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Emmay
NiuTrans.Tensor
Commits
0aac9d31
Commit
0aac9d31
authored
Mar 30, 2019
by
xiaotong
Browse files
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code of searcher and predictor
parent
d68b19b6
显示空白字符变更
内嵌
并排
正在显示
4 个修改的文件
包含
91 行增加
和
47 行删除
+91
-47
source/sample/transformer/T2TPredictor.cpp
+28
-21
source/sample/transformer/T2TPredictor.h
+13
-12
source/sample/transformer/T2TSearch.cpp
+40
-13
source/sample/transformer/T2TSearch.h
+10
-1
没有找到文件。
source/sample/transformer/T2TPredictor.cpp
查看文件 @
0aac9d31
...
...
@@ -43,16 +43,16 @@ create an initial state
>> top - the top-most layer of the network
>> state - the state to be initialized
*/
void
T2TPredictor
::
Init
(
T2TModel
*
model
,
XTensor
*
top
,
T2TStateBundle
*
state
)
void
T2TPredictor
::
Create
(
T2TModel
*
model
,
XTensor
*
top
,
T2TStateBundle
*
state
)
{
state
->
layersEnc
oding
.
Clear
();
state
->
layersDec
oding
.
Clear
();
state
->
layersEnc
.
Clear
();
state
->
layersDec
.
Clear
();
XTensor
*
encoding
=
XLink
::
SearchNode
(
top
,
ENCODING_NAME
);
CheckNTErrors
(
encoding
!=
NULL
,
"No encoding layers found!"
);
state
->
layersEnc
oding
.
Add
(
encoding
);
state
->
layersDec
oding
.
Add
(
NULL
);
state
->
layersEnc
.
Add
(
encoding
);
state
->
layersDec
.
Add
(
NULL
);
}
/*
...
...
@@ -72,39 +72,46 @@ void T2TPredictor::Read(T2TModel * model, T2TStateBundle * state)
/*
predict the next state
>> next - next states (assuming that the current state has been read)
>> encoding - encoder output
>> inputEnc - input of the encoder
>> paddingEnc - padding of the encoder
*/
void
T2TPredictor
::
Predict
(
T2TStateBundle
*
next
)
void
T2TPredictor
::
Predict
(
T2TStateBundle
*
next
,
XTensor
*
encoding
,
XTensor
*
inputEnc
,
XTensor
*
paddingEnc
)
{
next
->
layersEnc
oding
.
Clear
();
next
->
layersDec
oding
.
Clear
();
next
->
layersEnc
.
Clear
();
next
->
layersDec
.
Clear
();
AttDecoder
&
decoder
=
*
m
->
decoder
;
/* word indices of previous positions */
XTensor
*
inputLast
=
(
XTensor
*
)
s
->
layersDec
oding
.
GetItem
(
0
);
XTensor
*
inputLast
=
(
XTensor
*
)
s
->
layersDec
.
GetItem
(
0
);
/* word indices of positions up to next state */
XTensor
&
input
=
*
NewTensor
();
XTensor
&
input
Dec
=
*
NewTensor
();
if
(
inputLast
==
NULL
)
input
=
s
->
prediction
;
input
Dec
=
s
->
prediction
;
else
input
=
Concatenate
(
*
inputLast
,
s
->
prediction
,
inputLast
->
GetDim
(
-
1
));
input
Dec
=
Concatenate
(
*
inputLast
,
s
->
prediction
,
inputLast
->
GetDim
(
-
1
));
/* prediction probabilities */
XTensor
&
output
=
next
->
prediction
;
XTensor
&
output
=
next
->
score
;
/* encoder output */
XTensor
&
outputEnc
=
*
(
XTensor
*
)
s
->
layersEncoding
.
GetItem
(
-
1
);
XTensor
paddingDec
;
InitTensor3D
(
&
paddingDec
,
inputDec
.
GetDim
(
0
),
inputDec
.
GetDim
(
1
),
m
->
outputLayer
->
vSize
,
X_INT
);
SetDataFixedInt
(
paddingDec
,
1
);
/* empty tensors (for masking?) */
XTensor
nullMask
;
XTensor
maskDec
;
XTensor
maskEncDec
;
/* decoder mask */
m
->
MakeMTMaskDec
(
*
inputEnc
,
inputDec
,
*
paddingEnc
,
paddingDec
,
maskDec
,
maskEncDec
);
/* make the decoding network and generate the output probabilities */
output
=
decoder
.
Make
(
s
->
prediction
,
outputEnc
,
nullMask
,
nullMask
,
false
);
output
=
decoder
.
Make
(
inputDec
,
*
encoding
,
maskDec
,
maskEncDec
,
false
);
next
->
layersEnc
oding
.
AddList
(
&
s
->
layersEncoding
);
next
->
layersDec
oding
.
Add
(
&
input
);
next
->
layersDec
oding
.
Add
(
&
output
);
next
->
layersEnc
.
AddList
(
&
s
->
layersEnc
);
next
->
layersDec
.
Add
(
&
inputDec
);
next
->
layersDec
.
Add
(
&
output
);
}
}
...
...
source/sample/transformer/T2TPredictor.h
查看文件 @
0aac9d31
...
...
@@ -36,11 +36,11 @@ public:
/* we assume that the prediction is an integer */
int
prediction
;
/*
probability
of the prediction */
float
prob
;
/*
score
of the prediction */
float
score
;
/*
probability
of the path */
float
pathProb
;
/*
score
of the path */
float
scorePath
;
/* pointer to the previous state */
T2TState
*
last
;
...
...
@@ -53,18 +53,18 @@ public:
/* predictions */
XTensor
prediction
;
/*
distribution
of every prediction (last state of the path) */
XTensor
probs
;
/*
score
of every prediction (last state of the path) */
XTensor
score
;
/*
distribution
of every path */
XTensor
pathProbs
;
/*
score
of every path */
XTensor
scorePath
;
/* layers on the encoder side. We actually use the encoder output instead
of all hidden layers. */
XList
layersEnc
oding
;
XList
layersEnc
;
/* layers on the decoder side */
XList
layersDec
oding
;
XList
layersDec
;
};
/* The predictor reads the current state and then predicts the next.
...
...
@@ -74,6 +74,7 @@ public:
indices, hidden states, embeddings and etc.). */
class
T2TPredictor
{
private
:
/* pointer to the transformer model */
T2TModel
*
m
;
...
...
@@ -88,13 +89,13 @@ public:
~
T2TPredictor
();
/* create an initial state */
void
Init
(
T2TModel
*
model
,
XTensor
*
top
,
T2TStateBundle
*
state
);
void
Create
(
T2TModel
*
model
,
XTensor
*
top
,
T2TStateBundle
*
state
);
/* read a state */
void
Read
(
T2TModel
*
model
,
T2TStateBundle
*
state
);
/* predict the next state */
void
Predict
(
T2TStateBundle
*
next
);
void
Predict
(
T2TStateBundle
*
next
,
XTensor
*
encoding
,
XTensor
*
inputEnc
,
XTensor
*
paddingEnc
);
};
}
...
...
source/sample/transformer/T2TSearch.cpp
查看文件 @
0aac9d31
...
...
@@ -20,6 +20,8 @@
*/
#include "T2TSearch.h"
#include "T2TUtility.h"
#include "../../tensor/core/CHeader.h"
using
namespace
nts
;
...
...
@@ -27,6 +29,16 @@ namespace transformer
{
/*
initialize the model
>> argc - number of arguments
>> argv - list of pointers to the arguments
*/
void
T2TSearch
::
InitModel
(
int
argc
,
char
**
argv
)
{
LoadParamInt
(
argc
,
argv
,
"beamsize"
,
&
beamSize
,
1
);
}
/*
search for the most promising states
>> model - the transformer model
>> input - input of the model
...
...
@@ -37,6 +49,7 @@ void T2TSearch::Search(T2TModel * model, XTensor * input, XTensor * padding, XTe
{
XTensor
maskEnc
;
XTensor
encoding
;
T2TPredictor
predictor
;
/* encoder mask */
model
->
MakeMTMaskEnc
(
*
input
,
*
padding
,
maskEnc
);
...
...
@@ -45,30 +58,28 @@ void T2TSearch::Search(T2TModel * model, XTensor * input, XTensor * padding, XTe
encoding
=
model
->
MakeEncoder
(
*
input
,
maskEnc
,
false
);
encoding
.
SetName
(
ENCODING_NAME
);
T2TPredictor
predictor
;
T2TStateBundle
state1
,
state2
;
T2TStateBundle
*
cur
=
&
state1
;
T2TStateBundle
*
next
=
&
state2
;
T2TStateBundle
*
states
=
new
T2TStateBundle
[
maxLength
];
T2TStateBundle
*
first
=
states
;
/*
initialize the predictor
*/
predictor
.
Init
(
model
,
&
encoding
,
cur
);
/*
create the first state
*/
predictor
.
Create
(
model
,
&
encoding
,
first
);
/* generate the sequence from left
-to-
right */
/* generate the sequence from left
to
right */
for
(
int
i
=
0
;
i
<
maxLength
;
i
++
){
T2TStateBundle
*
cur
=
states
+
i
;
T2TStateBundle
*
next
=
states
+
i
+
1
;
/* read the current state */
predictor
.
Read
(
model
,
cur
);
/* predict the next state */
predictor
.
Predict
(
next
);
predictor
.
Predict
(
next
,
&
encoding
,
input
,
padding
);
/* pruning */
Prune
(
next
);
T2TStateBundle
*
backup
=
cur
;
cur
=
next
;
next
=
backup
;
}
delete
[]
states
;
}
/*
...
...
@@ -77,11 +88,27 @@ beam pruning
*/
void
T2TSearch
::
Prune
(
T2TStateBundle
*
beam
)
{
int
dims
[
MAX_TENSOR_DIM_NUM
];
XTensor
scoreTopK
;
XTensor
&
score
=
beam
->
score
;
XTensor
&
index
=
beam
->
prediction
;
for
(
int
i
=
0
;
i
<
score
.
order
;
i
++
)
dims
[
i
]
=
score
.
GetDim
(
i
);
dims
[
score
.
order
-
1
]
=
beamSize
;
InitTensor
(
&
scoreTopK
,
score
.
order
,
score
.
dimSize
,
score
.
dataType
,
1.0
F
,
score
.
devID
,
score
.
mem
);
InitTensor
(
&
index
,
score
.
order
,
score
.
dimSize
,
X_INT
,
1.0
F
,
score
.
devID
,
score
.
mem
);
TopK
(
score
,
scoreTopK
,
index
,
0
,
beamSize
);
}
/*
save the output sequences in a tensor
>> beam -
>> beam -
the beam that keeps a number of states
*/
void
T2TSearch
::
DumpOutput
(
T2TStateBundle
*
beam
,
XTensor
*
output
)
{
...
...
source/sample/transformer/T2TSearch.h
查看文件 @
0aac9d31
...
...
@@ -34,10 +34,16 @@ namespace transformer
The output can be the path with the highest model score. */
class
T2TSearch
{
public
:
private
:
/* predictor */
T2TPredictor
predictor
;
/* max length of the generated sequence */
int
maxLength
;
/* beam size */
int
beamSize
;
public
:
/* constructor */
T2TSearch
()
{};
...
...
@@ -45,6 +51,9 @@ public:
/* de-constructor */
~
T2TSearch
()
{};
/* initialize the model */
void
InitModel
(
int
argc
,
char
**
argv
);
/* search for the most promising states */
void
Search
(
T2TModel
*
model
,
XTensor
*
input
,
XTensor
*
padding
,
XTensor
*
output
);
...
...
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