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L40S
# Copyright (c) OpenMMLab. All rights reserved. | |
import numpy as np | |
import pytest | |
import torch | |
import torch.nn as nn | |
from mmcv.runner.fp16_utils import auto_fp16, cast_tensor_type, force_fp32 | |
def test_cast_tensor_type(): | |
inputs = torch.FloatTensor([5.]) | |
src_type = torch.float32 | |
dst_type = torch.int32 | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, torch.Tensor) | |
assert outputs.dtype == dst_type | |
# convert torch.float to torch.half | |
inputs = torch.FloatTensor([5.]) | |
src_type = torch.float | |
dst_type = torch.half | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, torch.Tensor) | |
assert outputs.dtype == dst_type | |
# skip the conversion when the type of input is not the same as src_type | |
inputs = torch.IntTensor([5]) | |
src_type = torch.float | |
dst_type = torch.half | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, torch.Tensor) | |
assert outputs.dtype == inputs.dtype | |
inputs = 'tensor' | |
src_type = str | |
dst_type = str | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, str) | |
inputs = np.array([5.]) | |
src_type = np.ndarray | |
dst_type = np.ndarray | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, np.ndarray) | |
inputs = dict( | |
tensor_a=torch.FloatTensor([1.]), tensor_b=torch.FloatTensor([2.])) | |
src_type = torch.float32 | |
dst_type = torch.int32 | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, dict) | |
assert outputs['tensor_a'].dtype == dst_type | |
assert outputs['tensor_b'].dtype == dst_type | |
inputs = [torch.FloatTensor([1.]), torch.FloatTensor([2.])] | |
src_type = torch.float32 | |
dst_type = torch.int32 | |
outputs = cast_tensor_type(inputs, src_type, dst_type) | |
assert isinstance(outputs, list) | |
assert outputs[0].dtype == dst_type | |
assert outputs[1].dtype == dst_type | |
inputs = 5 | |
outputs = cast_tensor_type(inputs, None, None) | |
assert isinstance(outputs, int) | |
def test_auto_fp16(): | |
with pytest.raises(TypeError): | |
# ExampleObject is not a subclass of nn.Module | |
class ExampleObject: | |
def __call__(self, x): | |
return x | |
model = ExampleObject() | |
input_x = torch.ones(1, dtype=torch.float32) | |
model(input_x) | |
# apply to all input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y): | |
return x, y | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.float32) | |
input_y = torch.ones(1, dtype=torch.float32) | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
model.fp16_enabled = True | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y = model(input_x.cuda(), input_y.cuda()) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
# apply to specified input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y): | |
return x, y | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.float32) | |
input_y = torch.ones(1, dtype=torch.float32) | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
model.fp16_enabled = True | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.float32 | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y = model(input_x.cuda(), input_y.cuda()) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.float32 | |
# apply to optional input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y=None, z=None): | |
return x, y, z | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.float32) | |
input_y = torch.ones(1, dtype=torch.float32) | |
input_z = torch.ones(1, dtype=torch.float32) | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.float32 | |
model.fp16_enabled = True | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.float32 | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y, output_z = model( | |
input_x.cuda(), y=input_y.cuda(), z=input_z.cuda()) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.float32 | |
# out_fp32=True | |
class ExampleModule(nn.Module): | |
def forward(self, x, y=None, z=None): | |
return x, y, z | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.half) | |
input_y = torch.ones(1, dtype=torch.float32) | |
input_z = torch.ones(1, dtype=torch.float32) | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.float32 | |
model.fp16_enabled = True | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.float32 | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y, output_z = model( | |
input_x.cuda(), y=input_y.cuda(), z=input_z.cuda()) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.float32 | |
def test_force_fp32(): | |
with pytest.raises(TypeError): | |
# ExampleObject is not a subclass of nn.Module | |
class ExampleObject: | |
def __call__(self, x): | |
return x | |
model = ExampleObject() | |
input_x = torch.ones(1, dtype=torch.float32) | |
model(input_x) | |
# apply to all input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y): | |
return x, y | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.half) | |
input_y = torch.ones(1, dtype=torch.half) | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
model.fp16_enabled = True | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y = model(input_x.cuda(), input_y.cuda()) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
# apply to specified input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y): | |
return x, y | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.half) | |
input_y = torch.ones(1, dtype=torch.half) | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
model.fp16_enabled = True | |
output_x, output_y = model(input_x, input_y) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.half | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y = model(input_x.cuda(), input_y.cuda()) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.half | |
# apply to optional input args | |
class ExampleModule(nn.Module): | |
def forward(self, x, y=None, z=None): | |
return x, y, z | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.half) | |
input_y = torch.ones(1, dtype=torch.half) | |
input_z = torch.ones(1, dtype=torch.half) | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.half | |
model.fp16_enabled = True | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.half | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y, output_z = model( | |
input_x.cuda(), y=input_y.cuda(), z=input_z.cuda()) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.float32 | |
assert output_z.dtype == torch.half | |
# out_fp16=True | |
class ExampleModule(nn.Module): | |
def forward(self, x, y=None, z=None): | |
return x, y, z | |
model = ExampleModule() | |
input_x = torch.ones(1, dtype=torch.float32) | |
input_y = torch.ones(1, dtype=torch.half) | |
input_z = torch.ones(1, dtype=torch.half) | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.float32 | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.half | |
model.fp16_enabled = True | |
output_x, output_y, output_z = model(input_x, y=input_y, z=input_z) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.half | |
if torch.cuda.is_available(): | |
model.cuda() | |
output_x, output_y, output_z = model( | |
input_x.cuda(), y=input_y.cuda(), z=input_z.cuda()) | |
assert output_x.dtype == torch.half | |
assert output_y.dtype == torch.half | |
assert output_z.dtype == torch.half | |