60 #ifndef OPENMESH_SUBDIVIDER_ADAPTIVE_RULEST_HH
61 #define OPENMESH_SUBDIVIDER_ADAPTIVE_RULEST_HH
66 #include <OpenMesh/Core/System/config.hh>
67 #include <OpenMesh/Tools/Subdivider/Adaptive/Composite/RuleInterfaceT.hh>
72 #if defined(OM_CC_MIPS) // avoid warnings
73 # define MIPS_WARN_WA( Item ) \
74 void raise(typename M:: ## Item ## Handle &_h, state_t _target_state ) \
75 { Inherited::raise(_h, _target_state); }
77 # define MIPS_WARN_WA( Item )
83 namespace Subdivider {
107 Tvv3(M& _mesh) : Inherited(_mesh) { Base::set_subdiv_type(3); };
109 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
110 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
127 typedef typename M::HalfedgeHandle HEH;
128 typedef typename M::VertexHandle VH;
132 Tvv4(M& _mesh) : Inherited(_mesh) { Base::set_subdiv_type(4); };
134 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
135 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
136 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
140 void split_edge(HEH& _hh, VH& _vh,
state_t _target_state);
141 void check_edge(
const typename M::HalfedgeHandle& _hh,
153 COMPOSITE_RULE(
VF, M );
160 VF(M& _mesh) : Inherited(_mesh) {}
162 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
175 COMPOSITE_RULE(
FF, M );
182 FF(M& _mesh) : Inherited(_mesh) {}
184 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
204 FFc(M& _mesh) : Inherited(_mesh) {}
206 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
219 COMPOSITE_RULE(
FV, M );
226 FV(M& _mesh) : Inherited(_mesh) {}
228 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
248 FVc(M& _mesh) : Inherited(_mesh) { init_coeffs(50); }
250 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
254 static
void init_coeffs(
size_t _max_valence);
255 static const
std::vector<
double>& coeffs() {
return coeffs_; }
257 double coeff(
size_t _valence )
259 assert(_valence < coeffs_.size());
260 return coeffs_[_valence];
265 static std::vector<double> coeffs_;
277 COMPOSITE_RULE(
VV, M );
285 VV(M& _mesh) : Inherited(_mesh) {}
287 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
307 VVc(M& _mesh) : Inherited(_mesh) {}
309 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
322 COMPOSITE_RULE(
VE, M );
329 VE(M& _mesh) : Inherited(_mesh) {}
331 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
351 VdE(M& _mesh) : Inherited(_mesh) {}
353 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
373 VdEc(M& _mesh) : Inherited(_mesh) {}
375 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
388 COMPOSITE_RULE(
EV, M );
395 EV(M& _mesh) : Inherited(_mesh) {}
397 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
418 EVc(M& _mesh) : Inherited(_mesh) { init_coeffs(50); }
420 void raise(
typename M::VertexHandle& _vh,
state_t _target_state);
424 static
void init_coeffs(
size_t _max_valence);
425 static const
std::vector<
double>& coeffs() {
return coeffs_; }
427 double coeff(
size_t _valence )
429 assert(_valence < coeffs_.size());
430 return coeffs_[_valence];
435 static std::vector<double> coeffs_;
447 COMPOSITE_RULE(
EF, M );
454 EF(M& _mesh) : Inherited(_mesh) {}
456 void raise(
typename M::FaceHandle& _fh,
state_t _target_state);
469 COMPOSITE_RULE(
FE, M );
476 FE(M& _mesh) : Inherited(_mesh) {}
478 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
498 EdE(M& _mesh) : Inherited(_mesh) {}
500 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
520 EdEc(M& _mesh) : Inherited(_mesh) {}
522 void raise(
typename M::EdgeHandle& _eh,
state_t _target_state);
536 #if defined(OM_INCLUDE_TEMPLATES) && !defined(OPENMESH_SUBDIVIDER_ADAPTIVE_RULEST_CC)
537 # define OPENMESH_SUBDIVIDER_TEMPLATES
541 #endif // OPENMESH_SUBDIVIDER_ADAPTIVE_RULEST_HH defined
Composite rule VF.
Definition: RulesT.hh:151
Composite rule EF.
Definition: RulesT.hh:445
Composite rule EVc.
Definition: RulesT.hh:408
Composite rule VdEc.
Definition: RulesT.hh:364
Composite rule FVc.
Definition: RulesT.hh:239
Composite rule FFc.
Definition: RulesT.hh:195
Composite rule EV.
Definition: RulesT.hh:386
Composite rule VdE.
Definition: RulesT.hh:342
Base class for adaptive composite subdivision rules.
Definition: CompositeT.hh:84
Composite rule VE.
Definition: RulesT.hh:320
Composite rule FV.
Definition: RulesT.hh:217
Contains all the mesh ingredients like the polygonal mesh, the triangle mesh, different mesh kernels ...
Definition: MeshItems.hh:64
Composite rule VVc.
Definition: RulesT.hh:298
Composite rule EdE.
Definition: RulesT.hh:489
Composite rule FF.
Definition: RulesT.hh:173
Topological composite rule Tvv,4 doing a 1-4 split of a face.
Definition: RulesT.hh:120
Composite rule EdEc.
Definition: RulesT.hh:511
Composite rule VV.
Definition: RulesT.hh:275
Composite rule FE.
Definition: RulesT.hh:467
Adaptive Composite Subdivision framework.
Definition: RulesT.hh:97
CompositeTraits::state_t state_t
Adaptive Composite Subdivision framework.
Definition: CompositeTraits.hh:255
scalar_t coeff() const
Get coefficient - ignored by non-parameterized rules.
Definition: RuleInterfaceT.hh:356