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钟尚武
dlib
Commits
b9ce6dd0
Commit
b9ce6dd0
authored
Oct 11, 2011
by
Davis King
Browse files
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Plain Diff
Added unit tests and fixed a few issues.
parent
4b6f44b8
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Inline
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Showing
2 changed files
with
178 additions
and
87 deletions
+178
-87
matrix_conv.h
dlib/matrix/matrix_conv.h
+24
-87
matrix4.cpp
dlib/test/matrix4.cpp
+154
-0
No files found.
dlib/matrix/matrix_conv.h
View file @
b9ce6dd0
...
...
@@ -15,12 +15,22 @@ namespace dlib
template
<
typename
M1
,
typename
M2
,
bool
flip_m2
=
false
>
struct
op_conv
{
op_conv
(
const
M1
&
m1_
,
const
M2
&
m2_
)
:
m1
(
m1_
),
m2
(
m2_
)
op_conv
(
const
M1
&
m1_
,
const
M2
&
m2_
)
:
m1
(
m1_
),
m2
(
m2_
),
nr_
(
m1
.
nr
()
+
m2
.
nr
()
-
1
),
nc_
(
m1
.
nc
()
+
m2
.
nc
()
-
1
)
{
if
(
nr_
<
0
||
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nr_
=
0
;
if
(
nc_
<
0
||
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nc_
=
0
;
}
const
M1
&
m1
;
const
M2
&
m2
;
long
nr_
;
long
nc_
;
const
static
long
cost
=
(
M1
::
cost
+
M2
::
cost
)
*
10
;
const
static
long
NR
=
(
M1
::
NR
*
M2
::
NR
==
0
)
?
(
0
)
:
(
M1
::
NR
+
M2
::
NR
-
1
);
...
...
@@ -54,8 +64,8 @@ namespace dlib
return
temp
;
}
long
nr
()
const
{
return
m1
.
nr
()
+
m2
.
nr
()
-
1
;
}
long
nc
()
const
{
return
m1
.
nc
()
+
m2
.
nc
()
-
1
;
}
long
nr
()
const
{
return
nr_
;
}
long
nc
()
const
{
return
nc_
;
}
template
<
typename
U
>
bool
aliases
(
const
matrix_exp
<
U
>&
item
)
const
{
return
m1
.
aliases
(
item
)
||
m2
.
aliases
(
item
);
}
template
<
typename
U
>
bool
destructively_aliases
(
const
matrix_exp
<
U
>&
item
)
const
{
return
m1
.
aliases
(
item
)
||
m2
.
aliases
(
item
);
}
...
...
@@ -70,17 +80,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the convolution of m1 with m2. In particular, this function is
equivalent to performing the following in matlab: R = conv2(m1,m2).
- R::type == the same type that was in m1 and m2.
- R.nr() == m1.nr()+m2.nr()-1
- R.nc() == m1.nc()+m2.nc()-1
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
@@ -96,17 +95,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the cross-correlation of m1 with m2. In particular, this
function returns conv(m1,flip(m2)).
- R::type == the same type that was in m1 and m2.
- R.nr() == m1.nr()+m2.nr()-1
- R.nc() == m1.nc()+m2.nc()-1
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
@@ -120,12 +108,18 @@ namespace dlib
template
<
typename
M1
,
typename
M2
,
bool
flip_m2
=
false
>
struct
op_conv_same
{
op_conv_same
(
const
M1
&
m1_
,
const
M2
&
m2_
)
:
m1
(
m1_
),
m2
(
m2_
)
op_conv_same
(
const
M1
&
m1_
,
const
M2
&
m2_
)
:
m1
(
m1_
),
m2
(
m2_
)
,
nr_
(
m1
.
nr
()),
nc_
(
m1
.
nc
())
{
if
(
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nr_
=
0
;
if
(
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nc_
=
0
;
}
const
M1
&
m1
;
const
M2
&
m2
;
long
nr_
;
long
nc_
;
const
static
long
cost
=
(
M1
::
cost
+
M2
::
cost
)
*
10
;
const
static
long
NR
=
M1
::
NR
;
...
...
@@ -162,8 +156,8 @@ namespace dlib
return
temp
;
}
long
nr
()
const
{
return
m1
.
nr
()
;
}
long
nc
()
const
{
return
m1
.
nc
()
;
}
long
nr
()
const
{
return
nr_
;
}
long
nc
()
const
{
return
nc_
;
}
template
<
typename
U
>
bool
aliases
(
const
matrix_exp
<
U
>&
item
)
const
{
return
m1
.
aliases
(
item
)
||
m2
.
aliases
(
item
);
}
template
<
typename
U
>
bool
destructively_aliases
(
const
matrix_exp
<
U
>&
item
)
const
{
return
m1
.
aliases
(
item
)
||
m2
.
aliases
(
item
);
}
...
...
@@ -178,20 +172,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the convolution of m1 with m2. In particular, this function is
equivalent to performing the following in matlab: R = conv2(m1,m2,'same').
In particular, this means the result will have the same dimensions as m1 and will
contain the central part of the full convolution. This means conv_same(m1,m2) is
equivalent to subm(conv(m1,m2), m2.nr()/2, m2.nc()/2, m1.nr(), m1.nc()).
- R::type == the same type that was in m1 and m2.
- R.nr() == m1.nr()
- R.nc() == m1.nc()
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
@@ -207,17 +187,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the cross-correlation of m1 with m2. In particular, this
function returns conv_same(m1,flip(m2)).
- R::type == the same type that was in m1 and m2.
- R.nr() == m1.nr()
- R.nc() == m1.nc()
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
@@ -236,9 +205,9 @@ namespace dlib
nr_
(
m1
.
nr
()
-
m2
.
nr
()
+
1
),
nc_
(
m1
.
nc
()
-
m2
.
nc
()
+
1
)
{
if
(
nr_
<
0
)
if
(
nr_
<
0
||
nc_
<=
0
||
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nr_
=
0
;
if
(
nc_
<
0
)
if
(
nc_
<
0
||
nr_
<=
0
||
m1
.
size
()
==
0
||
m2
.
size
()
==
0
)
nc_
=
0
;
}
...
...
@@ -298,23 +267,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the convolution of m1 with m2. In particular, this function is
equivalent to performing the following in matlab: R = conv2(m1,m2,'valid').
In particular, this means only elements of the convolution which don't require
zero padding are included in the result.
- R::type == the same type that was in m1 and m2.
- if (m1 has larger dimensions than m2) then
- R.nr() == m1.nr()-m2.nr()+1
- R.nc() == m1.nc()-m2.nc()+1
- else
- R.nr() == 0
- R.nc() == 0
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
@@ -330,21 +282,6 @@ namespace dlib
const
matrix_exp
<
M1
>&
m1
,
const
matrix_exp
<
M2
>&
m2
)
/*!
requires
- m1 and m2 both contain elements of the same type
ensures
- returns a matrix R such that:
- R is the cross-correlation of m1 with m2. In particular, this
function returns conv_valid(m1,flip(m2)).
- R::type == the same type that was in m1 and m2.
- if (m1 has larger dimensions than m2) then
- R.nr() == m1.nr()-m2.nr()+1
- R.nc() == m1.nc()-m2.nc()+1
- else
- R.nr() == 0
- R.nc() == 0
!*/
{
COMPILE_TIME_ASSERT
((
is_same_type
<
typename
M1
::
type
,
typename
M2
::
type
>::
value
==
true
));
...
...
dlib/test/matrix4.cpp
View file @
b9ce6dd0
...
...
@@ -611,6 +611,157 @@ namespace
template
<
long
D1
,
long
D2
,
long
D3
,
long
D4
>
void
test_conv
()
{
dlog
<<
LINFO
<<
D1
<<
" "
<<
D2
<<
" "
<<
D3
<<
" "
<<
D4
;
matrix
<
int
,
D1
,
D1
>
a
(
1
,
1
);
matrix
<
int
,
D2
,
D2
>
b
(
2
,
2
);
matrix
<
int
,
D3
,
D3
>
c
(
3
,
3
);
matrix
<
int
,
D4
,
D1
>
d
(
4
,
1
);
a
=
4
;
b
=
1
,
2
,
3
,
4
;
c
=
1
,
2
,
3
,
4
,
5
,
6
,
7
,
8
,
9
;
d
=
1
,
2
,
3
,
4
;
matrix
<
int
>
temp
(
4
,
4
),
temp2
;
temp
=
1
,
4
,
7
,
6
,
7
,
23
,
33
,
24
,
19
,
53
,
63
,
42
,
21
,
52
,
59
,
36
;
DLIB_TEST
(
conv
(
b
,
c
)
==
temp
);
DLIB_TEST
(
conv
(
c
,
b
)
==
temp
);
DLIB_TEST
(
xcorr
(
c
,
flip
(
b
))
==
temp
);
temp
.
set_size
(
2
,
2
);
temp
=
23
,
33
,
53
,
63
;
DLIB_TEST
(
conv_same
(
b
,
c
)
==
temp
);
DLIB_TEST
(
xcorr_same
(
b
,
flip
(
c
))
==
temp
);
temp2
.
set_size
(
2
,
2
);
temp2
=
63
,
53
,
33
,
23
;
DLIB_TEST
(
flip
(
temp
)
==
temp2
);
DLIB_TEST
(
flip
(
temp
)
==
fliplr
(
flipud
(
temp
)));
DLIB_TEST
(
conv_valid
(
b
,
c
).
nr
()
==
0
);
DLIB_TEST
(
conv_valid
(
b
,
c
).
nc
()
==
0
);
DLIB_TEST
(
conv_valid
(
c
,
b
)
==
temp
);
DLIB_TEST
(
xcorr_valid
(
c
,
flip
(
b
))
==
temp
);
temp
.
set_size
(
1
,
1
);
temp
=
16
;
DLIB_TEST
(
conv
(
a
,
a
)
==
temp
);
DLIB_TEST
(
conv_same
(
a
,
a
)
==
temp
);
DLIB_TEST
(
conv_valid
(
a
,
a
)
==
temp
);
DLIB_TEST
(
xcorr
(
a
,
a
)
==
temp
);
DLIB_TEST
(
xcorr_same
(
a
,
a
)
==
temp
);
DLIB_TEST
(
xcorr_valid
(
a
,
a
)
==
temp
);
temp
.
set_size
(
0
,
0
);
DLIB_TEST
(
conv
(
temp
,
temp
).
nr
()
==
0
);
DLIB_TEST
(
conv
(
temp
,
temp
).
nc
()
==
0
);
DLIB_TEST
(
conv_same
(
temp
,
temp
).
nr
()
==
0
);
DLIB_TEST
(
conv_same
(
temp
,
temp
).
nc
()
==
0
);
DLIB_TEST_MSG
(
conv_valid
(
temp
,
temp
).
nr
()
==
0
,
conv_valid
(
temp
,
temp
).
nr
());
DLIB_TEST
(
conv_valid
(
temp
,
temp
).
nc
()
==
0
);
DLIB_TEST
(
conv
(
c
,
temp
).
nr
()
==
0
);
DLIB_TEST
(
conv
(
c
,
temp
).
nc
()
==
0
);
DLIB_TEST
(
conv_same
(
c
,
temp
).
nr
()
==
0
);
DLIB_TEST
(
conv_same
(
c
,
temp
).
nc
()
==
0
);
DLIB_TEST
(
conv_valid
(
c
,
temp
).
nr
()
==
0
);
DLIB_TEST
(
conv_valid
(
c
,
temp
).
nc
()
==
0
);
DLIB_TEST
(
conv
(
temp
,
c
).
nr
()
==
0
);
DLIB_TEST
(
conv
(
temp
,
c
).
nc
()
==
0
);
DLIB_TEST
(
conv_same
(
temp
,
c
).
nr
()
==
0
);
DLIB_TEST
(
conv_same
(
temp
,
c
).
nc
()
==
0
);
DLIB_TEST
(
conv_valid
(
temp
,
c
).
nr
()
==
0
);
DLIB_TEST
(
conv_valid
(
temp
,
c
).
nc
()
==
0
);
temp
.
set_size
(
5
,
2
);
temp
=
1
,
2
,
5
,
8
,
9
,
14
,
13
,
20
,
12
,
16
;
DLIB_TEST
(
conv
(
b
,
d
)
==
temp
);
DLIB_TEST
(
xcorr
(
b
,
flip
(
d
))
==
temp
);
temp
.
set_size
(
2
,
2
);
temp
=
9
,
14
,
13
,
20
;
DLIB_TEST
(
conv_same
(
b
,
d
)
==
temp
);
DLIB_TEST
(
xcorr_same
(
b
,
flip
(
d
))
==
temp
);
DLIB_TEST
(
conv_valid
(
b
,
d
).
nr
()
==
0
);
DLIB_TEST
(
xcorr_valid
(
b
,
flip
(
d
)).
nr
()
==
0
);
DLIB_TEST_MSG
(
conv_valid
(
b
,
d
).
nc
()
==
0
,
conv_valid
(
b
,
d
).
nc
());
DLIB_TEST
(
xcorr_valid
(
b
,
flip
(
d
)).
nc
()
==
0
);
temp
.
set_size
(
5
,
5
);
temp
=
1
,
4
,
10
,
12
,
9
,
8
,
26
,
56
,
54
,
36
,
30
,
84
,
165
,
144
,
90
,
56
,
134
,
236
,
186
,
108
,
49
,
112
,
190
,
144
,
81
;
DLIB_TEST
(
conv
(
c
,
c
)
==
temp
);
DLIB_TEST
(
xcorr
(
c
,
flip
(
c
))
==
temp
);
matrix
<
int
>
temp3
=
c
;
temp3
=
conv
(
temp3
,
c
);
DLIB_TEST
(
temp3
==
temp
);
temp3
=
c
;
temp3
=
conv
(
c
,
temp3
);
DLIB_TEST
(
temp3
==
temp
);
temp
.
set_size
(
3
,
3
);
temp
=
26
,
56
,
54
,
84
,
165
,
144
,
134
,
236
,
186
;
DLIB_TEST
(
conv_same
(
c
,
c
)
==
temp
);
DLIB_TEST
(
xcorr_same
(
c
,
flip
(
c
))
==
temp
);
temp3
=
c
;
temp3
=
conv_same
(
c
,
temp3
);
DLIB_TEST
(
temp3
==
temp
);
temp3
=
c
;
temp3
=
conv_same
(
temp3
,
c
);
DLIB_TEST
(
temp3
==
temp
);
temp
.
set_size
(
1
,
1
);
temp
=
165
;
DLIB_TEST
(
conv_valid
(
c
,
c
)
==
temp
);
DLIB_TEST
(
xcorr_valid
(
c
,
flip
(
c
))
==
temp
);
temp3
=
c
;
temp3
=
conv_valid
(
c
,
temp3
);
DLIB_TEST
(
temp3
==
temp
);
temp3
=
c
;
temp3
=
conv_valid
(
temp3
,
c
);
DLIB_TEST
(
temp3
==
temp
);
}
class
matrix_tester
:
public
tester
...
...
@@ -625,6 +776,9 @@ namespace
void
perform_test
(
)
{
test_conv
<
0
,
0
,
0
,
0
>
();
test_conv
<
1
,
2
,
3
,
4
>
();
test_stuff
();
for
(
int
i
=
0
;
i
<
10
;
++
i
)
matrix_test
();
...
...
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