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	# --- START OF FULLY CORRECTED AND IMPROVED FILE app.py ---

	import gradio as gr
	import pandas as pd
	import plotly.express as px
	import time
	from datasets import load_dataset # Import the datasets library

	# --- Constants ---
	PARAM_CHOICES = ['< 1B', '1B', '5B', '12B', '32B', '64B', '128B', '256B', '> 500B']
	PARAM_CHOICES_DEFAULT_INDICES = [0, len(PARAM_CHOICES) - 1]

	HF_DATASET_ID = "evijit/orgstats_daily_data"
	TAG_FILTER_CHOICES = [ "Audio & Speech", "Time series", "Robotics", "Music", "Video", "Images", "Text", "Biomedical", "Sciences" ]
	PIPELINE_TAGS = [ 'text-generation', 'text-to-image', 'text-classification', 'text2text-generation', 'audio-to-audio', 'feature-extraction', 'image-classification', 'translation', 'reinforcement-learning', 'fill-mask', 'text-to-speech', 'automatic-speech-recognition', 'image-text-to-text', 'token-classification', 'sentence-similarity', 'question-answering', 'image-feature-extraction', 'summarization', 'zero-shot-image-classification', 'object-detection', 'image-segmentation', 'image-to-image', 'image-to-text', 'audio-classification', 'visual-question-answering', 'text-to-video', 'zero-shot-classification', 'depth-estimation', 'text-ranking', 'image-to-video', 'multiple-choice', 'unconditional-image-generation', 'video-classification', 'text-to-audio', 'time-series-forecasting', 'any-to-any', 'video-text-to-text', 'table-question-answering' ]

	def load_models_data():
	overall_start_time = time.time()
	print(f"Attempting to load dataset from Hugging Face Hub: {HF_DATASET_ID}")
	expected_cols = [ 'id', 'downloads', 'downloadsAllTime', 'likes', 'pipeline_tag', 'tags', 'params', 'organization', 'has_audio', 'has_speech', 'has_music', 'has_robot', 'has_bio', 'has_med', 'has_series', 'has_video', 'has_image', 'has_text', 'has_science', 'is_audio_speech', 'is_biomed', 'data_download_timestamp' ]
	try:
	dataset_dict = load_dataset(HF_DATASET_ID)
	if not dataset_dict: raise ValueError(f"Dataset '{HF_DATASET_ID}' loaded but appears empty.")
	split_name = list(dataset_dict.keys())[0]
	print(f"Using dataset split: '{split_name}'. Converting to Pandas.")
	df = dataset_dict[split_name].to_pandas()
	elapsed = time.time() - overall_start_time
	missing_cols = [col for col in expected_cols if col not in df.columns]
	if missing_cols:
	if 'params' in missing_cols: raise ValueError(f"FATAL: Loaded dataset is missing the crucial 'params' column.")
	print(f"Warning: Loaded dataset is missing some expected columns: {missing_cols}.")
	if 'params' in df.columns:
	df['params'] = pd.to_numeric(df['params'], errors='coerce').fillna(0)
	else:
	df['params'] = 0
	print("CRITICAL WARNING: 'params' column not found in data. Parameter filtering will not work.")
	msg = f"Successfully loaded dataset '{HF_DATASET_ID}' (split: {split_name}) from HF Hub in {elapsed:.2f}s. Shape: {df.shape}"
	print(msg)
	return df, True, msg
	except Exception as e:
	err_msg = f"Failed to load dataset '{HF_DATASET_ID}' from Hugging Face Hub. Error: {e}"
	print(err_msg)
	return pd.DataFrame(), False, err_msg

	def get_param_range_values(param_range_labels):
	if not param_range_labels or len(param_range_labels) != 2: return None, None
	min_label, max_label = param_range_labels
	min_val = 0.0 if '<' in min_label else float(min_label.replace('B', ''))
	max_val = float('inf') if '>' in max_label else float(max_label.replace('B', ''))
	return min_val, max_val

	def make_treemap_data(df, count_by, top_k=25, tag_filter=None, pipeline_filter=None, param_range=None, skip_orgs=None):
	if df is None or df.empty: return pd.DataFrame()
	filtered_df = df.copy()
	col_map = { "Audio & Speech": "is_audio_speech", "Music": "has_music", "Robotics": "has_robot", "Biomedical": "is_biomed", "Time series": "has_series", "Sciences": "has_science", "Video": "has_video", "Images": "has_image", "Text": "has_text" }
	if tag_filter and tag_filter in col_map:
	target_col = col_map[tag_filter]
	if target_col in filtered_df.columns: filtered_df = filtered_df[filtered_df[target_col]]
	else: print(f"Warning: Tag filter column '{col_map[tag_filter]}' not found in DataFrame.")
	if pipeline_filter:
	if "pipeline_tag" in filtered_df.columns: filtered_df = filtered_df[filtered_df["pipeline_tag"].astype(str) == pipeline_filter]
	else: print(f"Warning: 'pipeline_tag' column not found for filtering.")
	if param_range:
	min_params, max_params = get_param_range_values(param_range)
	is_default_range = (param_range[0] == PARAM_CHOICES[0] and param_range[1] == PARAM_CHOICES[-1])
	if not is_default_range and 'params' in filtered_df.columns:
	if min_params is not None: filtered_df = filtered_df[filtered_df['params'] >= min_params]
	if max_params is not None and max_params != float('inf'): filtered_df = filtered_df[filtered_df['params'] < max_params]
	elif 'params' not in filtered_df.columns: print("Warning: 'params' column not found for filtering.")
	if skip_orgs and len(skip_orgs) > 0:
	if "organization" in filtered_df.columns: filtered_df = filtered_df[~filtered_df["organization"].isin(skip_orgs)]
	else: print("Warning: 'organization' column not found for filtering.")
	if filtered_df.empty: return pd.DataFrame()
	if count_by not in filtered_df.columns:
	print(f"Warning: Metric column '{count_by}' not found. Using 0.")
	filtered_df[count_by] = 0.0
	filtered_df[count_by] = pd.to_numeric(filtered_df[count_by], errors="coerce").fillna(0.0)
	org_totals = filtered_df.groupby("organization")[count_by].sum().nlargest(top_k, keep='first')
	top_orgs_list = org_totals.index.tolist()
	treemap_data = filtered_df[filtered_df["organization"].isin(top_orgs_list)][["id", "organization", count_by]].copy()
	treemap_data["root"] = "models"
	treemap_data[count_by] = pd.to_numeric(treemap_data[count_by], errors="coerce").fillna(0.0)
	return treemap_data

	def create_treemap(treemap_data, count_by, title=None):
	if treemap_data.empty:
	fig = px.treemap(names=["No data matches filters"], parents=[""], values=[1])
	fig.update_layout(title="No data matches the selected filters", margin=dict(t=50, l=25, r=25, b=25))
	return fig
	fig = px.treemap(treemap_data, path=["root", "organization", "id"], values=count_by, title=title, color_discrete_sequence=px.colors.qualitative.Plotly)
	fig.update_layout(margin=dict(t=50, l=25, r=25, b=25))
	fig.update_traces(textinfo="label+value+percent root", hovertemplate="<b>%{label}</b><br>%{value:,} " + count_by + "<br>%{percentRoot:.2%} of total<extra></extra>")
	return fig

	with gr.Blocks(title="ModelVerse Explorer", fill_width=True) as demo:
	models_data_state = gr.State(pd.DataFrame())
	loading_complete_state = gr.State(False)

	with gr.Row(): gr.Markdown("# 🤗 The Hub Org-Model Atlas")
	with gr.Row():
	with gr.Column(scale=1):
	count_by_dropdown = gr.Dropdown(label="Metric", choices=[("Downloads (last 30 days)", "downloads"), ("Downloads (All Time)", "downloadsAllTime"), ("Likes", "likes")], value="downloads")
	filter_choice_radio = gr.Radio(label="Filter Type", choices=["None", "Tag Filter", "Pipeline Filter"], value="None")
	tag_filter_dropdown = gr.Dropdown(label="Select Tag", choices=TAG_FILTER_CHOICES, value=None, visible=False)
	pipeline_filter_dropdown = gr.Dropdown(label="Select Pipeline Tag", choices=PIPELINE_TAGS, value=None, visible=False)

	with gr.Group():
	with gr.Row():
	param_label_display = gr.Markdown("<div style='font-weight: 500;'>Parameters</div>")
	reset_params_button = gr.Button("🔄 Reset", visible=False, size="sm", min_width=80)

	param_slider = gr.Slider(
	minimum=0, maximum=len(PARAM_CHOICES) - 1, step=1,
	value=PARAM_CHOICES_DEFAULT_INDICES,
	label="Parameter Range", show_label=False # Use a hidden label for accessibility
	)

	top_k_slider = gr.Slider(label="Number of Top Organizations", minimum=5, maximum=50, value=25, step=5)
	skip_orgs_textbox = gr.Textbox(label="Organizations to Skip (comma-separated)", value="TheBloke,MaziyarPanahi,unsloth,modularai,Gensyn,bartowski")
	generate_plot_button = gr.Button(value="Generate Plot", variant="primary", interactive=False)

	with gr.Column(scale=3):
	plot_output = gr.Plot()
	status_message_md = gr.Markdown("Initializing...")
	data_info_md = gr.Markdown("")

	# --- MODIFIED: More robust event handlers for the slider ---
	def _update_slider_ui_elements(current_range_indices):
	"""Updates the labels above the slider and the reset button visibility."""
	if not isinstance(current_range_indices, list) or len(current_range_indices) != 2:
	# This is a defensive check to prevent crashes if the input is malformed.
	return gr.update(), gr.update()

	min_idx, max_idx = int(current_range_indices[0]), int(current_range_indices[1])
	min_label, max_label = PARAM_CHOICES[min_idx], PARAM_CHOICES[max_idx]

	# Using HTML for bold is more reliable in gr.Markdown
	label_md = f"<div style='font-weight: 500;'>Parameters <span style='float: right; font-weight: normal; color: #555;'>{min_label} to {max_label}</span></div>"

	is_default = (min_idx == 0 and max_idx == len(PARAM_CHOICES) - 1)
	button_visibility = gr.update(visible=not is_default)

	return label_md, button_visibility

	def _reset_param_slider_and_ui():
	"""Resets the slider to default and updates the UI elements accordingly."""
	default_label = "<div style='font-weight: 500;'>Parameters</div>"
	return gr.update(value=PARAM_CHOICES_DEFAULT_INDICES), default_label, gr.update(visible=False)

	# Use .change() for better reliability
	param_slider.change(fn=_update_slider_ui_elements, inputs=param_slider, outputs=[param_label_display, reset_params_button])
	reset_params_button.click(fn=_reset_param_slider_and_ui, outputs=[param_slider, param_label_display, reset_params_button])

	def _update_button_interactivity(is_loaded_flag): return gr.update(interactive=is_loaded_flag)
	loading_complete_state.change(fn=_update_button_interactivity, inputs=loading_complete_state, outputs=generate_plot_button)

	def _toggle_filters_visibility(choice): return gr.update(visible=choice == "Tag Filter"), gr.update(visible=choice == "Pipeline Filter")
	filter_choice_radio.change(fn=_toggle_filters_visibility, inputs=filter_choice_radio, outputs=[tag_filter_dropdown, pipeline_filter_dropdown])

	# --- MODIFIED: Fixed the timezone handling logic ---
	def ui_load_data_controller(progress=gr.Progress()):
	progress(0, desc=f"Loading dataset '{HF_DATASET_ID}' from Hugging Face Hub...")
	status_msg_ui, data_info_text, load_success_flag = "Loading data...", "", False
	try:
	current_df, load_success_flag, status_msg_from_load = load_models_data()
	if load_success_flag:
	progress(0.9, desc="Processing loaded data...")
	date_display = "Pre-processed (date unavailable)"
	if 'data_download_timestamp' in current_df.columns and not current_df.empty and pd.notna(current_df['data_download_timestamp'].iloc[0]):
	timestamp = pd.to_datetime(current_df['data_download_timestamp'].iloc[0])
	# Check if tz-aware. If so, convert. If not, localize.
	if timestamp.tzinfo is None:
	ts = timestamp.tz_localize('UTC')
	else:
	ts = timestamp.tz_convert('UTC')
	date_display = ts.strftime('%B %d, %Y, %H:%M:%S %Z')

	param_count = (current_df['params'] > 0).sum() if 'params' in current_df.columns else 0
	data_info_text = f"### Data Information\n- Source: `{HF_DATASET_ID}`\n- Status: {status_msg_from_load}\n- Total models loaded: {len(current_df):,}\n- Models with parameter counts: {param_count:,}\n- Data as of: {date_display}\n"
	status_msg_ui = "Data loaded successfully. Ready to generate plot."
	else:
	data_info_text = f"### Data Load Failed\n- {status_msg_from_load}"
	status_msg_ui = status_msg_from_load
	except Exception as e:
	status_msg_ui = f"An unexpected error occurred: {str(e)}"
	data_info_text = f"### Critical Error\n- {status_msg_ui}"
	print(f"Critical error in ui_load_data_controller: {e}")
	return current_df, load_success_flag, data_info_text, status_msg_ui

	def ui_generate_plot_controller(metric_choice, filter_type, tag_choice, pipeline_choice,
	param_range_indices, k_orgs, skip_orgs_input, df_current_models, progress=gr.Progress()):
	if df_current_models is None or df_current_models.empty:
	return create_treemap(pd.DataFrame(), metric_choice, "Error: Model Data Not Loaded"), "Model data is not loaded or is empty."
	progress(0.1, desc="Preparing data for visualization...")
	tag_to_use = tag_choice if filter_type == "Tag Filter" else None
	pipeline_to_use = pipeline_choice if filter_type == "Pipeline Filter" else None
	orgs_to_skip = [org.strip() for org in skip_orgs_input.split(',') if org.strip()] if skip_orgs_input else []

	min_label = PARAM_CHOICES[int(param_range_indices[0])]
	max_label = PARAM_CHOICES[int(param_range_indices[1])]
	param_labels_for_filtering = [min_label, max_label]

	treemap_df = make_treemap_data(df_current_models, metric_choice, k_orgs, tag_to_use, pipeline_to_use, param_labels_for_filtering, orgs_to_skip)

	progress(0.7, desc="Generating Plotly visualization...")
	title_labels = {"downloads": "Downloads (last 30 days)", "downloadsAllTime": "Downloads (All Time)", "likes": "Likes"}
	chart_title = f"HuggingFace Models - {title_labels.get(metric_choice, metric_choice)} by Organization"
	plotly_fig = create_treemap(treemap_df, metric_choice, chart_title)

	if treemap_df.empty:
	plot_stats_md = "No data matches the selected filters. Try adjusting your filters."
	else:
	total_items_in_plot = len(treemap_df['id'].unique())
	total_value_in_plot = treemap_df[metric_choice].sum()
	plot_stats_md = f"## Plot Statistics\n- Models shown: {total_items_in_plot:,}\n- Total {metric_choice}: {int(total_value_in_plot):,}"
	return plotly_fig, plot_stats_md

	demo.load(fn=ui_load_data_controller, inputs=[], outputs=[models_data_state, loading_complete_state, data_info_md, status_message_md])

	generate_plot_button.click(
	fn=ui_generate_plot_controller,
	inputs=[count_by_dropdown, filter_choice_radio, tag_filter_dropdown, pipeline_filter_dropdown,
	param_slider, top_k_slider, skip_orgs_textbox, models_data_state],
	outputs=[plot_output, status_message_md]
	)

	if __name__ == "__main__":
	print(f"Application starting. Data will be loaded from Hugging Face dataset: {HF_DATASET_ID}")
	demo.queue().launch()

	# --- END OF FULLY CORRECTED AND IMPROVED FILE app.py ---