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rand.cpp
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Fri, Feb 21, 23:43
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Sun, Feb 23, 23:43 (1 d, 5 h)
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24359510
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rDLMA Diffusion limited mixed aggregation
rand.cpp
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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2015 Gael Guennebaud <gael.guennebaud@inria.fr>
//
// This Source Code Form is subject to the terms of the Mozilla
// Public License v. 2.0. If a copy of the MPL was not distributed
// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
#include "main.h"
typedef
long
long
int64
;
template
<
typename
Scalar
>
Scalar
check_in_range
(
Scalar
x
,
Scalar
y
)
{
Scalar
r
=
internal
::
random
<
Scalar
>
(
x
,
y
);
VERIFY
(
r
>=
x
);
if
(
y
>=
x
)
{
VERIFY
(
r
<=
y
);
}
return
r
;
}
template
<
typename
Scalar
>
void
check_all_in_range
(
Scalar
x
,
Scalar
y
)
{
Array
<
int
,
1
,
Dynamic
>
mask
(
y
-
x
+
1
);
mask
.
fill
(
0
);
long
n
=
(
y
-
x
+
1
)
*
32
;
for
(
long
k
=
0
;
k
<
n
;
++
k
)
{
mask
(
check_in_range
(
x
,
y
)
-
x
)
++
;
}
for
(
Index
i
=
0
;
i
<
mask
.
size
();
++
i
)
if
(
mask
(
i
)
==
0
)
std
::
cout
<<
"WARNING: value "
<<
x
+
i
<<
" not reached."
<<
std
::
endl
;
VERIFY
(
(
mask
>
0
).
all
()
);
}
template
<
typename
Scalar
>
void
check_histogram
(
Scalar
x
,
Scalar
y
,
int
bins
)
{
Array
<
int
,
1
,
Dynamic
>
hist
(
bins
);
hist
.
fill
(
0
);
int
f
=
100000
;
int
n
=
bins
*
f
;
int64
range
=
int64
(
y
)
-
int64
(
x
);
int
divisor
=
int
((
range
+
1
)
/
bins
);
assert
(((
range
+
1
)
%
bins
)
==
0
);
for
(
int
k
=
0
;
k
<
n
;
++
k
)
{
Scalar
r
=
check_in_range
(
x
,
y
);
hist
(
int
((
int64
(
r
)
-
int64
(
x
))
/
divisor
)
)
++
;
}
VERIFY
(
(((
hist
.
cast
<
double
>
()
/
double
(
f
))
-
1.0
).
abs
()
<
0.03
).
all
()
);
}
EIGEN_DECLARE_TEST
(
rand
)
{
long
long_ref
=
NumTraits
<
long
>::
highest
()
/
10
;
signed
char
char_offset
=
(
std
::
min
)(
g_repeat
,
64
);
signed
char
short_offset
=
(
std
::
min
)(
g_repeat
,
16000
);
for
(
int
i
=
0
;
i
<
g_repeat
*
10000
;
i
++
)
{
CALL_SUBTEST
(
check_in_range
<
float
>
(
10
,
11
));
CALL_SUBTEST
(
check_in_range
<
float
>
(
1.24234523
,
1.24234523
));
CALL_SUBTEST
(
check_in_range
<
float
>
(
-
1
,
1
));
CALL_SUBTEST
(
check_in_range
<
float
>
(
-
1432.2352
,
-
1432.2352
));
CALL_SUBTEST
(
check_in_range
<
double
>
(
10
,
11
));
CALL_SUBTEST
(
check_in_range
<
double
>
(
1.24234523
,
1.24234523
));
CALL_SUBTEST
(
check_in_range
<
double
>
(
-
1
,
1
));
CALL_SUBTEST
(
check_in_range
<
double
>
(
-
1432.2352
,
-
1432.2352
));
CALL_SUBTEST
(
check_in_range
<
int
>
(
0
,
-
1
));
CALL_SUBTEST
(
check_in_range
<
short
>
(
0
,
-
1
));
CALL_SUBTEST
(
check_in_range
<
long
>
(
0
,
-
1
));
CALL_SUBTEST
(
check_in_range
<
int
>
(
-
673456
,
673456
));
CALL_SUBTEST
(
check_in_range
<
int
>
(
-
RAND_MAX
+
10
,
RAND_MAX
-
10
));
CALL_SUBTEST
(
check_in_range
<
short
>
(
-
24345
,
24345
));
CALL_SUBTEST
(
check_in_range
<
long
>
(
-
long_ref
,
long_ref
));
}
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
11
,
11
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
11
,
11
+
char_offset
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
-
5
,
5
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
-
11
-
char_offset
,
-
11
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
-
126
,
-
126
+
char_offset
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
126
-
char_offset
,
126
));
CALL_SUBTEST
(
check_all_in_range
<
signed
char
>
(
-
126
,
126
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
11
,
11
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
11
,
11
+
short_offset
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
-
5
,
5
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
-
11
-
short_offset
,
-
11
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
-
24345
,
-
24345
+
short_offset
));
CALL_SUBTEST
(
check_all_in_range
<
short
>
(
24345
,
24345
+
short_offset
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
11
,
11
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
11
,
11
+
g_repeat
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
-
5
,
5
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
-
11
-
g_repeat
,
-
11
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
-
673456
,
-
673456
+
g_repeat
));
CALL_SUBTEST
(
check_all_in_range
<
int
>
(
673456
,
673456
+
g_repeat
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
11
,
11
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
11
,
11
+
g_repeat
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
-
5
,
5
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
-
11
-
g_repeat
,
-
11
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
-
long_ref
,
-
long_ref
+
g_repeat
));
CALL_SUBTEST
(
check_all_in_range
<
long
>
(
long_ref
,
long_ref
+
g_repeat
));
CALL_SUBTEST
(
check_histogram
<
int
>
(
-
5
,
5
,
11
));
int
bins
=
100
;
CALL_SUBTEST
(
check_histogram
<
int
>
(
-
3333
,
-
3333
+
bins
*
(
3333
/
bins
)
-
1
,
bins
));
bins
=
1000
;
CALL_SUBTEST
(
check_histogram
<
int
>
(
-
RAND_MAX
+
10
,
-
RAND_MAX
+
10
+
bins
*
(
RAND_MAX
/
bins
)
-
1
,
bins
));
CALL_SUBTEST
(
check_histogram
<
int
>
(
-
RAND_MAX
+
10
,
-
int64
(
RAND_MAX
)
+
10
+
bins
*
(
2
*
int64
(
RAND_MAX
)
/
bins
)
-
1
,
bins
));
}
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