app.py

import streamlit as st
import random
import emoji

# Enhanced Scrabble letters distribution and scores with emoji representation
letters_scores = {
    'A': (1, "🅰️"), 'B': (3, "🅱️"), 'C': (3, "🌊"), 'D': (2, "🐬"), 'E': (1, "🦄"),
    'F': (4, "🍟"), 'G': (2, "🍇"), 'H': (4, "💓"), 'I': (1, "🍦"), 'J': (8, "🎷"),
    'K': (5, "🔑"), 'L': (1, "🦁"), 'M': (3, "🍈"), 'N': (1, "🎶"), 'O': (1, "🍊"),
    'P': (3, "🍕"), 'Q': (10, "👑"), 'R': (1, "🌈"), 'S': (1, "⭐"), 'T': (1, "🌴"),
    'U': (1, "🦄"), 'V': (4, "🎻"), 'W': (4, "🍉"), 'X': (8, "❌"), 'Y': (4, "💛"), 'Z': (10, "⚡")
}
letters_distribution = {
    'A': 9, 'B': 2, 'C': 2, 'D': 4, 'E': 12, 'F': 2, 'G': 3, 'H': 2, 'I': 9,
    'J': 1, 'K': 1, 'L': 4, 'M': 2, 'N': 6, 'O': 8, 'P': 2, 'Q': 1, 'R': 6,
    'S': 4, 'T': 6, 'U': 4, 'V': 2, 'W': 2, 'X': 1, 'Y': 2, 'Z': 1
}

# Flatten distribution for random selection
flat_letters = [letter for letter, count in letters_distribution.items() for _ in range(count)]

# Function to generate a simple AI word
def generate_ai_word(letters):
    # Simple strategy: pick a random number of letters and form a word
    num_letters = random.randint(1, len(letters))
    return random.sample(letters, num_letters)

# Select 7 random letters
random_letters = random.sample(flat_letters, 7)

# Streamlit UI enhancements
st.title('Emoji Scrabble Simulator 🎲')

# Columns for player and computer
col1, col2 = st.columns(2)

# Display for player
with col1:
    st.header("Player's Turn 🧑")
    user_word = []
    user_score = 0

    # Display letters as buttons
    for letter in random_letters:
        score, letter_emoji = letters_scores[letter]
        if st.button(f"{letter_emoji} ({score})", key=f"player_{letter}"):
            user_word.append(letter)
            user_score += score
            st.success(f"Current word: {''.join(user_word)}")
            st.info(f"Current score: {user_score}")

    st.write(f"**Final word:** {''.join(user_word)}")
    st.write(f"**Final score:** {user_score}")

# Display for computer
with col2:
    st.header("Computer's Turn 🤖")
    ai_word = generate_ai_word(random_letters)
    ai_score = sum([letters_scores[letter][0] for letter in ai_word])

    st.write(f"**AI's word:** {''.join(ai_word)}")
    st.write(f"**AI's score:** {ai_score}")

# Determine the winner
if user_score > ai_score:
    st.balloons()
    st.success("🎉 Congratulations! You won against the computer! 🎉")
elif user_score < ai_score:
    st.error("🖥️ The computer wins this round. Try again! 🖥️")
else:
    st.warning("🤝 It's a tie! Well played! 🤝")