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PaddleDetection
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02d494c3
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PaddleDetection
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02d494c3
编写于
2月 09, 2018
作者:
Y
Yu Yang
浏览文件
操作
浏览文件
下载
电子邮件补丁
差异文件
Polish code and add comments
上级
04f62508
变更
3
隐藏空白更改
内联
并排
Showing
3 changed file
with
54 addition
and
25 deletion
+54
-25
paddle/framework/mixed_vector.h
paddle/framework/mixed_vector.h
+51
-19
paddle/framework/tensor.h
paddle/framework/tensor.h
+1
-4
paddle/framework/tensor_impl.h
paddle/framework/tensor_impl.h
+2
-2
未找到文件。
paddle/framework/mixed_vector.h
浏览文件 @
02d494c3
...
...
@@ -25,13 +25,17 @@
namespace
paddle
{
namespace
framework
{
// Vector<T> implements the std::vector interface, and can get Data or
// MutableData from any place. The data will be synced implicitly inside.
template
<
typename
T
>
class
Vector
{
public:
using
value_type
=
T
;
// Default ctor. Create empty Vector
Vector
()
{
InitEmpty
();
}
// Fill vector with value. The vector size is `count`.
explicit
Vector
(
size_t
count
,
const
T
&
value
=
T
())
{
if
(
count
==
0
)
{
InitEmpty
();
...
...
@@ -44,6 +48,7 @@ class Vector {
}
}
// Ctor with init_list
Vector
(
std
::
initializer_list
<
T
>
init
)
{
if
(
init
.
size
()
==
0
)
{
InitEmpty
();
...
...
@@ -52,6 +57,7 @@ class Vector {
}
}
// implicit cast from std::vector.
template
<
typename
U
>
Vector
(
const
std
::
vector
<
U
>&
dat
)
{
// NOLINT
if
(
dat
.
size
()
==
0
)
{
...
...
@@ -61,8 +67,10 @@ class Vector {
}
}
// Copy ctor
Vector
(
const
Vector
<
T
>&
other
)
{
this
->
operator
=
(
other
);
}
// Copy operator
Vector
<
T
>&
operator
=
(
const
Vector
<
T
>&
other
)
{
if
(
other
.
size
()
!=
0
)
{
this
->
InitByIter
(
other
.
size
(),
other
.
begin
(),
other
.
end
());
...
...
@@ -72,27 +80,31 @@ class Vector {
return
*
this
;
}
// Move ctor
Vector
(
Vector
<
T
>&&
other
)
{
this
->
size_
=
other
.
size_
;
this
->
flag_
=
other
.
flag_
;
if
(
other
.
cuda_vec_
.
capacity
())
{
if
(
other
.
cuda_vec_
.
memory_size
())
{
this
->
cuda_vec_
.
ShareDataWith
(
other
.
cuda_vec_
);
}
if
(
other
.
cpu_vec_
.
capacity
())
{
if
(
other
.
cpu_vec_
.
memory_size
())
{
this
->
cpu_vec_
.
ShareDataWith
(
other
.
cpu_vec_
);
}
}
// CPU data access method. Mutable.
T
&
operator
[](
size_t
i
)
{
MutableCPU
();
return
const_cast
<
T
*>
(
cpu_vec_
.
data
<
T
>
())[
i
];
}
// CPU data access method. Immutable.
const
T
&
operator
[](
size_t
i
)
const
{
ImmutableCPU
();
return
cpu_vec_
.
data
<
T
>
()[
i
];
}
// std::vector iterator methods. Based on CPU data access method
size_t
size
()
const
{
return
size_
;
}
T
*
begin
()
{
return
&
this
->
operator
[](
0
);
}
...
...
@@ -116,17 +128,22 @@ class Vector {
return
*
it
;
}
T
*
data
()
{
return
begin
();
}
const
T
*
data
()
const
{
return
begin
();
}
const
T
&
front
()
const
{
return
*
begin
();
}
// end of std::vector iterator methods
// assign this from iterator.
// NOTE: the iterator must support `end-begin`
template
<
typename
Iter
>
void
assign
(
Iter
begin
,
Iter
end
)
{
InitByIter
(
end
-
begin
,
begin
,
end
);
}
T
*
data
()
{
return
begin
();
}
const
T
*
data
()
const
{
return
begin
();
}
// push_back. If the previous capacity is not enough, the memory will
// double.
void
push_back
(
T
elem
)
{
if
(
size_
+
1
>
capacity
())
{
reserve
((
size_
+
1
)
<<
1
);
...
...
@@ -135,6 +152,19 @@ class Vector {
++
size_
;
}
// extend a vector by iterator.
// NOTE: the iterator must support end-begin
template
<
typename
It
>
void
Extend
(
It
begin
,
It
end
)
{
size_t
pre_size
=
size_
;
resize
(
pre_size
+
(
end
-
begin
));
T
*
ptr
=
this
->
begin
()
+
pre_size
;
for
(;
begin
<
end
;
++
begin
,
++
ptr
)
{
*
ptr
=
*
begin
;
}
}
// resize the vector
void
resize
(
size_t
size
)
{
if
(
size
+
1
<
capacity
())
{
size_
=
size
;
...
...
@@ -145,7 +175,7 @@ class Vector {
T
*
ptr
=
cpu_tensor
.
mutable_data
<
T
>
(
framework
::
make_ddim
({
static_cast
<
int64_t
>
(
size
)}),
cpu
);
const
T
*
old_ptr
=
cpu_vec_
.
capacity
()
==
0
?
nullptr
:
cpu_vec_
.
data
<
T
>
();
cpu_vec_
.
memory_size
()
==
0
?
nullptr
:
cpu_vec_
.
data
<
T
>
();
if
(
old_ptr
!=
nullptr
)
{
std
::
copy
(
old_ptr
,
old_ptr
+
size_
,
ptr
);
}
...
...
@@ -154,6 +184,7 @@ class Vector {
}
}
// get cuda ptr. immutable
const
T
*
CUDAData
(
platform
::
Place
place
)
const
{
PADDLE_ENFORCE
(
platform
::
is_gpu_place
(
place
),
"CUDA Data must on CUDA place"
);
...
...
@@ -161,37 +192,31 @@ class Vector {
return
cuda_vec_
.
data
<
T
>
();
}
// get cuda ptr. mutable
T
*
CUDAMutableData
(
platform
::
Place
place
)
{
const
T
*
ptr
=
CUDAData
(
place
);
flag_
=
kDirty
|
kDataInCUDA
;
return
const_cast
<
T
*>
(
ptr
);
}
template
<
typename
It
>
void
Extend
(
It
begin
,
It
end
)
{
size_t
pre_size
=
size_
;
resize
(
pre_size
+
(
end
-
begin
));
T
*
ptr
=
this
->
begin
()
+
pre_size
;
for
(;
begin
<
end
;
++
begin
,
++
ptr
)
{
*
ptr
=
*
begin
;
}
}
// clear
void
clear
()
{
size_
=
0
;
flag_
=
kDirty
|
kDataInCPU
;
}
size_t
capacity
()
const
{
return
cpu_vec_
.
capacity
()
/
SizeOfType
(
typeid
(
T
));
return
cpu_vec_
.
memory_size
()
/
SizeOfType
(
typeid
(
T
));
}
// reserve data
void
reserve
(
size_t
size
)
{
size_t
pre_size
=
size_
;
resize
(
size
);
resize
(
pre_size
);
}
// the unify method to access CPU or CUDA data. immutable.
const
T
*
Data
(
platform
::
Place
place
)
const
{
if
(
platform
::
is_gpu_place
(
place
))
{
return
CUDAData
(
place
);
...
...
@@ -200,6 +225,7 @@ class Vector {
}
}
// the unify method to access CPU or CUDA data. mutable.
T
*
MutableData
(
platform
::
Place
place
)
{
if
(
platform
::
is_gpu_place
(
place
))
{
return
CUDAMutableData
(
place
);
...
...
@@ -208,6 +234,7 @@ class Vector {
}
}
// implicit cast operator. Vector can be cast to std::vector implicitly.
operator
std
::
vector
<
T
>
()
const
{
std
::
vector
<
T
>
result
;
result
.
resize
(
size
());
...
...
@@ -243,7 +270,12 @@ class Vector {
size_
=
size
;
}
enum
DataFlag
{
kDataInCPU
=
0x01
,
kDataInCUDA
=
0x02
,
kDirty
=
0x10
};
enum
DataFlag
{
kDataInCPU
=
0x01
,
kDataInCUDA
=
0x02
,
// kDirty means the data has been changed in one device.
kDirty
=
0x10
};
void
MutableCPU
()
{
if
(
IsInCUDA
()
&&
IsDirty
())
{
...
...
paddle/framework/tensor.h
浏览文件 @
02d494c3
...
...
@@ -120,6 +120,7 @@ class Tensor {
return
holder_
->
type
();
}
// memory size returns the holding memory size in byte.
size_t
memory_size
()
const
;
inline
void
check_memory_size
()
const
;
...
...
@@ -128,10 +129,6 @@ class Tensor {
inline
void
set_layout
(
const
DataLayout
layout
)
{
layout_
=
layout
;
}
size_t
capacity
()
const
{
return
holder_
==
nullptr
?
0UL
:
holder_
->
size
()
-
offset_
;
}
private:
friend
class
LoDTensor
;
...
...
paddle/framework/tensor_impl.h
浏览文件 @
02d494c3
...
...
@@ -62,14 +62,14 @@ inline void Tensor::check_memory_size() const {
PADDLE_ENFORCE_NOT_NULL
(
holder_
,
"Tensor holds no memory. Call Tensor::mutable_data first."
);
PADDLE_ENFORCE_GE
(
holder_
->
size
(),
memory_size
()
+
offset_
,
numel
()
*
SizeOfType
(
type
()),
memory_size
()
,
"Tensor's dims_ is out of bound. Call Tensor::mutable_data "
"first to re-allocate memory.
\n
"
"or maybe the required data-type mismatches the data already stored."
);
}
inline
size_t
Tensor
::
memory_size
()
const
{
return
holder_
==
nullptr
?
0UL
:
numel
()
*
SizeOfType
(
type
())
;
return
holder_
==
nullptr
?
0UL
:
holder_
->
size
()
-
offset_
;
}
template
<
typename
T
>
...
...
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