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llm-bradley-terry / app.py

jerome-white

Move the HDI input below the dropdowns

1900305 5 months ago

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	import math
	import operator as op
	import itertools as it
	import functools as ft
	import collections as cl
	from pathlib import Path
	from dataclasses import fields, asdict

	import pandas as pd
	import gradio as gr
	import seaborn as sns
	import matplotlib.pyplot as plt
	from datasets import load_dataset
	from scipy.special import expit

	from hdinterval import HDI, HDInterval

	TabGroup = cl.namedtuple('TabGroup', 'name, docs, dataset')

	#
	#
	#
	def load(repo):
	parameter = 'parameter'
	model = 'model'
	items = [
	'chain',
	'sample',
	parameter,
	model,
	'value',
	]
	dataset = load_dataset(str(repo))

	return (dataset
	.get('train')
	.to_pandas()
	.rename(columns={'element': model})
	.filter(items=items)
	.query(f'{parameter} == "alpha"')
	.drop(columns=parameter))

	def summarize(df, ci=0.95):
	def _aggregate(i, g):
	values = g['value']
	hdi = HDInterval(values)
	interval = hdi(ci)

	agg = {
	'model': i,
	'ability': values.median(),
	'uncertainty': interval.width(),
	}
	agg.update(asdict(interval))

	return agg

	groups = df.groupby('model', sort=False)
	records = it.starmap(_aggregate, groups)

	return pd.DataFrame.from_records(records)

	def rank(df, ascending, name='rank'):
	df = (df
	.sort_values(by=['ability', 'uncertainty'],
	ascending=[ascending, not ascending])
	.drop(columns='uncertainty')
	.reset_index(drop=True))
	df.index += 1

	return df.reset_index(names=name)

	def compare(df, model_1, model_2):
	mcol = 'model'
	models = [
	model_1,
	model_2,
	]
	view = (df
	.query(f'{mcol} in @models')
	.pivot(index=['chain', 'sample'],
	columns=mcol,
	values='value'))

	return expit(view[model_1] - view[model_2])

	#
	#
	#
	class DataPlotter:
	def __init__(self, df):
	self.df = df

	def plot(self):
	fig = plt.figure(dpi=200)

	ax = fig.gca()
	self.draw(ax)
	ax.grid(visible=True,
	axis='both',
	alpha=0.25,
	linestyle='dotted')
	fig.tight_layout()

	return fig

	def draw(self, ax):
	raise NotImplementedError()

	class RankPlotter(DataPlotter):
	_y = 'y'

	@ft.cached_property
	def y(self):
	return self.df[self._y]

	def __init__(self, df, top=10):
	view = rank(summarize(df), True, self._y)
	view = (view
	.tail(top)
	.sort_values(by=self._y, ascending=False))
	super().__init__(view)

	def draw(self, ax):
	self.df.plot.scatter('ability', self._y, ax=ax)
	ax.hlines(self.y,
	xmin=self.df['lower'],
	xmax=self.df['upper'],
	alpha=0.5)
	ax.set_xlabel(ax.get_xlabel().title())
	ax.set_ylabel('')
	ax.set_yticks(self.y, self.df['model'])

	class ComparisonPlotter(DataPlotter):
	def __init__(self, df, model_1, model_2, ci):
	super().__init__(compare(df, model_1, model_2))
	self.hdi = HDInterval(self.df)
	self.ci = ci

	def draw(self, ax):
	interval = self.hdi(self.ci)

	sns.ecdfplot(self.df, ax=ax)

	(_, color, *_) = sns.color_palette()
	ax.axvline(x=self.df.median(),
	color=color,
	linestyle='dashed')
	ax.axvspan(xmin=interval.lower,
	xmax=interval.upper,
	alpha=0.15,
	color=color)
	ax.set_xlabel('Pr(M$_{1}$ \u003E M$_{2}$)')

	try:
	ci_mid = self.hdi.at(0.5)
	ax.text(x=0.01,
	y=0.99,
	s=f'0.5-min HDI: {ci_mid:.0%}',
	horizontalalignment='left',
	verticalalignment='top',
	transform=ax.transAxes)
	except ArithmeticError:
	pass

	def cplot(df):
	def _plot(model_1, model_2, ci):
	cp = ComparisonPlotter(df, model_1, model_2, ci)
	return cp.plot()

	return _plot

	#
	#
	#
	class DocumentationReader:
	_suffix = '.md'

	def __init__(self, root):
	self.root = root

	def __getitem__(self, item):
	return (self
	.root
	.joinpath(item)
	.with_suffix(self._suffix)
	.read_text())

	#
	#
	#
	def layout(tab):
	df = load(Path('jerome-white', tab.dataset))
	docs = DocumentationReader(Path('docs', t.docs))

	with gr.Row():
	with gr.Column():
	gr.Markdown(docs['readme'])

	with gr.Column():
	plotter = RankPlotter(df)
	gr.Plot(plotter.plot())

	with gr.Row():
	view = rank(summarize(df), False)
	columns = { x.name: f'HDI {x.name}' for x in fields(HDI) }
	for i in view.columns:
	columns.setdefault(i, i.title())
	view = (view
	.rename(columns=columns)
	.style.format(precision=4))

	gr.Dataframe(view)

	with gr.Row():
	with gr.Column(scale=3):
	display = gr.Plot()

	with gr.Row():
	with gr.Column():
	gr.Markdown('''

	Probability that Model 1 is preferred to Model 2. The
	solid blue curve is a CDF of that distribution;
	formally the inverse logit of the difference in model
	abilities. The dashed orange vertical line is the
	median, while the band surrounding it is the [highest
	density
	interval](https://cran.r-project.org/package=HDInterval)
	of your choice (default 95%).

	''')
	with gr.Column():
	models = df['model'].unique()
	choices = sorted(models, key=lambda x: x.lower())
	partial = ft.partial(gr.Dropdown, choices=choices)
	drops = (partial(label=f'Model {x}') for x in range(1, 3))

	ci = gr.Number(value=0.95, minimum=0, maximum=1, step=1e-2)

	inputs = [
	*drops,
	ci,
	]
	button = gr.Button(value='Compare!')
	button.click(cplot(df), inputs=inputs, outputs=[display])

	with gr.Accordion('Disclaimer', open=False):
	gr.Markdown(docs['disclaimer'])

	#
	#
	#
	with gr.Blocks() as demo:
	tabs = it.starmap(TabGroup, (
	('Alpaca', 'alpaca', 'alpaca-bt-stan'),
	('Chatbot Arena', 'arena', 'arena-bt-stan'),
	))

	for t in tabs:
	with gr.Tab(t.name):
	layout(t)

	demo.launch()