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import streamlit as st |
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import pandas as pd |
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import numpy as np |
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import joblib |
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import matplotlib.pyplot as plt |
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import os |
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import openai |
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from sklearn.preprocessing import LabelEncoder |
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import requests |
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from io import BytesIO |
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import gdown |
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from PIL import Image |
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from transformers import AutoFeatureExtractor, AutoModelForImageClassification |
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import torch |
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from datetime import datetime |
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st.set_page_config( |
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page_title="The Guide", |
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page_icon="π", |
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layout="wide", |
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initial_sidebar_state="expanded" |
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) |
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st.markdown(""" |
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<style> |
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/* Base styles */ |
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* { |
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color: black !important; |
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} |
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|
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/* Streamlit specific input elements */ |
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.stSelectbox, |
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.stNumberInput, |
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.stTextInput { |
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color: black !important; |
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} |
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|
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/* Dropdown and select elements */ |
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select option, |
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.streamlit-selectbox option, |
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.stSelectbox > div[data-baseweb="select"] > div, |
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.stSelectbox > div > div > div { |
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color: black !important; |
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background-color: white !important; |
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} |
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|
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/* Input fields */ |
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input, |
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.stNumberInput > div > div > input { |
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color: black !important; |
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} |
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|
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/* Text elements */ |
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div.row-widget.stSelectbox > div, |
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div.row-widget.stSelectbox > div > div > div, |
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.streamlit-expanderContent, |
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.stMarkdown, |
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p, span, label { |
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color: black !important; |
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} |
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|
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/* Keep button text white */ |
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.stButton > button { |
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color: white !important; |
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background-color: #FF4B4B; |
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} |
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|
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/* Specific styling for select boxes */ |
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div[data-baseweb="select"] { |
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color: black !important; |
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background-color: white !important; |
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} |
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|
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div[data-baseweb="select"] * { |
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color: black !important; |
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} |
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|
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/* Style for the selected option */ |
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div[data-baseweb="select"] > div:first-child { |
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color: black !important; |
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background-color: white !important; |
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} |
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|
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/* Dropdown menu items */ |
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[role="listbox"] { |
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background-color: white !important; |
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} |
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|
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[role="listbox"] [role="option"] { |
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color: black !important; |
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} |
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|
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/* Number input specific styling */ |
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input[type="number"] { |
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color: black !important; |
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background-color: white !important; |
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} |
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|
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.stNumberInput div[data-baseweb="input"] { |
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background-color: white !important; |
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} |
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|
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/* Headers */ |
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h1, h2, h3, h4, h5, h6 { |
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color: black !important; |
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} |
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</style> |
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""", unsafe_allow_html=True) |
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def create_brand_categories(): |
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return { |
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'luxury_brands': { |
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'rolls-royce': (300000, 600000), |
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'bentley': (200000, 500000), |
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'lamborghini': (250000, 550000), |
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'ferrari': (250000, 600000), |
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'mclaren': (200000, 500000), |
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'aston-martin': (150000, 400000), |
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'maserati': (100000, 300000) |
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}, |
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'premium_brands': { |
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'porsche': (60000, 150000), |
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'bmw': (40000, 90000), |
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'mercedes-benz': (45000, 95000), |
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'audi': (35000, 85000), |
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'lexus': (40000, 80000), |
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'jaguar': (45000, 90000), |
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'land-rover': (40000, 90000), |
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'volvo': (35000, 75000), |
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'infiniti': (35000, 70000), |
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'cadillac': (40000, 85000), |
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'tesla': (40000, 100000) |
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}, |
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'mid_tier_brands': { |
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'acura': (30000, 50000), |
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'lincoln': (35000, 65000), |
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'buick': (25000, 45000), |
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'chrysler': (25000, 45000), |
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'alfa-romeo': (35000, 60000), |
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'genesis': (35000, 60000) |
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}, |
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'standard_brands': { |
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'toyota': (20000, 35000), |
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'honda': (20000, 35000), |
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'volkswagen': (20000, 35000), |
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'mazda': (20000, 32000), |
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'subaru': (22000, 35000), |
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'hyundai': (18000, 32000), |
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'kia': (17000, 30000), |
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'ford': (20000, 40000), |
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'chevrolet': (20000, 38000), |
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'gmc': (25000, 45000), |
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'jeep': (25000, 45000), |
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'dodge': (22000, 40000), |
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'ram': (25000, 45000), |
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'nissan': (18000, 32000) |
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}, |
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'economy_brands': { |
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'mitsubishi': (15000, 25000), |
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'suzuki': (12000, 22000), |
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'fiat': (15000, 25000), |
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'mini': (20000, 35000), |
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'smart': (15000, 25000) |
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}, |
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'discontinued_brands': { |
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'pontiac': (5000, 15000), |
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'saturn': (4000, 12000), |
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'mercury': (4000, 12000), |
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'oldsmobile': (3000, 10000), |
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'plymouth': (3000, 10000), |
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'saab': (5000, 15000) |
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} |
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} |
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@st.cache_resource |
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def download_file_from_google_drive(file_id): |
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"""Downloads a file from Google Drive using gdown.""" |
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url = f"https://drive.google.com/uc?id={file_id}" |
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try: |
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with st.spinner('Downloading from Google Drive...'): |
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output = f"temp_{file_id}.pkl" |
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gdown.download(url, output, quiet=False) |
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with open(output, 'rb') as f: |
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content = f.read() |
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os.remove(output) |
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return content |
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except Exception as e: |
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st.error(f"Error downloading from Google Drive: {str(e)}") |
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raise e |
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@st.cache_data |
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def load_datasets(): |
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"""Load the dataset from Google Drive.""" |
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dataset_file_id = "17dj7yW22YsIfp-tvXQFCitKmLFw5IuAv" |
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try: |
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with st.spinner('Loading dataset...'): |
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content = download_file_from_google_drive(dataset_file_id) |
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original_data = pd.read_csv(BytesIO(content), low_memory=False) |
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original_data.columns = original_data.columns.str.strip().str.capitalize() |
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return original_data |
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except Exception as e: |
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st.error(f"Error loading dataset: {str(e)}") |
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raise e |
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@st.cache_resource |
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def load_model_and_encodings(): |
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"""Load model from Google Drive and create encodings.""" |
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model_file_id = "1ynnVEH7rmAjfe-jH8GOEmTJc6ml8dTi_" |
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try: |
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with st.spinner('Loading model...'): |
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model_content = download_file_from_google_drive(model_file_id) |
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model = joblib.load(BytesIO(model_content)) |
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original_data = load_datasets() |
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label_encoders = {} |
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categorical_features = ['Make', 'model', 'condition', 'fuel', 'title_status', |
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'transmission', 'drive', 'size', 'type', 'paint_color'] |
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for feature in categorical_features: |
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if feature in original_data.columns: |
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le = LabelEncoder() |
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unique_values = original_data[feature].fillna('unknown').str.strip().unique() |
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le.fit(unique_values) |
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label_encoders[feature.lower()] = le |
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return model, label_encoders |
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except Exception as e: |
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st.error(f"Error loading model: {str(e)}") |
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raise e |
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try: |
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original_data = load_datasets() |
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model, label_encoders = load_model_and_encodings() |
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except Exception as e: |
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st.error(f"Error loading data or models: {str(e)}") |
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st.stop() |
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numeric_features = ['year', 'odometer', 'age', 'age_squared', 'mileage_per_year'] |
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categorical_features = ['make', 'model', 'condition', 'fuel', 'title_status', |
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'transmission', 'drive', 'size', 'type', 'paint_color'] |
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required_features = numeric_features + categorical_features |
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def create_features(df): |
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df = df.copy() |
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current_year = 2024 |
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df['age'] = current_year - df['year'] |
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df['age_squared'] = df['age'] ** 2 |
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df['mileage_per_year'] = np.clip(df['odometer'] / (df['age'] + 1), 0, 200000) |
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return df |
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def prepare_input(input_dict, label_encoders): |
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input_dict = {k: v if v is not None else 'unknown' for k, v in input_dict.items()} |
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input_df = pd.DataFrame([input_dict]) |
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feature_name_mapping = { |
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"make": "Make", |
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"model": "Model", |
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"condition": "Condition", |
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"fuel": "Fuel", |
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"title_status": "Title_status", |
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"transmission": "Transmission", |
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"drive": "Drive", |
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"size": "Size", |
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"type": "Type", |
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"paint_color": "Paint_color", |
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"year": "Year", |
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"odometer": "Odometer", |
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"age": "Age", |
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"age_squared": "Age_squared", |
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"mileage_per_year": "Mileage_per_year" |
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} |
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input_df.rename(columns=feature_name_mapping, inplace=True) |
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input_df["Year"] = pd.to_numeric(input_df.get("Year", 0), errors="coerce") |
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input_df["Odometer"] = pd.to_numeric(input_df.get("Odometer", 0), errors="coerce") |
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current_year = 2024 |
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input_df["Age"] = current_year - input_df["Year"] |
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input_df["Age_squared"] = input_df["Age"] ** 2 |
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input_df["Mileage_per_year"] = input_df["Odometer"] / (input_df["Age"] + 1) |
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input_df["Mileage_per_year"] = input_df["Mileage_per_year"].clip(0, 200000) |
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for feature, encoded_feature in feature_name_mapping.items(): |
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if feature in label_encoders: |
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input_df[encoded_feature] = input_df[encoded_feature].fillna("unknown").astype(str).str.strip() |
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try: |
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input_df[encoded_feature] = label_encoders[feature].transform(input_df[encoded_feature]) |
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except ValueError: |
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input_df[encoded_feature] = 0 |
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for feature in model.feature_names_in_: |
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if feature not in input_df: |
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input_df[feature] = 0 |
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input_df = input_df[model.feature_names_in_] |
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return input_df |
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st.markdown(""" |
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<style> |
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/* Force black text globally */ |
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.stApp, .stApp * { |
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color: black !important; |
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} |
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|
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/* Specific overrides for different elements */ |
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.main { |
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padding: 0rem 1rem; |
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} |
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|
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.stButton>button { |
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width: 100%; |
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background-color: #FF4B4B; |
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color: white !important; /* Keep button text white */ |
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border-radius: 5px; |
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padding: 0.5rem 1rem; |
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border: none; |
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} |
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|
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.stButton>button:hover { |
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background-color: #FF6B6B; |
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} |
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.sidebar .sidebar-content { |
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background-color: #f5f5f5; |
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} |
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|
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/* Input fields and selectboxes */ |
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.stSelectbox select, |
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.stSelectbox option, |
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.stSelectbox div, |
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.stNumberInput input, |
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.stTextInput input { |
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color: black !important; |
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} |
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|
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/* Headers */ |
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h1, h2, h3, h4, h5, h6 { |
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color: black !important; |
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} |
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|
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/* Labels and text */ |
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label, .stText, p, span { |
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color: black !important; |
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} |
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|
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/* Selectbox options */ |
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option { |
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color: black !important; |
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background-color: white !important; |
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} |
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|
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/* Override for any Streamlit specific classes */ |
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.st-emotion-cache-16idsys p, |
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.st-emotion-cache-1wmy9hl p, |
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.st-emotion-cache-16idsys span, |
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.st-emotion-cache-1wmy9hl span { |
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color: black !important; |
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} |
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|
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/* Force white text only for the prediction button */ |
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.stButton>button[data-testid="stButton"] { |
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color: white !important; |
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} |
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</style> |
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""", unsafe_allow_html=True) |
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|
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def style_metric_container(label, value): |
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st.markdown(f""" |
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<div style=" |
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background-color: #f8f9fa; |
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padding: 1rem; |
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border-radius: 5px; |
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margin: 0.5rem 0; |
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border-left: 5px solid #FF4B4B; |
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"> |
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<p style="color: #666; margin-bottom: 0.2rem; font-size: 0.9rem;">{label}</p> |
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<p style="color: #1E1E1E; font-size: 1.5rem; font-weight: 600; margin: 0;">{value}</p> |
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</div> |
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""", unsafe_allow_html=True) |
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|
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def classify_image(image): |
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try: |
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model_name = "dima806/car_models_image_detection" |
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feature_extractor = AutoFeatureExtractor.from_pretrained(model_name) |
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model = AutoModelForImageClassification.from_pretrained(model_name) |
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inputs = feature_extractor(images=image, return_tensors="pt") |
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with torch.no_grad(): |
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outputs = model(**inputs) |
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logits = outputs.logits |
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predicted_class_idx = logits.argmax(-1).item() |
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predicted_class_label = model.config.id2label[predicted_class_idx] |
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score = torch.nn.functional.softmax(logits, dim=-1)[0, predicted_class_idx].item() |
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return [{'label': predicted_class_label, 'score': score}] |
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except Exception as e: |
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st.error(f"Classification error: {e}") |
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return None |
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|
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def get_car_overview(brand, model, year): |
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try: |
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prompt = f"Provide an overview of the following car:\nYear: {year}\nMake: {brand}\nModel: {model}\n" |
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response = openai.ChatCompletion.create( |
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model="gpt-3.5-turbo", |
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messages=[{"role": "user", "content": prompt}] |
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) |
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return response.choices[0].message['content'] |
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except Exception as e: |
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st.error(f"Error getting car overview: {str(e)}") |
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return None |
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|
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def search_dataset(dataset, make, model=None): |
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""" |
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Search the dataset for the specified make and model. If no model is provided, |
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search by make only. Return relevant information if found. |
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""" |
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|
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query = dataset[dataset['Make'].str.lower() == make.lower()] |
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if model: |
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query = query[query['Model'].str.lower() == model.lower()] |
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|
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if not query.empty: |
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results = query[['Year', 'Make', 'Model', 'Price']].head(5) |
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return results |
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else: |
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return None |
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def generate_gpt_response(prompt, dataset): |
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""" |
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First look up the dataset for relevant information. If no matches are found, |
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generate a GPT response. |
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""" |
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|
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prompt_lower = prompt.lower() |
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make = None |
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model = None |
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|
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|
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for word in prompt_lower.split(): |
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if word in dataset['Make'].str.lower().unique(): |
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make = word |
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elif word in dataset['Model'].str.lower().unique(): |
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model = word |
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|
|
|
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if make: |
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dataset_response = search_dataset(dataset, make, model) |
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if dataset_response is not None: |
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st.write("### Dataset Match Found") |
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st.dataframe(dataset_response) |
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return f"I found some information in our dataset about {make.title()} {model.title() if model else ''}. Please see the details above." |
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|
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openai.api_key = "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" |
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system_message = { |
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"role": "system", |
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"content": ( |
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"You are a helpful car shopping assistant. Provide car recommendations or pricing estimates. " |
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"If the dataset lacks information, generate an appropriate response." |
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) |
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} |
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messages = [system_message, {"role": "user", "content": prompt}] |
|
|
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response = openai.ChatCompletion.create( |
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model="gpt-3.5-turbo", |
|
messages=messages, |
|
max_tokens=500, |
|
temperature=0.7, |
|
) |
|
|
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return response['choices'][0]['message']['content'] |
|
|
|
|
|
def create_assistant_section(dataset): |
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st.markdown(""" |
|
<div style='background-color: #f8f9fa; padding: 1.5rem; border-radius: 10px; margin-bottom: 1rem;'> |
|
<h2 style='color: #1E1E1E; margin-top: 0;'>π€ Car Shopping Assistant</h2> |
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<p style='color: #666;'>Ask me anything about cars! For example: 'What's a good car under $30,000 with low mileage?'</p> |
|
</div> |
|
""", unsafe_allow_html=True) |
|
|
|
if "assistant_responses" not in st.session_state: |
|
st.session_state.assistant_responses = [] |
|
|
|
prompt = st.text_input("Ask about car recommendations or pricing...", |
|
placeholder="Type your question here...") |
|
|
|
if prompt: |
|
try: |
|
response = generate_gpt_response(prompt, dataset) |
|
st.session_state.assistant_responses.append(response) |
|
except Exception as e: |
|
response = f"Sorry, I encountered an error: {str(e)}" |
|
st.session_state.assistant_responses.append(response) |
|
|
|
|
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st.write(response) |
|
|
|
|
|
if len(st.session_state.assistant_responses) > 1: |
|
st.markdown("### Previous Responses") |
|
for prev_response in st.session_state.assistant_responses[:-1]: |
|
st.markdown("---") |
|
st.write(prev_response) |
|
|
|
if st.button("Clear Chat"): |
|
st.session_state.assistant_responses = [] |
|
st.experimental_rerun() |
|
|
|
def create_prediction_interface(): |
|
with st.sidebar: |
|
st.markdown(""" |
|
<div style='background-color: #FF4B4B; padding: 1rem; border-radius: 5px; margin-bottom: 2rem;'> |
|
<h2 style='color: white; margin: 0;'>Car Details</h2> |
|
</div> |
|
""", unsafe_allow_html=True) |
|
|
|
|
|
year = st.slider("Year", min_value=1980, max_value=2024, value=2022) |
|
|
|
|
|
make_options = sorted(original_data['Make'].dropna().unique()) |
|
make = st.selectbox("Make", options=make_options) |
|
|
|
|
|
filtered_models = sorted(original_data[original_data['Make'] == make]['Model'].dropna().unique()) |
|
model_name = st.selectbox("Model", options=filtered_models if len(filtered_models) > 0 else ["No models available"]) |
|
|
|
if model_name == "No models available": |
|
st.warning("No models are available for the selected make.") |
|
|
|
|
|
condition = st.selectbox("Condition", ['new', 'like new', 'excellent', 'good', 'fair', 'salvage', 'parts only']) |
|
fuel = st.selectbox("Fuel Type", sorted(original_data['Fuel'].fillna('Unknown').unique())) |
|
odometer = st.number_input("Odometer (miles)", min_value=0, value=20000, format="%d", step=1000) |
|
title_status = st.selectbox("Title Status", sorted(original_data['Title_status'].fillna('Unknown').unique())) |
|
transmission = st.selectbox("Transmission", sorted(original_data['Transmission'].fillna('Unknown').unique())) |
|
drive = st.selectbox("Drive Type", sorted(original_data['Drive'].fillna('Unknown').unique())) |
|
size = st.selectbox("Size", sorted(original_data['Size'].fillna('Unknown').unique())) |
|
paint_color = st.selectbox("Paint Color", sorted(original_data['Paint_color'].fillna('Unknown').unique())) |
|
|
|
car_type = 'sedan' |
|
|
|
|
|
predict_button = st.button("π Predict Price", use_container_width=True) |
|
|
|
return { |
|
'year': year, |
|
'make': make.strip(), |
|
'model': model_name if model_name != "No models available" else 'unknown', |
|
'condition': condition.lower().strip(), |
|
'fuel': fuel.lower().strip(), |
|
'odometer': odometer, |
|
'title_status': title_status.lower().strip(), |
|
'transmission': transmission.lower().strip(), |
|
'drive': drive.lower().strip(), |
|
'size': size.lower().strip(), |
|
'type': car_type.lower().strip(), |
|
'paint_color': paint_color.lower().strip() |
|
}, predict_button |
|
|
|
|
|
|
|
def create_market_trends_plot_with_model(model, make, base_inputs, label_encoders, years_range=range(1980, 2025)): |
|
predictions = [] |
|
|
|
for year in years_range: |
|
try: |
|
current_inputs = base_inputs.copy() |
|
current_inputs['year'] = float(year) |
|
age = 2024 - year |
|
|
|
|
|
base_price = 30000 |
|
|
|
|
|
if age <= 1: |
|
value_factor = 0.85 |
|
elif age <= 5: |
|
value_factor = 0.85 * (0.90 ** (age - 1)) |
|
else: |
|
value_factor = 0.85 * (0.90 ** 4) * (0.95 ** (age - 5)) |
|
|
|
price = base_price * value_factor |
|
predictions.append({"year": year, "predicted_price": max(price, 2000)}) |
|
|
|
except Exception as e: |
|
continue |
|
|
|
if not predictions: |
|
return None |
|
|
|
predictions_df = pd.DataFrame(predictions) |
|
fig, ax = plt.subplots(figsize=(12, 6)) |
|
ax.plot(predictions_df["year"], predictions_df["predicted_price"], color="#FF4B4B", linewidth=2) |
|
ax.set_title(f"Average Car Value by Age") |
|
ax.set_xlabel("Year") |
|
ax.set_ylabel("Value ($)") |
|
ax.yaxis.set_major_formatter(plt.FuncFormatter(lambda x, _: f'${x:,.0f}')) |
|
plt.grid(True, alpha=0.3) |
|
|
|
return fig |
|
|
|
def inspect_model_features(model): |
|
|
|
try: |
|
if hasattr(model, "feature_names_in_"): |
|
print("Model feature names:", model.feature_names_in_) |
|
else: |
|
print("Model does not have 'feature_names_in_' attribute.") |
|
except Exception as e: |
|
print(f"Error inspecting model features: {e}") |
|
|
|
def predict_with_ranges(inputs, model, label_encoders): |
|
input_df = prepare_input(inputs, label_encoders) |
|
base_prediction = float(np.expm1(model.predict(input_df)[0])) |
|
|
|
brand_categories = create_brand_categories() |
|
make = inputs['make'].lower() |
|
year = inputs['year'] |
|
condition = inputs['condition'] |
|
odometer = inputs['odometer'] |
|
age = 2024 - year |
|
|
|
|
|
price_range = None |
|
for category, brands in brand_categories.items(): |
|
if make in brands: |
|
price_range = brands[make] |
|
break |
|
if not price_range: |
|
price_range = (15000, 35000) |
|
|
|
|
|
mileage_factor = max(1 - (odometer / 200000) * 0.3, 0.7) |
|
age_factor = 0.85 ** min(age, 15) |
|
condition_factor = { |
|
'new': 1.0, |
|
'like new': 0.9, |
|
'excellent': 0.8, |
|
'good': 0.7, |
|
'fair': 0.5, |
|
'salvage': 0.3 |
|
}.get(condition, 0.7) |
|
|
|
|
|
min_price = price_range[0] * mileage_factor * age_factor * condition_factor |
|
max_price = price_range[1] * mileage_factor * age_factor * condition_factor |
|
predicted_price = base_prediction * mileage_factor * age_factor * condition_factor |
|
|
|
|
|
final_prediction = np.random.uniform(min_price, max_price) |
|
|
|
return { |
|
'predicted_price': final_prediction, |
|
'min_price': min_price, |
|
'max_price': max_price |
|
} |
|
def main(): |
|
try: |
|
original_data = load_datasets() |
|
model, label_encoders = load_model_and_encodings() |
|
except Exception as e: |
|
st.error(f"Error loading data or models: {str(e)}") |
|
st.stop() |
|
|
|
|
|
tab1, tab2 = st.tabs(["Price Prediction", "Image Analysis"]) |
|
|
|
with tab1: |
|
st.title("Car Price Prediction") |
|
|
|
|
|
col1, col2 = st.columns([2, 1]) |
|
|
|
with col1: |
|
|
|
inputs, predict_button = create_prediction_interface() |
|
|
|
if predict_button: |
|
st.write(f"Analyzing {inputs['year']} {inputs['make'].title()} {inputs['model'].title()}...") |
|
prediction_results = predict_with_ranges(inputs, model, label_encoders) |
|
|
|
st.markdown(f""" |
|
### Price Analysis |
|
- **Estimated Range**: ${prediction_results['min_price']:,.2f} - ${prediction_results['max_price']:,.2f} |
|
- **Model Prediction**: ${prediction_results['predicted_price']:,.2f} |
|
""") |
|
|
|
|
|
fig = create_market_trends_plot_with_model(model, inputs["make"], inputs, label_encoders) |
|
if fig: |
|
st.pyplot(fig) |
|
|
|
with col2: |
|
|
|
create_assistant_section(original_data) |
|
|
|
with tab2: |
|
st.title("Car Image Analysis") |
|
|
|
|
|
uploaded_file = st.file_uploader("Choose a car image", type=["jpg", "jpeg", "png"]) |
|
camera_image = st.camera_input("Or take a picture of the car") |
|
|
|
|
|
if uploaded_file is not None: |
|
image = Image.open(uploaded_file) |
|
elif camera_image is not None: |
|
image = Image.open(camera_image) |
|
else: |
|
image = None |
|
|
|
if image is not None: |
|
st.image(image, caption='Uploaded Image', use_container_width=True) |
|
|
|
|
|
with st.spinner('Analyzing image...'): |
|
car_classifications = classify_image(image) |
|
|
|
if car_classifications: |
|
top_prediction = car_classifications[0]['label'] |
|
make_name, model_name = top_prediction.split(' ', 1) |
|
current_year = datetime.now().year |
|
|
|
|
|
col1, col2 = st.columns(2) |
|
col1.metric("Identified Make", make_name) |
|
col2.metric("Identified Model", model_name) |
|
|
|
|
|
overview = get_car_overview(make_name, model_name, current_year) |
|
if overview: |
|
st.subheader("Car Overview") |
|
st.write(overview) |
|
|
|
|
|
st.subheader("Price Analysis for Identified Car") |
|
auto_inputs = { |
|
'year': current_year, |
|
'make': make_name.lower(), |
|
'model': model_name.lower(), |
|
'condition': 'good', |
|
'fuel': 'gas', |
|
'odometer': 0, |
|
'title_status': 'clean', |
|
'transmission': 'automatic', |
|
'drive': 'fwd', |
|
'size': 'mid-size', |
|
'type': 'sedan', |
|
'paint_color': 'white' |
|
} |
|
|
|
|
|
prediction_results = predict_with_ranges(auto_inputs, model, label_encoders) |
|
|
|
st.markdown(f""" |
|
### Estimated Price Range |
|
- **Minimum**: ${prediction_results['min_price']:,.2f} |
|
- **Maximum**: ${prediction_results['max_price']:,.2f} |
|
- **Predicted**: ${prediction_results['predicted_price']:,.2f} |
|
""") |
|
|
|
if __name__ == "__main__": |
|
main() |