prompts/main_prompt.py

MAIN_PROMPT = """
### **Module 4: Proportional Thinking with Percentages**  
"Welcome to this module on proportional reasoning with percentages!  
Your task is to **solve a problem using different representations** and connect the proportional relationship to the meaning of the problem."  

📌 **Problem:**  
Orrin and Damen decided to invest money in a local ice cream shop. Orrin invests **$1,500**, which is **60%** of their total investment.  
💡 **How much do they invest together?**  

✅ **Choose a method to solve:**  
1️⃣ **Bar Model**  
2️⃣ **Double Number Line**  
3️⃣ **Equations**  

💡 **Try solving the problem first before I provide guidance!**  
🚀 **Which method would you like to use first?**  
"""

def next_step(step):
    if step == 1:
        return """🚀 **Step 1: Choose Your Method**  
"Which method would you like to use to solve this problem?"  

💡 **Select one method:**  
- **Bar Model**  
- **Double Number Line**  
- **Equation**  

🔹 **Try your best first. I won’t provide hints until you attempt a solution!**  
"""

    elif step == 2:
        return """🚀 **Step 2: Solve Using a Bar Model**  
"Great choice! Let’s use a bar model to represent the problem visually."  

💡 **Give it a try:**  
- "How would you divide the bar to represent percentages?"  
- "How will you use this to find the total investment?"  

🔹 **Explain your reasoning before I provide hints!**  
"""

    elif step == 3:
        return """🤔 **Do you need a hint?**  
If you're stuck, try this:  
- **Step 1:** Draw a bar divided into **10 equal parts** (each representing 10%).  
- **Step 2:** Since **60% = $1,500**, shade in 6 parts of the bar.  
- **Step 3:** How much is **1 part** worth?  

💡 **Take a moment to think and let me know your reasoning.**  
"""

    elif step == 4:
        return """✅ **Solution Explanation:**  
"Great effort! Here’s the correct approach using a bar model:"  
- Each 10% part of the bar represents **$250** because:  
  \\[
  \\frac{1500}{6} = 250
  \\]  
- Since **100% = 10 parts**, multiplying by 10 gives:  
  \\[
  \\text{Total Investment} = 250 \\times 10 = 2500
  \\]  

💡 **Reflection:**  
- "How did the bar model help your understanding?"  
🚀 **Would you like to try another method, such as a Double Number Line?**  
"""

    elif step == 5:
        return """🚀 **Step 3: Solve Using a Double Number Line**  
"Now, let’s try solving using a **double number line**."  

💡 **Your turn to think:**  
- "How would you label the number lines?"  
- "What values go in between?"  

🔹 **Try solving first before I provide hints!**  
"""

    elif step == 6:
        return """🤔 **Do you need help?**  
- **Step 1:** One number line represents **percentages** (0%, 60%, 100%).  
- **Step 2:** The other represents **dollars** ($0, $1,500, total investment).  
- **Step 3:** Find the value of **10%** by dividing **$1,500 by 6**.  

💡 **What do you think the total investment is?**  
"""

    elif step == 7:
        return """✅ **Solution Explanation:**  
"Let’s confirm the answer using a double number line:"  
- **10% = $250**  
- **100% = $2,500**  

💡 **Reflection:**  
- "How does this method compare to the bar model?"  
🚀 **Would you like to try solving with an **equation**?"  
"""

    elif step == 8:
        return """🚀 **Step 4: Solve Using an Equation**  
"Now, let’s try setting up an equation to solve this problem."  

💡 **Your turn first:**  
- "How would you express 60% mathematically?"  
- "How will you set up the equation?"  

🔹 **Try writing your equation before I guide you!**  
"""

    elif step == 9:
        return """🤔 **Do you need a hint?**  
- Set up the proportion:  
  \\[
  \\frac{60}{100} = \\frac{1500}{x}
  \\]  
- Solve for \\(x\\) using cross-multiplication.  

💡 **What do you get?**  
"""

    elif step == 10:
        return """✅ **Solution Explanation:**  
"Let’s solve step by step:"  
- Using cross-multiplication:  
  \\[
  60x = 1500 \\times 100
  \\]  
- Divide both sides by **60**:  
  \\[
  x = 2500
  \\]  

💡 **Reflection:**  
- "Which method—Bar Model, Double Number Line, or Equation—helped you most?"  
🚀 **Now, let’s reflect on the **Common Core practices** we used.**  
"""

    elif step == 11:
        return """📌 **Common Core Standards Discussion**  
"Great job! Let’s reflect on how this connects to teaching strategies."  

🔹 **Which Common Core Standards did we cover?**  
- **CCSS.MATH.CONTENT.6.RP.A.3** (Solving real-world proportional reasoning problems)  
- **CCSS.MATH.CONTENT.7.RP.A.2** (Recognizing proportional relationships)  
- **CCSS.MATH.PRACTICE.MP1** (Making sense of problems & persevering)  
- **CCSS.MATH.PRACTICE.MP4** (Modeling with mathematics)  

💡 **Which of these standards do you think applied most? Why?**  
"""

    elif step == 12:
        return """📌 **Creativity-Directed Practices Discussion**  
"Throughout this module, we engaged in creativity-directed strategies, such as:  
✅ Using multiple solution methods  
✅ Encouraging deep reasoning  
✅ Connecting visual and numerical representations  

💡 "How do these strategies help students build deeper understanding?"  
🚀 "Now, let’s create your own problem!"  
"""

    return "🎉 **You've completed the module! Would you like to review anything again?**"