提交 1b59220d 编写于 作者: S sneaxiy

complete python reader op python side

上级 19fd0717
...@@ -449,6 +449,8 @@ All parameter, weight, gradient are variables in Paddle. ...@@ -449,6 +449,8 @@ All parameter, weight, gradient are variables in Paddle.
}); });
py::class_<LoDTensorArray>(m, "LoDTensorArray") py::class_<LoDTensorArray>(m, "LoDTensorArray")
.def("__init__",
[](LoDTensorArray &instance) { new (&instance) LoDTensorArray(); })
.def("__getitem__", .def("__getitem__",
[](LoDTensorArray &self, size_t i) { return &self.at(i); }, [](LoDTensorArray &self, size_t i) { return &self.at(i); },
py::return_value_policy::reference) py::return_value_policy::reference)
......
...@@ -44,7 +44,7 @@ import metrics ...@@ -44,7 +44,7 @@ import metrics
import transpiler import transpiler
from param_attr import ParamAttr, WeightNormParamAttr from param_attr import ParamAttr, WeightNormParamAttr
from data_feeder import DataFeeder from data_feeder import DataFeeder
from core import LoDTensor, CPUPlace, CUDAPlace, CUDAPinnedPlace from core import LoDTensor, LoDTensorArray, CPUPlace, CUDAPlace, CUDAPinnedPlace, Scope
from transpiler import DistributeTranspiler, InferenceTranspiler, \ from transpiler import DistributeTranspiler, InferenceTranspiler, \
memory_optimize, release_memory memory_optimize, release_memory
from concurrency import (Go, make_channel, channel_send, channel_recv, from concurrency import (Go, make_channel, channel_send, channel_recv,
...@@ -72,6 +72,7 @@ __all__ = framework.__all__ + executor.__all__ + concurrency.__all__ + \ ...@@ -72,6 +72,7 @@ __all__ = framework.__all__ + executor.__all__ + concurrency.__all__ + \
'backward', 'backward',
'regularizer', 'regularizer',
'LoDTensor', 'LoDTensor',
'LoDTensorArray',
'CPUPlace', 'CPUPlace',
'CUDAPlace', 'CUDAPlace',
'CUDAPinnedPlace', 'CUDAPinnedPlace',
......
...@@ -22,9 +22,10 @@ from ..executor import global_scope ...@@ -22,9 +22,10 @@ from ..executor import global_scope
from layer_function_generator import generate_layer_fn, templatedoc from layer_function_generator import generate_layer_fn, templatedoc
__all__ = [ __all__ = [
'data', 'BlockGuardServ', 'ListenAndServ', 'Send', 'open_recordio_file', 'data', 'BlockGuardServ', 'ListenAndServ', 'Send', 'Recv',
'open_files', 'read_file', 'shuffle', 'batch', 'double_buffer', 'open_recordio_file', 'open_files', 'read_file', 'shuffle', 'batch',
'random_data_generator', 'Preprocessor', 'load' 'double_buffer', 'random_data_generator', 'py_reader', 'Preprocessor',
'load'
] ]
...@@ -431,6 +432,88 @@ def random_data_generator(low, high, shapes, lod_levels, for_parallel=True): ...@@ -431,6 +432,88 @@ def random_data_generator(low, high, shapes, lod_levels, for_parallel=True):
return monkey_patch_reader_methods(main_prog_var) return monkey_patch_reader_methods(main_prog_var)
def py_reader(capacity, shapes, lod_levels, dtypes, for_parallel=True):
"""
Create a reader and blocking queue for data feeding in Python
This layer returns a Reader Variable and a BlockingQueue.
The BlockingQueue provides `push()` method to push a
`LoDTensorArray` object into the queue in Python side. In C++
side, the Reader Variable would invoke `pop()` method of the
queue to retrieve the feeding data. The process of feeding data
in Python side and fetching data in C++ side can run in parallel.
The BlockingQueue should be closed using `close()` method when
unused.
Args:
capacity(int): The maximum capacity of the BlockingQueue.
shapes(list): List of tuples which declaring data shapes.
lod_levels(list): List of ints which declaring data lod_level.
dtypes(list): List of strs which declaring data type.
for_parallel(Bool): Set it as True if you are going to run
subsequent operators in parallel.
Returns:
Variable: A Reader Variable from which we can get feeding data.
BlockingQueue: A blocking queue for data feeding.
Examples:
.. code-block:: python
reader, queue = fluid.layers.py_reader(
capacity=10,
shapes=[[-1,3,224,224], [-1,1]],
lod_levels=[0, 0],
dtypes=['float32', 'int64'])
# Via the reader, we can use 'read_file' layer to get data:
image, label = fluid.layers.read_file(reader)
# Via the blocking queue, we can feed data using threads
def feed_data(queue, feed_images, feed_labels):
for feed_image, feed_label in zip(feed_images, feed_labels):
data = core.LoDTensorArray()
data.append(feed_image)
data.append(feed_label)
queue.push(data)
thread = threading.Thread(target=feed_data, args=(queue, feed_images, feed_labels))
"""
dtypes = [convert_np_dtype_to_dtype_(dt) for dt in dtypes]
shape_concat = []
ranks = []
for shape in shapes:
shape_concat.extend(shape)
ranks.append(len(shape))
queue_name = unique_name('lod_tensor_blocking_queue')
var = global_scope().var(queue_name)
feed_queue = core.init_lod_tensor_blocking_queue(var, capacity, shapes)
startup_blk = default_startup_program().current_block()
startup_var = startup_blk.create_var(name=unique_name('create_py_reader'))
startup_blk.append_op(
type='create_py_reader',
inputs={'blocking_queue': queue_name},
outputs={'Out': [startup_var]},
attrs={
'shape_concat': shape_concat,
'lod_levels': lod_levels,
'ranks': ranks
})
startup_var.desc.set_dtypes(dtypes)
startup_var.persistable = True
main_prog_var = _copy_reader_var_(default_main_program().current_block(),
startup_var)
if for_parallel:
main_prog_var = parallel(reader=main_prog_var)
return monkey_patch_reader_methods(main_prog_var), feed_queue
def open_files(filenames, def open_files(filenames,
shapes, shapes,
lod_levels, lod_levels,
......
# 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 unittest
import paddle.fluid as fluid
import numpy as np
from threading import Thread
def feed_data(feed_queue, inputs):
for in_data in inputs:
feed_queue.push(in_data)
class TestPyReader(unittest.TestCase):
def setUp(self):
self.capacity = 10
self.batch_size_min = 10
self.batch_size_max = 20
self.shapes = [(-1, 3, 2, 1), (-1, 1)]
self.lod_levels = [0, 0]
self.dtypes = ['float32', 'int64']
self.iterations = 20
def test_single_thread_main(self):
self.main(use_thread=False)
def test_multiple_thread_main(self):
self.main(use_thread=True)
def main(self, use_thread=False):
with fluid.program_guard(fluid.Program(), fluid.Program()):
place = fluid.CUDAPlace(0) if fluid.core.is_compiled_with_cuda(
) else fluid.CPUPlace()
executor = fluid.Executor(place)
data_file, feed_queue = fluid.layers.py_reader(
capacity=self.capacity,
dtypes=self.dtypes,
lod_levels=self.lod_levels,
shapes=self.shapes)
read_out_data = fluid.layers.read_file(data_file)
self.inputs = []
for i in range(self.iterations):
in_data = fluid.LoDTensorArray()
batch_size = np.random.random_integers(self.batch_size_min,
self.batch_size_max)
for shape, dtype in zip(self.shapes, self.dtypes):
next_data = np.random.uniform(
low=0, high=1000,
size=(batch_size, ) + shape[1:]).astype(dtype)
in_data.append(executor.as_lodtensor(next_data))
self.inputs.append(in_data)
executor.run(fluid.default_startup_program())
self.outputs = []
if use_thread:
thread = Thread(
target=feed_data, args=(feed_queue, self.inputs))
thread.start()
for in_data in self.inputs:
self.outputs.append(
executor.run(fetch_list=list(read_out_data)))
else:
for in_data in self.inputs:
feed_queue.push(in_data)
self.outputs.append(
executor.run(fetch_list=list(read_out_data)))
feed_queue.close()
self.validate()
def validate(self):
self.assertEqual(len(self.inputs), len(self.outputs))
for in_data_list, out_data_list in zip(self.inputs, self.outputs):
self.assertEqual(len(in_data_list), len(out_data_list))
in_data_list_np = [
np.array(in_lod_tensor) for in_lod_tensor in in_data_list
]
for in_data, out_data in zip(in_data_list_np, out_data_list):
self.assertTrue((in_data == out_data).all())
if __name__ == '__main__':
unittest.main()
# 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 unittest
import paddle.fluid as fluid
import paddle.fluid.core as core
import numpy as np
import threading
import multiprocessing
import os
def as_tensor(np_array_or_tensor, place=None):
if isinstance(np_array_or_tensor, fluid.LoDTensor):
return np_array_or_tensor
if place is None:
place = fluid.CPUPlace()
tensor = fluid.LoDTensor()
tensor.set(np_array_or_tensor, place)
return tensor
def as_numpy(tensor_or_numpy):
return tensor_or_numpy if isinstance(
tensor_or_numpy, np.ndarray) else np.array(tensor_or_numpy)
def feed_data(feed_queue, reader):
data_generator = reader()
while True:
data = next(data_generator, None)
if data is None or not feed_queue.push(data):
break
def simple_fc_net(in_size,
class_num,
hidden_sizes,
batch_size,
queue_capacity,
use_double_buffer=False):
reader, feed_queue = fluid.layers.py_reader(
capacity=queue_capacity,
shapes=[[-1, in_size], [-1, 1]],
lod_levels=[0, 0],
dtypes=['float32', 'int64'])
reader = fluid.layers.batch(reader, batch_size=batch_size)
if use_double_buffer:
reader = fluid.layers.double_buffer(reader)
in_data, label = fluid.layers.read_file(reader)
hidden = in_data
for hidden_size in hidden_sizes:
hidden = fluid.layers.fc(
hidden,
size=hidden_size,
act='tanh',
bias_attr=fluid.ParamAttr(
initializer=fluid.initializer.Constant(value=1.0)))
predict_label = fluid.layers.fc(hidden, size=class_num, act='softmax')
loss = fluid.layers.mean(
fluid.layers.cross_entropy(
input=predict_label, label=label))
optimizer = fluid.optimizer.Adam()
optimizer.minimize(loss)
return in_data, label, loss, optimizer, feed_queue
class TestPyReaderUsingExecutor(unittest.TestCase):
def setUp(self):
self.in_size = 1000
self.hidden_sizes = [50, 30, 20]
self.class_num = 10
self.batch_size = 32
self.iterations = 10
self.queue_capacity = 50
def test(self):
for use_cuda in [False, True]:
for use_parallel_executor in [False, True]:
for use_double_buffer in [False, True]:
print('Test Parameters:'),
print({
'use_cuda': use_cuda,
'use_parallel_executor': use_parallel_executor,
'use_double_buffer': use_double_buffer
})
self.main(use_cuda, use_parallel_executor,
use_double_buffer)
def random_reader(self):
def reader():
self.inputs = []
cnt = 0
while True:
tensors = fluid.LoDTensorArray()
in_data = np.random.uniform(
low=0, high=1, size=(1, self.in_size)).astype('float32')
tensors.append(as_tensor(in_data))
label = np.random.random_integers(
low=0, high=self.class_num - 1, size=(1, 1)).astype('int64')
tensors.append(as_tensor(label))
if cnt < self.iterations * self.batch_size * self.batch_size_times:
if cnt % (self.batch_size * self.batch_size_times) == 0:
self.inputs.append([in_data, label])
else:
self.inputs[-1][0] = np.concatenate(
(self.inputs[-1][0], in_data), axis=0)
self.inputs[-1][1] = np.concatenate(
(self.inputs[-1][1], label), axis=0)
elif not self.use_double_buffer:
break
yield tensors
cnt += 1
yield None
return reader
def main(self,
use_cuda=True,
use_parallel_executor=False,
use_double_buffer=False):
assert not use_cuda or use_cuda and core.is_compiled_with_cuda()
self.use_cuda = use_cuda
self.use_parallel_executor = use_parallel_executor
self.use_double_buffer = use_double_buffer
startup_program = fluid.Program()
main_program = fluid.Program()
with fluid.program_guard(main_program, startup_program):
in_data, label, loss, optimizer, feed_queue = simple_fc_net(
in_size=self.in_size,
class_num=self.class_num,
hidden_sizes=self.hidden_sizes,
batch_size=self.batch_size,
queue_capacity=self.queue_capacity,
use_double_buffer=self.use_double_buffer)
place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
startup_exe = fluid.Executor(place)
startup_exe.run(startup_program)
if use_parallel_executor:
main_exe = fluid.ParallelExecutor(use_cuda, loss_name=loss.name)
if use_cuda:
self.batch_size_times = core.get_cuda_device_count()
else:
self.batch_size_times = int(
os.environ.get('CPU_NUM', multiprocessing.cpu_count()))
else:
main_exe = startup_exe
self.batch_size_times = 1
reader = self.random_reader()
thread = threading.Thread(
target=feed_data, args=(feed_queue, reader))
thread.start()
self.outputs = []
for _ in range(self.iterations):
fetches = main_exe.run(fetch_list=[in_data.name, label.name])
fetches = [as_numpy(fetch) for fetch in fetches]
self.outputs.append(fetches)
self.validate()
feed_queue.close()
def validate(self):
self.assertEqual(len(self.inputs), len(self.outputs))
for batch_in, batch_out in zip(self.inputs, self.outputs):
self.assertEqual(len(batch_in), len(batch_out))
if self.use_parallel_executor and not self.use_double_buffer:
self.validate_unordered_batch(batch_in, batch_out)
else:
for in_data, out_data in zip(batch_in, batch_out):
self.assertEqual(in_data.shape, out_data.shape)
if not self.use_parallel_executor:
self.assertTrue((in_data == out_data).all())
def validate_unordered_batch(self, batch_in, batch_out):
out_index_left_set = set(range(self.batch_size * self.batch_size_times))
mapping_num = 0
for i in range(self.batch_size * self.batch_size_times):
for j in out_index_left_set:
flag = True
for k in range(len(batch_in)):
in_data = batch_in[k][i]
out_data = batch_out[k][j]
if (in_data != out_data).any():
flag = False
break
if flag:
out_index_left_set.remove(j)
mapping_num += 1
break
self.assertEqual(mapping_num, self.batch_size * self.batch_size_times)
if __name__ == '__main__':
unittest.main()
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