app.py

import streamlit as st
st.set_page_config(layout="wide")
import pandas as pd
import pytz
from rapidfuzz import process
from collections import Counter
import io

## import global functions
from global_func.clean_player_name import clean_player_name
from global_func.load_file import load_file
from global_func.load_ss_file import load_ss_file
from global_func.load_dk_fd_file import load_dk_fd_file
from global_func.find_name_mismatches import find_name_mismatches
from global_func.predict_dupes import predict_dupes
from global_func.highlight_rows import highlight_changes, highlight_changes_winners, highlight_changes_losers
from global_func.load_csv import load_csv
from global_func.find_csv_mismatches import find_csv_mismatches
from global_func.trim_portfolio import trim_portfolio
from global_func.get_portfolio_names import get_portfolio_names
from global_func.small_field_preset import small_field_preset
from global_func.large_field_preset import large_field_preset
from global_func.hedging_preset import hedging_preset
from global_func.volatility_preset import volatility_preset
from global_func.reduce_volatility_preset import reduce_volatility_preset
from global_func.analyze_player_combos import analyze_player_combos
from global_func.stratification_function import stratification_function
from global_func.exposure_spread import exposure_spread
from global_func.reassess_edge import reassess_edge
from global_func.recalc_diversity import recalc_diversity
from global_func.optimize_lineup import optimize_lineup

from database_queries import *
from database import *

pos_parse_mapping = {
    'Projection': 'proj_map',
    'Ownership': 'own_map', 
    'Salary': 'salary_map',
    'Position': 'pos_map',
    'Team': 'team_map'
}

pos_parse_options = list(pos_parse_mapping.keys())

showdown_selections = ['Showdown #1', 'Showdown #2', 'Showdown #3', 'Showdown #4', 'Showdown #5', 'Showdown #6', 'Showdown #7', 'Showdown #8', 'Showdown #9', 'Showdown #10', 'Showdown #11', 'Showdown #12', 'Showdown #13', 'Showdown #14', 'Showdown #15']
dk_db_nfl_showdown_selections = ['DK_NFL_SD_seed_frame_Showdown #1', 'DK_NFL_SD_seed_frame_Showdown #2', 'DK_NFL_SD_seed_frame_Showdown #3', 'DK_NFL_SD_seed_frame_Showdown #4', 'DK_NFL_SD_seed_frame_Showdown #5', 'DK_NFL_SD_seed_frame_Showdown #6',
'DK_NFL_SD_seed_frame_Showdown #7', 'DK_NFL_SD_seed_frame_Showdown #8', 'DK_NFL_SD_seed_frame_Showdown #9', 'DK_NFL_SD_seed_frame_Showdown #10', 'DK_NFL_SD_seed_frame_Showdown #11', 'DK_NFL_SD_seed_frame_Showdown #12', 'DK_NFL_SD_seed_frame_Showdown #13',
'DK_NFL_SD_seed_frame_Showdown #14', 'DK_NFL_SD_seed_frame_Showdown #15']
fd_db_nfl_showdown_selections = ['FD_NFL_SD_seed_frame_Showdown #1', 'FD_NFL_SD_seed_frame_Showdown #2', 'FD_NFL_SD_seed_frame_Showdown #3', 'FD_NFL_SD_seed_frame_Showdown #4', 'FD_NFL_SD_seed_frame_Showdown #5', 'FD_NFL_SD_seed_frame_Showdown #6',
'FD_NFL_SD_seed_frame_Showdown #7', 'FD_NFL_SD_seed_frame_Showdown #8', 'FD_NFL_SD_seed_frame_Showdown #9', 'FD_NFL_SD_seed_frame_Showdown #10', 'FD_NFL_SD_seed_frame_Showdown #11', 'FD_NFL_SD_seed_frame_Showdown #12', 'FD_NFL_SD_seed_frame_Showdown #13',
'FD_NFL_SD_seed_frame_Showdown #14', 'FD_NFL_SD_seed_frame_Showdown #15']
dk_db_nba_showdown_selections = ['DK_NBA_SD_seed_frame_Showdown #1', 'DK_NBA_SD_seed_frame_Showdown #2', 'DK_NBA_SD_seed_frame_Showdown #3', 'DK_NBA_SD_seed_frame_Showdown #4', 'DK_NBA_SD_seed_frame_Showdown #5', 'DK_NBA_SD_seed_frame_Showdown #6',
'DK_NBA_SD_seed_frame_Showdown #7', 'DK_NBA_SD_seed_frame_Showdown #8', 'DK_NBA_SD_seed_frame_Showdown #9', 'DK_NBA_SD_seed_frame_Showdown #10', 'DK_NBA_SD_seed_frame_Showdown #11', 'DK_NBA_SD_seed_frame_Showdown #12', 'DK_NBA_SD_seed_frame_Showdown #13',
'DK_NBA_SD_seed_frame_Showdown #14', 'DK_NBA_SD_seed_frame_Showdown #15']
fd_db_nba_showdown_selections = ['FD_NBA_SD_seed_frame_Showdown #1', 'FD_NBA_SD_seed_frame_Showdown #2', 'FD_NBA_SD_seed_frame_Showdown #3', 'FD_NBA_SD_seed_frame_Showdown #4', 'FD_NBA_SD_seed_frame_Showdown #5', 'FD_NBA_SD_seed_frame_Showdown #6',
'FD_NBA_SD_seed_frame_Showdown #7', 'FD_NBA_SD_seed_frame_Showdown #8', 'FD_NBA_SD_seed_frame_Showdown #9', 'FD_NBA_SD_seed_frame_Showdown #10', 'FD_NBA_SD_seed_frame_Showdown #11', 'FD_NBA_SD_seed_frame_Showdown #12', 'FD_NBA_SD_seed_frame_Showdown #13',
'FD_NBA_SD_seed_frame_Showdown #14', 'FD_NBA_SD_seed_frame_Showdown #15']
dk_db_nhl_showdown_selections = ['DK_NHL_SD_seed_frame_Showdown #1', 'DK_NHL_SD_seed_frame_Showdown #2', 'DK_NHL_SD_seed_frame_Showdown #3', 'DK_NHL_SD_seed_frame_Showdown #4', 'DK_NHL_SD_seed_frame_Showdown #5', 'DK_NHL_SD_seed_frame_Showdown #6',
'DK_NHL_SD_seed_frame_Showdown #7', 'DK_NHL_SD_seed_frame_Showdown #8', 'DK_NHL_SD_seed_frame_Showdown #9', 'DK_NHL_SD_seed_frame_Showdown #10', 'DK_NHL_SD_seed_frame_Showdown #11', 'DK_NHL_SD_seed_frame_Showdown #12', 'DK_NHL_SD_seed_frame_Showdown #13',
'DK_NHL_SD_seed_frame_Showdown #14', 'DK_NHL_SD_seed_frame_Showdown #15']
fd_db_nhl_showdown_selections = ['FD_NHL_SD_seed_frame_Showdown #1', 'FD_NHL_SD_seed_frame_Showdown #2', 'FD_NHL_SD_seed_frame_Showdown #3', 'FD_NHL_SD_seed_frame_Showdown #4', 'FD_NHL_SD_seed_frame_Showdown #5', 'FD_NHL_SD_seed_frame_Showdown #6',
'FD_NHL_SD_seed_frame_Showdown #7', 'FD_NHL_SD_seed_frame_Showdown #8', 'FD_NHL_SD_seed_frame_Showdown #9', 'FD_NHL_SD_seed_frame_Showdown #10', 'FD_NHL_SD_seed_frame_Showdown #11', 'FD_NHL_SD_seed_frame_Showdown #12', 'FD_NHL_SD_seed_frame_Showdown #13',
'FD_NHL_SD_seed_frame_Showdown #14', 'FD_NHL_SD_seed_frame_Showdown #15']
dk_db_mma_showdown_selections = ['DK_MMA_SD_seed_frame_Showdown #1', 'DK_MMA_SD_seed_frame_Showdown #2', 'DK_MMA_SD_seed_frame_Showdown #3', 'DK_MMA_SD_seed_frame_Showdown #4', 'DK_MMA_SD_seed_frame_Showdown #5', 'DK_MMA_SD_seed_frame_Showdown #6',
'DK_MMA_SD_seed_frame_Showdown #7', 'DK_MMA_SD_seed_frame_Showdown #8', 'DK_MMA_SD_seed_frame_Showdown #9', 'DK_MMA_SD_seed_frame_Showdown #10', 'DK_MMA_SD_seed_frame_Showdown #11', 'DK_MMA_SD_seed_frame_Showdown #12', 'DK_MMA_SD_seed_frame_Showdown #13',
'DK_MMA_SD_seed_frame_Showdown #14', 'DK_MMA_SD_seed_frame_Showdown #15']
fd_db_mma_showdown_selections = ['FD_MMA_SD_seed_frame_Showdown #1', 'FD_MMA_SD_seed_frame_Showdown #2', 'FD_MMA_SD_seed_frame_Showdown #3', 'FD_MMA_SD_seed_frame_Showdown #4', 'FD_MMA_SD_seed_frame_Showdown #5', 'FD_MMA_SD_seed_frame_Showdown #6',
'FD_MMA_SD_seed_frame_Showdown #7', 'FD_MMA_SD_seed_frame_Showdown #8', 'FD_MMA_SD_seed_frame_Showdown #9', 'FD_MMA_SD_seed_frame_Showdown #10', 'FD_MMA_SD_seed_frame_Showdown #11', 'FD_MMA_SD_seed_frame_Showdown #12', 'FD_MMA_SD_seed_frame_Showdown #13',
'FD_MMA_SD_seed_frame_Showdown #14', 'FD_MMA_SD_seed_frame_Showdown #15']
dk_db_pga_showdown_selections = ['DK_PGA_SD_seed_frame_Showdown #1', 'DK_PGA_SD_seed_frame_Showdown #2', 'DK_PGA_SD_seed_frame_Showdown #3', 'DK_PGA_SD_seed_frame_Showdown #4', 'DK_PGA_SD_seed_frame_Showdown #5', 'DK_PGA_SD_seed_frame_Showdown #6',
'DK_PGA_SD_seed_frame_Showdown #7', 'DK_PGA_SD_seed_frame_Showdown #8', 'DK_PGA_SD_seed_frame_Showdown #9', 'DK_PGA_SD_seed_frame_Showdown #10', 'DK_PGA_SD_seed_frame_Showdown #11', 'DK_PGA_SD_seed_frame_Showdown #12', 'DK_PGA_SD_seed_frame_Showdown #13',
'DK_PGA_SD_seed_frame_Showdown #14', 'DK_PGA_SD_seed_frame_Showdown #15']
fd_db_pga_showdown_selections = ['FD_PGA_SD_seed_frame_Showdown #1', 'FD_PGA_SD_seed_frame_Showdown #2', 'FD_PGA_SD_seed_frame_Showdown #3', 'FD_PGA_SD_seed_frame_Showdown #4', 'FD_PGA_SD_seed_frame_Showdown #5', 'FD_PGA_SD_seed_frame_Showdown #6',
'FD_PGA_SD_seed_frame_Showdown #7', 'FD_PGA_SD_seed_frame_Showdown #8', 'FD_PGA_SD_seed_frame_Showdown #9', 'FD_PGA_SD_seed_frame_Showdown #10', 'FD_PGA_SD_seed_frame_Showdown #11', 'FD_PGA_SD_seed_frame_Showdown #12', 'FD_PGA_SD_seed_frame_Showdown #13',
'FD_PGA_SD_seed_frame_Showdown #14', 'FD_PGA_SD_seed_frame_Showdown #15']

dk_nfl_showdown_db_translation = dict(zip(showdown_selections, dk_db_nfl_showdown_selections))
fd_nfl_showdown_db_translation = dict(zip(showdown_selections, fd_db_nfl_showdown_selections))
dk_nba_showdown_db_translation = dict(zip(showdown_selections, dk_db_nba_showdown_selections))
fd_nba_showdown_db_translation = dict(zip(showdown_selections, fd_db_nba_showdown_selections))
dk_nhl_showdown_db_translation = dict(zip(showdown_selections, dk_db_nhl_showdown_selections))
fd_nhl_showdown_db_translation = dict(zip(showdown_selections, fd_db_nhl_showdown_selections))
dk_mma_showdown_db_translation = dict(zip(showdown_selections, dk_db_mma_showdown_selections))
fd_mma_showdown_db_translation = dict(zip(showdown_selections, fd_db_mma_showdown_selections))
dk_pga_showdown_db_translation = dict(zip(showdown_selections, dk_db_pga_showdown_selections))
fd_pga_showdown_db_translation = dict(zip(showdown_selections, fd_db_pga_showdown_selections))

freq_format = {'Finish_percentile': '{:.2%}', 'Lineup Edge': '{:.2%}', 'Lineup Edge_Raw': '{:.2%}', 'Win%': '{:.2%}'}
stacking_sports = ['MLB', 'NHL', 'NFL', 'LOL', 'NCAAF']
stack_column_dict = {
    'Draftkings': {
        'Classic': {
            'MLB': ['C', '1B', '2B', '3B', 'SS', 'OF1', 'OF2', 'OF3'],
            'NHL': ['C1', 'C2', 'W1', 'W2', 'W3', 'D1', 'D2', 'G', 'UTIL'],
            'NFL': ['QB', 'RB1', 'RB2', 'WR1', 'WR2', 'WR3', 'TE', 'FLEX'],
            'LOL': ['TOP', 'JNG', 'MID', 'ADC', 'SUP', 'TEAM'],
            'NCAAF': ['QB', 'WR1', 'WR2', 'WR3', 'FLEX', 'SFLEX'],
            'MMA': ['FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'FLEX6'],
        },
        'Showdown': {
            'MLB': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NHL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NFL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'LOL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NCAAF': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
        },
    },
    'Fanduel': {
        'Classic': {
            'MLB': ['C/1B', '2B', '3B', 'SS', 'OF1', 'OF2', 'OF3', 'UTIL'],
            'NHL': ['C1', 'C2', 'W1', 'W2', 'D1', 'D2', 'UTIL1', 'UTIL2', 'G'],
            'NFL': ['QB', 'RB1', 'RB2', 'WR1', 'WR2', 'WR3', 'TE', 'FLEX'],
            'LOL': ['TOP', 'JNG', 'MID', 'ADC', 'SUP', 'TEAM'],
            'NCAAF': ['QB', 'WR1', 'WR2', 'WR3', 'SFLEX'],
            'MMA': ['FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5', 'FLEX6'],
        },
        'Showdown': {
            'MLB': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NHL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NFL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'LOL': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
            'NCAAF': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'FLEX5'],
        },
    },
}

sport_position_lists = {
    'Draftkings': {
        'MLB': ['P', 'C', '1B', '2B', '3B', 'SS', 'OF'],
        'NHL': ['C', 'W', 'D', 'G'],
        'NFL': ['QB', 'RB', 'WR', 'TE'],
        'LOL': ['TOP', 'JNG', 'MID', 'ADC', 'SUP', 'TEAM'],
        'COD': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'TEAM'],
        'NCAAF': ['QB', 'WR', 'RB'],
        'MMA': ['FLEX'],
        'GOLF': ['FLEX'],
        'TENNIS': ['FLEX'],
        'WNBA': ['G', 'F'],
        'NBA': ['PG', 'SG', 'SF', 'PF', 'C'],
        'NASCAR': ['FLEX'],
        'F1': ['DRIVER', 'CONST'],
        'SOC': ['F', 'M', 'D', 'GK'],
    },
    'Fanduel': {
        'MLB': ['P', 'C', '1B', '2B', '3B', 'SS', 'OF'],
        'NHL': ['C', 'W', 'D', 'G'],
        'NFL': ['QB', 'RB', 'WR', 'TE'],
        'LOL': ['TOP', 'JNG', 'MID', 'ADC', 'SUP', 'TEAM'],
        'COD': ['CPT', 'FLEX1', 'FLEX2', 'FLEX3', 'FLEX4', 'TEAM'],
        'NCAAF': ['QB', 'WR', 'RB'],
        'MMA': ['FLEX'],
        'GOLF': ['FLEX'],
        'TENNIS': ['FLEX'],
        'WNBA': ['G', 'F'],
        'NBA': ['PG', 'SG', 'SF', 'PF', 'C'],
        'NASCAR': ['FLEX'],
        'F1': ['DRIVER', 'CONST'],
        'SOC': ['F', 'M', 'D', 'GK'],
    },
}
player_wrong_names_mlb = ['Enrique Hernandez', 'Joseph Cantillo', 'Mike Soroka', 'Jakob Bauers', 'Temi Fágbénlé']
player_right_names_mlb = ['Kike Hernandez', 'Joey Cantillo', 'Michael Soroka', 'Jake Bauers', 'Temi Fagbenle']

st.markdown("""
<style>
    /* Tab styling */
    .stElementContainer [data-baseweb="button-group"] {
        gap: 2.000rem;
        padding: 4px;
    }
    .stElementContainer [kind="segmented_control"] {
        height: 2.000rem;
        white-space: pre-wrap;
        background-color: #DAA520;
        color: white;
        border-radius: 20px;
        gap: 1px;
        padding: 10px 20px;
        font-weight: bold;
        transition: all 0.3s ease;
    }
    .stElementContainer [kind="segmented_controlActive"] {
        height: 3.000rem;
        background-color: #DAA520;
        border: 3px solid #FFD700;
        border-radius: 10px;
        color: black;
    }
    .stElementContainer [kind="segmented_control"]:hover {
        background-color: #FFD700;
        cursor: pointer;
    }

    div[data-baseweb="select"] > div {
        background-color: #DAA520;
        color: white;
    }

</style>""", unsafe_allow_html=True)

def grab_nfl_reg_salaries(slate_var: str):
    collection = salaries_db["NFL_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_nfl_showdown_salaries():
    collection = salaries_db["NFL_showdown_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def grab_nba_reg_salaries(slate_var: str):
    collection = salaries_db["NBA_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_nba_showdown_salaries():
    collection = salaries_db["NBA_showdown_player_info"]
    # Get current time in Eastern Time (handles EST/EDT automatically)
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    print(f"Current date in Eastern Time: {today_str}")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def grab_mlb_reg_salaries(slate_var: str):
    collection = salaries_db["MLB_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_mlb_showdown_salaries():
    collection = salaries_db["MLB_showdown_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def grab_nhl_reg_salaries(slate_var: str):
    collection = salaries_db["NHL_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_nhl_showdown_salaries():
    collection = salaries_db["NHL_showdown_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def grab_mma_reg_salaries(slate_var: str):
    collection = salaries_db["MMA_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_mma_showdown_salaries():
    collection = salaries_db["MMA_showdown_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def grab_pga_reg_salaries(slate_var: str):
    collection = salaries_db["PGA_reg_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    if slate_var == 'Main':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='first')
    elif slate_var == 'Secondary':
        records = records.sort_values(by='ID', ascending=True)
        # Keep middle occurrence: drop first and last, keep middle
        grouped = records.groupby('Name')
        middle_records = []
        for name, group in grouped:
            if len(group) == 1:
                # Only one record, keep it
                middle_records.append(group)
            elif len(group) == 2:
                # Two records, keep the second one (last)
                middle_records.append(group.iloc[1:2])
            else:
                # Three or more records, keep the middle one(s)
                # For odd number of records, keep the true middle
                # For even number of records, keep the record at index len//2
                middle_idx = len(group) // 2
                middle_records.append(group.iloc[middle_idx:middle_idx+1])
        records = pd.concat(middle_records, ignore_index=True)
    elif slate_var == 'Auxiliary':
        records = records.sort_values(by='ID', ascending=True)
        records = records.drop_duplicates(subset=['Name'], keep='last')
    return records

def grab_pga_showdown_salaries():
    collection = salaries_db["PGA_showdown_player_info"]
    eastern = pytz.timezone('US/Eastern')
    today_str = datetime.now(eastern).strftime("%Y%m%d")
    records = pd.DataFrame(list(collection.find({'Contest Date': {'$gte': today_str}})))
    records = records[['Display Name', 'draftableId', 'Position', 'Salary']]
    records = records.rename(columns={'Display Name': 'Name', 'draftableId': 'ID', 'Position': 'Roster Position'})
    return records

def define_dk_nfl_showdown_slates():
    collection = nfl_db["DK_SD_NFL_ROO"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    unique_slates = raw_display['slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

def define_fd_nfl_showdown_slates():
    collection = nfl_db["FD_SD_NFL_ROO"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    unique_slates = raw_display['slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

try:
    nfl_slate_names_dk, nfl_slate_name_lookup_dk = define_dk_nfl_showdown_slates()
except:
    nfl_slate_names_dk = []
    nfl_slate_name_lookup_dk = {}
    
try:
    nfl_slate_names_fd, nfl_slate_name_lookup_fd = define_fd_nfl_showdown_slates()
except:
    nfl_slate_names_fd = []
    nfl_slate_name_lookup_fd = {}

def define_dk_nba_showdown_slates():
    collection = nba_db["Player_SD_Range_Of_Outcomes"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    raw_display = raw_display[raw_display['site'] == 'Draftkings']
    unique_slates = raw_display['slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

def define_fd_nba_showdown_slates():
    collection = nba_db["Player_SD_Range_Of_Outcomes"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    raw_display = raw_display[raw_display['site'] == 'Fanduel']
    unique_slates = raw_display['slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

try:
    nba_slate_names_dk, nba_slate_name_lookup_dk = define_dk_nba_showdown_slates()
except:
    nba_slate_names_dk = []
    nba_slate_name_lookup_dk = {}
    
try:
    nba_slate_names_fd, nba_slate_name_lookup_fd = define_fd_nba_showdown_slates()
except:
    nba_slate_names_fd = []
    nba_slate_name_lookup_fd = {}

def define_dk_nhl_showdown_slates():
    collection = nhl_db["Player_Level_SD_ROO"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    raw_display = raw_display[raw_display['Site'] == 'Draftkings']
    unique_slates = raw_display['Slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['Slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

def define_fd_nhl_showdown_slates():
    collection = nhl_db["Player_Level_SD_ROO"]
    cursor = collection.find()
    raw_display = pd.DataFrame(list(cursor))
    raw_display = raw_display[raw_display['Site'] == 'Fanduel']
    unique_slates = raw_display['Slate'].unique()

    slate_names = []

    for slate in unique_slates:
        slate_data = raw_display[raw_display['Slate'] == slate]
        slate_name = slate_data.iloc[0]['Team'] + ' vs. ' + slate_data.iloc[0]['Opp']
        slate_names.append(slate_name)
    
    slate_name_lookup = dict(zip(slate_names, unique_slates))
    return slate_names, slate_name_lookup

try:
    nhl_slate_names_dk, nhl_slate_name_lookup_dk = define_dk_nhl_showdown_slates()
except:
    nhl_slate_names_dk = []
    nhl_slate_name_lookup_dk = {}
    
try:
    nhl_slate_names_fd, nhl_slate_name_lookup_fd = define_fd_nhl_showdown_slates()
except:
    nhl_slate_names_fd = []
    nhl_slate_name_lookup_fd = {}

# Memory optimization helper functions
def chunk_name_matching(portfolio_names, csv_names, chunk_size=1000):
    """Process name matching in chunks to reduce memory usage"""
    portfolio_match_dict = {}
    unmatched_names = []
    
    for i in range(0, len(portfolio_names), chunk_size):
        chunk = portfolio_names[i:i+chunk_size]
        for portfolio_name in chunk:
            match = process.extractOne(
                portfolio_name,
                csv_names,
                score_cutoff=90
            )
            if match:
                portfolio_match_dict[portfolio_name] = match[0]
                if match[1] < 100:
                    st.write(f"{portfolio_name} matched from portfolio to site csv {match[0]} with a score of {match[1]}%")
            else:
                portfolio_match_dict[portfolio_name] = portfolio_name
                unmatched_names.append(portfolio_name)
    
    return portfolio_match_dict, unmatched_names

def optimize_dataframe_dtypes(df):
    """Optimize DataFrame data types for memory efficiency"""
    # For now, disable categorical conversion entirely to avoid issues with exposure_spread and other operations
    # This maintains compatibility while still providing other memory optimizations
    # Future enhancement: implement smarter categorical handling that preserves mutability
    
    # Only optimize numeric columns to more efficient dtypes
    for col in df.columns:
        if df[col].dtype == 'float64':
            # Convert float64 to float32 if possible without significant precision loss
            try:
                if df[col].max() < 3.4e+38 and df[col].min() > -3.4e+38:  # float32 range
                    df[col] = df[col].astype('float32')
            except:
                pass
        elif df[col].dtype == 'int64':
            # Convert int64 to smaller int types if possible
            try:
                if df[col].max() <= 32767 and df[col].min() >= -32768:
                    df[col] = df[col].astype('int16')
                elif df[col].max() <= 2147483647 and df[col].min() >= -2147483648:
                    df[col] = df[col].astype('int32')
            except:
                pass
    
    return df

def load_base_frame(base_name):
    """Load a base frame from compressed storage"""
    if base_name in st.session_state['base_frame_names']:
        base_bytes = st.session_state['base_frame_names'][base_name]
        return pd.read_parquet(io.BytesIO(base_bytes))
    else:
        raise KeyError(f"Base frame '{base_name}' not found")

def save_base_frame(base_name, dataframe):
    """Save a base frame to compressed storage"""
    buffer = io.BytesIO()
    dataframe.to_parquet(buffer, compression='gzip')
    st.session_state['base_frame_names'][base_name] = buffer.getvalue()

def create_memory_efficient_mappings(projections_df, site_var, type_var, sport_var):
    """Create mappings with optimized data types"""
    # Optimize projections data types first
    projections_df = projections_df.copy()
    
    # Convert to more efficient data types
    if 'position' in projections_df.columns:
        projections_df['position'] = projections_df['position'].astype('category')
    if 'team' in projections_df.columns:
        projections_df['team'] = projections_df['team'].astype('category')
    if 'salary' in projections_df.columns:
        projections_df['salary'] = projections_df['salary'].astype('int32')
    if 'median' in projections_df.columns:
        projections_df['median'] = projections_df['median'].astype('float32')
    if 'ownership' in projections_df.columns:
        projections_df['ownership'] = projections_df['ownership'].astype('float32')
    if 'captain ownership' in projections_df.columns:
        projections_df['captain ownership'] = projections_df['captain ownership'].astype('float32')
    
    # Create base mappings
    base_mappings = {
        'pos_map': dict(zip(projections_df['player_names'], projections_df['position'])),
        'team_map': dict(zip(projections_df['player_names'], projections_df['team'])),
        'salary_map': dict(zip(projections_df['player_names'], projections_df['salary'])),
        'proj_map': dict(zip(projections_df['player_names'], projections_df['median'])),
        'own_map': dict(zip(projections_df['player_names'], projections_df['ownership'])),
        'own_percent_rank': dict(zip(projections_df['player_names'], projections_df['ownership'].rank(pct=True).astype('float32')))
    }
    
    # Add site/type specific mappings
    if site_var == 'Draftkings':
        if type_var == 'Classic':
            if sport_var == 'CS2' or sport_var == 'LOL':
                base_mappings.update({
                    'cpt_salary_map': dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5)),
                    'cpt_proj_map': dict(zip(projections_df['player_names'], projections_df['median'] * 1.5)),
                    'cpt_own_map': dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                })
            else:
                base_mappings.update({
                    'cpt_salary_map': dict(zip(projections_df['player_names'], projections_df['salary'])),
                    'cpt_proj_map': dict(zip(projections_df['player_names'], projections_df['median'] * 1.5)),
                    'cpt_own_map': dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                })
        elif type_var == 'Showdown':
            if sport_var == 'GOLF':
                base_mappings.update({
                    'cpt_salary_map': dict(zip(projections_df['player_names'], projections_df['salary'])),
                    'cpt_proj_map': dict(zip(projections_df['player_names'], projections_df['median'])),
                    'cpt_own_map': dict(zip(projections_df['player_names'], projections_df['ownership']))
                })
            else:
                base_mappings.update({
                    'cpt_salary_map': dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5)),
                    'cpt_proj_map': dict(zip(projections_df['player_names'], projections_df['median'] * 1.5)),
                    'cpt_own_map': dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                })
    elif site_var == 'Fanduel':
        base_mappings.update({
            'cpt_salary_map': dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5)),
            'cpt_proj_map': dict(zip(projections_df['player_names'], projections_df['median'] * 1.5)),
            'cpt_own_map': dict(zip(projections_df['player_names'], projections_df['captain ownership']))
        })
    
    return base_mappings

def create_comprehensive_mappings(projections_df, portfolio_df, csv_file, site_var, type_var, sport_var):
    """Create mappings that include all portfolio players, using projections first and csv_file as fallback"""
    
    # Get all unique players from portfolio
    portfolio_players = get_portfolio_names(portfolio_df)
    
    # Optimize projections data types first (existing logic)
    projections_df = projections_df.copy()
    if 'position' in projections_df.columns:
        projections_df['position'] = projections_df['position'].astype('category')
    if 'team' in projections_df.columns:
        projections_df['team'] = projections_df['team'].astype('category')
    if 'salary' in projections_df.columns:
        projections_df['salary'] = projections_df['salary'].astype('int32')
    if 'median' in projections_df.columns:
        projections_df['median'] = projections_df['median'].astype('float32')
    if 'ownership' in projections_df.columns:
        projections_df['ownership'] = projections_df['ownership'].astype('float32')
    if 'captain ownership' in projections_df.columns:
        projections_df['captain ownership'] = projections_df['captain ownership'].astype('float32')
    
    # Create sets for efficient lookup
    projection_players = set(projections_df['player_names'].tolist())
    missing_players = set(portfolio_players) - projection_players
    
    # Prepare csv_file fallback data
    csv_fallback = {}
    if not missing_players:
        # No missing players, use existing logic
        return create_memory_efficient_mappings(projections_df, site_var, type_var, sport_var)
    
    # Create fallback mappings from csv_file for missing players
    try:
        csv_name_col = 'Name' if 'Name' in csv_file.columns else 'Nickname'
        csv_salary_col = 'Salary'
        csv_position_col = 'Position' if 'Position' in csv_file.columns else 'Roster Position'
        csv_team_col = 'Team' if 'Team' in csv_file.columns else None
        
        # Create efficient lookup dictionaries from csv_file
        csv_salary_map = dict(zip(csv_file[csv_name_col], csv_file[csv_salary_col]))
        csv_position_map = dict(zip(csv_file[csv_name_col], csv_file[csv_position_col]))
        csv_team_map = dict(zip(csv_file[csv_name_col], csv_file.get(csv_team_col, 'Unknown'))) if csv_team_col else {}
        
    except Exception as e:
        st.warning(f"Could not create csv fallback mappings: {e}")
        # Fall back to original function if csv_file structure is unexpected
        return create_memory_efficient_mappings(projections_df, site_var, type_var, sport_var)
    
    # Start with projections-based mappings
    base_mappings = {
        'pos_map': dict(zip(projections_df['player_names'], projections_df['position'])),
        'team_map': dict(zip(projections_df['player_names'], projections_df['team'])),
        'salary_map': dict(zip(projections_df['player_names'], projections_df['salary'])),
        'proj_map': dict(zip(projections_df['player_names'], projections_df['median'])),
        'own_map': dict(zip(projections_df['player_names'], projections_df['ownership'])),
        'own_percent_rank': dict(zip(projections_df['player_names'], projections_df['ownership'].rank(pct=True).astype('float32')))
    }
    
    # Add missing players with csv_file data and 0 projections/ownership
    for player in missing_players:
        if player in csv_salary_map:
            base_mappings['pos_map'][player] = csv_position_map.get(player, 'FLEX')
            base_mappings['team_map'][player] = csv_team_map.get(player, 'Unknown') if csv_team_map else 'Unknown'
            base_mappings['salary_map'][player] = csv_salary_map[player]
            base_mappings['proj_map'][player] = 0.0  # No projection available
            base_mappings['own_map'][player] = 0.0   # No ownership available
            base_mappings['own_percent_rank'][player] = 0.0  # Lowest rank for missing players
        else:
            st.warning(f"Player '{player}' not found in projections or csv_file")
            # Add with default values to prevent KeyError
            base_mappings['pos_map'][player] = 'FLEX'
            base_mappings['team_map'][player] = 'Unknown'
            base_mappings['salary_map'][player] = 0
            base_mappings['proj_map'][player] = 0.0
            base_mappings['own_map'][player] = 0.0
            base_mappings['own_percent_rank'][player] = 0.0
    
    # Add site/type specific mappings (existing logic)
    if site_var == 'Draftkings':
        if type_var == 'Classic':
            if sport_var == 'CS2' or sport_var == 'LOL':
                cpt_salary_map = dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5))
                cpt_proj_map = dict(zip(projections_df['player_names'], projections_df['median'] * 1.5))
                cpt_own_map = dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                
                # Add missing players to captain mappings
                for player in missing_players:
                    if player in csv_salary_map:
                        cpt_salary_map[player] = csv_salary_map[player] * 1.5
                        cpt_proj_map[player] = 0.0  # No captain projection
                        cpt_own_map[player] = 0.0   # No captain ownership
                
                base_mappings.update({
                    'cpt_salary_map': cpt_salary_map,
                    'cpt_proj_map': cpt_proj_map,
                    'cpt_own_map': cpt_own_map
                })
            else:
                cpt_salary_map = dict(zip(projections_df['player_names'], projections_df['salary']))
                cpt_proj_map = dict(zip(projections_df['player_names'], projections_df['median'] * 1.5))
                cpt_own_map = dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                
                # Add missing players to captain mappings
                for player in missing_players:
                    if player in csv_salary_map:
                        cpt_salary_map[player] = csv_salary_map[player]
                        cpt_proj_map[player] = 0.0
                        cpt_own_map[player] = 0.0
                
                base_mappings.update({
                    'cpt_salary_map': cpt_salary_map,
                    'cpt_proj_map': cpt_proj_map,
                    'cpt_own_map': cpt_own_map
                })
        elif type_var == 'Showdown':
            if sport_var == 'GOLF':
                cpt_salary_map = dict(zip(projections_df['player_names'], projections_df['salary']))
                cpt_proj_map = dict(zip(projections_df['player_names'], projections_df['median']))
                cpt_own_map = dict(zip(projections_df['player_names'], projections_df['ownership']))
                
                # Add missing players
                for player in missing_players:
                    if player in csv_salary_map:
                        cpt_salary_map[player] = csv_salary_map[player]
                        cpt_proj_map[player] = 0.0
                        cpt_own_map[player] = 0.0
                
                base_mappings.update({
                    'cpt_salary_map': cpt_salary_map,
                    'cpt_proj_map': cpt_proj_map,
                    'cpt_own_map': cpt_own_map
                })
            else:
                cpt_salary_map = dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5))
                cpt_proj_map = dict(zip(projections_df['player_names'], projections_df['median'] * 1.5))
                cpt_own_map = dict(zip(projections_df['player_names'], projections_df['captain ownership']))
                
                # Add missing players
                for player in missing_players:
                    if player in csv_salary_map:
                        cpt_salary_map[player] = csv_salary_map[player] * 1.5
                        cpt_proj_map[player] = 0.0
                        cpt_own_map[player] = 0.0
                
                base_mappings.update({
                    'cpt_salary_map': cpt_salary_map,
                    'cpt_proj_map': cpt_proj_map,
                    'cpt_own_map': cpt_own_map
                })
    elif site_var == 'Fanduel':
        cpt_salary_map = dict(zip(projections_df['player_names'], projections_df['salary'] * 1.5))
        cpt_proj_map = dict(zip(projections_df['player_names'], projections_df['median'] * 1.5))
        cpt_own_map = dict(zip(projections_df['player_names'], projections_df['captain ownership']))
        
        # Add missing players
        for player in missing_players:
            if player in csv_salary_map:
                cpt_salary_map[player] = csv_salary_map[player] * 1.5
                cpt_proj_map[player] = 0.0
                cpt_own_map[player] = 0.0
        
        base_mappings.update({
            'cpt_salary_map': cpt_salary_map,
            'cpt_proj_map': cpt_proj_map,
            'cpt_own_map': cpt_own_map
        })
    
    return base_mappings

def calculate_salary_vectorized(df, player_columns, map_dict, type_var, sport_var):
    """Vectorized salary calculation to replace expensive apply operations"""
    def safe_map_and_fill(series, mapping, fill_value=0):
        """Safely map values and fill NaN, handling categorical columns"""
        mapped = series.map(mapping)
        if hasattr(series, 'cat'):
            # Handle categorical columns by converting to object first
            mapped = mapped.astype('object')
        return mapped.fillna(fill_value)
    
    if type_var == 'Classic' and (sport_var == 'CS2' or sport_var == 'LOL'):
        # Captain + flex calculations
        cpt_salaries = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_salary_map'])
        flex_salaries = sum(safe_map_and_fill(df.iloc[:, i], map_dict['salary_map']) for i in range(1, len(player_columns)))
        return cpt_salaries + flex_salaries
    elif type_var == 'Showdown':
        if sport_var == 'GOLF':
            return sum(safe_map_and_fill(df[col], map_dict['salary_map']) for col in player_columns)
        else:
            cpt_salaries = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_salary_map'])
            flex_salaries = sum(safe_map_and_fill(df.iloc[:, i], map_dict['salary_map']) for i in range(1, len(player_columns)))
            return cpt_salaries + flex_salaries
    else:
        # Classic non-CS2/LOL
        return sum(safe_map_and_fill(df[col], map_dict['salary_map']) for col in player_columns)

def calculate_median_vectorized(df, player_columns, map_dict, type_var, sport_var):
    """Vectorized median calculation to replace expensive apply operations"""
    def safe_map_and_fill(series, mapping, fill_value=0):
        """Safely map values and fill NaN, handling categorical columns"""
        mapped = series.map(mapping)
        if hasattr(series, 'cat'):
            # Handle categorical columns by converting to object first
            mapped = mapped.astype('object')
        return mapped.fillna(fill_value)
    
    if type_var == 'Classic' and (sport_var == 'CS2' or sport_var == 'LOL'):
        cpt_medians = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_proj_map'])
        flex_medians = sum(safe_map_and_fill(df.iloc[:, i], map_dict['proj_map']) for i in range(1, len(player_columns)))
        return cpt_medians + flex_medians
    elif type_var == 'Showdown':
        if sport_var == 'GOLF':
            return sum(safe_map_and_fill(df[col], map_dict['proj_map']) for col in player_columns)
        else:
            cpt_medians = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_proj_map'])
            flex_medians = sum(safe_map_and_fill(df.iloc[:, i], map_dict['proj_map']) for i in range(1, len(player_columns)))
            return cpt_medians + flex_medians
    else:
        return sum(safe_map_and_fill(df[col], map_dict['proj_map']) for col in player_columns)

def calculate_ownership_vectorized(df, player_columns, map_dict, type_var, sport_var):
    """Vectorized ownership calculation to replace expensive apply operations"""
    def safe_map_and_fill(series, mapping, fill_value=0):
        """Safely map values and fill NaN, handling categorical columns"""
        mapped = series.map(mapping)
        if hasattr(series, 'cat'):
            # Handle categorical columns by converting to object first
            mapped = mapped.astype('object')
        return mapped.fillna(fill_value)
    
    if type_var == 'Classic' and (sport_var == 'CS2' or sport_var == 'LOL'):
        cpt_own = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_own_map'])
        flex_own = sum(safe_map_and_fill(df.iloc[:, i], map_dict['own_map']) for i in range(1, len(player_columns)))
        return cpt_own + flex_own
    elif type_var == 'Showdown':
        if sport_var == 'GOLF':
            return sum(safe_map_and_fill(df[col], map_dict['own_map']) for col in player_columns)
        else:
            cpt_own = safe_map_and_fill(df.iloc[:, 0], map_dict['cpt_own_map'])
            flex_own = sum(safe_map_and_fill(df.iloc[:, i], map_dict['own_map']) for i in range(1, len(player_columns)))
            return cpt_own + flex_own
    else:
        return sum(safe_map_and_fill(df[col], map_dict['own_map']) for col in player_columns)

def calculate_lineup_metrics(df, player_columns, map_dict, type_var, sport_var, projections_df=None):
    """Centralized function to calculate salary, median, and ownership efficiently"""
    df = df.copy()  # Work on a copy to avoid modifying original
    
    # Ensure player columns are object type to avoid categorical issues with exposure_spread
    for col in player_columns:
        if df[col].dtype.name == 'category':
            df[col] = df[col].astype('object')
    
    # Vectorized calculations
    df['salary'] = calculate_salary_vectorized(df[player_columns], player_columns, map_dict, type_var, sport_var)
    df['median'] = calculate_median_vectorized(df[player_columns], player_columns, map_dict, type_var, sport_var)
    df['Own'] = calculate_ownership_vectorized(df[player_columns], player_columns, map_dict, type_var, sport_var)
    
    return df

def create_team_filter_mask(df, player_columns, team_map, teams_to_filter, focus_type='Overall', type_var='Classic'):
    """Create boolean mask for team filtering without creating intermediate DataFrames"""
    mask = pd.Series(False, index=df.index)
    
    if type_var == 'Showdown' and focus_type != 'Overall':
        if focus_type == 'CPT':
            focus_columns = [player_columns[0]]  # First column only
        elif focus_type == 'FLEX':
            focus_columns = player_columns[1:]  # All except first
        else:
            focus_columns = player_columns
    else:
        # For Classic or Overall focus, use appropriate columns
        if type_var == 'Classic':
            focus_columns = [col for col in player_columns if col not in ['SP1', 'SP2']]  # Exclude pitchers
        else:
            focus_columns = player_columns
    
    for team in teams_to_filter:
        for col in focus_columns:
            team_mask = df[col].map(team_map) == team
            mask |= team_mask
    
    return mask

def prepare_dataframe_for_exposure_spread(df, player_columns):
    """Ensure DataFrame is ready for exposure_spread by converting player columns to object type"""
    df_prepared = df.copy()
    
    # Convert any categorical player columns back to object type
    for col in player_columns:
        if col in df_prepared.columns and df_prepared[col].dtype.name == 'category':
            df_prepared[col] = df_prepared[col].astype('object')
    
    return df_prepared

def create_position_export_dict(column_name, csv_file, site_var, type_var, sport_var):
    try:
        # Remove any numbers from the column name to get the position
        import re
        position_filter = re.sub(r'\d+$', '', column_name)

        # Filter CSV file by position
        if 'Position' in csv_file.columns:
            if type_var == 'Showdown':
                filtered_df = csv_file.copy()
            else:
                if position_filter == 'SP':
                    filtered_df = csv_file[
                        csv_file['Roster Position'] == 'P'
                    ]
                elif position_filter == 'CPT':
                    filtered_df = csv_file.copy()
                elif position_filter == 'FLEX' or position_filter == 'UTIL':
                    if sport_var == 'NFL':
                        filtered_df = csv_file[csv_file['Position'].isin(['RB', 'WR', 'TE'])]
                    elif sport_var == 'SOC':
                        filtered_df = csv_file[csv_file['Position'].str.contains('D|M|F', na=False, regex=True)]
                    elif sport_var == 'NCAAF':
                        filtered_df = csv_file[csv_file['Position'].str.contains('RB|WR', na=False, regex=True)]
                    elif sport_var == 'NHL':
                        filtered_df = csv_file[csv_file['Position'].str.contains('C|W|D', na=False, regex=True)]
                    else:
                        filtered_df = csv_file.copy()
                elif position_filter == 'SFLEX':
                    filtered_df = csv_file.copy()
                elif position_filter == 'C/1B':
                    filtered_df = csv_file[
                        csv_file['Position'].str.contains(['C', '1B'], na=False, regex=False)
                    ]
                else:
                    filtered_df = csv_file[
                        csv_file['Position'].str.contains(position_filter, na=False, regex=False)
                    ]
        else:
            # Fallback to all players if no position column found
            filtered_df = csv_file
        
        # Create the export dictionary for this position
        if site_var == 'Draftkings':
            try:
                filtered_df = filtered_df.sort_values(by='Salary', ascending=False).drop_duplicates(subset=['Name'])
                return dict(zip(filtered_df['Name'], filtered_df['Name + ID']))
            except:
                filtered_df = filtered_df.sort_values(by='Salary', ascending=False).drop_duplicates(subset=['Nickname'])
                return dict(zip(filtered_df['Nickname'], filtered_df['Name + ID']))
        else:
            try:
                filtered_df = filtered_df.sort_values(by='Salary', ascending=False).drop_duplicates(subset=['Nickname'])
                return dict(zip(filtered_df['Nickname'], filtered_df['Id']))
            except:
                filtered_df = filtered_df.sort_values(by='Salary', ascending=False).drop_duplicates(subset=['Name'])
                return dict(zip(filtered_df['Name'], filtered_df['Id']))
                
    except Exception as e:
        st.error(f"Error creating position export dict for {column_name}: {str(e)}")
        return {}

def parse_portfolio_on_mapped(portfolio, map_dict, map_key, filter_keys_pos, filter_keys_team, low_threshold, high_threshold, column_choices):
    mapping_port = portfolio[column_choices]
    mapping_port = mapping_port.map(map_dict[map_key])
    if column_choices == 'CPT':
        mapping_port = mapping_port * 1.5
    
    if map_key not in ['team_map', 'pos_map']:
        # Numerical mapping - filter by thresholds
        low_mask = mapping_port > low_threshold
        high_mask = mapping_port < high_threshold
        mask = low_mask & high_mask
    else:
        pos_mask = False
        team_mask = False
        
        if filter_keys_pos:
            # Create a regex pattern that matches any of the selected positions
            pos_pattern = '|'.join([f'\\b{pos}\\b' for pos in filter_keys_pos])
            pos_mask = mapping_port.str.contains(pos_pattern, case=False, na=False, regex=True)
        
        if filter_keys_team:
            team_mask = mapping_port.isin(filter_keys_team)
        
        mask = pos_mask | team_mask
    
    return portfolio[mask]

def recalc_stacks_sizes(df, player_columns, map_dict):
    team_map = map_dict['team_map']  # Use this directly (player_name -> team)
    df['Stack'] = df.apply(
        lambda row: Counter(
            team_map.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
            if team_map.get(player, '') != ''
        ).most_common(1)[0][0] if any(team_map.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
        axis=1
    )
    df['Size'] = df.apply(
        lambda row: Counter(
            team_map.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
            if team_map.get(player, '') != ''
        ).most_common(1)[0][1] if any(team_map.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
        axis=1
    )
    return df

with st.container():
    
    col1, col2, col3, col4 = st.columns([1, 4, 4, 4])
    with col1:
        if st.button('Clear data', key='reset3'):
            st.session_state.clear()
            st.session_state['pricing_loaded'] = False
            st.session_state['projections_loaded'] = False
            st.session_state['portfolio_loaded'] = False
    with col2:
        site_var = st.selectbox("Select Site", ['Draftkings', 'Fanduel'])

    with col3:
        sport_var = st.selectbox("Select Sport", ['NFL', 'MLB', 'NBA', 'NHL', 'NCAAF', 'MMA', 'CS2', 'LOL', 'COD', 'TENNIS', 'NASCAR', 'GOLF', 'WNBA', 'F1'], key='sport_var')
        
    with col4:
        type_var = st.selectbox("Select Game Type", ['Classic', 'Showdown'])
    
    if sport_var == 'GOLF':
        position_var = 'G'
        team_var = 'GOLF'
    elif sport_var == 'TENNIS':
        position_var = 'T'
        team_var = 'TENNIS'
    elif sport_var == 'MMA':
        position_var = 'F'
        team_var = 'MMA'
    elif sport_var == 'NASCAR':
        position_var = 'D'
        team_var = 'NASCAR'
    elif sport_var == 'F1':
        position_var = 'D'
        team_var = 'F1'
    else:
        position_var = None
        team_var = None

    if site_var == 'Draftkings':
        salary_max = 50000
    elif site_var == 'Fanduel':
        if type_var == 'Classic':
            if sport_var == 'MLB':
                salary_max = 40000
            elif sport_var == 'WNBA':
                salary_max = 40000
            elif sport_var == 'GOLF':
                salary_max = 60000
            elif sport_var == 'MMA':
                salary_max = 100
            elif sport_var == 'NFL':
                salary_max = 60000
            elif sport_var == 'NASCAR':
                salary_max = 50000
            else:
                salary_max = 60000
        elif type_var == 'Showdown':
            salary_max = 60000

    with st.expander("Info and Filters"):
        prio_col, optimals_site_col, optimals_salary_col, optimals_stacks_col = st.columns(4)

        with prio_col:
            prio_var = st.radio("Which priority variable do you want to use?", ('proj', 'Own', 'Mix'), key='prio_var_radio')
            prio_mix = st.number_input("If Mix, what split of Projection/Ownership to dedicate to Projection?", min_value=0, max_value=100, value=50, step=1)
            lineup_num_var = st.number_input("How many lineups do you want to work with?", min_value=100, max_value=10000, value=1000, step=100, key='lineup_download_var_input')

        with optimals_site_col:
            if site_var == 'Draftkings':
                if sport_var == 'NBA':
                    slate_var3 = st.radio("Which slate data are you loading?", (nba_slate_names_dk if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'NFL':
                    slate_var3 = st.radio("Which slate data are you loading?", (nfl_slate_names_dk if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'NHL':
                    slate_var3 = st.radio("Which slate data are you loading?", (nhl_slate_names_dk if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'MMA':
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'GOLF':
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                else:
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
            elif site_var == 'Fanduel':
                if sport_var == 'NBA':
                    slate_var3 = st.radio("Which slate data are you loading?", (nba_slate_names_fd if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'NFL':
                    slate_var3 = st.radio("Which slate data are you loading?", (nfl_slate_names_fd if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'NHL':
                    slate_var3 = st.radio("Which slate data are you loading?", (nhl_slate_names_fd if type_var == 'Showdown' else ['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'MMA':
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                elif sport_var == 'GOLF':
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')
                else:
                    slate_var3 = st.radio("Which slate data are you loading?", (['Main', 'Secondary', 'Auxiliary']), key='slate_var3_radio')

        with optimals_salary_col:
            if site_var == 'Draftkings':
                salary_min_var = st.number_input("Minimum salary used", min_value = 0, max_value = 50000, value = 49000, step = 100, key = 'salary_min_var_dk')
                salary_max_var = st.number_input("Maximum salary used", min_value = 0, max_value = 50000, value = 50000, step = 100, key = 'salary_max_var_dk')
            elif site_var == 'Fanduel':
                if sport_var == 'NHL':
                    salary_min_var = st.number_input("Minimum salary used", min_value = 0, max_value = 55000, value = 54000, step = 100, key = 'salary_min_var_fd')
                    salary_max_var = st.number_input("Maximum salary used", min_value = 0, max_value = 55000, value = 55000, step = 100, key = 'salary_max_var_fd')
                else:
                    salary_min_var = st.number_input("Minimum salary used", min_value = 0, max_value = 60000, value = 59000, step = 100, key = 'salary_min_var_fd')
                    salary_max_var = st.number_input("Maximum salary used", min_value = 0, max_value = 60000, value = 60000, step = 100, key = 'salary_max_var_fd')
        with optimals_stacks_col:
            if site_var == 'Draftkings':
                min_stacks_var = st.number_input("Minimum stacks used", min_value = 0, max_value = 5, value = 1, step = 1, key = 'min_stacks_var_dk')
                max_stacks_var = st.number_input("Maximum stacks used", min_value = 0, max_value = 5, value = 5, step = 1, key = 'max_stacks_var_dk')
            elif site_var == 'Fanduel':
                min_stacks_var = st.number_input("Minimum stacks used", min_value = 0, max_value = 4, value = 1, step = 1, key = 'min_stacks_var_fd')
                max_stacks_var = st.number_input("Maximum stacks used", min_value = 0, max_value = 4, value = 4, step = 1, key = 'max_stacks_var_fd')

    try:
        nfl_reg_salaries = grab_nfl_reg_salaries(slate_var3)
    except:
        nfl_reg_salaries = None
    try:
        nfl_showdown_salaries = grab_nfl_showdown_salaries()
    except:
        nfl_showdown_salaries = None
    try:
        nba_reg_salaries = grab_nba_reg_salaries(slate_var3)
    except:
        nba_reg_salaries = None
    try:
        nba_showdown_salaries = grab_nba_showdown_salaries()
    except:
        nba_showdown_salaries = None
    try:
        nhl_reg_salaries = grab_nhl_reg_salaries(slate_var3)
    except:
        nhl_reg_salaries = None
    try:
        nhl_showdown_salaries = grab_nhl_showdown_salaries()
    except:
        nhl_showdown_salaries = None
    try:
        mma_reg_salaries = grab_mma_reg_salaries(slate_var3)
    except:
        mma_reg_salaries = None
    try:
        mma_showdown_salaries = grab_mma_showdown_salaries()
    except:
        mma_showdown_salaries = None
    try:
        pga_reg_salaries = grab_pga_reg_salaries(slate_var3)
    except:
        pga_reg_salaries = None
    try:
        pga_showdown_salaries = grab_pga_showdown_salaries()
    except:
        pga_showdown_salaries = None

try:
    selected_tab = st.segmented_control(
    "Select Tab",
    options=["Data Load", "Projections Management", "Manage Portfolio"],
    selection_mode='single',
    default='Data Load',
    label_visibility='collapsed',
    width='stretch',
    key='tab_selector'
    )
except:
    selected_tab = st.segmented_control(
    "Select Tab",
    options=["Data Load", "Projections Management", "Manage Portfolio"],
    selection_mode='single',
    default='Data Load',
    label_visibility='collapsed',
    key='tab_selector'
    )

if selected_tab == 'Data Load':
    col1, col2, col3 = st.columns(3)

    with col1:
        st.subheader("Draftkings/Fanduel CSV")
        with st.expander('Upload Info'):
            st.info("Upload the player pricing CSV from the site you are playing on")
            st.warning("Database load is active and in testing for Draftkings, not for Fanduel")

        pricing_source = st.selectbox("Select a pricing source", options=['Paydirt DB', 'User Upload'])
        if 'csv_file' not in st.session_state:
            st.session_state['pricing_loaded'] = False

        upload_csv_col, csv_template_col = st.columns([3, 1])
        if pricing_source == 'Paydirt DB':
            if st.button("Load from Paydirt DB"):
                if 'csv_file' in st.session_state:
                    del st.session_state['csv_file']
                if sport_var == 'NBA':
                    if type_var == 'Classic':
                        st.session_state['csv_file'] = load_csv(nba_reg_salaries)
                    elif type_var == 'Showdown':
                        st.session_state['csv_file'] = load_csv(nba_showdown_salaries)
                elif sport_var == 'NFL':
                    if type_var == 'Classic':
                        st.session_state['csv_file'] = load_csv(nfl_reg_salaries)
                    elif type_var == 'Showdown':
                        st.session_state['csv_file'] = load_csv(nfl_showdown_salaries)
                elif sport_var == 'NHL':
                    if type_var == 'Classic':
                        st.session_state['csv_file'] = load_csv(nhl_reg_salaries)
                    elif type_var == 'Showdown':
                        st.session_state['csv_file'] = load_csv(nhl_showdown_salaries)
                elif sport_var == 'MMA':
                    if type_var == 'Classic':
                        st.session_state['csv_file'] = load_csv(mma_reg_salaries)
                    elif type_var == 'Showdown':
                        st.session_state['csv_file'] = load_csv(mma_showdown_salaries)
                elif sport_var == 'GOLF':
                    if type_var == 'Classic':
                        st.session_state['csv_file'] = load_csv(pga_reg_salaries)
                    elif type_var == 'Showdown':
                        st.session_state['csv_file'] = load_csv(pga_showdown_salaries)
                st.session_state['pricing_loaded'] = True
                
            try:
                st.session_state['csv_file']['Salary'] = st.session_state['csv_file']['Salary'].astype(str).str.replace(',', '').astype(int)
            except:
                pass
        else:
            with upload_csv_col:
                csv_file = st.file_uploader("Upload CSV File", type=['csv'])
                if 'csv_file' in st.session_state:
                    del st.session_state['csv_file']
            with csv_template_col:
                if site_var == 'Draftkings':
                    csv_template_df = pd.DataFrame(columns=['Name', 'ID', 'Roster Position', 'Salary'])
                else:
                    csv_template_df = pd.DataFrame(columns=['Nickname', 'Id', 'Roster Position', 'Salary'])

                st.download_button(
                    label="CSV Template",
                    data=csv_template_df.to_csv(index=False),
                    file_name="csv_template.csv",
                    mime="text/csv"
                )
            st.session_state['csv_file'] = load_csv(csv_file)
            if csv_file is not None:
                st.session_state['pricing_loaded'] = True
            try:
                st.session_state['csv_file']['Salary'] = st.session_state['csv_file']['Salary'].astype(str).str.replace(',', '').astype(int)
            except:
                pass
            
        if st.session_state['pricing_loaded']:
            if type_var == 'Showdown':
                st.session_state['csv_file']['Position'] = 'FLEX'
            else:
                if sport_var == 'GOLF':
                    st.session_state['csv_file']['Position'] = 'FLEX'
                    st.session_state['csv_file']['Team'] = 'GOLF'
                elif sport_var == 'TENNIS':
                    st.session_state['csv_file']['Position'] = 'FLEX'
                    st.session_state['csv_file']['Team'] = 'TENNIS'
                elif sport_var == 'MMA':
                    st.session_state['csv_file']['Position'] = 'FLEX'
                    st.session_state['csv_file']['Team'] = 'MMA'
                elif sport_var == 'NASCAR':
                    st.session_state['csv_file']['Position'] = 'FLEX'
                    st.session_state['csv_file']['Team'] = 'NASCAR'
            if site_var == 'Fanduel':
                try:
                    st.session_state['csv_file']['Position'] = st.session_state['csv_file']['Position'].replace('D', 'DST', regex=False)
                except:
                    pass
            if st.session_state['csv_file'] is not None:
                st.success('Projections file loaded successfully!')
                st.dataframe(st.session_state['csv_file'].head(10))
        
    with col2:
        st.subheader("Portfolio File")
        with st.expander('Upload Info'):
            st.info("Go ahead and upload a portfolio file here. Only include player columns.")
            st.warning("Database load is active and in testing for NBA, NFL, NHL, MMA, and PGA, both Classic and Regular")

        upload_toggle = st.selectbox("What source are you uploading from?", options=['Paydirt DB', 'SaberSim (Just IDs)', 'Draftkings/Fanduel (Names + IDs)', 'Other (Just Names)'])
        if 'portfolio' not in st.session_state:
            st.session_state['portfolio_loaded'] = False
        if upload_toggle == 'Paydirt DB':
            if st.button("Load from Database after inserting site CSV"):
                if site_var == 'Draftkings':
                    if type_var != 'Showdown':
                        if sport_var == 'NBA':
                            portfolio_load = init_DK_NBA_lineups(type_var, slate_var3, prio_var, 50, dk_nba_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NFL':
                            portfolio_load = init_DK_NFL_lineups(type_var, slate_var3, prio_var, 50, dk_nfl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NHL':
                            portfolio_load = init_DK_NHL_lineups(type_var, slate_var3, prio_var, 50, dk_nhl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'MMA':
                            portfolio_load = init_DK_MMA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'GOLF':
                            portfolio_load = init_DK_PGA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                    else:
                        if sport_var == 'NBA':
                            portfolio_load = init_DK_NBA_lineups(type_var, nba_slate_name_lookup_dk[slate_var3], prio_var, 50, dk_nba_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NFL':
                            portfolio_load = init_DK_NFL_lineups(type_var, nfl_slate_name_lookup_dk[slate_var3], prio_var, 50, dk_nfl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NHL':
                            portfolio_load = init_DK_NHL_lineups(type_var, nhl_slate_name_lookup_dk[slate_var3], prio_var, 50, dk_nhl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'MMA':
                            portfolio_load = init_DK_MMA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'GOLF':
                            portfolio_load = init_DK_PGA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])

                    st.session_state['db_portfolio_file'] = pd.DataFrame(portfolio_load)
                    st.session_state['portfolio_loaded'] = True
                    if 'portfolio' in st.session_state:
                        del st.session_state['portfolio']
                    if 'export_portfolio' in st.session_state:
                        del st.session_state['export_portfolio']
                else:
                    if type_var != 'Showdown':
                        if sport_var == 'NBA':
                            portfolio_load = init_FD_NBA_lineups(type_var, slate_var3, prio_var, 50, fd_nba_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NFL':
                            portfolio_load = init_FD_NFL_lineups(type_var, slate_var3, prio_var, 50, fd_nfl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NHL':
                            portfolio_load = init_FD_NHL_lineups(type_var, slate_var3, prio_var, 50, fd_nhl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'MMA':
                            portfolio_load = init_FD_MMA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'GOLF':
                            portfolio_load = init_FD_PGA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                    else:
                        if sport_var == 'NBA':
                            portfolio_load = init_FD_NBA_lineups(type_var, nba_slate_name_lookup_fd[slate_var3], prio_var, 50, fd_nba_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NFL':
                            portfolio_load = init_FD_NFL_lineups(type_var, nfl_slate_name_lookup_fd[slate_var3], prio_var, 50, fd_nfl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'NHL':
                            portfolio_load = init_FD_NHL_lineups(type_var, nhl_slate_name_lookup_fd[slate_var3], prio_var, 50, fd_nhl_showdown_db_translation, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'MMA':
                            portfolio_load = init_FD_MMA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])
                        elif sport_var == 'GOLF':
                            portfolio_load = init_FD_PGA_lineups(type_var, slate_var3, prio_var, 50, lineup_num_var, salary_min_var, salary_max_var, [])

                    st.session_state['db_portfolio_file'] = pd.DataFrame(portfolio_load)
                    st.session_state['portfolio_loaded'] = True
                    if 'portfolio' in st.session_state:
                        del st.session_state['portfolio']
                    if 'export_portfolio' in st.session_state:
                        del st.session_state['export_portfolio']

            elif 'db_portfolio_file' in st.session_state:
                st.session_state['portfolio_loaded'] = True

        elif upload_toggle == 'SaberSim (Just IDs)' or upload_toggle == 'Draftkings/Fanduel (Names + IDs)':
            portfolio_file = st.file_uploader("Upload Portfolio File (CSV or Excel)", type=['csv', 'xlsx', 'xls'])
            st.session_state['portfolio_loaded'] = True
            if 'portfolio' in st.session_state:
                del st.session_state['portfolio']
            if 'export_portfolio' in st.session_state:
                del st.session_state['export_portfolio']

        else:
            portfolio_file = st.file_uploader("Upload Portfolio File (CSV or Excel)", type=['csv', 'xlsx', 'xls'])
            st.session_state['portfolio_loaded'] = True
            if 'portfolio' in st.session_state:
                del st.session_state['portfolio']
            if 'export_portfolio' in st.session_state:
                del st.session_state['export_portfolio']

        if 'portfolio' not in st.session_state:
            if st.session_state['portfolio_loaded']:
                
                if upload_toggle == 'Paydirt DB':
                    portfolio_file = st.session_state['db_portfolio_file']
                    st.session_state['export_portfolio'], st.session_state['portfolio'] = load_file(portfolio_file, site_var, type_var, sport_var, 'portfolio')
                    st.session_state['export_portfolio'] = st.session_state['export_portfolio'].dropna(how='all')
                    st.session_state['export_portfolio'] = st.session_state['export_portfolio'].reset_index(drop=True)

                    st.session_state['portfolio'] = st.session_state['portfolio'].dropna(how='all')
                    st.session_state['portfolio'] = st.session_state['portfolio'].reset_index(drop=True)
                
                elif upload_toggle == 'SaberSim (Just IDs)':
                    if portfolio_file is not None:
                        st.session_state['export_portfolio'], st.session_state['portfolio'] = load_ss_file(portfolio_file, st.session_state['csv_file'], site_var, type_var, sport_var)
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].dropna(how='all')
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].reset_index(drop=True)

                        st.session_state['portfolio'] = st.session_state['portfolio'].dropna(how='all')
                        st.session_state['portfolio'] = st.session_state['portfolio'].reset_index(drop=True)

                elif upload_toggle == 'Draftkings/Fanduel (Names + IDs)':
                    if portfolio_file is not None:
                        st.session_state['export_portfolio'], st.session_state['portfolio'] = load_dk_fd_file(portfolio_file, st.session_state['csv_file'], site_var, type_var, sport_var)
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].dropna(how='all')
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].reset_index(drop=True)

                        st.session_state['portfolio'] = st.session_state['portfolio'].dropna(how='all')
                        st.session_state['portfolio'] = st.session_state['portfolio'].reset_index(drop=True)

                else:
                    if portfolio_file is not None:
                        st.session_state['export_portfolio'], st.session_state['portfolio'] = load_file(portfolio_file, site_var, type_var, sport_var, 'portfolio')
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].dropna(how='all')
                        st.session_state['export_portfolio'] = st.session_state['export_portfolio'].reset_index(drop=True)

                        st.session_state['portfolio'] = st.session_state['portfolio'].dropna(how='all')
                        st.session_state['portfolio'] = st.session_state['portfolio'].reset_index(drop=True)

                if st.session_state['portfolio'] is not None:

                    # Optimize data types early for memory efficiency
                    st.session_state['portfolio'] = optimize_dataframe_dtypes(st.session_state['portfolio'])
                    
                    st.success('Portfolio file loaded successfully!')
                    for col in st.session_state['portfolio'].select_dtypes(include=['object', 'category']).columns:
                        if st.session_state['portfolio'][col].dtype == 'category':
                            # Handle categorical columns
                            st.session_state['portfolio'][col] = st.session_state['portfolio'][col].cat.rename_categories(
                                lambda x: player_right_names_mlb.get(x, x) if x in player_wrong_names_mlb else x
                            )
                        else:
                            # Handle object columns
                            st.session_state['portfolio'][col] = st.session_state['portfolio'][col].replace(player_wrong_names_mlb)
                    st.dataframe(st.session_state['portfolio'].head(10))

    with col3:
        st.subheader("Projections File")
        with st.expander('Upload Info'):
            st.info("upload a projections file that has 'player_names', 'salary', 'median', 'ownership', and 'captain ownership' columns. Note that the salary for showdown needs to be the FLEX salary, not the captain salary.")
            st.warning("Database load is active and in testing for NBA, NFL, NHL, MMA, and PGA, both Classic and Regular")
        proj_options = st.selectbox("Select a projections source", options=['Paydirt DB', 'User Upload'])
        
        upload_col, template_col = st.columns([3, 1])
        
        with upload_col:
            if 'portfolio' not in st.session_state:
                st.session_state['projections_loaded'] = False
            if proj_options == 'User Upload':
                projections_file = st.file_uploader("Upload Projections File (CSV or Excel)", type=['csv', 'xlsx', 'xls'])
                st.session_state['db_projections_file'] = projections_file
                st.session_state['projections_loaded'] = True
            elif proj_options == 'Paydirt DB':
                if st.button("Load from Database"):
                    if sport_var == 'NBA':
                        if site_var == 'Draftkings':
                            if type_var == 'Classic':
                                projections_file = init_nba_baselines(type_var, site_var, slate_var3)[0]
                            elif type_var == 'Showdown':
                                projections_file = init_nba_baselines(type_var, site_var, slate_var3)[2]
                        elif site_var == 'Fanduel':
                            if type_var == 'Classic':
                                projections_file = init_nba_baselines(type_var, site_var, slate_var3)[1]
                            elif type_var == 'Showdown':
                                projections_file = init_nba_baselines(type_var, site_var, slate_var3)[3]
                    elif sport_var == 'NFL':
                        if site_var == 'Draftkings':
                            if type_var == 'Classic':
                                projections_file = init_nfl_baselines(type_var, site_var, slate_var3)[0]
                            elif type_var == 'Showdown':
                                projections_file = init_nfl_baselines(type_var, site_var, slate_var3)[2]
                        elif site_var == 'Fanduel':
                            if type_var == 'Classic':
                                projections_file = init_nfl_baselines(type_var, site_var, slate_var3)[1]
                            elif type_var == 'Showdown':
                                projections_file = init_nfl_baselines(type_var, site_var, slate_var3)[3]
                    elif sport_var == 'NHL':
                        if site_var == 'Draftkings':
                            if type_var == 'Classic':
                                projections_file = init_nhl_baselines(type_var, site_var, slate_var3)[0]
                            elif type_var == 'Showdown':
                                projections_file = init_nhl_baselines(type_var, site_var, slate_var3)[2]
                        elif site_var == 'Fanduel':
                            if type_var == 'Classic':
                                projections_file = init_nhl_baselines(type_var, site_var, slate_var3)[1]
                            elif type_var == 'Showdown':
                                projections_file = init_nhl_baselines(type_var, site_var, slate_var3)[3]
                    elif sport_var == 'MMA':
                        if site_var == 'Draftkings':
                            if type_var == 'Classic':
                                projections_file = init_mma_baselines(type_var, site_var, slate_var3)[0]
                            elif type_var == 'Showdown':
                                projections_file = init_mma_baselines(type_var, site_var, slate_var3)[2]
                        elif site_var == 'Fanduel':
                            if type_var == 'Classic':
                                projections_file = init_mma_baselines(type_var, site_var, slate_var3)[1]
                            elif type_var == 'Showdown':
                                projections_file = init_mma_baselines(type_var, site_var, slate_var3)[3]
                    elif sport_var == 'GOLF':
                        if site_var == 'Draftkings':
                            if type_var == 'Classic':
                                projections_file = init_pga_baselines(type_var, site_var, slate_var3)[0]
                            elif type_var == 'Showdown':
                                projections_file = init_pga_baselines(type_var, site_var, slate_var3)[2]
                        elif site_var == 'Fanduel':
                            if type_var == 'Classic':
                                projections_file = init_pga_baselines(type_var, site_var, slate_var3)[1]
                            elif type_var == 'Showdown':
                                projections_file = init_pga_baselines(type_var, site_var, slate_var3)[3]
                    st.session_state['db_projections_file'] = projections_file
                    st.session_state['projections_loaded'] = True
            if 'projections_df' in st.session_state:
                del st.session_state['projections_df']
        
        with template_col:
            if proj_options == 'User Upload':
                template_df = pd.DataFrame(columns=['player_names', 'position', 'team', 'salary', 'median', 'ownership', 'captain ownership'])
                st.download_button(
                    label="Template",
                    data=template_df.to_csv(index=False),
                    file_name="projections_template.csv",
                    mime="text/csv"
                )
            
        if st.session_state['projections_loaded']:
            export_projections, projections = load_file(st.session_state['db_projections_file'], site_var, type_var, sport_var, 'projections')
            if projections is not None:
                st.success('Projections file loaded successfully!')
                
                try:
                    projections['salary'] = projections['salary'].str.replace(',', '').str.replace('$', '').str.replace(' ', '')
                    st.write('replaced salary symbols')
                except:
                    pass
                try:
                    projections['ownership'] = projections['ownership'].str.replace('%', '').str.replace(' ', '')
                    st.write('replaced ownership symbols')
                except:
                    pass
                
                projections['salary'] = projections['salary'].dropna().astype('int32')
                projections['ownership'] = projections['ownership'].astype('float32')
                
                if projections['captain ownership'].isna().all():
                    projections['CPT_Own_raw'] = (projections['ownership'] / 2) * ((100 - (100-projections['ownership']))/100)
                    cpt_own_var = 100 / projections['CPT_Own_raw'].sum()
                    projections['captain ownership'] = projections['CPT_Own_raw'] * cpt_own_var
                    projections = projections.drop(columns='CPT_Own_raw', axis=1)
                
                projections['captain ownership'] = projections['captain ownership'].astype('float32')
                projections['median'] = projections['median'].astype('float32')
                
                for col in projections.select_dtypes(include=['object']).columns:
                    projections[col] = projections[col].replace(player_wrong_names_mlb)
                
                if position_var is not None:
                    projections['position'] = position_var
                if team_var is not None:
                    projections['team'] = team_var

            st.dataframe(projections.head(10))

    if st.session_state['portfolio_loaded'] and st.session_state['projections_loaded']:
        if st.session_state['portfolio'] is not None and projections is not None:
        
            st.subheader("Name Matching Analysis")
            
            portfolio_names = get_portfolio_names(st.session_state['portfolio'])
            try:
                csv_names = st.session_state['csv_file']['Name'].tolist()
            except:
                csv_names = st.session_state['csv_file']['Nickname'].tolist()
            projection_names = projections['player_names'].tolist()
            
            portfolio_match_dict, unmatched_names = chunk_name_matching(portfolio_names, csv_names)
            
            player_columns = [col for col in st.session_state['portfolio'].columns 
                            if col not in ['salary', 'median', 'Own']]
            
            for col in player_columns:
                st.session_state['portfolio'][col] = st.session_state['portfolio'][col].map(lambda x: portfolio_match_dict.get(x, x))
            
            projections_match_dict, unmatched_proj_names = chunk_name_matching(projection_names, csv_names)
            
            projections['player_names'] = projections['player_names'].map(lambda x: projections_match_dict.get(x, x))
            st.session_state['projections_df'] = projections
            
            projections_names = st.session_state['projections_df']['player_names'].tolist()
            portfolio_names = get_portfolio_names(st.session_state['portfolio'])
            
            projections_match_dict2, unmatched_proj_names2 = chunk_name_matching(projection_names, portfolio_names)
            
            projections['player_names'] = projections['player_names'].map(lambda x: projections_match_dict2.get(x, x))
            st.session_state['projections_df'] = projections

            if sport_var in stacking_sports:
                team_dict = dict(zip(st.session_state['projections_df']['player_names'], st.session_state['projections_df']['team']))
                st.session_state['portfolio']['Stack'] = st.session_state['portfolio'].apply(
                    lambda row: Counter(
                        team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                        if team_dict.get(player, '') != ''
                    ).most_common(1)[0][0] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
                    axis=1
                )
                st.session_state['portfolio']['Size'] = st.session_state['portfolio'].apply(
                    lambda row: Counter(
                        team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                        if team_dict.get(player, '') != ''
                    ).most_common(1)[0][1] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
                    axis=1
                )
                st.session_state['stack_dict'] = dict(zip(st.session_state['portfolio'].index, st.session_state['portfolio']['Stack']))
                st.session_state['size_dict'] = dict(zip(st.session_state['portfolio'].index, st.session_state['portfolio']['Size']))

            try:
                st.session_state['export_dict'] = dict(zip(st.session_state['csv_file']['Name'], st.session_state['csv_file']['Name + ID']))
            except:
                st.session_state['export_dict'] = dict(zip(st.session_state['csv_file']['Nickname'], st.session_state['csv_file']['Id']))
            
            if 'map_dict' not in st.session_state:
                st.session_state['map_dict'] = create_comprehensive_mappings(
                    projections,
                    st.session_state['portfolio'],
                    st.session_state['csv_file'],
                    site_var,
                    type_var,
                    sport_var
                )
            
            st.session_state['portfolio'] = st.session_state['portfolio'].astype(str)
            st.session_state['portfolio'] = st.session_state['portfolio'][~st.session_state['portfolio'].isin(['', 'nan', 'None', 'NaN']).any(axis=1)].reset_index(drop=True)
            buffer = io.BytesIO()
            st.session_state['portfolio'].to_parquet(buffer, compression='snappy')
            st.session_state['origin_portfolio'] = buffer.getvalue()

            portfolio_inc_proj = pd.DataFrame()
            portfolio_inc_proj['player_names'] = get_portfolio_names(st.session_state['portfolio']) + st.session_state['projections_df']['player_names'].tolist()
            portfolio_inc_proj = portfolio_inc_proj.drop_duplicates(subset=['player_names'], keep='first').reset_index(drop=True)
            portfolio_inc_proj['position'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['pos_map'].get(x, 'FLEX'))
            portfolio_inc_proj['team'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['team_map'].get(x, 'Unknown'))
            portfolio_inc_proj['salary'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['salary_map'].get(x, 0))
            portfolio_inc_proj['median'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['proj_map'].get(x, 0.0))
            portfolio_inc_proj['ownership'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['own_map'].get(x, 0.0))
            portfolio_inc_proj['captain ownership'] = portfolio_inc_proj['player_names'].map(lambda x: st.session_state['map_dict']['own_map'].get(x, 0.0))
            st.session_state['portfolio_inc_proj'] = portfolio_inc_proj.reset_index(drop=True)
            
            del st.session_state['portfolio'], st.session_state['export_portfolio']


if selected_tab == 'Projections Management':
    if 'portfolio_inc_proj' in st.session_state and st.session_state['portfolio_inc_proj'] is not None:
        st.subheader("Edit Player Projections")
        st.caption("Modify median, ownership, or captain ownership values directly in the table below. Changes will update both the projections and all related mappings.")
        
        projections_editor_df = st.session_state['portfolio_inc_proj'].copy()
        
        if 'origin_portfolio' in st.session_state and 'map_dict' in st.session_state:
            portfolio_df = pd.read_parquet(io.BytesIO(st.session_state['origin_portfolio']))
            portfolio_players = set(get_portfolio_names(portfolio_df))
            projection_players = set(projections_editor_df['player_names'].tolist())
            
            # Find missing players
            missing_players = portfolio_players - projection_players
            
            if missing_players:
                # Create rows for missing players using map_dict data
                missing_rows = []
                for player in missing_players:
                    missing_rows.append({
                        'player_names': player,
                        'position': st.session_state['map_dict']['pos_map'].get(player, 'FLEX'),
                        'team': st.session_state['map_dict']['team_map'].get(player, 'Unknown'),
                        'salary': st.session_state['map_dict']['salary_map'].get(player, 0),
                        'median': st.session_state['map_dict']['proj_map'].get(player, 0.0),
                        'ownership': st.session_state['map_dict']['own_map'].get(player, 0.0),
                        'captain ownership': st.session_state['map_dict'].get('cpt_own_map', {}).get(player, 0.0)
                    })
                
                # Add missing players to the editor dataframe
                missing_df = pd.DataFrame(missing_rows)
                projections_editor_df = pd.concat([projections_editor_df, missing_df], ignore_index=True)
                
                st.info(f"📌 Found {len(missing_players)} player(s) in portfolio not in projections. They have been added below with values of 0 for median, ownership, and captain ownership.")
        
        # Define column configuration for the data editor
        column_config = {
            'player_names': st.column_config.TextColumn(
                'Player',
                width='medium'
            ),
            'position': st.column_config.TextColumn(
                'Position',
                width='small'
            ),
            'team': st.column_config.TextColumn(
                'Team',
                width='small'
            ),
            'salary': st.column_config.NumberColumn(
                'Salary',
                width='small',
                format='$%d'
            ),
            'median': st.column_config.NumberColumn(
                'Median',
                min_value=0.0,
                max_value=100.0,
                step=0.1,
                format='%.2f',
                width='small'
            ),
            'ownership': st.column_config.NumberColumn(
                'Ownership %',
                min_value=0.0,
                max_value=100.0,
                step=0.1,
                format='%.2f',
                width='small'
            ),
            'captain ownership': st.column_config.NumberColumn(
                'Captain Own %',
                min_value=0.0,
                max_value=100.0,
                step=0.1,
                format='%.2f',
                width='small'
            )
        }
        
        # Search/filter functionality
        search_col, team_filter_col, position_filter_col = st.columns([2, 1, 1])
        with search_col:
            player_search = st.text_input("🔍 Search players", placeholder="Type player name...", key='proj_player_search')
        with team_filter_col:
            team_options = ['All Teams'] + sorted(projections_editor_df['team'].unique().tolist())
            team_filter = st.selectbox("Filter by Team", options=team_options, key='proj_team_filter')
        with position_filter_col:
            position_options = ['All Positions'] + sorted(projections_editor_df['position'].unique().tolist())
            position_filter = st.selectbox("Filter by Position", options=position_options, key='proj_position_filter')
        
        # Apply filters
        filtered_df = projections_editor_df.copy()
        if player_search:
            filtered_df = filtered_df[filtered_df['player_names'].str.contains(player_search, case=False, na=False)]
        if team_filter != 'All Teams':
            filtered_df = filtered_df[filtered_df['team'] == team_filter]
        if position_filter != 'All Positions':
            filtered_df = filtered_df[filtered_df['position'] == position_filter]
        
        # Display the editable dataframe
        edited_df = st.data_editor(
            filtered_df,
            column_config=column_config,
            use_container_width=True,
            hide_index=True,
            num_rows='fixed',
            key='projections_editor'
        )
        
        if not edited_df.equals(filtered_df):
            changed_mask = ~(edited_df[['player_names', 'position', 'team', 'salary', 'median', 'ownership', 'captain ownership']] == filtered_df[['player_names', 'position', 'team', 'salary', 'median', 'ownership', 'captain ownership']]).all(axis=1)
            changed_rows = edited_df[changed_mask]
            
            if len(changed_rows) > 0:
                # Update the projections_df in session state
                for idx, row in changed_rows.iterrows():
                    player_name = row['player_names']
                    
                    # Find and update the original projections_df
                    orig_idx = st.session_state['portfolio_inc_proj'][st.session_state['portfolio_inc_proj']['player_names'] == player_name].index
                    if len(orig_idx) > 0:
                        # Player exists in portfolio_inc_proj - update existing row
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'player_names'] = row['player_names']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'position'] = row['position']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'team'] = row['team']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'salary'] = row['salary']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'median'] = row['median']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'ownership'] = row['ownership']
                        st.session_state['portfolio_inc_proj'].loc[orig_idx[0], 'captain ownership'] = row['captain ownership']
                    else:
                        # Player is new (from portfolio but not in projections) - add new row
                        new_row = pd.DataFrame([{
                            'player_names': player_name,
                            'position': row['position'],
                            'team': row['team'],
                            'salary': row['salary'],
                            'median': row['median'],
                            'ownership': row['ownership'],
                            'captain ownership': row['captain ownership']
                        }])
                        st.session_state['portfolio_inc_proj'] = pd.concat([st.session_state['portfolio_inc_proj'], new_row], ignore_index=True)
                    
                    # Update map_dict entries
                    if 'map_dict' in st.session_state:
                        st.session_state['map_dict']['team_map'][player_name] = str(row['team'])
                        st.session_state['map_dict']['pos_map'][player_name] = str(row['position'])
                        st.session_state['map_dict']['salary_map'][player_name] = int(row['salary'])
                        st.session_state['map_dict']['proj_map'][player_name] = float(row['median'])
                        st.session_state['map_dict']['own_map'][player_name] = float(row['ownership'])
                        
                        # Update ownership percent rank
                        ownership_series = pd.Series(st.session_state['map_dict']['own_map'])
                        st.session_state['map_dict']['own_percent_rank'] = dict(ownership_series.rank(pct=True).astype('float32'))
                        
                        # Update captain mappings based on site/type/sport configuration
                        if 'cpt_proj_map' in st.session_state['map_dict']:
                            # Determine the multiplier based on site/type/sport
                            if site_var == 'Draftkings':
                                if type_var == 'Showdown' and sport_var == 'GOLF':
                                    st.session_state['map_dict']['cpt_proj_map'][player_name] = float(row['median'])
                                else:
                                    st.session_state['map_dict']['cpt_proj_map'][player_name] = float(row['median']) * 1.5
                            elif site_var == 'Fanduel':
                                st.session_state['map_dict']['cpt_proj_map'][player_name] = float(row['median']) * 1.5
                        
                        if 'cpt_own_map' in st.session_state['map_dict']:
                            # Captain ownership uses the captain ownership column directly
                            if type_var == 'Showdown' and sport_var == 'GOLF':
                                st.session_state['map_dict']['cpt_own_map'][player_name] = float(row['ownership'])
                            else:
                                st.session_state['map_dict']['cpt_own_map'][player_name] = float(row['captain ownership'])
                
                # Clear working_frame to force recalculation with new projections
                if 'working_frame' in st.session_state:
                    del st.session_state['working_frame']
                
                st.success(f"✅ Updated {len(changed_rows)} player(s). Portfolio metrics will recalculate on next view.")
                st.rerun()
    else:
        st.info("📋 No projections file loaded yet. Please upload projections in the Data Load tab first.")

if selected_tab == 'Manage Portfolio':
    if 'base_frame_names' not in st.session_state:
            st.session_state['base_frame_names'] = {}
    if 'origin_portfolio' in st.session_state and 'portfolio_inc_proj' in st.session_state:
        with st.container():
            reset_port_col, recalc_stacks_col, recalc_div_col, set_base_col, blank_reset_col, contest_size_col = st.columns([.15, .10, .10, .10, .30, .25])
            with reset_port_col:
                with st.popover("Reset Portfolio"):
                    st.markdown("choose a base to reset to:")
                    if st.session_state['base_frame_names']:
                        base_choice = st.selectbox("Base Choice", options=list(st.session_state['base_frame_names'].keys()), index=0)
                        if st.button("Load Selected Base"):
                            st.session_state['working_frame'] = load_base_frame(base_choice)
                            st.rerun()
                    else:
                        st.info("No saved base frames available")
            with recalc_stacks_col:
                if st.button("Recalculate Stacks"):
                    st.session_state['working_frame'] = recalc_stacks_sizes(st.session_state['working_frame'], st.session_state['player_columns'], st.session_state['map_dict'])
                    st.rerun()
            with recalc_div_col:
                if st.button("Recalculate Diversity"):
                        st.session_state['working_frame']['Diversity'] = recalc_diversity(st.session_state['display_frame'], st.session_state['player_columns'])
                        st.rerun()
            with set_base_col:
                with st.popover("New Base Setting"):
                    st.markdown("Name of new base:")
                    new_base_name = st.text_input("New Base Name", value='New Base')
                    if st.button("Save Current as Base"):
                        if new_base_name and new_base_name not in st.session_state['base_frame_names']:
                            save_base_frame(new_base_name, st.session_state['working_frame'])
                            st.success(f"Base '{new_base_name}' saved successfully!")
                        elif new_base_name in st.session_state['base_frame_names']:
                            st.error("Base name already exists")
                        else:
                            st.error("Please enter a base name")

            with contest_size_col:
                with st.form(key='contest_size_form'):
                    size_col, strength_col, submit_col = st.columns(3)
                    with size_col:
                        Contest_Size = st.number_input("Enter Contest Size", value=25000, min_value=1, step=1)
                    with strength_col:
                        strength_var = st.selectbox("Select field strength", ['Average', 'Sharp', 'Weak'])
                    with submit_col:
                        submitted = st.form_submit_button("Submit Size/Strength")
                    if submitted:
                        if 'working_frame' in st.session_state:
                            del st.session_state['working_frame']
        
        excluded_cols = ['salary', 'median', 'Own', 'Finish_percentile', 'Dupes', 'Stack', 'Size', 'Win%', 'Lineup Edge', 'Lineup Edge_Raw', 'Weighted Own', 'Geomean', 'Diversity', 'SE Score']
        

        if 'working_frame' not in st.session_state:
            st.session_state['settings_base'] = True
            
            # Load and process the origin portfolio
            initial_frame = pd.read_parquet(io.BytesIO(st.session_state['origin_portfolio']))
            st.session_state['player_columns'] = [col for col in initial_frame.columns if col not in excluded_cols]
            
            # Use vectorized calculation function
            processed_frame = calculate_lineup_metrics(
                initial_frame, 
                st.session_state['player_columns'], 
                st.session_state['map_dict'], 
                type_var, 
                sport_var, 
                st.session_state['portfolio_inc_proj'] if 'stack_dict' in st.session_state else None
            )
            processed_frame = processed_frame[processed_frame['salary'] <= salary_max]
            
            if 'stack_dict' in st.session_state:
                processed_frame['Stack'] = processed_frame.index.map(st.session_state['stack_dict'])
                processed_frame['Size'] = processed_frame.index.map(st.session_state['size_dict'])
            
            # Create the final base frame with dupe predictions
            final_base_frame = predict_dupes(processed_frame, st.session_state['map_dict'], site_var, type_var, Contest_Size, strength_var, sport_var, salary_max)
            
            # Set up the Default base and working frame using memory-efficient storage
            save_base_frame('Default', final_base_frame)
            st.session_state['working_frame'] = final_base_frame.copy()
            #set some maxes for trimming variables
            if 'trimming_dict_maxes' not in st.session_state:
                st.session_state['trimming_dict_maxes'] = {
                    'Own': st.session_state['working_frame']['Own'].max(),
                    'Geomean': st.session_state['working_frame']['Geomean'].max(),
                    'Weighted Own': st.session_state['working_frame']['Weighted Own'].max(),
                    'median': st.session_state['working_frame']['median'].max(),
                    'Finish_percentile': st.session_state['working_frame']['Finish_percentile'].max(),
                    'Diversity': st.session_state['working_frame']['Diversity'].max()
                }

        with st.sidebar:
            if 'trimming_dict_maxes' not in st.session_state:
                st.session_state['trimming_dict_maxes'] = {
                    'Own': 500.0,
                    'Geomean': 500.0,
                    'Weighted Own': 500.0,
                    'median': 1500.0,
                    'Finish_percentile': 1.0,
                    'Diversity': 1.0
                }
            with st.expander('Macro Filter Options'):
                # recent changes for showdown included
                with st.form(key='macro_filter_form'):
                    macro_min_col, macro_max_col = st.columns(2)
                    with macro_min_col:
                        min_salary = st.number_input("Min acceptable salary?", value=0, min_value=0, max_value=salary_max, step=100)
                        min_proj = st.number_input("Min acceptable projection?", value=0.0, min_value=0.0, max_value=1500.0, step=1.0)
                        min_own = st.number_input("Min acceptable ownership?", value=0.0, min_value=0.0, max_value=500.0, step=1.0)
                        min_dupes = st.number_input("Min acceptable dupes?", value=0, min_value=0, max_value=1000, step=1)
                        min_finish_percentile = st.number_input("Min acceptable finish percentile?", value=0.00, min_value=0.00, max_value=1.00, step=.001)
                        min_lineup_edge = st.number_input("Min acceptable Lineup Edge?", value=-1.00, min_value=-1.00, max_value=1.00, step=.001)
                        min_weighted_own = st.number_input("Min acceptable Weighted Own?", value=0.0, min_value=0.0, max_value=500.0, step=1.0)
                    with macro_max_col:
                        max_salary = st.number_input("Max acceptable salary?", value=salary_max, min_value=0, max_value=salary_max, step=100)
                        max_proj = st.number_input("Max acceptable projection?", value=1500.0, min_value=0.0, max_value=1500.0, step=1.0)
                        max_own = st.number_input("Max acceptable ownership?", value=500.0, min_value=0.0, max_value=500.0, step=1.0)
                        max_dupes = st.number_input("Max acceptable dupes?", value=1000, min_value=1, max_value=1000, step=1)
                        max_finish_percentile = st.number_input("Max acceptable finish percentile?", value=1.00, min_value=0.00, max_value=1.00, step=.001)
                        max_lineup_edge = st.number_input("Max acceptable Lineup Edge?", value=1.00, min_value=-1.00, max_value=1.00, step=.001)
                        max_weighted_own = st.number_input("Max acceptable Weighted Own?", value=500.0, min_value=0.0, max_value=500.0, step=1.0)

                    if sport_var in stacking_sports:
                        stack_include_toggle = st.selectbox("Include specific stacks?", options=['All Stacks', 'Specific Stacks'], index=0)
                        stack_selections = st.multiselect("If Specific Stacks, Which to include?", options=sorted(list(set(st.session_state['stack_dict'].values()))), default=[])

                        stack_remove_toggle = st.selectbox("Remove specific stacks?", options=['No', 'Yes'], index=0)
                        stack_remove = st.multiselect("If Specific Stacks, Which to remove?", options=sorted(list(set(st.session_state['stack_dict'].values()))), default=[])
                    
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        
                        # Use index-based filtering instead of copying DataFrame
                        filter_mask = (
                            (st.session_state['working_frame']['salary'] >= min_salary) &
                            (st.session_state['working_frame']['salary'] <= max_salary) &
                            (st.session_state['working_frame']['median'] >= min_proj) &
                            (st.session_state['working_frame']['median'] <= max_proj) &
                            (st.session_state['working_frame']['Own'] >= min_own) &
                            (st.session_state['working_frame']['Own'] <= max_own) &
                            (st.session_state['working_frame']['Dupes'] >= min_dupes) &
                            (st.session_state['working_frame']['Dupes'] <= max_dupes) &
                            (st.session_state['working_frame']['Finish_percentile'] >= min_finish_percentile) &
                            (st.session_state['working_frame']['Finish_percentile'] <= max_finish_percentile) &
                            (st.session_state['working_frame']['Lineup Edge'] >= min_lineup_edge) &
                            (st.session_state['working_frame']['Lineup Edge'] <= max_lineup_edge) &
                            (st.session_state['working_frame']['Weighted Own'] >= min_weighted_own) &
                            (st.session_state['working_frame']['Weighted Own'] <= max_weighted_own)
                        )
                        
                        
                        # Handle stack filtering
                        if 'Stack' in st.session_state['working_frame'].columns:
                            if stack_include_toggle != 'All Stacks':
                                filter_mask &= st.session_state['working_frame']['Stack'].isin(stack_selections)
                            if stack_remove_toggle == 'Yes':
                                filter_mask &= ~st.session_state['working_frame']['Stack'].isin(stack_remove)
                        
                        # Apply all filters at once
                        st.session_state['working_frame'] = st.session_state['working_frame'][filter_mask].sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    if exp_submitted:
                        st.session_state['settings_base'] = False
                        
                        # Use index-based filtering for export_base
                        export_filter_mask = (
                            (st.session_state['export_base']['salary'] >= min_salary) &
                            (st.session_state['export_base']['salary'] <= max_salary) &
                            (st.session_state['export_base']['median'] >= min_proj) &
                            (st.session_state['export_base']['median'] <= max_proj) &
                            (st.session_state['export_base']['Own'] >= min_own) &
                            (st.session_state['export_base']['Own'] <= max_own) &
                            (st.session_state['export_base']['Dupes'] >= min_dupes) &
                            (st.session_state['export_base']['Dupes'] <= max_dupes) &
                            (st.session_state['export_base']['Finish_percentile'] >= min_finish_percentile) &
                            (st.session_state['export_base']['Finish_percentile'] <= max_finish_percentile) &
                            (st.session_state['export_base']['Lineup Edge'] >= min_lineup_edge) &
                            (st.session_state['export_base']['Lineup Edge'] <= max_lineup_edge) &
                            (st.session_state['export_base']['Weighted Own'] >= min_weighted_own) &
                            (st.session_state['export_base']['Weighted Own'] <= max_weighted_own)
                        )

                        if 'Stack' in st.session_state['export_base'].columns:
                            if stack_include_toggle != 'All Stacks':
                                export_filter_mask &= st.session_state['export_base']['Stack'].isin(stack_selections)
                            if stack_remove_toggle == 'Yes':
                                export_filter_mask &= ~st.session_state['export_base']['Stack'].isin(stack_remove)
                        
                        st.session_state['export_base'] = st.session_state['export_base'][export_filter_mask].sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()

            with st.expander('Micro Filter Options'):
                with st.form(key='micro_filter_form'):
                    player_names = set()
                    for col in st.session_state['working_frame'].columns:
                        if col not in excluded_cols:
                            player_names.update(st.session_state['working_frame'][col].unique())
                    if type_var == 'Showdown':
                        cpt_flex_focus = st.selectbox("Focus on Overall, CPT, or FLEX?", options=['Overall', 'CPT', 'FLEX'], index=0)
                    player_lock = st.multiselect("Lock players?", options=sorted(list(player_names)), default=[])
                    player_remove = st.multiselect("Remove players?", options=sorted(list(player_names)), default=[])
                    team_include = st.multiselect("Include teams?", options=sorted(list(set(st.session_state['portfolio_inc_proj']['team'].unique()))), default=[])
                    team_remove = st.multiselect("Remove teams?", options=sorted(list(set(st.session_state['portfolio_inc_proj']['team'].unique()))), default=[])
                    if sport_var in stacking_sports:
                        size_include = st.multiselect("Include sizes?", options=sorted(list(set(st.session_state['working_frame']['Size'].unique()))), default=[])
                    else:
                        size_include = []
                    if sport_var == 'NFL':
                        qb_force = st.selectbox("Force QB Stacks?", options=['No', 'Yes'], index=0)
                    else:
                        qb_force = 'No'
                    
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['working_frame'].copy()
                        if player_remove:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    remove_mask = parsed_frame.iloc[:, 0].apply(
                                        lambda player: not any(remove_player in str(player) for remove_player in player_remove)
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    remove_mask = parsed_frame.iloc[:, 1:].apply(
                                        lambda row: not any(player in list(row) for player in player_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    remove_mask = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda row: not any(player in list(row) for player in player_remove), axis=1
                                    )
                            else:
                                # Create mask for lineups that contain any of the removed players
                                remove_mask = parsed_frame[st.session_state['player_columns']].apply(
                                    lambda row: not any(player in list(row) for player in player_remove), axis=1
                                )
                            parsed_frame = parsed_frame[remove_mask]
                        
                        if player_lock:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    lock_mask = parsed_frame.iloc[:, 0].apply(
                                        lambda player: any(lock_player in str(player) for lock_player in player_lock)
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    lock_mask = parsed_frame.iloc[:, 1:].apply(
                                        lambda row: all(player in list(row) for player in player_lock), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    lock_mask = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda row: all(player in list(row) for player in player_lock), axis=1
                                    )
                            else:
                                lock_mask = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda row: all(player in list(row) for player in player_lock), axis=1
                                    )
                            parsed_frame = parsed_frame[lock_mask]
                        
                        if team_include:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    team_frame = parsed_frame.iloc[:, 0].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    team_frame = parsed_frame.iloc[:, 1:].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    team_frame = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                            else:
                                # Create a copy of the frame with player names replaced by teams, excluding SP1 and SP2
                                filtered_player_columns = [col for col in st.session_state['player_columns'] if col not in ['SP1', 'SP2']]
                                team_frame = parsed_frame[filtered_player_columns].apply(
                                    lambda x: x.map(st.session_state['map_dict']['team_map'])
                                )
                                # Create mask for lineups that contain any of the included teams
                                include_mask = team_frame.apply(
                                    lambda row: any(team in list(row) for team in team_include), axis=1
                                )
                            parsed_frame = parsed_frame[include_mask]
                        
                        if team_remove:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    team_frame = parsed_frame.iloc[:, 0].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    team_frame = parsed_frame.iloc[:, 1:].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    team_frame = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                            else:
                                # Create a copy of the frame with player names replaced by teams, excluding SP1 and SP2
                                filtered_player_columns = [col for col in st.session_state['player_columns'] if col not in ['SP1', 'SP2']]
                                team_frame = parsed_frame[filtered_player_columns].apply(
                                    lambda x: x.map(st.session_state['map_dict']['team_map'])
                                )
                                # Create mask for lineups that don't contain any of the removed teams
                                remove_mask = team_frame.apply(
                                    lambda row: not any(team in list(row) for team in team_remove), axis=1
                                )
                            parsed_frame = parsed_frame[remove_mask]
                        
                        if size_include:
                            parsed_frame = parsed_frame[parsed_frame['Size'].isin(size_include)]
                        
                        if qb_force == 'Yes':
                            if type_var == 'Classic':
                                # Get team for the first player column for each lineup
                                team_frame = parsed_frame.iloc[:, 0].map(st.session_state['map_dict']['team_map'])
                                
                                # Create mask where the first player's team matches the Stack column
                                include_mask = team_frame == parsed_frame['Stack']
                            parsed_frame = parsed_frame[include_mask]
                        st.session_state['working_frame'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()
                        if player_remove:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    remove_mask = parsed_frame.iloc[:, 0].apply(
                                        lambda player: not any(remove_player in str(player) for remove_player in player_remove)
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    remove_mask = parsed_frame.iloc[:, 1:].apply(
                                        lambda row: not any(player in list(row) for player in player_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    remove_mask = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda row: not any(player in list(row) for player in player_remove), axis=1
                                    )
                            else:
                                remove_mask = parsed_frame[st.session_state['player_columns']].apply(
                                    lambda row: not any(player in list(row) for player in player_remove), axis=1
                                )
                            parsed_frame = parsed_frame[remove_mask]
                        
                        if player_lock:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    lock_mask = parsed_frame.iloc[:, 0].apply(
                                        lambda player: any(lock_player in str(player) for lock_player in player_lock)
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    lock_mask = parsed_frame.iloc[:, 1:].apply(
                                        lambda row: all(player in list(row) for player in player_lock), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    lock_mask = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda row: all(player in list(row) for player in player_lock), axis=1
                                    )
                            else:
                                lock_mask = parsed_frame[st.session_state['player_columns']].apply(
                                    lambda row: all(player in list(row) for player in player_lock), axis=1
                                )
                            parsed_frame = parsed_frame[lock_mask]
                        
                        if team_include:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    team_frame = parsed_frame.iloc[:, 0].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    team_frame = parsed_frame.iloc[:, 1:].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    team_frame = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    include_mask = team_frame.apply(
                                        lambda row: any(team in list(row) for team in team_include), axis=1
                                    )
                            else:
                                # Create a copy of the frame with player names replaced by teams, excluding SP1 and SP2
                                filtered_player_columns = [col for col in st.session_state['player_columns'] if col not in ['SP1', 'SP2']]
                                team_frame = parsed_frame[filtered_player_columns].apply(
                                    lambda x: x.map(st.session_state['map_dict']['team_map'])
                                )
                                # Create mask for lineups that contain any of the included teams
                                include_mask = team_frame.apply(
                                    lambda row: any(team in list(row) for team in team_include), axis=1
                                )
                            parsed_frame = parsed_frame[include_mask]
                        
                        if team_remove:
                            if type_var == 'Showdown':
                                if cpt_flex_focus == 'CPT':
                                    team_frame = parsed_frame.iloc[:, 0].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'FLEX':
                                    team_frame = parsed_frame.iloc[:, 1:].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                                elif cpt_flex_focus == 'Overall':
                                    team_frame = parsed_frame[st.session_state['player_columns']].apply(
                                        lambda x: x.map(st.session_state['map_dict']['team_map'])
                                    )
                                    remove_mask = team_frame.apply(
                                        lambda row: not any(team in list(row) for team in team_remove), axis=1
                                    )
                            else:
                                # Create a copy of the frame with player names replaced by teams, excluding SP1 and SP2
                                filtered_player_columns = [col for col in st.session_state['player_columns'] if col not in ['SP1', 'SP2']]
                                team_frame = parsed_frame[filtered_player_columns].apply(
                                    lambda x: x.map(st.session_state['map_dict']['team_map'])
                                )
                                # Create mask for lineups that don't contain any of the removed teams
                                remove_mask = team_frame.apply(
                                    lambda row: not any(team in list(row) for team in team_remove), axis=1
                                )
                            parsed_frame = parsed_frame[remove_mask]
                        
                        if size_include:
                            parsed_frame = parsed_frame[parsed_frame['Size'].isin(size_include)]
                        st.session_state['export_base'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()

            with st.expander('Position Filtering'):
                with st.form(key='position_filtering_form'):
                    position_choice = st.selectbox("Position to filter", options=[col for col in st.session_state['working_frame'].columns if col not in excluded_cols], index=0)
                    position_filter = st.selectbox("Filter on:", options=pos_parse_options)
                    position_low_threshold = st.number_input("if filtering on Projection/Ownership/Salary, Low Threshold", value=0.0, min_value=0.0, step=1.0)
                    position_high_threshold = st.number_input("if filtering on Projection/Ownership/Salary, High Threshold", value=20000.0, min_value=0.0, step=1.0)
                    filter_keys_pos = st.multiselect("if filtering on Position, Position(s) to keep", options=sport_position_lists[site_var][sport_var], default=[])
                    filter_keys_team = st.multiselect("if filtering on Team, Team(s) to keep", options=st.session_state['portfolio_inc_proj']['team'].unique(), default=[])
                    submitted_col, export_col = st.columns(2)
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['working_frame'].copy()
                        parsed_frame = parse_portfolio_on_mapped(parsed_frame, st.session_state['map_dict'], pos_parse_mapping[position_filter], filter_keys_pos, filter_keys_team, position_low_threshold, position_high_threshold, position_choice)
                        st.session_state['working_frame'] = parsed_frame.sort_values(by='median', ascending=False)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()
                        parsed_frame = parse_portfolio_on_mapped(parsed_frame, st.session_state['map_dict'], pos_parse_mapping[position_filter], filter_keys_pos, filter_keys_team, position_low_threshold, position_high_threshold, position_choice)
                        st.session_state['export_base'] = parsed_frame.sort_values(by='median', ascending=False)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()
            with st.expander('Trimming Options'):
                with st.form(key='trim_form'):
                    st.write("Sorting and trimming variables:")
                    perf_var, own_var = st.columns(2)
                    with perf_var:
                        performance_type = st.selectbox("Sorting variable", ['median', 'Own', 'Weighted Own'], key='sort_var')
                    with own_var:
                        own_type = st.selectbox("Trimming variable", ['Own', 'Geomean', 'Weighted Own', 'Diversity'], key='trim_var')

                    trim_slack_var = st.number_input("Trim slack (percentile addition to trimming variable ceiling)", value=0.0, min_value=0.0, max_value=1.0, step=0.1, key='trim_slack')

                    st.write("Sorting threshold range:")
                    min_sort, max_sort = st.columns(2)
                    with min_sort:
                        performance_threshold_low = st.number_input("Min", value=0.0, min_value=0.0, step=1.0, key='min_sort')
                    with max_sort:
                        performance_threshold_high = st.number_input("Max", value=float(st.session_state['trimming_dict_maxes'][performance_type]), min_value=0.0, step=1.0, key='max_sort')
                    
                    st.write("Trimming threshold range:")
                    min_trim, max_trim = st.columns(2)
                    with min_trim:
                        own_threshold_low = st.number_input("Min", value=0.0, min_value=0.0, step=1.0, key='min_trim')
                    with max_trim:
                        own_threshold_high = st.number_input("Max", value=float(st.session_state['trimming_dict_maxes'][own_type]), min_value=0.0, step=1.0, key='max_trim')
                    
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        st.write('initiated')
                        parsed_frame = st.session_state['working_frame'].copy()
                        parsed_frame = trim_portfolio(parsed_frame, trim_slack_var, performance_type, own_type, performance_threshold_high, performance_threshold_low, own_threshold_high, own_threshold_low)
                        st.session_state['working_frame'] = parsed_frame.sort_values(by='median', ascending=False)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()
                        parsed_frame = trim_portfolio(parsed_frame, trim_slack_var, performance_type, own_type, performance_threshold_high, performance_threshold_low, own_threshold_high, own_threshold_low)
                        st.session_state['export_base'] = parsed_frame.sort_values(by='median', ascending=False)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()
            with st.expander('Presets'):
                st.info("Still heavily in testing here, I'll announce when they are ready for use.")
                with st.form(key='Small Field Preset'):
                    preset_choice = st.selectbox("Preset", options=['Small Field (Heavy Own)', 'Large Field (Manage Diversity)', 'Hedge Chalk (Manage Leverage)', 'Volatility (Heavy Lineup Edge)'], index=0)
                    lineup_target = st.number_input("Lineups to produce", value=150, min_value=1, step=1)
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        if preset_choice == 'Small Field (Heavy Own)':
                            parsed_frame = small_field_preset(st.session_state['working_frame'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Large Field (Manage Diversity)':
                            parsed_frame = large_field_preset(st.session_state['working_frame'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Volatility (Heavy Lineup Edge)':
                            parsed_frame = volatility_preset(st.session_state['working_frame'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Hedge Chalk (Manage Leverage)':
                            parsed_frame = hedging_preset(st.session_state['working_frame'], lineup_target, st.session_state['portfolio_inc_proj'], sport_var)
                        elif preset_choice == 'Reduce Volatility (Manage Own)':
                            parsed_frame = reduce_volatility_preset(st.session_state['working_frame'], lineup_target, excluded_cols, sport_var)

                        st.session_state['working_frame'] = parsed_frame.reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()
                        if preset_choice == 'Small Field (Heavy Own)':
                            parsed_frame = small_field_preset(st.session_state['export_base'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Large Field (Manage Diversity)':
                            parsed_frame = large_field_preset(st.session_state['export_base'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Volatility (Heavy Lineup Edge)':
                            parsed_frame = volatility_preset(st.session_state['export_base'], lineup_target, excluded_cols, sport_var)
                        elif preset_choice == 'Hedge Chalk (Manage Leverage)':
                            parsed_frame = hedging_preset(st.session_state['export_base'], lineup_target, st.session_state['portfolio_inc_proj'], sport_var)
                        elif preset_choice == 'Reduce Volatility (Manage Own)':
                            parsed_frame = reduce_volatility_preset(st.session_state['export_base'], lineup_target, excluded_cols, sport_var)

                        st.session_state['export_base'] = parsed_frame.reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()
            with st.expander('Stratify'):
                with st.form(key='Stratification'):
                    sorting_choice = st.selectbox("Stat Choice", options=['median', 'Own', 'Weighted Own', 'Geomean', 'Lineup Edge', 'Finish_percentile', 'SE Score', 'Diversity'], index=0)
                    lineup_target = st.number_input("Lineups to produce", value=150, min_value=1, step=1)
                    strat_sample = st.slider("Sample range", value=[0.0, 100.0], min_value=0.0, max_value=100.0, step=1.0)
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = stratification_function(st.session_state['working_frame'], lineup_target, excluded_cols, sport_var, sorting_choice, strat_sample[0], strat_sample[1])
                        st.session_state['working_frame'] = parsed_frame.reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = stratification_function(st.session_state['export_base'], lineup_target, excluded_cols, sport_var, sorting_choice, strat_sample[0], strat_sample[1])
                        st.session_state['export_base'] = parsed_frame.reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()
            
            with st.expander('Conditionals Manager (players)'):
                # a set of functions for removing lineups that contain a conditional between players and stacks
                with st.form(key='conditional_players_form'):
                    player_names = set()
                    for col in st.session_state['working_frame'].columns:
                        if col not in excluded_cols:
                            player_names.update(st.session_state['working_frame'][col].unique())
                    keep_remove_var = st.selectbox("Conditional:", options=['Keep', 'Remove'], index=0)
                    conditional_side_alpha = st.multiselect("Lineups containing:", options=sorted(list(player_names)), default=[])
                    cpt_flex_alpha = st.selectbox("in slot:", options=['Overall', 'CPT', 'FLEX'], index=0, key='cpt_flex_alpha')
                    conditional_var = st.selectbox("where they also contain:", options=['Any', 'All', 'None'], index=0)
                    conditional_side_beta = st.multiselect("of the following player(s):", options=sorted(list(player_names)), default=[])
                    cpt_flex_beta = st.selectbox("in slot:", options=['Overall', 'CPT', 'FLEX'], index=0, key='cpt_flex_beta')
                    
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['working_frame'].copy()

                        # Check if we have players selected for both alpha and beta sides
                        if conditional_side_alpha and conditional_side_beta:
                            alpha_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                            for player in conditional_side_alpha:
                                if type_var == 'Showdown':
                                    if cpt_flex_alpha == 'Overall':
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    elif cpt_flex_alpha == 'CPT':
                                        player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                    elif cpt_flex_alpha == 'FLEX':
                                        player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                else:
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                alpha_mask = alpha_mask & player_present
                            
                            # Only apply beta logic to rows that match alpha condition
                            rows_to_process = alpha_mask
                            
                            # For rows that match alpha condition, check beta condition
                            if conditional_var == 'Any':
                                # Check if row contains ANY of the beta players
                                beta_mask = pd.Series([False] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask | player_present
                            elif conditional_var == 'All':
                                # Check if row contains ALL of the beta players
                                beta_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask & player_present
                            elif conditional_var == 'None':
                                # Check if row contains NONE of the beta players
                                beta_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask & (~player_present)
                            
                            # Combine conditions: alpha_mask AND beta_mask
                            final_condition = rows_to_process & beta_mask
                            
                            # Apply keep or remove logic
                            if keep_remove_var == 'Keep':
                                parsed_frame = parsed_frame[~rows_to_process | final_condition]
                            else:  # Remove
                                parsed_frame = parsed_frame[~final_condition]
                        
                        elif conditional_side_alpha:
                            # Only alpha side specified - filter based on presence of alpha players
                            alpha_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                            for player in conditional_side_alpha:
                                if type_var == 'Showdown':
                                    if cpt_flex_alpha == 'Overall':
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    elif cpt_flex_alpha == 'CPT':
                                        player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                    elif cpt_flex_alpha == 'FLEX':
                                        player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                else:
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                alpha_mask = alpha_mask & player_present
                            
                            if keep_remove_var == 'Keep':
                                parsed_frame = parsed_frame[alpha_mask]
                            else:  # Remove
                                parsed_frame = parsed_frame[~alpha_mask]

                        st.session_state['working_frame'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()

                        # Check if we have players selected for both alpha and beta sides
                        if conditional_side_alpha and conditional_side_beta:
                            # Create boolean mask for rows containing ALL players from alpha side
                            alpha_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                            for player in conditional_side_alpha:
                                if type_var == 'Showdown':
                                    if cpt_flex_alpha == 'Overall':
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    elif cpt_flex_alpha == 'CPT':
                                        player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                    elif cpt_flex_alpha == 'FLEX':
                                        player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                else:
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                alpha_mask = alpha_mask & player_present
                            
                            # Only apply beta logic to rows that match alpha condition
                            rows_to_process = alpha_mask
                            
                            # For rows that match alpha condition, check beta condition
                            if conditional_var == 'Any':
                                # Check if row contains ANY of the beta players
                                beta_mask = pd.Series([False] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask | player_present
                            elif conditional_var == 'All':
                                # Check if row contains ALL of the beta players
                                beta_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask & player_present
                            elif conditional_var == 'None':
                                # Check if row contains NONE of the beta players
                                beta_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                                for player in conditional_side_beta:
                                    if type_var == 'Showdown':
                                        if cpt_flex_beta == 'Overall':
                                            player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                        elif cpt_flex_beta == 'CPT':
                                            player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                        elif cpt_flex_beta == 'FLEX':
                                            player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                    else:
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    beta_mask = beta_mask & (~player_present)
                            
                            # Combine conditions: alpha_mask AND beta_mask
                            final_condition = rows_to_process & beta_mask
                            
                            # Apply keep or remove logic
                            if keep_remove_var == 'Keep':
                                parsed_frame = parsed_frame[~rows_to_process | final_condition]
                            else:  # Remove
                                parsed_frame = parsed_frame[~final_condition]
                        
                        elif conditional_side_alpha:
                            # Only alpha side specified - filter based on presence of alpha players
                            alpha_mask = pd.Series([True] * len(parsed_frame), index=parsed_frame.index)
                            for player in conditional_side_alpha:
                                if type_var == 'Showdown':
                                    if cpt_flex_alpha == 'Overall':
                                        player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                    elif cpt_flex_alpha == 'CPT':
                                        player_present = parsed_frame.iloc[:, 0].apply(lambda row: player in row)
                                    elif cpt_flex_alpha == 'FLEX':
                                        player_present = parsed_frame.iloc[:, 1:].apply(lambda row: player in row.values, axis=1)
                                else:
                                    player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                player_present = parsed_frame.apply(lambda row: player in row.values, axis=1)
                                alpha_mask = alpha_mask & player_present
                            
                            if keep_remove_var == 'Keep':
                                parsed_frame = parsed_frame[alpha_mask]
                            else:  # Remove
                                parsed_frame = parsed_frame[~alpha_mask]
                        
                        st.session_state['export_base'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()

            with st.expander('Conditionals Manager (combos)'):
                # a set of functions for replacing players in lineups containing specific other players
                with st.form(key='conditional_combos_form'):
                    player_names = set()
                    for col in st.session_state['working_frame'].columns:
                        if col not in excluded_cols:
                            player_names.update(st.session_state['working_frame'][col].unique())
                    
                    replace_player = st.selectbox("Replace player:", options=sorted(list(player_names)), key='replace_player')
                    replace_slot = st.selectbox("In slot:", options=['Overall', 'CPT', 'FLEX'], index=0, key='replace_slot')
                    containing_player = st.selectbox("In Lineups containing:", options=sorted(list(player_names)), key='containing_player')
                    containing_slot = st.selectbox("In slot:", options=['Overall', 'CPT', 'FLEX'], index=0, key='containing_slot')
                    
                    specific_replacements_combo = st.multiselect("Specific replacements?", options=sorted(list(player_names)), default=[], key='specific_replacements_combo')
                    specific_exclusions_combo = st.multiselect("Specific exclusions?", options=sorted(list(player_names)), default=[], key='specific_exclusions_combo')
                    
                    comp_salary_below_combo = st.number_input("Comp Salary Below", value=-5000, min_value=-5000, max_value=0, step=100, key='comp_salary_below_combo')
                    comp_salary_above_combo = st.number_input("Comp Salary Above", value=5000, min_value=0, max_value=5000, step=100, key='comp_salary_above_combo')
                    
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['working_frame'].copy()
                        
                        # Check if we have both replace and containing players selected
                        if replace_player and containing_player and replace_player != containing_player:
                            # Find rows that contain the containing_player in the specified slot
                            containing_mask = pd.Series([False] * len(parsed_frame), index=parsed_frame.index)
                            
                            if type_var == 'Showdown':
                                if containing_slot == 'Overall':
                                    containing_mask = parsed_frame.apply(lambda row: containing_player in row.values, axis=1)
                                elif containing_slot == 'CPT':
                                    containing_mask = parsed_frame.iloc[:, 0].apply(lambda row: containing_player in row)
                                elif containing_slot == 'FLEX':
                                    containing_mask = parsed_frame.iloc[:, 1:].apply(lambda row: containing_player in row.values, axis=1)
                            else:
                                containing_mask = parsed_frame.apply(lambda row: containing_player in row.values, axis=1)
                            
                            # Filter to only rows containing the target player
                            target_rows = parsed_frame[containing_mask]
                            
                            if not target_rows.empty:
                                # Reset index to avoid index mismatch issues
                                target_rows_reset = target_rows.reset_index(drop=True)
                                
                                # Prepare DataFrame for exposure_spread to avoid categorical issues
                                target_rows_prepared = prepare_dataframe_for_exposure_spread(target_rows_reset, st.session_state['player_columns'])
                                
                                # Use exposure_spread logic to replace the player in these specific rows
                                # Set exposure_target to 0 to remove all instances of replace_player
                                modified_rows = exposure_spread(
                                    target_rows_prepared, 
                                    replace_player, 
                                    0,  # exposure_target = 0 means remove all instances
                                    comp_salary_below_combo, 
                                    comp_salary_above_combo, 
                                    [],  # ignore_stacks
                                    [],  # remove_teams_exposure
                                    specific_replacements_combo, 
                                    specific_exclusions_combo, 
                                    st.session_state['player_columns'] if replace_slot == 'Overall' else 
                                    ([st.session_state['player_columns'][0]] if replace_slot == 'CPT' else st.session_state['player_columns'][1:]), 
                                    st.session_state['portfolio_inc_proj'], 
                                    sport_var, 
                                    type_var, 
                                    salary_max, 
                                    stacking_sports
                                )
                                
                                # Update the original dataframe with the modified rows
                                parsed_frame.loc[containing_mask] = modified_rows.values
                                
                                # Use consolidated calculation function
                                parsed_frame = calculate_lineup_metrics(
                                    parsed_frame, 
                                    st.session_state['player_columns'], 
                                    st.session_state['map_dict'], 
                                    type_var, 
                                    sport_var, 
                                    st.session_state['portfolio_inc_proj']
                                )
                        
                        st.session_state['working_frame'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        parsed_frame = st.session_state['export_base'].copy()
                        
                        if replace_player and containing_player and replace_player != containing_player:
                            containing_mask = pd.Series([False] * len(parsed_frame), index=parsed_frame.index)
                            
                            if type_var == 'Showdown':
                                if containing_slot == 'Overall':
                                    containing_mask = parsed_frame.apply(lambda row: containing_player in row.values, axis=1)
                                elif containing_slot == 'CPT':
                                    containing_mask = parsed_frame.iloc[:, 0].apply(lambda row: containing_player in row)
                                elif containing_slot == 'FLEX':
                                    containing_mask = parsed_frame.iloc[:, 1:].apply(lambda row: containing_player in row.values, axis=1)
                            else:
                                containing_mask = parsed_frame.apply(lambda row: containing_player in row.values, axis=1)
                            
                            # Filter to only rows containing the target player
                            target_rows = parsed_frame[containing_mask]
                            
                            if not target_rows.empty:
                                target_rows_reset = target_rows.reset_index(drop=True)
                                
                                target_rows_prepared = prepare_dataframe_for_exposure_spread(target_rows_reset, st.session_state['player_columns'])
                                
                                modified_rows = exposure_spread(
                                    target_rows_prepared, 
                                    replace_player, 
                                    0,
                                    comp_salary_below_combo, 
                                    comp_salary_above_combo, 
                                    [],
                                    [],
                                    specific_replacements_combo, 
                                    specific_exclusions_combo, 
                                    st.session_state['player_columns'] if replace_slot == 'Overall' else 
                                    ([st.session_state['player_columns'][0]] if replace_slot == 'CPT' else st.session_state['player_columns'][1:]), 
                                    st.session_state['portfolio_inc_proj'], 
                                    sport_var, 
                                    type_var, 
                                    salary_max, 
                                    stacking_sports
                                )
                                
                                parsed_frame.loc[containing_mask] = modified_rows.values
                                
                                parsed_frame = calculate_lineup_metrics(
                                    parsed_frame, 
                                    st.session_state['player_columns'], 
                                    st.session_state['map_dict'], 
                                    type_var, 
                                    sport_var, 
                                    st.session_state['portfolio_inc_proj']
                                )
                        
                        st.session_state['export_base'] = parsed_frame.sort_values(by='median', ascending=False).reset_index(drop=True)
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()

            with st.expander('Exposure Management'):
                with st.form(key='Exposures'):
                    exposure_player = st.selectbox("Player", options=sorted(list(set(get_portfolio_names(st.session_state['working_frame']) + st.session_state['portfolio_inc_proj']['player_names'].tolist()))), key='exposure_player')
                    exposure_target = st.number_input("Target Exposure", value=.50, min_value=0.0, max_value=1.0, step=0.01)
                    comp_salary_below = st.number_input("Comp Salary Below", value=-5000, min_value=-5000, max_value=0, step=100)
                    comp_salary_above = st.number_input("Comp Salary Above", value=5000, min_value=0, max_value=5000, step=100)
                    if 'Stack' in st.session_state['working_frame'].columns:
                        ignore_stacks = st.multiselect("Ignore Specific Stacks?", options=sorted(list(set(st.session_state['portfolio_inc_proj']['team'].unique()))), default=[])
                    else:
                        ignore_stacks = []
                    remove_teams_exposure = st.multiselect("Removed/Locked teams?", options=sorted(list(set(st.session_state['portfolio_inc_proj']['team'].unique()))), default=[])
                    specific_replacements = st.multiselect("Specific Replacements?", options=sorted(list(set(get_portfolio_names(st.session_state['working_frame']) + st.session_state['portfolio_inc_proj']['player_names'].tolist()))), default=[])
                    specific_exclusions = st.multiselect("Specific exclusions?", options=sorted(list(set(get_portfolio_names(st.session_state['working_frame']) + st.session_state['portfolio_inc_proj']['player_names'].tolist()))), default=[])
                    specific_columns = st.multiselect("Specific Positions?", options=sorted(list(st.session_state['player_columns'])), default=[])
                    submitted_col, export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with submitted_col:
                        reg_submitted = st.form_submit_button("Portfolio")
                    with export_col:
                        exp_submitted = st.form_submit_button("Export")
                    if reg_submitted:
                        st.session_state['settings_base'] = False
                        working_frame_prepared = prepare_dataframe_for_exposure_spread(st.session_state['working_frame'], st.session_state['player_columns'])
                        parsed_frame = exposure_spread(working_frame_prepared, st.session_state['exposure_player'], exposure_target, comp_salary_below, comp_salary_above, ignore_stacks, remove_teams_exposure, specific_replacements, specific_exclusions, specific_columns, st.session_state['portfolio_inc_proj'], sport_var, type_var, salary_max, stacking_sports)
                        
                        # Use consolidated calculation function
                        parsed_frame = calculate_lineup_metrics(
                            parsed_frame, 
                            st.session_state['player_columns'], 
                            st.session_state['map_dict'], 
                            type_var, 
                            sport_var, 
                            st.session_state['portfolio_inc_proj']
                        )
                        
                        st.session_state['working_frame'] = parsed_frame.reset_index(drop=True)
                        default_base = load_base_frame('Default')
                        st.session_state['working_frame'] = reassess_edge(st.session_state['working_frame'], default_base, st.session_state['map_dict'], site_var, type_var, Contest_Size, strength_var, sport_var, salary_max)
                        team_dict = dict(zip(st.session_state['portfolio_inc_proj']['player_names'], st.session_state['portfolio_inc_proj']['team']))
                        if 'Stack' in st.session_state['working_frame'].columns:
                            st.session_state['working_frame']['Stack'] = st.session_state['working_frame'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][0] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
                                axis=1
                            )
                            st.session_state['working_frame']['Size'] = st.session_state['working_frame'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][1] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
                                axis=1
                            )
                            st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    elif exp_submitted:
                        st.session_state['settings_base'] = False
                        export_base_prepared = prepare_dataframe_for_exposure_spread(st.session_state['export_base'], st.session_state['player_columns'])
                        parsed_frame = exposure_spread(export_base_prepared, st.session_state['exposure_player'], exposure_target, comp_salary_below, comp_salary_above, ignore_stacks, remove_teams_exposure, specific_replacements, specific_exclusions, specific_columns, st.session_state['portfolio_inc_proj'], sport_var, type_var, salary_max, stacking_sports)
                        
                        # Use consolidated calculation function for export
                        parsed_frame = calculate_lineup_metrics(
                            parsed_frame, 
                            st.session_state['player_columns'], 
                            st.session_state['map_dict'], 
                            type_var, 
                            sport_var, 
                            st.session_state['portfolio_inc_proj']
                        )

                        st.session_state['export_base'] = parsed_frame.reset_index(drop=True)
                        default_base = load_base_frame('Default')
                        st.session_state['export_base'] = reassess_edge(st.session_state['export_base'], default_base, st.session_state['map_dict'], site_var, type_var, Contest_Size, strength_var, sport_var, salary_max)
                        team_dict = dict(zip(st.session_state['portfolio_inc_proj']['player_names'], st.session_state['portfolio_inc_proj']['team']))
                        if 'Stack' in st.session_state['export_base'].columns:
                            st.session_state['export_base']['Stack'] = st.session_state['export_base'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][0] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
                                axis=1
                            )
                            st.session_state['export_base']['Size'] = st.session_state['export_base'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][1] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
                                axis=1
                            )
                            st.session_state['export_merge'] = st.session_state['export_base'].copy()
            
            with st.expander('Lineup Reoptimization'):
                with st.form(key='Reoptimize'):
                    optimize_by = st.selectbox("Optimize By", options=['median', 'ownership'], key='optimize_by')
                    lock_teams_optimize = st.multiselect(
                        "Locked Teams", 
                        options=sorted(list(set(st.session_state['portfolio_inc_proj']['team'].unique()))), 
                        default=[],
                        key='lock_teams_optimize'
                    )
                    opt_submitted_col, opt_export_col = st.columns(2)
                    st.info("Portfolio Button applies to your overall Portfolio, Export button applies to your Custom Export")
                    with opt_submitted_col:
                        opt_reg_submitted = st.form_submit_button("Portfolio")
                    with opt_export_col:
                        opt_exp_submitted = st.form_submit_button("Export")
                    
                    if opt_reg_submitted:
                        st.session_state['settings_base'] = False
                        
                        # Store original for comparison (player columns only)
                        original_frame = st.session_state['working_frame'][st.session_state['player_columns']].copy()
                        
                        # Run optimization on working_frame
                        optimized_frame = optimize_lineup(
                            working_frame=st.session_state['working_frame'],
                            projections_df=st.session_state['portfolio_inc_proj'],
                            player_columns=st.session_state['player_columns'],
                            map_dict=st.session_state['map_dict'],
                            lock_teams=lock_teams_optimize,
                            site_var=site_var,
                            type_var=type_var,
                            sport_var=sport_var,
                            salary_max=salary_max,
                            optimize_by=optimize_by
                        )
                        
                        # Store changes mask in session state for highlighting (no columns added)
                        st.session_state['optimization_changes_mask'] = (
                            original_frame != optimized_frame[st.session_state['player_columns']]
                        )
                        
                        # Recalculate lineup metrics
                        optimized_frame = calculate_lineup_metrics(
                            optimized_frame, 
                            st.session_state['player_columns'], 
                            st.session_state['map_dict'], 
                            type_var, 
                            sport_var, 
                            st.session_state['portfolio_inc_proj']
                        )
                        
                        st.session_state['working_frame'] = optimized_frame.reset_index(drop=True)
                        
                        # Load Default base from compressed storage for reassess_edge
                        default_base = load_base_frame('Default')
                        st.session_state['working_frame'] = reassess_edge(
                            st.session_state['working_frame'], 
                            default_base, 
                            st.session_state['map_dict'], 
                            site_var, 
                            type_var, 
                            Contest_Size, 
                            strength_var, 
                            sport_var, 
                            salary_max
                        )
                        
                        # Update Stack/Size columns if applicable
                        team_dict = dict(zip(st.session_state['portfolio_inc_proj']['player_names'], st.session_state['portfolio_inc_proj']['team']))
                        if 'Stack' in st.session_state['working_frame'].columns:
                            st.session_state['working_frame']['Stack'] = st.session_state['working_frame'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][0] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
                                axis=1
                            )
                            st.session_state['working_frame']['Size'] = st.session_state['working_frame'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][1] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
                                axis=1
                            )
                        st.session_state['export_merge'] = st.session_state['working_frame'].copy()
                    
                    elif opt_exp_submitted:
                        st.session_state['settings_base'] = False
                        
                        # Store original for comparison (player columns only)
                        original_frame = st.session_state['export_base'][st.session_state['player_columns']].copy()
                        
                        # Run optimization on export_base
                        optimized_frame = optimize_lineup(
                            working_frame=st.session_state['export_base'],
                            projections_df=st.session_state['portfolio_inc_proj'],
                            player_columns=st.session_state['player_columns'],
                            map_dict=st.session_state['map_dict'],
                            lock_teams=lock_teams_optimize,
                            site_var=site_var,
                            type_var=type_var,
                            sport_var=sport_var,
                            salary_max=salary_max,
                            optimize_by=optimize_by
                        )
                        
                        # Store changes mask in session state for highlighting (no columns added)
                        st.session_state['optimization_changes_mask'] = (
                            original_frame != optimized_frame[st.session_state['player_columns']]
                        )
                        
                        # Recalculate lineup metrics for export
                        optimized_frame = calculate_lineup_metrics(
                            optimized_frame, 
                            st.session_state['player_columns'], 
                            st.session_state['map_dict'], 
                            type_var, 
                            sport_var, 
                            st.session_state['portfolio_inc_proj']
                        )
                        
                        st.session_state['export_base'] = optimized_frame.reset_index(drop=True)
                        
                        # Load Default base from compressed storage for reassess_edge
                        default_base = load_base_frame('Default')
                        st.session_state['export_base'] = reassess_edge(
                            st.session_state['export_base'], 
                            default_base, 
                            st.session_state['map_dict'], 
                            site_var, 
                            type_var, 
                            Contest_Size, 
                            strength_var, 
                            sport_var, 
                            salary_max
                        )
                        
                        # Update Stack/Size columns if applicable
                        team_dict = dict(zip(st.session_state['portfolio_inc_proj']['player_names'], st.session_state['portfolio_inc_proj']['team']))
                        if 'Stack' in st.session_state['export_base'].columns:
                            st.session_state['export_base']['Stack'] = st.session_state['export_base'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][0] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else '',
                                axis=1
                            )
                            st.session_state['export_base']['Size'] = st.session_state['export_base'].apply(
                                lambda row: Counter(
                                    team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]
                                    if team_dict.get(player, '') != ''
                                ).most_common(1)[0][1] if any(team_dict.get(player, '') for player in row[stack_column_dict[site_var][type_var][sport_var]]) else 0,
                                axis=1
                            )
                        st.session_state['export_merge'] = st.session_state['export_base'].copy()
                
                # Clear highlighting button (outside the form)
                if st.button("Clear Optimization Highlighting", key='clear_opt_highlight'):
                    if 'optimization_changes_mask' in st.session_state:
                        del st.session_state['optimization_changes_mask']
            
        with st.container():
            if 'export_base' not in st.session_state:
                    st.session_state['export_base'] = pd.DataFrame(columns=st.session_state['working_frame'].columns)
            
            display_frame_source = st.selectbox("Display:", options=['Portfolio', 'Export Base'], key='display_frame_source')
            if display_frame_source == 'Portfolio':
                st.session_state['display_frame'] = st.session_state['working_frame']
                st.session_state['export_file'] = st.session_state['display_frame'].copy()
                
                for col in st.session_state['export_file'].columns:
                    if col not in excluded_cols:
                        st.session_state['export_file'][col] = st.session_state['export_file'][col].map(st.session_state['export_dict'])
            elif display_frame_source == 'Export Base':
                st.session_state['display_frame'] = st.session_state['export_base']
                st.session_state['export_file'] = st.session_state['display_frame'].copy()
                
                for col in st.session_state['export_file'].columns:
                    if col not in excluded_cols:
                        # Create position-specific export dictionary on the fly
                        position_dict = create_position_export_dict(col, st.session_state['csv_file'], site_var, type_var, sport_var)
                        st.session_state['export_file'][col] = st.session_state['export_file'][col].map(position_dict)
            
            if 'export_file' in st.session_state:
                download_port, merge_port, clear_export, add_rows_col, remove_rows_col, blank_export_col = st.columns([1, 1, 1, 2, 2, 6])
                with download_port:
                    st.download_button(label="Download Portfolio", data=st.session_state['export_file'].to_csv(index=False), file_name="portfolio.csv", mime="text/csv")

                with merge_port:
                    if st.button("Add all to Custom Export"):
                        st.session_state['export_base'] = pd.concat([st.session_state['export_base'], st.session_state['export_merge']])
                        st.session_state['export_base'] = st.session_state['export_base'].drop_duplicates()
                        st.session_state['export_base'] = st.session_state['export_base'].reset_index(drop=True)
                    
                with clear_export:
                    if st.button("Clear Custom Export"):
                        st.session_state['export_base'] = pd.DataFrame(columns=st.session_state['working_frame'].columns)
                        if display_frame_source == 'Portfolio':
                            st.session_state['display_frame'] = st.session_state['working_frame']
                        elif display_frame_source == 'Export Base':
                            st.session_state['display_frame'] = st.session_state['export_base']
                    
                with add_rows_col:
                    select_custom_index = st.multiselect("Select rows to add (based on first column):", options=st.session_state['display_frame'].index, default=[])
                    if st.button("Add selected to Custom Export"):
                        st.session_state['export_base'] = pd.concat([st.session_state['export_base'], st.session_state['display_frame'].loc[select_custom_index]])
                        st.session_state['export_base'] = st.session_state['export_base'].drop_duplicates()
                        st.session_state['export_base'] = st.session_state['export_base'].reset_index(drop=True)

                with remove_rows_col:
                    remove_custom_index = st.multiselect("Remove rows (based on first column):", options=st.session_state['display_frame'].index, default=[])
                    if st.button("Remove selected from Display"):
                        st.session_state['display_frame'] = st.session_state['display_frame'].drop(remove_custom_index)
                        st.session_state['display_frame'] = st.session_state['display_frame'].drop_duplicates()
                        st.session_state['display_frame'] = st.session_state['display_frame'].reset_index(drop=True)
                    

            total_rows = len(st.session_state['display_frame'])
            rows_per_page = 500
            total_pages = (total_rows + rows_per_page - 1) // rows_per_page  # Ceiling division

            # Initialize page number in session state if not exists
            if 'current_page' not in st.session_state:
                st.session_state.current_page = 1

            # Display current page range info and pagination control in a single line
            st.write(
                f"Showing rows {(st.session_state.current_page - 1) * rows_per_page + 1} "
                f"to {min(st.session_state.current_page * rows_per_page, total_rows)} of {total_rows}"
            )
            
            # Add page number input
            st.session_state.current_page = st.number_input(
                f"Page (1-{total_pages})", 
                min_value=1, 
                max_value=total_pages,
                value=st.session_state.current_page
            )

            # Calculate start and end indices for current page
            start_idx = (st.session_state.current_page - 1) * rows_per_page
            end_idx = min(start_idx + rows_per_page, total_rows)

            # Get the subset of data for the current page
            current_page_data = st.session_state['display_frame'].iloc[start_idx:end_idx]
            
            # Define highlight function for optimization changes
            def highlight_optimization_changes(df):
                styles = pd.DataFrame('', index=df.index, columns=df.columns)
                if 'optimization_changes_mask' in st.session_state:
                    mask = st.session_state['optimization_changes_mask']
                    for col in mask.columns:
                        if col in styles.columns:
                            common_idx = mask.index.intersection(df.index)
                            for idx in common_idx:
                                if mask.loc[idx, col]:
                                    styles.loc[idx, col] = 'background-color: #DAA520; color: black'
                return styles
            
            # Display the paginated dataframe first
            st.dataframe(
                current_page_data.style
                .apply(highlight_optimization_changes, axis=None)
                .background_gradient(cmap='RdYlGn')
                .background_gradient(cmap='RdYlGn_r', subset=['Finish_percentile', 'Own', 'Dupes'])
                .format(freq_format, precision=2),
                column_config={
                    "Finish_percentile": st.column_config.NumberColumn(
                        "Finish%",
                        help="Projected finishing percentile",
                        width="small",
                        min_value=0.0,
                        max_value=1.0
                    ),
                    "Lineup Edge": st.column_config.NumberColumn(
                        "Edge",
                        help="Projected lineup edge",
                        width="small",
                        min_value=-1.0,
                        max_value=1.0
                    ),
                    "Diversity": st.column_config.NumberColumn(
                        "Diversity",
                        help="Projected lineup diversity",
                        width="small",
                        min_value=0.0,
                        max_value=1.0
                    ),
                },
                height=499,
                use_container_width=True
            )
        player_stats_col, stack_stats_col, combos_col = st.tabs(['Player Stats', 'Stack Stats', 'Combos'])
        with player_stats_col:
            if st.button("Analyze Players", key='analyze_players'):
                player_stats = []
                
                if st.session_state['settings_base'] and 'origin_player_exposures' in st.session_state and display_frame_source == 'Portfolio':
                    st.session_state['player_summary'] = st.session_state['origin_player_exposures']
                else:
                    if type_var == 'Showdown':
                        if sport_var == 'GOLF':
                            for player in player_names:
                                player_mask = st.session_state['display_frame'][st.session_state['player_columns']].apply(
                                    lambda row: player in list(row), axis=1
                                )
                                
                                if player_mask.any():
                                    player_stats.append({
                                        'Player': player,
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': player_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][player_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][player_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][player_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][player_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][player_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][player_mask]['Diversity'].mean(),
                                    })
                        else:
                            for player in player_names:
                                # Create mask for lineups where this player is Captain (first column)
                                cpt_mask = st.session_state['display_frame'][st.session_state['player_columns'][0]] == player
                                
                                if cpt_mask.any():
                                    player_stats.append({
                                        'Player': f"{player} (CPT)",
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': cpt_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][cpt_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][cpt_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][cpt_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][cpt_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][cpt_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][cpt_mask]['Diversity'].mean(),
                                    })
                                
                                # Create mask for lineups where this player is FLEX (other columns)
                                flex_mask = st.session_state['display_frame'][st.session_state['player_columns'][1:]].apply(
                                    lambda row: player in list(row), axis=1
                                )
                                
                                if flex_mask.any():
                                    player_stats.append({
                                        'Player': f"{player} (FLEX)",
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': flex_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][flex_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][flex_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][flex_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][flex_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][flex_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][flex_mask]['Diversity'].mean(),
                                    })
                    else:
                        if sport_var == 'CS2' or sport_var == 'LOL':
                            # Handle Captain positions
                            for player in player_names:
                                # Create mask for lineups where this player is Captain (first column)
                                cpt_mask = st.session_state['display_frame'][st.session_state['player_columns'][0]] == player
                                
                                if cpt_mask.any():
                                    player_stats.append({
                                        'Player': f"{player} (CPT)",
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': cpt_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][cpt_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][cpt_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][cpt_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][cpt_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][cpt_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][cpt_mask]['Diversity'].mean(),
                                    })
                                
                                # Create mask for lineups where this player is FLEX (other columns)
                                flex_mask = st.session_state['display_frame'][st.session_state['player_columns'][1:]].apply(
                                    lambda row: player in list(row), axis=1
                                )
                                
                                if flex_mask.any():
                                    player_stats.append({
                                        'Player': f"{player} (FLEX)",
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': flex_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][flex_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][flex_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][flex_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][flex_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][flex_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][flex_mask]['Diversity'].mean(),
                                    })
                        elif sport_var != 'CS2' and sport_var != 'LOL':
                            # Original Classic format processing
                            for player in player_names:
                                player_mask = st.session_state['display_frame'][st.session_state['player_columns']].apply(
                                    lambda row: player in list(row), axis=1
                                )
                                
                                if player_mask.any():
                                    player_stats.append({
                                        'Player': player,
                                        'Position': st.session_state['map_dict']['pos_map'][player],
                                        'Team': st.session_state['map_dict']['team_map'][player],
                                        'ProjOwn': st.session_state['map_dict']['own_map'][player] / 100.0,
                                        'Exposure': player_mask.sum() / len(st.session_state['display_frame']),
                                        'Avg Median': st.session_state['display_frame'][player_mask]['median'].mean(),
                                        'Avg Own': st.session_state['display_frame'][player_mask]['Own'].mean(),
                                        'Avg Dupes': st.session_state['display_frame'][player_mask]['Dupes'].mean(),
                                        'Avg Finish %': st.session_state['display_frame'][player_mask]['Finish_percentile'].mean(),
                                        'Avg Lineup Edge': st.session_state['display_frame'][player_mask]['Lineup Edge'].mean(),
                                        'Avg Diversity': st.session_state['display_frame'][player_mask]['Diversity'].mean(),
                                    })
                    
                    player_summary = pd.DataFrame(player_stats)
                    player_summary = player_summary.sort_values('Exposure', ascending=False)
                    st.session_state['player_summary'] = player_summary.copy()
                    if 'origin_player_exposures' not in st.session_state:
                        st.session_state['origin_player_exposures'] = player_summary.copy()
                
                st.subheader("Player Summary")
                st.dataframe(
                    st.session_state['player_summary'].style
                    .background_gradient(axis=0).background_gradient(cmap='RdYlGn').background_gradient(cmap='RdYlGn_r', subset=['Avg Finish %', 'Avg Own', 'Avg Dupes'])
                    .format({
                        'ProjOwn': '{:.2%}',
                        'Avg Median': '{:.2f}',
                        'Avg Own': '{:.2f}',
                        'Avg Dupes': '{:.2f}',
                        'Avg Finish %': '{:.2%}',
                        'Avg Lineup Edge': '{:.2%}',
                        'Exposure': '{:.2%}',
                        'Avg Diversity': '{:.2%}'
                    }),
                    height=400,
                    use_container_width=True
                )
        
        with stack_stats_col:
            if 'Stack' in st.session_state['display_frame'].columns:
                if st.button("Analyze Stacks", key='analyze_stacks'):
                    stack_stats = []
                    stack_columns = [col for col in st.session_state['display_frame'].columns if col.startswith('Stack')]

                    if st.session_state['settings_base'] and 'origin_stack_exposures' in st.session_state and display_frame_source == 'Portfolio':
                        st.session_state['stack_summary'] = st.session_state['origin_stack_exposures']
                    else:
                        for stack in st.session_state['stack_dict'].values():
                            stack_mask = st.session_state['display_frame']['Stack'] == stack
                            if stack_mask.any():
                                stack_stats.append({
                                    'Stack': stack,
                                    'Lineup Count': stack_mask.sum(),
                                    'Exposure': stack_mask.sum() / len(st.session_state['display_frame']),
                                    'Avg Median': st.session_state['display_frame'][stack_mask]['median'].mean(),
                                    'Avg Own': st.session_state['display_frame'][stack_mask]['Own'].mean(),
                                    'Avg Dupes': st.session_state['display_frame'][stack_mask]['Dupes'].mean(),
                                    'Avg Finish %': st.session_state['display_frame'][stack_mask]['Finish_percentile'].mean(),
                                    'Avg Lineup Edge': st.session_state['display_frame'][stack_mask]['Lineup Edge'].mean(),
                                    'Avg Diversity': st.session_state['display_frame'][stack_mask]['Diversity'].mean(),
                                })
                        stack_summary = pd.DataFrame(stack_stats)
                        stack_summary = stack_summary.sort_values('Lineup Count', ascending=False).drop_duplicates()
                        st.session_state['stack_summary'] = stack_summary.copy()
                        if 'origin_stack_exposures' not in st.session_state:
                            st.session_state['origin_stack_exposures'] = stack_summary.copy()

                    st.subheader("Stack Summary")
                    st.dataframe(
                        st.session_state['stack_summary'].style
                        .background_gradient(axis=0).background_gradient(cmap='RdYlGn').background_gradient(cmap='RdYlGn_r', subset=['Avg Finish %', 'Avg Own', 'Avg Dupes'])
                        .format({
                            'Avg Median': '{:.2f}',
                            'Avg Own': '{:.2f}',
                            'Avg Dupes': '{:.2f}',
                            'Avg Finish %': '{:.2%}',
                            'Avg Lineup Edge': '{:.2%}',
                            'Exposure': '{:.2%}',
                            'Avg Diversity': '{:.2%}'
                        }),
                        height=400,
                        use_container_width=True
                    )
            else:
                stack_summary = pd.DataFrame(columns=['Stack', 'Lineup Count', 'Avg Median', 'Avg Own', 'Avg Dupes', 'Avg Finish %', 'Avg Lineup Edge'])
            
            with combos_col:
                st.subheader("Player Combinations")
                
                # Add controls for combo analysis
                with st.form("combo_analysis_form"):
                    combo_size_col, columns_excluded_col, combo_analyze_col = st.columns(3)
                    with combo_size_col:
                        combo_size = st.selectbox("Combo Size", [2, 3], key='combo_size')
                    with columns_excluded_col:
                        try:
                            excluded_cols_extended = st.multiselect("Exclude Columns?", st.session_state['display_frame'].drop(columns=excluded_cols).columns, key='excluded_cols_extended')
                        except:
                            excluded_cols_extended = st.multiselect("Exclude Columns?", st.session_state['display_frame'].columns, key='excluded_cols_extended')
                    with combo_analyze_col:
                        submitted = st.form_submit_button("Analyze Combos")
                        if submitted:
                            st.session_state['combo_analysis'] = analyze_player_combos(
                                st.session_state['display_frame'], excluded_cols + excluded_cols_extended, combo_size
                            )
                
                # Display results
                if 'combo_analysis' in st.session_state:
                    st.dataframe(
                        st.session_state['combo_analysis'].style
                        .background_gradient(axis=0)
                        .background_gradient(cmap='RdYlGn')
                        .background_gradient(cmap='RdYlGn_r', subset=['Avg Finish %', 'Avg Own', 'Avg Dupes'])
                        .format({
                            'Avg Median': '{:.2f}',
                            'Avg Own': '{:.2f}',
                            'Avg Dupes': '{:.2f}',
                            'Avg Finish %': '{:.2%}',
                            'Avg Lineup Edge': '{:.2%}',
                            'Exposure': '{:.2%}',
                            'Avg Diversity': '{:.2%}'
                        }),
                        height=400,
                        use_container_width=True
                    )
                else:
                    st.info("Click 'Analyze Combos' to see the most common player combinations.")