dust3d/thirdparty/cgal/CGAL-4.13/include/CGAL/draw_linear_cell_complex.h

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// Copyright (c) 2018 CNRS and LIRIS' Establishments (France).
// All rights reserved.
//
// This file is part of CGAL (www.cgal.org); 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.
//
// Licensees holding a valid commercial license may use this file in
// accordance with the commercial license agreement provided with the software.
//
// This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
// WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
//
// $URL$
// $Id$
// SPDX-License-Identifier: LGPL-3.0+
//
// Author(s) : Guillaume Damiand <guillaume.damiand@liris.cnrs.fr>
#ifndef CGAL_DRAW_LCC_H
#define CGAL_DRAW_LCC_H
#include <CGAL/Qt/Basic_viewer_qt.h>
#ifdef CGAL_USE_BASIC_VIEWER
#include <CGAL/Random.h>
namespace CGAL
{
// Default color functor; user can change it to have its own face color
struct DefaultColorFunctorLCC
{
template<typename LCC>
static CGAL::Color run(const LCC& alcc,
typename LCC::Dart_const_handle dh)
{
if (dh==alcc.null_handle) // use to get the mono color
return CGAL::Color(100, 125, 200); // R G B between 0-255
CGAL::Random random((unsigned int)(alcc.darts().index(dh)));
return get_random_color(random);
}
};
template<class LCC, int dim=LCC::ambient_dimension>
struct Geom_utils;
template<class LCC>
struct Geom_utils<LCC, 3>
{
static typename LCC::Vector get_vertex_normal(const LCC& lcc,
typename LCC::Dart_const_handle dh)
{
typename LCC::Vector n = CGAL::compute_normal_of_cell_0<LCC>(lcc,dh);
n = n/(CGAL::sqrt(n*n));
return n;
}
};
template<class LCC>
struct Geom_utils<LCC, 2>
{
static typename LCC::Vector get_vertex_normal(const LCC&,
typename LCC::Dart_const_handle)
{
typename LCC::Vector res=CGAL::NULL_VECTOR;
return res;
}
};
// Viewer class for LCC
template<class LCC, class ColorFunctor>
class SimpleLCCViewerQt : public Basic_viewer_qt
{
typedef Basic_viewer_qt Base;
typedef typename LCC::Dart_const_handle Dart_const_handle;
typedef typename LCC::Traits Kernel;
typedef typename Kernel::Point Point;
typedef typename Kernel::Vector Vector;
public:
/// Construct the viewer.
/// @param alcc the lcc to view
/// @param title the title of the window
/// @param anofaces if true, do not draw faces (faces are not computed; this can be
/// usefull for very big object where this time could be long)
SimpleLCCViewerQt(QWidget* parent,
const LCC& alcc,
const char* title="Basic LCC Viewer",
bool anofaces=false,
const ColorFunctor& fcolor=ColorFunctor()) :
// First draw: vertices; edges, faces; multi-color; inverse normal
Base(parent, title, true, true, true, false, true),
lcc(alcc),
m_nofaces(anofaces),
m_fcolor(fcolor)
{
compute_elements();
}
protected:
void compute_face(Dart_const_handle dh)
{
// We fill only closed faces.
Dart_const_handle cur=dh;
Dart_const_handle min=dh;
do
{
if (!lcc.is_next_exist(cur)) return; // open face=>not filled
if (cur<min) min=cur;
cur=lcc.next(cur);
}
while(cur!=dh);
CGAL::Color c=m_fcolor.run(lcc, dh);
face_begin(c);
cur=dh;
do
{
add_point_in_face(lcc.point(cur),
Geom_utils<LCC>::get_vertex_normal(lcc, cur));
cur=lcc.next(cur);
}
while(cur!=dh);
face_end();
}
void compute_edge(Dart_const_handle dh)
{
Point p1 = lcc.point(dh);
Dart_const_handle d2 = lcc.other_extremity(dh);
if (d2!=NULL)
{ add_segment(p1, lcc.point(d2)); }
}
void compute_vertex(Dart_const_handle dh)
{ add_point(lcc.point(dh)); }
void compute_elements()
{
clear();
typename LCC::size_type markfaces = lcc.get_new_mark();
typename LCC::size_type markedges = lcc.get_new_mark();
typename LCC::size_type markvertices = lcc.get_new_mark();
for (typename LCC::Dart_range::const_iterator it=lcc.darts().begin(),
itend=lcc.darts().end(); it!=itend; ++it )
{
if ( !m_nofaces && !lcc.is_marked(it, markfaces) )
{
compute_face(it);
CGAL::mark_cell<LCC, 2>(lcc, it, markfaces);
}
if ( !lcc.is_marked(it, markedges) )
{
compute_edge(it);
CGAL::mark_cell<LCC, 1>(lcc, it, markedges);
}
if ( !lcc.is_marked(it, markvertices) )
{
compute_vertex(it);
CGAL::mark_cell<LCC, 0>(lcc, it, markvertices);
}
}
lcc.free_mark(markfaces);
lcc.free_mark(markedges);
lcc.free_mark(markvertices);
}
virtual void keyPressEvent(QKeyEvent *e)
{
// Test key pressed:
// const ::Qt::KeyboardModifiers modifiers = e->modifiers();
// if ((e->key()==Qt::Key_PageUp) && (modifiers==Qt::NoButton)) { ... }
// Call: * compute_elements() if the model changed, followed by
// * redraw() if some viewing parameters changed that implies some
// modifications of the buffers
// (eg. type of normal, color/mono)
// * update() just to update the drawing
// Call the base method to process others/classicals key
Base::keyPressEvent(e);
}
protected:
const LCC& lcc;
bool m_nofaces;
const ColorFunctor& m_fcolor;
};
template<class LCC, class ColorFunctor>
void draw(const LCC& alcc,
const char* title,
bool nofill,
const ColorFunctor& fcolor)
{
#if defined(CGAL_TEST_SUITE)
bool cgal_test_suite=true;
#else
bool cgal_test_suite=false;
#endif
if (!cgal_test_suite)
{
int argc=1;
const char* argv[2]={"lccviewer","\0"};
QApplication app(argc,const_cast<char**>(argv));
SimpleLCCViewerQt<LCC, ColorFunctor> mainwindow(app.activeWindow(),
alcc,
title,
nofill,
fcolor);
mainwindow.show();
app.exec();
}
}
template<class LCC>
void draw(const LCC& alcc, const char* title, bool nofill)
{
DefaultColorFunctorLCC c;
draw(alcc, title, nofill, c);
}
template<class LCC>
void draw(const LCC& alcc, const char* title)
{ draw(alcc, title, false); }
template<class LCC>
void draw(const LCC& alcc)
{ draw(alcc, "Basic LCC Viewer"); }
} // End namespace CGAL
#endif // CGAL_USE_BASIC_VIEWER
#endif // CGAL_DRAW_LCC_H