestep, advanced_training.max_timestep, ] config.button_open_config.click( open_configuration, inputs=[dummy_db_true, dummy_db_false, config.config_file_name] + settings_list + [training_preset], outputs=[config.config_file_name] + settings_list + [training_preset, LoCon_row], show_progress=False, ) config.button_load_config.click( open_configuration, inputs=[dummy_db_false, dummy_db_false, config.config_file_name] + settings_list + [training_preset], outputs=[config.config_file_name] + settings_list + [training_preset, LoCon_row], show_progress=False, ) training_preset.input( open_configuration, inputs=[dummy_db_false, dummy_db_true, config.config_file_name] + settings_list + [training_preset], outputs=[gr.Textbox()] + settings_list + [training_preset, LoCon_row], show_progress=False, ) config.button_save_config.click( save_configuration, inputs=[dummy_db_false, config.config_file_name] + settings_list, outputs=[config.config_file_name], show_progress=False, ) config.button_save_as_config.click( save_configuration, inputs=[dummy_db_true, config.config_file_name] + settings_list, outputs=[config.config_file_name], show_progress=False, ) button_run.click( train_model, inputs=[dummy_headless] + [dummy_db_false] + settings_list, show_progress=False, ) button_stop_training.click( executor.kill_command ) button_print.click( train_model, inputs=[dummy_headless] + [dummy_db_true] + settings_list, show_progress=False, ) with gr.Tab('Tools'): lora_tools = LoRATools(folders=folders, headless=headless) with gr.Tab('Guides'): gr.Markdown( 'This section provide Various LoRA guides and information...' ) if os.path.exists('./docs/LoRA/top_level.md'): with open(os.path.join('./docs/LoRA/top_level.md'), 'r', encoding='utf8') as file: guides_top_level = file.read() + '\n' gr.Markdown(guides_top_level) return ( folders.train_data_dir, folders.reg_data_dir, folders.output_dir, folders.logging_dir, ) def UI(**kwargs): try: # Your main code goes here while True: css = '' headless = kwargs.get('headless', False) log.info(f'headless: {headless}') if os.path.exists('./style.css'): with open(os.path.join('./style.css'), 'r', encoding='utf8') as file: log.info('Load CSS...') css += file.read() + '\n' interface = gr.Blocks( css=css, title='Kohya_ss GUI', theme=gr.themes.Default() ) with interface: with gr.Tab('LoRA'): ( train_data_dir_input, reg_data_dir_input, output_dir_input, logging_dir_input, ) = lora_tab(headless=headless) with gr.Tab('Utilities'): utilities_tab( train_data_dir_input=train_data_dir_input, reg_data_dir_input=reg_data_dir_input, output_dir_input=output_dir_input, logging_dir_input=logging_dir_input, enable_copy_info_button=True, headless=headless, ) # Show the interface launch_kwargs = {} username = kwargs.get('username') password = kwargs.get('password') server_port = kwargs.get('server_port', 0) inbrowser = kwargs.get('inbrowser', False) share = kwargs.get('share', False) server_name = kwargs.get('listen') launch_kwargs['server_name'] = server_name if username and password: launch_kwargs['auth'] = (username, password) if server_port > 0: launch_kwargs['server_port'] = server_port if inbrowser: launch_kwargs['inbrowser'] = inbrowser if share: launch_kwargs['share'] = share log.info(launch_kwargs) interface.launch(**launch_kwargs) except KeyboardInterrupt: # Code to execute when Ctrl+C is pressed print("You pressed Ctrl+C!") if __name__ == '__main__': # torch.cuda.set_per_process_memory_fraction(0.48) parser = argparse.ArgumentParser() parser.add_argument( '--listen', type=str, default='127.0.0.1', help='IP to listen on for connections to Gradio', ) parser.add_argument( '--username', type=str, default='', help='Username for authentication' ) parser.add_argument( '--password', type=str, default='', help='Password for authentication' ) parser.add_argument( '--server_port', type=int, default=0, help='Port to run the server listener on', ) parser.add_argument( '--inbrowser', action='store_true', help='Open in browser' ) parser.add_argument( '--share', action='store_true', help='Share the gradio UI' ) parser.add_argument( '--headless', action='store_true', help='Is the server headless' ) args = parser.parse_args() UI( username=args.username, password=args.password, inbrowser=args.inbrowser, server_port=args.server_port, share=args.share, listen=args.listen, headless=args.headless, )