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major upgrade to v2.0
Browse files- absts/.DS_Store +0 -0
- app.py +981 -53
- local_files/astro_ph_ga_feeds_ada_embedding_27-Jun-2023.pkl β data/data-00000-of-00012.arrow +2 -2
- local_files/astro_ph_ga_embedding_16-Jun-2024.pkl β data/data-00001-of-00012.arrow +2 -2
- local_files/astro_ph_ga_embedding_27-Jun-2023.pkl β data/data-00002-of-00012.arrow +2 -2
- local_files/astro_ph_ga_feeds_ada_embedding_16-Jun-2024.pkl β data/data-00003-of-00012.arrow +2 -2
- data/data-00004-of-00012.arrow +3 -0
- data/data-00005-of-00012.arrow +3 -0
- data/data-00006-of-00012.arrow +3 -0
- data/data-00007-of-00012.arrow +3 -0
- data/data-00008-of-00012.arrow +3 -0
- data/data-00009-of-00012.arrow +3 -0
- data/data-00010-of-00012.arrow +3 -0
- data/data-00011-of-00012.arrow +3 -0
- data/dataset_info.json +188 -0
- data/state.json +46 -0
- local_files/astro_ph_ga_feeds_upto_16-Jun-2024.pkl +0 -3
- local_files/astro_ph_ga_feeds_upto_27-Jun-2023.pkl +0 -3
- pages/.ipynb_checkpoints/Untitled-checkpoint.ipynb +0 -6
- pages/1_arxiv_embedding_explorer.py +0 -121
- pages/2_paper_search.py +0 -201
- pages/3_answering_questions.py +0 -352
- pages/4_author_search.py +0 -138
- pages/5_research_hotspots.py +0 -130
- pages/6_qa_sources_v1.py +0 -286
- pages/7_answering_questions_2024.py +0 -352
- pages/8_arxiv_embedding_explorer_2024.py +0 -121
- pages/9_research_hotspots_2024.py +0 -130
- pages/Untitled.ipynb +0 -6
- requirements.txt +10 -0
absts/.DS_Store
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app.py
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import streamlit as st
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st.sidebar.success("Select a function above.")
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st.sidebar.markdown("Current functions include visualizing papers in the arxiv embedding, searching for similar papers to an input paper or prompt phrase, or answering quick questions.")
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"""
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visualizing papers on the [arXiv](https://arxiv.org/) using the context
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sensitivity from modern large language models (LLMs) to better link paper contexts.
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**π Select a tool from the sidebar** to see some examples
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of what this framework can do!
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### Tool summary:
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- `Paper search` looks for relevant papers given an arxiv id or a question.
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- `Arxiv embedding` shows the landscape of current galaxy evolution papers (astro-ph.GA)
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- `Answering questions` brings it all together using RAG to give concise answers to questions with primary sources and relevant papers.
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- `Author search` uses a list of authors for the papers to visualize trajectories of individual researchers or groups over time.
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- `Research hotspots` uses paper ages to visualize excess research at a particular time in the past in different parts of the embedding space.
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This is not meant to be a replacement to existing tools like the
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[ADS](https://ui.adsabs.harvard.edu/),
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[arxivsorter](https://www.arxivsorter.org/), but rather a supplement to find papers
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that otherwise might be missed during a literature survey.
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It is also only trained on astro-ph.GA (astrophysics of galaxies) papers currently,
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if you are interested in extending it please reach out!
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The image below shows a representation of all the astro-ph.GA papers that can be explored in more detail
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using the `Arxiv embedding` page. The papers tend to cluster together by similarity, and result in an
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atlas that shows well studied (forests) and currently uncharted areas (water).
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"""
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"""
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import streamlit as st
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st.set_page_config(layout="wide")
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import numpy as np
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from abc import ABC, abstractmethod
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from typing import List, Dict, Any, Tuple
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from collections import defaultdict
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from tqdm import tqdm
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import pandas as pd
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from datetime import datetime, date
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from datasets import load_dataset, load_from_disk
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from collections import Counter
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import yaml, json, requests, sys, os, time
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import concurrent.futures
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from langchain import hub
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from langchain_openai import ChatOpenAI as openai_llm
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from langchain_openai import OpenAIEmbeddings
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from langchain_core.runnables import RunnableConfig, RunnablePassthrough, RunnableParallel
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from langchain_core.prompts import PromptTemplate
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from langchain_community.callbacks import StreamlitCallbackHandler
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from langchain_community.utilities import DuckDuckGoSearchAPIWrapper
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from langchain_community.vectorstores import Chroma
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from langchain_community.document_loaders import TextLoader
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from langchain.agents import create_react_agent, Tool, AgentExecutor
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from langchain.text_splitter import RecursiveCharacterTextSplitter
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from langchain_core.output_parsers import StrOutputParser
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+
from langchain.callbacks import FileCallbackHandler
|
30 |
+
from langchain.callbacks.manager import CallbackManager
|
31 |
+
|
32 |
+
import instructor
|
33 |
+
from pydantic import BaseModel, Field
|
34 |
+
from typing import List, Literal
|
35 |
+
|
36 |
+
from nltk.corpus import stopwords
|
37 |
+
import nltk
|
38 |
+
from openai import OpenAI
|
39 |
+
# import anthropic
|
40 |
+
import cohere
|
41 |
+
import faiss
|
42 |
+
|
43 |
+
import spacy
|
44 |
+
from string import punctuation
|
45 |
+
import pytextrank
|
46 |
+
|
47 |
+
from bokeh.plotting import figure
|
48 |
+
from bokeh.models import ColumnDataSource
|
49 |
+
from bokeh.io import output_notebook
|
50 |
+
from bokeh.palettes import Spectral5
|
51 |
+
from bokeh.transform import linear_cmap
|
52 |
+
|
53 |
+
ts = time.time()
|
54 |
+
st.session_state.ts = ts
|
55 |
+
|
56 |
+
openai_key = st.secrets["openai_key"]
|
57 |
+
# cohere_key = st.secrets['cohere_key']
|
58 |
+
cohere_key = 'Of1MjzFjGmvzBAqdvNHTQLkAjecPcOKpiIPAnFMn'
|
59 |
+
|
60 |
+
if 'nlp' not in st.session_state:
|
61 |
+
nlp = spacy.load("en_core_web_sm")
|
62 |
+
nlp.add_pipe("textrank")
|
63 |
+
st.session_state.nlp = nlp
|
64 |
+
|
65 |
+
try:
|
66 |
+
stopwords.words('english')
|
67 |
+
except:
|
68 |
+
nltk.download('stopwords')
|
69 |
+
stopwords.words('english')
|
70 |
+
|
71 |
+
st.session_state.gen_llm = openai_llm(temperature=0,
|
72 |
+
model_name='gpt-4o-mini',
|
73 |
+
openai_api_key = openai_key)
|
74 |
+
st.session_state.consensus_client = instructor.patch(OpenAI(api_key=openai_key))
|
75 |
+
st.session_state.embed_client = OpenAI(api_key = openai_key)
|
76 |
+
embed_model = "text-embedding-3-small"
|
77 |
+
st.session_state.embeddings = OpenAIEmbeddings(model = embed_model, api_key = openai_key)
|
78 |
+
|
79 |
+
st.image('local_files/pathfinder_logo.png')
|
80 |
+
|
81 |
+
st.expander("What is Pathfinder / How do I use it?", expanded=False).write(
|
82 |
+
"""
|
83 |
+
Pathfinder v2.0 is a framework for searching and visualizing astronomy papers on the [arXiv](https://arxiv.org/) and [ADS](https://ui.adsabs.harvard.edu/) using the context
|
84 |
+
sensitivity from modern large language models (LLMs) to better parse patterns in paper contexts.
|
85 |
+
|
86 |
+
This tool was built during the [JSALT workshop](https://www.clsp.jhu.edu/2024-jelinek-summer-workshop-on-speech-and-language-technology/) to do awesome things.
|
87 |
+
|
88 |
+
**π Use the sidebar to tweak the search parameters to get better results**.
|
89 |
+
|
90 |
+
### Tool summary:
|
91 |
+
- Please wait while the initial data loads and compiles, this takes about a minute initially.
|
92 |
+
|
93 |
+
This is not meant to be a replacement to existing tools like the
|
94 |
+
[ADS](https://ui.adsabs.harvard.edu/),
|
95 |
+
[arxivsorter](https://www.arxivsorter.org/), semantic search or google scholar, but rather a supplement to find papers
|
96 |
+
that otherwise might be missed during a literature survey.
|
97 |
+
It is trained on astro-ph (astrophysics of galaxies) papers up to last-year-ish mined from arxiv and supplemented with ADS metadata,
|
98 |
+
if you are interested in extending it please reach out!
|
99 |
+
|
100 |
+
Also add: feedback form, socials, literature, contact us, copyright, collaboration, etc.
|
101 |
+
|
102 |
+
The image below shows a representation of all the astro-ph.GA papers that can be explored in more detail
|
103 |
+
using the `Arxiv embedding` page. The papers tend to cluster together by similarity, and result in an
|
104 |
+
atlas that shows well studied (forests) and currently uncharted areas (water).
|
105 |
+
"""
|
106 |
+
)
|
107 |
+
|
108 |
+
|
109 |
+
st.sidebar.header("Fine-tune the search")
|
110 |
+
top_k = st.sidebar.slider("Number of papers to retrieve:", 3, 30, 10)
|
111 |
+
extra_keywords = st.sidebar.text_input("Enter extra keywords (comma-separated):")
|
112 |
+
|
113 |
+
st.sidebar.subheader("Toggles")
|
114 |
+
toggle_a = st.sidebar.toggle("Weight by keywords", value = False)
|
115 |
+
toggle_b = st.sidebar.toggle("Weight by date", value = False)
|
116 |
+
toggle_c = st.sidebar.toggle("Weight by citations", value = False)
|
117 |
+
|
118 |
+
method = st.sidebar.radio("Retrieval method:", ["Semantic search", "Semantic search + HyDE", "Semantic search + HyDE + CoHERE"], index=2)
|
119 |
+
|
120 |
+
method2 = st.sidebar.radio("Generation complexity:", ["Basic RAG","ReAct Agent"])
|
121 |
+
|
122 |
+
question_type = st.sidebar.selectbox("Select question type:", ["Multi-paper (Default)", "Single-paper", "Bibliometric", "Broad but nuanced"])
|
123 |
+
st.session_state.question_type = question_type
|
124 |
+
# store_output = st.sidebar.button("Save output")
|
125 |
+
|
126 |
+
query = st.text_input("Ask me anything:")
|
127 |
+
submit_button = st.button("Run pathfinder!")
|
128 |
+
|
129 |
+
search_text_list = ['rooting around in the paper pile...','looking for clarity...','scanning the event horizon...','peering into the abyss...','potatoes power this ongoing search...']
|
130 |
+
|
131 |
+
if 'arxiv_corpus' not in st.session_state:
|
132 |
+
with st.spinner('loading data (please wait for this to finish before querying)...'):
|
133 |
+
# try:
|
134 |
+
arxiv_corpus = load_from_disk('data/')
|
135 |
+
# except:
|
136 |
+
# st.write('downloading data')
|
137 |
+
# arxiv_corpus = load_dataset('kiyer/pathfinder_arxiv_data',split='train')
|
138 |
+
# # arxiv_corpus = load_dataset('kiyer/pathfinder_arxiv_data_galaxy',split='train')
|
139 |
+
# arxiv_corpus.save_to_disk('data/')
|
140 |
+
arxiv_corpus.add_faiss_index('embed')
|
141 |
+
st.session_state.arxiv_corpus = arxiv_corpus
|
142 |
+
st.toast('loaded arxiv corpus')
|
143 |
+
|
144 |
+
if 'ids' not in st.session_state:
|
145 |
+
with st.spinner('making the LLM talk to the astro papers...'):
|
146 |
+
st.session_state.ids = st.session_state.arxiv_corpus['ads_id']
|
147 |
+
st.session_state.titles = st.session_state.arxiv_corpus['title']
|
148 |
+
st.session_state.abstracts = st.session_state.arxiv_corpus['abstract']
|
149 |
+
st.session_state.authors = st.session_state.arxiv_corpus['authors']
|
150 |
+
st.session_state.cites = st.session_state.arxiv_corpus['cites']
|
151 |
+
st.session_state.years = st.session_state.arxiv_corpus['date']
|
152 |
+
st.session_state.kws = st.session_state.arxiv_corpus['keywords']
|
153 |
+
st.session_state.ads_kws = st.session_state.arxiv_corpus['ads_keywords']
|
154 |
+
st.session_state.bibcode = st.session_state.arxiv_corpus['bibcode']
|
155 |
+
st.session_state.umap_x = st.session_state.arxiv_corpus['umap_x']
|
156 |
+
st.session_state.umap_y = st.session_state.arxiv_corpus['umap_y']
|
157 |
+
st.toast('done caching. time taken: %.2f sec' %(time.time()-ts))
|
158 |
+
|
159 |
+
def get_keywords(text):
|
160 |
+
result = []
|
161 |
+
pos_tag = ['PROPN', 'ADJ', 'NOUN']
|
162 |
+
doc = st.session_state.nlp(text.lower())
|
163 |
+
for token in doc:
|
164 |
+
if(token.text in st.session_state.nlp.Defaults.stop_words or token.text in punctuation):
|
165 |
+
continue
|
166 |
+
if(token.pos_ in pos_tag):
|
167 |
+
result.append(token.text)
|
168 |
+
return result
|
169 |
+
|
170 |
+
def parse_doc(text, nret = 10):
|
171 |
+
local_kws = []
|
172 |
+
doc = st.session_state.nlp(text)
|
173 |
+
# examine the top-ranked phrases in the document
|
174 |
+
for phrase in doc._.phrases[:nret]:
|
175 |
+
# print(phrase.text)
|
176 |
+
local_kws.append(phrase.text)
|
177 |
+
return local_kws
|
178 |
+
|
179 |
+
class EmbeddingRetrievalSystem():
|
180 |
+
|
181 |
+
def __init__(self, weight_citation = False, weight_date = False, weight_keywords = False):
|
182 |
+
|
183 |
+
self.ids = st.session_state.ids
|
184 |
+
self.years = st.session_state.years
|
185 |
+
self.abstract = st.session_state.abstracts
|
186 |
+
self.client = OpenAI(api_key = openai_key)
|
187 |
+
self.embed_model = "text-embedding-3-small"
|
188 |
+
self.dataset = st.session_state.arxiv_corpus
|
189 |
+
self.kws = st.session_state.kws
|
190 |
+
self.cites = st.session_state.cites
|
191 |
+
|
192 |
+
self.weight_citation = weight_citation
|
193 |
+
self.weight_date = weight_date
|
194 |
+
self.weight_keywords = weight_keywords
|
195 |
+
self.id_to_index = {self.ids[i]: i for i in range(len(self.ids))}
|
196 |
+
|
197 |
+
# self.citation_filter = CitationFilter(self.dataset)
|
198 |
+
# self.date_filter = DateFilter(self.dataset['date'])
|
199 |
+
# self.keyword_filter = KeywordFilter(corpus=self.dataset, remove_capitals=True)
|
200 |
+
|
201 |
+
def parse_date(self, id):
|
202 |
+
# indexval = np.where(self.ids == id)[0][0]
|
203 |
+
indexval = id
|
204 |
+
return self.years[indexval]
|
205 |
+
|
206 |
+
def make_embedding(self, text):
|
207 |
+
str_embed = self.client.embeddings.create(input = [text], model = self.embed_model).data[0].embedding
|
208 |
+
return str_embed
|
209 |
+
|
210 |
+
def embed_batch(self, texts: List[str]) -> List[np.ndarray]:
|
211 |
+
embeddings = self.client.embeddings.create(input=texts, model=self.embed_model).data
|
212 |
+
return [np.array(embedding.embedding, dtype=np.float32) for embedding in embeddings]
|
213 |
+
|
214 |
+
def get_query_embedding(self, query):
|
215 |
+
return self.make_embedding(query)
|
216 |
+
|
217 |
+
def analyze_temporal_query(self, query):
|
218 |
+
return
|
219 |
+
|
220 |
+
def calc_faiss(self, query_embedding, top_k = 100):
|
221 |
+
# xq = query_embedding.reshape(-1,1).T.astype('float32')
|
222 |
+
# D, I = self.index.search(xq, top_k)
|
223 |
+
# return I[0], D[0]
|
224 |
+
tmp = self.dataset.search('embed', query_embedding, k=top_k)
|
225 |
+
return [tmp.indices, tmp.scores]
|
226 |
+
|
227 |
+
def rank_and_filter(self, query, query_embedding, query_date, top_k = 10, return_scores=False, time_result=None):
|
228 |
+
|
229 |
+
# st.write('status')
|
230 |
+
|
231 |
+
# st.write('toggles', self.toggles)
|
232 |
+
# st.write('question_type', self.question_type)
|
233 |
+
# st.write('rag method', self.rag_method)
|
234 |
+
# st.write('gen method', self.gen_method)
|
235 |
+
|
236 |
+
self.weight_keywords = self.toggles["Keyword weighting"]
|
237 |
+
self.weight_date = self.toggles["Time weighting"]
|
238 |
+
self.weight_citation = self.toggles["Citation weighting"]
|
239 |
+
|
240 |
+
topk_indices, similarities = self.calc_faiss(np.array(query_embedding), top_k = 1000)
|
241 |
+
similarities = 1/similarities # converting from a distance (less is better) to a similarity (more is better)
|
242 |
+
|
243 |
+
query_kws = get_keywords(query)
|
244 |
+
input_kws = self.query_input_keywords
|
245 |
+
query_kws = query_kws + input_kws
|
246 |
+
self.query_kws = query_kws
|
247 |
+
|
248 |
+
if self.weight_keywords == True:
|
249 |
+
sub_kws = [self.kws[i] for i in topk_indices]
|
250 |
+
kw_weight = np.zeros((len(topk_indices),)) + 0.1
|
251 |
+
|
252 |
+
for k in query_kws:
|
253 |
+
for i in (range(len(topk_indices))):
|
254 |
+
for j in range(len(sub_kws[i])):
|
255 |
+
if k.lower() in sub_kws[i][j].lower():
|
256 |
+
kw_weight[i] = kw_weight[i] + 0.1
|
257 |
+
# print(i, k, sub_kws[i][j])
|
258 |
+
|
259 |
+
# kw_weight = kw_weight**0.36 / np.amax(kw_weight**0.36)
|
260 |
+
kw_weight = kw_weight / np.amax(kw_weight)
|
261 |
+
else:
|
262 |
+
kw_weight = np.ones((len(topk_indices),))
|
263 |
+
|
264 |
+
if self.weight_date == True:
|
265 |
+
sub_dates = [self.years[i] for i in topk_indices]
|
266 |
+
date = datetime.now().date()
|
267 |
+
date_diff = np.array([((date - i).days / 365.) for i in sub_dates])
|
268 |
+
# age_weight = (1 + np.exp(date_diff/2.1))**(-1) + 0.5
|
269 |
+
age_weight = (1 + np.exp(date_diff/0.7))**(-1)
|
270 |
+
age_weight = age_weight / np.amax(age_weight)
|
271 |
+
else:
|
272 |
+
age_weight = np.ones((len(topk_indices),))
|
273 |
+
|
274 |
+
if self.weight_citation == True:
|
275 |
+
# st.write('weighting by citations')
|
276 |
+
sub_cites = np.array([self.cites[i] for i in topk_indices])
|
277 |
+
temp = sub_cites.copy()
|
278 |
+
temp[sub_cites > 300] = 300.
|
279 |
+
cite_weight = (1 + np.exp((300-temp)/42.0))**(-1.)
|
280 |
+
cite_weight = cite_weight / np.amax(cite_weight)
|
281 |
+
else:
|
282 |
+
cite_weight = np.ones((len(topk_indices),))
|
283 |
+
|
284 |
+
similarities = similarities * (kw_weight) * (age_weight) * (cite_weight)
|
285 |
+
|
286 |
+
filtered_results = [[topk_indices[i], similarities[i]] for i in range(len(similarities))]
|
287 |
+
top_results = sorted(filtered_results, key=lambda x: x[1], reverse=True)[:top_k]
|
288 |
+
|
289 |
+
if return_scores:
|
290 |
+
return {doc[0]: doc[1] for doc in top_results}
|
291 |
+
|
292 |
+
# Only keep the document IDs
|
293 |
+
top_results = [doc[0] for doc in top_results]
|
294 |
+
return top_results
|
295 |
+
|
296 |
+
def retrieve(self, query, top_k, time_result=None, query_date = None, return_scores = False):
|
297 |
+
|
298 |
+
query_embedding = self.get_query_embedding(query)
|
299 |
+
|
300 |
+
# Judge time relevance
|
301 |
+
if time_result is None:
|
302 |
+
if self.weight_date:
|
303 |
+
time_result, time_taken = self.analyze_temporal_query(query, self.anthropic_client)
|
304 |
+
else:
|
305 |
+
time_result = {'has_temporal_aspect': False, 'expected_year_filter': None, 'expected_recency_weight': None}
|
306 |
+
|
307 |
+
top_results = self.rank_and_filter(query,
|
308 |
+
query_embedding,
|
309 |
+
query_date,
|
310 |
+
top_k,
|
311 |
+
return_scores = return_scores,
|
312 |
+
time_result = time_result)
|
313 |
+
|
314 |
+
return top_results
|
315 |
+
|
316 |
+
class HydeRetrievalSystem(EmbeddingRetrievalSystem):
|
317 |
+
def __init__(self, generation_model: str = "claude-3-haiku-20240307",
|
318 |
+
embedding_model: str = "text-embedding-3-small",
|
319 |
+
temperature: float = 0.5,
|
320 |
+
max_doclen: int = 500,
|
321 |
+
generate_n: int = 1,
|
322 |
+
embed_query = True,
|
323 |
+
conclusion = False, **kwargs):
|
324 |
+
|
325 |
+
# Handle the kwargs for the superclass init -- filters/citation weighting
|
326 |
+
super().__init__(**kwargs)
|
327 |
+
|
328 |
+
if max_doclen * generate_n > 8191:
|
329 |
+
raise ValueError("Too many tokens. Please reduce max_doclen or generate_n.")
|
330 |
+
|
331 |
+
self.embedding_model = embedding_model
|
332 |
+
self.generation_model = generation_model
|
333 |
+
|
334 |
+
# HYPERPARAMETERS
|
335 |
+
self.temperature = temperature # generation temperature
|
336 |
+
self.max_doclen = max_doclen # max tokens for generation
|
337 |
+
self.generate_n = generate_n # how many documents
|
338 |
+
self.embed_query = embed_query # embed the query vector?
|
339 |
+
self.conclusion = conclusion # generate conclusion as well?
|
340 |
+
|
341 |
+
# self.anthropic_key = anthropic_key
|
342 |
+
# self.generation_client = anthropic.Anthropic(api_key = self.anthropic_key)
|
343 |
+
self.generation_client = openai_llm(temperature=0,model_name='gpt-4o-mini', openai_api_key = openai_key)
|
344 |
+
|
345 |
+
def retrieve(self, query: str, top_k: int = 10, return_scores = False, time_result = None) -> List[Tuple[str, str, float]]:
|
346 |
+
if time_result is None:
|
347 |
+
if self.weight_date: time_result, time_taken = analyze_temporal_query(query, self.anthropic_client)
|
348 |
+
else: time_result = {'has_temporal_aspect': False, 'expected_year_filter': None, 'expected_recency_weight': None}
|
349 |
+
|
350 |
+
docs = self.generate_docs(query)
|
351 |
+
st.expander('Abstract generated with hyde', expanded=False).write(docs)
|
352 |
+
|
353 |
+
doc_embeddings = self.embed_docs(docs)
|
354 |
+
|
355 |
+
if self.embed_query:
|
356 |
+
query_emb = self.embed_docs([query])[0]
|
357 |
+
doc_embeddings.append(query_emb)
|
358 |
+
|
359 |
+
embedding = np.mean(np.array(doc_embeddings), axis = 0)
|
360 |
+
|
361 |
+
top_results = self.rank_and_filter(query, embedding, query_date=None, top_k = top_k, return_scores = return_scores, time_result = time_result)
|
362 |
+
|
363 |
+
return top_results
|
364 |
+
|
365 |
+
def generate_doc(self, query: str):
|
366 |
+
prompt = """You are an expert astronomer. Given a scientific query, generate the abstract of an expert-level research paper
|
367 |
+
that answers the question. Stick to a maximum length of {} tokens and return just the text of the abstract and conclusion.
|
368 |
+
Do not include labels for any section. Use research-specific jargon.""".format(self.max_doclen)
|
369 |
+
# st.write('invoking hyde generation')
|
370 |
+
|
371 |
+
# message = self.generation_client.messages.create(
|
372 |
+
# model = self.generation_model,
|
373 |
+
# max_tokens = self.max_doclen,
|
374 |
+
# temperature = self.temperature,
|
375 |
+
# system = prompt,
|
376 |
+
# messages=[{ "role": "user",
|
377 |
+
# "content": [{"type": "text", "text": query,}] }]
|
378 |
+
# )
|
379 |
+
# return message.content[0].text
|
380 |
+
|
381 |
+
messages = [("system",prompt,),("human", query),]
|
382 |
+
return self.generation_client.invoke(messages).content
|
383 |
+
|
384 |
+
|
385 |
+
|
386 |
+
def generate_docs(self, query: str):
|
387 |
+
docs = []
|
388 |
+
for i in range(self.generate_n):
|
389 |
+
docs.append(self.generate_doc(query))
|
390 |
+
return docs
|
391 |
+
|
392 |
+
def embed_docs(self, docs: List[str]):
|
393 |
+
return self.embed_batch(docs)
|
394 |
+
|
395 |
+
class HydeCohereRetrievalSystem(HydeRetrievalSystem):
|
396 |
+
def __init__(self, **kwargs):
|
397 |
+
super().__init__(**kwargs)
|
398 |
+
|
399 |
+
self.cohere_key = cohere_key
|
400 |
+
self.cohere_client = cohere.Client(self.cohere_key)
|
401 |
+
|
402 |
+
def retrieve(self, query: str,
|
403 |
+
top_k: int = 10,
|
404 |
+
rerank_top_k: int = 250,
|
405 |
+
return_scores = False, time_result = None,
|
406 |
+
reweight = False) -> List[Tuple[str, str, float]]:
|
407 |
+
|
408 |
+
if time_result is None:
|
409 |
+
if self.weight_date: time_result, time_taken = analyze_temporal_query(query, self.anthropic_client)
|
410 |
+
else: time_result = {'has_temporal_aspect': False, 'expected_year_filter': None, 'expected_recency_weight': None}
|
411 |
+
|
412 |
+
top_results = super().retrieve(query, top_k = rerank_top_k, time_result = time_result)
|
413 |
+
|
414 |
+
# doc_texts = self.get_document_texts(top_results)
|
415 |
+
# docs_for_rerank = [f"Abstract: {doc['abstract']}\nConclusions: {doc['conclusions']}" for doc in doc_texts]
|
416 |
+
docs_for_rerank = [self.abstract[i] for i in top_results]
|
417 |
+
|
418 |
+
if len(docs_for_rerank) == 0:
|
419 |
+
return []
|
420 |
+
|
421 |
+
reranked_results = self.cohere_client.rerank(
|
422 |
+
query=query,
|
423 |
+
documents=docs_for_rerank,
|
424 |
+
model='rerank-english-v3.0',
|
425 |
+
top_n=top_k
|
426 |
+
)
|
427 |
+
|
428 |
+
final_results = []
|
429 |
+
for result in reranked_results.results:
|
430 |
+
doc_id = top_results[result.index]
|
431 |
+
doc_text = docs_for_rerank[result.index]
|
432 |
+
score = float(result.relevance_score)
|
433 |
+
final_results.append([doc_id, "", score])
|
434 |
+
|
435 |
+
if reweight:
|
436 |
+
if time_result['has_temporal_aspect']:
|
437 |
+
final_results = self.date_filter.filter(final_results, time_score = time_result['expected_recency_weight'])
|
438 |
+
|
439 |
+
if self.weight_citation: self.citation_filter.filter(final_results)
|
440 |
+
|
441 |
+
if return_scores:
|
442 |
+
return {result[0]: result[2] for result in final_results}
|
443 |
+
|
444 |
+
return [doc[0] for doc in final_results]
|
445 |
+
|
446 |
+
def embed_docs(self, docs: List[str]):
|
447 |
+
return self.embed_batch(docs)
|
448 |
+
|
449 |
+
# --------- other fns ------------------
|
450 |
+
|
451 |
+
def get_topk(query, top_k):
|
452 |
+
print('running retrieval')
|
453 |
+
rs = st.session_state.ec.retrieve(query, top_k, return_scores=True)
|
454 |
+
return rs
|
455 |
+
|
456 |
+
def Library(query, top_k = 7):
|
457 |
+
rs = get_topk(query, top_k = top_k)
|
458 |
+
op_docs = ''
|
459 |
+
for paperno, i in enumerate(rs):
|
460 |
+
op_docs = op_docs + 'Paper %.0f:' %(paperno+1) +' (published in '+st.session_state.bibcode[i][0:4] + ') ' + st.session_state.titles[i] + '\n' + st.session_state.abstracts[i] + '\n\n'
|
461 |
+
|
462 |
+
return op_docs
|
463 |
+
|
464 |
+
def Library2(query, top_k = 7):
|
465 |
+
rs = get_topk(query, top_k = top_k)
|
466 |
+
absts, fnames = [], []
|
467 |
+
for paperno, i in enumerate(rs):
|
468 |
+
absts.append(st.session_state.abstracts[i])
|
469 |
+
fnames.append(st.session_state.bibcode[i])
|
470 |
+
return absts, fnames, rs
|
471 |
+
|
472 |
+
def get_paper_df(ids):
|
473 |
+
|
474 |
+
papers, scores, yrs, links, cites, kws, authors, absts = [], [], [], [], [], [], [], []
|
475 |
+
for i in ids:
|
476 |
+
papers.append(st.session_state.titles[i])
|
477 |
+
scores.append(ids[i])
|
478 |
+
links.append('https://ui.adsabs.harvard.edu/abs/'+st.session_state.bibcode[i]+'/abstract')
|
479 |
+
yrs.append(st.session_state.bibcode[i][0:4])
|
480 |
+
cites.append(st.session_state.cites[i])
|
481 |
+
authors.append(st.session_state.authors[i][0])
|
482 |
+
kws.append(st.session_state.ads_kws[i])
|
483 |
+
absts.append(st.session_state.abstracts[i])
|
484 |
+
|
485 |
+
return pd.DataFrame({
|
486 |
+
'Title': papers,
|
487 |
+
'Relevance': scores,
|
488 |
+
'Lead author': authors,
|
489 |
+
'Year': yrs,
|
490 |
+
'ADS Link': links,
|
491 |
+
'Citations': cites,
|
492 |
+
'Keywords': kws,
|
493 |
+
'Abstract': absts
|
494 |
+
})
|
495 |
+
|
496 |
+
def extract_keywords(question, ec):
|
497 |
+
# Simulated keyword extraction (replace with actual logic)
|
498 |
+
return ['keyword1', 'keyword2', 'keyword3']
|
499 |
+
|
500 |
+
# Function to estimate consensus (replace with actual implementation)
|
501 |
+
def estimate_consensus():
|
502 |
+
# Simulated consensus estimation (replace with actual calculation)
|
503 |
+
return 0.75
|
504 |
+
|
505 |
+
|
506 |
+
def run_agent_qa(query, top_k):
|
507 |
+
|
508 |
+
# define tools
|
509 |
+
search = DuckDuckGoSearchAPIWrapper()
|
510 |
+
tools = [
|
511 |
+
Tool(
|
512 |
+
name="Library",
|
513 |
+
func=Library,
|
514 |
+
description="A source of information pertinent to your question. Do not answer a question without consulting this!"
|
515 |
+
),
|
516 |
+
Tool(
|
517 |
+
name="Search",
|
518 |
+
func=search.run,
|
519 |
+
description="useful for when you need to look up knowledge about common topics or current events",
|
520 |
+
)
|
521 |
+
]
|
522 |
+
|
523 |
+
if 'tools' not in st.session_state:
|
524 |
+
st.session_state.tools = tools
|
525 |
+
|
526 |
+
# define prompt
|
527 |
+
|
528 |
+
# for another question type:
|
529 |
+
# First, find the quotes from the document that are most relevant to answering the question, and then print them in numbered order.
|
530 |
+
# Quotes should be relatively short. If there are no relevant quotes, write βNo relevant quotesβ instead.
|
531 |
+
|
532 |
+
|
533 |
+
template = """You are an expert astronomer and cosmologist.
|
534 |
+
Answer the following question as best you can using information from the library, but speaking in a concise and factual manner.
|
535 |
+
If you can not come up with an answer, say you do not know.
|
536 |
+
Try to break the question down into smaller steps and solve it in a logical manner.
|
537 |
+
|
538 |
+
You have access to the following tools:
|
539 |
+
|
540 |
+
{tools}
|
541 |
+
|
542 |
+
Use the following format:
|
543 |
+
|
544 |
+
Question: the input question you must answer
|
545 |
+
Thought: you should always think about what to do
|
546 |
+
Action: the action to take, should be one of [{tool_names}]
|
547 |
+
Action Input: the input to the action
|
548 |
+
Observation: the result of the action
|
549 |
+
... (this Thought/Action/Action Input/Observation can repeat N times)
|
550 |
+
Thought: I now know the final answer
|
551 |
+
Final Answer: the final answer to the original input question. provide information about how you arrived at the answer, and any nuances or uncertainties the reader should be aware of
|
552 |
+
|
553 |
+
Begin! Remember to speak in a pedagogical and factual manner."
|
554 |
+
|
555 |
+
Question: {input}
|
556 |
+
Thought:{agent_scratchpad}"""
|
557 |
+
|
558 |
+
prompt = hub.pull("hwchase17/react")
|
559 |
+
prompt.template=template
|
560 |
+
|
561 |
+
# path to write intermediate trace to
|
562 |
+
|
563 |
+
file_path = "agent_trace.txt"
|
564 |
+
try:
|
565 |
+
os.remove(file_path)
|
566 |
+
except:
|
567 |
+
pass
|
568 |
+
file_handler = FileCallbackHandler(file_path)
|
569 |
+
callback_manager=CallbackManager([file_handler])
|
570 |
+
|
571 |
+
# define and execute agent
|
572 |
+
|
573 |
+
tool_names = [tool.name for tool in st.session_state.tools]
|
574 |
+
if 'agent' not in st.session_state:
|
575 |
+
# agent = ZeroShotAgent(llm_chain=llm_chain, allowed_tools=tool_names)
|
576 |
+
agent = create_react_agent(llm=st.session_state.gen_llm, tools=tools, prompt=prompt)
|
577 |
+
st.session_state.agent = agent
|
578 |
+
|
579 |
+
if 'agent_executor' not in st.session_state:
|
580 |
+
agent_executor = AgentExecutor(agent=st.session_state.agent, tools=st.session_state.tools, verbose=True, handle_parsing_errors=True, callbacks=CallbackManager([file_handler]))
|
581 |
+
st.session_state.agent_executor = agent_executor
|
582 |
+
|
583 |
+
answer = st.session_state.agent_executor.invoke({"input": query,})
|
584 |
+
return answer
|
585 |
+
|
586 |
+
regular_prompt = """You are an expert astronomer and cosmologist.
|
587 |
+
Answer the following question as best you can using information from the library, but speaking in a concise and factual manner.
|
588 |
+
If you can not come up with an answer, say you do not know.
|
589 |
+
Try to break the question down into smaller steps and solve it in a logical manner.
|
590 |
+
|
591 |
+
Provide information about how you arrived at the answer, and any nuances or uncertainties the reader should be aware of.
|
592 |
+
|
593 |
+
Begin! Remember to speak in a pedagogical and factual manner."
|
594 |
+
|
595 |
+
Relevant documents:{context}
|
596 |
+
|
597 |
+
Question: {question}
|
598 |
+
Answer:"""
|
599 |
+
|
600 |
+
bibliometric_prompt = """You are an AI assistant with expertise in astronomy and astrophysics literature. Your task is to assist with relevant bibliometric information in response to a user question. The user question may consist of identifying key papers, authors, or trends in a specific area of astronomical research.
|
601 |
+
|
602 |
+
Depending on what the user wants, direct them to consult the NASA Astrophysics Data System (ADS) at https://ui.adsabs.harvard.edu/. Provide them with the recommended ADS query depending on their question.
|
603 |
+
|
604 |
+
Here's a more detailed guide on how to use NASA ADS for various types of queries:
|
605 |
+
|
606 |
+
Basic topic search: Enter keywords in the search bar, e.g., "exoplanets". Use quotation marks for exact phrases, e.g., "dark energyβ
|
607 |
+
Author search: Use the syntax author:"Last Name, First Name", e.g., author:"Hawking, S". For papers by multiple authors, use AND, e.g., author:"Hawking, S" AND author:"Ellis, G"
|
608 |
+
Date range: Use year:YYYY-YYYY, e.g., year:2010-2020. For papers since a certain year, use year:YYYY-, e.g., year:2015-
|
609 |
+
4.Combining search terms: Use AND, OR, NOT operators, e.g., "black holes" AND (author:"Hawking, S" OR author:"Penrose, R")
|
610 |
+
Filtering results: Use the left sidebar to filter by publication year, article type, or astronomy database
|
611 |
+
Sorting results: Use the "Sort" dropdown menu to order by options like citation count, publication date, or relevance
|
612 |
+
Advanced searches: Click on the "Search" dropdown menu and select "Classic Form" for field-specific searchesUse bibcode:YYYY for a specific journal/year, e.g., bibcode:2020ApJ to find all Astrophysical Journal papers from 2020
|
613 |
+
Finding review articles: Wrap the query in the reviews() operator (e.g. reviews(βdark energyβ))
|
614 |
+
Excluding preprints: Add NOT doctype:"eprint" to your search
|
615 |
+
Citation metrics: Click on the citation count of a paper to see its citation history and who has cited it
|
616 |
+
|
617 |
+
Some examples:
|
618 |
+
|
619 |
+
Example 1:
|
620 |
+
βHow many papers published in 2022 used data from MAST missions?β
|
621 |
+
Your response should be: year:2022 data:"MAST"
|
622 |
+
|
623 |
+
Example 2:
|
624 |
+
βWhat are the most cited papers on spiral galaxy halos measured in X-rays, with publication date from 2010 to 2023?
|
625 |
+
Your response should be: "spiral galaxy halos" AND "x-ray" year:2010-2024
|
626 |
+
|
627 |
+
Example 3:
|
628 |
+
βCan you list 3 papers published by β< name>β as first author?β
|
629 |
+
Your response should be: author: β^Xβ
|
630 |
+
|
631 |
+
Example 4:
|
632 |
+
βBased on papers with β<name>β as an author or co-author, can you suggest the five most recent astro-ph papers that would be relevant?β
|
633 |
+
Your response should be:
|
634 |
+
|
635 |
+
Remember to advise users that while these examples cover many common scenarios, NASA ADS has many more advanced features that can be explored through its documentation.
|
636 |
+
|
637 |
+
Relevant documents:{context}
|
638 |
+
Question: {question}
|
639 |
+
|
640 |
+
Response:"""
|
641 |
+
|
642 |
+
single_paper_prompt = """You are an astronomer with access to a vast database of astronomical facts and figures. Your task is to provide a concise, accurate answer to the following specific factual question about astronomy or astrophysics.
|
643 |
+
Provide the requested information clearly and directly. If relevant, include the source of your information or any recent updates to this fact. If there's any uncertainty or variation in the accepted value, briefly explain why.
|
644 |
+
If the question can't be answered with a single fact, provide a short, focused explanation. Always prioritize accuracy over speculation.
|
645 |
+
Relevant documents:{context}
|
646 |
+
Question: {question}
|
647 |
+
Response:"""
|
648 |
+
|
649 |
+
deep_knowledge_prompt = """You are an expert astronomer with deep knowledge across various subfields of astronomy and astrophysics. Your task is to provide a comprehensive and nuanced answer to the following question, which involves an unresolved topic or requires broad, common-sense understanding.
|
650 |
+
Consider multiple perspectives and current debates in the field. Explain any uncertainties or ongoing research. If relevant, mention how this topic connects to other areas of astronomy.
|
651 |
+
Provide your response in a clear, pedagogical manner, breaking down complex concepts for easier understanding. If appropriate, suggest areas where further research might be needed.
|
652 |
+
After formulating your initial response, take a moment to reflect on your answer. Consider:
|
653 |
+
1. Have you addressed all aspects of the question?
|
654 |
+
2. Are there any potential biases or assumptions in your explanation?
|
655 |
+
3. Is your explanation clear and accessible to someone with a general science background?
|
656 |
+
4. Have you adequately conveyed the uncertainties or debates surrounding this topic?
|
657 |
+
Based on this reflection, refine your answer as needed.
|
658 |
+
Remember, while you have extensive knowledge, it's okay to acknowledge the limits of current scientific understanding. If parts of the question cannot be answered definitively, explain why.
|
659 |
+
Relevant documents:{context}
|
660 |
+
|
661 |
+
Question: {question}
|
662 |
+
|
663 |
+
Initial Response:
|
664 |
+
[Your initial response here]
|
665 |
+
|
666 |
+
Reflection and Refinement:
|
667 |
+
[Your reflections and any refinements to your answer here]
|
668 |
+
|
669 |
+
Final Response:
|
670 |
+
[Your final, refined answer here]"""
|
671 |
+
|
672 |
+
def make_rag_qa_answer(query, top_k = 10):
|
673 |
+
|
674 |
+
|
675 |
+
# try:
|
676 |
+
absts, fhdrs, rs = Library2(query, top_k = top_k)
|
677 |
+
|
678 |
+
temp_abst = ''
|
679 |
+
loaders = []
|
680 |
+
for i in range(len(absts)):
|
681 |
+
temp_abst = absts[i]
|
682 |
+
|
683 |
+
try:
|
684 |
+
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
685 |
+
except:
|
686 |
+
os.mkdir('absts')
|
687 |
+
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
688 |
+
n = text_file.write(temp_abst)
|
689 |
+
text_file.close()
|
690 |
+
loader = TextLoader("absts/"+fhdrs[i]+".txt")
|
691 |
+
loaders.append(loader)
|
692 |
+
|
693 |
+
text_splitter = RecursiveCharacterTextSplitter(chunk_size=150, chunk_overlap=50, add_start_index=True)
|
694 |
+
|
695 |
+
splits = text_splitter.split_documents([loader.load()[0] for loader in loaders])
|
696 |
+
vectorstore = Chroma.from_documents(documents=splits, embedding=st.session_state.embeddings, collection_name='retdoc4')
|
697 |
+
# retriever = vectorstore.as_retriever(search_type="similarity", search_kwargs={"k": 6, "fetch_k": len(splits)})
|
698 |
+
retriever = vectorstore.as_retriever(search_type="similarity", search_kwargs={"k": 6})
|
699 |
+
|
700 |
+
for i in range(len(absts)):
|
701 |
+
os.remove("absts/"+fhdrs[i]+".txt")
|
702 |
+
|
703 |
+
if st.session_state.question_type == 'Bibliometric':
|
704 |
+
template = bibliometric_prompt
|
705 |
+
elif st.session_state.question_type == 'Single-paper':
|
706 |
+
template = single_paper_prompt
|
707 |
+
elif st.session_state.question_type == 'Broad but nuanced':
|
708 |
+
template = deep_knowledge_prompt
|
709 |
+
else:
|
710 |
+
template = regular_prompt
|
711 |
+
prompt = PromptTemplate.from_template(template)
|
712 |
+
|
713 |
+
def format_docs(docs):
|
714 |
+
return "\n\n".join(doc.page_content for doc in docs)
|
715 |
+
|
716 |
+
|
717 |
+
rag_chain_from_docs = (
|
718 |
+
RunnablePassthrough.assign(context=(lambda x: format_docs(x["context"])))
|
719 |
+
| prompt
|
720 |
+
| st.session_state.gen_llm
|
721 |
+
| StrOutputParser()
|
722 |
+
)
|
723 |
+
|
724 |
+
rag_chain_with_source = RunnableParallel(
|
725 |
+
{"context": retriever, "question": RunnablePassthrough()}
|
726 |
+
).assign(answer=rag_chain_from_docs)
|
727 |
+
|
728 |
+
rag_answer = rag_chain_with_source.invoke(query, )
|
729 |
+
|
730 |
+
vectorstore.delete_collection()
|
731 |
+
|
732 |
+
# except:
|
733 |
+
# st.write('heavy load! please wait 10 seconds and try again.')
|
734 |
+
|
735 |
+
return rag_answer, rs
|
736 |
+
|
737 |
+
def guess_question_type(query: str):
|
738 |
+
categorization_prompt = """You are an expert astrophysicist and computer scientist specializing in linguistics and semantics. Your task is to categorize a given query into one of the following categories:
|
739 |
+
|
740 |
+
1. Summarization
|
741 |
+
2. Single-paper factual
|
742 |
+
3. Multi-paper factual
|
743 |
+
4. Named entity recognition
|
744 |
+
5. Jargon-specific questions / overloaded words
|
745 |
+
6. Time-sensitive
|
746 |
+
7. Consensus evaluation
|
747 |
+
8. What-ifs and counterfactuals
|
748 |
+
9. Compositional
|
749 |
+
|
750 |
+
Analyze the query carefully, considering its content, structure, and implications. Then, determine which of the above categories best fits the query.
|
751 |
+
|
752 |
+
In your analysis, consider the following:
|
753 |
+
- Does the query ask for a well-known datapoint or mechanism?
|
754 |
+
- Can it be answered by a single paper or does it require multiple sources?
|
755 |
+
- Does it involve proper nouns or specific scientific terms?
|
756 |
+
- Is it time-dependent or likely to change in the near future?
|
757 |
+
- Does it require evaluating consensus across multiple sources?
|
758 |
+
- Is it a hypothetical or counterfactual question?
|
759 |
+
- Does it need to be broken down into sub-queries (i.e. compositional)?
|
760 |
+
|
761 |
+
After your analysis, categorize the query into one of the nine categories listed above.
|
762 |
+
|
763 |
+
Provide a brief explanation for your categorization, highlighting the key aspects of the query that led to your decision.
|
764 |
+
|
765 |
+
Present your final answer in the following format:
|
766 |
+
|
767 |
+
<categorization>
|
768 |
+
Category: [Selected category]
|
769 |
+
Explanation: [Your explanation for the categorization]
|
770 |
+
</categorization>"""
|
771 |
+
# st.write('invoking hyde generation')
|
772 |
+
|
773 |
+
# message = self.generation_client.messages.create(
|
774 |
+
# model = self.generation_model,
|
775 |
+
# max_tokens = self.max_doclen,
|
776 |
+
# temperature = self.temperature,
|
777 |
+
# system = prompt,
|
778 |
+
# messages=[{ "role": "user",
|
779 |
+
# "content": [{"type": "text", "text": query,}] }]
|
780 |
+
# )
|
781 |
+
# return message.content[0].text
|
782 |
+
|
783 |
+
messages = [("system",categorization_prompt,),("human", query),]
|
784 |
+
return st.session_state.ec.generation_client.invoke(messages).content
|
785 |
+
|
786 |
+
class OverallConsensusEvaluation(BaseModel):
|
787 |
+
consensus: Literal["Strong Agreement", "Moderate Agreement", "Weak Agreement", "No Clear Consensus", "Weak Disagreement", "Moderate Disagreement", "Strong Disagreement"] = Field(
|
788 |
+
...,
|
789 |
+
description="The overall level of consensus between the query and the abstracts"
|
790 |
+
)
|
791 |
+
explanation: str = Field(
|
792 |
+
...,
|
793 |
+
description="A detailed explanation of the consensus evaluation"
|
794 |
+
)
|
795 |
+
relevance_score: float = Field(
|
796 |
+
...,
|
797 |
+
description="A score from 0 to 1 indicating how relevant the abstracts are to the query overall",
|
798 |
+
ge=0,
|
799 |
+
le=1
|
800 |
+
)
|
801 |
+
|
802 |
+
def evaluate_overall_consensus(query: str, abstracts: List[str]) -> OverallConsensusEvaluation:
|
803 |
+
"""
|
804 |
+
Evaluates the overall consensus of the abstracts in relation to the query in a single LLM call.
|
805 |
+
"""
|
806 |
+
prompt = f"""
|
807 |
+
Query: {query}
|
808 |
+
|
809 |
+
You will be provided with {len(abstracts)} scientific abstracts. Your task is to:
|
810 |
+
1. Evaluate the overall consensus between the query and the abstracts.
|
811 |
+
2. Provide a detailed explanation of your consensus evaluation.
|
812 |
+
3. Assign an overall relevance score from 0 to 1, where 0 means completely irrelevant and 1 means highly relevant.
|
813 |
+
|
814 |
+
For the consensus evaluation, use one of the following levels:
|
815 |
+
Strong Agreement, Moderate Agreement, Weak Agreement, No Clear Consensus, Weak Disagreement, Moderate Disagreement, Strong Disagreement
|
816 |
+
|
817 |
+
Here are the abstracts:
|
818 |
+
|
819 |
+
{' '.join([f"Abstract {i+1}: {abstract}" for i, abstract in enumerate(abstracts)])}
|
820 |
+
|
821 |
+
Provide your evaluation in a structured format.
|
822 |
+
"""
|
823 |
+
|
824 |
+
response = st.session_state.consensus_client.chat.completions.create(
|
825 |
+
model="gpt-4o-mini", # used to be "gpt-4",
|
826 |
+
response_model=OverallConsensusEvaluation,
|
827 |
+
messages=[
|
828 |
+
{"role": "system", "content": """You are an assistant with expertise in astrophysics for question-answering tasks.
|
829 |
+
Evaluate the overall consensus of the retrieved scientific abstracts in relation to a given query.
|
830 |
+
If you don't know the answer, just say that you don't know.
|
831 |
+
Use six sentences maximum and keep the answer concise."""},
|
832 |
+
{"role": "user", "content": prompt}
|
833 |
+
],
|
834 |
+
temperature=0
|
835 |
+
)
|
836 |
+
|
837 |
+
return response
|
838 |
+
|
839 |
+
def create_embedding_plot(rs):
|
840 |
"""
|
841 |
+
function to create embedding plot
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
842 |
"""
|
|
|
843 |
|
844 |
+
pltsource = ColumnDataSource(data=dict(
|
845 |
+
x=st.session_state.umap_x,
|
846 |
+
y=st.session_state.umap_y,
|
847 |
+
title=st.session_state.titles,
|
848 |
+
link=st.session_state.bibcode,
|
849 |
+
))
|
850 |
+
|
851 |
+
rsflag = np.zeros((len(st.session_state.ids),))
|
852 |
+
rsflag[np.array([k for k in rs])] = 1
|
853 |
|
854 |
+
# outflag = np.zeros((len(st.session_state.ids),))
|
855 |
+
# outflag[np.array([k for k in find_outliers(rs)])] = 1
|
856 |
+
pltsource.data['colors'] = rsflag * 0.8 + 0.1
|
857 |
+
# pltsource.data['colors'][outflag] = 0.5
|
858 |
+
pltsource.data['sizes'] = (rsflag + 1)**5 / 100
|
859 |
+
|
860 |
+
TOOLTIPS = """
|
861 |
+
<div style="width:300px;">
|
862 |
+
ID: $index
|
863 |
+
($x, $y)
|
864 |
+
@title <br>
|
865 |
+
@link <br> <br>
|
866 |
+
</div>
|
867 |
"""
|
868 |
+
|
869 |
+
mapper = linear_cmap(field_name="colors", palette=Spectral5, low=0., high=1.)
|
870 |
+
|
871 |
+
p = figure(width=700, height=900, tooltips=TOOLTIPS, x_range=(0, 20), y_range=(-4.2,18),
|
872 |
+
title="UMAP projection of embeddings for the astro-ph corpus")
|
873 |
+
|
874 |
+
p.axis.visible=False
|
875 |
+
p.grid.visible=False
|
876 |
+
p.outline_line_alpha = 0.
|
877 |
+
|
878 |
+
p.circle('x', 'y', radius='sizes', source=pltsource, alpha=0.3, fill_color=mapper, fill_alpha='colors', line_color="lightgrey",line_alpha=0.1)
|
879 |
+
|
880 |
+
return p
|
881 |
+
|
882 |
+
if submit_button:
|
883 |
+
|
884 |
+
keywords = [kw.strip() for kw in extra_keywords.split(',')] if extra_keywords else []
|
885 |
+
toggles = {'Keyword weighting': toggle_a, 'Time weighting': toggle_b, 'Citation weighting': toggle_c}
|
886 |
+
|
887 |
+
if (method == "Semantic search"):
|
888 |
+
with st.spinner('set retrieval method to'+ method):
|
889 |
+
st.session_state.ec = EmbeddingRetrievalSystem()
|
890 |
+
elif (method == "Semantic search + HyDE"):
|
891 |
+
with st.spinner('set retrieval method to'+ method):
|
892 |
+
st.session_state.ec = HydeRetrievalSystem()
|
893 |
+
elif (method == "Semantic search + HyDE + CoHERE"):
|
894 |
+
with st.spinner('set retrieval method to'+ method):
|
895 |
+
st.session_state.ec = HydeCohereRetrievalSystem()
|
896 |
+
st.toast('loaded retrieval system')
|
897 |
+
|
898 |
+
with st.spinner(search_text_list[np.random.choice(len(search_text_list))]):
|
899 |
+
|
900 |
+
st.session_state.ec.query_input_keywords = keywords
|
901 |
+
st.session_state.ec.toggles = toggles
|
902 |
+
st.session_state.ec.question_type = question_type
|
903 |
+
st.session_state.ec.rag_method = method
|
904 |
+
st.session_state.ec.gen_method = method2
|
905 |
+
|
906 |
+
if method2 == "Basic RAG":
|
907 |
+
st.session_state.gen_method = 'rag'
|
908 |
+
elif method2 == "ReAct Agent":
|
909 |
+
st.session_state.gen_method = 'agent'
|
910 |
+
|
911 |
+
if st.session_state.gen_method == 'agent':
|
912 |
+
answer = run_agent_qa(query, top_k)
|
913 |
+
rs = get_topk(query, top_k)
|
914 |
+
|
915 |
+
answer_text = answer['output']
|
916 |
+
st.write(answer_text)
|
917 |
+
|
918 |
+
file_path = "agent_trace.txt"
|
919 |
+
with open(file_path, 'r') as file:
|
920 |
+
intermediate_steps = file.read()
|
921 |
+
st.expander('Intermediate steps', expanded=False).write(intermediate_steps)
|
922 |
+
|
923 |
+
elif st.session_state.gen_method == 'rag':
|
924 |
+
answer, rs = make_rag_qa_answer(query, top_k)
|
925 |
+
answer_text = answer['answer']
|
926 |
+
st.write(answer_text)
|
927 |
+
|
928 |
+
triggered_keywords = st.session_state.ec.query_kws
|
929 |
+
|
930 |
+
with st.spinner('compiling top-k papers'+ method):
|
931 |
+
papers_df = get_paper_df(rs)
|
932 |
+
|
933 |
+
with st.expander("Relevant papers", expanded=True):
|
934 |
+
# st.dataframe(papers_df, hide_index=True)
|
935 |
+
st.data_editor(papers_df, column_config = {'ADS Link':st.column_config.LinkColumn(display_text= 'https://ui.adsabs.harvard.edu/abs/(.*?)/abstract')})
|
936 |
+
|
937 |
+
st.write('**Triggered keywords:** `'+ "`, `".join(triggered_keywords)+'`')
|
938 |
+
|
939 |
+
col1, col2 = st.columns(2)
|
940 |
+
|
941 |
+
with col1:
|
942 |
+
with st.expander("Evaluating question type", expanded=True):
|
943 |
+
st.subheader("Question type suggestion")
|
944 |
+
question_type_gen = guess_question_type(query)
|
945 |
+
if '<categorization>' in question_type_gen:
|
946 |
+
question_type_gen = question_type_gen.split('<categorization>')[1]
|
947 |
+
if '</categorization>' in question_type_gen:
|
948 |
+
question_type_gen = question_type_gen.split('</categorization>')[0]
|
949 |
+
question_type_gen = question_type_gen.replace('\n',' \n')
|
950 |
+
st.markdown(question_type_gen)
|
951 |
+
|
952 |
+
with col2:
|
953 |
+
with st.expander("Evaluating abstract consensus", expanded=True):
|
954 |
+
consensus_answer = evaluate_overall_consensus(query, [st.session_state.abstracts[i] for i in rs])
|
955 |
+
st.subheader("Consensus: "+consensus_answer.consensus)
|
956 |
+
st.markdown(consensus_answer.explanation)
|
957 |
+
st.markdown('Relevance of retrieved papers to answer: %.1f' %consensus_answer.relevance_score)
|
958 |
+
|
959 |
+
session_vars = {
|
960 |
+
"runtime": "pathfinder_v1_online",
|
961 |
+
"query": query,
|
962 |
+
"question_type": question_type,
|
963 |
+
'Keyword weighting': toggle_a,
|
964 |
+
'Time weighting': toggle_b,
|
965 |
+
'Citation weighting': toggle_c,
|
966 |
+
"rag_method" : method,
|
967 |
+
"gen_method" : method2,
|
968 |
+
"answer" : answer_text,
|
969 |
+
"topk" : ['%.0f' %i for i in rs],
|
970 |
+
"topk_scores" : ['%.6f' %rs[i] for i in rs],
|
971 |
+
"topk_papers": list(papers_df['ADS Link']),
|
972 |
+
}
|
973 |
+
|
974 |
+
@st.fragment()
|
975 |
+
def download_op(data):
|
976 |
+
json_string = json.dumps(data)
|
977 |
+
st.download_button(
|
978 |
+
label='Download output',
|
979 |
+
file_name="pathfinder_data.json",
|
980 |
+
mime="application/json",
|
981 |
+
data=json_string,)
|
982 |
+
|
983 |
+
with st.sidebar:
|
984 |
+
download_op(session_vars)
|
985 |
+
|
986 |
+
embedding_plot = create_embedding_plot(rs)
|
987 |
+
st.bokeh_chart(embedding_plot)
|
988 |
+
|
989 |
+
else:
|
990 |
+
st.info("Use the sidebar to tweak the search parameters to get better results.")
|
local_files/astro_ph_ga_feeds_ada_embedding_27-Jun-2023.pkl β data/data-00000-of-00012.arrow
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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version https://git-lfs.github.com/spec/v1
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data/dataset_info.json
ADDED
@@ -0,0 +1,188 @@
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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data/state.json
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{
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"_data_files": [
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{
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"filename": "data-00000-of-00012.arrow"
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{
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{
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{
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"filename": "data-00003-of-00012.arrow"
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{
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"filename": "data-00004-of-00012.arrow"
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{
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{
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"filename": "data-00006-of-00012.arrow"
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{
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"filename": "data-00007-of-00012.arrow"
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{
|
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{
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31 |
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"filename": "data-00009-of-00012.arrow"
|
32 |
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|
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{
|
34 |
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{
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local_files/astro_ph_ga_feeds_upto_16-Jun-2024.pkl
DELETED
@@ -1,3 +0,0 @@
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1 |
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version https://git-lfs.github.com/spec/v1
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oid sha256:89114c7ff34595e424f1585d32aec5665a07f26399e75bb8b40b4de7737ac2d0
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size 134799303
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local_files/astro_ph_ga_feeds_upto_27-Jun-2023.pkl
DELETED
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1 |
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version https://git-lfs.github.com/spec/v1
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size 89228171
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pages/.ipynb_checkpoints/Untitled-checkpoint.ipynb
DELETED
@@ -1,6 +0,0 @@
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{
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"cells": [],
|
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"metadata": {},
|
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"nbformat_minor": 5
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pages/1_arxiv_embedding_explorer.py
DELETED
@@ -1,121 +0,0 @@
|
|
1 |
-
import streamlit as st
|
2 |
-
import pandas as pd
|
3 |
-
import numpy as np
|
4 |
-
import matplotlib.pyplot as plt
|
5 |
-
import pickle
|
6 |
-
from bokeh.palettes import OrRd
|
7 |
-
from bokeh.plotting import figure, show
|
8 |
-
from bokeh.plotting import ColumnDataSource, figure, output_notebook, show
|
9 |
-
import cloudpickle as cp
|
10 |
-
import pickle
|
11 |
-
from scipy import stats
|
12 |
-
from urllib.request import urlopen
|
13 |
-
|
14 |
-
@st.cache_data
|
15 |
-
def get_feeds_data(url):
|
16 |
-
# data = cp.load(urlopen(url))
|
17 |
-
with open(url, "rb") as fp:
|
18 |
-
data = pickle.load(fp)
|
19 |
-
st.sidebar.success("Fetched data from API!")
|
20 |
-
return data
|
21 |
-
|
22 |
-
# embeddings = OpenAIEmbeddings()
|
23 |
-
|
24 |
-
dateval = "27-Jun-2023"
|
25 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
26 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
27 |
-
gal_feeds = get_feeds_data(feeds_link)
|
28 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
29 |
-
|
30 |
-
@st.cache_data
|
31 |
-
def get_embedding_data(url):
|
32 |
-
# data = cp.load(urlopen(url))
|
33 |
-
with open(url, "rb") as fp:
|
34 |
-
data = pickle.load(fp)
|
35 |
-
st.sidebar.success("Fetched data from API!")
|
36 |
-
return data
|
37 |
-
|
38 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
39 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
40 |
-
embedding = get_embedding_data(url)
|
41 |
-
|
42 |
-
st.title("ArXiv+GPT3 embedding explorer")
|
43 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
44 |
-
st.markdown("This is an explorer for astro-ph.GA papers on the arXiv (up to Apt 18th, 2023). The papers have been preprocessed with `chaotic_neural` [(link)](http://chaotic-neural.readthedocs.io/) after which the collected abstracts are run through `text-embedding-ada-002` with [langchain](https://python.langchain.com/en/latest/ecosystem/openai.html) to generate a unique vector correpsonding to each paper. These are then compressed using [umap](https://umap-learn.readthedocs.io/en/latest/) and shown here, and can be used for similarity searches with methods like [faiss](https://github.com/facebookresearch/faiss). The scatterplot here can be paired with a heatmap for more targeted searches looking at a specific topic or area (see sidebar). Upgrade to chaotic neural suggested by Jo CiucΔ, thank you! More to come (hopefully) with GPT-4 and its applications!")
|
45 |
-
st.markdown("Interpreting the UMAP plot: the algorithm creates a 2d embedding from the high-dim vector space that tries to conserve as much similarity information as possible. Nearby points in UMAP space are similar, and grow dissimiliar as you move farther away. The axes do not have any physical meaning.")
|
46 |
-
|
47 |
-
from tqdm import tqdm
|
48 |
-
ctr = -1
|
49 |
-
num_chunks = len(gal_feeds)
|
50 |
-
all_text = []
|
51 |
-
all_titles = []
|
52 |
-
all_arxivid = []
|
53 |
-
all_links = []
|
54 |
-
|
55 |
-
for nc in tqdm(range(num_chunks)):
|
56 |
-
for i in range(len(gal_feeds[nc].entries)):
|
57 |
-
text = gal_feeds[nc].entries[i].summary
|
58 |
-
text = text.replace('\n', ' ')
|
59 |
-
text = text.replace('\\', '')
|
60 |
-
all_text.append(text)
|
61 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
62 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
63 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
64 |
-
|
65 |
-
|
66 |
-
def density_estimation(m1, m2, xmin=0, ymin=0, xmax=15, ymax=15):
|
67 |
-
X, Y = np.mgrid[xmin:xmax:100j, ymin:ymax:100j]
|
68 |
-
positions = np.vstack([X.ravel(), Y.ravel()])
|
69 |
-
values = np.vstack([m1, m2])
|
70 |
-
kernel = stats.gaussian_kde(values)
|
71 |
-
Z = np.reshape(kernel(positions).T, X.shape)
|
72 |
-
return X, Y, Z
|
73 |
-
|
74 |
-
st.sidebar.markdown('This is a widget that allows you to look for papers containing specific phrases in the dataset and show it as a heatmap. Enter the phrase of interest, then change the size and opacity of the heatmap as desired to find the high-density regions. Hover over blue points to see the details of individual papers.')
|
75 |
-
st.sidebar.markdown('`Note`: (i) if you enter a query that is not in the corpus of abstracts, it will return an error. just enter a different query in that case. (ii) there are some empty tooltips when you hover, these correspond to the underlying hexbins, and can be ignored.')
|
76 |
-
|
77 |
-
st.sidebar.text_input("Search query", key="phrase", value="Quenching")
|
78 |
-
alpha_value = st.sidebar.slider("Pick the hexbin opacity",0.0,1.0,0.81)
|
79 |
-
size_value = st.sidebar.slider("Pick the hexbin gridsize",10,50,20)
|
80 |
-
|
81 |
-
phrase=st.session_state.phrase
|
82 |
-
|
83 |
-
phrase_flags = np.zeros((len(all_text),))
|
84 |
-
for i in range(len(all_text)):
|
85 |
-
if phrase.lower() in all_text[i].lower():
|
86 |
-
phrase_flags[i] = 1
|
87 |
-
|
88 |
-
|
89 |
-
source = ColumnDataSource(data=dict(
|
90 |
-
x=embedding[0:,0],
|
91 |
-
y=embedding[0:,1],
|
92 |
-
title=all_titles,
|
93 |
-
link=all_links,
|
94 |
-
))
|
95 |
-
|
96 |
-
TOOLTIPS = """
|
97 |
-
<div style="width:300px;">
|
98 |
-
ID: $index
|
99 |
-
($x, $y)
|
100 |
-
@title <br>
|
101 |
-
@link <br> <br>
|
102 |
-
</div>
|
103 |
-
"""
|
104 |
-
|
105 |
-
p = figure(width=700, height=583, tooltips=TOOLTIPS, x_range=(0, 15), y_range=(2.5,15),
|
106 |
-
title="UMAP projection of embeddings for the astro-ph.GA corpus"+phrase)
|
107 |
-
|
108 |
-
# p.hexbin(embedding[phrase_flags==1,0],embedding[phrase_flags==1,1], size=size_value,
|
109 |
-
# palette = np.flip(OrRd[8]), alpha=alpha_value)
|
110 |
-
p.circle('x', 'y', size=3, source=source, alpha=0.3)
|
111 |
-
st.bokeh_chart(p)
|
112 |
-
|
113 |
-
fig = plt.figure(figsize=(10.5,9*0.8328))
|
114 |
-
plt.scatter(embedding[0:,0], embedding[0:,1],s=2,alpha=0.1)
|
115 |
-
plt.hexbin(embedding[phrase_flags==1,0],embedding[phrase_flags==1,1],
|
116 |
-
gridsize=size_value, cmap = 'viridis', alpha=alpha_value,extent=(-1,16,1.5,16),mincnt=10)
|
117 |
-
plt.title("UMAP localization of heatmap keyword: "+phrase)
|
118 |
-
plt.axis([0,15,2.5,15]);
|
119 |
-
clbr = plt.colorbar(); clbr.set_label('# papers')
|
120 |
-
plt.axis('off')
|
121 |
-
st.pyplot(fig)
|
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pages/2_paper_search.py
DELETED
@@ -1,201 +0,0 @@
|
|
1 |
-
import datetime, os
|
2 |
-
from langchain.llms import OpenAI
|
3 |
-
from langchain.embeddings import OpenAIEmbeddings
|
4 |
-
import openai
|
5 |
-
import faiss
|
6 |
-
import streamlit as st
|
7 |
-
import feedparser
|
8 |
-
import urllib
|
9 |
-
import cloudpickle as cp
|
10 |
-
import pickle
|
11 |
-
from urllib.request import urlopen
|
12 |
-
from summa import summarizer
|
13 |
-
import numpy as np
|
14 |
-
|
15 |
-
# openai.organization = st.secrets.openai.org
|
16 |
-
# openai.api_key = st.secrets.openai.api_key
|
17 |
-
openai.organization = st.secrets["org"]
|
18 |
-
openai.api_key = st.secrets["api_key"]
|
19 |
-
os.environ["OPENAI_API_KEY"] = openai.api_key
|
20 |
-
|
21 |
-
@st.cache_data
|
22 |
-
def get_feeds_data(url):
|
23 |
-
with open(url, "rb") as fp:
|
24 |
-
data = pickle.load(fp)
|
25 |
-
st.sidebar.success("Loaded data!")
|
26 |
-
# data = cp.load(urlopen(url))
|
27 |
-
# st.sidebar.success("Fetched data from API!")
|
28 |
-
return data
|
29 |
-
|
30 |
-
embeddings = OpenAIEmbeddings()
|
31 |
-
|
32 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
33 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
34 |
-
|
35 |
-
dateval = "27-Jun-2023"
|
36 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
37 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
38 |
-
gal_feeds = get_feeds_data(feeds_link)
|
39 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
40 |
-
|
41 |
-
ctr = -1
|
42 |
-
num_chunks = len(gal_feeds)
|
43 |
-
all_text, all_titles, all_arxivid, all_links, all_authors = [], [], [], [], []
|
44 |
-
|
45 |
-
for nc in range(num_chunks):
|
46 |
-
|
47 |
-
for i in range(len(gal_feeds[nc].entries)):
|
48 |
-
text = gal_feeds[nc].entries[i].summary
|
49 |
-
text = text.replace('\n', ' ')
|
50 |
-
text = text.replace('\\', '')
|
51 |
-
all_text.append(text)
|
52 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
53 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
54 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
55 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
56 |
-
|
57 |
-
d = arxiv_ada_embeddings.shape[1] # dimension
|
58 |
-
nb = arxiv_ada_embeddings.shape[0] # database size
|
59 |
-
xb = arxiv_ada_embeddings.astype('float32')
|
60 |
-
index = faiss.IndexFlatL2(d)
|
61 |
-
index.add(xb)
|
62 |
-
|
63 |
-
def run_simple_query(search_query = 'all:sed+fitting', max_results = 10, start = 0, sort_by = 'lastUpdatedDate', sort_order = 'descending'):
|
64 |
-
"""
|
65 |
-
Query ArXiv to return search results for a particular query
|
66 |
-
Parameters
|
67 |
-
----------
|
68 |
-
query: str
|
69 |
-
query term. use prefixes ti, au, abs, co, jr, cat, m, id, all as applicable.
|
70 |
-
max_results: int, default = 10
|
71 |
-
number of results to return. numbers > 1000 generally lead to timeouts
|
72 |
-
start: int, default = 0
|
73 |
-
start index for results reported. use this if you're interested in running chunks.
|
74 |
-
Returns
|
75 |
-
-------
|
76 |
-
feed: dict
|
77 |
-
object containing requested results parsed with feedparser
|
78 |
-
Notes
|
79 |
-
-----
|
80 |
-
add functionality for chunk parsing, as well as storage and retreival
|
81 |
-
"""
|
82 |
-
|
83 |
-
# Base api query url
|
84 |
-
base_url = 'http://export.arxiv.org/api/query?';
|
85 |
-
query = 'search_query=%s&start=%i&max_results=%i&sortBy=%s&sortOrder=%s' % (search_query,
|
86 |
-
start,
|
87 |
-
max_results,sort_by,sort_order)
|
88 |
-
|
89 |
-
response = urllib.request.urlopen(base_url+query).read()
|
90 |
-
feed = feedparser.parse(response)
|
91 |
-
return feed
|
92 |
-
|
93 |
-
def find_papers_by_author(auth_name):
|
94 |
-
|
95 |
-
doc_ids = []
|
96 |
-
for doc_id in range(len(all_authors)):
|
97 |
-
for auth_id in range(len(all_authors[doc_id])):
|
98 |
-
if auth_name.lower() in all_authors[doc_id][auth_id]['name'].lower():
|
99 |
-
print('Doc ID: ',doc_id, ' | arXiv: ', all_arxivid[doc_id], '| ', all_titles[doc_id],' | Author entry: ', all_authors[doc_id][auth_id]['name'])
|
100 |
-
doc_ids.append(doc_id)
|
101 |
-
|
102 |
-
return doc_ids
|
103 |
-
|
104 |
-
def faiss_based_indices(input_vector, nindex=10):
|
105 |
-
xq = input_vector.reshape(-1,1).T.astype('float32')
|
106 |
-
D, I = index.search(xq, nindex)
|
107 |
-
return I[0], D[0]
|
108 |
-
|
109 |
-
|
110 |
-
def list_similar_papers_v2(model_data,
|
111 |
-
doc_id = [], input_type = 'doc_id',
|
112 |
-
show_authors = False, show_summary = False,
|
113 |
-
return_n = 10):
|
114 |
-
|
115 |
-
arxiv_ada_embeddings, embeddings, all_titles, all_abstracts, all_authors = model_data
|
116 |
-
|
117 |
-
if input_type == 'doc_id':
|
118 |
-
print('Doc ID: ',doc_id,', title: ',all_titles[doc_id])
|
119 |
-
# inferred_vector = model.infer_vector(train_corpus[doc_id].words)
|
120 |
-
inferred_vector = arxiv_ada_embeddings[doc_id,0:]
|
121 |
-
start_range = 1
|
122 |
-
elif input_type == 'arxiv_id':
|
123 |
-
print('ArXiv id: ',doc_id)
|
124 |
-
arxiv_query_feed = run_simple_query(search_query='id:'+str(doc_id))
|
125 |
-
if len(arxiv_query_feed.entries) == 0:
|
126 |
-
print('error: arxiv id not found.')
|
127 |
-
return
|
128 |
-
else:
|
129 |
-
print('Title: '+arxiv_query_feed.entries[0].title)
|
130 |
-
inferred_vector = np.array(embeddings.embed_query(arxiv_query_feed.entries[0].summary))
|
131 |
-
# arxiv_query_tokens = gensim.utils.simple_preprocess(arxiv_query_feed.entries[0].summary)
|
132 |
-
# inferred_vector = model.infer_vector(arxiv_query_tokens)
|
133 |
-
|
134 |
-
start_range = 0
|
135 |
-
elif input_type == 'keywords':
|
136 |
-
# print('Keyword(s): ',[doc_id[i] for i in range(len(doc_id))])
|
137 |
-
# word_vector = model.wv[doc_id[0]]
|
138 |
-
# if len(doc_id) > 1:
|
139 |
-
# print('multi-keyword')
|
140 |
-
# for i in range(1,len(doc_id)):
|
141 |
-
# word_vector = word_vector + model.wv[doc_id[i]]
|
142 |
-
# # word_vector = model.infer_vector(doc_id)
|
143 |
-
# inferred_vector = word_vector
|
144 |
-
inferred_vector = np.array(embeddings.embed_query(doc_id))
|
145 |
-
start_range = 0
|
146 |
-
else:
|
147 |
-
print('unrecognized input type.')
|
148 |
-
return
|
149 |
-
|
150 |
-
# sims = model.docvecs.most_similar([inferred_vector], topn=len(model.docvecs))
|
151 |
-
sims, dists = faiss_based_indices(inferred_vector, return_n+2)
|
152 |
-
textstr = ''
|
153 |
-
|
154 |
-
textstr = textstr + '-----------------------------\n'
|
155 |
-
textstr = textstr + 'Most similar/relevant papers: \n'
|
156 |
-
textstr = textstr + '-----------------------------\n\n'
|
157 |
-
for i in range(start_range,start_range+return_n):
|
158 |
-
|
159 |
-
# print(i, all_titles[sims[i]], ' (Distance: %.2f' %dists[i] ,')')
|
160 |
-
textstr = textstr + str(i+1)+'. **'+ all_titles[sims[i]] +'** (Distance: %.2f' %dists[i]+') \n'
|
161 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[sims[i]]+'](https://arxiv.org/abs/'+all_arxivid[sims[i]]+') \n'
|
162 |
-
if show_authors == True:
|
163 |
-
textstr = textstr + '**Authors:** '
|
164 |
-
temp = all_authors[sims[i]]
|
165 |
-
for ak in range(len(temp)):
|
166 |
-
if ak < len(temp)-1:
|
167 |
-
textstr = textstr + temp[ak].name + ', '
|
168 |
-
else:
|
169 |
-
textstr = textstr + temp[ak].name + ' \n'
|
170 |
-
if show_summary == True:
|
171 |
-
textstr = textstr + '**Summary:** '
|
172 |
-
text = all_text[sims[i]]
|
173 |
-
text = text.replace('\n', ' ')
|
174 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
175 |
-
if show_authors == True or show_summary == True:
|
176 |
-
textstr = textstr + ' '
|
177 |
-
textstr = textstr + ' \n'
|
178 |
-
return textstr
|
179 |
-
|
180 |
-
|
181 |
-
model_data = [arxiv_ada_embeddings, embeddings, all_titles, all_text, all_authors]
|
182 |
-
|
183 |
-
st.title('ArXiv similarity search:')
|
184 |
-
st.markdown('Search for similar papers by arxiv id or phrase:')
|
185 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
186 |
-
|
187 |
-
search_type = st.radio(
|
188 |
-
"What are you searching by?",
|
189 |
-
('arxiv id', 'text query'), index=1)
|
190 |
-
|
191 |
-
query = st.text_input('Search query or arxivid', value="what causes galaxy quenching?")
|
192 |
-
show_authors = st.checkbox('Show author information', value = True)
|
193 |
-
show_summary = st.checkbox('Show paper summary', value = True)
|
194 |
-
return_n = st.slider('How many papers should I show?', 1, 30, 10)
|
195 |
-
|
196 |
-
if search_type == 'arxiv id':
|
197 |
-
sims = list_similar_papers_v2(model_data, doc_id = query, input_type='arxiv_id', show_authors = show_authors, show_summary = show_summary, return_n = return_n)
|
198 |
-
else:
|
199 |
-
sims = list_similar_papers_v2(model_data, doc_id = query, input_type='keywords', show_authors = show_authors, show_summary = show_summary, return_n = return_n)
|
200 |
-
|
201 |
-
st.markdown(sims)
|
|
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pages/3_answering_questions.py
DELETED
@@ -1,352 +0,0 @@
|
|
1 |
-
import os
|
2 |
-
import datetime
|
3 |
-
import faiss
|
4 |
-
import streamlit as st
|
5 |
-
import feedparser
|
6 |
-
import urllib
|
7 |
-
import cloudpickle as cp
|
8 |
-
import pickle
|
9 |
-
from urllib.request import urlopen
|
10 |
-
from summa import summarizer
|
11 |
-
import numpy as np
|
12 |
-
import matplotlib.pyplot as plt
|
13 |
-
import requests
|
14 |
-
import json
|
15 |
-
|
16 |
-
from langchain.document_loaders import TextLoader
|
17 |
-
from langchain.indexes import VectorstoreIndexCreator
|
18 |
-
from langchain_openai import AzureOpenAIEmbeddings
|
19 |
-
from langchain.llms import OpenAI
|
20 |
-
from langchain_openai import AzureChatOpenAI
|
21 |
-
from langchain import hub
|
22 |
-
from langchain_core.prompts import PromptTemplate
|
23 |
-
from langchain_core.runnables import RunnablePassthrough
|
24 |
-
from langchain_core.output_parsers import StrOutputParser
|
25 |
-
from langchain_core.runnables import RunnableParallel
|
26 |
-
from langchain.text_splitter import RecursiveCharacterTextSplitter
|
27 |
-
from langchain_community.vectorstores import Chroma
|
28 |
-
|
29 |
-
os.environ["OPENAI_API_TYPE"] = "azure"
|
30 |
-
os.environ["AZURE_ENDPOINT"] = st.secrets["endpoint1"]
|
31 |
-
os.environ["OPENAI_API_KEY"] = st.secrets["key1"]
|
32 |
-
os.environ["OPENAI_API_VERSION"] = "2023-05-15"
|
33 |
-
|
34 |
-
embeddings = AzureOpenAIEmbeddings(
|
35 |
-
deployment="embedding",
|
36 |
-
model="text-embedding-ada-002",
|
37 |
-
azure_endpoint=st.secrets["endpoint1"],
|
38 |
-
)
|
39 |
-
|
40 |
-
llm = AzureChatOpenAI(
|
41 |
-
deployment_name="gpt4_small",
|
42 |
-
openai_api_version="2023-12-01-preview",
|
43 |
-
azure_endpoint=st.secrets["endpoint2"],
|
44 |
-
openai_api_key=st.secrets["key2"],
|
45 |
-
openai_api_type="azure",
|
46 |
-
temperature=0.
|
47 |
-
)
|
48 |
-
|
49 |
-
|
50 |
-
@st.cache_data
|
51 |
-
def get_feeds_data(url):
|
52 |
-
# data = cp.load(urlopen(url))
|
53 |
-
with open(url, "rb") as fp:
|
54 |
-
data = pickle.load(fp)
|
55 |
-
st.sidebar.success("Loaded data")
|
56 |
-
return data
|
57 |
-
|
58 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
59 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
60 |
-
dateval = "27-Jun-2023"
|
61 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
62 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
63 |
-
gal_feeds = get_feeds_data(feeds_link)
|
64 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
65 |
-
|
66 |
-
@st.cache_data
|
67 |
-
def get_embedding_data(url):
|
68 |
-
# data = cp.load(urlopen(url))
|
69 |
-
with open(url, "rb") as fp:
|
70 |
-
data = pickle.load(fp)
|
71 |
-
st.sidebar.success("Fetched data from API!")
|
72 |
-
return data
|
73 |
-
|
74 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
75 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
76 |
-
e2d = get_embedding_data(url)
|
77 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
78 |
-
|
79 |
-
ctr = -1
|
80 |
-
num_chunks = len(gal_feeds)
|
81 |
-
all_text, all_titles, all_arxivid, all_links, all_authors = [], [], [], [], []
|
82 |
-
|
83 |
-
for nc in range(num_chunks):
|
84 |
-
|
85 |
-
for i in range(len(gal_feeds[nc].entries)):
|
86 |
-
text = gal_feeds[nc].entries[i].summary
|
87 |
-
text = text.replace('\n', ' ')
|
88 |
-
text = text.replace('\\', '')
|
89 |
-
all_text.append(text)
|
90 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
91 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
92 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
93 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
94 |
-
|
95 |
-
d = arxiv_ada_embeddings.shape[1] # dimension
|
96 |
-
nb = arxiv_ada_embeddings.shape[0] # database size
|
97 |
-
xb = arxiv_ada_embeddings.astype('float32')
|
98 |
-
index = faiss.IndexFlatL2(d)
|
99 |
-
index.add(xb)
|
100 |
-
|
101 |
-
def run_simple_query(search_query = 'all:sed+fitting', max_results = 10, start = 0, sort_by = 'lastUpdatedDate', sort_order = 'descending'):
|
102 |
-
"""
|
103 |
-
Query ArXiv to return search results for a particular query
|
104 |
-
Parameters
|
105 |
-
----------
|
106 |
-
query: str
|
107 |
-
query term. use prefixes ti, au, abs, co, jr, cat, m, id, all as applicable.
|
108 |
-
max_results: int, default = 10
|
109 |
-
number of results to return. numbers > 1000 generally lead to timeouts
|
110 |
-
start: int, default = 0
|
111 |
-
start index for results reported. use this if you're interested in running chunks.
|
112 |
-
Returns
|
113 |
-
-------
|
114 |
-
feed: dict
|
115 |
-
object containing requested results parsed with feedparser
|
116 |
-
Notes
|
117 |
-
-----
|
118 |
-
add functionality for chunk parsing, as well as storage and retreival
|
119 |
-
"""
|
120 |
-
|
121 |
-
base_url = 'http://export.arxiv.org/api/query?';
|
122 |
-
query = 'search_query=%s&start=%i&max_results=%i&sortBy=%s&sortOrder=%s' % (search_query,
|
123 |
-
start,
|
124 |
-
max_results,sort_by,sort_order)
|
125 |
-
|
126 |
-
response = urllib.request.urlopen(base_url+query).read()
|
127 |
-
feed = feedparser.parse(response)
|
128 |
-
return feed
|
129 |
-
|
130 |
-
def find_papers_by_author(auth_name):
|
131 |
-
|
132 |
-
doc_ids = []
|
133 |
-
for doc_id in range(len(all_authors)):
|
134 |
-
for auth_id in range(len(all_authors[doc_id])):
|
135 |
-
if auth_name.lower() in all_authors[doc_id][auth_id]['name'].lower():
|
136 |
-
print('Doc ID: ',doc_id, ' | arXiv: ', all_arxivid[doc_id], '| ', all_titles[doc_id],' | Author entry: ', all_authors[doc_id][auth_id]['name'])
|
137 |
-
doc_ids.append(doc_id)
|
138 |
-
|
139 |
-
return doc_ids
|
140 |
-
|
141 |
-
def faiss_based_indices(input_vector, nindex=10):
|
142 |
-
xq = input_vector.reshape(-1,1).T.astype('float32')
|
143 |
-
D, I = index.search(xq, nindex)
|
144 |
-
return I[0], D[0]
|
145 |
-
|
146 |
-
def list_similar_papers_v2(model_data,
|
147 |
-
doc_id = [], input_type = 'doc_id',
|
148 |
-
show_authors = False, show_summary = False,
|
149 |
-
return_n = 10):
|
150 |
-
|
151 |
-
arxiv_ada_embeddings, embeddings, all_titles, all_abstracts, all_authors = model_data
|
152 |
-
|
153 |
-
if input_type == 'doc_id':
|
154 |
-
print('Doc ID: ',doc_id,', title: ',all_titles[doc_id])
|
155 |
-
# inferred_vector = model.infer_vector(train_corpus[doc_id].words)
|
156 |
-
inferred_vector = arxiv_ada_embeddings[doc_id,0:]
|
157 |
-
start_range = 1
|
158 |
-
elif input_type == 'arxiv_id':
|
159 |
-
print('ArXiv id: ',doc_id)
|
160 |
-
arxiv_query_feed = run_simple_query(search_query='id:'+str(doc_id))
|
161 |
-
if len(arxiv_query_feed.entries) == 0:
|
162 |
-
print('error: arxiv id not found.')
|
163 |
-
return
|
164 |
-
else:
|
165 |
-
print('Title: '+arxiv_query_feed.entries[0].title)
|
166 |
-
inferred_vector = np.array(embeddings.embed_query(arxiv_query_feed.entries[0].summary))
|
167 |
-
start_range = 0
|
168 |
-
elif input_type == 'keywords':
|
169 |
-
inferred_vector = np.array(embeddings.embed_query(doc_id))
|
170 |
-
start_range = 0
|
171 |
-
else:
|
172 |
-
print('unrecognized input type.')
|
173 |
-
return
|
174 |
-
|
175 |
-
sims, dists = faiss_based_indices(inferred_vector, return_n+2)
|
176 |
-
textstr = ''
|
177 |
-
abstracts_relevant = []
|
178 |
-
fhdrs = []
|
179 |
-
|
180 |
-
for i in range(start_range,start_range+return_n):
|
181 |
-
|
182 |
-
abstracts_relevant.append(all_text[sims[i]])
|
183 |
-
fhdr = str(sims[i])+'_'+all_authors[sims[i]][0]['name'].split()[-1] + all_arxivid[sims[i]][0:2] +'_'+ all_arxivid[sims[i]]
|
184 |
-
fhdrs.append(fhdr)
|
185 |
-
textstr = textstr + str(i+1)+'. **'+ all_titles[sims[i]] +'** (Distance: %.2f' %dists[i]+') \n'
|
186 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[sims[i]]+'](https://arxiv.org/abs/'+all_arxivid[sims[i]]+') \n'
|
187 |
-
if show_authors == True:
|
188 |
-
textstr = textstr + '**Authors:** '
|
189 |
-
temp = all_authors[sims[i]]
|
190 |
-
for ak in range(len(temp)):
|
191 |
-
if ak < len(temp)-1:
|
192 |
-
textstr = textstr + temp[ak].name + ', '
|
193 |
-
else:
|
194 |
-
textstr = textstr + temp[ak].name + ' \n'
|
195 |
-
if show_summary == True:
|
196 |
-
textstr = textstr + '**Summary:** '
|
197 |
-
text = all_text[sims[i]]
|
198 |
-
text = text.replace('\n', ' ')
|
199 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
200 |
-
if show_authors == True or show_summary == True:
|
201 |
-
textstr = textstr + ' '
|
202 |
-
textstr = textstr + ' \n'
|
203 |
-
return textstr, abstracts_relevant, fhdrs, sims
|
204 |
-
|
205 |
-
|
206 |
-
def generate_chat_completion(messages, model="gpt-4", temperature=1, max_tokens=None):
|
207 |
-
headers = {
|
208 |
-
"Content-Type": "application/json",
|
209 |
-
"Authorization": f"Bearer {openai.api_key}",
|
210 |
-
}
|
211 |
-
|
212 |
-
data = {
|
213 |
-
"model": model,
|
214 |
-
"messages": messages,
|
215 |
-
"temperature": temperature,
|
216 |
-
}
|
217 |
-
|
218 |
-
if max_tokens is not None:
|
219 |
-
data["max_tokens"] = max_tokens
|
220 |
-
response = requests.post(API_ENDPOINT, headers=headers, data=json.dumps(data))
|
221 |
-
if response.status_code == 200:
|
222 |
-
return response.json()["choices"][0]["message"]["content"]
|
223 |
-
else:
|
224 |
-
raise Exception(f"Error {response.status_code}: {response.text}")
|
225 |
-
|
226 |
-
model_data = [arxiv_ada_embeddings, embeddings, all_titles, all_text, all_authors]
|
227 |
-
|
228 |
-
def format_docs(docs):
|
229 |
-
return "\n\n".join(doc.page_content for doc in docs)
|
230 |
-
|
231 |
-
def get_textstr(i, show_authors=False, show_summary=False):
|
232 |
-
textstr = ''
|
233 |
-
textstr = '**'+ all_titles[i] +'** \n'
|
234 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[i]+'](https://arxiv.org/abs/'+all_arxivid[i]+') \n'
|
235 |
-
if show_authors == True:
|
236 |
-
textstr = textstr + '**Authors:** '
|
237 |
-
temp = all_authors[i]
|
238 |
-
for ak in range(len(temp)):
|
239 |
-
if ak < len(temp)-1:
|
240 |
-
textstr = textstr + temp[ak].name + ', '
|
241 |
-
else:
|
242 |
-
textstr = textstr + temp[ak].name + ' \n'
|
243 |
-
if show_summary == True:
|
244 |
-
textstr = textstr + '**Summary:** '
|
245 |
-
text = all_text[i]
|
246 |
-
text = text.replace('\n', ' ')
|
247 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
248 |
-
if show_authors == True or show_summary == True:
|
249 |
-
textstr = textstr + ' '
|
250 |
-
textstr = textstr + ' \n'
|
251 |
-
|
252 |
-
return textstr
|
253 |
-
|
254 |
-
|
255 |
-
def run_rag(query, return_n = 10, show_authors = True, show_summary = True):
|
256 |
-
|
257 |
-
sims, absts, fhdrs, simids = list_similar_papers_v2(model_data,
|
258 |
-
doc_id = query,
|
259 |
-
input_type='keywords',
|
260 |
-
show_authors = show_authors, show_summary = show_summary,
|
261 |
-
return_n = return_n)
|
262 |
-
|
263 |
-
temp_abst = ''
|
264 |
-
loaders = []
|
265 |
-
for i in range(len(absts)):
|
266 |
-
temp_abst = absts[i]
|
267 |
-
|
268 |
-
try:
|
269 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
270 |
-
except:
|
271 |
-
os.mkdir('absts')
|
272 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
273 |
-
n = text_file.write(temp_abst)
|
274 |
-
text_file.close()
|
275 |
-
loader = TextLoader("absts/"+fhdrs[i]+".txt")
|
276 |
-
loaders.append(loader)
|
277 |
-
|
278 |
-
text_splitter = RecursiveCharacterTextSplitter(chunk_size=1000, chunk_overlap=50)
|
279 |
-
splits = text_splitter.split_documents([loader.load()[0] for loader in loaders])
|
280 |
-
vectorstore = Chroma.from_documents(documents=splits, embedding=embeddings)
|
281 |
-
retriever = vectorstore.as_retriever()
|
282 |
-
|
283 |
-
template = """You are an assistant with expertise in astrophysics for question-answering tasks.
|
284 |
-
Use the following pieces of retrieved context from the literature to answer the question.
|
285 |
-
If you don't know the answer, just say that you don't know.
|
286 |
-
Use six sentences maximum and keep the answer concise.
|
287 |
-
|
288 |
-
{context}
|
289 |
-
|
290 |
-
Question: {question}
|
291 |
-
|
292 |
-
Answer:"""
|
293 |
-
custom_rag_prompt = PromptTemplate.from_template(template)
|
294 |
-
|
295 |
-
rag_chain_from_docs = (
|
296 |
-
RunnablePassthrough.assign(context=(lambda x: format_docs(x["context"])))
|
297 |
-
| custom_rag_prompt
|
298 |
-
| llm
|
299 |
-
| StrOutputParser()
|
300 |
-
)
|
301 |
-
|
302 |
-
rag_chain_with_source = RunnableParallel(
|
303 |
-
{"context": retriever, "question": RunnablePassthrough()}
|
304 |
-
).assign(answer=rag_chain_from_docs)
|
305 |
-
|
306 |
-
rag_answer = rag_chain_with_source.invoke(query)
|
307 |
-
|
308 |
-
st.markdown('### User query: '+query)
|
309 |
-
|
310 |
-
st.markdown(rag_answer['answer'])
|
311 |
-
opstr = '#### Primary sources: \n'
|
312 |
-
srcnames = []
|
313 |
-
for i in range(len(rag_answer['context'])):
|
314 |
-
srcnames.append(rag_answer['context'][0].metadata['source'])
|
315 |
-
|
316 |
-
srcnames = np.unique(srcnames)
|
317 |
-
srcindices = []
|
318 |
-
for i in range(len(srcnames)):
|
319 |
-
temp = srcnames[i].split('_')[1]
|
320 |
-
srcindices.append(int(srcnames[i].split('_')[0].split('/')[1]))
|
321 |
-
if int(temp[-2:]) < 40:
|
322 |
-
temp = temp[0:-2] + ' et al. 20' + temp[-2:]
|
323 |
-
else:
|
324 |
-
temp = temp[0:-2] + ' et al. 19' + temp[-2:]
|
325 |
-
temp = '['+temp+']('+all_links[int(srcnames[i].split('_')[0].split('/')[1])]+')'
|
326 |
-
st.markdown(temp)
|
327 |
-
abs_indices = np.array(srcindices)
|
328 |
-
|
329 |
-
fig = plt.figure(figsize=(9,9))
|
330 |
-
plt.scatter(e2d[0:,0], e2d[0:,1],s=2)
|
331 |
-
plt.scatter(e2d[simids,0], e2d[simids,1],s=30)
|
332 |
-
plt.scatter(e2d[abs_indices,0], e2d[abs_indices,1],s=100,color='k',marker='d')
|
333 |
-
plt.title('localization for question: '+query)
|
334 |
-
st.pyplot(fig)
|
335 |
-
|
336 |
-
st.markdown('\n #### List of relevant papers:')
|
337 |
-
st.markdown(sims)
|
338 |
-
|
339 |
-
return rag_answer
|
340 |
-
|
341 |
-
|
342 |
-
st.title('ArXiv-based question answering')
|
343 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
344 |
-
st.markdown('Concise answers for questions using arxiv abstracts + GPT-4. You might need to wait for a few seconds for the GPT-4 query to return an answer (check top right corner to see if it is still running).')
|
345 |
-
st.markdown('The answers are followed by relevant source(s) used in the answer, a graph showing which part of the astro-ph.GA manifold it drew the answer from (tightly clustered points generally indicate high quality/consensus answers) followed by a bunch of relevant papers used by the RAG to compose the answer.')
|
346 |
-
st.markdown('If this does not satisfactorily answer your question or rambles too much, you can also try the older `qa_sources_v1` page.')
|
347 |
-
|
348 |
-
query = st.text_input('Your question here:',
|
349 |
-
value="What causes galaxy quenching at high redshifts?")
|
350 |
-
return_n = st.slider('How many papers should I show?', 1, 30, 10)
|
351 |
-
|
352 |
-
sims = run_rag(query, return_n = return_n)
|
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pages/4_author_search.py
DELETED
@@ -1,138 +0,0 @@
|
|
1 |
-
import os
|
2 |
-
import datetime
|
3 |
-
import faiss
|
4 |
-
import streamlit as st
|
5 |
-
import feedparser
|
6 |
-
import urllib
|
7 |
-
import cloudpickle as cp
|
8 |
-
import pickle
|
9 |
-
from urllib.request import urlopen
|
10 |
-
from summa import summarizer
|
11 |
-
import numpy as np
|
12 |
-
import matplotlib.pyplot as plt
|
13 |
-
import requests
|
14 |
-
import json
|
15 |
-
|
16 |
-
from langchain_openai import AzureOpenAIEmbeddings
|
17 |
-
from langchain.llms import OpenAI
|
18 |
-
from langchain_openai import AzureChatOpenAI
|
19 |
-
|
20 |
-
os.environ["OPENAI_API_TYPE"] = "azure"
|
21 |
-
os.environ["AZURE_ENDPOINT"] = st.secrets["endpoint1"]
|
22 |
-
os.environ["OPENAI_API_KEY"] = st.secrets["key1"]
|
23 |
-
os.environ["OPENAI_API_VERSION"] = "2023-05-15"
|
24 |
-
|
25 |
-
embeddings = AzureOpenAIEmbeddings(
|
26 |
-
deployment="embedding",
|
27 |
-
model="text-embedding-ada-002",
|
28 |
-
azure_endpoint=st.secrets["endpoint1"],
|
29 |
-
)
|
30 |
-
|
31 |
-
llm = AzureChatOpenAI(
|
32 |
-
deployment_name="gpt4_small",
|
33 |
-
openai_api_version="2023-12-01-preview",
|
34 |
-
azure_endpoint=st.secrets["endpoint2"],
|
35 |
-
openai_api_key=st.secrets["key2"],
|
36 |
-
openai_api_type="azure",
|
37 |
-
temperature=0.
|
38 |
-
)
|
39 |
-
|
40 |
-
|
41 |
-
@st.cache_data
|
42 |
-
def get_feeds_data(url):
|
43 |
-
# data = cp.load(urlopen(url))
|
44 |
-
with open(url, "rb") as fp:
|
45 |
-
data = pickle.load(fp)
|
46 |
-
st.sidebar.success("Loaded data")
|
47 |
-
return data
|
48 |
-
|
49 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
50 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
51 |
-
dateval = "27-Jun-2023"
|
52 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
53 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
54 |
-
gal_feeds = get_feeds_data(feeds_link)
|
55 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
56 |
-
|
57 |
-
@st.cache_data
|
58 |
-
def get_embedding_data(url):
|
59 |
-
# data = cp.load(urlopen(url))
|
60 |
-
with open(url, "rb") as fp:
|
61 |
-
data = pickle.load(fp)
|
62 |
-
st.sidebar.success("Fetched data from API!")
|
63 |
-
return data
|
64 |
-
|
65 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
66 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
67 |
-
e2d = get_embedding_data(url)
|
68 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
69 |
-
|
70 |
-
ctr = -1
|
71 |
-
num_chunks = len(gal_feeds)
|
72 |
-
ctr = -1
|
73 |
-
num_chunks = len(gal_feeds)
|
74 |
-
all_text, all_titles, all_arxivid, all_links, all_authors, all_pubdates, all_old = [], [], [], [], [], [], []
|
75 |
-
|
76 |
-
for nc in range(num_chunks):
|
77 |
-
|
78 |
-
for i in range(len(gal_feeds[nc].entries)):
|
79 |
-
text = gal_feeds[nc].entries[i].summary
|
80 |
-
text = text.replace('\n', ' ')
|
81 |
-
text = text.replace('\\', '')
|
82 |
-
all_text.append(text)
|
83 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
84 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
85 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
86 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
87 |
-
temp = gal_feeds[nc].entries[i].published
|
88 |
-
datetime_object = datetime.datetime.strptime(temp[0:10]+' '+temp[11:-1], '%Y-%m-%d %H:%M:%S')
|
89 |
-
all_pubdates.append(datetime_object)
|
90 |
-
all_old.append((datetime.datetime.now() - datetime_object).days)
|
91 |
-
|
92 |
-
def make_author_plot(inputstr, print_summary = False):
|
93 |
-
|
94 |
-
authr_list = inputstr.split(', ')
|
95 |
-
author_flag = np.zeros((len(all_authors),))
|
96 |
-
ctr = 0
|
97 |
-
pts = []
|
98 |
-
for i in range(len(all_authors)):
|
99 |
-
for j in range(len(all_authors[i])):
|
100 |
-
for k in range(len(authr_list)):
|
101 |
-
authr = authr_list[k]
|
102 |
-
if authr.lower() in all_authors[i][j]['name'].lower():
|
103 |
-
author_flag[i] = 1
|
104 |
-
ctr = ctr+1
|
105 |
-
printstr = str(ctr)+'. [age= %.1f yr, x: %.1f, y: %.1f]' %(all_old[i]/365,e2d[i,0], e2d[i,1])+' name: '+all_authors[i][j]['name']
|
106 |
-
pts.append(printstr)
|
107 |
-
pts.append('Paper title: ' + all_titles[i])
|
108 |
-
else:
|
109 |
-
continue
|
110 |
-
print(np.sum(author_flag))
|
111 |
-
author_flag = author_flag.astype(bool)
|
112 |
-
|
113 |
-
fig = plt.figure(figsize=(10.8,9.))
|
114 |
-
plt.scatter(e2d[0:,0], e2d[0:,1],s=1,color='k',alpha=0.3)
|
115 |
-
plt.scatter(e2d[0:,0][author_flag], e2d[0:,1][author_flag],
|
116 |
-
s=100,c=np.array(all_old)[author_flag]/365,alpha=1.0, cmap='coolwarm')
|
117 |
-
clbr = plt.colorbar(); clbr.set_label('lookback time [years]',fontsize=18)
|
118 |
-
tempx = plt.xlim(); tempy = plt.ylim()
|
119 |
-
plt.title('Author: '+authr,fontsize=18,fontweight='bold')
|
120 |
-
st.pyplot(fig)
|
121 |
-
|
122 |
-
if print_summary == True:
|
123 |
-
st.markdown('---')
|
124 |
-
for i in range(len(pts)):
|
125 |
-
st.markdown(pts[i])
|
126 |
-
|
127 |
-
return
|
128 |
-
|
129 |
-
|
130 |
-
st.title('Author search')
|
131 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
132 |
-
st.markdown('Trace the location and trajectory of a researcher in the astro-ph.GA manifold.')
|
133 |
-
st.markdown('The current text matching is exact (not case sensitive), so look at the printed summaries below to refine your input string. If you have multiple aliases by which you publish, separate the inputs with a comma followed by a space like in the example below.')
|
134 |
-
|
135 |
-
query = st.text_input('Author name:',
|
136 |
-
value="Kartheik Iyer, Kartheik G. Iyer, K. G. Iyer")
|
137 |
-
|
138 |
-
make_author_plot(query, print_summary=True)
|
|
|
|
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|
pages/5_research_hotspots.py
DELETED
@@ -1,130 +0,0 @@
|
|
1 |
-
import os
|
2 |
-
import datetime
|
3 |
-
import faiss
|
4 |
-
import streamlit as st
|
5 |
-
import feedparser
|
6 |
-
import urllib
|
7 |
-
import cloudpickle as cp
|
8 |
-
import pickle
|
9 |
-
from urllib.request import urlopen
|
10 |
-
from summa import summarizer
|
11 |
-
import numpy as np
|
12 |
-
import matplotlib.pyplot as plt
|
13 |
-
import requests
|
14 |
-
import json
|
15 |
-
from scipy import ndimage
|
16 |
-
|
17 |
-
from langchain_openai import AzureOpenAIEmbeddings
|
18 |
-
from langchain.llms import OpenAI
|
19 |
-
from langchain_openai import AzureChatOpenAI
|
20 |
-
|
21 |
-
os.environ["OPENAI_API_TYPE"] = "azure"
|
22 |
-
os.environ["AZURE_ENDPOINT"] = st.secrets["endpoint1"]
|
23 |
-
os.environ["OPENAI_API_KEY"] = st.secrets["key1"]
|
24 |
-
os.environ["OPENAI_API_VERSION"] = "2023-05-15"
|
25 |
-
|
26 |
-
embeddings = AzureOpenAIEmbeddings(
|
27 |
-
deployment="embedding",
|
28 |
-
model="text-embedding-ada-002",
|
29 |
-
azure_endpoint=st.secrets["endpoint1"],
|
30 |
-
)
|
31 |
-
|
32 |
-
llm = AzureChatOpenAI(
|
33 |
-
deployment_name="gpt4_small",
|
34 |
-
openai_api_version="2023-12-01-preview",
|
35 |
-
azure_endpoint=st.secrets["endpoint2"],
|
36 |
-
openai_api_key=st.secrets["key2"],
|
37 |
-
openai_api_type="azure",
|
38 |
-
temperature=0.
|
39 |
-
)
|
40 |
-
|
41 |
-
|
42 |
-
@st.cache_data
|
43 |
-
def get_feeds_data(url):
|
44 |
-
# data = cp.load(urlopen(url))
|
45 |
-
with open(url, "rb") as fp:
|
46 |
-
data = pickle.load(fp)
|
47 |
-
st.sidebar.success("Loaded data")
|
48 |
-
return data
|
49 |
-
|
50 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
51 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
52 |
-
dateval = "27-Jun-2023"
|
53 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
54 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
55 |
-
gal_feeds = get_feeds_data(feeds_link)
|
56 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
57 |
-
|
58 |
-
@st.cache_data
|
59 |
-
def get_embedding_data(url):
|
60 |
-
# data = cp.load(urlopen(url))
|
61 |
-
with open(url, "rb") as fp:
|
62 |
-
data = pickle.load(fp)
|
63 |
-
st.sidebar.success("Fetched data from API!")
|
64 |
-
return data
|
65 |
-
|
66 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
67 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
68 |
-
e2d = get_embedding_data(url)
|
69 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
70 |
-
|
71 |
-
ctr = -1
|
72 |
-
num_chunks = len(gal_feeds)
|
73 |
-
ctr = -1
|
74 |
-
num_chunks = len(gal_feeds)
|
75 |
-
all_text, all_titles, all_arxivid, all_links, all_authors, all_pubdates, all_old = [], [], [], [], [], [], []
|
76 |
-
|
77 |
-
for nc in range(num_chunks):
|
78 |
-
|
79 |
-
for i in range(len(gal_feeds[nc].entries)):
|
80 |
-
text = gal_feeds[nc].entries[i].summary
|
81 |
-
text = text.replace('\n', ' ')
|
82 |
-
text = text.replace('\\', '')
|
83 |
-
all_text.append(text)
|
84 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
85 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
86 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
87 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
88 |
-
temp = gal_feeds[nc].entries[i].published
|
89 |
-
datetime_object = datetime.datetime.strptime(temp[0:10]+' '+temp[11:-1], '%Y-%m-%d %H:%M:%S')
|
90 |
-
all_pubdates.append(datetime_object)
|
91 |
-
all_old.append((datetime.datetime.now() - datetime_object).days)
|
92 |
-
|
93 |
-
def make_time_excess_plot(midage = 0, tolage = 1, onlyolder = False):
|
94 |
-
|
95 |
-
bw = 0.05
|
96 |
-
sigma = 4.0
|
97 |
-
mask = (np.abs(np.array(all_old) - midage*365) < tolage*365)
|
98 |
-
|
99 |
-
if onlyolder == True:
|
100 |
-
mask2 = (np.array(all_old) > midage*365 + tolage*365/2)
|
101 |
-
a = np.histogram2d(e2d[0:,0][mask2], e2d[0:,1][mask2], bins=(np.arange(0,17,bw)), density=True)
|
102 |
-
else:
|
103 |
-
a = np.histogram2d(e2d[0:,0], e2d[0:,1], bins=(np.arange(0,17,bw)), density=True)
|
104 |
-
b = np.histogram2d(e2d[0:,0][mask], e2d[0:,1][mask], bins=(np.arange(0,17,bw)), density=True)
|
105 |
-
temp = b[0].T - a[0].T
|
106 |
-
temp = ndimage.gaussian_filter(temp, sigma, mode='nearest')
|
107 |
-
vscale = (np.nanpercentile(temp,99.5) - np.nanpercentile(temp,0.5))/2
|
108 |
-
|
109 |
-
fig, ax = plt.subplots(1,1,figsize=(11,9))
|
110 |
-
plt.pcolor(a[1][0:-1] + (a[1][1]-a[1][0])/2, a[2][0:-1] + (a[2][1]-a[2][0])/2,
|
111 |
-
temp,cmap='bwr',
|
112 |
-
vmin=-vscale,vmax=vscale); plt.colorbar()
|
113 |
-
# plt.scatter(e2d[0:,0], e2d[0:,1],s=2,color='k',alpha=0.1)
|
114 |
-
plt.title('excess research over the last %.1f yrs centered at %.1f yrs' %(tolage, midage))
|
115 |
-
plt.axis([0,14,1,15])
|
116 |
-
plt.axis('off')
|
117 |
-
st.pyplot(fig)
|
118 |
-
return
|
119 |
-
|
120 |
-
st.title('Research hotspots')
|
121 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
122 |
-
|
123 |
-
midage = st.slider('Age', 0., 10., 0.)
|
124 |
-
tolage = st.slider('Period width', 0., 10., 1.)
|
125 |
-
|
126 |
-
st.markdown('Compare the research in a given time period to the full manifold.')
|
127 |
-
make_time_excess_plot(midage, tolage, onlyolder = False)
|
128 |
-
|
129 |
-
st.markdown('Compare the research in a given time period to research older than that.')
|
130 |
-
make_time_excess_plot(midage, tolage, onlyolder = True)
|
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|
pages/6_qa_sources_v1.py
DELETED
@@ -1,286 +0,0 @@
|
|
1 |
-
import datetime, os
|
2 |
-
from langchain.llms import OpenAI
|
3 |
-
from langchain.embeddings import OpenAIEmbeddings
|
4 |
-
import openai
|
5 |
-
import faiss
|
6 |
-
import streamlit as st
|
7 |
-
import feedparser
|
8 |
-
import urllib
|
9 |
-
import cloudpickle as cp
|
10 |
-
import pickle
|
11 |
-
from urllib.request import urlopen
|
12 |
-
from summa import summarizer
|
13 |
-
import numpy as np
|
14 |
-
import matplotlib.pyplot as plt
|
15 |
-
|
16 |
-
import requests
|
17 |
-
import json
|
18 |
-
from langchain.document_loaders import TextLoader
|
19 |
-
from langchain.indexes import VectorstoreIndexCreator
|
20 |
-
API_ENDPOINT = "https://api.openai.com/v1/chat/completions"
|
21 |
-
|
22 |
-
# openai.organization = st.secrets.openai.org
|
23 |
-
# openai.api_key = st.secrets.openai.api_key
|
24 |
-
openai.organization = st.secrets["org"]
|
25 |
-
openai.api_key = st.secrets["api_key"]
|
26 |
-
os.environ["OPENAI_API_KEY"] = openai.api_key
|
27 |
-
|
28 |
-
@st.cache_data
|
29 |
-
def get_feeds_data(url):
|
30 |
-
# data = cp.load(urlopen(url))
|
31 |
-
with open(url, "rb") as fp:
|
32 |
-
data = pickle.load(fp)
|
33 |
-
st.sidebar.success("Loaded data")
|
34 |
-
return data
|
35 |
-
|
36 |
-
embeddings = OpenAIEmbeddings()
|
37 |
-
|
38 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
39 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
40 |
-
dateval = "27-Jun-2023"
|
41 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
42 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
43 |
-
gal_feeds = get_feeds_data(feeds_link)
|
44 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
45 |
-
|
46 |
-
@st.cache_data
|
47 |
-
def get_embedding_data(url):
|
48 |
-
# data = cp.load(urlopen(url))
|
49 |
-
with open(url, "rb") as fp:
|
50 |
-
data = pickle.load(fp)
|
51 |
-
st.sidebar.success("Fetched data from API!")
|
52 |
-
return data
|
53 |
-
|
54 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
55 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
56 |
-
e2d = get_embedding_data(url)
|
57 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
58 |
-
|
59 |
-
ctr = -1
|
60 |
-
num_chunks = len(gal_feeds)
|
61 |
-
all_text, all_titles, all_arxivid, all_links, all_authors = [], [], [], [], []
|
62 |
-
|
63 |
-
for nc in range(num_chunks):
|
64 |
-
|
65 |
-
for i in range(len(gal_feeds[nc].entries)):
|
66 |
-
text = gal_feeds[nc].entries[i].summary
|
67 |
-
text = text.replace('\n', ' ')
|
68 |
-
text = text.replace('\\', '')
|
69 |
-
all_text.append(text)
|
70 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
71 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
72 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
73 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
74 |
-
|
75 |
-
d = arxiv_ada_embeddings.shape[1] # dimension
|
76 |
-
nb = arxiv_ada_embeddings.shape[0] # database size
|
77 |
-
xb = arxiv_ada_embeddings.astype('float32')
|
78 |
-
index = faiss.IndexFlatL2(d)
|
79 |
-
index.add(xb)
|
80 |
-
|
81 |
-
def run_simple_query(search_query = 'all:sed+fitting', max_results = 10, start = 0, sort_by = 'lastUpdatedDate', sort_order = 'descending'):
|
82 |
-
"""
|
83 |
-
Query ArXiv to return search results for a particular query
|
84 |
-
Parameters
|
85 |
-
----------
|
86 |
-
query: str
|
87 |
-
query term. use prefixes ti, au, abs, co, jr, cat, m, id, all as applicable.
|
88 |
-
max_results: int, default = 10
|
89 |
-
number of results to return. numbers > 1000 generally lead to timeouts
|
90 |
-
start: int, default = 0
|
91 |
-
start index for results reported. use this if you're interested in running chunks.
|
92 |
-
Returns
|
93 |
-
-------
|
94 |
-
feed: dict
|
95 |
-
object containing requested results parsed with feedparser
|
96 |
-
Notes
|
97 |
-
-----
|
98 |
-
add functionality for chunk parsing, as well as storage and retreival
|
99 |
-
"""
|
100 |
-
|
101 |
-
base_url = 'http://export.arxiv.org/api/query?';
|
102 |
-
query = 'search_query=%s&start=%i&max_results=%i&sortBy=%s&sortOrder=%s' % (search_query,
|
103 |
-
start,
|
104 |
-
max_results,sort_by,sort_order)
|
105 |
-
|
106 |
-
response = urllib.request.urlopen(base_url+query).read()
|
107 |
-
feed = feedparser.parse(response)
|
108 |
-
return feed
|
109 |
-
|
110 |
-
def find_papers_by_author(auth_name):
|
111 |
-
|
112 |
-
doc_ids = []
|
113 |
-
for doc_id in range(len(all_authors)):
|
114 |
-
for auth_id in range(len(all_authors[doc_id])):
|
115 |
-
if auth_name.lower() in all_authors[doc_id][auth_id]['name'].lower():
|
116 |
-
print('Doc ID: ',doc_id, ' | arXiv: ', all_arxivid[doc_id], '| ', all_titles[doc_id],' | Author entry: ', all_authors[doc_id][auth_id]['name'])
|
117 |
-
doc_ids.append(doc_id)
|
118 |
-
|
119 |
-
return doc_ids
|
120 |
-
|
121 |
-
def faiss_based_indices(input_vector, nindex=10, yrmin = 1990, yrmax = 2024):
|
122 |
-
xq = input_vector.reshape(-1,1).T.astype('float32')
|
123 |
-
D, I = index.search(xq, nindex)
|
124 |
-
return I[0], D[0]
|
125 |
-
|
126 |
-
def list_similar_papers_v2(model_data,
|
127 |
-
doc_id = [], input_type = 'doc_id',
|
128 |
-
show_authors = False, show_summary = False,
|
129 |
-
return_n = 10, yrmin = 1990, yrmax = 2024):
|
130 |
-
|
131 |
-
arxiv_ada_embeddings, embeddings, all_titles, all_abstracts, all_authors = model_data
|
132 |
-
|
133 |
-
if input_type == 'doc_id':
|
134 |
-
print('Doc ID: ',doc_id,', title: ',all_titles[doc_id])
|
135 |
-
# inferred_vector = model.infer_vector(train_corpus[doc_id].words)
|
136 |
-
inferred_vector = arxiv_ada_embeddings[doc_id,0:]
|
137 |
-
start_range = 1
|
138 |
-
elif input_type == 'arxiv_id':
|
139 |
-
print('ArXiv id: ',doc_id)
|
140 |
-
arxiv_query_feed = run_simple_query(search_query='id:'+str(doc_id))
|
141 |
-
if len(arxiv_query_feed.entries) == 0:
|
142 |
-
print('error: arxiv id not found.')
|
143 |
-
return
|
144 |
-
else:
|
145 |
-
print('Title: '+arxiv_query_feed.entries[0].title)
|
146 |
-
inferred_vector = np.array(embeddings.embed_query(arxiv_query_feed.entries[0].summary))
|
147 |
-
start_range = 0
|
148 |
-
elif input_type == 'keywords':
|
149 |
-
inferred_vector = np.array(embeddings.embed_query(doc_id))
|
150 |
-
start_range = 0
|
151 |
-
else:
|
152 |
-
print('unrecognized input type.')
|
153 |
-
return
|
154 |
-
|
155 |
-
sims, dists = faiss_based_indices(inferred_vector, return_n+2, yrmin = 1990, yrmax = 2024)
|
156 |
-
textstr = ''
|
157 |
-
abstracts_relevant = []
|
158 |
-
fhdrs = []
|
159 |
-
|
160 |
-
for i in range(start_range,start_range+return_n):
|
161 |
-
|
162 |
-
abstracts_relevant.append(all_text[sims[i]])
|
163 |
-
fhdr = all_authors[sims[i]][0]['name'].split()[-1] + all_arxivid[sims[i]][0:2] +'_'+ all_arxivid[sims[i]]
|
164 |
-
fhdrs.append(fhdr)
|
165 |
-
textstr = textstr + str(i+1)+'. **'+ all_titles[sims[i]] +'** (Distance: %.2f' %dists[i]+') \n'
|
166 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[sims[i]]+'](https://arxiv.org/abs/'+all_arxivid[sims[i]]+') \n'
|
167 |
-
if show_authors == True:
|
168 |
-
textstr = textstr + '**Authors:** '
|
169 |
-
temp = all_authors[sims[i]]
|
170 |
-
for ak in range(len(temp)):
|
171 |
-
if ak < len(temp)-1:
|
172 |
-
textstr = textstr + temp[ak].name + ', '
|
173 |
-
else:
|
174 |
-
textstr = textstr + temp[ak].name + ' \n'
|
175 |
-
if show_summary == True:
|
176 |
-
textstr = textstr + '**Summary:** '
|
177 |
-
text = all_text[sims[i]]
|
178 |
-
text = text.replace('\n', ' ')
|
179 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
180 |
-
if show_authors == True or show_summary == True:
|
181 |
-
textstr = textstr + ' '
|
182 |
-
textstr = textstr + ' \n'
|
183 |
-
return textstr, abstracts_relevant, fhdrs, sims
|
184 |
-
|
185 |
-
model_data = [arxiv_ada_embeddings, embeddings, all_titles, all_text, all_authors]
|
186 |
-
|
187 |
-
def run_query(query, return_n = 3, yrmin = 1990, yrmax = 2024, show_pure_answer = False, show_all_sources = True):
|
188 |
-
|
189 |
-
show_authors = True
|
190 |
-
show_summary = True
|
191 |
-
sims, absts, fhdrs, simids = list_similar_papers_v2(model_data,
|
192 |
-
doc_id = query,
|
193 |
-
input_type='keywords',
|
194 |
-
show_authors = show_authors, show_summary = show_summary,
|
195 |
-
return_n = return_n, yrmin = 1990, yrmax = 2024)
|
196 |
-
|
197 |
-
temp_abst = ''
|
198 |
-
loaders = []
|
199 |
-
for i in range(len(absts)):
|
200 |
-
temp_abst = absts[i]
|
201 |
-
|
202 |
-
try:
|
203 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
204 |
-
except:
|
205 |
-
os.mkdir('absts')
|
206 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
207 |
-
n = text_file.write(temp_abst)
|
208 |
-
text_file.close()
|
209 |
-
loader = TextLoader("absts/"+fhdrs[i]+".txt")
|
210 |
-
loaders.append(loader)
|
211 |
-
|
212 |
-
lc_index = VectorstoreIndexCreator().from_loaders(loaders)
|
213 |
-
|
214 |
-
st.markdown('### User query: '+query)
|
215 |
-
if show_pure_answer == True:
|
216 |
-
st.markdown('pure answer:')
|
217 |
-
st.markdown(lc_index.query(query))
|
218 |
-
st.markdown(' ')
|
219 |
-
st.markdown('#### context-based answer from sources:')
|
220 |
-
output = lc_index.query_with_sources(query + ' Let\'s work this out in a step by step way to be sure we have the right answer.' ) #zero-shot in-context prompting from Zhou+22, Kojima+22
|
221 |
-
st.markdown(output['answer'])
|
222 |
-
opstr = '#### Primary sources: \n'
|
223 |
-
st.markdown(opstr)
|
224 |
-
|
225 |
-
# opstr = ''
|
226 |
-
# for i in range(len(output['sources'])):
|
227 |
-
# opstr = opstr +'\n'+ output['sources'][i]
|
228 |
-
|
229 |
-
textstr = ''
|
230 |
-
ng = len(output['sources'].split())
|
231 |
-
abs_indices = []
|
232 |
-
|
233 |
-
for i in range(ng):
|
234 |
-
if i == (ng-1):
|
235 |
-
tempid = output['sources'].split()[i].split('_')[1][0:-4]
|
236 |
-
else:
|
237 |
-
tempid = output['sources'].split()[i].split('_')[1][0:-5]
|
238 |
-
try:
|
239 |
-
abs_index = all_arxivid.index(tempid)
|
240 |
-
abs_indices.append(abs_index)
|
241 |
-
textstr = textstr + str(i+1)+'. **'+ all_titles[abs_index] +' \n'
|
242 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[abs_index]+'](https://arxiv.org/abs/'+all_arxivid[abs_index]+') \n'
|
243 |
-
textstr = textstr + '**Authors:** '
|
244 |
-
temp = all_authors[abs_index]
|
245 |
-
for ak in range(4):
|
246 |
-
if ak < len(temp)-1:
|
247 |
-
textstr = textstr + temp[ak].name + ', '
|
248 |
-
else:
|
249 |
-
textstr = textstr + temp[ak].name + ' \n'
|
250 |
-
if len(temp) > 3:
|
251 |
-
textstr = textstr + ' et al. \n'
|
252 |
-
textstr = textstr + '**Summary:** '
|
253 |
-
text = all_text[abs_index]
|
254 |
-
text = text.replace('\n', ' ')
|
255 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
256 |
-
except:
|
257 |
-
textstr = textstr + output['sources'].split()[i]
|
258 |
-
# opstr = opstr + ' \n ' + output['sources'].split()[i][6:-5].split('_')[0]
|
259 |
-
# opstr = opstr + ' \n Arxiv id: ' + output['sources'].split()[i][6:-5].split('_')[1]
|
260 |
-
|
261 |
-
textstr = textstr + ' '
|
262 |
-
textstr = textstr + ' \n'
|
263 |
-
st.markdown(textstr)
|
264 |
-
|
265 |
-
fig = plt.figure(figsize=(9,9))
|
266 |
-
plt.scatter(e2d[0:,0], e2d[0:,1],s=2)
|
267 |
-
plt.scatter(e2d[simids,0], e2d[simids,1],s=30)
|
268 |
-
plt.scatter(e2d[abs_indices,0], e2d[abs_indices,1],s=100,color='k',marker='d')
|
269 |
-
st.pyplot(fig)
|
270 |
-
|
271 |
-
if show_all_sources == True:
|
272 |
-
st.markdown('\n #### Other interesting papers:')
|
273 |
-
st.markdown(sims)
|
274 |
-
return output
|
275 |
-
|
276 |
-
st.title('ArXiv-based question answering')
|
277 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
278 |
-
st.markdown('Concise answers for questions using arxiv abstracts + GPT-4. Please use sparingly because it costs me money right now. You might need to wait for a few seconds for the GPT-4 query to return an answer (check top right corner to see if it is still running).')
|
279 |
-
|
280 |
-
query = st.text_input('Your question here:', value="What sersic index does a disk galaxy have?")
|
281 |
-
return_n = st.slider('How many papers should I show?', 1, 20, 10)
|
282 |
-
yrmin = st.slider('Min year', 1990,2023, 1990)
|
283 |
-
yrmax = st.slider('Max year', 1990, 2024, 2024)
|
284 |
-
|
285 |
-
|
286 |
-
sims = run_query(query, return_n = return_n, yrmin = yrmin, yrmax = yrmax)
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|
pages/7_answering_questions_2024.py
DELETED
@@ -1,352 +0,0 @@
|
|
1 |
-
import os
|
2 |
-
import datetime
|
3 |
-
import faiss
|
4 |
-
import streamlit as st
|
5 |
-
import feedparser
|
6 |
-
import urllib
|
7 |
-
import cloudpickle as cp
|
8 |
-
import pickle
|
9 |
-
from urllib.request import urlopen
|
10 |
-
from summa import summarizer
|
11 |
-
import numpy as np
|
12 |
-
import matplotlib.pyplot as plt
|
13 |
-
import requests
|
14 |
-
import json
|
15 |
-
|
16 |
-
from langchain.document_loaders import TextLoader
|
17 |
-
from langchain.indexes import VectorstoreIndexCreator
|
18 |
-
from langchain_openai import AzureOpenAIEmbeddings
|
19 |
-
from langchain.llms import OpenAI
|
20 |
-
from langchain_openai import AzureChatOpenAI
|
21 |
-
from langchain import hub
|
22 |
-
from langchain_core.prompts import PromptTemplate
|
23 |
-
from langchain_core.runnables import RunnablePassthrough
|
24 |
-
from langchain_core.output_parsers import StrOutputParser
|
25 |
-
from langchain_core.runnables import RunnableParallel
|
26 |
-
from langchain.text_splitter import RecursiveCharacterTextSplitter
|
27 |
-
from langchain_community.vectorstores import Chroma
|
28 |
-
|
29 |
-
os.environ["OPENAI_API_TYPE"] = "azure"
|
30 |
-
os.environ["AZURE_ENDPOINT"] = st.secrets["endpoint1"]
|
31 |
-
os.environ["OPENAI_API_KEY"] = st.secrets["key1"]
|
32 |
-
os.environ["OPENAI_API_VERSION"] = "2023-05-15"
|
33 |
-
|
34 |
-
embeddings = AzureOpenAIEmbeddings(
|
35 |
-
deployment="embedding",
|
36 |
-
model="text-embedding-ada-002",
|
37 |
-
azure_endpoint=st.secrets["endpoint1"],
|
38 |
-
)
|
39 |
-
|
40 |
-
llm = AzureChatOpenAI(
|
41 |
-
deployment_name="gpt4_small",
|
42 |
-
openai_api_version="2023-12-01-preview",
|
43 |
-
azure_endpoint=st.secrets["endpoint2"],
|
44 |
-
openai_api_key=st.secrets["key2"],
|
45 |
-
openai_api_type="azure",
|
46 |
-
temperature=0.
|
47 |
-
)
|
48 |
-
|
49 |
-
|
50 |
-
@st.cache_data
|
51 |
-
def get_feeds_data(url):
|
52 |
-
# data = cp.load(urlopen(url))
|
53 |
-
with open(url, "rb") as fp:
|
54 |
-
data = pickle.load(fp)
|
55 |
-
st.sidebar.success("Loaded data")
|
56 |
-
return data
|
57 |
-
|
58 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
59 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
60 |
-
dateval = "16-Jun-2024"
|
61 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
62 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
63 |
-
gal_feeds = get_feeds_data(feeds_link)
|
64 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
65 |
-
|
66 |
-
@st.cache_data
|
67 |
-
def get_embedding_data(url):
|
68 |
-
# data = cp.load(urlopen(url))
|
69 |
-
with open(url, "rb") as fp:
|
70 |
-
data = pickle.load(fp)
|
71 |
-
st.sidebar.success("Fetched data from API!")
|
72 |
-
return data
|
73 |
-
|
74 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
75 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
76 |
-
e2d = get_embedding_data(url)
|
77 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
78 |
-
|
79 |
-
ctr = -1
|
80 |
-
num_chunks = len(gal_feeds)
|
81 |
-
all_text, all_titles, all_arxivid, all_links, all_authors = [], [], [], [], []
|
82 |
-
|
83 |
-
for nc in range(num_chunks):
|
84 |
-
|
85 |
-
for i in range(len(gal_feeds[nc].entries)):
|
86 |
-
text = gal_feeds[nc].entries[i].summary
|
87 |
-
text = text.replace('\n', ' ')
|
88 |
-
text = text.replace('\\', '')
|
89 |
-
all_text.append(text)
|
90 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
91 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
92 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
93 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
94 |
-
|
95 |
-
d = arxiv_ada_embeddings.shape[1] # dimension
|
96 |
-
nb = arxiv_ada_embeddings.shape[0] # database size
|
97 |
-
xb = arxiv_ada_embeddings.astype('float32')
|
98 |
-
index = faiss.IndexFlatL2(d)
|
99 |
-
index.add(xb)
|
100 |
-
|
101 |
-
def run_simple_query(search_query = 'all:sed+fitting', max_results = 10, start = 0, sort_by = 'lastUpdatedDate', sort_order = 'descending'):
|
102 |
-
"""
|
103 |
-
Query ArXiv to return search results for a particular query
|
104 |
-
Parameters
|
105 |
-
----------
|
106 |
-
query: str
|
107 |
-
query term. use prefixes ti, au, abs, co, jr, cat, m, id, all as applicable.
|
108 |
-
max_results: int, default = 10
|
109 |
-
number of results to return. numbers > 1000 generally lead to timeouts
|
110 |
-
start: int, default = 0
|
111 |
-
start index for results reported. use this if you're interested in running chunks.
|
112 |
-
Returns
|
113 |
-
-------
|
114 |
-
feed: dict
|
115 |
-
object containing requested results parsed with feedparser
|
116 |
-
Notes
|
117 |
-
-----
|
118 |
-
add functionality for chunk parsing, as well as storage and retreival
|
119 |
-
"""
|
120 |
-
|
121 |
-
base_url = 'http://export.arxiv.org/api/query?';
|
122 |
-
query = 'search_query=%s&start=%i&max_results=%i&sortBy=%s&sortOrder=%s' % (search_query,
|
123 |
-
start,
|
124 |
-
max_results,sort_by,sort_order)
|
125 |
-
|
126 |
-
response = urllib.request.urlopen(base_url+query).read()
|
127 |
-
feed = feedparser.parse(response)
|
128 |
-
return feed
|
129 |
-
|
130 |
-
def find_papers_by_author(auth_name):
|
131 |
-
|
132 |
-
doc_ids = []
|
133 |
-
for doc_id in range(len(all_authors)):
|
134 |
-
for auth_id in range(len(all_authors[doc_id])):
|
135 |
-
if auth_name.lower() in all_authors[doc_id][auth_id]['name'].lower():
|
136 |
-
print('Doc ID: ',doc_id, ' | arXiv: ', all_arxivid[doc_id], '| ', all_titles[doc_id],' | Author entry: ', all_authors[doc_id][auth_id]['name'])
|
137 |
-
doc_ids.append(doc_id)
|
138 |
-
|
139 |
-
return doc_ids
|
140 |
-
|
141 |
-
def faiss_based_indices(input_vector, nindex=10):
|
142 |
-
xq = input_vector.reshape(-1,1).T.astype('float32')
|
143 |
-
D, I = index.search(xq, nindex)
|
144 |
-
return I[0], D[0]
|
145 |
-
|
146 |
-
def list_similar_papers_v2(model_data,
|
147 |
-
doc_id = [], input_type = 'doc_id',
|
148 |
-
show_authors = False, show_summary = False,
|
149 |
-
return_n = 10):
|
150 |
-
|
151 |
-
arxiv_ada_embeddings, embeddings, all_titles, all_abstracts, all_authors = model_data
|
152 |
-
|
153 |
-
if input_type == 'doc_id':
|
154 |
-
print('Doc ID: ',doc_id,', title: ',all_titles[doc_id])
|
155 |
-
# inferred_vector = model.infer_vector(train_corpus[doc_id].words)
|
156 |
-
inferred_vector = arxiv_ada_embeddings[doc_id,0:]
|
157 |
-
start_range = 1
|
158 |
-
elif input_type == 'arxiv_id':
|
159 |
-
print('ArXiv id: ',doc_id)
|
160 |
-
arxiv_query_feed = run_simple_query(search_query='id:'+str(doc_id))
|
161 |
-
if len(arxiv_query_feed.entries) == 0:
|
162 |
-
print('error: arxiv id not found.')
|
163 |
-
return
|
164 |
-
else:
|
165 |
-
print('Title: '+arxiv_query_feed.entries[0].title)
|
166 |
-
inferred_vector = np.array(embeddings.embed_query(arxiv_query_feed.entries[0].summary))
|
167 |
-
start_range = 0
|
168 |
-
elif input_type == 'keywords':
|
169 |
-
inferred_vector = np.array(embeddings.embed_query(doc_id))
|
170 |
-
start_range = 0
|
171 |
-
else:
|
172 |
-
print('unrecognized input type.')
|
173 |
-
return
|
174 |
-
|
175 |
-
sims, dists = faiss_based_indices(inferred_vector, return_n+2)
|
176 |
-
textstr = ''
|
177 |
-
abstracts_relevant = []
|
178 |
-
fhdrs = []
|
179 |
-
|
180 |
-
for i in range(start_range,start_range+return_n):
|
181 |
-
|
182 |
-
abstracts_relevant.append(all_text[sims[i]])
|
183 |
-
fhdr = str(sims[i])+'_'+all_authors[sims[i]][0]['name'].split()[-1] + all_arxivid[sims[i]][0:2] +'_'+ all_arxivid[sims[i]]
|
184 |
-
fhdrs.append(fhdr)
|
185 |
-
textstr = textstr + str(i+1)+'. **'+ all_titles[sims[i]] +'** (Distance: %.2f' %dists[i]+') \n'
|
186 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[sims[i]]+'](https://arxiv.org/abs/'+all_arxivid[sims[i]]+') \n'
|
187 |
-
if show_authors == True:
|
188 |
-
textstr = textstr + '**Authors:** '
|
189 |
-
temp = all_authors[sims[i]]
|
190 |
-
for ak in range(len(temp)):
|
191 |
-
if ak < len(temp)-1:
|
192 |
-
textstr = textstr + temp[ak].name + ', '
|
193 |
-
else:
|
194 |
-
textstr = textstr + temp[ak].name + ' \n'
|
195 |
-
if show_summary == True:
|
196 |
-
textstr = textstr + '**Summary:** '
|
197 |
-
text = all_text[sims[i]]
|
198 |
-
text = text.replace('\n', ' ')
|
199 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
200 |
-
if show_authors == True or show_summary == True:
|
201 |
-
textstr = textstr + ' '
|
202 |
-
textstr = textstr + ' \n'
|
203 |
-
return textstr, abstracts_relevant, fhdrs, sims
|
204 |
-
|
205 |
-
|
206 |
-
def generate_chat_completion(messages, model="gpt-4", temperature=1, max_tokens=None):
|
207 |
-
headers = {
|
208 |
-
"Content-Type": "application/json",
|
209 |
-
"Authorization": f"Bearer {openai.api_key}",
|
210 |
-
}
|
211 |
-
|
212 |
-
data = {
|
213 |
-
"model": model,
|
214 |
-
"messages": messages,
|
215 |
-
"temperature": temperature,
|
216 |
-
}
|
217 |
-
|
218 |
-
if max_tokens is not None:
|
219 |
-
data["max_tokens"] = max_tokens
|
220 |
-
response = requests.post(API_ENDPOINT, headers=headers, data=json.dumps(data))
|
221 |
-
if response.status_code == 200:
|
222 |
-
return response.json()["choices"][0]["message"]["content"]
|
223 |
-
else:
|
224 |
-
raise Exception(f"Error {response.status_code}: {response.text}")
|
225 |
-
|
226 |
-
model_data = [arxiv_ada_embeddings, embeddings, all_titles, all_text, all_authors]
|
227 |
-
|
228 |
-
def format_docs(docs):
|
229 |
-
return "\n\n".join(doc.page_content for doc in docs)
|
230 |
-
|
231 |
-
def get_textstr(i, show_authors=False, show_summary=False):
|
232 |
-
textstr = ''
|
233 |
-
textstr = '**'+ all_titles[i] +'** \n'
|
234 |
-
textstr = textstr + '**ArXiv:** ['+all_arxivid[i]+'](https://arxiv.org/abs/'+all_arxivid[i]+') \n'
|
235 |
-
if show_authors == True:
|
236 |
-
textstr = textstr + '**Authors:** '
|
237 |
-
temp = all_authors[i]
|
238 |
-
for ak in range(len(temp)):
|
239 |
-
if ak < len(temp)-1:
|
240 |
-
textstr = textstr + temp[ak].name + ', '
|
241 |
-
else:
|
242 |
-
textstr = textstr + temp[ak].name + ' \n'
|
243 |
-
if show_summary == True:
|
244 |
-
textstr = textstr + '**Summary:** '
|
245 |
-
text = all_text[i]
|
246 |
-
text = text.replace('\n', ' ')
|
247 |
-
textstr = textstr + summarizer.summarize(text) + ' \n'
|
248 |
-
if show_authors == True or show_summary == True:
|
249 |
-
textstr = textstr + ' '
|
250 |
-
textstr = textstr + ' \n'
|
251 |
-
|
252 |
-
return textstr
|
253 |
-
|
254 |
-
|
255 |
-
def run_rag(query, return_n = 10, show_authors = True, show_summary = True):
|
256 |
-
|
257 |
-
sims, absts, fhdrs, simids = list_similar_papers_v2(model_data,
|
258 |
-
doc_id = query,
|
259 |
-
input_type='keywords',
|
260 |
-
show_authors = show_authors, show_summary = show_summary,
|
261 |
-
return_n = return_n)
|
262 |
-
|
263 |
-
temp_abst = ''
|
264 |
-
loaders = []
|
265 |
-
for i in range(len(absts)):
|
266 |
-
temp_abst = absts[i]
|
267 |
-
|
268 |
-
try:
|
269 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
270 |
-
except:
|
271 |
-
os.mkdir('absts')
|
272 |
-
text_file = open("absts/"+fhdrs[i]+".txt", "w")
|
273 |
-
n = text_file.write(temp_abst)
|
274 |
-
text_file.close()
|
275 |
-
loader = TextLoader("absts/"+fhdrs[i]+".txt")
|
276 |
-
loaders.append(loader)
|
277 |
-
|
278 |
-
text_splitter = RecursiveCharacterTextSplitter(chunk_size=1000, chunk_overlap=50)
|
279 |
-
splits = text_splitter.split_documents([loader.load()[0] for loader in loaders])
|
280 |
-
vectorstore = Chroma.from_documents(documents=splits, embedding=embeddings)
|
281 |
-
retriever = vectorstore.as_retriever()
|
282 |
-
|
283 |
-
template = """You are an assistant with expertise in astrophysics for question-answering tasks.
|
284 |
-
Use the following pieces of retrieved context from the literature to answer the question.
|
285 |
-
If you don't know the answer, just say that you don't know.
|
286 |
-
Use six sentences maximum and keep the answer concise.
|
287 |
-
|
288 |
-
{context}
|
289 |
-
|
290 |
-
Question: {question}
|
291 |
-
|
292 |
-
Answer:"""
|
293 |
-
custom_rag_prompt = PromptTemplate.from_template(template)
|
294 |
-
|
295 |
-
rag_chain_from_docs = (
|
296 |
-
RunnablePassthrough.assign(context=(lambda x: format_docs(x["context"])))
|
297 |
-
| custom_rag_prompt
|
298 |
-
| llm
|
299 |
-
| StrOutputParser()
|
300 |
-
)
|
301 |
-
|
302 |
-
rag_chain_with_source = RunnableParallel(
|
303 |
-
{"context": retriever, "question": RunnablePassthrough()}
|
304 |
-
).assign(answer=rag_chain_from_docs)
|
305 |
-
|
306 |
-
rag_answer = rag_chain_with_source.invoke(query)
|
307 |
-
|
308 |
-
st.markdown('### User query: '+query)
|
309 |
-
|
310 |
-
st.markdown(rag_answer['answer'])
|
311 |
-
opstr = '#### Primary sources: \n'
|
312 |
-
srcnames = []
|
313 |
-
for i in range(len(rag_answer['context'])):
|
314 |
-
srcnames.append(rag_answer['context'][0].metadata['source'])
|
315 |
-
|
316 |
-
srcnames = np.unique(srcnames)
|
317 |
-
srcindices = []
|
318 |
-
for i in range(len(srcnames)):
|
319 |
-
temp = srcnames[i].split('_')[1]
|
320 |
-
srcindices.append(int(srcnames[i].split('_')[0].split('/')[1]))
|
321 |
-
if int(temp[-2:]) < 40:
|
322 |
-
temp = temp[0:-2] + ' et al. 20' + temp[-2:]
|
323 |
-
else:
|
324 |
-
temp = temp[0:-2] + ' et al. 19' + temp[-2:]
|
325 |
-
temp = '['+temp+']('+all_links[int(srcnames[i].split('_')[0].split('/')[1])]+')'
|
326 |
-
st.markdown(temp)
|
327 |
-
abs_indices = np.array(srcindices)
|
328 |
-
|
329 |
-
fig = plt.figure(figsize=(9,9))
|
330 |
-
plt.scatter(e2d[0:,0], e2d[0:,1],s=2)
|
331 |
-
plt.scatter(e2d[simids,0], e2d[simids,1],s=30)
|
332 |
-
plt.scatter(e2d[abs_indices,0], e2d[abs_indices,1],s=100,color='k',marker='d')
|
333 |
-
plt.title('localization for question: '+query)
|
334 |
-
st.pyplot(fig)
|
335 |
-
|
336 |
-
st.markdown('\n #### List of relevant papers:')
|
337 |
-
st.markdown(sims)
|
338 |
-
|
339 |
-
return rag_answer
|
340 |
-
|
341 |
-
|
342 |
-
st.title('ArXiv-based question answering')
|
343 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
344 |
-
st.markdown('Concise answers for questions using arxiv abstracts + GPT-4. You might need to wait for a few seconds for the GPT-4 query to return an answer (check top right corner to see if it is still running).')
|
345 |
-
st.markdown('The answers are followed by relevant source(s) used in the answer, a graph showing which part of the astro-ph.GA manifold it drew the answer from (tightly clustered points generally indicate high quality/consensus answers) followed by a bunch of relevant papers used by the RAG to compose the answer.')
|
346 |
-
st.markdown('If this does not satisfactorily answer your question or rambles too much, you can also try the older `qa_sources_v1` page.')
|
347 |
-
|
348 |
-
query = st.text_input('Your question here:',
|
349 |
-
value="What causes galaxy quenching at high redshifts?")
|
350 |
-
return_n = st.slider('How many papers should I show?', 1, 30, 10)
|
351 |
-
|
352 |
-
sims = run_rag(query, return_n = return_n)
|
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pages/8_arxiv_embedding_explorer_2024.py
DELETED
@@ -1,121 +0,0 @@
|
|
1 |
-
import streamlit as st
|
2 |
-
import pandas as pd
|
3 |
-
import numpy as np
|
4 |
-
import matplotlib.pyplot as plt
|
5 |
-
import pickle
|
6 |
-
from bokeh.palettes import OrRd
|
7 |
-
from bokeh.plotting import figure, show
|
8 |
-
from bokeh.plotting import ColumnDataSource, figure, output_notebook, show
|
9 |
-
import cloudpickle as cp
|
10 |
-
import pickle
|
11 |
-
from scipy import stats
|
12 |
-
from urllib.request import urlopen
|
13 |
-
|
14 |
-
@st.cache_data
|
15 |
-
def get_feeds_data(url):
|
16 |
-
# data = cp.load(urlopen(url))
|
17 |
-
with open(url, "rb") as fp:
|
18 |
-
data = pickle.load(fp)
|
19 |
-
st.sidebar.success("Fetched data from API!")
|
20 |
-
return data
|
21 |
-
|
22 |
-
# embeddings = OpenAIEmbeddings()
|
23 |
-
|
24 |
-
dateval = "16-Jun-2024"
|
25 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
26 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
27 |
-
gal_feeds = get_feeds_data(feeds_link)
|
28 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
29 |
-
|
30 |
-
@st.cache_data
|
31 |
-
def get_embedding_data(url):
|
32 |
-
# data = cp.load(urlopen(url))
|
33 |
-
with open(url, "rb") as fp:
|
34 |
-
data = pickle.load(fp)
|
35 |
-
st.sidebar.success("Fetched data from API!")
|
36 |
-
return data
|
37 |
-
|
38 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
39 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
40 |
-
embedding = get_embedding_data(url)
|
41 |
-
|
42 |
-
st.title("ArXiv+GPT3 embedding explorer")
|
43 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
44 |
-
st.markdown("This is an explorer for astro-ph.GA papers on the arXiv (up to Apt 18th, 2023). The papers have been preprocessed with `chaotic_neural` [(link)](http://chaotic-neural.readthedocs.io/) after which the collected abstracts are run through `text-embedding-ada-002` with [langchain](https://python.langchain.com/en/latest/ecosystem/openai.html) to generate a unique vector correpsonding to each paper. These are then compressed using [umap](https://umap-learn.readthedocs.io/en/latest/) and shown here, and can be used for similarity searches with methods like [faiss](https://github.com/facebookresearch/faiss). The scatterplot here can be paired with a heatmap for more targeted searches looking at a specific topic or area (see sidebar). Upgrade to chaotic neural suggested by Jo CiucΔ, thank you! More to come (hopefully) with GPT-4 and its applications!")
|
45 |
-
st.markdown("Interpreting the UMAP plot: the algorithm creates a 2d embedding from the high-dim vector space that tries to conserve as much similarity information as possible. Nearby points in UMAP space are similar, and grow dissimiliar as you move farther away. The axes do not have any physical meaning.")
|
46 |
-
|
47 |
-
from tqdm import tqdm
|
48 |
-
ctr = -1
|
49 |
-
num_chunks = len(gal_feeds)
|
50 |
-
all_text = []
|
51 |
-
all_titles = []
|
52 |
-
all_arxivid = []
|
53 |
-
all_links = []
|
54 |
-
|
55 |
-
for nc in tqdm(range(num_chunks)):
|
56 |
-
for i in range(len(gal_feeds[nc].entries)):
|
57 |
-
text = gal_feeds[nc].entries[i].summary
|
58 |
-
text = text.replace('\n', ' ')
|
59 |
-
text = text.replace('\\', '')
|
60 |
-
all_text.append(text)
|
61 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
62 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
63 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
64 |
-
|
65 |
-
|
66 |
-
def density_estimation(m1, m2, xmin=0, ymin=0, xmax=15, ymax=15):
|
67 |
-
X, Y = np.mgrid[xmin:xmax:100j, ymin:ymax:100j]
|
68 |
-
positions = np.vstack([X.ravel(), Y.ravel()])
|
69 |
-
values = np.vstack([m1, m2])
|
70 |
-
kernel = stats.gaussian_kde(values)
|
71 |
-
Z = np.reshape(kernel(positions).T, X.shape)
|
72 |
-
return X, Y, Z
|
73 |
-
|
74 |
-
st.sidebar.markdown('This is a widget that allows you to look for papers containing specific phrases in the dataset and show it as a heatmap. Enter the phrase of interest, then change the size and opacity of the heatmap as desired to find the high-density regions. Hover over blue points to see the details of individual papers.')
|
75 |
-
st.sidebar.markdown('`Note`: (i) if you enter a query that is not in the corpus of abstracts, it will return an error. just enter a different query in that case. (ii) there are some empty tooltips when you hover, these correspond to the underlying hexbins, and can be ignored.')
|
76 |
-
|
77 |
-
st.sidebar.text_input("Search query", key="phrase", value="Quenching")
|
78 |
-
alpha_value = st.sidebar.slider("Pick the hexbin opacity",0.0,1.0,0.81)
|
79 |
-
size_value = st.sidebar.slider("Pick the hexbin gridsize",10,50,20)
|
80 |
-
|
81 |
-
phrase=st.session_state.phrase
|
82 |
-
|
83 |
-
phrase_flags = np.zeros((len(all_text),))
|
84 |
-
for i in range(len(all_text)):
|
85 |
-
if phrase.lower() in all_text[i].lower():
|
86 |
-
phrase_flags[i] = 1
|
87 |
-
|
88 |
-
|
89 |
-
source = ColumnDataSource(data=dict(
|
90 |
-
x=embedding[0:,0],
|
91 |
-
y=embedding[0:,1],
|
92 |
-
title=all_titles,
|
93 |
-
link=all_links,
|
94 |
-
))
|
95 |
-
|
96 |
-
TOOLTIPS = """
|
97 |
-
<div style="width:300px;">
|
98 |
-
ID: $index
|
99 |
-
($x, $y)
|
100 |
-
@title <br>
|
101 |
-
@link <br> <br>
|
102 |
-
</div>
|
103 |
-
"""
|
104 |
-
|
105 |
-
p = figure(width=700, height=583, tooltips=TOOLTIPS, x_range=(0, 15), y_range=(2.5,15),
|
106 |
-
title="UMAP projection of embeddings for the astro-ph.GA corpus"+phrase)
|
107 |
-
|
108 |
-
# p.hexbin(embedding[phrase_flags==1,0],embedding[phrase_flags==1,1], size=size_value,
|
109 |
-
# palette = np.flip(OrRd[8]), alpha=alpha_value)
|
110 |
-
p.circle('x', 'y', size=3, source=source, alpha=0.3)
|
111 |
-
st.bokeh_chart(p)
|
112 |
-
|
113 |
-
fig = plt.figure(figsize=(10.5,9*0.8328))
|
114 |
-
plt.scatter(embedding[0:,0], embedding[0:,1],s=2,alpha=0.1)
|
115 |
-
plt.hexbin(embedding[phrase_flags==1,0],embedding[phrase_flags==1,1],
|
116 |
-
gridsize=size_value, cmap = 'viridis', alpha=alpha_value,extent=(-1,16,1.5,16),mincnt=10)
|
117 |
-
plt.title("UMAP localization of heatmap keyword: "+phrase)
|
118 |
-
plt.axis([0,15,2.5,15]);
|
119 |
-
clbr = plt.colorbar(); clbr.set_label('# papers')
|
120 |
-
plt.axis('off')
|
121 |
-
st.pyplot(fig)
|
|
|
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|
pages/9_research_hotspots_2024.py
DELETED
@@ -1,130 +0,0 @@
|
|
1 |
-
import os
|
2 |
-
import datetime
|
3 |
-
import faiss
|
4 |
-
import streamlit as st
|
5 |
-
import feedparser
|
6 |
-
import urllib
|
7 |
-
import cloudpickle as cp
|
8 |
-
import pickle
|
9 |
-
from urllib.request import urlopen
|
10 |
-
from summa import summarizer
|
11 |
-
import numpy as np
|
12 |
-
import matplotlib.pyplot as plt
|
13 |
-
import requests
|
14 |
-
import json
|
15 |
-
from scipy import ndimage
|
16 |
-
|
17 |
-
from langchain_openai import AzureOpenAIEmbeddings
|
18 |
-
from langchain.llms import OpenAI
|
19 |
-
from langchain_openai import AzureChatOpenAI
|
20 |
-
|
21 |
-
os.environ["OPENAI_API_TYPE"] = "azure"
|
22 |
-
os.environ["AZURE_ENDPOINT"] = st.secrets["endpoint1"]
|
23 |
-
os.environ["OPENAI_API_KEY"] = st.secrets["key1"]
|
24 |
-
os.environ["OPENAI_API_VERSION"] = "2023-05-15"
|
25 |
-
|
26 |
-
embeddings = AzureOpenAIEmbeddings(
|
27 |
-
deployment="embedding",
|
28 |
-
model="text-embedding-ada-002",
|
29 |
-
azure_endpoint=st.secrets["endpoint1"],
|
30 |
-
)
|
31 |
-
|
32 |
-
llm = AzureChatOpenAI(
|
33 |
-
deployment_name="gpt4_small",
|
34 |
-
openai_api_version="2023-12-01-preview",
|
35 |
-
azure_endpoint=st.secrets["endpoint2"],
|
36 |
-
openai_api_key=st.secrets["key2"],
|
37 |
-
openai_api_type="azure",
|
38 |
-
temperature=0.
|
39 |
-
)
|
40 |
-
|
41 |
-
|
42 |
-
@st.cache_data
|
43 |
-
def get_feeds_data(url):
|
44 |
-
# data = cp.load(urlopen(url))
|
45 |
-
with open(url, "rb") as fp:
|
46 |
-
data = pickle.load(fp)
|
47 |
-
st.sidebar.success("Loaded data")
|
48 |
-
return data
|
49 |
-
|
50 |
-
# feeds_link = "https://drive.google.com/uc?export=download&id=1-IPk1voyUM9VqnghwyVrM1dY6rFnn1S_"
|
51 |
-
# embed_link = "https://dl.dropboxusercontent.com/s/ob2betm29qrtb8v/astro_ph_ga_feeds_ada_embedding_18-Apr-2023.pkl?dl=0"
|
52 |
-
dateval = "16-Jun-2024"
|
53 |
-
feeds_link = "local_files/astro_ph_ga_feeds_upto_"+dateval+".pkl"
|
54 |
-
embed_link = "local_files/astro_ph_ga_feeds_ada_embedding_"+dateval+".pkl"
|
55 |
-
gal_feeds = get_feeds_data(feeds_link)
|
56 |
-
arxiv_ada_embeddings = get_feeds_data(embed_link)
|
57 |
-
|
58 |
-
@st.cache_data
|
59 |
-
def get_embedding_data(url):
|
60 |
-
# data = cp.load(urlopen(url))
|
61 |
-
with open(url, "rb") as fp:
|
62 |
-
data = pickle.load(fp)
|
63 |
-
st.sidebar.success("Fetched data from API!")
|
64 |
-
return data
|
65 |
-
|
66 |
-
# url = "https://drive.google.com/uc?export=download&id=1133tynMwsfdR1wxbkFLhbES3FwDWTPjP"
|
67 |
-
url = "local_files/astro_ph_ga_embedding_"+dateval+".pkl"
|
68 |
-
e2d = get_embedding_data(url)
|
69 |
-
# e2d, _, _, _, _ = get_embedding_data(url)
|
70 |
-
|
71 |
-
ctr = -1
|
72 |
-
num_chunks = len(gal_feeds)
|
73 |
-
ctr = -1
|
74 |
-
num_chunks = len(gal_feeds)
|
75 |
-
all_text, all_titles, all_arxivid, all_links, all_authors, all_pubdates, all_old = [], [], [], [], [], [], []
|
76 |
-
|
77 |
-
for nc in range(num_chunks):
|
78 |
-
|
79 |
-
for i in range(len(gal_feeds[nc].entries)):
|
80 |
-
text = gal_feeds[nc].entries[i].summary
|
81 |
-
text = text.replace('\n', ' ')
|
82 |
-
text = text.replace('\\', '')
|
83 |
-
all_text.append(text)
|
84 |
-
all_titles.append(gal_feeds[nc].entries[i].title)
|
85 |
-
all_arxivid.append(gal_feeds[nc].entries[i].id.split('/')[-1][0:-2])
|
86 |
-
all_links.append(gal_feeds[nc].entries[i].links[1].href)
|
87 |
-
all_authors.append(gal_feeds[nc].entries[i].authors)
|
88 |
-
temp = gal_feeds[nc].entries[i].published
|
89 |
-
datetime_object = datetime.datetime.strptime(temp[0:10]+' '+temp[11:-1], '%Y-%m-%d %H:%M:%S')
|
90 |
-
all_pubdates.append(datetime_object)
|
91 |
-
all_old.append((datetime.datetime.now() - datetime_object).days)
|
92 |
-
|
93 |
-
def make_time_excess_plot(midage = 0, tolage = 1, onlyolder = False):
|
94 |
-
|
95 |
-
bw = 0.05
|
96 |
-
sigma = 4.0
|
97 |
-
mask = (np.abs(np.array(all_old) - midage*365) < tolage*365)
|
98 |
-
|
99 |
-
if onlyolder == True:
|
100 |
-
mask2 = (np.array(all_old) > midage*365 + tolage*365/2)
|
101 |
-
a = np.histogram2d(e2d[0:,0][mask2], e2d[0:,1][mask2], bins=(np.arange(0,17,bw)), density=True)
|
102 |
-
else:
|
103 |
-
a = np.histogram2d(e2d[0:,0], e2d[0:,1], bins=(np.arange(0,17,bw)), density=True)
|
104 |
-
b = np.histogram2d(e2d[0:,0][mask], e2d[0:,1][mask], bins=(np.arange(0,17,bw)), density=True)
|
105 |
-
temp = b[0].T - a[0].T
|
106 |
-
temp = ndimage.gaussian_filter(temp, sigma, mode='nearest')
|
107 |
-
vscale = (np.nanpercentile(temp,99.5) - np.nanpercentile(temp,0.5))/2
|
108 |
-
|
109 |
-
fig, ax = plt.subplots(1,1,figsize=(11,9))
|
110 |
-
plt.pcolor(a[1][0:-1] + (a[1][1]-a[1][0])/2, a[2][0:-1] + (a[2][1]-a[2][0])/2,
|
111 |
-
temp,cmap='bwr',
|
112 |
-
vmin=-vscale,vmax=vscale); plt.colorbar()
|
113 |
-
# plt.scatter(e2d[0:,0], e2d[0:,1],s=2,color='k',alpha=0.1)
|
114 |
-
plt.title('excess research over the last %.1f yrs centered at %.1f yrs' %(tolage, midage))
|
115 |
-
plt.axis([0,14,1,15])
|
116 |
-
plt.axis('off')
|
117 |
-
st.pyplot(fig)
|
118 |
-
return
|
119 |
-
|
120 |
-
st.title('Research hotspots')
|
121 |
-
st.markdown('[Includes papers up to: `'+dateval+'`]')
|
122 |
-
|
123 |
-
midage = st.slider('Age', 0., 10., 0.)
|
124 |
-
tolage = st.slider('Period width', 0., 10., 1.)
|
125 |
-
|
126 |
-
st.markdown('Compare the research in a given time period to the full manifold.')
|
127 |
-
make_time_excess_plot(midage, tolage, onlyolder = False)
|
128 |
-
|
129 |
-
st.markdown('Compare the research in a given time period to research older than that.')
|
130 |
-
make_time_excess_plot(midage, tolage, onlyolder = True)
|
|
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|
|
pages/Untitled.ipynb
DELETED
@@ -1,6 +0,0 @@
|
|
1 |
-
{
|
2 |
-
"cells": [],
|
3 |
-
"metadata": {},
|
4 |
-
"nbformat": 4,
|
5 |
-
"nbformat_minor": 5
|
6 |
-
}
|
|
|
|
|
|
|
|
|
|
|
|
|
|
requirements.txt
CHANGED
@@ -8,7 +8,17 @@ langchain
|
|
8 |
langchain_openai
|
9 |
langchain_community
|
10 |
langchain_core
|
|
|
11 |
openai
|
|
|
|
|
12 |
feedparser
|
13 |
tiktoken
|
14 |
chromadb
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
8 |
langchain_openai
|
9 |
langchain_community
|
10 |
langchain_core
|
11 |
+
langchainhub
|
12 |
openai
|
13 |
+
instructor
|
14 |
+
pydantic
|
15 |
feedparser
|
16 |
tiktoken
|
17 |
chromadb
|
18 |
+
streamlit-extras
|
19 |
+
nltk
|
20 |
+
cohere
|
21 |
+
duckduckgo-search
|
22 |
+
pytextrank
|
23 |
+
spacy==3.7.5
|
24 |
+
https://github.com/explosion/spacy-models/releases/download/en_core_web_sm-3.7.1/en_core_web_sm-3.7.1-py3-none-any.whl
|