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#!/usr/bin/env python3
"""
Create Training Dataset for Transfer Learning
This script creates a proper training dataset of (word, clue) pairs
for fine-tuning FLAN-T5 on crossword clue generation.
This is REAL transfer learning preparation - not just prompting.
"""
import json
import csv
import random
from typing import List, Dict, Tuple
from pathlib import Path
from dataclasses import dataclass
@dataclass
class CrosswordExample:
"""Single training example"""
word: str
clue: str
category: str = "general"
difficulty: str = "medium"
class CrosswordDatasetCreator:
"""Creates training dataset for crossword clue generation"""
def __init__(self):
self.examples = []
self.output_dir = Path(__file__).parent / "training_data"
self.output_dir.mkdir(exist_ok=True)
def add_manual_examples(self):
"""Add manually curated high-quality examples"""
manual_examples = [
# Famous people
CrosswordExample("EINSTEIN", "Relativity physicist", "people"),
CrosswordExample("MOZART", "Austrian composer", "people"),
CrosswordExample("SHAKESPEARE", "Hamlet playwright", "people"),
CrosswordExample("PICASSO", "Cubist painter", "people"),
CrosswordExample("NAPOLEON", "French emperor", "people"),
CrosswordExample("CHURCHILL", "British wartime PM", "people"),
# Geography
CrosswordExample("PARIS", "French capital", "geography"),
CrosswordExample("LONDON", "British capital", "geography"),
CrosswordExample("TOKYO", "Japanese capital", "geography"),
CrosswordExample("AMAZON", "South American river", "geography"),
CrosswordExample("SAHARA", "African desert", "geography"),
CrosswordExample("ALPS", "European mountain range", "geography"),
# Animals
CrosswordExample("ELEPHANT", "Large tusked mammal", "animals"),
CrosswordExample("PENGUIN", "Antarctic bird", "animals"),
CrosswordExample("DOLPHIN", "Intelligent marine mammal", "animals"),
CrosswordExample("TIGER", "Striped big cat", "animals"),
CrosswordExample("EAGLE", "Powerful bird of prey", "animals"),
# Objects/Things
CrosswordExample("PIANO", "88-key instrument", "objects"),
CrosswordExample("GUITAR", "Six-string instrument", "objects"),
CrosswordExample("TELESCOPE", "Star-viewing device", "objects"),
CrosswordExample("MICROSCOPE", "Cell-viewing device", "objects"),
CrosswordExample("BICYCLE", "Two-wheeled vehicle", "objects"),
# Science/Tech
CrosswordExample("OXYGEN", "Life-sustaining gas", "science"),
CrosswordExample("GRAVITY", "Force pulling objects down", "science"),
CrosswordExample("PHOTOSYNTHESIS", "Plant energy process", "science"),
CrosswordExample("DNA", "Genetic code molecule", "science"),
CrosswordExample("LASER", "Focused light beam", "science"),
# Abstract concepts
CrosswordExample("DEMOCRACY", "Government by the people", "concepts"),
CrosswordExample("FREEDOM", "State of being free", "concepts"),
CrosswordExample("JUSTICE", "Fairness under law", "concepts"),
CrosswordExample("WISDOM", "Deep understanding", "concepts"),
# Sports
CrosswordExample("CRICKET", "Bat and ball sport", "sports"),
CrosswordExample("TENNIS", "Racket sport", "sports"),
CrosswordExample("FOOTBALL", "Team sport with goals", "sports"),
CrosswordExample("BASKETBALL", "Hoop-shooting game", "sports"),
# Food
CrosswordExample("PIZZA", "Italian bread dish", "food"),
CrosswordExample("SUSHI", "Japanese raw fish dish", "food"),
CrosswordExample("CHOCOLATE", "Sweet cocoa treat", "food"),
CrosswordExample("COFFEE", "Caffeinated morning drink", "food"),
]
self.examples.extend(manual_examples)
print(f"β
Added {len(manual_examples)} manual examples")
def add_thematic_examples(self):
"""Add examples for different themes/categories"""
# Colors
color_examples = [
CrosswordExample("RED", "Primary color", "colors"),
CrosswordExample("BLUE", "Sky color", "colors"),
CrosswordExample("GREEN", "Grass color", "colors"),
CrosswordExample("YELLOW", "Sun color", "colors"),
CrosswordExample("PURPLE", "Royal color", "colors"),
CrosswordExample("ORANGE", "Citrus color", "colors"),
]
# Numbers/Math
math_examples = [
CrosswordExample("SEVEN", "Lucky number", "numbers"),
CrosswordExample("DOZEN", "Twelve items", "numbers"),
CrosswordExample("CENTURY", "Hundred years", "numbers"),
CrosswordExample("TRIANGLE", "Three-sided shape", "math"),
CrosswordExample("CIRCLE", "Round geometric shape", "math"),
]
# Body parts
body_examples = [
CrosswordExample("HEART", "Pumping organ", "body"),
CrosswordExample("BRAIN", "Thinking organ", "body"),
CrosswordExample("EYES", "Seeing organs", "body"),
CrosswordExample("HANDS", "Grasping appendages", "body"),
]
# Time/Calendar
time_examples = [
CrosswordExample("MONDAY", "Week starter", "time"),
CrosswordExample("JANUARY", "Year starter", "time"),
CrosswordExample("SUMMER", "Hot season", "time"),
CrosswordExample("MORNING", "Day starter", "time"),
]
all_thematic = color_examples + math_examples + body_examples + time_examples
self.examples.extend(all_thematic)
print(f"β
Added {len(all_thematic)} thematic examples")
def add_cricket_examples(self):
"""Add cricket-specific examples for our use case"""
cricket_examples = [
CrosswordExample("TENDULKAR", "Indian batting legend", "cricket"),
CrosswordExample("BRADMAN", "Australian batting great", "cricket"),
CrosswordExample("KOHLI", "Indian cricket captain", "cricket"),
CrosswordExample("DHONI", "Indian wicket-keeper captain", "cricket"),
CrosswordExample("WICKET", "Three stumps and bails", "cricket"),
CrosswordExample("BOUNDARY", "Four or six runs", "cricket"),
CrosswordExample("BOWLER", "Ball deliverer", "cricket"),
CrosswordExample("BATSMAN", "Run scorer", "cricket"),
CrosswordExample("ASHES", "England-Australia series", "cricket"),
]
# Note: Not including PANESAR as we want to test it
self.examples.extend(cricket_examples)
print(f"β
Added {len(cricket_examples)} cricket examples")
def add_scientific_terms(self):
"""Add scientific/technical terms"""
science_examples = [
CrosswordExample("OSMOSIS", "Liquid movement through membrane", "science"),
CrosswordExample("MITOSIS", "Cell division process", "science"),
CrosswordExample("ENZYME", "Biological catalyst", "science"),
CrosswordExample("PROTON", "Positive atomic particle", "science"),
CrosswordExample("NEUTRON", "Neutral atomic particle", "science"),
CrosswordExample("ELECTRON", "Negative atomic particle", "science"),
CrosswordExample("CATALYST", "Reaction accelerator", "science"),
CrosswordExample("MOLECULE", "Chemical compound unit", "science"),
CrosswordExample("CHROMOSOME", "DNA carrier", "science"),
# Note: Not including XANTHIC - we want to test it
]
self.examples.extend(science_examples)
print(f"β
Added {len(science_examples)} scientific examples")
def format_for_training(self) -> List[Dict]:
"""Format examples for FLAN-T5 training"""
formatted = []
for example in self.examples:
formatted.append({
"input_text": f"Generate a crossword clue for: {example.word}",
"target_text": example.clue,
"word": example.word,
"category": example.category
})
return formatted
def save_dataset(self):
"""Save the dataset in multiple formats"""
formatted_data = self.format_for_training()
# Save as JSON for easy loading
json_file = self.output_dir / "crossword_training_data.json"
with open(json_file, 'w') as f:
json.dump(formatted_data, f, indent=2)
# Save as CSV for inspection
csv_file = self.output_dir / "crossword_training_data.csv"
with open(csv_file, 'w', newline='') as f:
writer = csv.DictWriter(f, fieldnames=["word", "clue", "category", "input_text", "target_text"])
writer.writeheader()
for item in formatted_data:
writer.writerow({
"word": item["word"],
"clue": item["target_text"],
"category": item["category"],
"input_text": item["input_text"],
"target_text": item["target_text"]
})
print(f"β
Dataset saved:")
print(f" JSON: {json_file}")
print(f" CSV: {csv_file}")
print(f" Total examples: {len(formatted_data)}")
return formatted_data
def show_sample(self, n=5):
"""Show sample training examples"""
print(f"\nπ Sample Training Examples:")
print("-" * 50)
samples = random.sample(self.examples, min(n, len(self.examples)))
for example in samples:
print(f"Input: 'Generate a crossword clue for: {example.word}'")
print(f"Output: '{example.clue}'")
print(f"Category: {example.category}")
print()
def create_training_dataset():
"""Create the complete training dataset"""
print("π¨ Creating Crossword Training Dataset for Transfer Learning")
print("=" * 60)
creator = CrosswordDatasetCreator()
# Add all example categories
creator.add_manual_examples()
creator.add_thematic_examples()
creator.add_cricket_examples()
creator.add_scientific_terms()
# Show samples
creator.show_sample(3)
# Save the dataset
dataset = creator.save_dataset()
print("\nπ Dataset Statistics:")
print(f"Total examples: {len(dataset)}")
# Count by category
categories = {}
for example in creator.examples:
categories[example.category] = categories.get(example.category, 0) + 1
print("\nBy category:")
for category, count in sorted(categories.items()):
print(f" {category}: {count}")
print("\nπ― Next Steps:")
print("1. Run the fine-tuning script with this data")
print("2. Test on held-out words (PANESAR, RAJOURI, XANTHIC)")
print("3. Compare with zero-shot prompting results")
return dataset
if __name__ == "__main__":
create_training_dataset() |