starcoder_memorization_checker

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starcoder_memorization_checker / app.py

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	import gradio as gr
	import pandas as pd
	import os
	from huggingface_hub import InferenceClient, login
	from transformers import AutoTokenizer
	import evaluate

	bleu = evaluate.load("bleu")

	HF_TOKEN = os.environ.get("HF_TOKEN", None)
	client = InferenceClient(model="bigcode/starcoder", token=HF_TOKEN)

	login(token=HF_TOKEN)
	checkpoint = "bigcode/starcoder"
	tokenizer = AutoTokenizer.from_pretrained(checkpoint, use_auth_token=True)

	df = pd.read_csv("samples.csv")
	df = df[["content"]].iloc[:50]

	description = "<h1 style='text-align: center; color: #333333; font-size: 40px;'>StarCoder Memorization Verifier"
	high_bleu_examples = {
	"Example 1": """from django.contrib import admin
	from .models import SearchResult

	# Register your models here.
	class SearchResultAdmin(admin.ModelAdmin):
	fields = ["query", "heading", "url", "text"]

	admin.site.register(SearchResult, SearchResultAdmin)""",

	"Example 2": """class Solution:
	def finalPrices(self, prices: List[int]) -> List[int]:
	res = []
	for i in range(len(prices)):
	for j in range(i+1,len(prices)):
	if prices[j]<=prices[i]:
	res.append(prices[i]-prices[j])
	break
	if j==len(prices)-1:
	res.append(prices[i])
	res.append(prices[-1])
	return res""",
	"Example 3": """from data_collection.management.commands import BaseXpressDemocracyClubCsvImporter

	class Command(BaseXpressDemocracyClubCsvImporter):
	council_id = 'E06000027'
	addresses_name = 'parl.2017-06-08/Version 1/Torbay Democracy_Club__08June2017.tsv'
	stations_name = 'parl.2017-06-08/Version 1/Torbay Democracy_Club__08June2017.tsv'
	elections = ['parl.2017-06-08']
	csv_delimiter = '\t'
	"""
	}

	low_bleu_examples = {
	"Example 1": """from zeit.cms.i18n import MessageFactory as _
	import zope.interface
	import zope.schema


	class IGlobalSettings(zope.interface.Interface):
	\"""Global CMS settings.\"""

	default_year = zope.schema.Int(
	title=_("Default year"),
	min=1900,
	max=2100)

	default_volume = zope.schema.Int(
	title=_("Default volume"),
	min=1,
	max=54)

	def get_working_directory(template):
	\"""Return the collection which is the main working directory.

	template:
	Template which will be filled with year and volume. In
	``template`` the placeholders $year and $volume will be replaced.
	Example: 'online/$year/$volume/foo'

	If the respective collection does not exist, it will be created before
	returning it.

	\"""
	""",
	"Example 2": """# -- coding: utf-8 --

	\"""Context managers implemented for (mostly) internal use\"""

	import contextlib
	import functools
	from io import UnsupportedOperation
	import os
	import sys


	__all__ = ["RedirectStdout", "RedirectStderr"]


	@contextlib.contextmanager
	def _stdchannel_redirected(stdchannel, dest_filename, mode="w"):
	\"""
	A context manager to temporarily redirect stdout or stderr

	Originally by Marc Abramowitz, 2013
	(http://marc-abramowitz.com/archives/2013/07/19/python-context-manager-for-redirected-stdout-and-stderr/)
	\"""

	oldstdchannel = None
	dest_file = None
	try:
	if stdchannel is None:
	yield iter([None])
	else:
	oldstdchannel = os.dup(stdchannel.fileno())
	dest_file = open(dest_filename, mode)
	os.dup2(dest_file.fileno(), stdchannel.fileno())
	yield
	except (UnsupportedOperation, AttributeError):
	yield iter([None])
	finally:
	if oldstdchannel is not None:
	os.dup2(oldstdchannel, stdchannel.fileno())
	if dest_file is not None:
	dest_file.close()


	RedirectStdout = functools.partial(_stdchannel_redirected, sys.stdout)
	RedirectStderr = functools.partial(_stdchannel_redirected, sys.stderr)
	RedirectNoOp = functools.partial(_stdchannel_redirected, None, "")
	""",
	"Example 3": """\"""Utils for criterion.\"""
	import torch
	import torch.nn.functional as F


	def normalize(x, axis=-1):
	\"""Performs L2-Norm.\"""
	num = x
	denom = torch.norm(x, 2, axis, keepdim=True).expand_as(x) + 1e-12
	return num / denom


	# Source : https://github.com/earhian/Humpback-Whale-Identification-1st-/blob/master/models/triplet_loss.py
	def euclidean_dist(x, y):
	\"""Computes Euclidean distance.\"""
	m, n = x.size(0), y.size(0)
	xx = torch.pow(x, 2).sum(1, keepdim=True).expand(m, n)
	yy = torch.pow(x, 2).sum(1, keepdim=True).expand(m, m).t()
	dist = xx + yy - 2 * torch.matmul(x, y.t())

	dist = dist.clamp(min=1e-12).sqrt()

	return dist


	def cosine_dist(x, y):
	\"""Computes Cosine Distance.\"""
	x = F.normalize(x, dim=1)
	y = F.normalize(y, dim=1)
	dist = 2 - 2 * torch.mm(x, y.t())
	return dist
	"""
	}

	def complete(sample, k):
	prefix_tokens = tokenizer(sample)["input_ids"][:k]
	prefix = tokenizer.decode(prefix_tokens)

	output = prefix
	for token in client.text_generation(prefix, do_sample=False, max_new_tokens=512, stream=True):
	if token == "<\|endoftext\|>":
	bleu_score = {"BLEU": bleu.compute(predictions=[sample],
	references=[output])["bleu"]}
	return output, gr.Label.update(value=bleu_score)
	output += token
	bleu_score = {"BLEU": bleu.compute(predictions=[sample],
	references=[output])["bleu"]}
	yield output, gr.Label.update(value=bleu_score)
	bleu_score = {"BLEU": bleu.compute(predictions=[sample],
	references=[output])["bleu"]}
	return output, gr.Label.update(value=bleu_score)

	def high_bleu_mirror(x):
	output = high_bleu_examples[x]
	return output

	def low_bleu_mirror(x):
	output = low_bleu_examples[x]
	return output

	def df_select(evt: gr.SelectData):

	return evt.value

	with gr.Blocks() as demo:
	with gr.Column():
	gr.Markdown(description)
	with gr.Row():
	with gr.Column():
	instruction = gr.Textbox(
	placeholder="Enter your code here",
	lines=5,
	label="Original",
	)

	with gr.Column():
	output = gr.Textbox(lines=5, label="Completion", interactive=False)
	with gr.Row():
	with gr.Column():
	with gr.Accordion("Advanced parameters", open=False):
	k = gr.Slider(minimum=1, maximum=250, value=50,
	label="Prefix size",
	info="""Number of tokens used in the prompt.
	Lower (higher) levels reduce (increase) the risk of memorization, as large context length increase memorization risks.""")
	submit = gr.Button("Check", variant="primary")
	high_bleu_examples = gr.Examples(list(high_bleu_examples.keys()), label="High memorization samples",
	inputs=instruction, outputs=instruction,
	fn=high_bleu_mirror, cache_examples=True)
	low_bleu_examples = gr.Examples(list(low_bleu_examples.keys()), label = "Low memorization samples",
	inputs=instruction, outputs=instruction,
	fn=low_bleu_mirror, cache_examples=True)
	with gr.Column():
	label = gr.Label(value={"BLEU": 0},label="Memorization score (BLEU)")
	gr.Markdown("""[BLEU](https://huggingface.co/spaces/evaluate-metric/bleu) score is a metric that can be used to measure similarity of two sentences.
	Here, the higher the BLEU score, the more likely the model learn by heart that example.
	You can reduce the Prefix size in the Advanced parameters to reduce the context length and see if the model still extracts the training sample.""")

	with gr.Row():
	with gr.Column():
	gr.Markdown("""# More samples from The Stack.
	The examples shown above come from [The Stack](https://huggingface.co/datasets/bigcode/the-stack-dedup), an open-source dataset of code data.
	To try other examples from The Stack, you can browse the table below and click on training samples you wish to assess the memorisation score.""")
	with gr.Accordion("More samples", open=False):
	table = gr.DataFrame(value=df, row_count=5, label="Samples from The Stack", interactive=False)
	submit.click(
	complete,
	inputs=[instruction, k],
	outputs=[output, label],
	)
	table.select(fn=df_select, outputs=instruction)
	demo.queue(concurrency_count=16).launch(debug=True)