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from __future__ import annotations | |
import json | |
import yaml | |
import subprocess | |
import itertools | |
import contextlib | |
from dateutil import parser | |
import numpy as np | |
import gradio as gr | |
import pandas as pd | |
import plotly.io as pio | |
import plotly.express as px | |
from pandas.api.types import is_numeric_dtype, is_float_dtype | |
pio.templates.default = "plotly_white" | |
class TableManager: | |
def __init__(self, data_dir: str) -> None: | |
"""Load leaderboard data from CSV files in data_dir.""" | |
# Load and merge CSV files. | |
df = self._read_tables(data_dir) | |
# Add the #params column. | |
models = json.load(open(f"{data_dir}/models.json")) | |
df["parameters"] = df["model"].apply(lambda x: models[x]["params"]) | |
# Make the first column (model) an HTML anchor to the model's website. | |
def format_model_link(model_name: str) -> str: | |
url = models[model_name]["url"] | |
nickname = models[model_name]["nickname"] | |
return ( | |
f'<a style="text-decoration: underline; text-decoration-style: dotted" ' | |
f'target="_blank" href="{url}">{nickname}</a>' | |
) | |
df["model"] = df["model"].apply(format_model_link) | |
# Sort by our 'energy efficiency' score. | |
df = df.sort_values(by="energy", ascending=True) | |
# The full table where all the data are. | |
self.full_df = df | |
# Default view of the table is to only show the first options. | |
self.set_filter_get_df() | |
def _read_tables(self, data_dir: str) -> pd.DataFrame: | |
"""Read tables.""" | |
df_score = pd.read_csv(f"{data_dir}/score.csv") | |
with open(f"{data_dir}/schema.yaml") as file: | |
self.schema: dict[str, list] = yaml.safe_load(file) | |
res_df = pd.DataFrame() | |
# Do a cartesian product of all the choices in the schema | |
# and try to read the corresponding CSV files. | |
for choice in itertools.product(*self.schema.values()): | |
filepath = f"{data_dir}/{'_'.join(choice)}_benchmark.csv" | |
with contextlib.suppress(FileNotFoundError): | |
df = pd.read_csv(filepath) | |
for key, val in zip(self.schema.keys(), choice): | |
df.insert(1, key, val) | |
res_df = pd.concat([res_df, df]) | |
if res_df.empty: | |
raise ValueError(f"No benchmark CSV files were read from {data_dir=}.") | |
df = pd.merge(res_df, df_score, on=["model"]).round(2) | |
# Order columns. | |
columns = df.columns.to_list() | |
cols_to_order = ["model"] | |
cols_to_order.extend(self.schema.keys()) | |
cols_to_order.append("energy") | |
columns = cols_to_order + [col for col in columns if col not in cols_to_order] | |
df = df[columns] | |
# Delete rows with *any* NaN values. | |
df = df.dropna() | |
return df | |
def _format_msg(self, text: str) -> str: | |
"""Formats into HTML that prints in Monospace font.""" | |
return f"<pre style='font-family: monospace'>{text}</pre>" | |
def add_column(self, column_name: str, formula: str): | |
"""Create and add a new column with the given formula.""" | |
# If the user did not provide the name of the new column, | |
# generate a unique name for them. | |
if not column_name: | |
counter = 1 | |
while (column_name := f"custom{counter}") in self.full_df.columns: | |
counter += 1 | |
# If the user did not provide a formula, return an error message. | |
if not formula: | |
return self.cur_df, self._format_msg("Please enter a formula.") | |
# If there is an equal sign in the formula, `df.eval` will | |
# return an entire DataFrame with the new column, instead of | |
# just the new column. This is not what we want, so we check | |
# for this case and return an error message. | |
if "=" in formula: | |
return self.cur_df, self._format_msg("Invalid formula: expr cannot contain '='.") | |
# The user may want to update an existing column. | |
verb = "Updated" if column_name in self.full_df.columns else "Added" | |
# Evaluate the formula and catch any error. | |
try: | |
# Give the users some helper functions that can be used in the formula | |
# like "@sum(response_length)". Also wipe out some global variables. | |
col = self.full_df.eval( | |
formula, | |
local_dict={"sum": sum, "len": len, "max": max, "min": min}, | |
global_dict={"global_tbm": None}, | |
) | |
except Exception as exc: | |
return self.cur_df, self._format_msg(f"Invalid formula: {exc}") | |
# If the result is a numeric scalar, make it a Series. | |
# We may have deleted some models (rows) form the full dataframe when we | |
# called dropna, so we need to query the maximum index instead of taking len. | |
if isinstance(col, (int, float)): | |
col = pd.Series([col] * (self.full_df.index.max() + 1)) | |
# We only accept numeric columns. | |
if not is_numeric_dtype(col): | |
return self.cur_df, self._format_msg("Invalid formula: result must be numeric.") | |
# Round if it's floating point. | |
if is_float_dtype(col): | |
col = col.round(2) | |
# If the column already exists, update it. | |
if column_name in self.full_df.columns: | |
self.full_df[column_name] = col | |
else: | |
self.full_df.insert(len(self.schema) + 1, column_name, col) | |
# If adding a column succeeded, `self.cur_df` should also be updated. | |
self.cur_df = self.full_df.loc[self.cur_index] | |
return self.cur_df, self._format_msg(f"{verb} column '{column_name}'.") | |
def get_dropdown(self): | |
columns = self.full_df.columns.tolist()[1:] | |
return [ | |
gr.Dropdown(choices=columns, label="X"), | |
gr.Dropdown(choices=columns, label="Y"), | |
gr.Dropdown(choices=["None", *columns], label="Z (optional)"), | |
] | |
def update_dropdown(self): | |
columns = self.full_df.columns.tolist()[1:] | |
return [ | |
gr.Dropdown.update(choices=columns), | |
gr.Dropdown.update(choices=columns), | |
gr.Dropdown.update(choices=["None", *columns]), | |
] | |
def set_filter_get_df(self, *filters) -> pd.DataFrame: | |
"""Set the current set of filters and return the filtered DataFrame.""" | |
# If the filter is empty, we default to the first choice for each key. | |
if not filters: | |
filters = [choices[:1] for choices in self.schema.values()] | |
index = np.full(len(self.full_df), True) | |
for setup, choice in zip(self.schema, filters): | |
index = index & self.full_df[setup].isin(choice) | |
self.cur_df = self.full_df.loc[index] | |
self.cur_index = index | |
return self.cur_df | |
def plot_scatter(self, width, height, x, y, z): | |
# The user did not select either x or y. | |
if not x or not y: | |
return None, width, height, self._format_msg("Please select both X and Y.") | |
# Width and height may be an empty string. Then we set them to 600. | |
if not width and not height: | |
width, height = "600", "600" | |
elif not width: | |
width = height | |
elif not height: | |
height = width | |
try: | |
width, height = int(width), int(height) | |
except ValueError: | |
return None, width, height, self._format_msg("Width and height should be positive integers.") | |
# Strip the <a> tag from model names. | |
text = self.cur_df["model"].apply(lambda x: x.split(">")[1].split("<")[0]) | |
if z is None or z == "None" or z == "": | |
fig = px.scatter(self.cur_df, x=x, y=y, text=text) | |
else: | |
fig = px.scatter_3d(self.cur_df, x=x, y=y, z=z, text=text) | |
fig.update_traces(textposition="top center") | |
fig.update_layout(width=width, height=height) | |
return fig, width, height, "" | |
# The global instance of the TableManager should only be used when | |
# initializing components in the Gradio interface. If the global instance | |
# is mutated while handling user sessions, the change will be reflected | |
# in every user session. Instead, the instance provided by gr.State should | |
# be used. | |
global_tbm = TableManager("data") | |
# Run git log to get the latest commit date. | |
proc = subprocess.run( | |
["git", "log", "-1", "--format=%cd"], | |
stdout=subprocess.PIPE, | |
stderr=subprocess.PIPE, | |
encoding="utf-8", | |
) | |
current_date = parser.parse(proc.stdout.strip()).strftime("%Y-%m-%d") | |
# Custom JS. | |
# XXX: This is a hack to make the model names clickable. | |
# Ideally, we should set `datatype` in the constructor of `gr.DataFrame` to | |
# `["markdown"] + ["number"] * (len(df.columns) - 1)` and format models names | |
# as an HTML <a> tag. However, because we also want to dynamically add new | |
# columns to the table and Gradio < 4.0 does not support updating `datatype` with | |
# `gr.DataFrame.update` yet, we need to manually walk into the DOM and replace | |
# the innerHTML of the model name cells with dynamically interpreted HTML. | |
# Desired feature tracked at https://github.com/gradio-app/gradio/issues/3732 | |
dataframe_update_js = f""" | |
function format_model_link() {{ | |
// Iterate over the cells of the first column of the leaderboard table. | |
for (let index = 1; index <= {len(global_tbm.full_df)}; index++) {{ | |
// Get the cell. | |
var cell = document.querySelector( | |
`#tab-leaderboard > div > div > div > table > tbody > tr:nth-child(${{index}}) > td:nth-child(1) > div > span` | |
); | |
// If nothing was found, it likely means that now the visible table has less rows | |
// than the full table. This happens when the user filters the table. In this case, | |
// we should just return. | |
if (cell == null) break; | |
// This check exists to make this function idempotent. | |
// Multiple changes to the Dataframe component may invoke this function, | |
// multiple times to the same HTML table (e.g., adding and sorting cols). | |
// Thus, we check whether we already formatted the model names by seeing | |
// whether the child of the cell is a text node. If it is not, | |
// it means we already parsed it into HTML, so we should just return. | |
if (cell.firstChild.nodeType != 3) break; | |
// Decode and interpret the innerHTML of the cell as HTML. | |
var decoded_string = new DOMParser().parseFromString(cell.innerHTML, "text/html").documentElement.textContent; | |
var temp = document.createElement("template"); | |
temp.innerHTML = decoded_string; | |
var model_anchor = temp.content.firstChild; | |
// Replace the innerHTML of the cell with the interpreted HTML. | |
cell.replaceChildren(model_anchor); | |
}} | |
// Return all arguments as is. | |
return arguments | |
}} | |
""" | |
# Custom CSS. | |
css = """ | |
/* Make ML.ENERGY look like a clickable logo. */ | |
.text-logo { | |
color: #27cb63 !important; | |
text-decoration: none !important; | |
} | |
/* Make the submit button the same color as the logo. */ | |
.btn-submit { | |
background: #27cb63 !important; | |
color: white !important; | |
border: 0 !important; | |
} | |
/* Center the plotly plot inside its container. */ | |
.plotly > div { | |
margin: auto !important; | |
} | |
/* Limit the width of the first column to 300 px. */ | |
table td:first-child, | |
table th:first-child { | |
max-width: 300px; | |
overflow: auto; | |
white-space: nowrap; | |
} | |
""" | |
block = gr.Blocks(css=css) | |
with block: | |
tbm = gr.State(global_tbm) # type: ignore | |
gr.HTML("<h1><a href='https://ml.energy' class='text-logo'>ML.ENERGY</a> Leaderboard</h1>") | |
with gr.Tabs(): | |
# Tab 1: Leaderboard. | |
with gr.TabItem("Leaderboard"): | |
# Block 1: Checkboxes to select benchmarking parameters. | |
with gr.Row(): | |
with gr.Box(): | |
gr.Markdown("### Benchmark results to show") | |
checkboxes = [] | |
for key, choices in global_tbm.schema.items(): | |
# Specifying `value` makes everything checked by default. | |
checkboxes.append(gr.CheckboxGroup(choices=choices, value=choices[:1], label=key)) | |
# Block 2: Leaderboard table. | |
with gr.Row(): | |
dataframe = gr.Dataframe(type="pandas", elem_id="tab-leaderboard") | |
# Make sure the models have clickable links. | |
dataframe.change(None, None, None, _js=dataframe_update_js) | |
# Table automatically updates when users check or uncheck any checkbox. | |
for checkbox in checkboxes: | |
checkbox.change(TableManager.set_filter_get_df, inputs=[tbm, *checkboxes], outputs=dataframe) | |
# Block 3: Allow users to add new columns. | |
with gr.Row(): | |
with gr.Column(scale=3): | |
with gr.Row(): | |
colname_input = gr.Textbox(lines=1, label="Custom column name") | |
formula_input = gr.Textbox(lines=1, label="Formula (@sum, @len, @max, and @min are supported)") | |
with gr.Column(scale=1): | |
with gr.Row(): | |
add_col_btn = gr.Button("Add to table (⏎)", elem_classes=["btn-submit"]) | |
with gr.Row(): | |
clear_input_btn = gr.Button("Clear") | |
with gr.Row(): | |
add_col_message = gr.HTML("") | |
gr.Examples( | |
examples=[ | |
["power", "energy / latency"], | |
["token_per_joule", "response_length / energy"], | |
["verbose", "response_length > @sum(response_length) / @len(response_length)"], | |
], | |
inputs=[colname_input, formula_input], | |
) | |
colname_input.submit( | |
TableManager.add_column, | |
inputs=[tbm, colname_input, formula_input], | |
outputs=[dataframe, add_col_message], | |
) | |
formula_input.submit( | |
TableManager.add_column, | |
inputs=[tbm, colname_input, formula_input], | |
outputs=[dataframe, add_col_message], | |
) | |
add_col_btn.click( | |
TableManager.add_column, | |
inputs=[tbm, colname_input, formula_input], | |
outputs=[dataframe, add_col_message], | |
) | |
clear_input_btn.click( | |
lambda: (None, None, None), | |
inputs=None, | |
outputs=[colname_input, formula_input, add_col_message], | |
) | |
# Block 4: Allow users to plot 2D and 3D scatter plots. | |
with gr.Row(): | |
with gr.Column(scale=3): | |
with gr.Row(): | |
# Initialize the dropdown choices with the global TableManager with just the original columns. | |
axis_dropdowns = global_tbm.get_dropdown() | |
with gr.Column(scale=1): | |
with gr.Row(): | |
plot_btn = gr.Button("Plot", elem_classes=["btn-submit"]) | |
with gr.Row(): | |
clear_plot_btn = gr.Button("Clear") | |
with gr.Accordion("Plot size (600 x 600 by default)", open=False): | |
with gr.Row(): | |
plot_width_input = gr.Textbox("600", lines=1, label="Width (px)") | |
plot_height_input = gr.Textbox("600", lines=1, label="Height (px)") | |
with gr.Row(): | |
plot = gr.Plot() | |
with gr.Row(): | |
plot_message = gr.HTML("") | |
add_col_btn.click(TableManager.update_dropdown, inputs=tbm, outputs=axis_dropdowns) # type: ignore | |
plot_width_input.submit( | |
TableManager.plot_scatter, | |
inputs=[tbm, plot_width_input, plot_height_input, *axis_dropdowns], | |
outputs=[plot, plot_width_input, plot_height_input, plot_message], | |
) | |
plot_height_input.submit( | |
TableManager.plot_scatter, | |
inputs=[tbm, plot_width_input, plot_height_input, *axis_dropdowns], | |
outputs=[plot, plot_width_input, plot_height_input, plot_message], | |
) | |
plot_btn.click( | |
TableManager.plot_scatter, | |
inputs=[tbm, plot_width_input, plot_height_input, *axis_dropdowns], | |
outputs=[plot, plot_width_input, plot_height_input, plot_message], | |
) | |
clear_plot_btn.click( | |
lambda: (None,) * 7, | |
None, | |
outputs=[*axis_dropdowns, plot, plot_width_input, plot_height_input, plot_message], | |
) | |
# Block 5: Leaderboard date. | |
with gr.Row(): | |
gr.HTML(f"<h3 style='color: gray'>Date: {current_date}</h3>") | |
# Tab 2: About page. | |
with gr.TabItem("About"): | |
# Read in LEADERBOARD.md | |
gr.Markdown(open("LEADERBOARD.md").read()) | |
# Load the table on page load. | |
block.load(lambda: global_tbm.set_filter_get_df(), outputs=dataframe) | |
block.launch() | |