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Improve data processing
Browse files- app.py +10 -13
- load_dataframe.py +39 -13
app.py
CHANGED
@@ -5,7 +5,7 @@ import pandas as pd
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import numpy as np
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import matplotlib.pyplot as plt
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def aggregated_data(df, aggregation_level="week"):
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@@ -25,17 +25,11 @@ def aggregated_data(df, aggregation_level="week"):
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# Calculate the growth rate
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growth_rate = percentage_papers_with_artifacts.pct_change() * 100
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print("Type of growth rate:", growth_rate)
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print("Growth rate:", type(growth_rate))
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# growth_rate = growth_rate.dropna()
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print("Growht rate after removing nan:", growth_rate)
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# Display the average growth rate as a big number
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average_growth_rate = growth_rate.mean()
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st.metric(label=f"{aggregation_level.capitalize()}ly
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# Create the plot
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plt.figure(figsize=(12, 6))
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@@ -109,12 +103,15 @@ def main():
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selection = st.sidebar.selectbox("Go to", ["Daily/weekly/monthly data", "Aggregated data"])
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# TODO use this instead
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df = df.drop(['Unnamed: 0'], axis=1) if 'Unnamed: 0' in df.columns else df
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# Use date as index
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df = df.set_index('date')
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df.index = pd.to_datetime(df.index)
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df = df.sort_index()
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if selection == "Daily/weekly/monthly data":
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import numpy as np
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import matplotlib.pyplot as plt
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from load_dataframe import get_data
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def aggregated_data(df, aggregation_level="week"):
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# Calculate the growth rate
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growth_rate = percentage_papers_with_artifacts.pct_change() * 100
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growth_rate = growth_rate.replace([float('inf'), float('-inf')], pd.NA).dropna()
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# Display the average growth rate as a big number
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average_growth_rate = growth_rate.mean()
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st.metric(label=f"{aggregation_level.capitalize()}ly Average Growth Rate", value=f"{average_growth_rate:.2f}%")
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# Create the plot
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plt.figure(figsize=(12, 6))
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selection = st.sidebar.selectbox("Go to", ["Daily/weekly/monthly data", "Aggregated data"])
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# TODO use this instead
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df = get_data()
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print(df.head())
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# df = pd.read_csv('daily_papers_enriched (3).csv')
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df = df.drop(['Unnamed: 0'], axis=1) if 'Unnamed: 0' in df.columns else df
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# Use date as index
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# df = df.set_index('date')
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# df.index = pd.to_datetime(df.index)
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df = df.sort_index()
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if selection == "Daily/weekly/monthly data":
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load_dataframe.py
CHANGED
@@ -20,7 +20,7 @@ class PaperInfo:
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num_comments: int
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def get_df() -> pd.DataFrame:
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"""
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Load the initial dataset as a Pandas dataframe.
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"""
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paper_page=f"https://huggingface.co/papers/{row.arxiv_id}",
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paper_info.append(info)
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def get_github_url(client: PapersWithCodeClient, paper_title: str) -> str:
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@@ -152,21 +161,15 @@ def check_hf_mention(batch):
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return batch
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def get_data() -> pd.DataFrame:
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"""
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Load the dataset and enrich it with metadata.
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"""
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# step 1. load as
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df = get_df()
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df['date'] = pd.to_datetime(df['date'])
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# step 2. enrich using PapersWithCode API
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dataset = Dataset.from_pandas(df)
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#
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# dataset = dataset.select(range(10))
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dataset = dataset.map(add_metadata_batch, batched=True, batch_size=4, num_proc=cpu_count(), fn_kwargs={"client": PapersWithCodeClient()})
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# step 3. enrich using Hugging Face API
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print("First few rows of the dataset:")
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print(dataframe.head())
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return dataframe
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num_comments: int
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def get_df(start_date: str, end_date: str) -> pd.DataFrame:
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"""
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Load the initial dataset as a Pandas dataframe.
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"""
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paper_page=f"https://huggingface.co/papers/{row.arxiv_id}",
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paper_info.append(info)
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df = pd.DataFrame([dataclasses.asdict(info) for info in paper_info])
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# set date as index
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df = df.set_index('date')
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df.index = pd.to_datetime(df.index)
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# only include data between start_date and end_date
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df = df[(df.index >= start_date) & (df.index <= end_date)]
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return df
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def get_github_url(client: PapersWithCodeClient, paper_title: str) -> str:
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return batch
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def process_data(start_date: str, end_date: str) -> pd.DataFrame:
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"""
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Load the dataset and enrich it with metadata.
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"""
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# step 1. load as HF dataset
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df = get_df(start_date, end_date)
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dataset = Dataset.from_pandas(df)
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# step 2. enrich using PapersWithCode API
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dataset = dataset.map(add_metadata_batch, batched=True, batch_size=4, num_proc=cpu_count(), fn_kwargs={"client": PapersWithCodeClient()})
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# step 3. enrich using Hugging Face API
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print("First few rows of the dataset:")
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print(dataframe.head())
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return dataframe
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@st.cache_data
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def get_data() -> pd.DataFrame:
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# step 1: load pre-processed data
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df = load_dataset("nielsr/daily-papers-enriched", split="train").to_pandas()
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df = df.set_index('date')
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df = df.sort_index()
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df.index = pd.to_datetime(df.index)
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# step 2: check how much extra data we need to process
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latest_day = df.iloc[-1].name.strftime('%d-%m-%Y')
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today = pd.Timestamp.today().strftime('%d-%m-%Y')
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# step 3: process the missing data
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if latest_day < today:
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print(f"Processing data from {latest_day} to {today}")
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new_df = process_data(start_date=latest_day, end_date=today)
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new_df = new_df[new_df.index > latest_day]
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df = pd.concat([df, new_df])
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return df
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