finetune_classifier.py 9.8 KB
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#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import os
import re
import time
import logging
import json
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from random import random
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from functools import reduce, partial
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from visualdl import LogWriter
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import numpy as np
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import logging
import argparse
from pathlib import Path
import paddle as P
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from propeller import log
import propeller.paddle as propeller

log.setLevel(logging.DEBUG)
logging.getLogger().setLevel(logging.DEBUG)

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#from model.bert import BertConfig, BertModelLayer
from ernie.modeling_ernie import ErnieModel, ErnieModelForSequenceClassification
from ernie.tokenizing_ernie import ErnieTokenizer, ErnieTinyTokenizer
#from ernie.optimization import AdamW, LinearDecay
from demo.utils import create_if_not_exists, get_warmup_and_linear_decay

parser = argparse.ArgumentParser('classify model with ERNIE')
parser.add_argument(
    '--from_pretrained',
    type=Path,
    required=True,
    help='pretrained model directory or tag')
parser.add_argument(
    '--max_seqlen',
    type=int,
    default=128,
    help='max sentence length, should not greater than 512')
parser.add_argument(
    '--bsz',
    type=int,
    default=128,
    help='global batch size for each optimizer step')
parser.add_argument(
    '--micro_bsz',
    type=int,
    default=32,
    help='batch size for each device. if `--bsz` > `--micro_bsz` * num_device, will do grad accumulate'
)
parser.add_argument('--epoch', type=int, default=3, help='epoch')
parser.add_argument(
    '--data_dir',
    type=str,
    required=True,
    help='data directory includes train / develop data')
parser.add_argument(
    '--use_lr_decay',
    action='store_true',
    help='if set, learning rate will decay to zero at `max_steps`')
parser.add_argument(
    '--warmup_proportion',
    type=float,
    default=0.1,
    help='if use_lr_decay is set, '
    'learning rate will raise to `lr` at `warmup_proportion` * `max_steps` and decay to 0. at `max_steps`'
)
parser.add_argument('--lr', type=float, default=5e-5, help='learning rate')
parser.add_argument(
    '--inference_model_dir',
    type=Path,
    default=None,
    help='inference model output directory')
parser.add_argument(
    '--save_dir', type=Path, required=True, help='model output directory')
parser.add_argument(
    '--max_steps',
    type=int,
    default=None,
    help='max_train_steps, set this to EPOCH * NUM_SAMPLES / BATCH_SIZE')
parser.add_argument(
    '--wd', type=float, default=0.01, help='weight decay, aka L2 regularizer')
parser.add_argument(
    '--init_checkpoint',
    type=str,
    default=None,
    help='checkpoint to warm start from')
parser.add_argument(
    '--use_amp',
    action='store_true',
    help='only activate AMP(auto mixed precision accelatoin) on TensorCore compatible devices'
)

args = parser.parse_args()

if args.bsz > args.micro_bsz:
    assert args.bsz % args.micro_bsz == 0, 'cannot perform gradient accumulate with bsz:%d micro_bsz:%d' % (
        args.bsz, args.micro_bsz)
    acc_step = args.bsz // args.micro_bsz
    log.info(
        'performing gradient accumulate: global_bsz:%d, micro_bsz:%d, accumulate_steps:%d'
        % (args.bsz, args.micro_bsz, acc_step))
    args.bsz = args.micro_bsz
else:
    acc_step = 1

tokenizer = ErnieTokenizer.from_pretrained(args.from_pretrained)
#tokenizer = ErnieTinyTokenizer.from_pretrained(args.from_pretrained)

feature_column = propeller.data.FeatureColumns([
    propeller.data.TextColumn(
        'seg_a',
        unk_id=tokenizer.unk_id,
        vocab_dict=tokenizer.vocab,
        tokenizer=tokenizer.tokenize),
    propeller.data.TextColumn(
        'seg_b',
        unk_id=tokenizer.unk_id,
        vocab_dict=tokenizer.vocab,
        tokenizer=tokenizer.tokenize),
    propeller.data.LabelColumn(
        'label',
        vocab_dict={
            b"contradictory": 0,
            b"contradiction": 0,
            b"entailment": 1,
            b"neutral": 2,
        }),
])


def map_fn(seg_a, seg_b, label):
    seg_a, seg_b = tokenizer.truncate(seg_a, seg_b, seqlen=args.max_seqlen)
    sentence, segments = tokenizer.build_for_ernie(seg_a, seg_b)
    return sentence, segments, label


train_ds = feature_column.build_dataset('train', data_dir=os.path.join(args.data_dir, 'train'), shuffle=True, repeat=False, use_gz=False) \
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                               .map(map_fn) \
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                               .padded_batch(args.bsz, (0, 0, 0))
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dev_ds = feature_column.build_dataset('dev', data_dir=os.path.join(args.data_dir, 'dev'), shuffle=False, repeat=False, use_gz=False) \
                               .map(map_fn) \
                               .padded_batch(args.bsz, (0, 0, 0))

place = P.CUDAPlace(0)
model = ErnieModelForSequenceClassification.from_pretrained(
    args.from_pretrained, num_labels=3, name='')

if args.init_checkpoint is not None:
    log.info('loading checkpoint from %s' % args.init_checkpoint)
    sd = P.load(args.init_checkpoint)
    model.set_state_dict(sd)

g_clip = P.nn.ClipGradByGlobalNorm(1.0)  #experimental
param_name_to_exclue_from_weight_decay = re.compile(
    r'.*layer_norm_scale|.*layer_norm_bias|.*b_0')
if args.use_lr_decay:
    lr_scheduler = P.optimizer.lr.LambdaDecay(
        args.lr,
        get_warmup_and_linear_decay(
            args.max_steps, int(args.warmup_proportion * args.max_steps)))
    opt = P.optimizer.AdamW(
        lr_scheduler,
        parameters=model.parameters(),
        weight_decay=args.wd,
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        apply_decay_param_fun=lambda n: not param_name_to_exclue_from_weight_decay.match(n),
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        grad_clip=g_clip)
else:
    lr_scheduler = None
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    opt = P.optimizer.AdamW(
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        args.lr,
        parameters=model.parameters(),
        weight_decay=args.wd,
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        apply_decay_param_fun=lambda n: not param_name_to_exclue_from_weight_decay.match(n),
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        grad_clip=g_clip)

scaler = P.amp.GradScaler(enable=args.use_amp)
step, inter_step = 0, 0
with LogWriter(
        logdir=str(create_if_not_exists(args.save_dir / 'vdl'))) as log_writer:
    with P.amp.auto_cast(enable=args.use_amp):
        for epoch in range(args.epoch):
            for ids, sids, label in P.io.DataLoader(
                    train_ds, places=P.CUDAPlace(0), batch_size=None):
                inter_step += 1
                loss, _ = model(ids, sids, labels=label)
                loss /= acc_step
                loss = scaler.scale(loss)
                loss.backward()
                if inter_step % acc_step != 0:
                    continue
                step += 1
                scaler.minimize(opt, loss)
                model.clear_gradients()
                lr_scheduler and lr_scheduler.step()

                if step % 10 == 0:
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                    _lr = lr_scheduler.get_lr(
                    ) if args.use_lr_decay else args.lr
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                    if args.use_amp:
                        _l = (loss / scaler._scale).numpy()
                        msg = '[step-%d] train loss %.5f lr %.3e scaling %.3e' % (
                            step, _l, _lr, scaler._scale.numpy())
                    else:
                        _l = loss.numpy()
                        msg = '[step-%d] train loss %.5f lr %.3e' % (step, _l,
                                                                     _lr)
                    log.debug(msg)
                    log_writer.add_scalar('loss', _l, step=step)
                    log_writer.add_scalar('lr', _lr, step=step)
                if step % 100 == 0:
                    acc = []
                    with P.no_grad():
                        model.eval()
                        for ids, sids, label in P.io.DataLoader(
                                dev_ds, places=P.CUDAPlace(0),
                                batch_size=None):
                            loss, logits = model(ids, sids, labels=label)
                            #print('\n'.join(map(str, logits.numpy().tolist())))
                            a = (logits.argmax(-1) == label)
                            acc.append(a.numpy())
                        model.train()
                    acc = np.concatenate(acc).mean()
                    log_writer.add_scalar('eval/acc', acc, step=step)
                    log.debug('acc %.5f' % acc)
                    if args.save_dir is not None:
                        P.save(model.state_dict(), args.save_dir / 'ckpt.bin')
if args.save_dir is not None:
    P.save(model.state_dict(), args.save_dir / 'ckpt.bin')
if args.inference_model_dir is not None:

    class InferenceModel(ErnieModelForSequenceClassification):
        def forward(self, ids, sids):
            _, logits = super(InferenceModel, self).forward(ids, sids)
            return logits

    model.__class__ = InferenceModel
    log.debug('saving inference model')
    src_placeholder = P.zeros([2, 2], dtype='int64')
    sent_placehodler = P.zeros([2, 2], dtype='int64')
    _, static = P.jit.TracedLayer.trace(
        model, inputs=[src_placeholder, sent_placehodler])
    static.save_inference_model(str(args.inference_model_dir))

    #class InferenceModel(ErnieModelForSequenceClassification):
    #    @P.jit.to_static
    #    def forward(self, ids, sids):
    #        _, logits =  super(InferenceModel, self).forward(ids, sids, labels=None)
    #        return logits
    #model.__class__ = InferenceModel
    #src_placeholder = P.zeros([2, 2], dtype='int64')
    #sent_placehodler = P.zeros([2, 2], dtype='int64')
    #P.jit.save(model, args.inference_model_dir, input_var=[src_placeholder, sent_placehodler])
    log.debug('done')