Reformulate via black

exps/NATS-Bench/tss-collect-patcher.py

@@ -18,112 +18,140 @@ from tqdm import tqdm
 from pathlib import Path
 from collections import defaultdict, OrderedDict
 from typing import Dict, Any, Text, List
-lib_dir = (Path(__file__).parent / '..' / '..' / 'lib').resolve()
-if str(lib_dir) not in sys.path: sys.path.insert(0, str(lib_dir))
-from log_utils    import AverageMeter, time_string, convert_secs2time
+
+lib_dir = (Path(__file__).parent / ".." / ".." / "lib").resolve()
+if str(lib_dir) not in sys.path:
+    sys.path.insert(0, str(lib_dir))
+from log_utils import AverageMeter, time_string, convert_secs2time
 from config_utils import load_config, dict2config
-from datasets     import get_datasets
-from models       import CellStructure, get_cell_based_tiny_net, get_search_spaces
-from nats_bench   import pickle_save, pickle_load, ArchResults, ResultsCount
-from procedures   import bench_pure_evaluate as pure_evaluate, get_nas_bench_loaders
-from utils        import get_md5_file
-from nas_201_api  import NASBench201API
+from datasets import get_datasets
+from models import CellStructure, get_cell_based_tiny_net, get_search_spaces
+from nats_bench import pickle_save, pickle_load, ArchResults, ResultsCount
+from procedures import bench_pure_evaluate as pure_evaluate, get_nas_bench_loaders
+from utils import get_md5_file
+from nas_201_api import NASBench201API
 
 
-NATS_TSS_BASE_NAME = 'NATS-tss-v1_0'  # 2020.08.28
+NATS_TSS_BASE_NAME = "NATS-tss-v1_0"  # 2020.08.28
 
 
 def simplify(save_dir, save_name, nets, total, sup_config):
-  hps, seeds = ['12', '200'], set()
-  for hp in hps:
-    sub_save_dir = save_dir / 'raw-data-{:}'.format(hp)
-    ckps = sorted(list(sub_save_dir.glob('arch-*-seed-*.pth')))
-    seed2names = defaultdict(list)
-    for ckp in ckps:
-      parts = re.split('-|\.', ckp.name)
-      seed2names[parts[3]].append(ckp.name)
-    print('DIR : {:}'.format(sub_save_dir))
-    nums = []
-    for seed, xlist in seed2names.items():
-      seeds.add(seed)
-      nums.append(len(xlist))
-      print('  [seed={:}] there are {:} checkpoints.'.format(seed, len(xlist)))
-    assert len(nets) == total == max(nums), 'there are some missed files : {:} vs {:}'.format(max(nums), total)
-  print('{:} start simplify the checkpoint.'.format(time_string()))
+    hps, seeds = ["12", "200"], set()
+    for hp in hps:
+        sub_save_dir = save_dir / "raw-data-{:}".format(hp)
+        ckps = sorted(list(sub_save_dir.glob("arch-*-seed-*.pth")))
+        seed2names = defaultdict(list)
+        for ckp in ckps:
+            parts = re.split("-|\.", ckp.name)
+            seed2names[parts[3]].append(ckp.name)
+        print("DIR : {:}".format(sub_save_dir))
+        nums = []
+        for seed, xlist in seed2names.items():
+            seeds.add(seed)
+            nums.append(len(xlist))
+            print("  [seed={:}] there are {:} checkpoints.".format(seed, len(xlist)))
+        assert len(nets) == total == max(nums), "there are some missed files : {:} vs {:}".format(max(nums), total)
+    print("{:} start simplify the checkpoint.".format(time_string()))
 
-  datasets = ('cifar10-valid', 'cifar10', 'cifar100', 'ImageNet16-120')
+    datasets = ("cifar10-valid", "cifar10", "cifar100", "ImageNet16-120")
 
-  # Create the directory to save the processed data
-  # full_save_dir contains all benchmark files with trained weights.
-  # simplify_save_dir contains all benchmark files without trained weights.
-  full_save_dir = save_dir / (save_name + '-FULL')
-  simple_save_dir = save_dir / (save_name + '-SIMPLIFY')
-  full_save_dir.mkdir(parents=True, exist_ok=True)
-  simple_save_dir.mkdir(parents=True, exist_ok=True)
-  # all data in memory
-  arch2infos, evaluated_indexes = dict(), set()
-  end_time, arch_time = time.time(), AverageMeter()
-  # save the meta information
-  for index in tqdm(range(total)):
-    arch_str = nets[index]
-    hp2info = OrderedDict()
+    # Create the directory to save the processed data
+    # full_save_dir contains all benchmark files with trained weights.
+    # simplify_save_dir contains all benchmark files without trained weights.
+    full_save_dir = save_dir / (save_name + "-FULL")
+    simple_save_dir = save_dir / (save_name + "-SIMPLIFY")
+    full_save_dir.mkdir(parents=True, exist_ok=True)
+    simple_save_dir.mkdir(parents=True, exist_ok=True)
+    # all data in memory
+    arch2infos, evaluated_indexes = dict(), set()
+    end_time, arch_time = time.time(), AverageMeter()
+    # save the meta information
+    for index in tqdm(range(total)):
+        arch_str = nets[index]
+        hp2info = OrderedDict()
 
-    simple_save_path = simple_save_dir / '{:06d}.pickle'.format(index)
-    
-    arch2infos[index] = pickle_load(simple_save_path)
-    evaluated_indexes.add(index)
+        simple_save_path = simple_save_dir / "{:06d}.pickle".format(index)
 
-    # measure elapsed time
-    arch_time.update(time.time() - end_time)
-    end_time  = time.time()
-    need_time = '{:}'.format(convert_secs2time(arch_time.avg * (total-index-1), True))
-    # print('{:} {:06d}/{:06d} : still need {:}'.format(time_string(), index, total, need_time))
-  print('{:} {:} done.'.format(time_string(), save_name))
-  final_infos = {'meta_archs' : nets,
-                 'total_archs': total,
-                 'arch2infos' : arch2infos,
-                 'evaluated_indexes': evaluated_indexes}
-  save_file_name = save_dir / '{:}.pickle'.format(save_name)
-  pickle_save(final_infos, str(save_file_name))
-  # move the benchmark file to a new path
-  hd5sum = get_md5_file(str(save_file_name) + '.pbz2')
-  hd5_file_name = save_dir / '{:}-{:}.pickle.pbz2'.format(NATS_TSS_BASE_NAME, hd5sum)
-  shutil.move(str(save_file_name) + '.pbz2', hd5_file_name)
-  print('Save {:} / {:} architecture results into {:} -> {:}.'.format(len(evaluated_indexes), total, save_file_name, hd5_file_name))
-  # move the directory to a new path
-  hd5_full_save_dir = save_dir / '{:}-{:}-full'.format(NATS_TSS_BASE_NAME, hd5sum)
-  hd5_simple_save_dir = save_dir / '{:}-{:}-simple'.format(NATS_TSS_BASE_NAME, hd5sum)
-  shutil.move(full_save_dir, hd5_full_save_dir)
-  shutil.move(simple_save_dir, hd5_simple_save_dir)
+        arch2infos[index] = pickle_load(simple_save_path)
+        evaluated_indexes.add(index)
+
+        # measure elapsed time
+        arch_time.update(time.time() - end_time)
+        end_time = time.time()
+        need_time = "{:}".format(convert_secs2time(arch_time.avg * (total - index - 1), True))
+        # print('{:} {:06d}/{:06d} : still need {:}'.format(time_string(), index, total, need_time))
+    print("{:} {:} done.".format(time_string(), save_name))
+    final_infos = {
+        "meta_archs": nets,
+        "total_archs": total,
+        "arch2infos": arch2infos,
+        "evaluated_indexes": evaluated_indexes,
+    }
+    save_file_name = save_dir / "{:}.pickle".format(save_name)
+    pickle_save(final_infos, str(save_file_name))
+    # move the benchmark file to a new path
+    hd5sum = get_md5_file(str(save_file_name) + ".pbz2")
+    hd5_file_name = save_dir / "{:}-{:}.pickle.pbz2".format(NATS_TSS_BASE_NAME, hd5sum)
+    shutil.move(str(save_file_name) + ".pbz2", hd5_file_name)
+    print(
+        "Save {:} / {:} architecture results into {:} -> {:}.".format(
+            len(evaluated_indexes), total, save_file_name, hd5_file_name
+        )
+    )
+    # move the directory to a new path
+    hd5_full_save_dir = save_dir / "{:}-{:}-full".format(NATS_TSS_BASE_NAME, hd5sum)
+    hd5_simple_save_dir = save_dir / "{:}-{:}-simple".format(NATS_TSS_BASE_NAME, hd5sum)
+    shutil.move(full_save_dir, hd5_full_save_dir)
+    shutil.move(simple_save_dir, hd5_simple_save_dir)
 
 
 def traverse_net(max_node):
-  aa_nas_bench_ss = get_search_spaces('cell', 'nats-bench')
-  archs = CellStructure.gen_all(aa_nas_bench_ss, max_node, False)
-  print ('There are {:} archs vs {:}.'.format(len(archs), len(aa_nas_bench_ss) ** ((max_node-1)*max_node/2)))
+    aa_nas_bench_ss = get_search_spaces("cell", "nats-bench")
+    archs = CellStructure.gen_all(aa_nas_bench_ss, max_node, False)
+    print("There are {:} archs vs {:}.".format(len(archs), len(aa_nas_bench_ss) ** ((max_node - 1) * max_node / 2)))
 
-  random.seed( 88 ) # please do not change this line for reproducibility
-  random.shuffle( archs )
-  assert archs[0  ].tostr() == '|avg_pool_3x3~0|+|nor_conv_1x1~0|skip_connect~1|+|nor_conv_1x1~0|skip_connect~1|skip_connect~2|', 'please check the 0-th architecture : {:}'.format(archs[0])
-  assert archs[9  ].tostr() == '|avg_pool_3x3~0|+|none~0|none~1|+|skip_connect~0|none~1|nor_conv_3x3~2|', 'please check the 9-th architecture : {:}'.format(archs[9])
-  assert archs[123].tostr() == '|avg_pool_3x3~0|+|avg_pool_3x3~0|nor_conv_1x1~1|+|none~0|avg_pool_3x3~1|nor_conv_3x3~2|', 'please check the 123-th architecture : {:}'.format(archs[123])
-  return [x.tostr() for x in archs]
+    random.seed(88)  # please do not change this line for reproducibility
+    random.shuffle(archs)
+    assert (
+        archs[0].tostr()
+        == "|avg_pool_3x3~0|+|nor_conv_1x1~0|skip_connect~1|+|nor_conv_1x1~0|skip_connect~1|skip_connect~2|"
+    ), "please check the 0-th architecture : {:}".format(archs[0])
+    assert (
+        archs[9].tostr() == "|avg_pool_3x3~0|+|none~0|none~1|+|skip_connect~0|none~1|nor_conv_3x3~2|"
+    ), "please check the 9-th architecture : {:}".format(archs[9])
+    assert (
+        archs[123].tostr() == "|avg_pool_3x3~0|+|avg_pool_3x3~0|nor_conv_1x1~1|+|none~0|avg_pool_3x3~1|nor_conv_3x3~2|"
+    ), "please check the 123-th architecture : {:}".format(archs[123])
+    return [x.tostr() for x in archs]
 
 
-if __name__ == '__main__':
+if __name__ == "__main__":
 
-  parser = argparse.ArgumentParser(description='NATS-Bench (topology search space)', formatter_class=argparse.ArgumentDefaultsHelpFormatter)
-  parser.add_argument('--base_save_dir',  type=str, default='./output/NATS-Bench-topology', help='The base-name of folder to save checkpoints and log.')
-  parser.add_argument('--max_node'     ,  type=int, default=4,                           help='The maximum node in a cell.')
-  parser.add_argument('--channel'      ,  type=int, default=16,                          help='The number of channels.')
-  parser.add_argument('--num_cells'    ,  type=int, default=5,                           help='The number of cells in one stage.')
-  parser.add_argument('--check_N'      ,  type=int, default=15625,  help='For safety.')
-  parser.add_argument('--save_name'    ,  type=str, default='process',                  help='The save directory.')
-  args = parser.parse_args()
-  
-  nets = traverse_net(args.max_node)
-  if len(nets) != args.check_N:
-    raise ValueError('Pre-num-check failed : {:} vs {:}'.format(len(nets), args.check_N))
-  
-  save_dir  = Path(args.base_save_dir)
-  simplify(save_dir, args.save_name, nets, args.check_N, {'name': 'infer.tiny', 'channel': args.channel, 'num_cells': args.num_cells})
+    parser = argparse.ArgumentParser(
+        description="NATS-Bench (topology search space)", formatter_class=argparse.ArgumentDefaultsHelpFormatter
+    )
+    parser.add_argument(
+        "--base_save_dir",
+        type=str,
+        default="./output/NATS-Bench-topology",
+        help="The base-name of folder to save checkpoints and log.",
+    )
+    parser.add_argument("--max_node", type=int, default=4, help="The maximum node in a cell.")
+    parser.add_argument("--channel", type=int, default=16, help="The number of channels.")
+    parser.add_argument("--num_cells", type=int, default=5, help="The number of cells in one stage.")
+    parser.add_argument("--check_N", type=int, default=15625, help="For safety.")
+    parser.add_argument("--save_name", type=str, default="process", help="The save directory.")
+    args = parser.parse_args()
+
+    nets = traverse_net(args.max_node)
+    if len(nets) != args.check_N:
+        raise ValueError("Pre-num-check failed : {:} vs {:}".format(len(nets), args.check_N))
+
+    save_dir = Path(args.base_save_dir)
+    simplify(
+        save_dir,
+        args.save_name,
+        nets,
+        args.check_N,
+        {"name": "infer.tiny", "channel": args.channel, "num_cells": args.num_cells},
+    )