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import re |
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import json |
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import nltk |
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import joblib |
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import torch |
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import pandas as pd |
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import numpy as np |
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import streamlit as st |
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from pathlib import Path |
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from torch import nn |
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from docarray import DocList |
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from docarray.index import InMemoryExactNNIndex |
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from transformers import pipeline |
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from transformers import AutoTokenizer, AutoModel |
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from data.repo_doc import RepoDoc |
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from data.pair_classifier import PairClassifier |
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from nltk.stem import WordNetLemmatizer |
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nltk.download("wordnet") |
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KMEANS_MODEL_PATH = Path(__file__).parent.joinpath("data/kmeans_model_scibert.pkl") |
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SIMILARITY_CAL_MODEL_PATH = Path(__file__).parent.joinpath("data/SimilarityCal_model_NO1.pt") |
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device = ( |
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"cuda" |
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if torch.cuda.is_available() |
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else "mps" |
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if torch.backends.mps.is_available() |
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else "cpu" |
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) |
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SCIBERT_MODEL_PATH = "allenai/scibert_scivocab_uncased" |
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INDEX_PATH = Path(__file__).parent.joinpath("data/index_test.bin") |
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CLUSTER_PATH = Path(__file__).parent.joinpath("data/repo_clusters_test.json") |
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@st.cache_resource(show_spinner="Loading repositories basic information...") |
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def load_index(): |
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""" |
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The function to load the index file and return a RepoDoc object with default value |
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:return: index and a RepoDoc object with default value |
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""" |
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default_doc = RepoDoc( |
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name="", |
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topics=[], |
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stars=0, |
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license="", |
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code_embedding=None, |
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doc_embedding=None, |
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readme_embedding=None, |
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requirement_embedding=None, |
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repository_embedding=None |
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) |
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return InMemoryExactNNIndex[RepoDoc](index_file_path=INDEX_PATH), default_doc |
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@st.cache_resource(show_spinner="Loading repositories clusters...") |
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def load_repo_clusters(): |
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""" |
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The function to load the repo-clusters file |
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:return: a dictionary with the repo-clusters |
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""" |
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with open(CLUSTER_PATH, "r") as file: |
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repo_clusters = json.load(file) |
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return repo_clusters |
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@st.cache_resource(show_spinner="Loading RepoSim4Py pipeline model...") |
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def load_pipeline_model(): |
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""" |
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The function to load RepoSim4Py pipeline model |
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:return: a HuggingFace pipeline |
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""" |
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model_path = "Henry65/RepoSim4Py" |
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return pipeline( |
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model=model_path, |
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trust_remote_code=True, |
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device_map="auto" |
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) |
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@st.cache_resource(show_spinner="Loading SciBERT model...") |
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def load_scibert_model(): |
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""" |
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The function to load SciBERT model |
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:return: tokenizer and model |
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""" |
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tokenizer = AutoTokenizer.from_pretrained(SCIBERT_MODEL_PATH) |
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scibert_model = AutoModel.from_pretrained(SCIBERT_MODEL_PATH).to(device) |
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return tokenizer, scibert_model |
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@st.cache_resource(show_spinner="Loading KMeans model...") |
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def load_kmeans_model(): |
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""" |
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The function to load KMeans model |
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:return: a KMeans model |
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""" |
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return joblib.load(KMEANS_MODEL_PATH) |
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@st.cache_resource(show_spinner="Loading SimilarityCal model...") |
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def load_similaritycal_model(): |
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sim_cal_model = PairClassifier() |
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sim_cal_model.load_state_dict(torch.load(SIMILARITY_CAL_MODEL_PATH)) |
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sim_cal_model = sim_cal_model.to(device) |
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sim_cal_model = sim_cal_model.eval() |
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return sim_cal_model |
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def generate_scibert_embedding(tokenizer, scibert_model, text): |
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""" |
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The function for generating SciBERT embeddings based on topic text |
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:param text: the topic text |
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:return: topic embeddings |
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""" |
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inputs = tokenizer(text, return_tensors="pt", padding=True, truncation=True, max_length=512).to(device) |
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outputs = scibert_model(**inputs) |
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embeddings = outputs.last_hidden_state.mean(dim=1).cpu().detach().numpy() |
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return embeddings |
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@st.cache_data(show_spinner=False) |
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def run_pipeline_model(_model, repo_name, github_token): |
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""" |
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The function to generate repo_info by using pipeline model |
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:param _model: pipeline |
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:param repo_name: the name of repository |
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:param github_token: GitHub token |
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:return: the information generated by the pipeline |
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""" |
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with st.spinner( |
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f"Downloading and extracting the {repo_name}, this may take a while..." |
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): |
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extracted_infos = _model.preprocess(repo_name, github_token=github_token) |
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if not extracted_infos: |
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return None |
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with st.spinner(f"Generating embeddings for {repo_name}..."): |
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repo_info = _model.forward(extracted_infos)[0] |
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return repo_info |
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def run_index_search(index, query, search_field, limit): |
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""" |
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The function to search at index file based on query and limit |
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:param index: the index |
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:param query: query |
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:param search_field: which field to search for |
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:param limit: page limit |
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:return: a dataframe with search results |
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""" |
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top_matches, scores = index.find( |
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query=query, search_field=search_field, limit=limit |
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) |
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search_results = top_matches.to_dataframe() |
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search_results["scores"] = scores |
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return search_results |
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def run_cluster_search(repo_clusters, repo_name_list): |
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""" |
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The function to search cluster number for such repositories. |
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:param repo_clusters: dictionary with repo-clusters |
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:param repo_name_list: list or array represent repository names |
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:return: cluster number list |
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""" |
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clusters = [] |
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for repo_name in repo_name_list: |
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clusters.append(repo_clusters[repo_name]) |
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return clusters |
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def run_similaritycal_search(index, repo_clusters, model, query_doc, query_cluster_number, limit, same_cluster=True): |
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""" |
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The function to run SimilarityCal model. |
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:param index: index file |
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:param repo_clusters: repo-clusters json file |
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:param model: SimilarityCal model |
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:param query_doc: query repo doc |
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:param query_cluster_number: query repo cluster number |
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:param limit: limit |
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:param same_cluster: whether searching for same cluster |
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:return: result dataframe |
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""" |
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docs = index._docs |
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input_embeddings_list = [] |
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result_dl = DocList[RepoDoc]() |
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for doc in docs: |
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if same_cluster and query_cluster_number != repo_clusters[doc.name]: |
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continue |
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if doc.name != query_doc.name: |
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e1, e2 = (torch.Tensor(query_doc.repository_embedding), |
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torch.Tensor(doc.repository_embedding)) |
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input_embeddings = torch.cat([e1, e2]) |
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input_embeddings_list.append(input_embeddings) |
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result_dl.append(doc) |
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input_embeddings_list = torch.stack(input_embeddings_list).to(device) |
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softmax = nn.Softmax(dim=1).to(device) |
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model_output = model(input_embeddings_list) |
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similarity_scores = softmax(model_output)[:, 1].cpu().detach().numpy() |
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df = result_dl.to_dataframe() |
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df["scores"] = similarity_scores |
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return df.sort_values(by='scores', ascending=False).reset_index(drop=True).head(limit) |
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if __name__ == "__main__": |
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index, default_doc = load_index() |
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repo_clusters = load_repo_clusters() |
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pipeline_model = load_pipeline_model() |
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lemmatizer = WordNetLemmatizer() |
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tokenizer, scibert_model = load_scibert_model() |
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kmeans = load_kmeans_model() |
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sim_cal_model = load_similaritycal_model() |
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with st.sidebar: |
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st.text_input( |
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label="GitHub Token", |
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key="github_token", |
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type="password", |
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placeholder="Paste your GitHub token here", |
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help="Consider setting GitHub token to avoid hitting rate limits: https://docs.github.com/authentication/keeping-your-account-and-data-secure/creating-a-personal-access-token", |
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) |
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st.slider( |
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label="Search results limit", |
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min_value=1, |
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max_value=100, |
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value=10, |
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step=1, |
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key="search_results_limit", |
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help="Limit the number of search results", |
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) |
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st.multiselect( |
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label="Display columns", |
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options=["scores", "name", "topics", "cluster number", "stars", "license"], |
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default=["scores", "name", "topics", "cluster number", "stars", "license"], |
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help="Select columns to display in the search results", |
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key="display_columns", |
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) |
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st.title("RepoSnipy") |
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st.text_input( |
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"Enter a GitHub repository URL or owner/repository (case-sensitive):", |
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value="", |
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max_chars=200, |
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placeholder="numpy/numpy", |
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key="repo_input", |
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) |
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st.checkbox( |
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label="Add/Update this repository to the index", |
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value=False, |
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key="update_index", |
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help="Encode the latest version of this repository and add/update it to the index", |
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) |
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search = st.button("Search") |
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repo_regex = r"^((git@|http(s)?://)?(github\.com)(/|:))?(?P<owner>[\w.-]+)(/)(?P<repo>[\w.-]+?)(\.git)?(/)?$" |
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if search: |
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match_res = re.match(repo_regex, st.session_state.repo_input) |
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if match_res is not None: |
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repo_name = f"{match_res.group('owner')}/{match_res.group('repo')}" |
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records = index.filter({"name": {"$eq": repo_name}}) |
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query_doc = default_doc.copy() if not records else records[0] |
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cluster_number = -1 if not records else repo_clusters[repo_name] |
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if st.session_state.update_index or not records: |
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repo_info = run_pipeline_model(pipeline_model, repo_name, st.session_state.github_token) |
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if repo_info is None: |
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st.error("Repository not found or invalid GitHub token!") |
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st.stop() |
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query_doc.name = repo_info["name"] |
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query_doc.topics = repo_info["topics"] |
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query_doc.stars = repo_info["stars"] |
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query_doc.license = repo_info["license"] |
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query_doc.code_embedding = None if np.all(repo_info["mean_code_embedding"] == 0) else repo_info[ |
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"mean_code_embedding"].reshape(-1) |
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query_doc.doc_embedding = None if np.all(repo_info["mean_doc_embedding"] == 0) else repo_info[ |
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"mean_doc_embedding"].reshape(-1) |
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query_doc.readme_embedding = None if np.all(repo_info["mean_readme_embedding"] == 0) else repo_info[ |
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"mean_readme_embedding"].reshape(-1) |
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query_doc.requirement_embedding = None if np.all(repo_info["mean_requirement_embedding"] == 0) else \ |
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repo_info["mean_requirement_embedding"].reshape(-1) |
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query_doc.repository_embedding = None if np.all(repo_info["mean_repo_embedding"] == 0) else repo_info[ |
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"mean_repo_embedding"].reshape(-1) |
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topics_text = ' '.join( |
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[lemmatizer.lemmatize(topic.lower().replace('-', ' ')) for topic in query_doc.topics]) |
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topic_embeddings = generate_scibert_embedding(tokenizer, scibert_model, topics_text) |
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cluster_number = int(kmeans.predict(topic_embeddings)[0]) |
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if st.session_state.update_index: |
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if not query_doc.license: |
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st.warning( |
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"License is missing in this repository and will not be persisted!" |
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) |
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elif (query_doc.code_embedding is None) and (query_doc.doc_embedding is None) and ( |
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query_doc.requirement_embedding is None) and (query_doc.readme_embedding is None) and ( |
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query_doc.repository_embedding is None): |
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st.warning( |
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"This repository has no such useful information (code, docstring, readme and requirement) extracted and will not be persisted!" |
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) |
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else: |
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index.index(query_doc) |
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repo_clusters[query_doc.name] = cluster_number |
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with st.spinner("Persisting the index and repository clusters..."): |
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index.persist(str(INDEX_PATH)) |
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with open(CLUSTER_PATH, "w") as file: |
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json.dump(repo_clusters, file, indent=4) |
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st.success("Repository updated to the index!") |
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load_index.clear() |
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load_repo_clusters.clear() |
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st.session_state["query_doc"] = query_doc |
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st.session_state["cluster_number"] = cluster_number |
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else: |
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st.error("Invalid input!") |
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if "query_doc" in st.session_state: |
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query_doc = st.session_state.query_doc |
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cluster_number = st.session_state.cluster_number |
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limit = st.session_state.search_results_limit |
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st.dataframe( |
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pd.DataFrame( |
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[ |
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{ |
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"name": query_doc.name, |
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"topics": query_doc.topics, |
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"cluster number": cluster_number, |
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"stars": query_doc.stars, |
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"license": query_doc.license, |
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} |
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], |
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) |
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) |
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display_columns = st.session_state.display_columns |
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code_sim_tab, doc_sim_tab, readme_sim_tab, requirement_sim_tab, repo_sim_tab, same_cluster_tab, diff_cluster_tab = st.tabs( |
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["Code_sim", "Docstring_sim", "Readme_sim", "Requirement_sim", |
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"Repository_sim", "Same_cluster", "Different_cluster"]) |
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if query_doc.code_embedding is not None: |
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code_sim_res = run_index_search(index, query_doc, "code_embedding", limit) |
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cluster_numbers = run_cluster_search(repo_clusters, code_sim_res["name"]) |
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code_sim_res["cluster number"] = cluster_numbers |
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code_sim_tab.dataframe(code_sim_res[display_columns]) |
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else: |
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code_sim_tab.error("No function code was extracted for this repository!") |
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if query_doc.doc_embedding is not None: |
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doc_sim_res = run_index_search(index, query_doc, "doc_embedding", limit) |
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cluster_numbers = run_cluster_search(repo_clusters, doc_sim_res["name"]) |
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doc_sim_res["cluster number"] = cluster_numbers |
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doc_sim_tab.dataframe(doc_sim_res[display_columns]) |
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else: |
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doc_sim_tab.error("No function docstring was extracted for this repository!") |
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if query_doc.readme_embedding is not None: |
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readme_sim_res = run_index_search(index, query_doc, "readme_embedding", limit) |
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cluster_numbers = run_cluster_search(repo_clusters, readme_sim_res["name"]) |
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readme_sim_res["cluster number"] = cluster_numbers |
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readme_sim_tab.dataframe(readme_sim_res[display_columns]) |
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else: |
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readme_sim_tab.error("No readme file was extracted for this repository!") |
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if query_doc.requirement_embedding is not None: |
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requirement_sim_res = run_index_search(index, query_doc, "requirement_embedding", limit) |
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cluster_numbers = run_cluster_search(repo_clusters, requirement_sim_res["name"]) |
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requirement_sim_res["cluster number"] = cluster_numbers |
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requirement_sim_tab.dataframe(requirement_sim_res[display_columns]) |
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else: |
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requirement_sim_tab.error("No requirement file was extracted for this repository!") |
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if query_doc.repository_embedding is not None: |
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repo_sim_res = run_index_search(index, query_doc, "repository_embedding", limit) |
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cluster_numbers = run_cluster_search(repo_clusters, repo_sim_res["name"]) |
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repo_sim_res["cluster number"] = cluster_numbers |
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repo_sim_tab.dataframe(repo_sim_res[display_columns]) |
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else: |
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repo_sim_tab.error("No such useful information was extracted for this repository!") |
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if cluster_number is not None and query_doc.repository_embedding is not None: |
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same_cluster_df = run_similaritycal_search(index, repo_clusters, sim_cal_model, |
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query_doc, cluster_number, limit, |
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same_cluster=True) |
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diff_cluster_df = run_similaritycal_search(index, repo_clusters, sim_cal_model, |
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query_doc, cluster_number, limit, |
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same_cluster=False) |
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same_cluster_numbers = run_cluster_search(repo_clusters, same_cluster_df["name"]) |
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same_cluster_df["cluster number"] = same_cluster_numbers |
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diff_cluster_numbers = run_cluster_search(repo_clusters, diff_cluster_df["name"]) |
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diff_cluster_df["cluster number"] = diff_cluster_numbers |
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same_cluster_tab.dataframe(same_cluster_df[display_columns]) |
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diff_cluster_tab.dataframe(diff_cluster_df[display_columns]) |
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else: |
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same_cluster_tab.error("No such useful information was extracted for this repository!") |
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diff_cluster_tab.error("No such useful information was extracted for this repository!") |
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