TxT360 / curated.py
victormiller's picture
Update curated.py
31b08ca verified
raw
history blame
18.4 kB
from fasthtml.common import *
from fasthtml.components import *
from plotly import graph_objects as go
from fh_plotly import plotly2fasthtml
import pandas as pd
import json
from data_viewer import view_data, gen_random_id
from rich import print
import uuid
overview_text = P("Curated sources comprise high-quality datasets that contain domain-specificity. These sources, such as Arxiv, Wikipedia, and Stack Exchange, provide valuable data that is excluded from the web dataset mentioned above. Analyzing and processing non-web data can yield insights and opportunities for various applications. Details about each of the sources are provided below. ")
copyright_disclaimer = P("We respect the copyright of the data sources and have not included the controversial data that was used in Pile like YouTube and Opensubtitles, Reddit threads, and books.")
local_dedup_text = P("Each curated data source has been prepared using its specific rules and has been locally deduped using min-hash near deduplication. Details about the dataset are shown below in the table:")
data_pipeline_table = pd.DataFrame(
{
"Data Source": [
"Papers",
"Wikipedia",
"StackExchange",
"Europarl",
"Ubuntu IRC",
"HackerNews",
"PG-19",
"USPTO",
"Freelaw",
"DM Math",
],
"Percent Filtered": [
"15%",
"21%",
"<0.1%",
"1%",
"0.4%",
"60%",
"0.8%",
"22.5%",
"94%",
"0",
],
"Unique Document Percentage": [
"75.99%",
"91.91%",
"98.02%",
"98.87%",
"100%",
"99.91%",
"31.81%",
"99.94%",
"91.01%",
"0",
],
"2 - 5 Duplicates": [
"19.4%",
"4.7%",
"1.27%",
"0.94%",
"0",
"0.05%",
"20.03%",
"0.05%",
"6,87%",
"0",
],
"6 - 10 Duplicates": [
"2.89%",
"1.58%",
"0.35%",
"0.09%",
"0",
"0.02%",
"24.27%",
"0.01%",
"1.07%",
"0",
],
"11 - 100 Duplicates": [
"1.17%",
"1.76%",
"0.35%",
"0.1",
"0",
"0.02%",
"22.26%",
"0.01%",
"1.05%",
"0",
],
"101 - 1000 Duplicates": [
"0.01%",
"0.05%",
"0.01%",
"0",
"0",
"<0.01%",
"1.58%",
"<0.01%",
"0.01%",
"0",
],
"1001+ Duplicates": [
"<0.01%",
"<0.01%",
"<0.01%",
"0",
"0",
"<0.01%",
"0.06%",
"0",
"0",
"0",
],
}
)
table_html_data_pipe = data_pipeline_table.to_html(index=False, border=0)
table_div_data_pipe = Div(NotStr(table_html_data_pipe), style="margin: 40px;")
data_descriptions = pd.DataFrame(
{
"Source": [
"Papers - ArXiv",
"Papers - PhilPapers",
"Papers - S2ORC",
"Papers - PubMed Central",
"Papers - PubMed Abstract",
"Wikipedia",
"StackExchange",
"EuroParl",
"Ubuntu IRC",
"Freelaw",
"PG-19",
"USPTO",
"HackerNews",
"DM Maths",
],
"Description": [
"The ArXiv dataset is a vast collection of preprint research papers primarily in Mathematics, Computer Science, and Physics. Established in 1991, it offers high-quality text and mathematical knowledge, making it an invaluable resource for academic and scientific research. ArXiv papers are typically written in LaTeX, a popular typesetting system for these fields. We have extracted the information from latex and converted it into a text format.",
"Papers from the PhilPapers database, a comprehensive index and bibliography of philosophy research maintained by the Center for Digital Philosophy at the University of Western Ontario.",
"The Semantic Scholar Open Research Corpus (S2ORC) is a comprehensive dataset designed for natural language processing (NLP) and text-mining research over scientific papers. It includes rich metadata, and abstract and full-text content for millions of academic papers across various disciplines. This dataset is further divided into two components, S2ORC abstract and S2ORC full text.",
"The PubMed Central (PMC) dataset is a comprehensive collection of full-text biomedical and life sciences journal articles run by the United States of America’s National Center for Biotechnology Information (NCBI). It provides open access to a wealth of scientific literature, facilitating research and discovery in the medical and biological fields starting from 2008 by the NIH Public Access Policy. Articles in PMC are available for text mining and other secondary analyses, making it an invaluable resource for researchers and developers and other downstream tasks.",
"Abstracts of more than 30 million publications of biomedical literature from various sources mainly including biomedical articles run by the National Library of Medicine. ",
"Wikipedia is an encyclopedia form of high-quality text data used for language modeling. We have included filtered and deduplicated versions of complete Wikipedia data directly provided by the Wikipedia Foundation for more than 350 languages.",
"A network of question-and-answer websites on various subjects, including programming, science, mathematics, and more. This is one of the largest publicly available repositories for question-answer pairs. We have included comments also to include an overall discussion on each post.",
"A collection of multilingual parallel corpora of parliamentary debates from the European Parliament. This is a high-quality legacy dataset earlier used for translation tasks.",
"Chat logs from the Ubuntu Internet Relay Chat (IRC) channels on the Freenode IRC chat server. This data is also another form of dialog dataset on niche topics.",
"Legal documents and court cases from various jurisdictions provided by US-registered non-profit firm Free Law Project. We have included data from CourtListener which included millions of legal opinions from federal and state courts.",
"A collection of books from Project Gutenberg, a digital library of public domain works. This contains all the books that were published before 1919.",
"Patent documents from the United States Patent and Trademark Office.",
"High-quality dialog-based dataset where user comments on the links as the head post aggregated by Y Combinator.",
"DeepMind Maths dataset with generated questions from various topics like algebra, calculus, geometry, etc. Maths data is included to improve model reasoning abilities in the downstream tasks.",
],
}
)
table_html_desc = data_descriptions.to_html(index=False, border=0)
table_desc = Div(NotStr(table_html_desc), style="margin: 40px;")
data_sources = [
"Freelaw",
"Wikipedia",
"PhilPapers",
"Arxiv",
"S2ORC",
"S2ORC Abstract",
"Pubmed",
"USPTO",
"Hackernews",
"Ubuntu IRC",
"StackExchange",
"DM Maths",
"PG19",
"Europarl",
]
def get_data(data_source: str = "Freelaw", doc_id: int = 3, target: str = "foo"):
doc_id = max(0, min(int(doc_id), 9))
if data_source == "Freelaw":
raw_sample_doc = json.load(open("data/curated_samples/freelaw_raw.json"))
extracted_sample_doc = json.load(
open("data/curated_samples/freelaw_extract.json")
)
elif data_source == "Wikipedia":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/wiki.json")
)
elif data_source == "StackExchange":
raw_sample_doc = json.load(open("data/curated_samples/stackexchange_raw.json"))
extracted_sample_doc = json.load(
open("data/curated_samples/stackexchange_extract.json")
)
elif data_source == "PhilPapers":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/philpapers_raw.json")
)
elif data_source == "Arxiv":
raw_sample_doc = json.load(open("data/curated_samples/arxiv_raw.json"))
extracted_sample_doc = json.load(
open("data/curated_samples/arxiv_extract.json")
)
elif data_source == "S2ORC":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/s2orc_raw.json")
)
elif data_source == "S2ORC Abstract":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/s2orc_abstract_raw.json")
)
elif data_source == "Pubmed":
raw_sample_doc = json.load(open("data/curated_samples/pubmed_raw.json"))
extracted_sample_doc = json.load(
open("data/curated_samples/pubmed_extract.json")
)
elif data_source == "DM Maths":
raw_sample_doc = json.load(open("data/curated_samples/dm_maths_raw.json"))
extracted_sample_doc = json.load(
open("data/curated_samples/dm_maths_extract.json")
)
elif data_source == "PG19":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/pg19_raw.json")
)
elif data_source == "Europarl":
raw_sample_doc = extracted_sample_doc = json.load(
open("data/curated_samples/europarl_raw.json")
)
else:
raw_sample_doc = extracted_sample_doc = [{} for _ in range(10)]
raw_json = raw_sample_doc[doc_id]
extracted_json = extracted_sample_doc[doc_id]
return view_data(
raw_json,
extracted_json,
doc_id=doc_id,
data_source=data_source,
data_sources=data_sources,
target=target,
)
def get_chart_28168342():
fig = go.Figure()
filter_names = [
"Download",
"Language",
"Min word count",
"Title Abstract",
"Majority language",
"Paragraph count",
"Frequency",
"Unigram log probability",
"Local dedup",
]
data_sources = [
("Wikipedia", [100, 90, 80, 70, 60, 50, 40, 30, 20]),
("Freelaw", [100, 90, 80, 70, 60, 50, 40, 20, 20]),
("DM Maths", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("USPTO", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("PG19", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("Hackernews", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("Ubuntu IRC", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("Europarl", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("StackExchange", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("Arxiv", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("S2ORC", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("S2ORC Abstract", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("PubMed Central", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("PubMed Central Abstract", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
("PhilPapers", [100, 90, 80, 70, 60, 40, 40, 30, 20]),
]
for name, x_values in data_sources:
fig.add_trace(
go.Funnel(
name=name,
orientation="h",
y=filter_names,
x=x_values,
textinfo="value+percent total",
textposition="inside",
)
)
fig.update_layout(height=500, plot_bgcolor="rgba(0,0,0,0)")
return fig
def update(target: str, request):
params = request.query_params
if data_source := params.get(f"data_source_{target}"):
return get_data(
data_source, params.get(f"doc_id_{target}", 3), target)
if doc_id := params.get(f"doc_id_{target}"):
return get_data(
params.get(f"data_source_{target}"), doc_id, target)
def curated(request):
# Partial Updates
params = dict(request.query_params)
if target := params.get("target"):
if data_source := params.get(f"data_source_{target}"):
return get_data(
data_source, params.get(f"doc_id_{target}", 3), params.get("target")
)
if doc_id := params.get(f"doc_id_{target}"):
return get_data(
params.get(f"data_source_{target}"), doc_id, params.get("target")
)
data_preparation_steps = pd.DataFrame(
{
"Method": [
"HTTP/FTP dumps",
"Web crawling",
"Archive snapshot",
"Generated",
"Curated",
],
"Description": [
"Acquiring data from HTTP/FTP dumps",
"Crawling websites to extract data",
"Working with archive dumps",
"Generating synthetic data",
"High quality curated data",
],
"Source": [
"Freelaw | Wikipedia | PhilPapers | Arxiv | S2ORC | Pubmeds",
"USPTO | Hackernews | Ubuntu IRC",
"StackExchange",
"DM Maths",
"PG19 | Europarl",
],
}
)
table_html = data_preparation_steps.to_html(index=False, border=0)
table_div = Div(NotStr(table_html), style="margin: 40px;")
text = P("""This initial stage serves as the foundation for the entire
process. Here, we focus on acquiring and extracting the raw data, which can
come from various sources such as crawling websites, using HTTP/FTP dumps,
or working with archive dumps. For instance, to download and prepare a
dataset, we can specific downloaders based on the data source. Each dataset
might have its own downloader script which can be updated in real time to
handle changes in the data source. Here is a general outline of the data
preparation process: It's worth noting that some pipelines might require
invoking additional functions or scripts to handle specific data sources or
formats. These helper scripts can be located within specific directories
or modules dedicated to the dataset.""")
data_preparation_div = Div(
H3("Data Preparation"),
text,
table_div,
Div(
get_data(target=gen_random_id()),
style="border: 1px solid #ccc; padding: 20px;",
),
)
text = P("""Data preprocessing is a crucial step in the data science
pipeline. It involves cleaning and transforming raw data into a format that
is suitable for analysis. This process includes handling missing values,
normalizing data, encoding categorical variables, and more.""")
preprocessing_steps = pd.DataFrame(
{
"Step": [
"Language Filter",
"Min Word Count",
"Title Abstract",
"Majority Language",
"Paragraph Count",
"Frequency",
"Unigram Log Probability",
],
"Description": [
"Filtering data based on language",
"Setting a minimum word count threshold",
"Extracting information from the title and abstract",
"Identifying the majority language in the dataset",
"Counting the number of paragraphs in each document",
"Calculating the frequency of each word in the dataset",
"Calculating the log probability of each unigram",
],
"Need": [
"To remove documents in unwanted languages",
"To filter out documents with very few words",
"To extract relevant information for analysis",
"To understand the distribution of languages in the dataset",
"To analyze the structure and length of documents",
"To identify important words in the dataset",
"To measure the significance of individual words",
],
"Pros": [
"Improves data quality by removing irrelevant documents",
"Filters out low-quality or incomplete documents",
"Provides additional information for analysis",
"Enables language-specific analysis and insights",
"Helps understand the complexity and content of documents",
"Identifies important terms and topics in the dataset",
"Quantifies the importance of individual words",
],
"Cons": [
"May exclude documents in less common languages",
"May remove documents with valuable information",
"May introduce bias in the analysis",
"May not accurately represent the language distribution",
"May not capture the complexity of document structure",
"May be sensitive to noise and outliers",
"May not capture the semantic meaning of words",
],
}
)
table_html = preprocessing_steps.to_html(index=False, border=0)
table_div = Div(NotStr(table_html), style="margin: 40px;")
data_preprocessing_div = Div(H3("Data Preprocessing"), text, table_div)
return Div(
Section(
H2("Curated Sources"),
plotly2fasthtml(get_chart_28168342()),
data_preparation_div,
data_preprocessing_div,
id="inner-text",
)
)