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/* */
/* Copyright 1998-2002 by Ullrich Koethe */
/* */
/* This file is part of the VIGRA computer vision library. */
/* The VIGRA Website is */
/* http://hci.iwr.uni-heidelberg.de/vigra/ */
/* Please direct questions, bug reports, and contributions to */
/* ullrich.koethe@iwr.uni-heidelberg.de or */
/* vigra@informatik.uni-hamburg.de */
/* */
/* Permission is hereby granted, free of charge, to any person */
/* obtaining a copy of this software and associated documentation */
/* files (the "Software"), to deal in the Software without */
/* restriction, including without limitation the rights to use, */
/* copy, modify, merge, publish, distribute, sublicense, and/or */
/* sell copies of the Software, and to permit persons to whom the */
/* Software is furnished to do so, subject to the following */
/* conditions: */
/* */
/* The above copyright notice and this permission notice shall be */
/* included in all copies or substantial portions of the */
/* Software. */
/* */
/* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND */
/* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES */
/* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND */
/* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT */
/* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, */
/* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING */
/* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR */
/* OTHER DEALINGS IN THE SOFTWARE. */
/* */
/************************************************************************/
#ifndef VIGRA_DISTANCETRANSFORM_HXX
#define VIGRA_DISTANCETRANSFORM_HXX
#include <cmath>
#include "stdimage.hxx"
namespace vigra {
/*
* functors to determine the distance norm
* these functors assume that dx and dy are positive
* (this is OK for use in internalDistanceTransform())
*/
// chessboard metric
struct InternalDistanceTransformLInifinityNormFunctor
{
float operator()(float dx, float dy) const
{
return (dx < dy) ? dy : dx;
}
};
// Manhattan metric
struct InternalDistanceTransformL1NormFunctor
{
float operator()(float dx, float dy) const
{
return dx + dy;
}
};
// Euclidean metric
struct InternalDistanceTransformL2NormFunctor
{
float operator()(float dx, float dy) const
{
return VIGRA_CSTD::sqrt(dx*dx + dy*dy);
}
};
template <class SrcImageIterator, class SrcAccessor,
class DestImageIterator, class DestAccessor,
class ValueType, class NormFunctor>
void
internalDistanceTransform(SrcImageIterator src_upperleft,
SrcImageIterator src_lowerright, SrcAccessor sa,
DestImageIterator dest_upperleft, DestAccessor da,
ValueType background, NormFunctor norm)
{
int w = src_lowerright.x - src_upperleft.x;
int h = src_lowerright.y - src_upperleft.y;
FImage xdist(w,h), ydist(w,h);
xdist = (FImage::value_type)w; // init x and
ydist = (FImage::value_type)h; // y distances with 'large' values
SrcImageIterator sy = src_upperleft;
DestImageIterator ry = dest_upperleft;
FImage::Iterator xdy = xdist.upperLeft();
FImage::Iterator ydy = ydist.upperLeft();
SrcImageIterator sx = sy;
DestImageIterator rx = ry;
FImage::Iterator xdx = xdy;
FImage::Iterator ydx = ydy;
static const Diff2D left(-1, 0);
static const Diff2D right(1, 0);
static const Diff2D top(0, -1);
static const Diff2D bottom(0, 1);
int x,y;
if(sa(sx) != background) // first pixel
{
*xdx = 0.0;
*ydx = 0.0;
da.set(0.0, rx);
}
else
{
da.set(norm(*xdx, *ydx), rx);
}
for(x=1, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x;
x<w;
++x, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x) // first row left to right
{
if(sa(sx) != background)
{
*xdx = 0.0;
*ydx = 0.0;
da.set(0.0, rx);
}
else
{
*xdx = xdx[left] + 1.0f; // propagate x and
*ydx = ydx[left]; // y components of distance from left pixel
da.set(norm(*xdx, *ydx), rx); // calculate distance from x and y components
}
}
for(x=w-2, xdx.x -= 2, ydx.x -= 2, sx.x -= 2, rx.x -= 2;
x>=0;
--x, --xdx.x, --ydx.x, --sx.x, --rx.x) // first row right to left
{
float d = norm(xdx[right] + 1.0f, ydx[right]);
if(da(rx) < d) continue;
*xdx = xdx[right] + 1.0f;
*ydx = ydx[right];
da.set(d, rx);
}
for(y=1, ++xdy.y, ++ydy.y, ++sy.y, ++ry.y;
y<h;
++y, ++xdy.y, ++ydy.y, ++sy.y, ++ry.y) // top to bottom
{
sx = sy;
rx = ry;
xdx = xdy;
ydx = ydy;
if(sa(sx) != background) // first pixel of current row
{
*xdx = 0.0f;
*ydx = 0.0f;
da.set(0.0, rx);
}
else
{
*xdx = xdx[top];
*ydx = ydx[top] + 1.0f;
da.set(norm(*xdx, *ydx), rx);
}
for(x=1, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x;
x<w;
++x, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x) // current row left to right
{
if(sa(sx) != background)
{
*xdx = 0.0f;
*ydx = 0.0f;
da.set(0.0, rx);
}
else
{
float d1 = norm(xdx[left] + 1.0f, ydx[left]);
float d2 = norm(xdx[top], ydx[top] + 1.0f);
if(d1 < d2)
{
*xdx = xdx[left] + 1.0f;
*ydx = ydx[left];
da.set(d1, rx);
}
else
{
*xdx = xdx[top];
*ydx = ydx[top] + 1.0f;
da.set(d2, rx);
}
}
}
for(x=w-2, xdx.x -= 2, ydx.x -= 2, sx.x -= 2, rx.x -= 2;
x>=0;
--x, --xdx.x, --ydx.x, --sx.x, --rx.x) // current row right to left
{
float d1 = norm(xdx[right] + 1.0f, ydx[right]);
if(da(rx) < d1) continue;
*xdx = xdx[right] + 1.0f;
*ydx = ydx[right];
da.set(d1, rx);
}
}
for(y=h-2, xdy.y -= 2, ydy.y -= 2, sy.y -= 2, ry.y -= 2;
y>=0;
--y, --xdy.y, --ydy.y, --sy.y, --ry.y) // bottom to top
{
sx = sy;
rx = ry;
xdx = xdy;
ydx = ydy;
float d = norm(xdx[bottom], ydx[bottom] + 1.0f);
if(d < da(rx)) // first pixel of current row
{
*xdx = xdx[bottom];
*ydx = ydx[bottom] + 1.0f;
da.set(d, rx);
}
for(x=1, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x;
x<w;
++x, ++xdx.x, ++ydx.x, ++sx.x, ++rx.x) // current row left to right
{
float d1 = norm(xdx[left] + 1.0f, ydx[left]);
float d2 = norm(xdx[bottom], ydx[bottom] + 1.0f);
if(d1 < d2)
{
if(da(rx) < d1) continue;
*xdx = xdx[left] + 1.0f;
*ydx = ydx[left];
da.set(d1, rx);
}
else
{
if(da(rx) < d2) continue;
*xdx = xdx[bottom];
*ydx = ydx[bottom] + 1.0f;
da.set(d2, rx);
}
}
for(x=w-2, xdx.x -= 2, ydx.x -= 2, sx.x -= 2, rx.x -= 2;
x>=0;
--x, --xdx.x, --ydx.x, --sx.x, --rx.x) // current row right to left
{
float d1 = norm(xdx[right] + 1.0f, ydx[right]);
if(da(rx) < d1) continue;
*xdx = xdx[right] + 1.0f;
*ydx = ydx[right];
da.set(d1, rx);
}
}
}
/********************************************************/
/* */
/* distanceTransform */
/* */
/********************************************************/
/** \addtogroup DistanceTransform Distance Transform
Perform a distance transform using either the Euclidean, Manhattan,
or chessboard metrics.
See also: \ref MultiArrayDistanceTransform "multi-dimensional distance transforms"
*/
//@{
/** For all background pixels, calculate the distance to
the nearest object or contour. The label of the pixels to be considered
background in the source image is passed in the parameter 'background'.
Source pixels with other labels will be considered objects. In the
destination image, all pixels corresponding to background will be assigned
the their distance value, all pixels corresponding to objects will be
assigned 0.
The parameter 'norm' gives the distance norm to be used:
<ul>
<li> norm == 0: use chessboard distance (L-infinity norm)
<li> norm == 1: use Manhattan distance (L1 norm)
<li> norm == 2: use Euclidean distance (L2 norm)
</ul>
If you use the L2 norm, the destination pixels must be real valued to give
correct results.
<b> Declarations:</b>
pass arguments explicitly:
\code
namespace vigra {
template <class SrcImageIterator, class SrcAccessor,
class DestImageIterator, class DestAccessor,
class ValueType>
void distanceTransform(SrcImageIterator src_upperleft,
SrcImageIterator src_lowerright, SrcAccessor sa,
DestImageIterator dest_upperleft, DestAccessor da,
ValueType background, int norm)
}
\endcode
use argument objects in conjunction with \ref ArgumentObjectFactories :
\code
namespace vigra {
template <class SrcImageIterator, class SrcAccessor,
class DestImageIterator, class DestAccessor,
class ValueType>
void distanceTransform(
triple<SrcImageIterator, SrcImageIterator, SrcAccessor> src,
pair<DestImageIterator, DestAccessor> dest,
ValueType background, int norm)
}
\endcode
<b> Usage:</b>
<b>\#include</b> \<<a href="distancetransform_8hxx-source.html">vigra/distancetransform.hxx</a>\><br>
Namespace: vigra
\code
vigra::BImage src(w,h), edges(w,h);
vigra::FImage distance(w, h);
// empty edge image
edges = 0;
...
// detect edges in src image (edges will be marked 1, background 0)
vigra::differenceOfExponentialEdgeImage(srcImageRange(src), destImage(edges),
0.8, 4.0);
// find distance of all pixels from nearest edge
vigra::distanceTransform(srcImageRange(edges), destImage(distance),
0, 2);
// ^ background label ^ norm (Euclidean)
\endcode
<b> Required Interface:</b>
\code
SrcImageIterator src_upperleft, src_lowerright;
DestImageIterator dest_upperleft;
SrcAccessor sa;
DestAccessor da;
ValueType background;
float distance;
sa(src_upperleft) != background;
da(dest_upperleft) < distance;
da.set(distance, dest_upperleft);
\endcode
*/
doxygen_overloaded_function(template <...> void distanceTransform)
template <class SrcImageIterator, class SrcAccessor,
class DestImageIterator, class DestAccessor,
class ValueType>
inline void
distanceTransform(SrcImageIterator src_upperleft,
SrcImageIterator src_lowerright, SrcAccessor sa,
DestImageIterator dest_upperleft, DestAccessor da,
ValueType background, int norm)
{
if(norm == 1)
{
internalDistanceTransform(src_upperleft, src_lowerright, sa,
dest_upperleft, da, background,
InternalDistanceTransformL1NormFunctor());
}
else if(norm == 2)
{
internalDistanceTransform(src_upperleft, src_lowerright, sa,
dest_upperleft, da, background,
InternalDistanceTransformL2NormFunctor());
}
else
{
internalDistanceTransform(src_upperleft, src_lowerright, sa,
dest_upperleft, da, background,
InternalDistanceTransformLInifinityNormFunctor());
}
}
template <class SrcImageIterator, class SrcAccessor,
class DestImageIterator, class DestAccessor,
class ValueType>
inline void
distanceTransform(
triple<SrcImageIterator, SrcImageIterator, SrcAccessor> src,
pair<DestImageIterator, DestAccessor> dest,
ValueType background, int norm)
{
distanceTransform(src.first, src.second, src.third,
dest.first, dest.second, background, norm);
}
//@}
} // namespace vigra
#endif // VIGRA_DISTANCETRANSFORM_HXX
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