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930b209e
编写于
12月 16, 2022
作者:
H
HongyuJia
提交者:
GitHub
12月 16, 2022
浏览文件
操作
浏览文件
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电子邮件补丁
差异文件
[Custom Extension] Add xpu backward testcase (#49027)
* add xpu backward testcase * polish code * fix self.custom_op error
上级
1ca86fc6
变更
2
显示空白变更内容
内联
并排
Showing
2 changed file
with
383 addition
and
3 deletion
+383
-3
python/paddle/fluid/tests/custom_op/custom_relu_op_xpu.cc
python/paddle/fluid/tests/custom_op/custom_relu_op_xpu.cc
+131
-0
python/paddle/fluid/tests/custom_op/test_custom_relu_op_xpu_setup.py
...le/fluid/tests/custom_op/test_custom_relu_op_xpu_setup.py
+252
-3
未找到文件。
python/paddle/fluid/tests/custom_op/custom_relu_op_xpu.cc
浏览文件 @
930b209e
...
@@ -31,6 +31,28 @@ void relu_cpu_forward_kernel(const data_t* x_data,
...
@@ -31,6 +31,28 @@ void relu_cpu_forward_kernel(const data_t* x_data,
}
}
}
}
template
<
typename
data_t
>
void
relu_cpu_backward_kernel
(
const
data_t
*
grad_out_data
,
const
data_t
*
out_data
,
data_t
*
grad_x_data
,
int64_t
out_numel
)
{
for
(
int64_t
i
=
0
;
i
<
out_numel
;
++
i
)
{
grad_x_data
[
i
]
=
grad_out_data
[
i
]
*
(
out_data
[
i
]
>
static_cast
<
data_t
>
(
0
)
?
1.
:
0.
);
}
}
template
<
typename
data_t
>
void
relu_cpu_double_backward_kernel
(
const
data_t
*
out_data
,
const
data_t
*
ddx_data
,
data_t
*
ddout_data
,
int64_t
ddout_numel
)
{
for
(
int64_t
i
=
0
;
i
<
ddout_numel
;
++
i
)
{
ddout_data
[
i
]
=
ddx_data
[
i
]
*
(
out_data
[
i
]
>
static_cast
<
data_t
>
(
0
)
?
1.
:
0.
);
}
}
std
::
vector
<
paddle
::
Tensor
>
relu_cpu_forward
(
const
paddle
::
Tensor
&
x
)
{
std
::
vector
<
paddle
::
Tensor
>
relu_cpu_forward
(
const
paddle
::
Tensor
&
x
)
{
CHECK_CPU_INPUT
(
x
);
CHECK_CPU_INPUT
(
x
);
auto
out
=
paddle
::
empty_like
(
x
);
auto
out
=
paddle
::
empty_like
(
x
);
...
@@ -44,12 +66,81 @@ std::vector<paddle::Tensor> relu_cpu_forward(const paddle::Tensor& x) {
...
@@ -44,12 +66,81 @@ std::vector<paddle::Tensor> relu_cpu_forward(const paddle::Tensor& x) {
return
{
out
};
return
{
out
};
}
}
std
::
vector
<
paddle
::
Tensor
>
relu_cpu_backward
(
const
paddle
::
Tensor
&
x
,
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
grad_out
)
{
auto
grad_x
=
paddle
::
empty_like
(
x
);
PD_DISPATCH_FLOATING_TYPES
(
out
.
type
(),
"relu_cpu_backward"
,
([
&
]
{
relu_cpu_backward_kernel
<
data_t
>
(
grad_out
.
data
<
data_t
>
(),
out
.
data
<
data_t
>
(),
grad_x
.
data
<
data_t
>
(),
out
.
size
());
}));
return
{
grad_x
};
}
std
::
vector
<
paddle
::
Tensor
>
relu_cpu_double_backward
(
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
ddx
)
{
CHECK_CPU_INPUT
(
out
);
CHECK_CPU_INPUT
(
ddx
);
auto
ddout
=
paddle
::
empty
(
out
.
shape
(),
out
.
dtype
(),
out
.
place
());
PD_DISPATCH_FLOATING_TYPES
(
out
.
type
(),
"relu_cpu_double_backward"
,
([
&
]
{
relu_cpu_double_backward_kernel
<
data_t
>
(
out
.
data
<
data_t
>
(),
ddx
.
data
<
data_t
>
(),
ddout
.
mutable_data
<
data_t
>
(
out
.
place
()),
ddout
.
size
());
}));
std
::
cout
<<
"Debug info: run relu cpu double backward success."
<<
std
::
endl
;
return
{
ddout
};
}
std
::
vector
<
paddle
::
Tensor
>
relu_xpu_forward
(
const
paddle
::
Tensor
&
x
)
{
std
::
vector
<
paddle
::
Tensor
>
relu_xpu_forward
(
const
paddle
::
Tensor
&
x
)
{
CHECK_XPU_INPUT
(
x
);
CHECK_XPU_INPUT
(
x
);
auto
out
=
paddle
::
relu
(
x
);
auto
out
=
paddle
::
relu
(
x
);
return
{
out
};
return
{
out
};
}
}
std
::
vector
<
paddle
::
Tensor
>
relu_xpu_backward
(
const
paddle
::
Tensor
&
x
,
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
grad_out
)
{
CHECK_XPU_INPUT
(
x
);
CHECK_XPU_INPUT
(
out
);
CHECK_XPU_INPUT
(
grad_out
);
auto
grad_x
=
paddle
::
empty_like
(
x
,
x
.
dtype
(),
x
.
place
());
auto
ones
=
paddle
::
experimental
::
full_like
(
x
,
1.0
,
x
.
dtype
(),
x
.
place
());
auto
zeros
=
paddle
::
experimental
::
full_like
(
x
,
0.0
,
x
.
dtype
(),
x
.
place
());
auto
condition
=
paddle
::
experimental
::
greater_than
(
x
,
zeros
);
grad_x
=
paddle
::
multiply
(
grad_out
,
paddle
::
where
(
condition
,
ones
,
zeros
));
return
{
grad_x
};
}
std
::
vector
<
paddle
::
Tensor
>
relu_xpu_double_backward
(
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
ddx
)
{
CHECK_XPU_INPUT
(
out
);
CHECK_XPU_INPUT
(
ddx
);
auto
ddout
=
paddle
::
empty
(
out
.
shape
(),
out
.
dtype
(),
out
.
place
());
auto
ones
=
paddle
::
experimental
::
full_like
(
out
,
1.0
,
out
.
dtype
(),
out
.
place
());
auto
zeros
=
paddle
::
experimental
::
full_like
(
out
,
0.0
,
out
.
dtype
(),
out
.
place
());
auto
condition
=
paddle
::
experimental
::
greater_than
(
out
,
zeros
);
ddout
=
paddle
::
multiply
(
ddx
,
paddle
::
where
(
condition
,
ones
,
zeros
));
std
::
cout
<<
"Debug info: run relu cpu double backward success."
<<
std
::
endl
;
return
{
ddout
};
}
std
::
vector
<
paddle
::
Tensor
>
ReluForward
(
const
paddle
::
Tensor
&
x
)
{
std
::
vector
<
paddle
::
Tensor
>
ReluForward
(
const
paddle
::
Tensor
&
x
)
{
if
(
x
.
is_cpu
())
{
if
(
x
.
is_cpu
())
{
return
relu_cpu_forward
(
x
);
return
relu_cpu_forward
(
x
);
...
@@ -60,7 +151,47 @@ std::vector<paddle::Tensor> ReluForward(const paddle::Tensor& x) {
...
@@ -60,7 +151,47 @@ std::vector<paddle::Tensor> ReluForward(const paddle::Tensor& x) {
}
}
}
}
std
::
vector
<
paddle
::
Tensor
>
ReluBackward
(
const
paddle
::
Tensor
&
x
,
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
grad_out
)
{
if
(
x
.
is_cpu
())
{
return
relu_cpu_backward
(
x
,
out
,
grad_out
);
}
else
if
(
x
.
is_xpu
())
{
return
relu_xpu_backward
(
x
,
out
,
grad_out
);
}
else
{
PD_THROW
(
"Not implemented."
);
}
}
std
::
vector
<
paddle
::
Tensor
>
ReluDoubleBackward
(
const
paddle
::
Tensor
&
out
,
const
paddle
::
Tensor
&
ddx
)
{
if
(
out
.
place
()
==
paddle
::
PlaceType
::
kCPU
)
{
return
relu_cpu_double_backward
(
out
,
ddx
);
}
else
if
(
out
.
place
().
GetType
()
==
phi
::
AllocationType
::
XPU
)
{
return
relu_xpu_double_backward
(
out
,
ddx
);
}
else
{
PD_THROW
(
"Not implemented."
);
}
}
std
::
vector
<
std
::
vector
<
int64_t
>>
ReluDoubleBackwardInferShape
(
const
std
::
vector
<
int64_t
>&
out_shape
,
const
std
::
vector
<
int64_t
>&
ddx_shape
)
{
return
{
out_shape
};
}
PD_BUILD_OP
(
custom_relu
)
PD_BUILD_OP
(
custom_relu
)
.
Inputs
({
"X"
})
.
Inputs
({
"X"
})
.
Outputs
({
"Out"
})
.
Outputs
({
"Out"
})
.
SetKernelFn
(
PD_KERNEL
(
ReluForward
));
.
SetKernelFn
(
PD_KERNEL
(
ReluForward
));
PD_BUILD_GRAD_OP
(
custom_relu
)
.
Inputs
({
"X"
,
"Out"
,
paddle
::
Grad
(
"Out"
)})
.
Outputs
({
paddle
::
Grad
(
"X"
)})
.
SetKernelFn
(
PD_KERNEL
(
ReluBackward
));
PD_BUILD_DOUBLE_GRAD_OP
(
custom_relu
)
.
Inputs
({
"Out"
,
paddle
::
Grad
(
paddle
::
Grad
(
"X"
))})
.
Outputs
({
paddle
::
Grad
(
paddle
::
Grad
(
"Out"
))})
.
SetKernelFn
(
PD_KERNEL
(
ReluDoubleBackward
))
.
SetInferShapeFn
(
PD_INFER_SHAPE
(
ReluDoubleBackwardInferShape
));
python/paddle/fluid/tests/custom_op/test_custom_relu_op_xpu_setup.py
浏览文件 @
930b209e
...
@@ -23,15 +23,24 @@ import paddle
...
@@ -23,15 +23,24 @@ import paddle
import
paddle.static
as
static
import
paddle.static
as
static
from
paddle.fluid.framework
import
_test_eager_guard
from
paddle.fluid.framework
import
_test_eager_guard
from
paddle.utils.cpp_extension.extension_utils
import
run_cmd
from
paddle.utils.cpp_extension.extension_utils
import
run_cmd
from
paddle.vision.transforms
import
Compose
,
Normalize
def
custom_relu_dynamic
(
func
,
device
,
dtype
,
np_x
,
use_func
=
True
):
def
custom_relu_dynamic
(
func
,
device
,
dtype
,
np_x
,
use_func
=
True
):
paddle
.
set_device
(
device
)
paddle
.
set_device
(
device
)
t
=
paddle
.
to_tensor
(
np_x
,
dtype
=
dtype
)
t
=
paddle
.
to_tensor
(
np_x
,
dtype
=
dtype
)
t
.
stop_gradient
=
False
out
=
func
(
t
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
t
)
out
=
func
(
t
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
t
)
out
.
stop_gradient
=
False
out
.
backward
()
return
out
.
numpy
()
if
t
.
grad
is
None
:
return
out
.
numpy
(),
t
.
grad
else
:
return
out
.
numpy
(),
t
.
grad
.
numpy
()
def
custom_relu_static
(
def
custom_relu_static
(
...
@@ -43,7 +52,9 @@ def custom_relu_static(
...
@@ -43,7 +52,9 @@ def custom_relu_static(
with
static
.
scope_guard
(
static
.
Scope
()):
with
static
.
scope_guard
(
static
.
Scope
()):
with
static
.
program_guard
(
static
.
Program
()):
with
static
.
program_guard
(
static
.
Program
()):
x
=
static
.
data
(
name
=
'X'
,
shape
=
[
None
,
8
],
dtype
=
dtype
)
x
=
static
.
data
(
name
=
'X'
,
shape
=
[
None
,
8
],
dtype
=
dtype
)
x
.
stop_gradient
=
False
out
=
func
(
x
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
x
)
out
=
func
(
x
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
x
)
static
.
append_backward
(
out
)
exe
=
static
.
Executor
()
exe
=
static
.
Executor
()
exe
.
run
(
static
.
default_startup_program
())
exe
.
run
(
static
.
default_startup_program
())
...
@@ -58,6 +69,97 @@ def custom_relu_static(
...
@@ -58,6 +69,97 @@ def custom_relu_static(
return
out_v
return
out_v
def
custom_relu_static_pe
(
func
,
device
,
dtype
,
np_x
,
use_func
=
True
):
paddle
.
enable_static
()
paddle
.
set_device
(
device
)
places
=
static
.
xpu_places
()
with
static
.
scope_guard
(
static
.
Scope
()):
with
static
.
program_guard
(
static
.
Program
()):
x
=
static
.
data
(
name
=
'X'
,
shape
=
[
None
,
8
],
dtype
=
dtype
)
x
.
stop_gradient
=
False
out
=
func
(
x
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
x
)
static
.
append_backward
(
out
)
exe
=
static
.
Executor
()
exe
.
run
(
static
.
default_startup_program
())
# in static mode, x data has been covered by out
compiled_prog
=
static
.
CompiledProgram
(
static
.
default_main_program
()
).
with_data_parallel
(
loss_name
=
out
.
name
,
places
=
places
)
out_v
=
exe
.
run
(
compiled_prog
,
feed
=
{
'X'
:
np_x
},
fetch_list
=
[
out
.
name
]
)
paddle
.
disable_static
()
return
out_v
def
custom_relu_static_inference
(
func
,
device
,
np_data
,
np_label
,
path_prefix
):
paddle
.
set_device
(
device
)
with
static
.
scope_guard
(
static
.
Scope
()):
with
static
.
program_guard
(
static
.
Program
()):
# simple module
data
=
static
.
data
(
name
=
'data'
,
shape
=
[
None
,
1
,
28
,
28
],
dtype
=
'float32'
)
label
=
static
.
data
(
name
=
'label'
,
shape
=
[
None
,
1
],
dtype
=
'int64'
)
hidden
=
static
.
nn
.
fc
(
data
,
size
=
128
)
hidden
=
func
(
hidden
)
hidden
=
static
.
nn
.
fc
(
hidden
,
size
=
128
)
predict
=
static
.
nn
.
fc
(
hidden
,
size
=
10
,
activation
=
'softmax'
)
loss
=
paddle
.
nn
.
functional
.
cross_entropy
(
input
=
hidden
,
label
=
label
)
avg_loss
=
paddle
.
mean
(
loss
)
opt
=
paddle
.
optimizer
.
SGD
(
learning_rate
=
0.1
)
opt
.
minimize
(
avg_loss
)
# run start up model
exe
=
static
.
Executor
()
exe
.
run
(
static
.
default_startup_program
())
# train
for
_
in
range
(
4
):
exe
.
run
(
static
.
default_main_program
(),
feed
=
{
'data'
:
np_data
,
'label'
:
np_label
},
fetch_list
=
[
avg_loss
],
)
# save inference model
static
.
save_inference_model
(
path_prefix
,
[
data
],
[
predict
],
exe
)
# get train predict value
predict_v
=
exe
.
run
(
static
.
default_main_program
(),
feed
=
{
'data'
:
np_data
,
'label'
:
np_label
},
fetch_list
=
[
predict
],
)
return
predict_v
def
custom_relu_double_grad_dynamic
(
func
,
device
,
dtype
,
np_x
,
use_func
=
True
):
paddle
.
set_device
(
device
)
t
=
paddle
.
to_tensor
(
np_x
,
dtype
=
dtype
,
stop_gradient
=
False
)
out
=
func
(
t
)
if
use_func
else
paddle
.
nn
.
functional
.
relu
(
t
)
out
.
stop_gradient
=
False
dx
=
paddle
.
grad
(
outputs
=
[
out
],
inputs
=
[
t
],
create_graph
=
True
,
retain_graph
=
True
)
dx
[
0
].
backward
()
assert
dx
[
0
].
grad
is
not
None
return
dx
[
0
].
numpy
(),
dx
[
0
].
grad
.
numpy
()
class
TestNewCustomOpSetUpInstall
(
unittest
.
TestCase
):
class
TestNewCustomOpSetUpInstall
(
unittest
.
TestCase
):
def
setUp
(
self
):
def
setUp
(
self
):
cur_dir
=
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
))
cur_dir
=
os
.
path
.
dirname
(
os
.
path
.
abspath
(
__file__
))
...
@@ -110,12 +212,30 @@ class TestNewCustomOpSetUpInstall(unittest.TestCase):
...
@@ -110,12 +212,30 @@ class TestNewCustomOpSetUpInstall(unittest.TestCase):
),
),
)
)
def
test_static_pe
(
self
):
for
device
in
self
.
devices
:
for
dtype
in
self
.
dtypes
:
x
=
np
.
random
.
uniform
(
-
1
,
1
,
[
4
,
8
]).
astype
(
dtype
)
out
=
custom_relu_static_pe
(
self
.
custom_op
,
device
,
dtype
,
x
)
pd_out
=
custom_relu_static_pe
(
self
.
custom_op
,
device
,
dtype
,
x
,
False
)
np
.
testing
.
assert_array_equal
(
out
,
pd_out
,
err_msg
=
'custom op out: {},
\n
paddle api out: {}'
.
format
(
out
,
pd_out
),
)
def
func_dynamic
(
self
):
def
func_dynamic
(
self
):
for
device
in
self
.
devices
:
for
device
in
self
.
devices
:
for
dtype
in
self
.
dtypes
:
for
dtype
in
self
.
dtypes
:
x
=
np
.
random
.
uniform
(
-
1
,
1
,
[
4
,
8
]).
astype
(
dtype
)
x
=
np
.
random
.
uniform
(
-
1
,
1
,
[
4
,
8
]).
astype
(
dtype
)
out
=
custom_relu_dynamic
(
self
.
custom_op
,
device
,
dtype
,
x
)
out
,
x_grad
=
custom_relu_dynamic
(
pd_out
=
custom_relu_dynamic
(
self
.
custom_op
,
device
,
dtype
,
x
)
pd_out
,
pd_x_grad
=
custom_relu_dynamic
(
self
.
custom_op
,
device
,
dtype
,
x
,
False
self
.
custom_op
,
device
,
dtype
,
x
,
False
)
)
np
.
testing
.
assert_array_equal
(
np
.
testing
.
assert_array_equal
(
...
@@ -125,12 +245,141 @@ class TestNewCustomOpSetUpInstall(unittest.TestCase):
...
@@ -125,12 +245,141 @@ class TestNewCustomOpSetUpInstall(unittest.TestCase):
out
,
pd_out
out
,
pd_out
),
),
)
)
np
.
testing
.
assert_array_equal
(
x_grad
,
pd_x_grad
,
err_msg
=
'custom op x grad: {},
\n
paddle api x grad: {}'
.
format
(
x_grad
,
pd_x_grad
),
)
def
test_dynamic
(
self
):
def
test_dynamic
(
self
):
with
_test_eager_guard
():
with
_test_eager_guard
():
self
.
func_dynamic
()
self
.
func_dynamic
()
self
.
func_dynamic
()
self
.
func_dynamic
()
def
test_static_save_and_load_inference_model
(
self
):
paddle
.
enable_static
()
np_data
=
np
.
random
.
random
((
1
,
1
,
28
,
28
)).
astype
(
"float32"
)
np_label
=
np
.
random
.
random
((
1
,
1
)).
astype
(
"int64"
)
path_prefix
=
"self.custom_op_inference/custom_relu"
for
device
in
self
.
devices
:
predict
=
custom_relu_static_inference
(
self
.
custom_op
,
device
,
np_data
,
np_label
,
path_prefix
)
# load inference model
with
static
.
scope_guard
(
static
.
Scope
()):
exe
=
static
.
Executor
()
[
inference_program
,
feed_target_names
,
fetch_targets
,
]
=
static
.
load_inference_model
(
path_prefix
,
exe
)
predict_infer
=
exe
.
run
(
inference_program
,
feed
=
{
feed_target_names
[
0
]:
np_data
},
fetch_list
=
fetch_targets
,
)
np
.
testing
.
assert_array_equal
(
predict
,
predict_infer
,
err_msg
=
'custom op predict: {},
\n
custom op infer predict: {}'
.
format
(
predict
,
predict_infer
),
)
paddle
.
disable_static
()
def
test_static_save_and_run_inference_predictor
(
self
):
paddle
.
enable_static
()
np_data
=
np
.
random
.
random
((
1
,
1
,
28
,
28
)).
astype
(
"float32"
)
np_label
=
np
.
random
.
random
((
1
,
1
)).
astype
(
"int64"
)
path_prefix
=
"self.custom_op_inference/custom_relu"
from
paddle.inference
import
Config
,
create_predictor
for
device
in
self
.
devices
:
predict
=
custom_relu_static_inference
(
self
.
custom_op
,
device
,
np_data
,
np_label
,
path_prefix
)
# load inference model
config
=
Config
(
path_prefix
+
".pdmodel"
,
path_prefix
+
".pdiparams"
)
predictor
=
create_predictor
(
config
)
input_tensor
=
predictor
.
get_input_handle
(
predictor
.
get_input_names
()[
0
]
)
input_tensor
.
reshape
(
np_data
.
shape
)
input_tensor
.
copy_from_cpu
(
np_data
.
copy
())
predictor
.
run
()
output_tensor
=
predictor
.
get_output_handle
(
predictor
.
get_output_names
()[
0
]
)
predict_infer
=
output_tensor
.
copy_to_cpu
()
self
.
assertTrue
(
np
.
isclose
(
predict
,
predict_infer
,
rtol
=
5e-5
).
any
(),
"custom op predict: {},
\n
custom op infer predict: {}"
.
format
(
predict
,
predict_infer
),
)
paddle
.
disable_static
()
def
test_func_double_grad_dynamic
(
self
):
for
device
in
self
.
devices
:
for
dtype
in
self
.
dtypes
:
x
=
np
.
random
.
uniform
(
-
1
,
1
,
[
4
,
8
]).
astype
(
dtype
)
out
,
dx_grad
=
custom_relu_double_grad_dynamic
(
self
.
custom_op
,
device
,
dtype
,
x
)
pd_out
,
pd_dx_grad
=
custom_relu_double_grad_dynamic
(
self
.
custom_op
,
device
,
dtype
,
x
,
False
)
np
.
testing
.
assert_array_equal
(
out
,
pd_out
,
err_msg
=
'custom op out: {},
\n
paddle api out: {}'
.
format
(
out
,
pd_out
),
)
np
.
testing
.
assert_array_equal
(
dx_grad
,
pd_dx_grad
,
err_msg
=
'custom op dx grad: {},
\n
paddle api dx grad: {}'
.
format
(
dx_grad
,
pd_dx_grad
),
)
def
test_with_dataloader
(
self
):
for
device
in
self
.
devices
:
paddle
.
set_device
(
device
)
# data loader
transform
=
Compose
(
[
Normalize
(
mean
=
[
127.5
],
std
=
[
127.5
],
data_format
=
'CHW'
)]
)
train_dataset
=
paddle
.
vision
.
datasets
.
MNIST
(
mode
=
'train'
,
transform
=
transform
)
train_loader
=
paddle
.
io
.
DataLoader
(
train_dataset
,
batch_size
=
64
,
shuffle
=
True
,
drop_last
=
True
,
num_workers
=
0
,
)
for
batch_id
,
(
image
,
_
)
in
enumerate
(
train_loader
()):
out
=
self
.
custom_op
(
image
)
pd_out
=
paddle
.
nn
.
functional
.
relu
(
image
)
np
.
testing
.
assert_array_equal
(
out
,
pd_out
,
err_msg
=
'custom op out: {},
\n
paddle api out: {}'
.
format
(
out
,
pd_out
),
)
if
batch_id
==
5
:
break
if
__name__
==
'__main__'
:
if
__name__
==
'__main__'
:
unittest
.
main
()
unittest
.
main
()
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