Documentation/OpenFlipper-3.1/a01908_source.html

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 /*===========================================================================*\
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 //=============================================================================
 //
 //  CLASS DecimaterT - IMPLEMENTATION
 //
 //=============================================================================
 #define OPENMESH_BASE_DECIMATER_DECIMATERT_CC

 //== INCLUDES =================================================================

 #include <vector>
 #if defined(OM_CC_MIPS)
 #  include <float.h>
 #else
 #  include <cfloat>
 #endif

 //== NAMESPACE ===============================================================

 namespace OpenMesh {
 namespace Decimater {

 //== IMPLEMENTATION ==========================================================

 template<class Mesh>
 BaseDecimaterT<Mesh>::BaseDecimaterT(Mesh& _mesh) :
     mesh_(_mesh), cmodule_(NULL), initialized_(false), observer_(NULL) {
   // default properties
   mesh_.request_vertex_status();
   mesh_.request_edge_status();
   mesh_.request_face_status();

 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 BaseDecimaterT<Mesh>::~BaseDecimaterT() {
   // default properties
   mesh_.release_vertex_status();
   mesh_.release_edge_status();
   mesh_.release_face_status();

   // dispose of modules
   {
     set_uninitialized();
     typename ModuleList::iterator m_it, m_end = all_modules_.end();
     for (m_it = all_modules_.begin(); m_it != m_end; ++m_it)
       delete *m_it;
     all_modules_.clear();
   }
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 bool BaseDecimaterT<Mesh>::is_collapse_legal(const CollapseInfo& _ci) {
   //   std::clog << "McDecimaterT<>::is_collapse_legal()\n";

   // locked ?
   if (mesh_.status(_ci.v0).locked())
     return false;

   // this test checks:
   // is v0v1 deleted?
   // is v0 deleted?
   // is v1 deleted?
   // are both vlv0 and v1vl boundary edges?
   // are both v0vr and vrv1 boundary edges?
   // are vl and vr equal or both invalid?
   // one ring intersection test
   // edge between two boundary vertices should be a boundary edge
   if (!mesh_.is_collapse_ok(_ci.v0v1))
     return false;

   if (_ci.vl.is_valid() && _ci.vr.is_valid()
       && mesh_.find_halfedge(_ci.vl, _ci.vr).is_valid()
       && mesh_.valence(_ci.vl) == 3 && mesh_.valence(_ci.vr) == 3) {
     return false;
   }
   //--- feature test ---

   if (mesh_.status(_ci.v0).feature()
       && !mesh_.status(mesh_.edge_handle(_ci.v0v1)).feature())
     return false;

   //--- test boundary cases ---
   if (mesh_.is_boundary(_ci.v0)) {

     // don't collapse a boundary vertex to an inner one
     if (!mesh_.is_boundary(_ci.v1))
       return false;

     // only one one ring intersection
     if (_ci.vl.is_valid() && _ci.vr.is_valid())
       return false;
   }

   // there have to be at least 2 incident faces at v0
   if (mesh_.cw_rotated_halfedge_handle(
       mesh_.cw_rotated_halfedge_handle(_ci.v0v1)) == _ci.v0v1)
     return false;

   // collapse passed all tests -> ok
   return true;
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 float BaseDecimaterT<Mesh>::collapse_priority(const CollapseInfo& _ci) {
   typename ModuleList::iterator m_it, m_end = bmodules_.end();

   for (m_it = bmodules_.begin(); m_it != m_end; ++m_it) {
     if ((*m_it)->collapse_priority(_ci) < 0.0)
       return ModBaseT< Mesh >::ILLEGAL_COLLAPSE;
   }
   return cmodule_->collapse_priority(_ci);
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 void BaseDecimaterT<Mesh>::postprocess_collapse(CollapseInfo& _ci) {
   typename ModuleList::iterator m_it, m_end = bmodules_.end();

   for (m_it = bmodules_.begin(); m_it != m_end; ++m_it)
     (*m_it)->postprocess_collapse(_ci);

   cmodule_->postprocess_collapse(_ci);
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 void BaseDecimaterT<Mesh>::preprocess_collapse(CollapseInfo& _ci) {
   typename ModuleList::iterator m_it, m_end = bmodules_.end();

   for (m_it = bmodules_.begin(); m_it != m_end; ++m_it)
     (*m_it)->preprocess_collapse(_ci);

   cmodule_->preprocess_collapse(_ci);
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 void BaseDecimaterT<Mesh>::set_error_tolerance_factor(double _factor) {
   if (_factor >= 0.0 && _factor <= 1.0) {
     typename ModuleList::iterator m_it, m_end = bmodules_.end();

     for (m_it = bmodules_.begin(); m_it != m_end; ++m_it)
       (*m_it)->set_error_tolerance_factor(_factor);

     cmodule_->set_error_tolerance_factor(_factor);
   }
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 void BaseDecimaterT<Mesh>::info(std::ostream& _os) {
   if (initialized_) {
     _os << "initialized : yes" << std::endl;
     _os << "binary modules: " << bmodules_.size() << std::endl;
     for (ModuleListIterator m_it = bmodules_.begin(); m_it != bmodules_.end();
         ++m_it) {
       _os << "  " << (*m_it)->name() << std::endl;
     }
     _os << "priority module: " << cmodule_->name().c_str() << std::endl;
   } else {
     _os << "initialized : no" << std::endl;
     _os << "available modules: " << all_modules_.size() << std::endl;
     for (ModuleListIterator m_it = all_modules_.begin();
         m_it != all_modules_.end(); ++m_it) {
       _os << "  " << (*m_it)->name() << " : ";
       if ((*m_it)->is_binary()) {
         _os << "binary";
         if ((*m_it)->name() == "Quadric") {
           _os << " and priority (special treatment)";
         }
       } else {
         _os << "priority";
       }
       _os << std::endl;
     }
   }
 }

 //-----------------------------------------------------------------------------

 template<class Mesh>
 bool BaseDecimaterT<Mesh>::initialize() {
   if (initialized_) {
     return true;
   }

   // FIXME: quadric module shouldn't be treated specially.
   // Q: Why?
   // A: It isn't generic and breaks encapsulation. Also, using string
   // name comparison is not reliable, since you can't guarantee that
   // no one else will name their custom module "Quadric".
   // Q: What should be done instead?
   // A: ModBaseT API should support modules that can be both binary
   // and priority, or BETTER YET, let the DecimaterT API specify the
   // priority module explicitly.

   // find the priority module: either the only non-binary module in the list, or "Quadric"
   Module *quadric = NULL;
   Module *pmodule = NULL;
   for (ModuleListIterator m_it = all_modules_.begin(), m_end =
       all_modules_.end(); m_it != m_end; ++m_it) {
     if ((*m_it)->name() == "Quadric")
       quadric = *m_it;

     if (!(*m_it)->is_binary()) {
       if (pmodule) {
         // only one priority module allowed!
         set_uninitialized();
         return false;
       }
       pmodule = *m_it;
     }
   }

   // Quadric is used as default priority module (even if it is set to be binary)
   if (!pmodule && quadric) {
     pmodule = quadric;
   }

   if (!pmodule) {
     // At least one priority module required
     set_uninitialized();
     return false;
   }

   // set pmodule as the current priority module
   cmodule_ = pmodule;

   for (ModuleListIterator m_it = all_modules_.begin(), m_end =
       all_modules_.end(); m_it != m_end; ++m_it) {
     // every module gets initialized
     (*m_it)->initialize();

     if (*m_it != pmodule) {
       // all other modules are binary, and go into bmodules_ list
       bmodules_.push_back(*m_it);
     }
   }

   return initialized_ = true;
 }


 //=============================================================================
 }// END_NS_DECIMATER
 } // END_NS_OPENMESH
 //=============================================================================

OpenMesh::Decimater::CollapseInfoT::v1
Mesh::VertexHandle v1
Remaining vertex.
Definition: CollapseInfoT.hh:98

OpenMesh::Decimater::CollapseInfoT::vr
Mesh::VertexHandle vr
Right vertex.
Definition: CollapseInfoT.hh:104

OpenMesh::Decimater::ModBaseT::initialize
virtual void initialize()
Initialize module-internal stuff.
Definition: ModBaseT.hh:234

OpenMesh::Decimater::BaseDecimaterT::postprocess_collapse
void postprocess_collapse(CollapseInfo &_ci)
Post-process a collapse.
Definition: BaseDecimaterT.cc:174

OpenMesh::Decimater::ModBaseT::collapse_priority
virtual float collapse_priority(const CollapseInfoT< MeshT > &)
Definition: ModBaseT.hh:250

OpenMesh::Decimater::CollapseInfoT
Definition: CollapseInfoT.hh:80

OpenMesh::Decimater::CollapseInfoT::vl
Mesh::VertexHandle vl
Left vertex.
Definition: CollapseInfoT.hh:103

OpenMesh::Decimater::CollapseInfoT::v0v1
Mesh::HalfedgeHandle v0v1
Halfedge to be collapsed.
Definition: CollapseInfoT.hh:95

OpenMesh::Decimater::CollapseInfoT::v0
Mesh::VertexHandle v0
Vertex to be removed.
Definition: CollapseInfoT.hh:97

OpenMesh
Definition: MeshItems.hh:64

OpenMesh::Decimater::BaseDecimaterT
Definition: BaseDecimaterT.hh:90

OpenMesh::Decimater::ModBaseT
Definition: ModBaseT.hh:197

OpenMesh::TriMesh_ArrayKernelT
Definition: TriMesh_ArrayKernelT.hh:98

OpenMesh::Decimater::BaseDecimaterT::preprocess_collapse
void preprocess_collapse(CollapseInfo &_ci)
Pre-process a collapse.
Definition: BaseDecimaterT.cc:186

OpenMesh::Decimater::BaseDecimaterT::set_error_tolerance_factor
void set_error_tolerance_factor(double _factor)
Definition: BaseDecimaterT.cc:198