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#!/usr/bin/env python3
"""
Maze Visualization Utility
This script provides easy-to-use functions for visualizing mazes with optimal paths
and model solutions. Supports multiple visualization modes:
- Empty maze (just structure)
- Optimal path only
- Model path only
- Side-by-side comparison
Usage Examples:
# Side-by-side comparison (default)
python maze_visualizer_utility.py --maze_id 91 --result_file results/.../91_run3.json
# Individual plots
python maze_visualizer_utility.py --maze_id 91 --mode empty
python maze_visualizer_utility.py --maze_id 91 --mode optimal
python maze_visualizer_utility.py --maze_id 91 --result_file results/.../91_run3.json --mode model
"""
import sys
import os
sys.path.append(os.path.join(os.path.dirname(__file__), '..'))
sys.path.append(os.path.join(os.path.dirname(__file__), '..', 'core'))
import json
import ast
import argparse
from pathlib import Path
from core.maze_loader import MazeLoader
from plot import pretty_plot_maze
def load_maze_data(maze_id, data_dir="data/emnlp/maze_40_40_2_True"):
"""Load maze data from pickle file."""
maze_file = os.path.join(data_dir, f"{maze_id}.pkl")
if not os.path.exists(maze_file):
raise FileNotFoundError(f"Maze file not found: {maze_file}")
loader = MazeLoader(maze_file, removed_key_count=0)
return loader, maze_file
def get_optimal_solution_room_names(loader):
"""Get optimal solution in room name format (the correct format for plot.py)."""
return loader.solution_with_room_names
def load_model_solution_from_json(json_file):
"""Load model solution from JSON result file (already in room name format)."""
with open(json_file, 'r') as f:
result_data = json.load(f)
solution_str = result_data['response']
solution_list = ast.literal_eval(solution_str)
return solution_list, result_data
def visualize_maze(maze_id, result_file=None, output_path=None, mode="comparison", data_dir="data/emnlp/maze_40_40_2_True"):
"""
Main visualization function with support for different modes.
Args:
maze_id: ID of the maze (e.g., '91')
result_file: Path to JSON result file with model solution
output_path: Where to save the visualization (auto-generated if None)
mode: Visualization mode ("comparison", "empty", "optimal", "model")
data_dir: Directory containing maze .pkl files
"""
print(f"Loading maze {maze_id}...")
loader, maze_file = load_maze_data(maze_id, data_dir)
print(f"Getting optimal solution...")
optimal_solution = get_optimal_solution_room_names(loader)
model_solution = None
model_info = "optimal_only"
if result_file and mode in ["comparison", "model"]:
print(f"Loading model solution from {result_file}...")
model_solution, result_data = load_model_solution_from_json(result_file)
provider = result_data.get('provider', 'unknown')
model_name = result_data.get('model_name', 'unknown')
model_info = f"{provider}_{model_name}"
# Generate output path if not provided
if output_path is None:
if mode == "empty":
output_path = f"maze_{maze_id}_empty.png"
elif mode == "optimal":
output_path = f"maze_{maze_id}_optimal.png"
elif mode == "model":
output_path = f"maze_{maze_id}_model_{model_info}.png"
else: # comparison
output_path = f"maze_{maze_id}_comparison_{model_info}.png"
print(f"Creating {mode} visualization...")
print(f" • Maze: {maze_id}")
print(f" • Mode: {mode}")
print(f" • Start: {loader.data['start_room']} ({loader.room_name[loader.data['start_room']]})")
print(f" • End: {loader.data['end_room']} ({loader.room_name[loader.data['end_room']]})")
if mode in ["comparison", "optimal"]:
print(f" • Optimal steps: {len(optimal_solution)}")
if mode in ["comparison", "model"] and model_solution:
print(f" • Model steps: {len(model_solution)}")
pretty_plot_maze(
loader,
save_path=output_path,
model_solution=model_solution,
ground_truth_solution=optimal_solution,
mode=mode
)
print(f"Visualization saved: {output_path}")
return output_path
# Convenience functions for each mode
def plot_empty_maze(maze_id, output_path=None, data_dir="data/emnlp/maze_40_40_2_True"):
"""Plot just the maze structure without any paths."""
return visualize_maze(maze_id, mode="empty", output_path=output_path, data_dir=data_dir)
def plot_optimal_path(maze_id, output_path=None, data_dir="data/emnlp/maze_40_40_2_True"):
"""Plot maze with optimal path only."""
return visualize_maze(maze_id, mode="optimal", output_path=output_path, data_dir=data_dir)
def plot_model_path(maze_id, result_file, output_path=None, data_dir="data/emnlp/maze_40_40_2_True"):
"""Plot maze with model path only."""
return visualize_maze(maze_id, result_file=result_file, mode="model", output_path=output_path, data_dir=data_dir)
def plot_comparison(maze_id, result_file, output_path=None, data_dir="data/emnlp/maze_40_40_2_True"):
"""Plot side-by-side comparison of optimal vs model paths."""
return visualize_maze(maze_id, result_file=result_file, mode="comparison", output_path=output_path, data_dir=data_dir)
def main():
parser = argparse.ArgumentParser(description="Visualize maze solutions with different modes")
parser.add_argument("--maze_id", required=True, help="Maze ID (e.g., '91')")
parser.add_argument("--result_file", help="Path to JSON result file")
parser.add_argument("--output_path", help="Output path for visualization")
parser.add_argument("--mode", default="comparison",
choices=["comparison", "empty", "optimal", "model"],
help="Visualization mode")
parser.add_argument("--data_dir", default="data/emnlp/maze_40_40_2_True",
help="Directory containing maze files")
args = parser.parse_args()
# Validate mode requirements
if args.mode == "model" and not args.result_file:
print("Error: --result_file is required for 'model' mode")
return
if args.mode == "comparison" and not args.result_file:
print("Error: --result_file is required for 'comparison' mode")
return
visualize_maze(
maze_id=args.maze_id,
result_file=args.result_file,
output_path=args.output_path,
mode=args.mode,
data_dir=args.data_dir
)
if __name__ == "__main__":
main()
# Convenience functions for interactive use
def quick_visualize(maze_id, result_file=None, mode="comparison"):
"""Quick visualization function for interactive use."""
return visualize_maze(maze_id, result_file, mode=mode)
def show_available_mazes(data_dir="data/emnlp/maze_40_40_2_True"):
"""List available maze IDs."""
maze_files = list(Path(data_dir).glob("*.pkl"))
maze_ids = [f.stem for f in maze_files]
return sorted(maze_ids, key=int)
def demo_all_modes():
"""Demonstrate all visualization modes."""
print("MAZE VISUALIZATION MODES DEMO")
print("=" * 50)
maze_id = "91"
result_file = "results/openai_gpt5_3shot_guided_cot_effectiveB2_origB2/maze_40_40_2_True/openai/gpt-5/91_removed_keys0_locked_doors2_shuffle0.0_noise0.0_run3.json"
modes = ["empty", "optimal", "model", "comparison"]
for mode in modes:
print(f"\nCreating {mode} visualization...")
try:
if mode in ["model", "comparison"] and not os.path.exists(result_file):
print(f" Skipping {mode} - result file not found")
continue
output_path = visualize_maze(maze_id, result_file if mode in ["model", "comparison"] else None, mode=mode)
print(f" Created: {output_path}")
except Exception as e:
print(f" Error: {e}")
print(f"\nDemo completed!")
if __name__ == "__main__":
if len(sys.argv) == 1:
print("\n" + "=" * 50)
demo_all_modes()
else:
main() |