Commit 05a091e4 authored by Pierre Kraemer's avatar Pierre Kraemer

remove some warnings

parent 22d81ee3
......@@ -233,7 +233,7 @@ void computeAreaFaces(typename PFP::MAP& map, const VertexAttribute<typename PFP
// },nbth,false,AUTO);
// }
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int thr)
CGoGN::Parallel::foreach_cell<FACE>(map, [&] (Face f, unsigned int /*thr*/)
{
area[f] = convexFaceArea<PFP>(map, f, position) ;
});
......@@ -243,10 +243,10 @@ void computeAreaFaces(typename PFP::MAP& map, const VertexAttribute<typename PFP
template <typename PFP>
void computeOneRingAreaVertices(typename PFP::MAP& map, const VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& position, VertexAttribute<typename PFP::REAL, typename PFP::MAP>& area)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int /*thr*/)
{
area[v] = vertexOneRingArea<PFP>(map, v, position) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
template <typename PFP>
......@@ -255,17 +255,16 @@ void computeBarycentricAreaVertices(typename PFP::MAP& map, const VertexAttribut
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int thr)
{
vertex_area[v] = vertexBarycentricArea<PFP>(map, v, position) ;
}
,FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
template <typename PFP>
void computeVoronoiAreaVertices(typename PFP::MAP& map, const VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& position, VertexAttribute<typename PFP::REAL, typename PFP::MAP>& area)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int /*thr*/)
{
area[v] = vertexVoronoiArea<PFP>(map, v, position) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
} // namespace Parallel
......
......@@ -164,7 +164,7 @@ void computeCentroidELWFaces(typename PFP::MAP& map, const V_ATT& position, F_AT
template <typename PFP, typename V_ATT>
void computeNeighborhoodCentroidVertices(typename PFP::MAP& map, const V_ATT& position, V_ATT& vertex_centroid, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeNeighborhoodCentroidVertices<PFP,V_ATT>(map,position,vertex_centroid);
return;
......@@ -173,8 +173,7 @@ void computeNeighborhoodCentroidVertices(typename PFP::MAP& map, const V_ATT& po
foreach_cell<VERTEX>(map, [&] (Vertex v)
{
vertex_centroid[v] = vertexNeighborhoodCentroid<PFP,V_ATT>(map, v, position) ;
}
,AUTO,thread);
}, AUTO, thread);
}
......@@ -184,7 +183,7 @@ namespace Parallel
template <typename PFP, typename V_ATT, typename F_ATT>
void computeCentroidFaces(typename PFP::MAP& map, const V_ATT& position, F_ATT& face_centroid)
{
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int thr)
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int /*thr*/)
{
face_centroid[f] = faceCentroid<PFP>(map, f, position) ;
});
......@@ -193,7 +192,7 @@ void computeCentroidFaces(typename PFP::MAP& map, const V_ATT& position, F_ATT&
template <typename PFP, typename V_ATT, typename F_ATT>
void computeCentroidELWFaces(typename PFP::MAP& map, const V_ATT& position, F_ATT& face_centroid)
{
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int thr)
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int /*thr*/)
{
face_centroid[f] = faceCentroidELW<PFP>(map, f, position) ;
});
......@@ -204,10 +203,10 @@ template <typename PFP, typename V_ATT>
void computeNeighborhoodCentroidVertices(typename PFP::MAP& map,
const V_ATT& position, V_ATT& vertex_centroid)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int /*thr*/)
{
vertex_centroid[v] = vertexNeighborhoodCentroid<PFP>(map, v, position) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
} // namespace Parallel
......@@ -229,12 +228,11 @@ typename V_ATT::DATA_TYPE vertexNeighborhoodCentroid(typename PFP::MAP& map, Ver
{
typename V_ATT::DATA_TYPE center(0.0);
unsigned int count = 0 ;
foreach_adjacent3<EDGE>(map, v, [&](Vertex it)
foreach_adjacent3<EDGE>(map, v, [&] (Vertex it)
{
center += attributs[it];
++count ;
}
,false,thread);
}, false, thread);
center /= count ;
return center ;
}
......@@ -242,7 +240,7 @@ typename V_ATT::DATA_TYPE vertexNeighborhoodCentroid(typename PFP::MAP& map, Ver
template <typename PFP, typename V_ATT, typename W_ATT>
void computeCentroidVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT& vol_centroid, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeCentroidVolumes<PFP,V_ATT,W_ATT>(map,position,vol_centroid);
return;
......@@ -251,14 +249,13 @@ void computeCentroidVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT
foreach_cell<VOLUME>(map, [&] (Vol v)
{
vol_centroid[v] = Surface::Geometry::volumeCentroid<PFP,V_ATT>(map, v, position,thread) ;
}
,AUTO,thread);
}, AUTO, thread);
}
template <typename PFP, typename V_ATT, typename W_ATT>
void computeCentroidELWVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT& vol_centroid, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeCentroidELWVolumes<PFP,V_ATT,W_ATT>(map,position,vol_centroid);
return;
......@@ -267,14 +264,13 @@ void computeCentroidELWVolumes(typename PFP::MAP& map, const V_ATT& position, W_
foreach_cell<VOLUME>(map, [&] (Vol v)
{
vol_centroid[v] = Surface::Geometry::volumeCentroidELW<PFP,V_ATT>(map, v, position,thread) ;
}
,AUTO,thread);
}, AUTO, thread);
}
template <typename PFP, typename V_ATT>
void computeNeighborhoodCentroidVertices(typename PFP::MAP& map, const V_ATT& position, V_ATT& vertex_centroid, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeNeighborhoodCentroidVertices<PFP,V_ATT>(map,position,vertex_centroid);
return;
......@@ -283,8 +279,7 @@ void computeNeighborhoodCentroidVertices(typename PFP::MAP& map, const V_ATT& po
foreach_cell<VERTEX>(map, [&] (Vertex v)
{
vertex_centroid[v] = Volume::Geometry::vertexNeighborhoodCentroid<PFP,V_ATT>(map, v, position) ;
}
,AUTO,thread);
}, AUTO, thread);
}
......@@ -294,7 +289,7 @@ namespace Parallel
template <typename PFP, typename V_ATT, typename W_ATT>
void computeCentroidVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT& vol_centroid)
{
CGoGN::Parallel::foreach_cell<VOLUME>(map,[&](Vol v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VOLUME>(map, [&] (Vol v, unsigned int thr)
{
vol_centroid[v] = Surface::Geometry::volumeCentroid<PFP,V_ATT>(map, v, position, thr) ;
});
......@@ -303,20 +298,19 @@ void computeCentroidVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT
template <typename PFP, typename V_ATT, typename W_ATT>
void computeCentroidELWVolumes(typename PFP::MAP& map, const V_ATT& position, W_ATT& vol_centroid)
{
CGoGN::Parallel::foreach_cell<VOLUME>(map,[&](Vol v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VOLUME>(map, [&] (Vol v, unsigned int thr)
{
vol_centroid[v] = Surface::Geometry::volumeCentroidELW<PFP,V_ATT>(map, v, position, thr) ;
});
}
template <typename PFP, typename V_ATT>
void computeNeighborhoodCentroidVertices(typename PFP::MAP& map, const V_ATT& position, V_ATT& vertex_centroid)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int thr)
{
vertex_centroid[v] = Volume::Geometry::vertexNeighborhoodCentroid<PFP,V_ATT>(map, v, position,thr) ;
},true,FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
} // namespace Parallel
......
......@@ -664,10 +664,10 @@ void computeCurvatureVertices_NormalCycles(
if (!map.template isOrbitEmbedded<FACE>())
Algo::Topo::initAllOrbitsEmbedding<FACE>(map);
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int threadID)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int threadID)
{
computeCurvatureVertex_NormalCycles<PFP>(map, v, radius, position, normal, edgeangle, kmax, kmin, Kmax, Kmin, Knormal, threadID) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
template <typename PFP>
......@@ -693,14 +693,12 @@ void computeCurvatureVertices_NormalCycles_Projected(
if (!map.template isOrbitEmbedded<FACE>())
Algo::Topo::initAllOrbitsEmbedding<FACE>(map);
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int threadID)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int threadID)
{
computeCurvatureVertex_NormalCycles_Projected<PFP>(map, v, radius, position, normal, edgeangle, kmax, kmin, Kmax, Kmin, Knormal, threadID) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
template <typename PFP>
void computeCurvatureVertices_QuadraticFitting(
typename PFP::MAP& map,
......@@ -711,10 +709,10 @@ void computeCurvatureVertices_QuadraticFitting(
VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& Kmax,
VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& Kmin)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int threadID)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int threadID)
{
computeCurvatureVertex_QuadraticFitting<PFP>(map, v, position, normal, kmax, kmin, Kmax, Kmin, threadID) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
......
......@@ -145,36 +145,33 @@ typename V_ATT::DATA_TYPE vertexBorderNormal(typename PFP::MAP& map, Vertex v, c
template <typename PFP, typename V_ATT, typename F_ATT>
void computeNormalFaces(typename PFP::MAP& map, const V_ATT& position, F_ATT& face_normal, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeNormalFaces<PFP,V_ATT,F_ATT>(map,position,face_normal);
Parallel::computeNormalFaces<PFP,V_ATT,F_ATT>(map, position, face_normal);
return;
}
foreach_cell<FACE>(map, [&] (Face f)
{
face_normal[f] = faceNormal<PFP>(map, f, position) ;
},
AUTO, thread);
}, AUTO, thread);
}
template <typename PFP, typename V_ATT>
void computeNormalVertices(typename PFP::MAP& map, const V_ATT& position, V_ATT& normal, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeNormalVertices<PFP,V_ATT>(map,position,normal);
Parallel::computeNormalVertices<PFP,V_ATT>(map, position, normal);
return;
}
foreach_cell<VERTEX>(map, [&] (Vertex v)
{
normal[v] = vertexNormal<PFP>(map, v, position) ;
},
FORCE_CELL_MARKING, thread);
}, FORCE_CELL_MARKING, thread);
}
template <typename PFP, typename V_ATT>
typename PFP::REAL computeAngleBetweenNormalsOnEdge(typename PFP::MAP& map, Edge e, const V_ATT& position)
{
......@@ -211,47 +208,44 @@ typename PFP::REAL computeAngleBetweenNormalsOnEdge(typename PFP::MAP& map, Edge
template <typename PFP, typename V_ATT, typename E_ATT>
void computeAnglesBetweenNormalsOnEdges(typename PFP::MAP& map, const V_ATT& position, E_ATT& angles, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
Parallel::computeAnglesBetweenNormalsOnEdges<PFP,V_ATT,E_ATT>(map,position,angles);
Parallel::computeAnglesBetweenNormalsOnEdges<PFP,V_ATT,E_ATT>(map, position, angles);
return;
}
foreach_cell<EDGE>(map, [&] (Edge e)
{
angles[e] = computeAngleBetweenNormalsOnEdge<PFP>(map, e, position) ;
},
AUTO, thread);
}, AUTO, thread);
}
namespace Parallel
{
template <typename PFP, typename V_ATT>
void computeNormalVertices(typename PFP::MAP& map, const V_ATT& position, V_ATT& normal)
{
CGoGN::Parallel::foreach_cell<VERTEX>(map,[&](Vertex v, unsigned int /*thr*/)
CGoGN::Parallel::foreach_cell<VERTEX>(map, [&] (Vertex v, unsigned int /*thr*/)
{
normal[v] = vertexNormal<PFP>(map, v, position) ;
},FORCE_CELL_MARKING);
}, FORCE_CELL_MARKING);
}
template <typename PFP, typename V_ATT, typename F_ATT>
void computeNormalFaces(typename PFP::MAP& map, const V_ATT& position, F_ATT& normal)
{
CGoGN::Parallel::foreach_cell<FACE>(map,[&](Face f, unsigned int thr)
CGoGN::Parallel::foreach_cell<FACE>(map, [&] (Face f, unsigned int /*thr*/)
{
normal[f] = faceNormal<PFP>(map, f, position) ;
});
}
template <typename PFP, typename V_ATT, typename E_ATT>
void computeAnglesBetweenNormalsOnEdges(typename PFP::MAP& map, const V_ATT& position, E_ATT& angles)
{
CGoGN::Parallel::foreach_cell<EDGE>(map,[&](Edge e, unsigned int thr)
CGoGN::Parallel::foreach_cell<EDGE>(map,[&](Edge e, unsigned int /*thr*/)
{
angles[e] = computeAngleBetweenNormalsOnEdge<PFP>(map, e, position) ;
});
......
......@@ -126,17 +126,16 @@ typename PFP::REAL convexPolyhedronVolume(typename PFP::MAP& map, Vol v, const V
template <typename PFP>
typename PFP::REAL totalVolume(typename PFP::MAP& map, const VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& position, unsigned int thread)
{
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread==0))
if ((CGoGN::Parallel::NumberOfThreads > 1) && (thread == 0))
{
return Parallel::totalVolume<PFP>(map,position);
return Parallel::totalVolume<PFP>(map, position);
}
double vol = 0.0 ;
TraversorW<typename PFP::MAP> t(map, thread) ;
for(Dart d = t.begin(); d != t.end(); d = t.next())
vol += convexPolyhedronVolume<PFP>(map, d, position,thread) ;
vol += convexPolyhedronVolume<PFP>(map, d, position, thread) ;
return typename PFP::REAL(vol) ;
}
......@@ -148,10 +147,10 @@ template <typename PFP>
typename PFP::REAL totalVolume(typename PFP::MAP& map, const VertexAttribute<typename PFP::VEC3, typename PFP::MAP>& position)
{
// allocate a vector of 1 accumulator for each thread
std::vector<typename PFP::REAL> vols(CGoGN::Parallel::NumberOfThreads-1,0.0);
std::vector<typename PFP::REAL> vols(CGoGN::Parallel::NumberOfThreads-1, 0.0);
// foreach volume
CGoGN::Parallel::foreach_cell<VOLUME>(map,[&](Vol v, unsigned int thr)
CGoGN::Parallel::foreach_cell<VOLUME>(map, [&] (Vol v, unsigned int thr)
{
// add volume to the thread accumulator
vols[thr-1] += convexPolyhedronVolume<PFP>(map, v, position, thr) ;
......
......@@ -361,13 +361,13 @@ inline void ImplicitHierarchicalMap3::foreach_dart_of_volume(Dart d, FUNC& f, un
}
template <typename FUNC>
inline void ImplicitHierarchicalMap3::foreach_dart_of_vertex1(Dart d, FUNC& f, unsigned int thread) const
inline void ImplicitHierarchicalMap3::foreach_dart_of_vertex1(Dart d, FUNC& f, unsigned int /*thread*/) const
{
f(d);
}
template <typename FUNC>
inline void ImplicitHierarchicalMap3::foreach_dart_of_edge1(Dart d, FUNC& f, unsigned int thread) const
inline void ImplicitHierarchicalMap3::foreach_dart_of_edge1(Dart d, FUNC& f, unsigned int /*thread*/) const
{
f(d);
}
......
......@@ -361,7 +361,7 @@ inline void foreach_incident3(MAP& map, Cell<ORBIT_FROM> c, FUNC f, bool forceDa
template <unsigned int THRU, unsigned int ORBIT, typename MAP, typename FUNC>
inline void foreach_adjacent3( MAP& map, Cell<ORBIT> c, FUNC f, bool forceDartMarker = false, unsigned int thread = 0)
inline void foreach_adjacent3(MAP& map, Cell<ORBIT> c, FUNC f, bool forceDartMarker = false, unsigned int thread = 0)
{
Traversor3XXaY<MAP,ORBIT,THRU> trav(const_cast<const MAP&>(map),c,forceDartMarker,thread);
for (Cell<ORBIT> c = trav.begin(), e = trav.end(); c.dart != e.dart; c = trav.next())
......
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