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PSB_Project1
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Authored by
bongminkim
2020-04-01 10:31:21 +0900
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c951d5e9d1c98c3a3cef6d10c75084b614d799f3
c951d5e9
1 parent
9b3c0b9d
SA_main
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KoBERT/Sentiment_Analysis_BERT_main.py
KoBERT/Sentiment_Analysis_BERT_main.py
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c951d5e
import
argparse
import
torch
from
torch
import
nn
from
tqdm
import
tqdm
from
transformers
import
AdamW
#from transformers.optimization import WarmupLinearSchedule
import
time
import
random
import
numpy
as
np
from
kobert.pytorch_kobert
import
get_pytorch_kobert_model
bertmodel
,
vocab
=
get_pytorch_kobert_model
()
import
KoBERT.dataset_
as
dataset
# print(vocab.to_tokens(517))
# print(vocab.to_tokens(5515))
# print(vocab.to_tokens(517))
# print(vocab.to_tokens(492))
# print("----------------------------------------------")
# print(vocab.to_tokens(3610))
# print(vocab.to_tokens(7096))
# print(vocab.to_tokens(4214))
# print(vocab.to_tokens(1770))
# print(vocab.to_tokens(517))
# print(vocab.to_tokens(46))
# print(vocab.to_tokens(4525))
# print(vocab.to_tokens(3610))
# print(vocab.to_tokens(6954))
#
# exit()
device
=
torch
.
device
(
"cuda:0"
)
SEED
=
1234
random
.
seed
(
SEED
)
np
.
random
.
seed
(
SEED
)
torch
.
manual_seed
(
SEED
)
torch
.
backends
.
cudnn
.
deterministic
=
True
def
train
(
model
,
iter_loader
,
optimizer
,
loss_fn
):
train_acc
=
0.0
model
.
train
()
for
batch_id
,
(
token_ids
,
valid_length
,
segment_ids
,
label
)
in
enumerate
(
tqdm
(
iter_loader
)):
optimizer
.
zero_grad
()
token_ids
=
token_ids
.
long
()
.
to
(
device
)
segment_ids
=
segment_ids
.
long
()
.
to
(
device
)
valid_length
=
valid_length
label
=
label
.
long
()
.
to
(
device
)
out
=
model
(
token_ids
,
valid_length
,
segment_ids
)
loss
=
loss_fn
(
out
,
label
)
loss
.
backward
()
torch
.
nn
.
utils
.
clip_grad_norm_
(
model
.
parameters
(),
args
.
max_grad_norm
)
optimizer
.
step
()
#scheduler.step() # Update learning rate schedule
train_acc
+=
calc_accuracy
(
out
,
label
)
return
loss
.
data
.
cpu
()
.
numpy
(),
train_acc
/
(
batch_id
+
1
)
def
test
(
model
,
iter_loader
,
loss_fn
):
model
.
eval
()
test_acc
=
0.0
with
torch
.
no_grad
():
for
batch_id
,
(
token_ids
,
valid_length
,
segment_ids
,
label
)
in
enumerate
(
iter_loader
):
token_ids
=
token_ids
.
long
()
.
to
(
device
)
segment_ids
=
segment_ids
.
long
()
.
to
(
device
)
valid_length
=
valid_length
label
=
label
.
long
()
.
to
(
device
)
out
=
model
(
token_ids
,
valid_length
,
segment_ids
)
loss
=
loss_fn
(
out
,
label
)
test_acc
+=
calc_accuracy
(
out
,
label
)
return
loss
.
data
.
cpu
()
.
numpy
(),
test_acc
/
(
batch_id
+
1
)
def
bert_inference
(
model
,
src
):
model
.
eval
()
with
torch
.
no_grad
():
src_data
=
dataset
.
infer
(
args
,
src
)
for
batch_id
,
(
token_ids
,
valid_length
,
segment_ids
)
in
enumerate
(
src_data
):
token_ids
=
torch
.
tensor
([
token_ids
])
.
long
()
.
to
(
device
)
segment_ids
=
torch
.
tensor
([
segment_ids
])
.
long
()
.
to
(
device
)
valid_length
=
valid_length
.
tolist
()
valid_length
=
torch
.
tensor
([
valid_length
])
.
long
()
out
=
model
(
token_ids
,
valid_length
,
segment_ids
)
max_vals
,
max_indices
=
torch
.
max
(
out
,
1
)
label
=
max_indices
.
data
.
cpu
()
.
numpy
()
if
label
==
0
:
return
0
else
:
return
1
return
-
1
import
csv
def
calc_accuracy
(
X
,
Y
):
max_vals
,
max_indices
=
torch
.
max
(
X
,
1
)
if
args
.
do_test
:
max_list
=
max_indices
.
data
.
cpu
()
.
numpy
()
.
tolist
()
f
=
open
(
'chat_Q_label_0325.txt'
,
'a'
,
encoding
=
'utf-8'
)
wr
=
csv
.
writer
(
f
,
delimiter
=
'
\t
'
)
for
i
in
range
(
len
(
max_list
)):
wr
.
writerow
(
str
(
max_list
[
i
]))
train_acc
=
(
max_indices
==
Y
)
.
sum
()
.
data
.
cpu
()
.
numpy
()
/
max_indices
.
size
()[
0
]
return
train_acc
def
epoch_time
(
start_time
,
end_time
):
elapsed_time
=
end_time
-
start_time
elapsed_mins
=
int
(
elapsed_time
/
60
)
elapsed_secs
=
int
(
elapsed_time
-
(
elapsed_mins
*
60
))
return
elapsed_mins
,
elapsed_secs
# Argparse init
parser
=
argparse
.
ArgumentParser
()
parser
.
add_argument
(
'--max_len'
,
type
=
int
,
default
=
64
)
parser
.
add_argument
(
'--batch_size'
,
type
=
int
,
default
=
64
)
parser
.
add_argument
(
'--warmup_ratio'
,
type
=
int
,
default
=
0.1
)
parser
.
add_argument
(
'--num_epochs'
,
type
=
int
,
default
=
5
)
parser
.
add_argument
(
'--max_grad_norm'
,
type
=
int
,
default
=
1
)
parser
.
add_argument
(
'--learning_rate'
,
type
=
float
,
default
=
5e-5
)
parser
.
add_argument
(
'--num_workers'
,
type
=
int
,
default
=
1
)
parser
.
add_argument
(
'--do_train'
,
type
=
bool
,
default
=
False
)
parser
.
add_argument
(
'--do_test'
,
type
=
bool
,
default
=
False
)
parser
.
add_argument
(
'--train'
,
type
=
bool
,
default
=
True
)
args
=
parser
.
parse_args
()
def
main
():
from
Bert_model
import
BERTClassifier
model
=
BERTClassifier
(
bertmodel
,
dr_rate
=
0.5
)
.
to
(
device
)
train_dataloader
,
test_dataloader
=
dataset
.
get_loader
(
args
)
# Prepare optimizer and schedule (linear warmup and decay)
no_decay
=
[
'bias'
,
'LayerNorm.weight'
]
optimizer_grouped_parameters
=
[
{
'params'
:
[
p
for
n
,
p
in
model
.
named_parameters
()
if
not
any
(
nd
in
n
for
nd
in
no_decay
)],
'weight_decay'
:
0.01
},
{
'params'
:
[
p
for
n
,
p
in
model
.
named_parameters
()
if
any
(
nd
in
n
for
nd
in
no_decay
)],
'weight_decay'
:
0.0
}
]
optimizer
=
AdamW
(
optimizer_grouped_parameters
,
lr
=
args
.
learning_rate
)
loss_fn
=
nn
.
CrossEntropyLoss
()
t_total
=
len
(
train_dataloader
)
*
args
.
num_epochs
warmup_step
=
int
(
t_total
*
args
.
warmup_ratio
)
# scheduler = WarmupLinearSchedule(optimizer, warmup_steps=warmup_step, t_total=t_total)
best_valid_loss
=
float
(
'inf'
)
# for idx, (key, value) in enumerate(args.__dict__.items()):
# if idx == 0:
# print("\nargparse{\n", "\t", key, ":", value)
# elif idx == len(args.__dict__) - 1:
# print("\t", key, ":", value, "\n}")
# else:
# print("\t", key, ":", value)
if
args
.
do_train
:
for
epoch
in
range
(
args
.
num_epochs
):
start_time
=
time
.
time
()
print
(
"
\n\t
-----Train-----"
)
train_loss
,
train_acc
=
train
(
model
,
train_dataloader
,
optimizer
,
loss_fn
)
valid_loss
,
valid_acc
=
test
(
model
,
test_dataloader
,
loss_fn
)
end_time
=
time
.
time
()
epoch_mins
,
epoch_secs
=
epoch_time
(
start_time
,
end_time
)
if
valid_loss
<
best_valid_loss
:
best_valid_loss
=
valid_loss
torch
.
save
(
model
.
state_dict
(),
'bert_SA-model.pt'
)
print
(
f
'Epoch: {epoch + 1:02} | Epoch Time: {epoch_mins}m {epoch_secs}s'
)
print
(
f
'
\t
Train Loss: {train_loss:.3f} | Train Acc: {train_acc * 100:.2f}
%
'
)
print
(
f
'
\t
Val. Loss: {valid_loss:.3f} | Val. Acc: {valid_acc * 100:.2f}
%
'
)
model
.
load_state_dict
(
torch
.
load
(
'bert_SA-model.pt'
))
if
args
.
do_test
:
test_loss
,
test_acc
=
test
(
model
,
test_dataloader
,
loss_fn
)
print
(
f
'Test Loss: {test_loss:.3f} | Test Acc: {test_acc * 100:.2f}
%
'
)
# while(1):
# se = input("input : ")
# se_list = [se, '-1']
# bert_inference(model, [se_list])
if
__name__
==
"__main__"
:
main
()
\ No newline at end of file
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