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PatchMatch2NCC.h
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PatchMatch2NCC.h
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#ifndef __VW_STEREO_PATCHMATCH2NCC_H__
#define __VW_STEREO_PATCHMATCH2NCC_H__
#include <vw/Math/BBox.h>
#include <vw/Math/Vector.h>
#include <vw/Image/Filter.h>
#include <vw/Image/ImageMath.h>
#include <vw/Image/ImageView.h>
#include <vw/Image/ImageViewBase.h>
#include <vw/Image/Manipulation.h>
#include <vw/Image/Statistics.h>
#include <vw/Image/Transform.h>
#include <vw/Stereo/Correlate.h>
#include <vw/Stereo/CostFunctions.h>
#ifdef DEBUG
#include <iomanip>
#include <vw/FileIO.h>
#endif
namespace boost {
namespace random {
class rand48;
}
}
namespace vw {
namespace stereo {
class PMNCCBase {
protected:
BBox2i m_search_region;
BBox2i m_search_region_rl;
Vector2i m_kernel_size;
Vector2i m_expansion;
float m_consistency_threshold;
int32 m_max_iterations;
BBox2i m_kernel_roi;
typedef Vector2i DispT;
typedef boost::random::rand48 GenT;
void add_uniform_noise(BBox2i const& range_of_noise_to_add,
BBox2i const& max_search_range,
BBox2i const& other_image_bbox,
ImageView<DispT>& disparity ) const;
// Simple square kernels
float calculate_cost( Vector2i const& a_loc, Vector2i const& disparity,
ImageView<float> const& a, ImageView<float> const& b,
BBox2i const& a_roi, BBox2i const& b_roi,
BBox2i const& kernel_roi) const;
// Evaluates current disparity and writes its cost
void evaluate_disparity( ImageView<float> const& a, ImageView<float> const& b,
BBox2i const& a_roi, BBox2i const& b_roi,
ImageView<DispT>& ab_disparity,
ImageView<float>& ab_cost ) const;
void keep_lowest_cost( ImageView<DispT> const& src_disp,
ImageView<float> const& src_cost,
ImageView<DispT>& dest_disp,
ImageView<float>& dest_cost ) const;
// Propogates from the 3x3 neighbor hood
void evaluate_8_connected( ImageView<float> const& a,
ImageView<float> const& b,
BBox2i const& a_roi, BBox2i const& b_roi,
ImageView<DispT> const& ba_disparity,
BBox2i const& ba_roi,
ImageView<DispT>& ab_disparity,
ImageView<float>& ab_cost) const;
void cross_corr_consistency_check(ImageView<DispT> const& ab_disparity,
ImageView<DispT> const& ba_disparity,
BBox2i const& ab_roi,
BBox2i const& ba_roi,
ImageView<PixelMask<DispT> >& ab_masked_disp) const;
public:
PMNCCBase( BBox2i const& bbox, Vector2i const& kernel,
float consistency_threshold, int32 max_iterations );
};
template <class Image1T, class Image2T>
class PMNCCView : public ImageViewBase<PMNCCView<Image1T, Image2T> >, PMNCCBase {
Image1T m_left_image;
Image2T m_right_image;
// Types to help me when program
typedef typename Image1T::pixel_type Pixel1T;
typedef typename Image2T::pixel_type Pixel2T;
template <class ImageT, class TransformT>
TransformView<vw::InterpolationView<ImageT, BilinearInterpolation>, TransformT>
inline transform_no_edge( ImageViewBase<ImageT> const& v,
TransformT const& transform_func ) const {
return TransformView<InterpolationView<ImageT, BilinearInterpolation>, TransformT>( InterpolationView<ImageT, BilinearInterpolation>( v.impl() ), transform_func );
}
public:
typedef PixelMask<DispT> pixel_type;
typedef pixel_type result_type;
typedef ProceduralPixelAccessor<PMNCCView> pixel_accessor;
// Search region values are inclusive.
PMNCCView( ImageViewBase<Image1T> const& left,
ImageViewBase<Image2T> const& right,
BBox2i const& search_region, Vector2i const& kernel_size,
float consistency_threshold = 1,
int32 max_iterations = 6) :
PMNCCBase(search_region, kernel_size,
consistency_threshold,
max_iterations),
m_left_image(left.impl()), m_right_image(right.impl()) {
}
// Standard required ImageView interfaces
inline int32 cols() const { return m_left_image.cols(); }
inline int32 rows() const { return m_left_image.rows(); }
inline int32 planes() const { return 1; }
inline pixel_accessor origin() const { return pixel_accessor( *this, 0, 0 ); }
inline pixel_type operator()( int32 /*i*/, int32 /*j*/, int32 /*p*/ = 0) const {
vw_throw( NoImplErr() << "PMNCCView::operator()(....) has not been implemented." );
return pixel_type();
}
// Block rasterization section that does actual work
typedef CropView<ImageView<pixel_type> > prerasterize_type;
inline prerasterize_type prerasterize(BBox2i const& bbox) const {
// TODO: Check search range to see if correlation is even
// possible given the values of search range. Also consider
// cropping search range based on inputs.
// 1. Define Left ROI.
BBox2i l_roi = bbox;
// 2. Define Right ROI.
BBox2i r_roi = l_roi;
r_roi.min() += m_search_region.min();
r_roi.max() += m_search_region.max();
// Crop by the image bounds as we don't want to be calculating
// disparities for interpolated regions.
r_roi.crop( bounding_box( m_right_image ) );
// 3. Define Left Expanded ROI. This is where all the possible
// places we might make a pixel access to in the left.
BBox2i l_exp_roi = l_roi;
l_exp_roi.min() -= m_expansion;
l_exp_roi.max() += m_expansion;
// 4. Define Right Expanded ROI.
BBox2i r_exp_roi = r_roi;
r_exp_roi.min() -= m_expansion;
r_exp_roi.max() += m_expansion;
#ifdef DEBUG
std::cout << "Search: " << m_search_region << " Exp: "
<< m_expansion << " Right: " << bounding_box(m_right_image)
<< std::endl;
std::cout << "L_ROI: " << l_roi << std::endl;
std::cout << "R_ROI: " << r_roi << std::endl;
std::cout << "L_EXP_ROI: " << l_exp_roi << std::endl;
std::cout << "R_EXP_ROI: " << r_exp_roi << std::endl;
#endif
// 6. Allocate buffers
ImageView<float> l_exp( crop( edge_extend(m_left_image), l_exp_roi ) );
ImageView<float> r_exp( crop( edge_extend(m_right_image), r_exp_roi ) );
ImageView<DispT>
l_disp( l_roi.width(), l_roi.height() ), l_disp_cpy( l_roi.width(), l_roi.height() ),
r_disp( r_roi.width(), r_roi.height() ), r_disp_cpy( r_roi.width(), r_roi.height() );
ImageView<float>
l_cost( l_roi.width(), l_roi.height() ), l_cost_cpy( l_roi.width(), l_roi.height() ),
r_cost( r_roi.width(), r_roi.height() ), r_cost_cpy( r_roi.width(), r_roi.height() );
fill( l_disp, DispT() ); // TODO Is this needed?
fill( r_disp, DispT() );
// 7. Write uniform noise
add_uniform_noise(m_search_region, m_search_region,
r_roi - l_roi.min(), l_disp);
#ifndef DISABLE_RL
add_uniform_noise(m_search_region_rl, m_search_region_rl,
l_roi - r_roi.min(), r_disp );
#endif
// 8. Evaluate the current disparities
evaluate_disparity(l_exp, r_exp,
l_exp_roi - l_roi.min(),
r_exp_roi - l_roi.min(),
l_disp, l_cost);
#ifndef DISABLE_RL
evaluate_disparity(r_exp, l_exp,
r_exp_roi - r_roi.min(),
l_exp_roi - r_roi.min(),
r_disp, r_cost);
#endif
#ifdef DEBUG
std::cout << std::setprecision(10)
<< "Starting cost:\t" << sum_of_pixel_values(l_cost) << std::endl;
#endif
// 9. Implement iterative search.
for ( int iteration = 0; iteration < m_max_iterations; iteration++ ) {
{ // Propogate
evaluate_8_connected(l_exp, r_exp,
l_exp_roi - l_roi.min(),
r_exp_roi - l_roi.min(),
r_disp, r_roi - l_roi.min(),
l_disp, l_cost);
#ifndef DISABLE_RL
evaluate_8_connected(r_exp, l_exp,
r_exp_roi - r_roi.min(),
l_exp_roi - r_roi.min(),
l_disp, l_roi - r_roi.min(),
r_disp, r_cost);
#endif
}
{ // Add noise
l_disp_cpy = copy(l_disp);
r_disp_cpy = copy(r_disp);
float scaling_size = 1.0 / pow(2.0, iteration + 1);
Vector2f search_size_half =
scaling_size * Vector2f(m_search_region.size());
add_uniform_noise(BBox2f(-search_size_half, search_size_half),
m_search_region,
r_roi - l_roi.min(), l_disp_cpy);
#ifndef DISABLE_RL
add_uniform_noise(BBox2f(-search_size_half, search_size_half),
m_search_region_rl,
l_roi - r_roi.min(), r_disp_cpy);
#endif
evaluate_disparity(l_exp, r_exp,
l_exp_roi - l_roi.min(),
r_exp_roi - l_roi.min(),
l_disp_cpy, l_cost_cpy);
#ifndef DISABLE_RL
evaluate_disparity(r_exp, l_exp,
r_exp_roi - r_roi.min(),
l_exp_roi - r_roi.min(),
r_disp_cpy, r_cost_cpy);
#endif
keep_lowest_cost(l_disp_cpy, l_cost_cpy,
l_disp, l_cost);
#ifndef DISABLE_RL
keep_lowest_cost(r_disp_cpy, r_cost_cpy,
r_disp, r_cost);
#endif
}
} // end of iterations
#ifdef DEBUG
std::cout << std::setprecision(10)
<< "Ending cost:\t" << sum_of_pixel_values(l_cost) << std::endl;
#endif
#ifndef DISABLE_RL
ImageView<pixel_type > final_disparity(l_disp.cols(), l_disp.rows());
cross_corr_consistency_check(l_disp, r_disp,
l_roi, r_roi,
final_disparity);
#else
ImageView<pixel_type> final_disparity = l_disp;
#endif
return prerasterize_type(final_disparity,
-bbox.min().x(), -bbox.min().y(),
cols(), rows());
}
template <class DestT>
inline void rasterize(DestT const& dest, BBox2i const& bbox) const {
vw::rasterize(prerasterize(bbox), dest, bbox);
}
};
template <class Image1T, class Image2T>
PMNCCView<Image1T,Image2T>
patch_match_ncc( ImageViewBase<Image1T> const& left,
ImageViewBase<Image2T> const& right,
BBox2i const& search_region, Vector2i const& kernel_size,
float consistency_threshold = 1,
int32 max_iterations = 6 ) {
typedef PMNCCView<Image1T,Image2T> result_type;
return result_type( left.impl(), right.impl(), search_region,
kernel_size, consistency_threshold,
max_iterations);
}
}} // vw::stereo
#endif//__VW_STEREO_PATCHMATCH2NCC_H__