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

##############################################################################
# NATS-Bench: Benchmarking NAS Algorithms for Architecture Topology and Size #
##############################################################################
# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2020.08                          #
##############################################################################
# This file is used to re-orangize all checkpoints (created by main-tss.py)  #
# into a single benchmark file. Besides, for each trial, we will merge the   #
# information of all its trials into a single file.                          #
#                                                                            #
# Usage:                                                                     #
# python exps/NATS-Bench/tss-collect-patcher.py                              #
##############################################################################
import os, re, sys, time, shutil, random, argparse, collections
import numpy as np
from copy import deepcopy
import torch
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
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


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()))

  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()

    simple_save_path = simple_save_dir / '{:06d}.pickle'.format(index)
    
    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)))

  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__':

  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})
Update NATS-Bench (tss version 1.0) and remove the trace of 301 2020-09-16 10:28:27 +02:00			`##############################################################################`
Updates 2021-01-25 14:48:14 +01:00			`# NATS-Bench: Benchmarking NAS Algorithms for Architecture Topology and Size #`
Update NATS-Bench (tss version 1.0) and remove the trace of 301 2020-09-16 10:28:27 +02:00			`##############################################################################`
			`# Copyright (c) Xuanyi Dong [GitHub D-X-Y], 2020.08 #`
			`##############################################################################`
			`# This file is used to re-orangize all checkpoints (created by main-tss.py) #`
			`# into a single benchmark file. Besides, for each trial, we will merge the #`
			`# information of all its trials into a single file. #`
			`# #`
			`# Usage: #`
			`# python exps/NATS-Bench/tss-collect-patcher.py #`
			`##############################################################################`
			`import os, re, sys, time, shutil, random, argparse, collections`
			`import numpy as np`
			`from copy import deepcopy`
			`import torch`
			`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`
			`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`


			`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()))`

			`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()`

			`simple_save_path = simple_save_dir / '{:06d}.pickle'.format(index)`

			`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)))`

			`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__':`

			`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})`