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data_loader_terabyte.py
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data_loader_terabyte.py
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# Copyright (c) 2019, NVIDIA CORPORATION. All rights reserved.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
from __future__ import absolute_import, division, print_function, unicode_literals
import os
import numpy as np
from torch.utils.data import Dataset
import torch
import time
import math
from tqdm import tqdm
import argparse
class DataLoader:
"""
DataLoader dedicated for the Criteo Terabyte Click Logs dataset
"""
def __init__(
self,
data_filename,
data_directory,
days,
batch_size,
max_ind_range=-1,
split="train",
drop_last_batch=False
):
self.data_filename = data_filename
self.data_directory = data_directory
self.days = days
self.batch_size = batch_size
self.max_ind_range = max_ind_range
total_file = os.path.join(
data_directory,
data_filename + "_day_count.npz"
)
with np.load(total_file) as data:
total_per_file = data["total_per_file"][np.array(days)]
self.length = sum(total_per_file)
if split == "test" or split == "val":
self.length = int(np.ceil(self.length / 2.))
self.split = split
self.drop_last_batch = drop_last_batch
def __iter__(self):
return iter(
_batch_generator(
self.data_filename, self.data_directory, self.days,
self.batch_size, self.split, self.drop_last_batch, self.max_ind_range
)
)
def __len__(self):
if self.drop_last_batch:
return self.length // self.batch_size
else:
return math.ceil(self.length / self.batch_size)
def _transform_features(
x_int_batch, x_cat_batch, y_batch, max_ind_range, flag_input_torch_tensor=False
):
if max_ind_range > 0:
x_cat_batch = x_cat_batch % max_ind_range
if flag_input_torch_tensor:
x_int_batch = torch.log(x_int_batch.clone().detach().type(torch.float) + 1)
x_cat_batch = x_cat_batch.clone().detach().type(torch.long)
y_batch = y_batch.clone().detach().type(torch.float32).view(-1, 1)
else:
x_int_batch = torch.log(torch.tensor(x_int_batch, dtype=torch.float) + 1)
x_cat_batch = torch.tensor(x_cat_batch, dtype=torch.long)
y_batch = torch.tensor(y_batch, dtype=torch.float32).view(-1, 1)
batch_size = x_cat_batch.shape[0]
feature_count = x_cat_batch.shape[1]
lS_o = torch.arange(batch_size).reshape(1, -1).repeat(feature_count, 1)
return x_int_batch, lS_o, x_cat_batch.t(), y_batch.view(-1, 1)
def _batch_generator(
data_filename, data_directory, days, batch_size, split, drop_last, max_ind_range
):
previous_file = None
for day in days:
filepath = os.path.join(
data_directory,
data_filename + "_{}_reordered.npz".format(day)
)
# print('Loading file: ', filepath)
with np.load(filepath) as data:
x_int = data["X_int"]
x_cat = data["X_cat"]
y = data["y"]
samples_in_file = y.shape[0]
batch_start_idx = 0
if split == "test" or split == "val":
length = int(np.ceil(samples_in_file / 2.))
if split == "test":
samples_in_file = length
elif split == "val":
batch_start_idx = samples_in_file - length
while batch_start_idx < samples_in_file - batch_size:
missing_samples = batch_size
if previous_file is not None:
missing_samples -= previous_file['y'].shape[0]
current_slice = slice(batch_start_idx, batch_start_idx + missing_samples)
x_int_batch = x_int[current_slice]
x_cat_batch = x_cat[current_slice]
y_batch = y[current_slice]
if previous_file is not None:
x_int_batch = np.concatenate(
[previous_file['x_int'], x_int_batch],
axis=0
)
x_cat_batch = np.concatenate(
[previous_file['x_cat'], x_cat_batch],
axis=0
)
y_batch = np.concatenate([previous_file['y'], y_batch], axis=0)
previous_file = None
if x_int_batch.shape[0] != batch_size:
raise ValueError('should not happen')
yield _transform_features(x_int_batch, x_cat_batch, y_batch, max_ind_range)
batch_start_idx += missing_samples
if batch_start_idx != samples_in_file:
current_slice = slice(batch_start_idx, samples_in_file)
if previous_file is not None:
previous_file = {
'x_int' : np.concatenate(
[previous_file['x_int'], x_int[current_slice]],
axis=0
),
'x_cat' : np.concatenate(
[previous_file['x_cat'], x_cat[current_slice]],
axis=0
),
'y' : np.concatenate([previous_file['y'], y[current_slice]], axis=0)
}
else:
previous_file = {
'x_int' : x_int[current_slice],
'x_cat' : x_cat[current_slice],
'y' : y[current_slice]
}
if not drop_last:
yield _transform_features(
previous_file['x_int'],
previous_file['x_cat'],
previous_file['y'],
max_ind_range
)
def _test():
generator = _batch_generator(
data_filename='day',
data_directory='./input',
days=range(23),
split="train",
batch_size=2048,
drop_last=True,
max_ind_range=-1
)
t1 = time.time()
for x_int, lS_o, x_cat, y in generator:
t2 = time.time()
time_diff = t2 - t1
t1 = t2
print(
"time {} x_int.shape: {} lS_o.shape: {} x_cat.shape: {} y.shape: {}".format(
time_diff, x_int.shape, lS_o.shape, x_cat.shape, y.shape
)
)
class CriteoBinDataset(Dataset):
"""Binary version of criteo dataset."""
def __init__(self, data_file, counts_file,
batch_size=1, max_ind_range=-1, bytes_per_feature=4):
# dataset
self.tar_fea = 1 # single target
self.den_fea = 13 # 13 dense features
self.spa_fea = 26 # 26 sparse features
self.tad_fea = self.tar_fea + self.den_fea
self.tot_fea = self.tad_fea + self.spa_fea
self.batch_size = batch_size
self.max_ind_range = max_ind_range
self.bytes_per_entry = (bytes_per_feature * self.tot_fea * batch_size)
self.num_entries = math.ceil(os.path.getsize(data_file) / self.bytes_per_entry)
print('data file:', data_file, 'number of batches:', self.num_entries)
self.file = open(data_file, 'rb')
with np.load(counts_file) as data:
self.counts = data["counts"]
# hardcoded for now
self.m_den = 13
def __len__(self):
return self.num_entries
def __getitem__(self, idx):
self.file.seek(idx * self.bytes_per_entry, 0)
raw_data = self.file.read(self.bytes_per_entry)
array = np.frombuffer(raw_data, dtype=np.int32)
tensor = torch.from_numpy(array).view((-1, self.tot_fea))
return _transform_features(x_int_batch=tensor[:, 1:14],
x_cat_batch=tensor[:, 14:],
y_batch=tensor[:, 0],
max_ind_range=self.max_ind_range,
flag_input_torch_tensor=True)
def __del__(self):
self.file.close()
def numpy_to_binary(input_files, output_file_path, split='train'):
"""Convert the data to a binary format to be read with CriteoBinDataset."""
# WARNING - both categorical and numerical data must fit into int32 for
# the following code to work correctly
with open(output_file_path, 'wb') as output_file:
if split == 'train':
for input_file in input_files:
print('Processing file: ', input_file)
np_data = np.load(input_file)
np_data = np.concatenate([np_data['y'].reshape(-1, 1),
np_data['X_int'],
np_data['X_cat']], axis=1)
np_data = np_data.astype(np.int32)
output_file.write(np_data.tobytes())
else:
assert len(input_files) == 1
np_data = np.load(input_files[0])
np_data = np.concatenate([np_data['y'].reshape(-1, 1),
np_data['X_int'],
np_data['X_cat']], axis=1)
np_data = np_data.astype(np.int32)
samples_in_file = np_data.shape[0]
midpoint = int(np.ceil(samples_in_file / 2.))
if split == "test":
begin = 0
end = midpoint
elif split == "val":
begin = midpoint
end = samples_in_file
else:
raise ValueError('Unknown split value: ', split)
output_file.write(np_data[begin:end].tobytes())
def _preprocess(args):
train_files = ['{}_{}_reordered.npz'.format(args.input_data_prefix, day) for
day in range(0, 23)]
test_valid_file = args.input_data_prefix + '_23_reordered.npz'
os.makedirs(args.output_directory, exist_ok=True)
for split in ['train', 'val', 'test']:
print('Running preprocessing for split =', split)
output_file = os.path.join(args.output_directory,
'{}_data.bin'.format(split))
input_files = train_files if split == 'train' else [test_valid_file]
numpy_to_binary(input_files=input_files,
output_file_path=output_file,
split=split)
def _test_bin():
parser = argparse.ArgumentParser()
parser.add_argument('--output_directory', required=True)
parser.add_argument('--input_data_prefix', required=True)
parser.add_argument('--split', choices=['train', 'test', 'val'],
required=True)
args = parser.parse_args()
_preprocess(args)
binary_data_file = os.path.join(args.output_directory,
'{}_data.bin'.format(args.split))
counts_file = os.path.join(args.output_directory, 'day_fea_count.npz')
dataset_binary = CriteoBinDataset(data_file=binary_data_file,
counts_file=counts_file,
batch_size=2048,)
from dlrm_data_pytorch import CriteoDataset
from dlrm_data_pytorch import collate_wrapper_criteo_offset as collate_wrapper_criteo
binary_loader = torch.utils.data.DataLoader(
dataset_binary,
batch_size=None,
shuffle=False,
num_workers=0,
collate_fn=None,
pin_memory=False,
drop_last=False,
)
original_dataset = CriteoDataset(
dataset='terabyte',
max_ind_range=10 * 1000 * 1000,
sub_sample_rate=1,
randomize=True,
split=args.split,
raw_path=args.input_data_prefix,
pro_data='dummy_string',
memory_map=True
)
original_loader = torch.utils.data.DataLoader(
original_dataset,
batch_size=2048,
shuffle=False,
num_workers=0,
collate_fn=collate_wrapper_criteo,
pin_memory=False,
drop_last=False,
)
assert len(dataset_binary) == len(original_loader)
for i, (old_batch, new_batch) in tqdm(enumerate(zip(original_loader,
binary_loader)),
total=len(dataset_binary)):
for j in range(len(new_batch)):
if not np.array_equal(old_batch[j], new_batch[j]):
raise ValueError('FAILED: Datasets not equal')
if i > len(dataset_binary):
break
print('PASSED')
if __name__ == '__main__':
_test()
_test_bin()