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rmm_train.py
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rmm_train.py
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'''
We implemented `iCaRL+RMM`, `FOSTER+RMM` in [rmm.py](models/rmm.py). We implemented the `Pretraining Stage` of `RMM` in [rmm_train.py](rmm_train.py).
Use the following training script to run it.
```bash
python rmm_train.py --config=./exps/rmm-pretrain.json
```
'''
import json
import argparse
from trainer import train
import sys
import logging
import copy
import torch
from utils import factory
from utils.data_manager import DataManager
from utils.rl_utils.ddpg import DDPG
from utils.rl_utils.rl_utils import ReplayBuffer
from utils.toolkit import count_parameters
import os
import numpy as np
import random
class CILEnv:
def __init__(self, args) -> None:
self._args = copy.deepcopy(args)
self.settings = [(50, 2), (50, 5), (50, 10), (50, 20), (10, 10), (20, 20), (5, 5)]
# self.settings = [(5,5)] # Debug
self._args["init_cls"], self._args["increment"] = self.settings[np.random.randint(len(self.settings))]
self.data_manager = DataManager(
self._args["dataset"],
self._args["shuffle"],
self._args["seed"],
self._args["init_cls"],
self._args["increment"],
)
self.model = factory.get_model(self._args["model_name"], self._args)
@property
def nb_task(self):
return self.data_manager.nb_tasks
@property
def cur_task(self):
return self.model._cur_task
def get_task_size(self, task_id):
return self.data_manager.get_task_size(task_id)
def reset(self):
self._args["init_cls"], self._args["increment"] = self.settings[np.random.randint(len(self.settings))]
self.data_manager = DataManager(
self._args["dataset"],
self._args["shuffle"],
self._args["seed"],
self._args["init_cls"],
self._args["increment"],
)
self.model = factory.get_model(self._args["model_name"], self._args)
info = "start new task: dataset: {}, init_cls: {}, increment: {}".format(
self._args["dataset"], self._args["init_cls"], self._args["increment"]
)
return np.array([self.get_task_size(0) / 100, 0]), None, False, info
def step(self, action):
self.model._m_rate_list.append(action[0])
self.model._c_rate_list.append(action[1])
self.model.incremental_train(self.data_manager)
cnn_accy, nme_accy = self.model.eval_task()
self.model.after_task()
done = self.cur_task == self.nb_task - 1
info = "running task [{}/{}]: dataset: {}, increment: {}, cnn_accy top1: {}, top5: {}".format(
self.model._known_classes,
100,
self._args["dataset"],
self._args["increment"],
cnn_accy["top1"],
cnn_accy["top5"],
)
return (
np.array(
[
self.get_task_size(self.cur_task+1)/100 if not done else 0.,
self.model.memory_size
/ (self.model.memory_size + self.model.new_memory_size),
]
),
cnn_accy["top1"]/100,
done,
info,
)
def _train(args):
logs_name = "logs/RL-CIL/{}/".format(args["model_name"])
if not os.path.exists(logs_name):
os.makedirs(logs_name)
logfilename = "logs/RL-CIL/{}/{}_{}_{}_{}_{}".format(
args["model_name"],
args["prefix"],
args["seed"],
args["model_name"],
args["convnet_type"],
args["dataset"],
)
logging.basicConfig(
level=logging.INFO,
format="%(asctime)s [%(filename)s] => %(message)s",
handlers=[
logging.FileHandler(filename=logfilename + ".log"),
logging.StreamHandler(sys.stdout),
],
)
_set_random()
_set_device(args)
print_args(args)
actor_lr = 5e-4
critic_lr = 5e-3
num_episodes = 200
hidden_dim = 32
gamma = 0.98
tau = 0.005
buffer_size = 1000
minimal_size = 50
batch_size = 32
sigma = 0.2 # action noise, encouraging the off-policy algo to explore.
device = torch.device("cuda") if torch.cuda.is_available() else torch.device("cpu")
env = CILEnv(args)
replay_buffer = ReplayBuffer(buffer_size)
agent = DDPG(
2, 1, 4, hidden_dim, False, 1, sigma, actor_lr, critic_lr, tau, gamma, device
)
for iteration in range(num_episodes):
state, *_, info = env.reset()
logging.info(info)
done = False
while not done:
action = agent.take_action(state)
logging.info(f"take action: m_rate {action[0]}, c_rate {action[1]}")
next_state, reward, done, info = env.step(action)
logging.info(info)
replay_buffer.add(state, action, reward, next_state, done)
state = next_state
if replay_buffer.size() > minimal_size:
b_s, b_a, b_r, b_ns, b_d = replay_buffer.sample(batch_size)
transition_dict = {
"states": b_s,
"actions": b_a,
"next_states": b_ns,
"rewards": b_r,
"dones": b_d,
}
agent.update(transition_dict)
def _set_device(args):
device_type = args["device"]
gpus = []
for device in device_type:
if device_type == -1:
device = torch.device("cpu")
else:
device = torch.device("cuda:{}".format(device))
gpus.append(device)
args["device"] = gpus
def _set_random():
random.seed(1)
torch.manual_seed(1)
torch.cuda.manual_seed(1)
torch.cuda.manual_seed_all(1)
torch.backends.cudnn.deterministic = True
torch.backends.cudnn.benchmark = False
def print_args(args):
for key, value in args.items():
logging.info("{}: {}".format(key, value))
def train(args):
seed_list = copy.deepcopy(args["seed"])
device = copy.deepcopy(args["device"])
for seed in seed_list:
args["seed"] = seed
args["device"] = device
_train(args)
def main():
args = setup_parser().parse_args()
param = load_json(args.config)
args = vars(args) # Converting argparse Namespace to a dict.
args.update(param) # Add parameters from json
train(args)
def load_json(settings_path):
with open(settings_path) as data_file:
param = json.load(data_file)
return param
def setup_parser():
parser = argparse.ArgumentParser(
description="Reproduce of multiple continual learning algorthms."
)
parser.add_argument(
"--config",
type=str,
default="./exps/finetune.json",
help="Json file of settings.",
)
return parser
if __name__ == "__main__":
main()