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test_utils.py
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from __future__ import print_function
import sys
import os
import math
import shutil
import random
import tempfile
import unittest
import traceback
import torch
import torch.utils.data
import torch.cuda
import warnings
from torch.autograd import Variable
from torch.utils.trainer import Trainer
from torch.utils.trainer.plugins import *
from torch.utils.trainer.plugins.plugin import Plugin
from torch.utils.serialization import load_lua
HAS_CUDA = torch.cuda.is_available()
from common import TestCase, run_tests, download_file
try:
import cffi
from torch.utils.ffi import compile_extension
HAS_CFFI = True
except ImportError:
HAS_CFFI = False
class SimplePlugin(Plugin):
def __init__(self, interval):
super(SimplePlugin, self).__init__(interval)
self.trainer = None
self.num_iteration = 0
self.num_epoch = 0
self.num_batch = 0
self.num_update = 0
def register(self, trainer):
self.trainer = trainer
def iteration(self, *args):
self.iteration_args = args
self.num_iteration += 1
def epoch(self, *args):
self.epoch_args = args
self.num_epoch += 1
def batch(self, *args):
self.batch_args = args
self.num_batch += 1
def update(self, *args):
self.update_args = args
self.num_update += 1
class ModelMock(object):
def __init__(self):
self.num_calls = 0
self.output = Variable(torch.ones(1, 1), requires_grad=True)
def __call__(self, i):
self.num_calls += 1
return self.output * 2
class CriterionMock(object):
def __init__(self):
self.num_calls = 0
def __call__(self, out, target):
self.num_calls += 1
return out
class OptimizerMock(object):
max_evals = 5
min_evals = 1
def __init__(self):
self.num_steps = 0
self.num_evals = 0
def step(self, closure):
for i in range(random.randint(self.min_evals, self.max_evals)):
loss = closure()
self.num_evals += 1
self.num_steps += 1
def zero_grad(self):
pass
class DatasetMock(object):
def __iter__(self):
for i in range(10):
yield torch.randn(2, 10), torch.randperm(10)[:2]
def __len__(self):
return 10
class TestDataLoader(TestCase):
def setUp(self):
self.dataset = torch.randn(5, 3, 3, 2)
self.batch_size = 3
def test_single_keep(self):
dataloader = torch.utils.data.DataLoader(self.dataset,
batch_size=self.batch_size,
num_workers=0,
drop_last=False)
dataiter = iter(dataloader)
self.assertEqual(len(list(dataiter)), 2)
def test_single_drop(self):
dataloader = torch.utils.data.DataLoader(self.dataset,
batch_size=self.batch_size,
num_workers=0,
drop_last=True)
dataiter = iter(dataloader)
self.assertEqual(len(list(dataiter)), 1)
def test_multi_keep(self):
dataloader = torch.utils.data.DataLoader(self.dataset,
batch_size=self.batch_size,
num_workers=2,
drop_last=False)
dataiter = iter(dataloader)
self.assertEqual(len(list(dataiter)), 2)
def test_multi_drop(self):
dataloader = torch.utils.data.DataLoader(self.dataset,
batch_size=self.batch_size,
num_workers=2,
drop_last=True)
dataiter = iter(dataloader)
self.assertEqual(len(list(dataiter)), 1)
class TestTrainer(TestCase):
intervals = [
[(1, 'iteration')],
[(1, 'epoch')],
[(1, 'batch')],
[(1, 'update')],
[(5, 'iteration')],
[(5, 'epoch')],
[(5, 'batch')],
[(5, 'update')],
[(1, 'iteration'), (1, 'epoch')],
[(5, 'update'), (1, 'iteration')],
[(2, 'epoch'), (1, 'batch')],
]
def setUp(self):
self.optimizer = OptimizerMock()
self.trainer = Trainer(ModelMock(), CriterionMock(),
self.optimizer, DatasetMock())
self.num_epochs = 3
self.dataset_size = len(self.trainer.dataset)
self.num_iters = self.num_epochs * self.dataset_size
def test_register_plugin(self):
for interval in self.intervals:
simple_plugin = SimplePlugin(interval)
self.trainer.register_plugin(simple_plugin)
self.assertEqual(simple_plugin.trainer, self.trainer)
def test_optimizer_step(self):
self.trainer.run(epochs=1)
self.assertEqual(self.trainer.optimizer.num_steps, 10)
def test_plugin_interval(self):
for interval in self.intervals:
self.setUp()
simple_plugin = SimplePlugin(interval)
self.trainer.register_plugin(simple_plugin)
self.trainer.run(epochs=self.num_epochs)
units = {
('iteration', self.num_iters),
('epoch', self.num_epochs),
('batch', self.num_iters),
('update', self.num_iters)
}
for unit, num_triggers in units:
call_every = None
for i, i_unit in interval:
if i_unit == unit:
call_every = i
break
if call_every:
expected_num_calls = math.floor(num_triggers / call_every)
else:
expected_num_calls = 0
num_calls = getattr(simple_plugin, 'num_' + unit)
self.assertEqual(num_calls, expected_num_calls, 0)
def test_model_called(self):
self.trainer.run(epochs=self.num_epochs)
num_model_calls = self.trainer.model.num_calls
num_crit_calls = self.trainer.criterion.num_calls
self.assertEqual(num_model_calls, num_crit_calls)
for num_calls in [num_model_calls, num_crit_calls]:
lower_bound = OptimizerMock.min_evals * self.num_iters
upper_bound = OptimizerMock.max_evals * self.num_iters
self.assertEqual(num_calls, self.trainer.optimizer.num_evals)
self.assertLessEqual(lower_bound, num_calls)
self.assertLessEqual(num_calls, upper_bound)
def test_model_gradient(self):
self.trainer.run(epochs=self.num_epochs)
output_var = self.trainer.model.output
expected_grad = torch.ones(1, 1) * 2 * self.optimizer.num_evals
self.assertEqual(output_var.grad.data, expected_grad)
test_dir = os.path.abspath(os.path.dirname(str(__file__)))
class TestFFI(TestCase):
def setUp(self):
self.tmpdir = tempfile.mkdtemp()
os.chdir(self.tmpdir)
sys.path.append(self.tmpdir)
def tearDown(self):
shutil.rmtree(self.tmpdir)
@unittest.skipIf(not HAS_CFFI, "ffi tests require cffi package")
def test_cpu(self):
compile_extension(
name='test_extensions.cpulib',
header=test_dir + '/ffi/src/cpu/lib.h',
sources=[
test_dir + '/ffi/src/cpu/lib1.c',
test_dir + '/ffi/src/cpu/lib2.c',
],
verbose=False,
)
from test_extensions import cpulib
tensor = torch.ones(2, 2).float()
cpulib.good_func(tensor, 2, 1.5)
self.assertEqual(tensor, torch.ones(2, 2) * 2 + 1.5)
new_tensor = cpulib.new_tensor(4)
self.assertEqual(new_tensor, torch.ones(4, 4) * 4)
f = cpulib.int_to_float(5)
self.assertIs(type(f), float)
self.assertRaises(TypeError,
lambda: cpulib.good_func(tensor.double(), 2, 1.5))
self.assertRaises(torch.FatalError,
lambda: cpulib.bad_func(tensor, 2, 1.5))
@unittest.skipIf(not HAS_CFFI or not HAS_CUDA, "ffi tests require cffi package")
def test_gpu(self):
compile_extension(
name='gpulib',
header=test_dir + '/ffi/src/cuda/cudalib.h',
sources=[
test_dir + '/ffi/src/cuda/cudalib.c',
],
with_cuda=True,
verbose=False,
)
import gpulib
tensor = torch.ones(2, 2).float()
gpulib.good_func(tensor, 2, 1.5)
self.assertEqual(tensor, torch.ones(2, 2) * 2 + 1.5)
ctensor = tensor.cuda().fill_(1)
gpulib.cuda_func(ctensor, 2, 1.5)
self.assertEqual(ctensor, torch.ones(2, 2) * 2 + 1.5)
self.assertRaises(TypeError,
lambda: gpulib.cuda_func(tensor, 2, 1.5))
self.assertRaises(TypeError,
lambda: gpulib.cuda_func(ctensor.storage(), 2, 1.5))
class TestLuaReader(TestCase):
@staticmethod
def _module_test(name, test):
def do_test(self):
module = test['module']
input = test['input']
grad_output = test['grad_output']
if hasattr(self, '_transform_' + name):
input = getattr(self, '_transform_' + name)(input)
output = module.forward(input)
module.zeroGradParameters()
grad_input = module.backward(input, grad_output)
self.assertEqual(output, test['output'])
self.assertEqual(grad_input, test['grad_input'])
if module.parameters() is not None:
params, d_params = module.parameters()
self.assertEqual(params, test['params'])
self.assertEqual(d_params, test['d_params'])
else:
self.assertFalse('params' in test and test['params'])
self.assertFalse('params' in test and test['d_params'])
return do_test
@staticmethod
def _criterion_test(name, test):
def do_test(self):
module = test['module']
input = test['input']
if name == 'L1Cost':
target = None
else:
target = test['target']
if hasattr(self, '_transform_' + name):
input, target = getattr(self, '_transform_' + name)(input, target)
output = module.forward(input, target)
grad_input = module.backward(input, target)
self.assertEqual(output, test['loss'])
self.assertEqual(grad_input, test['grad_input'])
return do_test
@classmethod
def init(cls):
try:
path = download_file('https://download.pytorch.org/test_data/legacy_modules.t7')
except unittest.SkipTest:
return
tests = load_lua(path)
for name, test in tests['modules'].items():
test_name = 'test_' + name.replace('nn.', '')
setattr(cls, test_name, cls._module_test(name, test))
for name, test in tests['criterions'].items():
test_name = 'test_' + name.replace('nn.', '')
setattr(cls, test_name, cls._criterion_test(name, test))
def _transform_Index(self, input):
return [input[0], input[1].sub(1)]
def _transform_LookupTable(self, input):
return input.sub(1)
def _transform_MultiLabelMarginCriterion(self, input, target):
return input, target.sub(1)
def _transform_ClassNLLCriterion(self, input, target):
return input, target.sub(1)
def _transform_SpatialClassNLLCriterion(self, input, target):
return input, target.sub(1)
def _transform_ClassSimplexCriterion(self, input, target):
return input, target.sub(1)
def _transform_CrossEntropyCriterion(self, input, target):
return input, target.sub(1)
def _transform_ParallelCriterion(self, input, target):
return input, [target[0].sub(1), target[1]]
def _transform_MultiCriterion(self, input, target):
return input, target.sub(1)
def _transform_MultiMarginCriterion(self, input, target):
return input, target.sub(1)
TestLuaReader.init()
if __name__ == '__main__':
run_tests()