Datasets:

polymathic-ai
/

acoustic_scattering_maze

	import argparse
	import multiprocessing as mp
	from functools import partial

	import numpy as np
	from acoustics_2d_interface_maze import setup as maze_setup
	from acoustics_2d_interface_random_medium import setup as random_setup

	# Time/steps/samples
	steps_map = {
	"continuous": (2.0, 101, 2000),
	"discontinuous": (2.0, 101, 2000),
	"inclusions": (2.0, 101, 4000),
	"maze": (4.0, 201, 2000),
	}


	def mp_wrapper(
	seed,
	discontinuous,
	inclusions,
	maze,
	output_dir="/mnt/home/polymathic/ceph/the_well/testing_before_adding/clawpack_data/acoustics_2d_variable/",
	):
	if discontinuous:
	run_func = partial(
	inner_gen_sample,
	discontinuous=True,
	inclusions=False,
	maze=False,
	output_dir=output_dir,
	)
	num_samples = 2000
	elif inclusions:
	run_func = partial(
	inner_gen_sample,
	discontinuous=False,
	inclusions=True,
	maze=False,
	output_dir=output_dir,
	)
	num_samples = 4000
	elif maze:
	run_func = partial(
	inner_gen_sample,
	discontinuous=False,
	inclusions=False,
	maze=True,
	output_dir=output_dir,
	)
	num_samples = 2000
	else:
	run_func = partial(
	inner_gen_sample,
	discontinuous=False,
	inclusions=False,
	maze=False,
	output_dir=output_dir,
	)
	num_samples = 2000
	cores = mp.cpu_count()
	seeds = seed.spawn(num_samples)
	with mp.Pool(cores // 2) as pool:
	pool.map(run_func, seeds)
	# run_func(seeds[0])


	def inner_gen_sample(
	seed=0, discontinuous=False, inclusions=False, maze=False, output_dir=""
	):
	"""
	Iterate num samples times and enerate sample file. Use
	it to overwrite qinit, then run .make output to generate trajectory.

	Make sure overwrite is False in the make file before running.
	"""
	# Check conditions and set up names
	file_suffix = f"{str(seed.bit_generator.seed_seq.entropy)}_{str(seed.bit_generator.seed_seq.spawn_key)}"
	if discontinuous:
	file_suffix = "discontinuous_" + file_suffix
	run_func = partial(
	random_setup,
	seed=seed,
	include_splits=True,
	include_inclusions=False,
	outdir=output_dir + file_suffix,
	T_max=2.0,
	num_steps=101,
	)
	elif inclusions:
	file_suffix = "inclusions_" + file_suffix
	run_func = partial(
	random_setup,
	seed=seed,
	include_splits=True,
	include_inclusions=True,
	outdir=output_dir + file_suffix,
	T_max=2.0,
	num_steps=101,
	)
	elif maze:
	file_suffix = "maze_" + file_suffix
	run_func = partial(
	maze_setup,
	seed=seed,
	outdir=output_dir + file_suffix,
	T_max=4.0,
	num_steps=201,
	)
	else:
	file_suffix = "continuous_" + file_suffix
	run_func = partial(
	random_setup,
	seed=seed,
	include_splits=False,
	include_inclusions=False,
	outdir=output_dir + file_suffix,
	T_max=2.0,
	num_steps=101,
	)

	claw = run_func(output_dir + file_suffix)
	claw.run()


	if __name__ == "__main__":
	# print(len(gases))
	parser = argparse.ArgumentParser(
	description="Generate initial conditions for 2D Euler quadrants"
	)
	# parser.add_argument('--num_samples', type=int, default=1000, help='Number of samples to generate')
	parser.add_argument(
	"--discontinuity",
	action="store_true",
	help="Whether to generate random samples",
	)
	parser.add_argument(
	"--inclusions", action="store_true", help="Whether to generate random samples"
	)
	parser.add_argument(
	"--switch_to_maze",
	action="store_true",
	help="Whether to generate random samples",
	)
	# parser.add_argument('--bc', type=str, default='extrap', help='Boundary conditions')
	# parser.add_argument('--gas_index', type=int, default=0, help='Index of gas to use (0-9 inclusive)')
	parser.add_argument(
	"--seed",
	type=int,
	default=0,
	help="Seed for random samples - use different one per gas/bc if par",
	)
	parser.add_argument(
	"--raw_output_dir",
	type=str,
	default=" /mnt/home/polymathic/ceph/the_well/testing_before_adding/clawpack_data/",
	help="Directory to store raw output",
	)
	args = parser.parse_args()
	seed = np.random.default_rng(
	args.seed
	+ 100 * int(args.discontinuity)
	+ 1000 * int(args.inclusions)
	+ 10000 * int(args.switch_to_maze)
	)
	mp_wrapper(seed, args.discontinuity, args.inclusions, args.switch_to_maze)