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train.py
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train.py
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import time
import torch
import torch.nn as nn
from torch.optim.lr_scheduler import LambdaLR
from models.func.subsequent_mask import subsequent_mask
from models.func.LabelSmoothing import LabelSmoothing
from make_model import make_model
#from train import run_epoch
from models.func.Batch import Batch
class TrainState:
"""Track number of steps, examples, and tokens processed"""
step: int = 0 # Steps in the current epoch
accum_step: int = 0 # Number of gradient accumulation steps
samples: int = 0 # total # of examples used
tokens: int = 0 # total # of tokens processed
def run_epoch(
data_iter,
model,
loss_compute,
optimizer,
scheduler,
mode="train",
accum_iter=1,
train_state=TrainState(),
):
"""Train a single epoch"""
start = time.time()
total_tokens = 0
total_loss = 0
tokens = 0
n_accum = 0
for i, batch in enumerate(data_iter):
#print(batch.src_mask.size(), batch.tgt_mask.size())
out = model.forward(
batch.src, batch.tgt, batch.src_mask, batch.tgt_mask
)
loss, loss_node = loss_compute(out, batch.tgt_y, batch.ntokens)
# loss_node = loss_node / accum_iter
if mode == "train" or mode == "train+log":
loss_node.backward()
train_state.step += 1
train_state.samples += batch.src.shape[0]
train_state.tokens += batch.ntokens
if i % accum_iter == 0:
optimizer.step()
optimizer.zero_grad(set_to_none=True)
n_accum += 1
train_state.accum_step += 1
scheduler.step()
total_loss += loss
total_tokens += batch.ntokens
tokens += batch.ntokens
if i % 40 == 1 and (mode == "train" or mode == "train+log"):
lr = optimizer.param_groups[0]["lr"]
elapsed = time.time() - start
print(
(
"Epoch Step: %6d | Accumulation Step: %3d | Loss: %6.2f "
+ "| Tokens / Sec: %7.1f | Learning Rate: %6.1e"
)
% (i, n_accum, loss / batch.ntokens, tokens / elapsed, lr)
)
start = time.time()
tokens = 0
del loss
del loss_node
return total_loss / total_tokens, train_state
class DummyOptimizer(torch.optim.Optimizer):
def __init__(self):
self.param_groups = [{"lr": 0}]
None
def step(self):
None
def zero_grad(self, set_to_none=False):
None
class DummyScheduler:
def step(self):
None
def data_gen(V, batch_size, nbatches):
"Generate random data for a src-tgt copy task."
for i in range(nbatches):
data = torch.randint(1, V, size=(batch_size, 10))
data[:, 0] = 1
src = data.requires_grad_(False).clone().detach()
tgt = data.requires_grad_(False).clone().detach()
yield Batch(src, tgt, 0)
def rate(step, model_size, factor, warmup):
"""
we have to default the step to 1 for LambdaLR function
to avoid zero raising to negative power.
"""
if step == 0:
step = 1
return factor * (
model_size ** (-0.5) * min(step ** (-0.5), step * warmup ** (-1.5))
)
class SimpleLossCompute:
"A simple loss compute and train function."
def __init__(self, generator, criterion):
self.generator = generator
self.criterion = criterion
def __call__(self, x, y, norm):
x = self.generator(x)
sloss = (
self.criterion(
x.contiguous().view(-1, x.size(-1)), y.contiguous().view(-1)
)
/ norm
)
return sloss.data * norm, sloss
def greedy_decode(model, src, src_mask, max_len, start_symbol):
memory = model.encode(src, src_mask)
ys = torch.zeros(1, 1).fill_(start_symbol).type_as(src.data)
for i in range(max_len - 1):
out = model.decode(
memory, src_mask, ys, subsequent_mask(ys.size(1)).type_as(src.data)
)
prob = model.generator(out[:, -1])
_, next_word = torch.max(prob, dim=1)
next_word = next_word.data[0]
ys = torch.cat(
[ys, torch.zeros(1, 1).type_as(src.data).fill_(next_word)], dim=1
)
return ys
def example_simple_model():
V = 11
criterion = LabelSmoothing(size=V, padding_idx=0, smoothing=0.0)
model = make_model(V, V, N=2)
optimizer = torch.optim.Adam(
model.parameters(), lr=0.5, betas=(0.9, 0.98), eps=1e-9
)
lr_scheduler = LambdaLR(
optimizer=optimizer,
lr_lambda=lambda step: rate(
step, model_size=model.src_embed[0].d_model, factor=1.0, warmup=400
),
)
batch_size = 80
for epoch in range(20):
model.train()
print(epoch)
run_epoch(
data_gen(V, batch_size, 20),
model,
SimpleLossCompute(model.generator, criterion),
optimizer,
lr_scheduler,
mode="train",
)
model.eval()
run_epoch(
data_gen(V, batch_size, 5),
model,
SimpleLossCompute(model.generator, criterion),
DummyOptimizer(),
DummyScheduler(),
mode="eval",
)[0]
model.eval()
src = torch.LongTensor([[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]])
max_len = src.shape[1]
src_mask = torch.ones(1, 1, max_len)
print(greedy_decode(model, src, src_mask, max_len=max_len, start_symbol=0))
print('fist text')
example_simple_model()
print('sec text')
V=11
model=make_model(V, V, N=2)
criterion=LabelSmoothing(size=V, padding_idx=0, smoothing=0.0)
optimizer=torch.optim.Adam(
model.parameters(), lr=0.5, betas=(0.9, 0.98), eps=1e-9
)
lr_scheduler=LambdaLR(
optimizer=optimizer,
lr_lambda=lambda step: rate(
step, model_size=model.src_embed[0].d_model, factor=1.0, warmup=400
),
)
run_epoch(
data_gen(V, 80, 20),
model,
SimpleLossCompute(model.generator, criterion),
optimizer,
lr_scheduler,
mode="train",
)