mirror of
https://github.com/NGSolve/netgen.git
synced 2024-12-27 14:20:34 +05:00
408 lines
15 KiB
C++
408 lines
15 KiB
C++
#ifdef NG_PYTHON
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#include <../general/ngpython.hpp>
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#include <csg.hpp>
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using namespace netgen;
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namespace netgen
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{
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extern shared_ptr<NetgenGeometry> ng_geometry;
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}
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inline void NOOP_Deleter(void *) { ; }
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// a shadow solid tree using shared pointers.
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class SPSolid
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{
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shared_ptr<SPSolid> s1, s2;
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Solid * solid;
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int bc = -1;
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double maxh = -1;
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string material;
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bool owner;
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double red, green, blue;
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bool transp = false;
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public:
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enum optyp { TERM, SECTION, UNION, SUB };
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SPSolid (Solid * as) : solid(as), owner(true), op(TERM) { ; }
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~SPSolid ()
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{
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; // if (owner) delete solid;
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}
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SPSolid (optyp aop, shared_ptr<SPSolid> as1, shared_ptr<SPSolid> as2)
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: s1(as1), s2(as2), owner(true), op(aop)
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{
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if (aop == UNION)
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solid = new Solid (Solid::UNION, s1->GetSolid(), s2->GetSolid());
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else if (aop == SECTION)
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solid = new Solid (Solid::SECTION, s1->GetSolid(), s2->GetSolid());
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else if (aop == SUB)
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solid = new Solid (Solid::SUB, s1->GetSolid()); // , s2->GetSolid());
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}
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Solid * GetSolid() { return solid; }
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const Solid * GetSolid() const { return solid; }
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void GiveUpOwner()
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{
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owner = false;
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if (s1) s1 -> GiveUpOwner();
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if (s2) s2 -> GiveUpOwner();
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}
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void AddSurfaces(CSGeometry & geom)
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{
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if (op == TERM)
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geom.AddSurfaces (solid->GetPrimitive());
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if (s1) s1 -> AddSurfaces (geom);
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if (s2) s2 -> AddSurfaces (geom);
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}
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void SetMaterial (string mat) { material = mat; }
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string GetMaterial ()
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{
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if (!material.empty()) return material;
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if (s1)
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{
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string s1mat = s1->GetMaterial();
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if (!s1mat.empty()) return s1mat;
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}
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if (s2)
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{
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string s2mat = s2->GetMaterial();
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if (!s2mat.empty()) return s2mat;
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}
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return material;
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}
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void SetBC(int abc)
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{
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if (bc == -1)
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{
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bc = abc;
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if (s1) s1 -> SetBC(bc);
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if (s2) s2 -> SetBC(bc);
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if (op == TERM)
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{
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Primitive * prim = solid -> GetPrimitive();
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for (int i = 0; i < prim->GetNSurfaces(); i++)
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prim->GetSurface(i).SetBCProperty (abc);
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// cout << "set " << prim->GetNSurfaces() << " surfaces to bc " << bc << endl;
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}
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}
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}
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void SetMaxH(double amaxh)
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{
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if (maxh == -1)
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{
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maxh = amaxh;
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if (s1) s1 -> SetMaxH(maxh);
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if (s2) s2 -> SetMaxH(maxh);
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if (op == TERM)
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{
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Primitive * prim = solid -> GetPrimitive();
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for (int i = 0; i < prim->GetNSurfaces(); i++)
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prim->GetSurface(i).SetMaxH (maxh);
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}
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}
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}
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void SetColor(double ared, double agreen, double ablue)
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{
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red = ared;
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green = agreen;
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blue = ablue;
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}
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double GetRed() const { return red; }
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double GetGreen() const { return green; }
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double GetBlue() const { return blue; }
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void SetTransparent() { transp = true; }
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bool IsTransparent() { return transp; }
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private:
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optyp op;
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};
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inline ostream & operator<< (ostream & ost, const SPSolid & sol)
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{
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ost << *sol.GetSolid();
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return ost;
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}
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namespace netgen
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{
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extern CSGeometry * ParseCSG (istream & istr);
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}
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DLL_HEADER void ExportCSG()
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{
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ModuleScope module("csg");
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bp::class_<Point<2>> ("Point2d", bp::init<double,double>())
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.def ("__str__", &ToString<Point<2>>)
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.def(bp::self-bp::self)
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.def(bp::self+Vec<2>())
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.def(bp::self-Vec<2>())
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;
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bp::class_<Point<3>> ("Point3d", bp::init<double,double,double>())
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.def ("__str__", &ToString<Point<3>>)
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.def(bp::self-bp::self)
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.def(bp::self+Vec<3>())
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.def(bp::self-Vec<3>())
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;
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bp::def ("Pnt", FunctionPointer
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([](double x, double y, double z) { return Point<3>(x,y,z); }));
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bp::def ("Pnt", FunctionPointer
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([](double x, double y) { return Point<2>(x,y); }));
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bp::class_<Vec<2>> ("Vec2d", bp::init<double,double>())
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.def ("__str__", &ToString<Vec<3>>)
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.def(bp::self+bp::self)
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.def(bp::self-bp::self)
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.def(-bp::self)
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.def(double()*bp::self)
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.def("Norm", &Vec<2>::Length)
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;
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bp::class_<Vec<3>> ("Vec3d", bp::init<double,double,double>())
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.def ("__str__", &ToString<Vec<3>>)
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.def(bp::self+bp::self)
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.def(bp::self-bp::self)
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.def(-bp::self)
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.def(double()*bp::self)
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.def("Norm", &Vec<3>::Length)
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;
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bp::def ("Vec", FunctionPointer
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([] (double x, double y, double z) { return Vec<3>(x,y,z); }));
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bp::def ("Vec", FunctionPointer
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([] (double x, double y) { return Vec<2>(x,y); }));
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bp::class_<SPSolid, shared_ptr<SPSolid>, boost::noncopyable> ("Solid", bp::no_init)
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.def ("__str__", &ToString<SPSolid>)
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.def ("__add__", FunctionPointer( [] ( shared_ptr<SPSolid> self, shared_ptr<SPSolid> other) { return make_shared<SPSolid> (SPSolid::UNION, self, other); }))
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.def ("__mul__", FunctionPointer( [] ( shared_ptr<SPSolid> self, shared_ptr<SPSolid> other) { return make_shared<SPSolid> (SPSolid::SECTION, self, other); }))
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.def ("__sub__", FunctionPointer
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([] ( shared_ptr<SPSolid> self, shared_ptr<SPSolid> other)
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{ return make_shared<SPSolid> (SPSolid::SECTION, self,
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make_shared<SPSolid> (SPSolid::SUB, other, nullptr)); }))
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.def ("bc", FunctionPointer([](shared_ptr<SPSolid> & self, int nr) -> shared_ptr<SPSolid>
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{ self->SetBC(nr); return self; }))
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.def ("maxh", FunctionPointer([](shared_ptr<SPSolid> & self, double maxh) -> shared_ptr<SPSolid>
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{ self->SetMaxH(maxh); return self; }))
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.def ("mat", FunctionPointer([](shared_ptr<SPSolid> & self, string mat) -> shared_ptr<SPSolid>
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{ self->SetMaterial(mat); return self; }))
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.def ("mat", &SPSolid::GetMaterial)
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.def("col", FunctionPointer([](shared_ptr<SPSolid> & self, bp::list rgb) -> shared_ptr<SPSolid>
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{
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bp::extract<double> red(rgb[0]);
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bp::extract<double> green(rgb[1]);
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bp::extract<double> blue(rgb[2]);
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self->SetColor(red(),green(),blue());
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return self;
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}))
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.def("transp", FunctionPointer([](shared_ptr<SPSolid> & self)->shared_ptr < SPSolid > { self->SetTransparent(); return self; }))
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;
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bp::def ("Sphere", FunctionPointer([](Point<3> c, double r)
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{
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Sphere * sp = new Sphere (c, r);
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Solid * sol = new Solid (sp);
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return make_shared<SPSolid> (sol);
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}));
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bp::def ("Plane", FunctionPointer([](Point<3> p, Vec<3> n)
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{
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Plane * sp = new Plane (p,n);
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Solid * sol = new Solid (sp);
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return make_shared<SPSolid> (sol);
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}));
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bp::def ("Cylinder", FunctionPointer([](Point<3> a, Point<3> b, double r)
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{
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Cylinder * cyl = new Cylinder (a, b, r);
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Solid * sol = new Solid (cyl);
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return make_shared<SPSolid> (sol);
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}));
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bp::def ("OrthoBrick", FunctionPointer([](Point<3> p1, Point<3> p2)
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{
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OrthoBrick * brick = new OrthoBrick (p1,p2);
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Solid * sol = new Solid (brick);
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return make_shared<SPSolid> (sol);
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}));
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bp::def ("Or", FunctionPointer([](shared_ptr<SPSolid> s1, shared_ptr<SPSolid> s2)
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{
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return make_shared<SPSolid> (SPSolid::UNION, s1, s2);
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}));
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bp::def ("And", FunctionPointer([](shared_ptr<SPSolid> s1, shared_ptr<SPSolid> s2)
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{
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return make_shared<SPSolid> (SPSolid::SECTION, s1, s2);
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}));
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bp::class_<CSGeometry, boost::noncopyable> ("CSGeometry")
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.def("__init__", bp::make_constructor (FunctionPointer
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([](const string & filename)
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{
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cout << "load geometry";
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ifstream ist(filename);
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shared_ptr<CSGeometry> geom(ParseCSG(ist));
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geom -> FindIdenticSurfaces(1e-8 * geom->MaxSize());
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return geom;
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})))
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.def("__init__", bp::make_constructor (FunctionPointer
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([](const bp::list & solidlist)
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{
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cout << "csg from list";
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auto geom = make_shared<CSGeometry>();
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for (int i = 0; i < len(solidlist); i++)
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{
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bp::object obj = solidlist[i];
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cout << "obj " << i << endl;
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bp::extract<shared_ptr<SPSolid>> solid(solidlist[i]);
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if(solid.check())
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{
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cout << "its a solid" << endl;
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solid()->AddSurfaces (*geom);
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solid()->GiveUpOwner();
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int tlonr = geom->SetTopLevelObject (solid()->GetSolid());
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geom->GetTopLevelObject(tlonr) -> SetMaterial(solid()->GetMaterial());
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}
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}
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geom -> FindIdenticSurfaces(1e-8 * geom->MaxSize());
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return geom;
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})))
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.def("Save", FunctionPointer([] (CSGeometry & self, string filename)
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{
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cout << "save geometry to file " << filename << endl;
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self.Save (filename);
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}))
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.def("Add", FunctionPointer
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([] (CSGeometry & self, shared_ptr<SPSolid> solid, bp::list bcmod)
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{
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solid->AddSurfaces (self);
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solid->GiveUpOwner();
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int tlonr = self.SetTopLevelObject (solid->GetSolid());
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self.GetTopLevelObject(tlonr) -> SetMaterial(solid->GetMaterial());
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self.GetTopLevelObject(tlonr) -> SetRGB(solid->GetRed(),solid->GetGreen(),solid->GetBlue());
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self.GetTopLevelObject(tlonr)->SetTransparent(solid->IsTransparent());
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// bcmod is list of tuples ( solid, bcnr )
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for (int i = 0; i < bp::len(bcmod); i++)
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{
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bp::tuple tup = bp::extract<bp::tuple> (bcmod[i]) ();
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auto mod_solid = bp::extract<shared_ptr<SPSolid>> (tup[0]) ();
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auto mod_nr = bp::extract<int> (tup[1])();
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Array<int> si;
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mod_solid -> GetSolid() -> GetSurfaceIndices (si);
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// cout << "change bc on surfaces: " << si << " to " << mod_nr << endl;
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for (int j = 0; j < si.Size(); j++)
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{
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CSGeometry::BCModification bcm;
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bcm.bcname = NULL;
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bcm.tlonr = tlonr;
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bcm.si = si[j];
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bcm.bcnr = mod_nr;
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self.bcmodifications.Append (bcm);
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}
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}
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}),
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(bp::arg("self"), bp::arg("solid"), bp::arg("bcmod")=bp::list())
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)
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.def("CloseSurfaces", FunctionPointer
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([] (CSGeometry & self, shared_ptr<SPSolid> s1, shared_ptr<SPSolid> s2, int reflevels)
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{
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Array<int> si1, si2;
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s1->GetSolid()->GetSurfaceIndices (si1);
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s2->GetSolid()->GetSurfaceIndices (si2);
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cout << "surface ids1 = " << si1 << endl;
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cout << "surface ids2 = " << si2 << endl;
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Flags flags;
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const TopLevelObject * domain = nullptr;
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self.AddIdentification
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(new CloseSurfaceIdentification
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(self.GetNIdentifications()+1, self,
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self.GetSurface (si1[0]), self.GetSurface (si2[0]),
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domain,
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flags));
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}),
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(bp::arg("self"), bp::arg("solid1"), bp::arg("solid2"), bp::arg("reflevels")=2)
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)
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.add_property ("ntlo", &CSGeometry::GetNTopLevelObjects)
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;
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bp::def("GenerateMesh", FunctionPointer
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([](CSGeometry & geo, MeshingParameters & param)
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{
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// testout = new ofstream ("test.out");
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shared_ptr<Mesh> dummy;
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cout << "Genrate Mesh" << endl;
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// cout << "Genrate Mesh, params = " << param << endl;
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// cout << "geom, bbox = " << geo.BoundingBox() << endl;
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geo.FindIdenticSurfaces(1e-8 * geo.MaxSize());
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geo.GenerateMesh (dummy, param, 0, 6);
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ng_geometry.reset (&geo, NOOP_Deleter);
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return dummy;
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}))
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;
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bp::def("Save", FunctionPointer
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([](const Mesh & self, const string & filename, const CSGeometry & geom)
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{
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ostream * outfile;
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if (filename.substr (filename.length()-3, 3) == ".gz")
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outfile = new ogzstream (filename.c_str());
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else
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outfile = new ofstream (filename.c_str());
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self.Save (*outfile);
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*outfile << endl << endl << "endmesh" << endl << endl;
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geom.SaveToMeshFile (*outfile);
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delete outfile;
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}))
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;
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bp::def("ZRefinement", FunctionPointer
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([](Mesh & mesh, CSGeometry & geom)
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{
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ZRefinementOptions opt;
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opt.minref = 5;
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ZRefinement (mesh, &geom, opt);
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}))
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;
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}
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BOOST_PYTHON_MODULE(libcsg) {
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ExportCSG();
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}
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#endif
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