#!/usr/bin/env python3 """ Generate 2D Poisson equation dataset and save to parquet files in chunks. """ import os import numpy as np import pyarrow as pa import pyarrow.parquet as pq from dataset import PoissonDataset def generate_dataset_split( split_name="train", num_samples=1000, chunk_size=100, output_dir="data" ): """ Generate a dataset split and save as chunked parquet files. """ os.makedirs(output_dir, exist_ok=True) # Create PoissonDataset instance dataset = PoissonDataset() num_chunks = (num_samples + chunk_size - 1) // chunk_size # Ceiling division print(f"Generating {num_samples} {split_name} samples in {num_chunks} chunks...") dataset_iter = iter(dataset) chunk_data = None for i in range(num_samples): sample = next(dataset_iter) if chunk_data is None: # Initialize chunk data on first sample chunk_data = {key: [] for key in sample.keys()} # Add sample to current chunk for key, value in sample.items(): chunk_data[key].append(value) # Save chunk when full or at end if (i + 1) % chunk_size == 0 or i == num_samples - 1: chunk_idx = i // chunk_size # Convert numpy arrays to lists for PyArrow compatibility table_data = {} for key, values in chunk_data.items(): table_data[key] = [arr.tolist() for arr in values] # Convert to PyArrow table table = pa.table(table_data) # Save chunk filename = f"{split_name}-{chunk_idx:05d}-of-{num_chunks:05d}.parquet" filepath = os.path.join(output_dir, filename) pq.write_table(table, filepath) print(f"Saved chunk {chunk_idx + 1}/{num_chunks}: {filepath}") # Reset for next chunk chunk_data = {key: [] for key in sample.keys()} print(f"Generated {num_samples} {split_name} samples") return num_samples if __name__ == "__main__": np.random.seed(42) # Generate train split generate_dataset_split("train", num_samples=1000, chunk_size=100) # Generate test split generate_dataset_split("test", num_samples=200, chunk_size=100)