/*
-Copyright (C) 2001-2006, William Joseph.
-All Rights Reserved.
+ Copyright (C) 2001-2006, William Joseph.
+ All Rights Reserved.
-This file is part of GtkRadiant.
+ This file is part of GtkRadiant.
-GtkRadiant is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2 of the License, or
-(at your option) any later version.
+ GtkRadiant is free software; you can redistribute it and/or modify
+ it under the terms of the GNU General Public License as published by
+ the Free Software Foundation; either version 2 of the License, or
+ (at your option) any later version.
-GtkRadiant 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 General Public License for more details.
+ GtkRadiant 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 General Public License for more details.
-You should have received a copy of the GNU General Public License
-along with GtkRadiant; if not, write to the Free Software
-Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
-*/
+ You should have received a copy of the GNU General Public License
+ along with GtkRadiant; if not, write to the Free Software
+ Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
+ */
-#if !defined(INCLUDED_CURVE_H)
+#if !defined( INCLUDED_CURVE_H )
#define INCLUDED_CURVE_H
#include "ientity.h"
class RenderableCurve : public OpenGLRenderable
{
public:
- std::vector<PointVertex> m_vertices;
- void render(RenderStateFlags state) const
- {
- pointvertex_gl_array(&m_vertices.front());
- glDrawArrays(GL_LINE_STRIP, 0, GLsizei(m_vertices.size()));
- }
+std::vector<PointVertex> m_vertices;
+void render( RenderStateFlags state ) const {
+ pointvertex_gl_array( &m_vertices.front() );
+ glDrawArrays( GL_LINE_STRIP, 0, GLsizei( m_vertices.size() ) );
+}
};
-inline void plotBasisFunction(std::size_t numSegments, int point, int degree)
-{
- Knots knots;
- KnotVector_openUniform(knots, 4, degree);
-
- globalOutputStream() << "plotBasisFunction point " << point << " of 4, knot vector:";
- for(Knots::iterator i = knots.begin(); i != knots.end(); ++i)
- {
- globalOutputStream() << " " << *i;
- }
- globalOutputStream() << "\n";
- globalOutputStream() << "t=0 basis=" << BSpline_basis(knots, point, degree, 0.0) << "\n";
- for(std::size_t i = 1; i < numSegments; ++i)
- {
- double t = (1.0 / double(numSegments)) * double(i);
- globalOutputStream() << "t=" << t << " basis=" << BSpline_basis(knots, point, degree, t) << "\n";
- }
- globalOutputStream() << "t=1 basis=" << BSpline_basis(knots, point, degree, 1.0) << "\n";
-}
-
-inline bool ControlPoints_parse(ControlPoints& controlPoints, const char* value)
-{
- StringTokeniser tokeniser(value, " ");
-
- std::size_t size;
- if(!string_parse_size(tokeniser.getToken(), size))
- {
- return false;
- }
-
- if(size < 3)
- {
- return false;
- }
- controlPoints.resize(size);
-
- if(!string_equal(tokeniser.getToken(), "("))
- {
- return false;
- }
- for(ControlPoints::iterator i = controlPoints.begin(); i != controlPoints.end(); ++i)
- {
- if(!string_parse_float(tokeniser.getToken(), (*i).x())
- || !string_parse_float(tokeniser.getToken(), (*i).y())
- || !string_parse_float(tokeniser.getToken(), (*i).z()))
- {
- return false;
- }
- }
- if(!string_equal(tokeniser.getToken(), ")"))
- {
- return false;
- }
- return true;
-}
-
-inline void ControlPoints_write(const ControlPoints& controlPoints, StringOutputStream& value)
-{
- value << Unsigned(controlPoints.size()) << " (";
- for(ControlPoints::const_iterator i = controlPoints.begin(); i != controlPoints.end(); ++i)
- {
- value << " " << (*i).x() << " " << (*i).y() << " " << (*i).z() << " ";
- }
- value << ")";
+inline void plotBasisFunction( std::size_t numSegments, int point, int degree ){
+ Knots knots;
+ KnotVector_openUniform( knots, 4, degree );
+
+ globalOutputStream() << "plotBasisFunction point " << point << " of 4, knot vector:";
+ for ( Knots::iterator i = knots.begin(); i != knots.end(); ++i )
+ {
+ globalOutputStream() << " " << *i;
+ }
+ globalOutputStream() << "\n";
+ globalOutputStream() << "t=0 basis=" << BSpline_basis( knots, point, degree, 0.0 ) << "\n";
+ for ( std::size_t i = 1; i < numSegments; ++i )
+ {
+ double t = ( 1.0 / double(numSegments) ) * double(i);
+ globalOutputStream() << "t=" << t << " basis=" << BSpline_basis( knots, point, degree, t ) << "\n";
+ }
+ globalOutputStream() << "t=1 basis=" << BSpline_basis( knots, point, degree, 1.0 ) << "\n";
}
-inline void ControlPoint_testSelect(const Vector3& point, ObservedSelectable& selectable, Selector& selector, SelectionTest& test)
-{
- SelectionIntersection best;
- test.TestPoint(point, best);
- if(best.valid())
- {
- Selector_add(selector, selectable, best);
- }
+inline bool ControlPoints_parse( ControlPoints& controlPoints, const char* value ){
+ StringTokeniser tokeniser( value, " " );
+
+ std::size_t size;
+ if ( !string_parse_size( tokeniser.getToken(), size ) ) {
+ return false;
+ }
+
+ if ( size < 3 ) {
+ return false;
+ }
+ controlPoints.resize( size );
+
+ if ( !string_equal( tokeniser.getToken(), "(" ) ) {
+ return false;
+ }
+ for ( ControlPoints::iterator i = controlPoints.begin(); i != controlPoints.end(); ++i )
+ {
+ if ( !string_parse_float( tokeniser.getToken(), ( *i ).x() )
+ || !string_parse_float( tokeniser.getToken(), ( *i ).y() )
+ || !string_parse_float( tokeniser.getToken(), ( *i ).z() ) ) {
+ return false;
+ }
+ }
+ if ( !string_equal( tokeniser.getToken(), ")" ) ) {
+ return false;
+ }
+ return true;
+}
+
+inline void ControlPoints_write( const ControlPoints& controlPoints, StringOutputStream& value ){
+ value << Unsigned( controlPoints.size() ) << " (";
+ for ( ControlPoints::const_iterator i = controlPoints.begin(); i != controlPoints.end(); ++i )
+ {
+ value << " " << ( *i ).x() << " " << ( *i ).y() << " " << ( *i ).z() << " ";
+ }
+ value << ")";
+}
+
+inline void ControlPoint_testSelect( const Vector3& point, ObservedSelectable& selectable, Selector& selector, SelectionTest& test ){
+ SelectionIntersection best;
+ test.TestPoint( point, best );
+ if ( best.valid() ) {
+ Selector_add( selector, selectable, best );
+ }
}
class ControlPointTransform
{
- const Matrix4& m_matrix;
+const Matrix4& m_matrix;
public:
- ControlPointTransform(const Matrix4& matrix) : m_matrix(matrix)
- {
- }
- void operator()(Vector3& point) const
- {
- matrix4_transform_point(m_matrix, point);
- }
+ControlPointTransform( const Matrix4& matrix ) : m_matrix( matrix ){
+}
+void operator()( Vector3& point ) const {
+ matrix4_transform_point( m_matrix, point );
+}
};
class ControlPointSnap
{
- float m_snap;
+float m_snap;
public:
- ControlPointSnap(float snap) : m_snap(snap)
- {
- }
- void operator()(Vector3& point) const
- {
- vector3_snap(point, m_snap);
- }
+ControlPointSnap( float snap ) : m_snap( snap ){
+}
+void operator()( Vector3& point ) const {
+ vector3_snap( point, m_snap );
+}
};
class ControlPointAdd
{
- RenderablePointVector& m_points;
+RenderablePointVector& m_points;
public:
- ControlPointAdd(RenderablePointVector& points) : m_points(points)
- {
- }
- void operator()(const Vector3& point) const
- {
- m_points.push_back(PointVertex(vertex3f_for_vector3(point), colour_vertex));
- }
+ControlPointAdd( RenderablePointVector& points ) : m_points( points ){
+}
+void operator()( const Vector3& point ) const {
+ m_points.push_back( PointVertex( vertex3f_for_vector3( point ), colour_vertex ) );
+}
};
class ControlPointAddSelected
{
- RenderablePointVector& m_points;
+RenderablePointVector& m_points;
public:
- ControlPointAddSelected(RenderablePointVector& points) : m_points(points)
- {
- }
- void operator()(const Vector3& point) const
- {
- m_points.push_back(PointVertex(vertex3f_for_vector3(point), colour_selected));
- }
+ControlPointAddSelected( RenderablePointVector& points ) : m_points( points ){
+}
+void operator()( const Vector3& point ) const {
+ m_points.push_back( PointVertex( vertex3f_for_vector3( point ), colour_selected ) );
+}
};
class CurveEditType
{
public:
- Shader* m_controlsShader;
- Shader* m_selectedShader;
+Shader* m_controlsShader;
+Shader* m_selectedShader;
};
-inline void ControlPoints_write(ControlPoints& controlPoints, const char* key, Entity& entity)
-{
- StringOutputStream value(256);
- if(!controlPoints.empty())
- {
- ControlPoints_write(controlPoints, value);
- }
- entity.setKeyValue(key, value.c_str());
+inline void ControlPoints_write( ControlPoints& controlPoints, const char* key, Entity& entity ){
+ StringOutputStream value( 256 );
+ if ( !controlPoints.empty() ) {
+ ControlPoints_write( controlPoints, value );
+ }
+ entity.setKeyValue( key, value.c_str() );
}
class CurveEdit
{
- SelectionChangeCallback m_selectionChanged;
- ControlPoints& m_controlPoints;
- typedef Array<ObservedSelectable> Selectables;
- Selectables m_selectables;
+SelectionChangeCallback m_selectionChanged;
+ControlPoints& m_controlPoints;
+typedef Array<ObservedSelectable> Selectables;
+Selectables m_selectables;
- RenderablePointVector m_controlsRender;
- mutable RenderablePointVector m_selectedRender;
+RenderablePointVector m_controlsRender;
+mutable RenderablePointVector m_selectedRender;
public:
- typedef Static<CurveEditType> Type;
-
- CurveEdit(ControlPoints& controlPoints, const SelectionChangeCallback& selectionChanged) :
- m_selectionChanged(selectionChanged),
- m_controlPoints(controlPoints),
- m_controlsRender(GL_POINTS),
- m_selectedRender(GL_POINTS)
- {
- }
-
- template<typename Functor>
- const Functor& forEachSelected(const Functor& functor)
- {
- ASSERT_MESSAGE(m_controlPoints.size() == m_selectables.size(), "curve instance mismatch");
- ControlPoints::iterator p = m_controlPoints.begin();
- for(Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p)
- {
- if((*i).isSelected())
- {
- functor(*p);
- }
- }
- return functor;
- }
- template<typename Functor>
- const Functor& forEachSelected(const Functor& functor) const
- {
- ASSERT_MESSAGE(m_controlPoints.size() == m_selectables.size(), "curve instance mismatch");
- ControlPoints::const_iterator p = m_controlPoints.begin();
- for(Selectables::const_iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p)
- {
- if((*i).isSelected())
- {
- functor(*p);
- }
- }
- return functor;
- }
- template<typename Functor>
- const Functor& forEach(const Functor& functor) const
- {
- for(ControlPoints::const_iterator i = m_controlPoints.begin(); i != m_controlPoints.end(); ++i)
- {
- functor(*i);
- }
- return functor;
- }
-
- void testSelect(Selector& selector, SelectionTest& test)
- {
- ASSERT_MESSAGE(m_controlPoints.size() == m_selectables.size(), "curve instance mismatch");
- ControlPoints::const_iterator p = m_controlPoints.begin();
- for(Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p)
- {
- ControlPoint_testSelect(*p, *i, selector, test);
- }
- }
-
- bool isSelected() const
- {
- for(Selectables::const_iterator i = m_selectables.begin(); i != m_selectables.end(); ++i)
- {
- if((*i).isSelected())
- {
- return true;
- }
- }
- return false;
- }
- void setSelected(bool selected)
- {
- for(Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i)
- {
- (*i).setSelected(selected);
- }
- }
-
- void write(const char* key, Entity& entity)
- {
- ControlPoints_write(m_controlPoints, key, entity);
- }
-
- void transform(const Matrix4& matrix)
- {
- forEachSelected(ControlPointTransform(matrix));
- }
- void snapto(float snap)
- {
- forEachSelected(ControlPointSnap(snap));
- }
-
- void updateSelected() const
- {
- m_selectedRender.clear();
- forEachSelected(ControlPointAddSelected(m_selectedRender));
- }
-
- void renderComponents(Renderer& renderer, const VolumeTest& volume, const Matrix4& localToWorld) const
- {
- renderer.SetState(Type::instance().m_controlsShader, Renderer::eWireframeOnly);
- renderer.SetState(Type::instance().m_controlsShader, Renderer::eFullMaterials);
- renderer.addRenderable(m_controlsRender, localToWorld);
- }
-
- void renderComponentsSelected(Renderer& renderer, const VolumeTest& volume, const Matrix4& localToWorld) const
- {
- updateSelected();
- if(!m_selectedRender.empty())
- {
- renderer.Highlight(Renderer::ePrimitive, false);
- renderer.SetState(Type::instance().m_selectedShader, Renderer::eWireframeOnly);
- renderer.SetState(Type::instance().m_selectedShader, Renderer::eFullMaterials);
- renderer.addRenderable(m_selectedRender, localToWorld);
- }
- }
-
- void curveChanged()
- {
- m_selectables.resize(m_controlPoints.size(), m_selectionChanged);
-
- m_controlsRender.clear();
- m_controlsRender.reserve(m_controlPoints.size());
- forEach(ControlPointAdd(m_controlsRender));
-
- m_selectedRender.reserve(m_controlPoints.size());
- }
- typedef MemberCaller<CurveEdit, &CurveEdit::curveChanged> CurveChangedCaller;
+typedef Static<CurveEditType> Type;
+
+CurveEdit( ControlPoints& controlPoints, const SelectionChangeCallback& selectionChanged ) :
+ m_selectionChanged( selectionChanged ),
+ m_controlPoints( controlPoints ),
+ m_controlsRender( GL_POINTS ),
+ m_selectedRender( GL_POINTS ){
+}
+
+template<typename Functor>
+const Functor& forEachSelected( const Functor& functor ){
+ ASSERT_MESSAGE( m_controlPoints.size() == m_selectables.size(), "curve instance mismatch" );
+ ControlPoints::iterator p = m_controlPoints.begin();
+ for ( Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p )
+ {
+ if ( ( *i ).isSelected() ) {
+ functor( *p );
+ }
+ }
+ return functor;
+}
+template<typename Functor>
+const Functor& forEachSelected( const Functor& functor ) const {
+ ASSERT_MESSAGE( m_controlPoints.size() == m_selectables.size(), "curve instance mismatch" );
+ ControlPoints::const_iterator p = m_controlPoints.begin();
+ for ( Selectables::const_iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p )
+ {
+ if ( ( *i ).isSelected() ) {
+ functor( *p );
+ }
+ }
+ return functor;
+}
+template<typename Functor>
+const Functor& forEach( const Functor& functor ) const {
+ for ( ControlPoints::const_iterator i = m_controlPoints.begin(); i != m_controlPoints.end(); ++i )
+ {
+ functor( *i );
+ }
+ return functor;
+}
+
+void testSelect( Selector& selector, SelectionTest& test ){
+ ASSERT_MESSAGE( m_controlPoints.size() == m_selectables.size(), "curve instance mismatch" );
+ ControlPoints::const_iterator p = m_controlPoints.begin();
+ for ( Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i, ++p )
+ {
+ ControlPoint_testSelect( *p, *i, selector, test );
+ }
+}
+
+bool isSelected() const {
+ for ( Selectables::const_iterator i = m_selectables.begin(); i != m_selectables.end(); ++i )
+ {
+ if ( ( *i ).isSelected() ) {
+ return true;
+ }
+ }
+ return false;
+}
+void setSelected( bool selected ){
+ for ( Selectables::iterator i = m_selectables.begin(); i != m_selectables.end(); ++i )
+ {
+ ( *i ).setSelected( selected );
+ }
+}
+
+void write( const char* key, Entity& entity ){
+ ControlPoints_write( m_controlPoints, key, entity );
+}
+
+void transform( const Matrix4& matrix ){
+ forEachSelected( ControlPointTransform( matrix ) );
+}
+void snapto( float snap ){
+ forEachSelected( ControlPointSnap( snap ) );
+}
+
+void updateSelected() const {
+ m_selectedRender.clear();
+ forEachSelected( ControlPointAddSelected( m_selectedRender ) );
+}
+
+void renderComponents( Renderer& renderer, const VolumeTest& volume, const Matrix4& localToWorld ) const {
+ renderer.SetState( Type::instance().m_controlsShader, Renderer::eWireframeOnly );
+ renderer.SetState( Type::instance().m_controlsShader, Renderer::eFullMaterials );
+ renderer.addRenderable( m_controlsRender, localToWorld );
+}
+
+void renderComponentsSelected( Renderer& renderer, const VolumeTest& volume, const Matrix4& localToWorld ) const {
+ updateSelected();
+ if ( !m_selectedRender.empty() ) {
+ renderer.Highlight( Renderer::ePrimitive, false );
+ renderer.SetState( Type::instance().m_selectedShader, Renderer::eWireframeOnly );
+ renderer.SetState( Type::instance().m_selectedShader, Renderer::eFullMaterials );
+ renderer.addRenderable( m_selectedRender, localToWorld );
+ }
+}
+
+void curveChanged(){
+ m_selectables.resize( m_controlPoints.size(), m_selectionChanged );
+
+ m_controlsRender.clear();
+ m_controlsRender.reserve( m_controlPoints.size() );
+ forEach( ControlPointAdd( m_controlsRender ) );
+
+ m_selectedRender.reserve( m_controlPoints.size() );
+}
+typedef MemberCaller<CurveEdit, &CurveEdit::curveChanged> CurveChangedCaller;
};
class NURBSCurve
{
- Signal0 m_curveChanged;
- Callback m_boundsChanged;
+Signal0 m_curveChanged;
+Callback m_boundsChanged;
public:
- ControlPoints m_controlPoints;
- ControlPoints m_controlPointsTransformed;
- NURBSWeights m_weights;
- Knots m_knots;
- RenderableCurve m_renderCurve;
- AABB m_bounds;
-
- NURBSCurve(const Callback& boundsChanged) : m_boundsChanged(boundsChanged)
- {
- }
-
- SignalHandlerId connect(const SignalHandler& curveChanged)
- {
- curveChanged();
- return m_curveChanged.connectLast(curveChanged);
- }
- void disconnect(SignalHandlerId id)
- {
- m_curveChanged.disconnect(id);
- }
- void notify()
- {
- m_curveChanged();
- }
-
- void tesselate()
- {
- if(!m_controlPointsTransformed.empty())
- {
- const std::size_t numSegments = (m_controlPointsTransformed.size() - 1) * 16;
- m_renderCurve.m_vertices.resize(numSegments + 1);
- m_renderCurve.m_vertices[0].vertex = vertex3f_for_vector3(m_controlPointsTransformed[0]);
- for(std::size_t i = 1; i < numSegments; ++i)
- {
- m_renderCurve.m_vertices[i].vertex = vertex3f_for_vector3(NURBS_evaluate(m_controlPointsTransformed, m_weights, m_knots, NURBS_degree, (1.0 / double(numSegments)) * double(i)));
- }
- m_renderCurve.m_vertices[numSegments].vertex = vertex3f_for_vector3(m_controlPointsTransformed[m_controlPointsTransformed.size() - 1]);
- }
- else
- {
- m_renderCurve.m_vertices.clear();
- }
- }
-
- void curveChanged()
- {
- tesselate();
-
- m_bounds = AABB();
- for(ControlPoints::iterator i = m_controlPointsTransformed.begin(); i != m_controlPointsTransformed.end(); ++i)
- {
- aabb_extend_by_point_safe(m_bounds, (*i));
- }
-
- m_boundsChanged();
- notify();
- }
-
- bool parseCurve(const char* value)
- {
- if(!ControlPoints_parse(m_controlPoints, value))
- {
- return false;
- }
-
- m_weights.resize(m_controlPoints.size());
- for(NURBSWeights::iterator i = m_weights.begin(); i != m_weights.end(); ++i)
- {
- (*i) = 1;
- }
-
- KnotVector_openUniform(m_knots, m_controlPoints.size(), NURBS_degree);
-
- //plotBasisFunction(8, 0, NURBS_degree);
-
- return true;
- }
-
- void curveChanged(const char* value)
- {
- if(string_empty(value) || !parseCurve(value))
- {
- m_controlPoints.resize(0);
- m_knots.resize(0);
- m_weights.resize(0);
- }
- m_controlPointsTransformed = m_controlPoints;
- curveChanged();
- }
- typedef MemberCaller1<NURBSCurve, const char*, &NURBSCurve::curveChanged> CurveChangedCaller;
+ControlPoints m_controlPoints;
+ControlPoints m_controlPointsTransformed;
+NURBSWeights m_weights;
+Knots m_knots;
+RenderableCurve m_renderCurve;
+AABB m_bounds;
+
+NURBSCurve( const Callback& boundsChanged ) : m_boundsChanged( boundsChanged ){
+}
+
+SignalHandlerId connect( const SignalHandler& curveChanged ){
+ curveChanged();
+ return m_curveChanged.connectLast( curveChanged );
+}
+void disconnect( SignalHandlerId id ){
+ m_curveChanged.disconnect( id );
+}
+void notify(){
+ m_curveChanged();
+}
+
+void tesselate(){
+ if ( !m_controlPointsTransformed.empty() ) {
+ const std::size_t numSegments = ( m_controlPointsTransformed.size() - 1 ) * 16;
+ m_renderCurve.m_vertices.resize( numSegments + 1 );
+ m_renderCurve.m_vertices[0].vertex = vertex3f_for_vector3( m_controlPointsTransformed[0] );
+ for ( std::size_t i = 1; i < numSegments; ++i )
+ {
+ m_renderCurve.m_vertices[i].vertex = vertex3f_for_vector3( NURBS_evaluate( m_controlPointsTransformed, m_weights, m_knots, NURBS_degree, ( 1.0 / double(numSegments) ) * double(i) ) );
+ }
+ m_renderCurve.m_vertices[numSegments].vertex = vertex3f_for_vector3( m_controlPointsTransformed[m_controlPointsTransformed.size() - 1] );
+ }
+ else
+ {
+ m_renderCurve.m_vertices.clear();
+ }
+}
+
+void curveChanged(){
+ tesselate();
+
+ m_bounds = AABB();
+ for ( ControlPoints::iterator i = m_controlPointsTransformed.begin(); i != m_controlPointsTransformed.end(); ++i )
+ {
+ aabb_extend_by_point_safe( m_bounds, ( *i ) );
+ }
+
+ m_boundsChanged();
+ notify();
+}
+
+bool parseCurve( const char* value ){
+ if ( !ControlPoints_parse( m_controlPoints, value ) ) {
+ return false;
+ }
+
+ m_weights.resize( m_controlPoints.size() );
+ for ( NURBSWeights::iterator i = m_weights.begin(); i != m_weights.end(); ++i )
+ {
+ ( *i ) = 1;
+ }
+
+ KnotVector_openUniform( m_knots, m_controlPoints.size(), NURBS_degree );
+
+ //plotBasisFunction(8, 0, NURBS_degree);
+
+ return true;
+}
+
+void curveChanged( const char* value ){
+ if ( string_empty( value ) || !parseCurve( value ) ) {
+ m_controlPoints.resize( 0 );
+ m_knots.resize( 0 );
+ m_weights.resize( 0 );
+ }
+ m_controlPointsTransformed = m_controlPoints;
+ curveChanged();
+}
+typedef MemberCaller1<NURBSCurve, const char*, &NURBSCurve::curveChanged> CurveChangedCaller;
};
class CatmullRomSpline
{
- Signal0 m_curveChanged;
- Callback m_boundsChanged;
+Signal0 m_curveChanged;
+Callback m_boundsChanged;
public:
- ControlPoints m_controlPoints;
- ControlPoints m_controlPointsTransformed;
- RenderableCurve m_renderCurve;
- AABB m_bounds;
-
- CatmullRomSpline(const Callback& boundsChanged) : m_boundsChanged(boundsChanged)
- {
- }
-
- SignalHandlerId connect(const SignalHandler& curveChanged)
- {
- curveChanged();
- return m_curveChanged.connectLast(curveChanged);
- }
- void disconnect(SignalHandlerId id)
- {
- m_curveChanged.disconnect(id);
- }
- void notify()
- {
- m_curveChanged();
- }
-
- void tesselate()
- {
- if(!m_controlPointsTransformed.empty())
- {
- const std::size_t numSegments = (m_controlPointsTransformed.size() - 1) * 16;
- m_renderCurve.m_vertices.resize(numSegments + 1);
- m_renderCurve.m_vertices[0].vertex = vertex3f_for_vector3(m_controlPointsTransformed[0]);
- for(std::size_t i = 1; i < numSegments; ++i)
- {
- m_renderCurve.m_vertices[i].vertex = vertex3f_for_vector3(CatmullRom_evaluate(m_controlPointsTransformed, (1.0 / double(numSegments)) * double(i)));
- }
- m_renderCurve.m_vertices[numSegments].vertex = vertex3f_for_vector3(m_controlPointsTransformed[m_controlPointsTransformed.size() - 1]);
- }
- else
- {
- m_renderCurve.m_vertices.clear();
- }
- }
-
- bool parseCurve(const char* value)
- {
- return ControlPoints_parse(m_controlPoints, value);
- }
-
- void curveChanged()
- {
- tesselate();
-
- m_bounds = AABB();
- for(ControlPoints::iterator i = m_controlPointsTransformed.begin(); i != m_controlPointsTransformed.end(); ++i)
- {
- aabb_extend_by_point_safe(m_bounds, (*i));
- }
-
- m_boundsChanged();
- notify();
- }
-
- void curveChanged(const char* value)
- {
- if(string_empty(value) || !parseCurve(value))
- {
- m_controlPoints.resize(0);
- }
- m_controlPointsTransformed = m_controlPoints;
- curveChanged();
- }
- typedef MemberCaller1<CatmullRomSpline, const char*, &CatmullRomSpline::curveChanged> CurveChangedCaller;
+ControlPoints m_controlPoints;
+ControlPoints m_controlPointsTransformed;
+RenderableCurve m_renderCurve;
+AABB m_bounds;
+
+CatmullRomSpline( const Callback& boundsChanged ) : m_boundsChanged( boundsChanged ){
+}
+
+SignalHandlerId connect( const SignalHandler& curveChanged ){
+ curveChanged();
+ return m_curveChanged.connectLast( curveChanged );
+}
+void disconnect( SignalHandlerId id ){
+ m_curveChanged.disconnect( id );
+}
+void notify(){
+ m_curveChanged();
+}
+
+void tesselate(){
+ if ( !m_controlPointsTransformed.empty() ) {
+ const std::size_t numSegments = ( m_controlPointsTransformed.size() - 1 ) * 16;
+ m_renderCurve.m_vertices.resize( numSegments + 1 );
+ m_renderCurve.m_vertices[0].vertex = vertex3f_for_vector3( m_controlPointsTransformed[0] );
+ for ( std::size_t i = 1; i < numSegments; ++i )
+ {
+ m_renderCurve.m_vertices[i].vertex = vertex3f_for_vector3( CatmullRom_evaluate( m_controlPointsTransformed, ( 1.0 / double(numSegments) ) * double(i) ) );
+ }
+ m_renderCurve.m_vertices[numSegments].vertex = vertex3f_for_vector3( m_controlPointsTransformed[m_controlPointsTransformed.size() - 1] );
+ }
+ else
+ {
+ m_renderCurve.m_vertices.clear();
+ }
+}
+
+bool parseCurve( const char* value ){
+ return ControlPoints_parse( m_controlPoints, value );
+}
+
+void curveChanged(){
+ tesselate();
+
+ m_bounds = AABB();
+ for ( ControlPoints::iterator i = m_controlPointsTransformed.begin(); i != m_controlPointsTransformed.end(); ++i )
+ {
+ aabb_extend_by_point_safe( m_bounds, ( *i ) );
+ }
+
+ m_boundsChanged();
+ notify();
+}
+
+void curveChanged( const char* value ){
+ if ( string_empty( value ) || !parseCurve( value ) ) {
+ m_controlPoints.resize( 0 );
+ }
+ m_controlPointsTransformed = m_controlPoints;
+ curveChanged();
+}
+typedef MemberCaller1<CatmullRomSpline, const char*, &CatmullRomSpline::curveChanged> CurveChangedCaller;
};
const char* const curve_Nurbs = "curve_Nurbs";