app.py

import fnmatch
import gradio as gr
import pandas as pd
import plotly.express as px
from rapidfuzz import fuzz
import re

def load_leaderboard():
 # Load validation / test CSV files
 results_csv_files = {
 'imagenet': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-imagenet.csv',
 'real': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-imagenet-real.csv',
 'v2': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-imagenetv2-matched-frequency.csv',
 'sketch': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-sketch.csv',
 'a': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-imagenet-a.csv',
 'r': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/results-imagenet-r.csv',
 }

 # Load benchmark CSV files
 main_bench = 'amp-nhwc-pt210-cu121-rtx3090'
 benchmark_csv_files = {
 'amp-nhwc-pt210-cu121-rtx3090': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/benchmark-infer-amp-nhwc-pt210-cu121-rtx3090.csv',
 'fp32-nchw-pt221-cpu-i9_10940x-dynamo': 'https://raw.githubusercontent.com/huggingface/pytorch-image-models/main/results/benchmark-infer-fp32-nchw-pt221-cpu-i9_10940x-dynamo.csv',
 }
 # FIXME support selecting benchmark 'infer_samples_per_sec' / 'infer_step_time' from different benchmark files.
 
 dataframes = {name: pd.read_csv(url) for name, url in results_csv_files.items()}
 bench_dataframes = {name: pd.read_csv(url) for name, url in benchmark_csv_files.items()}
 main_bench_dataframe = bench_dataframes[main_bench]
 
 # Clean up dataframes
 remove_column_names = ["top1_err", "top5_err", "top1_diff", "top5_diff", "rank_diff", "param_count"]
 for df in dataframes.values():
 for col in remove_column_names:
 if col in df.columns:
 df.drop(columns=[col], inplace=True) 

 # Rename / process results columns
 for name, df in dataframes.items():
 df.rename(columns={"top1": f"{name}_top1", "top5": f"{name}_top5"}, inplace=True)
 df['arch_name'] = df['model'].apply(lambda x: x.split('.')[0]) 
 
 # Process benchmark dataframe
 main_bench_dataframe['arch_name'] = main_bench_dataframe['model']
 main_bench_dataframe.rename(columns={'infer_img_size': 'img_size'}, inplace=True)
 
 # Merge all result dataframes
 result = dataframes['imagenet']
 for name, df in dataframes.items():
 if name != 'imagenet':
 result = pd.merge(result, df, on=['arch_name', 'model', 'img_size', 'crop_pct', 'interpolation'], how='outer')
 
 # Merge with benchmark data
 result = pd.merge(result, main_bench_dataframe, on=['arch_name', 'img_size'], how='left', suffixes=('', '_benchmark'))
 
 # Calculate average scores
 top1_columns = [col for col in result.columns if col.endswith('_top1')]
 top5_columns = [col for col in result.columns if col.endswith('_top5')]
 result['avg_top1'] = result[top1_columns].mean(axis=1)
 result['avg_top5'] = result[top5_columns].mean(axis=1)
 
 # Reorder columns
 first_columns = ['model', 'img_size', 'avg_top1', 'avg_top5']
 other_columns = [col for col in result.columns if col not in first_columns and col != 'model_benchmark']
 result = result[first_columns + other_columns]
 
 # Drop columns that are no longer needed / add too much noise
 result.drop('arch_name', axis=1, inplace=True)
 result.drop('crop_pct', axis=1, inplace=True)
 result.drop('interpolation', axis=1, inplace=True)
 
 # Round numerical values
 result = result.round(2)
 
 return result


REGEX_PREFIX = "re:"

def auto_match(pattern, text):
 # Check if it's a regex pattern (starts with 're:')
 if pattern.startswith(REGEX_PREFIX):
 regex_pattern = pattern[len(REGEX_PREFIX):].strip()
 try:
 return bool(re.match(regex_pattern, text, re.IGNORECASE))
 except re.error:
 # If it's an invalid regex, return False
 return False
 
 # Check if it's a wildcard pattern
 elif any(char in pattern for char in ['*', '?']):
 return fnmatch.fnmatch(text.lower(), pattern.lower())
 
 # If not regex or wildcard, use fuzzy matching
 else:
 return fuzz.partial_ratio(
 pattern.lower(), text.lower(), score_cutoff=90) > 0


def filter_leaderboard(df, model_name, sort_by):
 if not model_name:
 return df.sort_values(by=sort_by, ascending=False)
 
 mask = df['model'].apply(lambda x: auto_match(model_name, x))
 filtered_df = df[mask].sort_values(by=sort_by, ascending=False)
 
 return filtered_df

def create_scatter_plot(df, x_axis, y_axis):
 fig = px.scatter(
 df,
 x=x_axis,
 y=y_axis,
 log_x=True,
 log_y=True,
 hover_data=['model'],
 trendline='ols',
 trendline_options=dict(log_x=True, log_y=True),
 title=f'{y_axis} vs {x_axis}'
 )
 return fig

# Load the leaderboard data
full_df = load_leaderboard()

# Define the available columns for sorting and plotting
sort_columns = ['avg_top1', 'avg_top5', 'infer_samples_per_sec', 'param_count', 'infer_gmacs', 'infer_macts']
plot_columns = ['infer_samples_per_sec', 'infer_gmacs', 'infer_macts', 'param_count', 'avg_top1', 'avg_top5']

DEFAULT_SEARCH = ""
DEFAULT_SORT = "avg_top1"
DEFAULT_X = "infer_samples_per_sec"
DEFAULT_Y = "avg_top1"

def update_leaderboard_and_plot(model_name=DEFAULT_SEARCH, sort_by=DEFAULT_SORT, x_axis=DEFAULT_X, y_axis=DEFAULT_Y):
 filtered_df = filter_leaderboard(
 full_df, # in outer scope
 model_name,
 sort_by,
 )
 fig = create_scatter_plot(filtered_df, x_axis, y_axis)
 return filtered_df, fig


with gr.Blocks(title="The timm Leaderboard") as app:
 gr.HTML("<center><h1>The timm (PyTorch Image Models) Leaderboard</h1></center>")
 gr.HTML("<p>This leaderboard is based on the results of the models from <a href='https://github.com/huggingface/pytorch-image-models'>timm</a>.</p>")
 gr.HTML("<p>Search tips:<br>- Use wildcards (* or ?) for pattern matching<br>- Use 're:' prefix for regex search<br>- Otherwise, fuzzy matching will be used</p>")
 
 with gr.Row():
 search_bar = gr.Textbox(lines=1, label="Search Model", placeholder="e.g. resnet*, re:^vit, efficientnet", scale=3)
 sort_dropdown = gr.Dropdown(choices=sort_columns, label="Sort by", value=DEFAULT_SORT, scale=1)
 
 with gr.Row():
 x_axis = gr.Dropdown(choices=plot_columns, label="X-axis", value=DEFAULT_X)
 y_axis = gr.Dropdown(choices=plot_columns, label="Y-axis", value=DEFAULT_Y)
 
 update_btn = gr.Button(value="Update", variant="primary")

 leaderboard = gr.Dataframe()
 plot = gr.Plot()
 
 app.load(update_leaderboard_and_plot, outputs=[leaderboard, plot])
 
 search_bar.submit(
 update_leaderboard_and_plot,
 inputs=[search_bar, sort_dropdown, x_axis, y_axis],
 outputs=[leaderboard, plot]
 )
 
 update_btn.click(
 update_leaderboard_and_plot,
 inputs=[search_bar, sort_dropdown, x_axis, y_axis],
 outputs=[leaderboard, plot]
 )

app.launch()