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0e337bec
编写于
7月 28, 2017
作者:
F
fengjiayi
浏览文件
操作
浏览文件
下载
差异文件
Merge branch 'feature/backward' of
https://github.com/reyoung/Paddle
into feature/backward
上级
71bd439b
0da5cce2
变更
2
隐藏空白更改
内联
并排
Showing
2 changed file
with
72 addition
and
28 deletion
+72
-28
paddle/framework/backward.cc
paddle/framework/backward.cc
+43
-18
paddle/framework/backward_test.cc
paddle/framework/backward_test.cc
+29
-10
未找到文件。
paddle/framework/backward.cc
浏览文件 @
0e337bec
...
@@ -50,50 +50,72 @@ static std::shared_ptr<OperatorBase> EmptyOp() {
...
@@ -50,50 +50,72 @@ static std::shared_ptr<OperatorBase> EmptyOp() {
return
net_op
;
return
net_op
;
}
}
/**
* @brief Backward an operator, implementation
* @param forwardOp the forward operator
* @param no_grad_names variable names not calculate for gradient. Like X@GRAD
* is not needed.
* @param uniq_id a unique index used inside BackwardImpl, it will be shared
* through recursive invoke.
* @return The backward operator. For simple situation, it is a simple operator.
* For complex situation, it is a NetOp.
*
* See Backward.h for details
*/
static
std
::
shared_ptr
<
OperatorBase
>
BackwardImpl
(
static
std
::
shared_ptr
<
OperatorBase
>
BackwardImpl
(
const
OperatorBase
&
forwardOp
,
const
OperatorBase
&
forwardOp
,
std
::
unordered_set
<
std
::
string
>&
no_grad_names
,
size_t
&
uniq_id
)
{
std
::
unordered_set
<
std
::
string
>&
no_grad_names
,
size_t
&
uniq_id
)
{
/**
* If all input gradients of forwarding operator do not need to calculate,
* just return an EmptyOp. Not return null ptr because EmptyOp does not take
* too much time for calculation, but it is useful for simplifying logic.
*/
if
(
AllInSet
(
forwardOp
.
inputs_
,
OperatorBase
::
GRAD_VAR_SUFFIX
(),
if
(
AllInSet
(
forwardOp
.
inputs_
,
OperatorBase
::
GRAD_VAR_SUFFIX
(),
no_grad_names
))
{
no_grad_names
))
{
return
EmptyOp
();
return
EmptyOp
();
}
}
/**
* All output gradients of forwarding operator do not need to calculate. Then
* all input gradients cannot be computed at all, and we put them into
* `no_grad_names` set. Return an EmptyOp.
*/
if
(
AllInSet
(
forwardOp
.
outputs_
,
OperatorBase
::
GRAD_VAR_SUFFIX
(),
if
(
AllInSet
(
forwardOp
.
outputs_
,
OperatorBase
::
GRAD_VAR_SUFFIX
(),
no_grad_names
))
{
no_grad_names
))
{
for
(
auto
&
name
:
forwardOp
.
inputs_
)
{
for
(
auto
&
name
:
forwardOp
.
inputs_
)
{
// Mark all input is not need
//
/
Mark all input is not need
no_grad_names
.
insert
(
name
+
OperatorBase
::
GRAD_VAR_SUFFIX
());
no_grad_names
.
insert
(
name
+
OperatorBase
::
GRAD_VAR_SUFFIX
());
}
}
return
EmptyOp
();
return
EmptyOp
();
}
}
//! Returned gradient network
auto
net
=
std
::
make_shared
<
NetOp
>
();
auto
net
=
std
::
make_shared
<
NetOp
>
();
if
(
forwardOp
.
IsNetOp
())
{
if
(
forwardOp
.
IsNetOp
())
{
//! TODO(dzh)
/// Because forwardOp is a net op, it can static_cast.
std
::
unordered_map
<
std
::
string
/*var name*/
,
std
::
vector
<
size_t
>
/*op offset*/
>
dup_output_ops
;
size_t
local_op_id
=
0
;
// Because it is a net op, it can static_cast.
auto
&
forwardNet
=
static_cast
<
const
NetOp
&>
(
forwardOp
);
auto
&
forwardNet
=
static_cast
<
const
NetOp
&>
(
forwardOp
);
// travesal subnet/op
//! Map from output gradient variable name to operator's indices in backward
//! net. That operator generates that variable.
std
::
unordered_map
<
std
::
string
,
std
::
vector
<
size_t
>>
dup_output_ops
;
size_t
local_op_id
=
0
;
/// reversely travel forwardNet
for
(
auto
it
=
forwardNet
.
ops_
.
rbegin
();
it
!=
forwardNet
.
ops_
.
rend
();
for
(
auto
it
=
forwardNet
.
ops_
.
rbegin
();
it
!=
forwardNet
.
ops_
.
rend
();
++
it
)
{
++
it
,
++
local_op_id
)
{
auto
fwd
=
*
it
;
auto
fwd
=
*
it
;
auto
bwd
=
BackwardImpl
(
*
fwd
,
no_grad_names
,
uniq_id
);
auto
bwd
=
BackwardImpl
(
*
fwd
,
no_grad_names
,
uniq_id
);
net
->
AddOp
(
bwd
);
net
->
AddOp
(
bwd
);
for
(
size_t
i
=
0
;
i
<
bwd
->
outputs_
.
size
();
++
i
)
{
for
(
auto
&
out
:
bwd
->
outputs_
)
{
dup_output_ops
[
bwd
->
outputs_
[
i
]
].
emplace_back
(
local_op_id
);
dup_output_ops
[
out
].
emplace_back
(
local_op_id
);
}
}
local_op_id
++
;
}
}
//
unique the duplicate name
//
/ Get unique ID for this method.
auto
uid
=
uniq_id
++
;
auto
uid
=
uniq_id
++
;
// TODO(dzh): more comment
// TODO(dzh): more comment
typedef
std
::
pair
<
size_t
,
std
::
shared_ptr
<
OperatorBase
>>
Pos
;
using
Pos
=
std
::
pair
<
size_t
,
std
::
shared_ptr
<
OperatorBase
>>
;
std
::
list
<
Pos
>
insert_postion
;
std
::
list
<
Pos
>
insert_pos
i
tion
;
for
(
auto
&
dup_output_op
:
dup_output_ops
)
{
for
(
auto
&
dup_output_op
:
dup_output_ops
)
{
const
std
::
string
&
name
=
dup_output_op
.
first
;
const
std
::
string
&
name
=
dup_output_op
.
first
;
auto
&
dup_op
=
dup_output_op
.
second
;
auto
&
dup_op
=
dup_output_op
.
second
;
...
@@ -106,16 +128,18 @@ static std::shared_ptr<OperatorBase> BackwardImpl(
...
@@ -106,16 +128,18 @@ static std::shared_ptr<OperatorBase> BackwardImpl(
std
::
to_string
(
i
));
std
::
to_string
(
i
));
net
->
ops_
[
op_offset
]
->
Rename
(
name
,
dup_outputs
.
back
());
net
->
ops_
[
op_offset
]
->
Rename
(
name
,
dup_outputs
.
back
());
}
}
insert_postion
.
push_back
(
insert_pos
i
tion
.
push_back
(
{
dup_op
.
back
(),
{
dup_op
.
back
(),
OpRegistry
::
CreateOp
(
OpRegistry
::
CreateOp
(
"add"
,
{
dup_outputs
},
{
name
},
"add"
,
{
dup_outputs
},
{
name
},
{{
"input_format"
,
{{
"input_format"
,
std
::
vector
<
int
>
{
0
,
(
int
)
dup_outputs
.
size
()}}})});
std
::
vector
<
int
>
{
0
,
(
int
)
dup_outputs
.
size
()}}})});
}
}
insert_postion
.
sort
(
insert_position
.
sort
(
[](
const
Pos
&
l
,
const
Pos
&
r
)
{
return
l
.
first
>
r
.
first
;
});
[](
const
Pos
&
l
,
const
Pos
&
r
)
{
return
l
.
first
>
r
.
first
;
});
for
(
auto
&
pos
:
insert_postion
)
{
for
(
auto
&
pos
:
insert_position
)
{
net
->
InsertOp
(
pos
.
first
,
pos
.
second
);
net
->
InsertOp
(
pos
.
first
,
pos
.
second
);
}
}
...
@@ -148,6 +172,7 @@ static std::shared_ptr<OperatorBase> BackwardImpl(
...
@@ -148,6 +172,7 @@ static std::shared_ptr<OperatorBase> BackwardImpl(
return
net
;
return
net
;
}
}
//! See header for comments
extern
std
::
shared_ptr
<
OperatorBase
>
Backward
(
extern
std
::
shared_ptr
<
OperatorBase
>
Backward
(
const
OperatorBase
&
forwardOp
,
const
OperatorBase
&
forwardOp
,
const
std
::
unordered_set
<
std
::
string
>&
no_grad_vars
)
{
const
std
::
unordered_set
<
std
::
string
>&
no_grad_vars
)
{
...
...
paddle/framework/backward_test.cc
浏览文件 @
0e337bec
...
@@ -13,6 +13,7 @@
...
@@ -13,6 +13,7 @@
limitations under the License. */
limitations under the License. */
#include "paddle/framework/backward.h"
#include "paddle/framework/backward.h"
#include <gtest/gtest.h>
#include <gtest/gtest.h>
#include "paddle/framework/net.h"
#include "paddle/framework/net.h"
#include "paddle/framework/op_registry.h"
#include "paddle/framework/op_registry.h"
...
@@ -142,6 +143,7 @@ REGISTER_OP(fill_zeros_like, f::EmptyOp, f::FillZeroOpMaker);
...
@@ -142,6 +143,7 @@ REGISTER_OP(fill_zeros_like, f::EmptyOp, f::FillZeroOpMaker);
REGISTER_OP
(
add
,
f
::
EmptyOp
,
f
::
AddOpMaker
);
REGISTER_OP
(
add
,
f
::
EmptyOp
,
f
::
AddOpMaker
);
REGISTER_GRADIENT_OP
(
add
,
add_grad
,
f
::
EmptyOp
);
REGISTER_GRADIENT_OP
(
add
,
add_grad
,
f
::
EmptyOp
);
REGISTER_OP
(
fc
,
f
::
FcOp
,
f
::
FcOpMaker
);
REGISTER_OP
(
fc
,
f
::
FcOp
,
f
::
FcOpMaker
);
REGISTER_GRADIENT_OP
(
fc
,
fc_grad
,
f
::
EmptyOp
);
REGISTER_OP
(
many_output_op
,
f
::
EmptyOp
,
f
::
ManyOutputOpMaker
);
REGISTER_OP
(
many_output_op
,
f
::
EmptyOp
,
f
::
ManyOutputOpMaker
);
REGISTER_GRADIENT_OP
(
many_output_op
,
many_output_op_grad
,
f
::
EmptyOp
);
REGISTER_GRADIENT_OP
(
many_output_op
,
many_output_op_grad
,
f
::
EmptyOp
);
...
@@ -160,6 +162,18 @@ TEST(Backward, simple_op_grad) {
...
@@ -160,6 +162,18 @@ TEST(Backward, simple_op_grad) {
// LOG(INFO) << gop->Output("X" + "@GRAD");
// LOG(INFO) << gop->Output("X" + "@GRAD");
}
}
TEST
(
Backward
,
simple_op_not_need_grad
)
{
auto
fwd
=
f
::
OpRegistry
::
CreateOp
(
"rowwise_add"
,
{
"X"
,
"b"
},
{
"Out"
},
{});
ASSERT_NE
(
fwd
,
nullptr
);
auto
gop
=
f
::
Backward
(
*
fwd
,
{
"X"
});
ASSERT_EQ
(
std
::
find
(
gop
->
outputs_
.
begin
(),
gop
->
outputs_
.
end
(),
"X"
+
f
::
OperatorBase
::
GRAD_VAR_SUFFIX
()),
gop
->
outputs_
.
end
());
auto
no_input_gop
=
f
::
Backward
(
*
fwd
,
{
"X"
,
"b"
});
ASSERT_NE
(
no_input_gop
,
nullptr
);
}
TEST
(
Backward
,
net_fc_backward_normal
)
{
TEST
(
Backward
,
net_fc_backward_normal
)
{
std
::
shared_ptr
<
f
::
OperatorBase
>
fwd
=
f
::
OpRegistry
::
CreateOp
(
std
::
shared_ptr
<
f
::
OperatorBase
>
fwd
=
f
::
OpRegistry
::
CreateOp
(
"fc"
,
{
"X"
,
"w"
,
"b"
},
{
"mul_result"
,
"add_result"
,
"out"
},
{});
"fc"
,
{
"X"
,
"w"
,
"b"
},
{
"mul_result"
,
"add_result"
,
"out"
},
{});
...
@@ -217,6 +231,8 @@ TEST(Backward, net_input_of_network_not_need_grad) {
...
@@ -217,6 +231,8 @@ TEST(Backward, net_input_of_network_not_need_grad) {
bwd_net
->
outputs_
.
begin
(),
bwd_net
->
outputs_
.
end
());
bwd_net
->
outputs_
.
begin
(),
bwd_net
->
outputs_
.
end
());
all_output
.
erase
(
f
::
OperatorBase
::
EMPTY_VAR_NAME
());
all_output
.
erase
(
f
::
OperatorBase
::
EMPTY_VAR_NAME
());
LOG
(
INFO
)
<<
bwd_net
->
DebugString
();
LOG
(
INFO
)
<<
bwd_net
->
ops_
.
size
();
for
(
auto
&
out
:
{
"W1"
,
"b1"
,
"hidden0"
,
"W2"
,
"b2"
})
{
for
(
auto
&
out
:
{
"W1"
,
"b1"
,
"hidden0"
,
"W2"
,
"b2"
})
{
ASSERT_NE
(
all_output
.
find
(
out
+
f
::
OperatorBase
::
GRAD_VAR_SUFFIX
()),
ASSERT_NE
(
all_output
.
find
(
out
+
f
::
OperatorBase
::
GRAD_VAR_SUFFIX
()),
all_output
.
end
());
all_output
.
end
());
...
@@ -230,9 +246,9 @@ TEST(Backward, net_input_of_network_not_need_grad) {
...
@@ -230,9 +246,9 @@ TEST(Backward, net_input_of_network_not_need_grad) {
ASSERT_TRUE
(
bwd_net
->
ops_
[
1
]
->
IsNetOp
());
ASSERT_TRUE
(
bwd_net
->
ops_
[
1
]
->
IsNetOp
());
auto
first_fc_grad
=
static_cast
<
f
::
NetOp
*>
(
bwd_net
->
ops_
[
1
].
get
());
auto
first_fc_grad
=
static_cast
<
f
::
NetOp
*>
(
bwd_net
->
ops_
[
1
].
get
());
ASSERT_EQ
(
3UL
,
first_fc_grad
->
ops_
.
size
());
ASSERT_EQ
(
3UL
,
first_fc_grad
->
ops_
.
size
());
ASSERT_EQ
(
LOG
(
INFO
)
<<
first_fc_grad
->
DebugString
();
f
::
OperatorBase
::
EMPTY_VAR_NAME
(),
ASSERT_EQ
(
f
::
OperatorBase
::
EMPTY_VAR_NAME
(),
first_fc_grad
->
ops_
[
2
]
->
Output
(
"A
"
+
f
::
OperatorBase
::
GRAD_VAR_SUFFIX
()));
first_fc_grad
[
2
].
Output
(
"X
"
+
f
::
OperatorBase
::
GRAD_VAR_SUFFIX
()));
}
}
TEST
(
Backward
,
net_shared_weight
)
{
TEST
(
Backward
,
net_shared_weight
)
{
...
@@ -245,13 +261,14 @@ TEST(Backward, net_shared_weight) {
...
@@ -245,13 +261,14 @@ TEST(Backward, net_shared_weight) {
ASSERT_TRUE
(
bwd
->
IsNetOp
());
ASSERT_TRUE
(
bwd
->
IsNetOp
());
auto
bwd_net
=
static_cast
<
f
::
NetOp
*>
(
bwd
.
get
());
auto
bwd_net
=
static_cast
<
f
::
NetOp
*>
(
bwd
.
get
());
ASSERT_EQ
(
3UL
,
bwd_net
->
ops_
.
size
());
ASSERT_EQ
(
3UL
,
bwd_net
->
ops_
.
size
());
LOG
(
INFO
)
<<
bwd_net
->
DebugString
();
ASSERT_EQ
(
"add_grad"
,
bwd_net
->
ops_
[
2
]
->
type_
);
ASSERT_EQ
(
"add_grad"
,
bwd_net
->
ops_
[
2
]
->
type_
);
}
}
TEST
(
Backward
,
op_register_grad_not_for_network
)
{
TEST
(
Backward
,
op_register_grad_not_for_network
)
{
auto
fwd
=
f
::
OpRegistry
::
CreateOp
(
auto
fwd
=
"fc"
,
{
"X"
,
"W"
,
"b"
},
{
"mul_result"
,
"add_result"
,
"O
ut"
},
f
::
OpRegistry
::
CreateOp
(
"fc"
,
{
"X"
,
"W"
,
"b"
},
{
"Out"
,
"tmp_o
ut"
},
{{
"temporary_index"
,
std
::
vector
<
int
>
{
1
}}});
{{
"temporary_index"
,
std
::
vector
<
int
>
{
1
}}});
ASSERT_THROW
(
f
::
OpRegistry
::
CreateGradOp
(
*
fwd
),
EnforceNotMet
);
ASSERT_THROW
(
f
::
OpRegistry
::
CreateGradOp
(
*
fwd
),
EnforceNotMet
);
}
}
...
@@ -299,9 +316,11 @@ TEST(Backward, op_part_of_output_are_not_need) {
...
@@ -299,9 +316,11 @@ TEST(Backward, op_part_of_output_are_not_need) {
TEST
(
Backward
,
op_part_of_input_are_not_need
)
{
TEST
(
Backward
,
op_part_of_input_are_not_need
)
{
auto
fwd
=
f
::
OpRegistry
::
CreateOp
(
"mul"
,
{
"a"
,
"b"
},
{
"out"
},
{});
auto
fwd
=
f
::
OpRegistry
::
CreateOp
(
"mul"
,
{
"a"
,
"b"
},
{
"out"
},
{});
auto
backward
=
f
::
Backward
(
*
fwd
,
{
"a"
});
auto
backward
=
f
::
Backward
(
*
fwd
,
{
"a"
});
ASSERT_TRUE
(
!
backward
->
IsNetOp
());
ASSERT_False
(
backward
->
IsNetOp
());
auto
net
=
static_cast
<
f
::
NetOp
*>
(
backward
.
get
());
ASSERT_EQ
(
net
->
ops_
.
size
(),
1UL
);
auto
&
grad_mul
=
*
backward
;
auto
&
grad_mul
=
*
net
->
ops_
[
0
]
;
ASSERT_EQ
(
grad_mul
.
type_
,
"mul_grad"
);
ASSERT_EQ
(
grad_mul
.
type_
,
"mul_grad"
);
ASSERT_EQ
(
grad_mul
.
inputs_
.
size
(),
2UL
+
1UL
+
1UL
);
ASSERT_EQ
(
grad_mul
.
inputs_
.
size
(),
2UL
+
1UL
+
1UL
);
ASSERT_EQ
(
grad_mul
.
outputs_
.
size
(),
2UL
);
ASSERT_EQ
(
grad_mul
.
outputs_
.
size
(),
2UL
);
...
@@ -324,11 +343,11 @@ TEST(Backward, linear_net_intermediate_variable_has_no_grad) {
...
@@ -324,11 +343,11 @@ TEST(Backward, linear_net_intermediate_variable_has_no_grad) {
{
"mul_out2"
,
"tmp_out2"
,
"out2"
},
{}));
{
"mul_out2"
,
"tmp_out2"
,
"out2"
},
{}));
net
.
AddOp
(
f
::
OpRegistry
::
CreateOp
(
"fc"
,
{
"out2"
,
"w3"
,
"b3"
},
net
.
AddOp
(
f
::
OpRegistry
::
CreateOp
(
"fc"
,
{
"out2"
,
"w3"
,
"b3"
},
{
"mul_out3"
,
"tmp_out3"
,
"out3"
},
{}));
{
"mul_out3"
,
"tmp_out3"
,
"out3"
},
{}));
net
.
CompleteAddOp
();
net
.
CompleteAddOp
(
false
);
auto
backward
=
f
::
Backward
(
net
,
{
"mul_out2"
,
"tmp_out2"
,
"out2"
});
auto
backward
=
f
::
Backward
(
net
,
{
"mul_out2"
,
"tmp_out2"
,
"out2"
});
ASSERT_TRUE
(
backward
->
IsNetOp
());
ASSERT_TRUE
(
backward
->
IsNetOp
());
auto
bwd_net
=
static_cast
<
f
::
NetOp
*>
(
backward
.
get
());
auto
bwd_net
=
static_cast
<
f
::
NetOp
*>
(
backward
.
get
());
ASSERT_EQ
(
bwd_net
->
ops_
.
size
(),
1
UL
);
ASSERT_EQ
(
bwd_net
->
ops_
.
size
(),
3
UL
);
auto
&
grad_fc
=
*
bwd_net
->
ops_
[
0
];
auto
&
grad_fc
=
*
bwd_net
->
ops_
[
0
];
ASSERT_EQ
(
grad_fc
.
type_
,
"fc_grad"
);
ASSERT_EQ
(
grad_fc
.
type_
,
"fc_grad"
);
...
...
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