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钟尚武
dlib
Commits
c5f83cbe
Commit
c5f83cbe
authored
Mar 25, 2016
by
Davis King
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Added count_steps_without_decrease() and count_steps_without_increase().
parent
fd4ef8ff
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2 changed files
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129 additions
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+129
-0
running_gradient.h
dlib/statistics/running_gradient.h
+74
-0
running_gradient_abstract.h
dlib/statistics/running_gradient_abstract.h
+55
-0
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dlib/statistics/running_gradient.h
View file @
c5f83cbe
...
...
@@ -194,6 +194,80 @@ namespace dlib
return
g
.
probability_gradient_greater_than
(
thresh
);
}
// ----------------------------------------------------------------------------------------
template
<
typename
T
>
size_t
count_steps_without_decrease
(
const
T
&
container
,
double
probability_of_decrease
=
0
.
51
)
{
// make sure requires clause is not broken
DLIB_ASSERT
(
0
.
5
<
probability_of_decrease
&&
probability_of_decrease
<
1
,
"
\t
size_t count_steps_without_decrease()"
<<
"
\n\t
probability_of_decrease: "
<<
probability_of_decrease
);
running_gradient
g
;
size_t
count
=
0
;
size_t
j
=
0
;
for
(
auto
i
=
container
.
rbegin
();
i
!=
container
.
rend
();
++
i
)
{
++
j
;
g
.
add
(
*
i
);
if
(
g
.
current_n
()
>
2
)
{
// Note that this only looks backwards because we are looping over the
// container backwards. So here we are really checking if the gradient isn't
// decreasing.
double
prob_decreasing
=
g
.
probability_gradient_greater_than
(
0
);
// If we aren't confident things are decreasing.
if
(
prob_decreasing
<
probability_of_decrease
)
count
=
j
;
}
}
return
count
;
}
// ----------------------------------------------------------------------------------------
template
<
typename
T
>
size_t
count_steps_without_increase
(
const
T
&
container
,
double
probability_of_increase
=
0
.
51
)
{
// make sure requires clause is not broken
DLIB_ASSERT
(
0
.
5
<
probability_of_increase
&&
probability_of_increase
<
1
,
"
\t
size_t count_steps_without_increase()"
<<
"
\n\t
probability_of_increase: "
<<
probability_of_increase
);
running_gradient
g
;
size_t
count
=
0
;
size_t
j
=
0
;
for
(
auto
i
=
container
.
rbegin
();
i
!=
container
.
rend
();
++
i
)
{
++
j
;
g
.
add
(
*
i
);
if
(
g
.
current_n
()
>
2
)
{
// Note that this only looks backwards because we are looping over the
// container backwards. So here we are really checking if the gradient isn't
// increasing.
double
prob_increasing
=
g
.
probability_gradient_less_than
(
0
);
// If we aren't confident things are increasing.
if
(
prob_increasing
<
probability_of_increase
)
count
=
j
;
}
}
return
count
;
}
// ----------------------------------------------------------------------------------------
}
...
...
dlib/statistics/running_gradient_abstract.h
View file @
c5f83cbe
...
...
@@ -153,6 +153,61 @@ namespace dlib
then returns R.probability_gradient_greater_than(thresh).
!*/
// ----------------------------------------------------------------------------------------
template
<
typename
T
>
size_t
count_steps_without_decrease
(
const
T
&
container
,
double
probability_of_decrease
=
0
.
51
);
/*!
requires
- container muse be a container of double values that can be enumerated with
.rbegin() and .rend().
- 0.5 < probability_of_decrease < 1
ensures
- If you think of the contents of container as a potentially noisy time series,
then this function returns a count of how long the time series has gone
without noticeably decreasing in value. It does this by adding the
elements into a running_gradient object and counting how many elements,
starting with container.back(), that you need to examine before you are
confident that the series has been decreasing in value. Here, "confident of
decrease" means that the probability of decrease is >= probability_of_decrease.
- Setting probability_of_decrease to 0.51 means we count until we see even a
small hint of decrease, whereas a larger value of 0.99 would return a larger
count since it keeps going until it is nearly certain the time series is
decreasing.
- The max possible output from this function is container.size().
!*/
template
<
typename
T
>
size_t
count_steps_without_increase
(
const
T
&
container
,
double
probability_of_increase
=
0
.
51
);
/*!
requires
- container muse be a container of double values that can be enumerated with
.rbegin() and .rend().
- 0.5 < probability_of_increase < 1
ensures
- If you think of the contents of container as a potentially noisy time series,
then this function returns a count of how long the time series has gone
without noticeably increasing in value. It does this by adding the
elements into a running_gradient object and counting how many elements,
starting with container.back(), that you need to examine before you are
confident that the series has been increasing in value. Here, "confident of
increase" means that the probability of increase is >= probability_of_increase.
- Setting probability_of_increase to 0.51 means we count until we see even a
small hint of increase, whereas a larger value of 0.99 would return a larger
count since it keeps going until it is nearly certain the time series is
increasing.
!*/
// ----------------------------------------------------------------------------------------
}
...
...
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