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rAKA akantu
aka_bounding_box.hh
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/**
* @file aka_bounding_box.hh
*
* @author David Simon Kammer <david.kammer@epfl.ch>
* @author Alejandro M. Aragón <alejandro.aragon@epfl.ch>
*
* @date creation: Fri Jan 04 2013
* @date last modification: Mon Jun 02 2014
*
* @brief class for a bounding box
*
* @section LICENSE
*
* Copyright (©) 2014 EPFL (Ecole Polytechnique Fédérale de Lausanne)
* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
*
* Akantu is free software: you can redistribute it and/or modify it under the
* terms of the GNU Lesser General Public License as published by the Free
* Software Foundation, either version 3 of the License, or (at your option) any
* later version.
*
* Akantu is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
* A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
* details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with Akantu. If not, see <http://www.gnu.org/licenses/>.
*
*/
/* -------------------------------------------------------------------------- */
#ifndef __AKANTU_AKA_BOUNDING_BOX_HH__
#define __AKANTU_AKA_BOUNDING_BOX_HH__
#include <iostream>
#include <iomanip>
#include "aka_common.hh"
#include "aka_point.hh"
__BEGIN_AKANTU__
using
std
::
cout
;
using
std
::
endl
;
template
<
int
>
class
BoundingBox
;
/// considers bounding box with respect to a list of points and adaptes it
template
<
int
d
,
class
point_container
>
BoundingBox
<
d
>
computeBoundingBox
(
const
point_container
&
points
)
{
typedef
typename
point_container
::
const_iterator
point_iterator
;
point_iterator
it
=
points
.
begin
();
assert
(
it
!=
points
.
end
());
BoundingBox
<
d
>
bbox
(
*
it
);
for
(
++
it
;
it
!=
points
.
end
();
++
it
)
bbox
+=
*
it
;
return
bbox
;
}
template
<
int
d
,
class
nodes_container
>
BoundingBox
<
d
>
createPointList
(
const
nodes_container
&
nodes
,
const
Array
<
Real
>&
coord
);
template
<
int
d
>
class
BoundingBox
:
public
Bounding_volume
<
d
>
{
public
:
typedef
Bounding_volume
<
d
>
base_type
;
typedef
typename
base_type
::
point_type
point_type
;
typedef
typename
point_type
::
value_type
value_type
;
static
int
dim
()
{
return
d
;
}
private
:
/// minimum point
point_type
min_
;
/// maximum point
point_type
max_
;
public
:
/// default constructor, creates an inconsistent bounding box
BoundingBox
()
:
base_type
(),
min_
(
inf
),
max_
(
-
inf
)
{}
/// point constructor, sets the bounding box to the point
BoundingBox
(
const
point_type
&
p1
)
:
base_type
(),
min_
(
p1
),
max_
(
p1
)
{}
/// two-point constructor, calculates minimum and maximum points
BoundingBox
(
const
point_type
&
p1
,
const
point_type
&
p2
,
bool
compute
=
true
)
:
base_type
(),
min_
(
p1
),
max_
(
p2
)
{
if
(
compute
)
for
(
Int
i
=
0
;
i
<
d
;
++
i
)
{
min_
[
i
]
=
std
::
min
(
p1
[
i
],
p2
[
i
]);
max_
[
i
]
=
std
::
max
(
p1
[
i
],
p2
[
i
]);
}
}
/// multiple-point constructor, creates a bounding box encompass multiple points
template
<
class
iterator
>
BoundingBox
(
iterator
first
,
iterator
last
)
:
base_type
(),
min_
(
*
first
),
max_
(
*
first
)
{
++
first
;
for
(;
first
!=
last
;
++
first
)
this
->
operator
+=
(
*
first
);
}
/// returns the measure of the bounding box: the measure is the volume of the box
value_type
measure
()
const
{
value_type
v
=
1
;
for
(
int
i
=
0
;
i
<
d
;
++
i
)
v
*=
(
max_
[
i
]
-
min_
[
i
]);
return
v
;
}
///
bool
operator
<
(
const
BoundingBox
&
bbox
)
const
{
return
min_
<
bbox
.
min_
||
(
!
(
bbox
.
min_
<
min_
)
&&
max_
<
bbox
.
max_
);
}
/**
returns whether the two bounding boxes have min points with the same coordinates
and max points with the same coordinates
**/
bool
operator
==
(
const
BoundingBox
&
bbox
)
const
{
return
min_
==
bbox
.
min_
&&
max_
==
bbox
.
max_
;
}
/**
returns whether the two bounding boxes have min points with different coordinates
or max points with different coordinates
**/
bool
operator
!=
(
const
BoundingBox
&
bbox
)
const
{
return
!
(
*
this
==
bbox
);
}
/// extend the bounding box, if necessary, in order to encompass this additional point
BoundingBox
&
operator
+=
(
const
point_type
&
point
)
{
for
(
Int
i
=
0
;
i
<
d
;
++
i
)
{
min_
[
i
]
=
std
::
min
(
min_
[
i
],
point
[
i
]);
max_
[
i
]
=
std
::
max
(
max_
[
i
],
point
[
i
]);
}
return
*
this
;
}
/// extend the bounding box, if necessary, in order to encompass the entire given boundary box
BoundingBox
&
operator
+=
(
const
BoundingBox
&
bbox
)
{
this
->
operator
+=
(
bbox
.
min_
);
this
->
operator
+=
(
bbox
.
max_
);
return
*
this
;
}
/// is the point p geometrically inside of the bounding box?
bool
operator
&
(
const
point_type
&
p
)
const
{
Real
e
=
2
*
std
::
numeric_limits
<
Real
>::
epsilon
();
for
(
Int
i
=
0
;
i
<
d
;
++
i
)
if
(
max_
[
i
]
<
p
[
i
]
-
e
||
p
[
i
]
<
min_
[
i
]
-
e
)
return
false
;
return
true
;
}
/// is the bounding box bb geometrically entirely inside of the bounding box?
bool
operator
&
(
const
BoundingBox
&
bb
)
const
{
Real
e
=
2
*
std
::
numeric_limits
<
Real
>::
epsilon
();
for
(
Int
i
=
0
;
i
<
d
;
++
i
)
{
if
(
max_
[
i
]
<
bb
.
min_
[
i
]
-
e
||
bb
.
max_
[
i
]
<
min_
[
i
]
-
e
)
return
false
;
}
return
true
;
}
/// create the intersection bounding box
BoundingBox
operator
&&
(
const
BoundingBox
&
bb
)
const
{
BoundingBox
intersection
;
for
(
Int
i
=
0
;
i
<
d
;
++
i
)
{
intersection
.
min_
[
i
]
=
std
::
max
(
min_
[
i
],
bb
.
min_
[
i
]);
intersection
.
max_
[
i
]
=
std
::
min
(
max_
[
i
],
bb
.
max_
[
i
]);
}
return
intersection
;
}
/// get the point of the minimum corner
const
point_type
&
min
()
{
return
min_
;
}
/// get the point of the maximum corner
const
point_type
&
max
()
{
return
max_
;
}
/// get the point of the minimum corner
point_type
min
()
const
{
return
min_
;
}
/// get the point of the maximum corner
point_type
max
()
const
{
return
max_
;
}
/// get minimum coordinate of the bounding box in direction i
Real
min
(
size_t
i
)
const
{
return
min_
[
i
];
}
/// get maximum coordinate of the bounding box in direction i
Real
max
(
size_t
i
)
const
{
return
max_
[
i
];
}
virtual
std
::
ostream
&
print
(
std
::
ostream
&
os
)
const
{
os
<<*
this
;
return
os
;
}
public
:
/// directional increase of bounding box (if needed)
void
expand
(
Real
coord
,
UInt
dir
)
{
AKANTU_DEBUG_ASSERT
(
dir
<
d
,
""
);
}
};
/// cumulate two bounding boxes and create one encompassing both
template
<
int
d
>
BoundingBox
<
d
>
operator
+
(
const
BoundingBox
<
d
>&
b1
,
const
BoundingBox
<
d
>&
b2
)
{
BoundingBox
<
d
>
r
(
b1
);
return
r
+=
b2
;
}
template
<
int
d
>
std
::
ostream
&
operator
<<
(
std
::
ostream
&
,
const
BoundingBox
<
d
>&
);
__END_AKANTU__
#endif
/* __AKANTU_AKA_BOUNDING_BOX_HH__ */
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