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钟尚武
dlib
Commits
1c269270
Commit
1c269270
authored
May 26, 2013
by
Davis King
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Plain Diff
Added testing and cross validation routines for the python sequence segmenter interface.
parent
a4590776
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1 changed file
with
263 additions
and
1 deletion
+263
-1
sequence_segmenter.cpp
tools/python/src/sequence_segmenter.cpp
+263
-1
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tools/python/src/sequence_segmenter.cpp
View file @
1c269270
...
...
@@ -355,6 +355,9 @@ void configure_trainer (
{
pyassert
(
samples
.
size
()
!=
0
,
"Invalid arguments. You must give some training sequences."
);
pyassert
(
samples
[
0
].
size
()
!=
0
,
"Invalid arguments. You can't have zero length training sequences."
);
pyassert
(
params
.
window_size
!=
0
,
"Invalid window_size parameter, it must be > 0."
);
pyassert
(
params
.
epsilon
>
0
,
"Invalid epsilon parameter, it must be > 0."
);
pyassert
(
params
.
C
>
0
,
"Invalid C parameter, it must be > 0."
);
const
long
dims
=
samples
[
0
][
0
].
size
();
trainer
=
structural_sequence_segmentation_trainer
<
T
>
(
T
(
dims
,
params
.
window_size
));
...
...
@@ -532,11 +535,252 @@ segmenter_type train_sparse (
// ----------------------------------------------------------------------------------------
struct
segmenter_test
{
double
precision
;
double
recall
;
double
f1
;
};
void
serialize
(
const
segmenter_test
&
item
,
std
::
ostream
&
out
)
{
serialize
(
item
.
precision
,
out
);
serialize
(
item
.
recall
,
out
);
serialize
(
item
.
f1
,
out
);
}
void
deserialize
(
segmenter_test
&
item
,
std
::
istream
&
in
)
{
deserialize
(
item
.
precision
,
in
);
deserialize
(
item
.
recall
,
in
);
deserialize
(
item
.
f1
,
in
);
}
std
::
string
segmenter_test__str__
(
const
segmenter_test
&
item
)
{
std
::
ostringstream
sout
;
sout
<<
"precision: "
<<
item
.
precision
<<
" recall: "
<<
item
.
recall
<<
" f1-score: "
<<
item
.
f1
;
return
sout
.
str
();
}
std
::
string
segmenter_test__repr__
(
const
segmenter_test
&
item
)
{
return
"< "
+
segmenter_test__str__
(
item
)
+
" >"
;}
// ----------------------------------------------------------------------------------------
const
segmenter_test
test_sequence_segmenter1
(
const
segmenter_type
&
segmenter
,
const
std
::
vector
<
std
::
vector
<
dense_vect
>
>&
samples
,
const
std
::
vector
<
ranges
>&
segments
)
{
pyassert
(
is_sequence_segmentation_problem
(
samples
,
segments
),
"Invalid inputs"
);
matrix
<
double
,
1
,
3
>
res
;
switch
(
segmenter
.
mode
)
{
case
0
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter0
,
samples
,
segments
);
break
;
case
1
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter1
,
samples
,
segments
);
break
;
case
2
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter2
,
samples
,
segments
);
break
;
case
3
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter3
,
samples
,
segments
);
break
;
case
4
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter4
,
samples
,
segments
);
break
;
case
5
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter5
,
samples
,
segments
);
break
;
case
6
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter6
,
samples
,
segments
);
break
;
case
7
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter7
,
samples
,
segments
);
break
;
default
:
throw
dlib
::
error
(
"Invalid mode"
);
}
segmenter_test
temp
;
temp
.
precision
=
res
(
0
);
temp
.
recall
=
res
(
1
);
temp
.
f1
=
res
(
2
);
return
temp
;
}
const
segmenter_test
test_sequence_segmenter2
(
const
segmenter_type
&
segmenter
,
const
std
::
vector
<
std
::
vector
<
sparse_vect
>
>&
samples
,
const
std
::
vector
<
ranges
>&
segments
)
{
pyassert
(
is_sequence_segmentation_problem
(
samples
,
segments
),
"Invalid inputs"
);
matrix
<
double
,
1
,
3
>
res
;
switch
(
segmenter
.
mode
)
{
case
8
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter8
,
samples
,
segments
);
break
;
case
9
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter9
,
samples
,
segments
);
break
;
case
10
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter10
,
samples
,
segments
);
break
;
case
11
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter11
,
samples
,
segments
);
break
;
case
12
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter12
,
samples
,
segments
);
break
;
case
13
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter13
,
samples
,
segments
);
break
;
case
14
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter14
,
samples
,
segments
);
break
;
case
15
:
res
=
test_sequence_segmenter
(
segmenter
.
segmenter15
,
samples
,
segments
);
break
;
default
:
throw
dlib
::
error
(
"Invalid mode"
);
}
segmenter_test
temp
;
temp
.
precision
=
res
(
0
);
temp
.
recall
=
res
(
1
);
temp
.
f1
=
res
(
2
);
return
temp
;
}
// ----------------------------------------------------------------------------------------
const
segmenter_test
cross_validate_sequence_segmenter1
(
const
std
::
vector
<
std
::
vector
<
dense_vect
>
>&
samples
,
const
std
::
vector
<
ranges
>&
segments
,
long
folds
,
segmenter_params
params
)
{
pyassert
(
is_sequence_segmentation_problem
(
samples
,
segments
),
"Invalid inputs"
);
pyassert
(
1
<
folds
&&
folds
<=
static_cast
<
long
>
(
samples
.
size
()),
"folds argument is outside the valid range."
);
matrix
<
double
,
1
,
3
>
res
;
int
mode
=
0
;
if
(
params
.
use_BIO_model
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
if
(
params
.
use_high_order_features
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
if
(
params
.
allow_negative_weights
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
switch
(
mode
)
{
case
0
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe0
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
1
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe1
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
2
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe2
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
3
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe3
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
4
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe4
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
5
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe5
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
6
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe6
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
7
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe7
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
default
:
throw
dlib
::
error
(
"Invalid mode"
);
}
segmenter_test
temp
;
temp
.
precision
=
res
(
0
);
temp
.
recall
=
res
(
1
);
temp
.
f1
=
res
(
2
);
return
temp
;
}
const
segmenter_test
cross_validate_sequence_segmenter2
(
const
std
::
vector
<
std
::
vector
<
sparse_vect
>
>&
samples
,
const
std
::
vector
<
ranges
>&
segments
,
long
folds
,
segmenter_params
params
)
{
pyassert
(
is_sequence_segmentation_problem
(
samples
,
segments
),
"Invalid inputs"
);
pyassert
(
1
<
folds
&&
folds
<=
static_cast
<
long
>
(
samples
.
size
()),
"folds argument is outside the valid range."
);
matrix
<
double
,
1
,
3
>
res
;
int
mode
=
0
;
if
(
params
.
use_BIO_model
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
if
(
params
.
use_high_order_features
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
if
(
params
.
allow_negative_weights
)
mode
=
mode
*
2
+
1
;
else
mode
=
mode
*
2
;
mode
+=
8
;
switch
(
mode
)
{
case
8
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe8
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
9
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe9
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
10
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe10
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
11
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe11
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
12
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe12
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
13
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe13
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
14
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe14
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
case
15
:
{
structural_sequence_segmentation_trainer
<
segmenter_type
::
fe15
>
trainer
;
configure_trainer
(
samples
,
trainer
,
params
);
res
=
cross_validate_sequence_segmenter
(
trainer
,
samples
,
segments
,
folds
);
}
break
;
default
:
throw
dlib
::
error
(
"Invalid mode"
);
}
segmenter_test
temp
;
temp
.
precision
=
res
(
0
);
temp
.
recall
=
res
(
1
);
temp
.
f1
=
res
(
2
);
return
temp
;
}
// ----------------------------------------------------------------------------------------
void
bind_sequence_segmenter
()
{
class_
<
segmenter_params
>
(
"segmenter_params"
,
"This class is used to define all the optional parameters to the
\n
\
train_sequence_segmenter()
routine
. "
)
train_sequence_segmenter()
and cross_validate_sequence_segmenter() routines
. "
)
.
def_readwrite
(
"use_BIO_model"
,
&
segmenter_params
::
use_BIO_model
)
.
def_readwrite
(
"use_high_order_features"
,
&
segmenter_params
::
use_high_order_features
)
.
def_readwrite
(
"allow_negative_weights"
,
&
segmenter_params
::
allow_negative_weights
)
...
...
@@ -545,6 +789,7 @@ train_sequence_segmenter() routine. ")
.
def_readwrite
(
"epsilon"
,
&
segmenter_params
::
epsilon
)
.
def_readwrite
(
"max_cache_size"
,
&
segmenter_params
::
max_cache_size
)
.
def_readwrite
(
"C"
,
&
segmenter_params
::
C
,
"SVM C parameter"
)
.
def_readwrite
(
"be_verbose"
,
&
segmenter_params
::
be_verbose
)
.
def
(
"__repr__"
,
&
segmenter_params__repr__
)
.
def
(
"__str__"
,
&
segmenter_params__str__
)
.
def_pickle
(
serialize_pickle
<
segmenter_params
>
());
...
...
@@ -555,9 +800,26 @@ train_sequence_segmenter() routine. ")
.
def_readonly
(
"weights"
,
&
segmenter_type
::
get_weights
)
.
def_pickle
(
serialize_pickle
<
segmenter_type
>
());
class_
<
segmenter_test
>
(
"segmenter_test"
)
.
def_readwrite
(
"precision"
,
&
segmenter_test
::
precision
)
.
def_readwrite
(
"recall"
,
&
segmenter_test
::
recall
)
.
def_readwrite
(
"f1"
,
&
segmenter_test
::
f1
)
.
def
(
"__repr__"
,
&
segmenter_test__repr__
)
.
def
(
"__str__"
,
&
segmenter_test__str__
)
.
def_pickle
(
serialize_pickle
<
segmenter_test
>
());
using
boost
::
python
::
arg
;
def
(
"train_sequence_segmenter"
,
train_dense
,
(
arg
(
"samples"
),
arg
(
"segments"
),
arg
(
"params"
)
=
segmenter_params
()));
def
(
"train_sequence_segmenter"
,
train_sparse
,
(
arg
(
"samples"
),
arg
(
"segments"
),
arg
(
"params"
)
=
segmenter_params
()));
def
(
"test_sequence_segmenter"
,
test_sequence_segmenter1
);
def
(
"test_sequence_segmenter"
,
test_sequence_segmenter2
);
def
(
"cross_validate_sequence_segmenter"
,
cross_validate_sequence_segmenter1
,
(
arg
(
"samples"
),
arg
(
"segments"
),
arg
(
"folds"
),
arg
(
"params"
)
=
segmenter_params
()));
def
(
"cross_validate_sequence_segmenter"
,
cross_validate_sequence_segmenter2
,
(
arg
(
"samples"
),
arg
(
"segments"
),
arg
(
"folds"
),
arg
(
"params"
)
=
segmenter_params
()));
}
...
...
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