remove warnings

This commit is contained in:
Joachim Schoeberl 2024-01-05 20:06:55 +01:00
parent ec0f848030
commit 87b65fb5ff
13 changed files with 72 additions and 60 deletions

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@ -50,7 +50,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nvert; int nvert;
fin >> nvert; fin >> nvert;
Point<3> p{0.,0.,0.}; Point<3> p{0.,0.,0.};
for(auto k : Range(nvert)) { for([[maybe_unused]] auto k : Range(nvert)) {
for(auto i : Range(dim)) for(auto i : Range(dim))
fin >> p[i]; fin >> p[i];
fin >> index; fin >> index;
@ -61,7 +61,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nedge; int nedge;
fin >> nedge; fin >> nedge;
Segment seg; Segment seg;
for(auto k : Range(nedge)) { for([[maybe_unused]] auto k : Range(nedge)) {
for(auto i : Range(2)) for(auto i : Range(2))
fin >> seg[i]; fin >> seg[i];
fin >> seg.edgenr; fin >> seg.edgenr;
@ -74,7 +74,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int ntrig, index; int ntrig, index;
fin >> ntrig; fin >> ntrig;
Element2d sel; Element2d sel;
for(auto k : Range(ntrig)) { for([[maybe_unused]] auto k : Range(ntrig)) {
for(auto i : Range(3)) for(auto i : Range(3))
fin >> sel[i]; fin >> sel[i];
fin >> index; fin >> index;
@ -86,7 +86,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int ntet; int ntet;
fin >> ntet; fin >> ntet;
Element el(4); Element el(4);
for(auto k : Range(ntet)) { for([[maybe_unused]] auto k : Range(ntet)) {
for(auto i : Range(4)) for(auto i : Range(4))
fin >> el[i]; fin >> el[i];
fin >> index; fin >> index;
@ -99,7 +99,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int ncorners; int ncorners;
fin >> ncorners; fin >> ncorners;
Element0d el; Element0d el;
for(auto k : Range(ncorners)) { for([[maybe_unused]] auto k : Range(ncorners)) {
fin >> el.pnum; fin >> el.pnum;
} }
} }
@ -107,7 +107,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nverts; int nverts;
fin >> nverts; fin >> nverts;
int vert; int vert;
for(auto k : Range(nverts)) { for([[maybe_unused]] auto k : Range(nverts)) {
fin >> vert; fin >> vert;
} }
} }
@ -115,7 +115,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nnormals; int nnormals;
fin >> nnormals; fin >> nnormals;
Vec<3> normal; Vec<3> normal;
for(auto k : Range(nnormals)) { for([[maybe_unused]] auto k : Range(nnormals)) {
fin >> normal[0]; fin >> normal[0];
fin >> normal[1]; fin >> normal[1];
fin >> normal[2]; fin >> normal[2];
@ -126,7 +126,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
fin >> nnormals; fin >> nnormals;
int vert; int vert;
int normal; int normal;
for(auto k : Range(nnormals)) { for([[maybe_unused]] auto k : Range(nnormals)) {
fin >> normal; fin >> normal;
fin >> vert; fin >> vert;
} }
@ -135,7 +135,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int ntangents; int ntangents;
fin >> ntangents; fin >> ntangents;
Vec<3> tangent; Vec<3> tangent;
for(auto k : Range(ntangents)) { for([[maybe_unused]] auto k : Range(ntangents)) {
fin >> tangent[0]; fin >> tangent[0];
fin >> tangent[1]; fin >> tangent[1];
fin >> tangent[2]; fin >> tangent[2];
@ -146,7 +146,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
fin >> ntangents; fin >> ntangents;
int vert; int vert;
int tangent; int tangent;
for(auto k : Range(ntangents)) { for([[maybe_unused]] auto k : Range(ntangents)) {
fin >> tangent; fin >> tangent;
fin >> vert; fin >> vert;
} }
@ -155,7 +155,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nridges; int nridges;
fin >> nridges; fin >> nridges;
int ridge; int ridge;
for(auto k : Range(nridges)) { for([[maybe_unused]] auto k : Range(nridges)) {
fin >> ridge; fin >> ridge;
} }
} }
@ -164,7 +164,7 @@ void ReadMeditFormat (Mesh & mesh, const filesystem::path & filename, map<tuple<
int nitems; int nitems;
fin >> nitems; fin >> nitems;
string s; string s;
for(auto i : Range(nitems)) for([[maybe_unused]] auto i : Range(nitems))
fin >> s; // read one line fin >> s; // read one line
} }
} }

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@ -829,7 +829,7 @@ namespace netgen
if(face.primary == &face) if(face.primary == &face)
{ {
// check if this face connects two identified closesurfaces // check if this face connects two identified closesurfaces
auto & idents = mesh.GetIdentifications(); // auto & idents = mesh.GetIdentifications();
std::set<int> relevant_edges; std::set<int> relevant_edges;
auto segments = face.GetBoundary(mesh); auto segments = face.GetBoundary(mesh);
for(const auto &s : segments) for(const auto &s : segments)

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@ -66,7 +66,7 @@ namespace netgen
auto p0 = larger_trig[i]; auto p0 = larger_trig[i];
auto p1 = larger_trig[(i+1)%3]; auto p1 = larger_trig[(i+1)%3];
auto p2 = larger_trig[(i+2)%3]; auto p2 = larger_trig[(i+2)%3];
auto n = Cross(p2-p1, n_trig); // auto n = Cross(p2-p1, n_trig);
auto v0 = (p2-p1).Normalize(); auto v0 = (p2-p1).Normalize();
auto v1 = (p0-p1).Normalize(); auto v1 = (p0-p1).Normalize();
@ -209,7 +209,7 @@ namespace netgen
Vec<3> ab_base_norm = (b_base - a_base).Normalize(); Vec<3> ab_base_norm = (b_base - a_base).Normalize();
double a_vec_x = Dot(a_vec, ab_base_norm); double a_vec_x = Dot(a_vec, ab_base_norm);
double b_vec_x = Dot(b_vec, -ab_base_norm); double b_vec_x = Dot(b_vec, -ab_base_norm);
double ratio_parallel = (a_vec_x + b_vec_x) / ab_base; // double ratio_parallel = (a_vec_x + b_vec_x) / ab_base;
// Calculate surface normal at point si // Calculate surface normal at point si
Vec<3> surface_normal = getNormal(mesh[si]); Vec<3> surface_normal = getNormal(mesh[si]);
@ -238,7 +238,7 @@ namespace netgen
}; };
auto modifiedsmooth = [&](size_t nsteps) { auto modifiedsmooth = [&](size_t nsteps) {
for (auto i : Range(nsteps)) for ([[maybe_unused]] auto i : Range(nsteps))
for (SurfaceElementIndex sei : mesh.SurfaceElements().Range()) for (SurfaceElementIndex sei : mesh.SurfaceElements().Range())
{ {
// assuming triangle // assuming triangle
@ -248,8 +248,9 @@ namespace netgen
} }
}; };
/*
auto smooth = [&] (size_t nsteps) { auto smooth = [&] (size_t nsteps) {
for(auto i : Range(nsteps)) for([[maybe_unused]] auto i : Range(nsteps))
for(const auto & sel : mesh.SurfaceElements()) for(const auto & sel : mesh.SurfaceElements())
{ {
double min_limit = 999; double min_limit = 999;
@ -259,6 +260,7 @@ namespace netgen
limits[pi] = min(limits[pi], 1.4*min_limit); limits[pi] = min(limits[pi], 1.4*min_limit);
} }
}; };
*/
// check for self-intersection within new elements (prisms/hexes) // check for self-intersection within new elements (prisms/hexes)
auto self_intersection = [&] () { auto self_intersection = [&] () {
@ -446,7 +448,7 @@ namespace netgen
Array<Segment> BuildSegments( Mesh & mesh ) Array<Segment> BuildSegments( Mesh & mesh )
{ {
Array<Segment> segments; Array<Segment> segments;
auto& topo = mesh.GetTopology(); // auto& topo = mesh.GetTopology();
NgArray<SurfaceElementIndex> surf_els; NgArray<SurfaceElementIndex> surf_els;
@ -550,13 +552,13 @@ namespace netgen
// smooth tangential part of growth vectors from edges to surface elements // smooth tangential part of growth vectors from edges to surface elements
RegionTimer rtsmooth(tsmooth); RegionTimer rtsmooth(tsmooth);
for(auto i : Range(10)) for([[maybe_unused]] auto i : Range(10))
{ {
for(auto pi : points) for(auto pi : points)
{ {
auto sels = p2sel[pi]; auto sels = p2sel[pi];
Vec<3> new_gw = growthvectors[pi]; Vec<3> new_gw = growthvectors[pi];
int cnt = 1; // int cnt = 1;
std::set<PointIndex> suround; std::set<PointIndex> suround;
suround.insert(pi); suround.insert(pi);
auto normal = normals[pi]; auto normal = normals[pi];
@ -691,20 +693,22 @@ namespace netgen
if(face_done.Test(facei)) if(face_done.Test(facei))
continue; continue;
bool point_moved = false; bool point_moved = false;
bool point_fixed = false; // bool point_fixed = false;
for(auto pi : sel.PNums()) for(auto pi : sel.PNums())
{ {
if(growthvectors[pi].Length() > 0) if(growthvectors[pi].Length() > 0)
point_moved = true; point_moved = true;
/*
else else
point_fixed = true; point_fixed = true;
*/
} }
if(point_moved && !moved_surfaces.Test(facei)) if(point_moved && !moved_surfaces.Test(facei))
{ {
int new_si = mesh.GetNFD()+1; int new_si = mesh.GetNFD()+1;
const auto& fd = mesh.GetFaceDescriptor(facei); const auto& fd = mesh.GetFaceDescriptor(facei);
auto isIn = domains.Test(fd.DomainIn()); // auto isIn = domains.Test(fd.DomainIn());
auto isOut = domains.Test(fd.DomainOut()); // auto isOut = domains.Test(fd.DomainOut());
int si = params.sides_keep_surfaceindex ? facei : -1; int si = params.sides_keep_surfaceindex ? facei : -1;
// domin and domout can only be set later // domin and domout can only be set later
FaceDescriptor new_fd(si, -1, FaceDescriptor new_fd(si, -1,
@ -1101,7 +1105,7 @@ namespace netgen
{ {
// copy here since we will add segments and this would // copy here since we will add segments and this would
// invalidate a reference! // invalidate a reference!
auto segi = segments[sei]; // auto segi = segments[sei];
for(auto [sej, type] : segmap[sei]) for(auto [sej, type] : segmap[sei])
{ {
auto segj = segments[sej]; auto segj = segments[sej];
@ -1475,7 +1479,7 @@ namespace netgen
auto p2el = mesh.CreatePoint2ElementTable(is_inner_point); auto p2el = mesh.CreatePoint2ElementTable(is_inner_point);
// smooth growth vectors to shift additional element layers to the inside and fix flipped tets // smooth growth vectors to shift additional element layers to the inside and fix flipped tets
for(auto step : Range(10)) for([[maybe_unused]] auto step : Range(10))
{ {
for(auto pi : points) for(auto pi : points)
{ {

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@ -165,11 +165,12 @@ namespace netgen
} }
auto oldnf = mesh.GetNSE(); auto oldnf = mesh.GetNSE();
auto res = meshing.GenerateMesh (mesh, mp, mp.maxh, domain); // auto res =
meshing.GenerateMesh (mesh, mp, mp.maxh, domain);
for (SurfaceElementIndex sei : Range(oldnf, mesh.GetNSE())) for (SurfaceElementIndex sei : Range(oldnf, mesh.GetNSE()))
mesh[sei].SetIndex (domain); mesh[sei].SetIndex (domain);
int hsteps = mp.optsteps2d; // int hsteps = mp.optsteps2d;
const char * optstr = mp.optimize2d.c_str(); const char * optstr = mp.optimize2d.c_str();
MeshOptimize2d meshopt(mesh); MeshOptimize2d meshopt(mesh);
@ -219,7 +220,7 @@ namespace netgen
int np = mesh.GetNP(); int np = mesh.GetNP();
int nseg = line_segments.Size(); int nseg = line_segments.Size();
int ne = mesh.GetNSE(); // int ne = mesh.GetNSE();
mesh.UpdateTopology(); mesh.UpdateTopology();
double total_thickness = 0.0; double total_thickness = 0.0;
@ -246,7 +247,7 @@ namespace netgen
Array<int> si_map(mesh.GetNFD()+2); Array<int> si_map(mesh.GetNFD()+2);
si_map = -1; si_map = -1;
int fd_old = mesh.GetNFD(); // int fd_old = mesh.GetNFD();
int max_edge_nr = -1; int max_edge_nr = -1;
int max_domain = -1; int max_domain = -1;
@ -284,7 +285,8 @@ namespace netgen
{ {
FaceDescriptor new_fd(0, 0, 0, -1); FaceDescriptor new_fd(0, 0, 0, -1);
new_fd.SetBCProperty(new_domain); new_fd.SetBCProperty(new_domain);
int new_fd_index = mesh.AddFaceDescriptor(new_fd); // int new_fd_index =
mesh.AddFaceDescriptor(new_fd);
if(should_make_new_domain) if(should_make_new_domain)
mesh.SetBCName(new_domain-1, "mapped_" + mesh.GetBCName(domain-1)); mesh.SetBCName(new_domain-1, "mapped_" + mesh.GetBCName(domain-1));
} }
@ -625,7 +627,7 @@ namespace netgen
auto & pm0 = mapto[seg[0]]; auto & pm0 = mapto[seg[0]];
auto & pm1 = mapto[seg[1]]; auto & pm1 = mapto[seg[1]];
auto newindex = si_map[domain]; // auto newindex = si_map[domain];
Segment s = seg; Segment s = seg;
s.geominfo[0] = {}; s.geominfo[0] = {};
@ -663,7 +665,7 @@ namespace netgen
auto p0 = mesh[pi0]; auto p0 = mesh[pi0];
auto p1 = mesh[pi1]; auto p1 = mesh[pi1];
auto q0 = mesh[pi2]; auto q0 = mesh[pi2];
auto q1 = mesh[pi3]; // auto q1 = mesh[pi3];
Vec<2> n = {-p1[1]+p0[1], p1[0]-p0[0]}; Vec<2> n = {-p1[1]+p0[1], p1[0]-p0[0]};
Vec<2> v = { q0[0]-p0[0], q0[1]-p0[1]}; Vec<2> v = { q0[0]-p0[0], q0[1]-p0[1]};

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@ -7415,6 +7415,7 @@ namespace netgen
auto v = pmax-pmin; auto v = pmax-pmin;
double eps = v.Length()*1e-8; double eps = v.Length()*1e-8;
/*
auto onPlane = [&] (const MeshPoint & p) -> bool auto onPlane = [&] (const MeshPoint & p) -> bool
{ {
auto v = p_plane-p; auto v = p_plane-p;
@ -7424,6 +7425,7 @@ namespace netgen
// auto ret = fabs(v*n_plane)/l; // auto ret = fabs(v*n_plane)/l;
return fabs(v*n_plane) < eps; return fabs(v*n_plane) < eps;
}; };
*/
/* /*
auto mirror = [&] (PointIndex pi) -> PointIndex auto mirror = [&] (PointIndex pi) -> PointIndex

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@ -201,24 +201,24 @@ namespace netgen
INDEX_4 face4(el[elfaces[j][0]], el[elfaces[j][1]], INDEX_4 face4(el[elfaces[j][0]], el[elfaces[j][1]],
el[elfaces[j][2]], el[elfaces[j][3]]); el[elfaces[j][2]], el[elfaces[j][3]]);
int facedir = 0; // int facedir = 0;
if (min2 (face4.I1(), face4.I2()) > if (min2 (face4.I1(), face4.I2()) >
min2 (face4.I4(), face4.I3())) min2 (face4.I4(), face4.I3()))
{ // z - flip { // z - flip
facedir += 1; // facedir += 1;
swap (face4.I1(), face4.I4()); swap (face4.I1(), face4.I4());
swap (face4.I2(), face4.I3()); swap (face4.I2(), face4.I3());
} }
if (min2 (face4.I1(), face4.I4()) > if (min2 (face4.I1(), face4.I4()) >
min2 (face4.I2(), face4.I3())) min2 (face4.I2(), face4.I3()))
{ // x - flip { // x - flip
facedir += 2; // facedir += 2;
swap (face4.I1(), face4.I2()); swap (face4.I1(), face4.I2());
swap (face4.I3(), face4.I4()); swap (face4.I3(), face4.I4());
} }
if (face4.I2() > face4.I4()) if (face4.I2() > face4.I4())
{ // diagonal flip { // diagonal flip
facedir += 4; // facedir += 4;
swap (face4.I2(), face4.I4()); swap (face4.I2(), face4.I4());
} }
@ -263,27 +263,27 @@ namespace netgen
{ // triangle { // triangle
// int facenum; // int facenum;
int facedir; // int facedir;
INDEX_4 face(el.PNum(elfaces[0][0]), INDEX_4 face(el.PNum(elfaces[0][0]),
el.PNum(elfaces[0][1]), el.PNum(elfaces[0][1]),
el.PNum(elfaces[0][2]),0); el.PNum(elfaces[0][2]),0);
facedir = 0; // facedir = 0;
if (face.I1() > face.I2()) if (face.I1() > face.I2())
{ {
swap (face.I1(), face.I2()); swap (face.I1(), face.I2());
facedir += 1; // facedir += 1;
} }
if (face.I2() > face.I3()) if (face.I2() > face.I3())
{ {
swap (face.I2(), face.I3()); swap (face.I2(), face.I3());
facedir += 2; // facedir += 2;
} }
if (face.I1() > face.I2()) if (face.I1() > face.I2())
{ {
swap (face.I1(), face.I2()); swap (face.I1(), face.I2());
facedir += 4; // facedir += 4;
} }
if (face.I1() != v) continue; if (face.I1() != v) continue;
@ -312,31 +312,31 @@ namespace netgen
{ {
// quad // quad
// int facenum; // int facenum;
int facedir; // int facedir;
INDEX_4 face4(el.PNum(elfaces[0][0]), INDEX_4 face4(el.PNum(elfaces[0][0]),
el.PNum(elfaces[0][1]), el.PNum(elfaces[0][1]),
el.PNum(elfaces[0][2]), el.PNum(elfaces[0][2]),
el.PNum(elfaces[0][3])); el.PNum(elfaces[0][3]));
facedir = 0; // facedir = 0;
if (min2 (face4.I1(), face4.I2()) > if (min2 (face4.I1(), face4.I2()) >
min2 (face4.I4(), face4.I3())) min2 (face4.I4(), face4.I3()))
{ // z - orientation { // z - orientation
facedir += 1; // facedir += 1;
swap (face4.I1(), face4.I4()); swap (face4.I1(), face4.I4());
swap (face4.I2(), face4.I3()); swap (face4.I2(), face4.I3());
} }
if (min2 (face4.I1(), face4.I4()) > if (min2 (face4.I1(), face4.I4()) >
min2 (face4.I2(), face4.I3())) min2 (face4.I2(), face4.I3()))
{ // x - orientation { // x - orientation
facedir += 2; // facedir += 2;
swap (face4.I1(), face4.I2()); swap (face4.I1(), face4.I2());
swap (face4.I3(), face4.I4()); swap (face4.I3(), face4.I4());
} }
if (face4.I2() > face4.I4()) if (face4.I2() > face4.I4())
{ {
facedir += 4; // facedir += 4;
swap (face4.I2(), face4.I4()); swap (face4.I2(), face4.I4());
} }

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@ -516,7 +516,7 @@ static void EdgesPartition(const TopoDS_Face& F,
} }
} }
Standard_Boolean AffichPurge = Standard_False; // Standard_Boolean AffichPurge = Standard_False;
if ( LV1.IsEmpty()) return; if ( LV1.IsEmpty()) return;

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@ -67,7 +67,7 @@
#include <TopExp_Explorer.hxx> #include <TopExp_Explorer.hxx>
static char* name = new char[100]; static char* name = new char[100];
static int nbe = 0; // static int nbe = 0;
#ifdef WIN32 #ifdef WIN32
#define M_PI 3.14159265358979323846 #define M_PI 3.14159265358979323846
@ -198,7 +198,7 @@ static Standard_Boolean SelectEdge(const TopoDS_Face& F,
Cc->D2(uc, PC, CTg1, CTg2); Cc->D2(uc, PC, CTg1, CTg2);
C->D2(u, P, Tg1, Tg2); C->D2(u, P, Tg1, Tg2);
Standard_Real angle; Standard_Real angle = 0.0;
if (CE.Orientation () == TopAbs_REVERSED && E.Orientation () == TopAbs_FORWARD) { if (CE.Orientation () == TopAbs_REVERSED && E.Orientation () == TopAbs_FORWARD) {
angle = CTg1.Angle(Tg1.Reversed()); angle = CTg1.Angle(Tg1.Reversed());
@ -363,7 +363,7 @@ void Partition_Loop::Perform()
} }
} }
int i = 0; // int i = 0;
while (!End) { while (!End) {
//------------------------------- //-------------------------------
// Construction of a wire. // Construction of a wire.

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@ -1459,7 +1459,7 @@ void Partition_Spliter::MakeEdges (const TopoDS_Edge& E,
if (VOnE.Extent() < 3) { // do not rebuild not cut edge if (VOnE.Extent() < 3) { // do not rebuild not cut edge
if (( VF.IsSame( VOnE.First() ) && VL.IsSame( VOnE.Last() )) || if (( VF.IsSame( VOnE.First() ) && VL.IsSame( VOnE.Last() )) ||
VL.IsSame( VOnE.First() ) && VF.IsSame( VOnE.Last() ) ) { (VL.IsSame( VOnE.First() ) && VF.IsSame( VOnE.Last() )) ) {
NE.Append( E ); NE.Append( E );
return; return;
} }
@ -1476,7 +1476,7 @@ void Partition_Spliter::MakeEdges (const TopoDS_Edge& E,
if (SV.Length() < 3) { // do not rebuild not cut edge if (SV.Length() < 3) { // do not rebuild not cut edge
if (( VF.IsSame( SV.First() ) && VL.IsSame( SV.Last() )) || if (( VF.IsSame( SV.First() ) && VL.IsSame( SV.Last() )) ||
VL.IsSame( SV.First() ) && VF.IsSame( SV.Last() ) ) { ( VL.IsSame( SV.First() ) && VF.IsSame( SV.Last() )) ) {
NE.Append( E ); NE.Append( E );
return; return;
} }

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@ -1714,11 +1714,13 @@ namespace netgen
BRepTools::Read(shape, ss, builder); BRepTools::Read(shape, ss, builder);
} }
/*
// enumerate shapes and archive only integers // enumerate shapes and archive only integers
auto my_hash = [](const TopoDS_Shape & key) { auto my_hash = [](const TopoDS_Shape & key) {
auto occ_hash = key.HashCode(1<<31UL); auto occ_hash = key.HashCode(1<<31UL);
return std::hash<decltype(occ_hash)>()(occ_hash); return std::hash<decltype(occ_hash)>()(occ_hash);
}; };
*/
TopTools_IndexedMapOfShape shape_map; TopTools_IndexedMapOfShape shape_map;
Array<TopoDS_Shape> shape_list; Array<TopoDS_Shape> shape_list;

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@ -1935,7 +1935,7 @@ DLL_HEADER void ExportNgOCCShapes(py::module &m)
optional<TopoDS_Wire> auxspine) { optional<TopoDS_Wire> auxspine) {
if (twist) if (twist)
{ {
auto [pnt, angle] = *twist; // auto [pnt, angle] = *twist;
/* /*
cyl = Cylinder((0,0,0), Z, r=1, h=1).faces[0] cyl = Cylinder((0,0,0), Z, r=1, h=1).faces[0]
@ -2230,7 +2230,7 @@ tangents : Dict[int, gp_Vec2d]
TColgp_Array1OfPnt poles(0, vpoles.size()-1); TColgp_Array1OfPnt poles(0, vpoles.size()-1);
TColStd_Array1OfReal knots(0, vpoles.size()+degree); TColStd_Array1OfReal knots(0, vpoles.size()+degree);
TColStd_Array1OfInteger mult(0, vpoles.size()+degree); TColStd_Array1OfInteger mult(0, vpoles.size()+degree);
int cnt = 0; // int cnt = 0;
for (int i = 0; i < vpoles.size(); i++) for (int i = 0; i < vpoles.size(); i++)
{ {

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@ -278,7 +278,7 @@ NGCORE_API_EXPORT void ExportSTL(py::module & m)
throw Exception("Point not found in triangle"); throw Exception("Point not found in triangle");
self->SetSelectTrig(trignr); self->SetSelectTrig(trignr);
self->SetNodeOfSelTrig(point_in_trig); self->SetNodeOfSelTrig(point_in_trig);
for(auto i : Range(count)) for([[maybe_unused]] auto i : Range(count))
self->MoveSelectedPointToMiddle(); self->MoveSelectedPointToMiddle();
}) })
.def("Save", &STLGeometry::Save) .def("Save", &STLGeometry::Save)

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@ -148,13 +148,15 @@ namespace nglib
numpoints = me->GetNP(); numpoints = me->GetNP();
// Initially set up only for surface meshing without any optimisation // Initially set up only for surface meshing without any optimisation
int perfstepsend = MESHCONST_MESHSURFACE; // int perfstepsend = MESHCONST_MESHSURFACE;
// Check and if required, enable surface mesh optimisation step // Check and if required, enable surface mesh optimisation step
/*
if(mp->optsurfmeshenable) if(mp->optsurfmeshenable)
{ {
perfstepsend = MESHCONST_OPTSURFACE; perfstepsend = MESHCONST_OPTSURFACE;
} }
*/
occgeom->MeshSurface(*me, mparam); occgeom->MeshSurface(*me, mparam);
occgeom->OptimizeSurface(*me, mparam); occgeom->OptimizeSurface(*me, mparam);